2 * Source file for nanoMIPS disassembler component of QEMU
4 * Copyright (C) 2018 Wave Computing, Inc.
5 * Copyright (C) 2018 Matthew Fortune <matthew.fortune@mips.com>
6 * Copyright (C) 2018 Aleksandar Markovic <amarkovic@wavecomp.com>
8 * This program is free software: you can redistribute it and/or modify
9 * it under the terms of the GNU General Public License as published by
10 * the Free Software Foundation, either version 2 of the License, or
11 * (at your option) any later version.
13 * This program is distributed in the hope that it will be useful,
14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 * GNU General Public License for more details.
18 * You should have received a copy of the GNU General Public License
19 * along with this program. If not, see <https://www.gnu.org/licenses/>.
24 * Documentation used while implementing this component:
26 * [1] "MIPSĀ® Architecture Base: nanoMIPS32(tm) Instruction Set Technical
27 * Reference Manual", Revision 01.01, April 27, 2018
31 #include "qemu/osdep.h"
32 #include "disas/dis-asm.h"
43 #define IMGASSERTONCE(test)
46 int nanomips_dis(char *buf
,
53 uint16 bits
[3] = {one
, two
, three
};
55 NMD::TABLE_ENTRY_TYPE type
;
56 NMD
d(address
, NMD::ALL_ATTRIBUTES
);
57 int size
= d
.Disassemble(bits
, disasm
, type
);
59 strcpy(buf
, disasm
.c_str());
63 int print_insn_nanomips(bfd_vma memaddr
, struct disassemble_info
*info
)
67 uint16_t insn1
= 0, insn2
= 0, insn3
= 0;
70 info
->bytes_per_chunk
= 2;
71 info
->display_endian
= info
->endian
;
72 info
->insn_info_valid
= 1;
73 info
->branch_delay_insns
= 0;
75 info
->insn_type
= dis_nonbranch
;
79 status
= (*info
->read_memory_func
)(memaddr
, buffer
, 2, info
);
81 (*info
->memory_error_func
)(status
, memaddr
, info
);
85 if (info
->endian
== BFD_ENDIAN_BIG
) {
86 insn1
= bfd_getb16(buffer
);
88 insn1
= bfd_getl16(buffer
);
90 (*info
->fprintf_func
)(info
->stream
, "%04x ", insn1
);
92 /* Handle 32-bit opcodes. */
93 if ((insn1
& 0x1000) == 0) {
94 status
= (*info
->read_memory_func
)(memaddr
+ 2, buffer
, 2, info
);
96 (*info
->memory_error_func
)(status
, memaddr
+ 2, info
);
100 if (info
->endian
== BFD_ENDIAN_BIG
) {
101 insn2
= bfd_getb16(buffer
);
103 insn2
= bfd_getl16(buffer
);
105 (*info
->fprintf_func
)(info
->stream
, "%04x ", insn2
);
107 (*info
->fprintf_func
)(info
->stream
, " ");
109 /* Handle 48-bit opcodes. */
110 if ((insn1
>> 10) == 0x18) {
111 status
= (*info
->read_memory_func
)(memaddr
+ 4, buffer
, 2, info
);
113 (*info
->memory_error_func
)(status
, memaddr
+ 4, info
);
117 if (info
->endian
== BFD_ENDIAN_BIG
) {
118 insn3
= bfd_getb16(buffer
);
120 insn3
= bfd_getl16(buffer
);
122 (*info
->fprintf_func
)(info
->stream
, "%04x ", insn3
);
124 (*info
->fprintf_func
)(info
->stream
, " ");
127 int length
= nanomips_dis(buf
, memaddr
, insn1
, insn2
, insn3
);
129 /* FIXME: Should probably use a hash table on the major opcode here. */
131 (*info
->fprintf_func
) (info
->stream
, "%s", buf
);
136 info
->insn_type
= dis_noninsn
;
138 return insn3
? 6 : insn2
? 4 : 2;
144 address
addr32(address a
)
149 std::string
format(const char *format
, ...)
153 va_start(args
, format
);
154 int err
= vsprintf(buffer
, format
, args
);
162 std::string
format(const char *format
,
167 sprintf(buffer
, format
, s
.c_str());
172 std::string
format(const char *format
,
178 sprintf(buffer
, format
, s1
.c_str(), s2
.c_str());
183 std::string
format(const char *format
,
190 sprintf(buffer
, format
, s1
.c_str(), s2
.c_str(), s3
.c_str());
195 std::string
format(const char *format
,
203 sprintf(buffer
, format
, s1
.c_str(), s2
.c_str(), s3
.c_str(),
209 std::string
format(const char *format
,
218 sprintf(buffer
, format
, s1
.c_str(), s2
.c_str(), s3
.c_str(),
219 s4
.c_str(), s5
.c_str());
224 std::string
format(const char *format
,
230 sprintf(buffer
, format
, d
, s2
.c_str());
235 std::string
format(const char *format
,
242 sprintf(buffer
, format
, s1
.c_str(), d
, s2
.c_str());
247 std::string
format(const char *format
,
254 sprintf(buffer
, format
, s1
.c_str(), s2
.c_str(), d
);
261 return static_cast<char>(c
);
266 std::string
to_string(img::address a
)
269 sprintf(buffer
, "0x%" PRIx64
, a
);
274 uint64
extract_bits(uint64 data
, uint32 bit_offset
, uint32 bit_size
)
276 return (data
<< (64 - (bit_size
+ bit_offset
))) >> (64 - bit_size
);
280 int64
sign_extend(int64 data
, int msb
)
282 uint64 shift
= 63 - msb
;
283 return (data
<< shift
) >> shift
;
287 uint64
NMD::renumber_registers(uint64 index
, uint64
*register_list
,
288 size_t register_list_size
)
290 if (index
< register_list_size
) {
291 return register_list
[index
];
294 throw std::runtime_error(img::format(
295 "Invalid register mapping index %" PRIu64
296 ", size of list = %zu",
297 index
, register_list_size
));
302 * NMD::decode_gpr_gpr4() - decoder for 'gpr4' gpr encoding type
304 * Map a 4-bit code to the 5-bit register space according to this pattern:
307 * 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
308 * | | | | | | | | | | | | | | | |
309 * | | | | | | | | | | | | | | | |
310 * | | | | | | | | | | | ā---------------ā
311 * | | | | | | | | | | ā---------------ā |
312 * | | | | | | | | | ā---------------ā | |
313 * | | | | | | | | ā---------------ā | | |
314 * | | | | | | | | | | | | | | | |
315 * | | | | | | | | | | | | | | | |
316 * 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
319 * Used in handling following instructions:
327 uint64
NMD::decode_gpr_gpr4(uint64 d
)
329 static uint64 register_list
[] = { 8, 9, 10, 11, 4, 5, 6, 7,
330 16, 17, 18, 19, 20, 21, 22, 23 };
331 return renumber_registers(d
, register_list
,
332 sizeof(register_list
) / sizeof(register_list
[0]));
337 * NMD::decode_gpr_gpr4_zero() - decoder for 'gpr4.zero' gpr encoding type
339 * Map a 4-bit code to the 5-bit register space according to this pattern:
342 * 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
343 * | | | | | | | | | | | | | | | |
344 * | | | | | | | | | | | | ā---------------------ā
345 * | | | | | | | | | | | ā---------------ā |
346 * | | | | | | | | | | ā---------------ā | |
347 * | | | | | | | | | ā---------------ā | | |
348 * | | | | | | | | ā---------------ā | | | |
349 * | | | | | | | | | | | | | | | |
350 * | | | | | | | | | | | | | | | |
351 * 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
354 * This pattern is the same one used for 'gpr4' gpr encoding type, except for
355 * the input value 3, that is mapped to the output value 0 instead of 11.
357 * Used in handling following instructions:
363 uint64
NMD::decode_gpr_gpr4_zero(uint64 d
)
365 static uint64 register_list
[] = { 8, 9, 10, 0, 4, 5, 6, 7,
366 16, 17, 18, 19, 20, 21, 22, 23 };
367 return renumber_registers(d
, register_list
,
368 sizeof(register_list
) / sizeof(register_list
[0]));
373 * NMD::decode_gpr_gpr3() - decoder for 'gpr3' gpr encoding type
375 * Map a 3-bit code to the 5-bit register space according to this pattern:
380 * | | | ā-----------------------ā
381 * | | ā-----------------------ā |
382 * | ā-----------------------ā | |
383 * ā-----------------------ā | | |
385 * ā-------ā | | | | | | |
386 * | ā-------ā | | | | | |
387 * | | ā-------ā | | | | |
388 * | | | ā-------ā | | | |
390 * 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
393 * Used in handling following instructions:
422 uint64
NMD::decode_gpr_gpr3(uint64 d
)
424 static uint64 register_list
[] = { 16, 17, 18, 19, 4, 5, 6, 7 };
425 return renumber_registers(d
, register_list
,
426 sizeof(register_list
) / sizeof(register_list
[0]));
431 * NMD::decode_gpr_gpr3_src_store() - decoder for 'gpr3.src.store' gpr encoding
434 * Map a 3-bit code to the 5-bit register space according to this pattern:
438 * | | | | | | | ā-----------------------ā
439 * | | | ā-----------------------ā |
440 * | | ā-----------------------ā | |
441 * | ā-----------------------ā | | |
442 * ā-----------------------ā | | | |
444 * ā-------ā | | | | | | |
445 * | ā-------ā | | | | | |
446 * | | ā-------ā | | | | |
449 * 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
452 * This pattern is the same one used for 'gpr3' gpr encoding type, except for
453 * the input value 0, that is mapped to the output value 0 instead of 16.
455 * Used in handling following instructions:
462 uint64
NMD::decode_gpr_gpr3_src_store(uint64 d
)
464 static uint64 register_list
[] = { 0, 17, 18, 19, 4, 5, 6, 7 };
465 return renumber_registers(d
, register_list
,
466 sizeof(register_list
) / sizeof(register_list
[0]));
471 * NMD::decode_gpr_gpr2_reg1() - decoder for 'gpr2.reg1' gpr encoding type
473 * Map a 2-bit code to the 5-bit register space according to this pattern:
478 * | | | ā-------------------ā
479 * | | ā-------------------ā |
480 * | ā-------------------ā | |
481 * ā-------------------ā | | |
484 * 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
487 * Used in handling following instructions:
492 uint64
NMD::decode_gpr_gpr2_reg1(uint64 d
)
494 static uint64 register_list
[] = { 4, 5, 6, 7 };
495 return renumber_registers(d
, register_list
,
496 sizeof(register_list
) / sizeof(register_list
[0]));
501 * NMD::decode_gpr_gpr2_reg2() - decoder for 'gpr2.reg2' gpr encoding type
503 * Map a 2-bit code to the 5-bit register space according to this pattern:
508 * | | | ā-----------------ā
509 * | | ā-----------------ā |
510 * | ā-----------------ā | |
511 * ā-----------------ā | | |
514 * 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
517 * Used in handling following instructions:
522 uint64
NMD::decode_gpr_gpr2_reg2(uint64 d
)
524 static uint64 register_list
[] = { 5, 6, 7, 8 };
525 return renumber_registers(d
, register_list
,
526 sizeof(register_list
) / sizeof(register_list
[0]));
531 * NMD::decode_gpr_gpr1() - decoder for 'gpr1' gpr encoding type
533 * Map a 1-bit code to the 5-bit register space according to this pattern:
538 * | ā---------------------ā
539 * ā---------------------ā |
544 * 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
547 * Used in handling following instruction:
551 uint64
NMD::decode_gpr_gpr1(uint64 d
)
553 static uint64 register_list
[] = { 4, 5 };
554 return renumber_registers(d
, register_list
,
555 sizeof(register_list
) / sizeof(register_list
[0]));
559 uint64
NMD::copy(uint64 d
)
565 int64
NMD::copy(int64 d
)
571 int64
NMD::neg_copy(uint64 d
)
577 int64
NMD::neg_copy(int64 d
)
583 /* strange wrapper around gpr3 */
584 uint64
NMD::encode_rs3_and_check_rs3_ge_rt3(uint64 d
)
586 return decode_gpr_gpr3(d
);
590 /* strange wrapper around gpr3 */
591 uint64
NMD::encode_rs3_and_check_rs3_lt_rt3(uint64 d
)
593 return decode_gpr_gpr3(d
);
597 /* nop - done by extraction function */
598 uint64
NMD::encode_s_from_address(uint64 d
)
604 /* nop - done by extraction function */
605 uint64
NMD::encode_u_from_address(uint64 d
)
611 /* nop - done by extraction function */
612 uint64
NMD::encode_s_from_s_hi(uint64 d
)
618 uint64
NMD::encode_count3_from_count(uint64 d
)
620 IMGASSERTONCE(d
< 8);
621 return d
== 0ull ? 8ull : d
;
625 uint64
NMD::encode_shift3_from_shift(uint64 d
)
627 IMGASSERTONCE(d
< 8);
628 return d
== 0ull ? 8ull : d
;
632 /* special value for load literal */
633 int64
NMD::encode_eu_from_s_li16(uint64 d
)
635 IMGASSERTONCE(d
< 128);
636 return d
== 127 ? -1 : (int64
)d
;
640 uint64
NMD::encode_msbd_from_size(uint64 d
)
642 IMGASSERTONCE(d
< 32);
647 uint64
NMD::encode_eu_from_u_andi16(uint64 d
)
649 IMGASSERTONCE(d
< 16);
660 uint64
NMD::encode_msbd_from_pos_and_size(uint64 d
)
667 /* save16 / restore16 ???? */
668 uint64
NMD::encode_rt1_from_rt(uint64 d
)
675 uint64
NMD::encode_lsb_from_pos_and_size(uint64 d
)
681 std::string
NMD::save_restore_list(uint64 rt
, uint64 count
, uint64 gp
)
685 for (uint64 counter
= 0; counter
!= count
; counter
++) {
686 bool use_gp
= gp
&& (counter
== count
- 1);
687 uint64 this_rt
= use_gp
? 28 : ((rt
& 0x10) | (rt
+ counter
)) & 0x1f;
688 str
+= img::format(",%s", GPR(this_rt
));
695 std::string
NMD::GPR(uint64 reg
)
697 static const char *gpr_reg
[32] = {
698 "zero", "at", "v0", "v1", "a0", "a1", "a2", "a3",
699 "a4", "a5", "a6", "a7", "r12", "r13", "r14", "r15",
700 "s0", "s1", "s2", "s3", "s4", "s5", "s6", "s7",
701 "r24", "r25", "k0", "k1", "gp", "sp", "fp", "ra"
708 throw std::runtime_error(img::format("Invalid GPR register index %" PRIu64
,
713 std::string
NMD::FPR(uint64 reg
)
715 static const char *fpr_reg
[32] = {
716 "f0", "f1", "f2", "f3", "f4", "f5", "f6", "f7",
717 "f8", "f9", "f10", "f11", "f12", "f13", "f14", "f15",
718 "f16", "f17", "f18", "f19", "f20", "f21", "f22", "f23",
719 "f24", "f25", "f26", "f27", "f28", "f29", "f30", "f31"
726 throw std::runtime_error(img::format("Invalid FPR register index %" PRIu64
,
731 std::string
NMD::AC(uint64 reg
)
733 static const char *ac_reg
[4] = {
734 "ac0", "ac1", "ac2", "ac3"
741 throw std::runtime_error(img::format("Invalid AC register index %" PRIu64
,
746 std::string
NMD::IMMEDIATE(uint64 value
)
748 return img::format("0x%" PRIx64
, value
);
752 std::string
NMD::IMMEDIATE(int64 value
)
754 return img::format("%" PRId64
, value
);
758 std::string
NMD::CPR(uint64 reg
)
760 /* needs more work */
761 return img::format("CP%" PRIu64
, reg
);
765 std::string
NMD::ADDRESS(uint64 value
, int instruction_size
)
767 /* token for string replace */
768 /* const char TOKEN_REPLACE = (char)0xa2; */
769 img::address address
= m_pc
+ value
+ instruction_size
;
770 /* symbol replacement */
771 /* return img::as_char(TOKEN_REPLACE) + to_string(address); */
772 return to_string(address
);
776 uint64
NMD::extract_op_code_value(const uint16
* data
, int size
)
782 return ((uint64
)data
[0] << 16) | data
[1];
784 return ((uint64
)data
[0] << 32) | ((uint64
)data
[1] << 16) | data
[2];
791 int NMD::Disassemble(const uint16
* data
, std::string
& dis
,
792 NMD::TABLE_ENTRY_TYPE
& type
)
794 return Disassemble(data
, dis
, type
, MAJOR
, 2);
799 * Recurse through tables until the instruction is found then return
800 * the string and size
803 * pointer to a word stream,
804 * disassember table and size
806 * instruction size - negative is error
807 * disassembly string - on error will constain error string
809 int NMD::Disassemble(const uint16
* data
, std::string
& dis
,
810 NMD::TABLE_ENTRY_TYPE
& type
, const Pool
*table
,
815 for (int i
= 0; i
< table_size
; i
++) {
816 uint64 op_code
= extract_op_code_value(data
,
817 table
[i
].instructions_size
);
818 if ((op_code
& table
[i
].mask
) == table
[i
].value
) {
820 conditional_function cond
= table
[i
].condition
;
821 if ((cond
== 0) || (this->*cond
)(op_code
)) {
824 if (table
[i
].type
== pool
) {
825 return Disassemble(data
, dis
, type
,
827 table
[i
].next_table_size
);
828 } else if ((table
[i
].type
== instruction
) ||
829 (table
[i
].type
== call_instruction
) ||
830 (table
[i
].type
== branch_instruction
) ||
831 (table
[i
].type
== return_instruction
)) {
832 if ((table
[i
].attributes
!= 0) &&
833 (m_requested_instruction_categories
&
834 table
[i
].attributes
) == 0) {
836 * failed due to instruction having
837 * an ASE attribute and the requested version
838 * not having that attribute
840 dis
= "ASE attribute missmatch";
843 disassembly_function dis_fn
= table
[i
].disassembly
;
845 dis
= "disassembler failure - bad table entry";
848 type
= table
[i
].type
;
849 dis
= (this->*dis_fn
)(op_code
);
850 return table
[i
].instructions_size
;
852 dis
= "reserved instruction";
856 catch (std::runtime_error
& e
)
859 return -3; /* runtime error */
865 catch (std::exception
& e
)
868 return -4; /* runtime error */
871 dis
= "failed to disassemble";
872 return -1; /* failed to disassemble */
876 uint64
NMD::extract_code_18_to_0(uint64 instruction
)
879 value
|= extract_bits(instruction
, 0, 19);
884 uint64
NMD::extract_shift3_2_1_0(uint64 instruction
)
887 value
|= extract_bits(instruction
, 0, 3);
892 uint64
NMD::extract_u_11_10_9_8_7_6_5_4_3__s3(uint64 instruction
)
895 value
|= extract_bits(instruction
, 3, 9) << 3;
900 uint64
NMD::extract_count_3_2_1_0(uint64 instruction
)
903 value
|= extract_bits(instruction
, 0, 4);
908 uint64
NMD::extract_rtz3_9_8_7(uint64 instruction
)
911 value
|= extract_bits(instruction
, 7, 3);
916 uint64
NMD::extract_u_17_to_1__s1(uint64 instruction
)
919 value
|= extract_bits(instruction
, 1, 17) << 1;
924 int64
NMD::extract_s__se9_20_19_18_17_16_15_14_13_12_11(uint64 instruction
)
927 value
|= extract_bits(instruction
, 11, 10);
928 value
= sign_extend(value
, 9);
933 int64
NMD::extract_s__se11_0_10_9_8_7_6_5_4_3_2_1_0_s1(uint64 instruction
)
936 value
|= extract_bits(instruction
, 0, 1) << 11;
937 value
|= extract_bits(instruction
, 1, 10) << 1;
938 value
= sign_extend(value
, 11);
943 uint64
NMD::extract_u_10(uint64 instruction
)
946 value
|= extract_bits(instruction
, 10, 1);
951 uint64
NMD::extract_rtz4_27_26_25_23_22_21(uint64 instruction
)
954 value
|= extract_bits(instruction
, 21, 3);
955 value
|= extract_bits(instruction
, 25, 1) << 3;
960 uint64
NMD::extract_sa_15_14_13_12_11(uint64 instruction
)
963 value
|= extract_bits(instruction
, 11, 5);
968 uint64
NMD::extract_shift_4_3_2_1_0(uint64 instruction
)
971 value
|= extract_bits(instruction
, 0, 5);
976 uint64
NMD::extract_shiftx_10_9_8_7__s1(uint64 instruction
)
979 value
|= extract_bits(instruction
, 7, 4) << 1;
984 uint64
NMD::extract_hint_25_24_23_22_21(uint64 instruction
)
987 value
|= extract_bits(instruction
, 21, 5);
992 uint64
NMD::extract_count3_14_13_12(uint64 instruction
)
995 value
|= extract_bits(instruction
, 12, 3);
1000 int64
NMD::extract_s__se31_0_11_to_2_20_to_12_s12(uint64 instruction
)
1003 value
|= extract_bits(instruction
, 0, 1) << 31;
1004 value
|= extract_bits(instruction
, 2, 10) << 21;
1005 value
|= extract_bits(instruction
, 12, 9) << 12;
1006 value
= sign_extend(value
, 31);
1011 int64
NMD::extract_s__se7_0_6_5_4_3_2_1_s1(uint64 instruction
)
1014 value
|= extract_bits(instruction
, 0, 1) << 7;
1015 value
|= extract_bits(instruction
, 1, 6) << 1;
1016 value
= sign_extend(value
, 7);
1021 uint64
NMD::extract_u2_10_9(uint64 instruction
)
1024 value
|= extract_bits(instruction
, 9, 2);
1029 uint64
NMD::extract_code_25_24_23_22_21_20_19_18_17_16(uint64 instruction
)
1032 value
|= extract_bits(instruction
, 16, 10);
1037 uint64
NMD::extract_rs_20_19_18_17_16(uint64 instruction
)
1040 value
|= extract_bits(instruction
, 16, 5);
1045 uint64
NMD::extract_u_2_1__s1(uint64 instruction
)
1048 value
|= extract_bits(instruction
, 1, 2) << 1;
1053 uint64
NMD::extract_stripe_6(uint64 instruction
)
1056 value
|= extract_bits(instruction
, 6, 1);
1061 uint64
NMD::extract_ac_15_14(uint64 instruction
)
1064 value
|= extract_bits(instruction
, 14, 2);
1069 uint64
NMD::extract_shift_20_19_18_17_16(uint64 instruction
)
1072 value
|= extract_bits(instruction
, 16, 5);
1077 uint64
NMD::extract_rdl_25_24(uint64 instruction
)
1080 value
|= extract_bits(instruction
, 24, 1);
1085 int64
NMD::extract_s__se10_0_9_8_7_6_5_4_3_2_1_s1(uint64 instruction
)
1088 value
|= extract_bits(instruction
, 0, 1) << 10;
1089 value
|= extract_bits(instruction
, 1, 9) << 1;
1090 value
= sign_extend(value
, 10);
1095 uint64
NMD::extract_eu_6_5_4_3_2_1_0(uint64 instruction
)
1098 value
|= extract_bits(instruction
, 0, 7);
1103 uint64
NMD::extract_shift_5_4_3_2_1_0(uint64 instruction
)
1106 value
|= extract_bits(instruction
, 0, 6);
1111 uint64
NMD::extract_count_19_18_17_16(uint64 instruction
)
1114 value
|= extract_bits(instruction
, 16, 4);
1119 uint64
NMD::extract_code_2_1_0(uint64 instruction
)
1122 value
|= extract_bits(instruction
, 0, 3);
1127 uint64
NMD::extract_u_11_10_9_8_7_6_5_4_3_2_1_0(uint64 instruction
)
1130 value
|= extract_bits(instruction
, 0, 12);
1135 uint64
NMD::extract_rs_4_3_2_1_0(uint64 instruction
)
1138 value
|= extract_bits(instruction
, 0, 5);
1143 uint64
NMD::extract_u_20_to_3__s3(uint64 instruction
)
1146 value
|= extract_bits(instruction
, 3, 18) << 3;
1151 uint64
NMD::extract_u_3_2_1_0__s2(uint64 instruction
)
1154 value
|= extract_bits(instruction
, 0, 4) << 2;
1159 uint64
NMD::extract_cofun_25_24_23(uint64 instruction
)
1162 value
|= extract_bits(instruction
, 3, 23);
1167 uint64
NMD::extract_u_2_1_0__s2(uint64 instruction
)
1170 value
|= extract_bits(instruction
, 0, 3) << 2;
1175 uint64
NMD::extract_rd3_3_2_1(uint64 instruction
)
1178 value
|= extract_bits(instruction
, 1, 3);
1183 uint64
NMD::extract_sa_15_14_13_12(uint64 instruction
)
1186 value
|= extract_bits(instruction
, 12, 4);
1191 uint64
NMD::extract_rt_25_24_23_22_21(uint64 instruction
)
1194 value
|= extract_bits(instruction
, 21, 5);
1199 uint64
NMD::extract_ru_7_6_5_4_3(uint64 instruction
)
1202 value
|= extract_bits(instruction
, 3, 5);
1207 uint64
NMD::extract_u_17_to_0(uint64 instruction
)
1210 value
|= extract_bits(instruction
, 0, 18);
1215 uint64
NMD::extract_rsz4_4_2_1_0(uint64 instruction
)
1218 value
|= extract_bits(instruction
, 0, 3);
1219 value
|= extract_bits(instruction
, 4, 1) << 3;
1224 int64
NMD::extract_s__se21_0_20_to_1_s1(uint64 instruction
)
1227 value
|= extract_bits(instruction
, 0, 1) << 21;
1228 value
|= extract_bits(instruction
, 1, 20) << 1;
1229 value
= sign_extend(value
, 21);
1234 uint64
NMD::extract_op_25_to_3(uint64 instruction
)
1237 value
|= extract_bits(instruction
, 3, 23);
1242 uint64
NMD::extract_rs4_4_2_1_0(uint64 instruction
)
1245 value
|= extract_bits(instruction
, 0, 3);
1246 value
|= extract_bits(instruction
, 4, 1) << 3;
1251 uint64
NMD::extract_bit_23_22_21(uint64 instruction
)
1254 value
|= extract_bits(instruction
, 21, 3);
1259 uint64
NMD::extract_rt_41_40_39_38_37(uint64 instruction
)
1262 value
|= extract_bits(instruction
, 37, 5);
1267 int64
NMD::extract_shift__se5_21_20_19_18_17_16(uint64 instruction
)
1270 value
|= extract_bits(instruction
, 16, 6);
1271 value
= sign_extend(value
, 5);
1276 uint64
NMD::extract_rd2_3_8(uint64 instruction
)
1279 value
|= extract_bits(instruction
, 3, 1) << 1;
1280 value
|= extract_bits(instruction
, 8, 1);
1285 uint64
NMD::extract_code_17_to_0(uint64 instruction
)
1288 value
|= extract_bits(instruction
, 0, 18);
1293 uint64
NMD::extract_size_20_19_18_17_16(uint64 instruction
)
1296 value
|= extract_bits(instruction
, 16, 5);
1301 int64
NMD::extract_s__se8_15_7_6_5_4_3_2_s2(uint64 instruction
)
1304 value
|= extract_bits(instruction
, 2, 6) << 2;
1305 value
|= extract_bits(instruction
, 15, 1) << 8;
1306 value
= sign_extend(value
, 8);
1311 uint64
NMD::extract_u_15_to_0(uint64 instruction
)
1314 value
|= extract_bits(instruction
, 0, 16);
1319 uint64
NMD::extract_fs_20_19_18_17_16(uint64 instruction
)
1322 value
|= extract_bits(instruction
, 16, 5);
1327 int64
NMD::extract_s__se8_15_7_6_5_4_3_2_1_0(uint64 instruction
)
1330 value
|= extract_bits(instruction
, 0, 8);
1331 value
|= extract_bits(instruction
, 15, 1) << 8;
1332 value
= sign_extend(value
, 8);
1337 uint64
NMD::extract_stype_20_19_18_17_16(uint64 instruction
)
1340 value
|= extract_bits(instruction
, 16, 5);
1345 uint64
NMD::extract_rtl_11(uint64 instruction
)
1348 value
|= extract_bits(instruction
, 9, 1);
1353 uint64
NMD::extract_hs_20_19_18_17_16(uint64 instruction
)
1356 value
|= extract_bits(instruction
, 16, 5);
1361 uint64
NMD::extract_sel_13_12_11(uint64 instruction
)
1364 value
|= extract_bits(instruction
, 11, 3);
1369 uint64
NMD::extract_lsb_4_3_2_1_0(uint64 instruction
)
1372 value
|= extract_bits(instruction
, 0, 5);
1377 uint64
NMD::extract_gp_2(uint64 instruction
)
1380 value
|= extract_bits(instruction
, 2, 1);
1385 uint64
NMD::extract_rt3_9_8_7(uint64 instruction
)
1388 value
|= extract_bits(instruction
, 7, 3);
1393 uint64
NMD::extract_ft_25_24_23_22_21(uint64 instruction
)
1396 value
|= extract_bits(instruction
, 21, 5);
1401 uint64
NMD::extract_u_17_16_15_14_13_12_11(uint64 instruction
)
1404 value
|= extract_bits(instruction
, 11, 7);
1409 uint64
NMD::extract_cs_20_19_18_17_16(uint64 instruction
)
1412 value
|= extract_bits(instruction
, 16, 5);
1417 uint64
NMD::extract_rt4_9_7_6_5(uint64 instruction
)
1420 value
|= extract_bits(instruction
, 5, 3);
1421 value
|= extract_bits(instruction
, 9, 1) << 3;
1426 uint64
NMD::extract_msbt_10_9_8_7_6(uint64 instruction
)
1429 value
|= extract_bits(instruction
, 6, 5);
1434 uint64
NMD::extract_u_5_4_3_2_1_0__s2(uint64 instruction
)
1437 value
|= extract_bits(instruction
, 0, 6) << 2;
1442 uint64
NMD::extract_sa_15_14_13(uint64 instruction
)
1445 value
|= extract_bits(instruction
, 13, 3);
1450 int64
NMD::extract_s__se14_0_13_to_1_s1(uint64 instruction
)
1453 value
|= extract_bits(instruction
, 0, 1) << 14;
1454 value
|= extract_bits(instruction
, 1, 13) << 1;
1455 value
= sign_extend(value
, 14);
1460 uint64
NMD::extract_rs3_6_5_4(uint64 instruction
)
1463 value
|= extract_bits(instruction
, 4, 3);
1468 uint64
NMD::extract_u_31_to_0__s32(uint64 instruction
)
1471 value
|= extract_bits(instruction
, 0, 32) << 32;
1476 uint64
NMD::extract_shift_10_9_8_7_6(uint64 instruction
)
1479 value
|= extract_bits(instruction
, 6, 5);
1484 uint64
NMD::extract_cs_25_24_23_22_21(uint64 instruction
)
1487 value
|= extract_bits(instruction
, 21, 5);
1492 uint64
NMD::extract_shiftx_11_10_9_8_7_6(uint64 instruction
)
1495 value
|= extract_bits(instruction
, 6, 6);
1500 uint64
NMD::extract_rt_9_8_7_6_5(uint64 instruction
)
1503 value
|= extract_bits(instruction
, 5, 5);
1508 uint64
NMD::extract_op_25_24_23_22_21(uint64 instruction
)
1511 value
|= extract_bits(instruction
, 21, 5);
1516 uint64
NMD::extract_u_6_5_4_3_2_1_0__s2(uint64 instruction
)
1519 value
|= extract_bits(instruction
, 0, 7) << 2;
1524 uint64
NMD::extract_bit_16_15_14_13_12_11(uint64 instruction
)
1527 value
|= extract_bits(instruction
, 11, 6);
1532 uint64
NMD::extract_mask_20_19_18_17_16_15_14(uint64 instruction
)
1535 value
|= extract_bits(instruction
, 14, 7);
1540 uint64
NMD::extract_eu_3_2_1_0(uint64 instruction
)
1543 value
|= extract_bits(instruction
, 0, 4);
1548 uint64
NMD::extract_u_7_6_5_4__s4(uint64 instruction
)
1551 value
|= extract_bits(instruction
, 4, 4) << 4;
1556 int64
NMD::extract_s__se8_15_7_6_5_4_3_s3(uint64 instruction
)
1559 value
|= extract_bits(instruction
, 3, 5) << 3;
1560 value
|= extract_bits(instruction
, 15, 1) << 8;
1561 value
= sign_extend(value
, 8);
1566 uint64
NMD::extract_ft_15_14_13_12_11(uint64 instruction
)
1569 value
|= extract_bits(instruction
, 11, 5);
1574 int64
NMD::extract_s__se31_15_to_0_31_to_16(uint64 instruction
)
1577 value
|= extract_bits(instruction
, 0, 16) << 16;
1578 value
|= extract_bits(instruction
, 16, 16);
1579 value
= sign_extend(value
, 31);
1584 uint64
NMD::extract_u_20_19_18_17_16_15_14_13(uint64 instruction
)
1587 value
|= extract_bits(instruction
, 13, 8);
1592 uint64
NMD::extract_u_17_to_2__s2(uint64 instruction
)
1595 value
|= extract_bits(instruction
, 2, 16) << 2;
1600 uint64
NMD::extract_rd_15_14_13_12_11(uint64 instruction
)
1603 value
|= extract_bits(instruction
, 11, 5);
1608 uint64
NMD::extract_c0s_20_19_18_17_16(uint64 instruction
)
1611 value
|= extract_bits(instruction
, 16, 5);
1616 uint64
NMD::extract_code_1_0(uint64 instruction
)
1619 value
|= extract_bits(instruction
, 0, 2);
1624 int64
NMD::extract_s__se25_0_24_to_1_s1(uint64 instruction
)
1627 value
|= extract_bits(instruction
, 0, 1) << 25;
1628 value
|= extract_bits(instruction
, 1, 24) << 1;
1629 value
= sign_extend(value
, 25);
1634 uint64
NMD::extract_u_1_0(uint64 instruction
)
1637 value
|= extract_bits(instruction
, 0, 2);
1642 uint64
NMD::extract_u_3_8__s2(uint64 instruction
)
1645 value
|= extract_bits(instruction
, 3, 1) << 3;
1646 value
|= extract_bits(instruction
, 8, 1) << 2;
1651 uint64
NMD::extract_fd_15_14_13_12_11(uint64 instruction
)
1654 value
|= extract_bits(instruction
, 11, 5);
1659 uint64
NMD::extract_u_4_3_2_1_0__s2(uint64 instruction
)
1662 value
|= extract_bits(instruction
, 0, 5) << 2;
1667 uint64
NMD::extract_rtz4_9_7_6_5(uint64 instruction
)
1670 value
|= extract_bits(instruction
, 5, 3);
1671 value
|= extract_bits(instruction
, 9, 1) << 3;
1676 uint64
NMD::extract_sel_15_14_13_12_11(uint64 instruction
)
1679 value
|= extract_bits(instruction
, 11, 5);
1684 uint64
NMD::extract_ct_25_24_23_22_21(uint64 instruction
)
1687 value
|= extract_bits(instruction
, 21, 5);
1692 uint64
NMD::extract_u_20_to_2__s2(uint64 instruction
)
1695 value
|= extract_bits(instruction
, 2, 19) << 2;
1700 int64
NMD::extract_s__se3_4_2_1_0(uint64 instruction
)
1703 value
|= extract_bits(instruction
, 0, 3);
1704 value
|= extract_bits(instruction
, 4, 1) << 3;
1705 value
= sign_extend(value
, 3);
1710 uint64
NMD::extract_u_3_2_1_0__s1(uint64 instruction
)
1713 value
|= extract_bits(instruction
, 0, 4) << 1;
1719 bool NMD::ADDIU_32__cond(uint64 instruction
)
1721 uint64 rt
= extract_rt_25_24_23_22_21(instruction
);
1726 bool NMD::ADDIU_RS5__cond(uint64 instruction
)
1728 uint64 rt
= extract_rt_9_8_7_6_5(instruction
);
1733 bool NMD::BALRSC_cond(uint64 instruction
)
1735 uint64 rt
= extract_rt_25_24_23_22_21(instruction
);
1740 bool NMD::BEQC_16__cond(uint64 instruction
)
1742 uint64 rs3
= extract_rs3_6_5_4(instruction
);
1743 uint64 rt3
= extract_rt3_9_8_7(instruction
);
1744 uint64 u
= extract_u_3_2_1_0__s1(instruction
);
1745 return rs3
< rt3
&& u
!= 0;
1749 bool NMD::BNEC_16__cond(uint64 instruction
)
1751 uint64 rs3
= extract_rs3_6_5_4(instruction
);
1752 uint64 rt3
= extract_rt3_9_8_7(instruction
);
1753 uint64 u
= extract_u_3_2_1_0__s1(instruction
);
1754 return rs3
>= rt3
&& u
!= 0;
1758 bool NMD::MOVE_cond(uint64 instruction
)
1760 uint64 rt
= extract_rt_9_8_7_6_5(instruction
);
1765 bool NMD::P16_BR1_cond(uint64 instruction
)
1767 uint64 u
= extract_u_3_2_1_0__s1(instruction
);
1772 bool NMD::PREF_S9__cond(uint64 instruction
)
1774 uint64 hint
= extract_hint_25_24_23_22_21(instruction
);
1779 bool NMD::PREFE_cond(uint64 instruction
)
1781 uint64 hint
= extract_hint_25_24_23_22_21(instruction
);
1786 bool NMD::SLTU_cond(uint64 instruction
)
1788 uint64 rd
= extract_rd_15_14_13_12_11(instruction
);
1795 * ABS.D fd, fs - Floating Point Absolute Value
1798 * 10987654321098765432109876543210
1799 * 010001 00000 000101
1804 std::string
NMD::ABS_D(uint64 instruction
)
1806 uint64 fd_value
= extract_ft_25_24_23_22_21(instruction
);
1807 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
1809 std::string fs
= FPR(copy(fs_value
));
1810 std::string fd
= FPR(copy(fd_value
));
1812 return img::format("ABS.D %s, %s", fd
, fs
);
1817 * ABS.S fd, fs - Floating Point Absolute Value
1820 * 10987654321098765432109876543210
1821 * 010001 00000 000101
1826 std::string
NMD::ABS_S(uint64 instruction
)
1828 uint64 fd_value
= extract_ft_25_24_23_22_21(instruction
);
1829 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
1831 std::string fs
= FPR(copy(fs_value
));
1832 std::string fd
= FPR(copy(fd_value
));
1834 return img::format("ABS.S %s, %s", fd
, fs
);
1839 * [DSP] ABSQ_S.PH rt, rs - Find absolute value of two fractional halfwords
1840 * with 16-bit saturation
1843 * 10987654321098765432109876543210
1844 * 001000 0001000100111111
1848 std::string
NMD::ABSQ_S_PH(uint64 instruction
)
1850 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
1851 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
1853 std::string rt
= GPR(copy(rt_value
));
1854 std::string rs
= GPR(copy(rs_value
));
1856 return img::format("ABSQ_S.PH %s, %s", rt
, rs
);
1861 * [DSP] ABSQ_S.QB rt, rs - Find absolute value of four fractional byte values
1862 * with 8-bit saturation
1865 * 10987654321098765432109876543210
1866 * 001000 0000000100111111
1870 std::string
NMD::ABSQ_S_QB(uint64 instruction
)
1872 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
1873 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
1875 std::string rt
= GPR(copy(rt_value
));
1876 std::string rs
= GPR(copy(rs_value
));
1878 return img::format("ABSQ_S.QB %s, %s", rt
, rs
);
1883 * [DSP] ABSQ_S.W rt, rs - Find absolute value of fractional word with 32-bit
1887 * 10987654321098765432109876543210
1888 * 001000 0010000100111111
1892 std::string
NMD::ABSQ_S_W(uint64 instruction
)
1894 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
1895 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
1897 std::string rt
= GPR(copy(rt_value
));
1898 std::string rs
= GPR(copy(rs_value
));
1900 return img::format("ABSQ_S.W %s, %s", rt
, rs
);
1908 * 10987654321098765432109876543210
1909 * 001000 0010000100111111
1913 std::string
NMD::ACLR(uint64 instruction
)
1915 uint64 bit_value
= extract_bit_23_22_21(instruction
);
1916 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
1917 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
1919 std::string bit
= IMMEDIATE(copy(bit_value
));
1920 std::string s
= IMMEDIATE(copy(s_value
));
1921 std::string rs
= GPR(copy(rs_value
));
1923 return img::format("ACLR %s, %s(%s)", bit
, s
, rs
);
1931 * 10987654321098765432109876543210
1932 * 001000 0010000100111111
1936 std::string
NMD::ADD(uint64 instruction
)
1938 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
1939 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
1940 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
1942 std::string rd
= GPR(copy(rd_value
));
1943 std::string rs
= GPR(copy(rs_value
));
1944 std::string rt
= GPR(copy(rt_value
));
1946 return img::format("ADD %s, %s, %s", rd
, rs
, rt
);
1951 * ADD.D fd, fs, ft - Floating Point Add
1954 * 10987654321098765432109876543210
1961 std::string
NMD::ADD_D(uint64 instruction
)
1963 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
1964 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
1965 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
1967 std::string ft
= FPR(copy(ft_value
));
1968 std::string fs
= FPR(copy(fs_value
));
1969 std::string fd
= FPR(copy(fd_value
));
1971 return img::format("ADD.D %s, %s, %s", fd
, fs
, ft
);
1976 * ADD.S fd, fs, ft - Floating Point Add
1979 * 10987654321098765432109876543210
1986 std::string
NMD::ADD_S(uint64 instruction
)
1988 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
1989 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
1990 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
1992 std::string ft
= FPR(copy(ft_value
));
1993 std::string fs
= FPR(copy(fs_value
));
1994 std::string fd
= FPR(copy(fd_value
));
1996 return img::format("ADD.S %s, %s, %s", fd
, fs
, ft
);
2004 * 10987654321098765432109876543210
2005 * 001000 0010000100111111
2009 std::string
NMD::ADDIU_32_(uint64 instruction
)
2011 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2012 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2013 uint64 u_value
= extract_u_15_to_0(instruction
);
2015 std::string rt
= GPR(copy(rt_value
));
2016 std::string rs
= GPR(copy(rs_value
));
2017 std::string u
= IMMEDIATE(copy(u_value
));
2019 return img::format("ADDIU %s, %s, %s", rt
, rs
, u
);
2027 * 10987654321098765432109876543210
2028 * 001000 0010000100111111
2032 std::string
NMD::ADDIU_48_(uint64 instruction
)
2034 uint64 rt_value
= extract_rt_41_40_39_38_37(instruction
);
2035 int64 s_value
= extract_s__se31_15_to_0_31_to_16(instruction
);
2037 std::string rt
= GPR(copy(rt_value
));
2038 std::string s
= IMMEDIATE(copy(s_value
));
2040 return img::format("ADDIU %s, %s", rt
, s
);
2048 * 10987654321098765432109876543210
2049 * 001000 0010000100111111
2053 std::string
NMD::ADDIU_GP48_(uint64 instruction
)
2055 uint64 rt_value
= extract_rt_41_40_39_38_37(instruction
);
2056 int64 s_value
= extract_s__se31_15_to_0_31_to_16(instruction
);
2058 std::string rt
= GPR(copy(rt_value
));
2059 std::string s
= IMMEDIATE(copy(s_value
));
2061 return img::format("ADDIU %s, $%d, %s", rt
, 28, s
);
2069 * 10987654321098765432109876543210
2070 * 001000 0010000100111111
2074 std::string
NMD::ADDIU_GP_B_(uint64 instruction
)
2076 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2077 uint64 u_value
= extract_u_17_to_0(instruction
);
2079 std::string rt
= GPR(copy(rt_value
));
2080 std::string u
= IMMEDIATE(copy(u_value
));
2082 return img::format("ADDIU %s, $%d, %s", rt
, 28, u
);
2090 * 10987654321098765432109876543210
2091 * 001000 0010000100111111
2095 std::string
NMD::ADDIU_GP_W_(uint64 instruction
)
2097 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2098 uint64 u_value
= extract_u_20_to_2__s2(instruction
);
2100 std::string rt
= GPR(copy(rt_value
));
2101 std::string u
= IMMEDIATE(copy(u_value
));
2103 return img::format("ADDIU %s, $%d, %s", rt
, 28, u
);
2111 * 10987654321098765432109876543210
2112 * 001000 0010000100111111
2116 std::string
NMD::ADDIU_NEG_(uint64 instruction
)
2118 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2119 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2120 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
2122 std::string rt
= GPR(copy(rt_value
));
2123 std::string rs
= GPR(copy(rs_value
));
2124 std::string u
= IMMEDIATE(neg_copy(u_value
));
2126 return img::format("ADDIU %s, %s, %s", rt
, rs
, u
);
2134 * 10987654321098765432109876543210
2135 * 001000 0010000100111111
2139 std::string
NMD::ADDIU_R1_SP_(uint64 instruction
)
2141 uint64 u_value
= extract_u_5_4_3_2_1_0__s2(instruction
);
2142 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
2144 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
2145 std::string u
= IMMEDIATE(copy(u_value
));
2147 return img::format("ADDIU %s, $%d, %s", rt3
, 29, u
);
2155 * 10987654321098765432109876543210
2156 * 001000 0010000100111111
2160 std::string
NMD::ADDIU_R2_(uint64 instruction
)
2162 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
2163 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
2164 uint64 u_value
= extract_u_2_1_0__s2(instruction
);
2166 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
2167 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
2168 std::string u
= IMMEDIATE(copy(u_value
));
2170 return img::format("ADDIU %s, %s, %s", rt3
, rs3
, u
);
2175 * ADDIU[RS5] rt, s5 - Add Signed Word and Set Carry Bit
2182 std::string
NMD::ADDIU_RS5_(uint64 instruction
)
2184 uint64 rt_value
= extract_rt_9_8_7_6_5(instruction
);
2185 int64 s_value
= extract_s__se3_4_2_1_0(instruction
);
2187 std::string rt
= GPR(copy(rt_value
));
2188 std::string s
= IMMEDIATE(copy(s_value
));
2190 return img::format("ADDIU %s, %s", rt
, s
);
2198 * 10987654321098765432109876543210
2199 * 001000 x1110000101
2204 std::string
NMD::ADDIUPC_32_(uint64 instruction
)
2206 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2207 int64 s_value
= extract_s__se21_0_20_to_1_s1(instruction
);
2209 std::string rt
= GPR(copy(rt_value
));
2210 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
2212 return img::format("ADDIUPC %s, %s", rt
, s
);
2220 * 10987654321098765432109876543210
2221 * 001000 x1110000101
2226 std::string
NMD::ADDIUPC_48_(uint64 instruction
)
2228 uint64 rt_value
= extract_rt_41_40_39_38_37(instruction
);
2229 int64 s_value
= extract_s__se31_15_to_0_31_to_16(instruction
);
2231 std::string rt
= GPR(copy(rt_value
));
2232 std::string s
= ADDRESS(encode_s_from_address(s_value
), 6);
2234 return img::format("ADDIUPC %s, %s", rt
, s
);
2239 * [DSP] ADDQ.PH rd, rt, rs - Add fractional halfword vectors
2242 * 10987654321098765432109876543210
2243 * 001000 00000001101
2248 std::string
NMD::ADDQ_PH(uint64 instruction
)
2250 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2251 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2252 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
2254 std::string rd
= GPR(copy(rd_value
));
2255 std::string rs
= GPR(copy(rs_value
));
2256 std::string rt
= GPR(copy(rt_value
));
2258 return img::format("ADDQ.PH %s, %s, %s", rd
, rs
, rt
);
2263 * [DSP] ADDQ_S.PH rd, rt, rs - Add fractional halfword vectors with 16-bit
2267 * 10987654321098765432109876543210
2268 * 001000 10000001101
2273 std::string
NMD::ADDQ_S_PH(uint64 instruction
)
2275 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2276 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2277 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
2279 std::string rd
= GPR(copy(rd_value
));
2280 std::string rs
= GPR(copy(rs_value
));
2281 std::string rt
= GPR(copy(rt_value
));
2283 return img::format("ADDQ_S.PH %s, %s, %s", rd
, rs
, rt
);
2288 * [DSP] ADDQ_S.W rd, rt, rs - Add fractional words with 32-bit saturation
2291 * 10987654321098765432109876543210
2292 * 001000 x1100000101
2297 std::string
NMD::ADDQ_S_W(uint64 instruction
)
2299 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2300 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2301 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
2303 std::string rd
= GPR(copy(rd_value
));
2304 std::string rs
= GPR(copy(rs_value
));
2305 std::string rt
= GPR(copy(rt_value
));
2307 return img::format("ADDQ_S.W %s, %s, %s", rd
, rs
, rt
);
2312 * [DSP] ADDQH.PH rd, rt, rs - Add fractional halfword vectors and shift
2313 * right to halve results
2316 * 10987654321098765432109876543210
2317 * 001000 00001001101
2322 std::string
NMD::ADDQH_PH(uint64 instruction
)
2324 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2325 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2326 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
2328 std::string rd
= GPR(copy(rd_value
));
2329 std::string rs
= GPR(copy(rs_value
));
2330 std::string rt
= GPR(copy(rt_value
));
2332 return img::format("ADDQH.PH %s, %s, %s", rd
, rs
, rt
);
2337 * [DSP] ADDQH_R.PH rd, rt, rs - Add fractional halfword vectors and shift
2338 * right to halve results with rounding
2341 * 10987654321098765432109876543210
2342 * 001000 10001001101
2347 std::string
NMD::ADDQH_R_PH(uint64 instruction
)
2349 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2350 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2351 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
2353 std::string rd
= GPR(copy(rd_value
));
2354 std::string rs
= GPR(copy(rs_value
));
2355 std::string rt
= GPR(copy(rt_value
));
2357 return img::format("ADDQH_R.PH %s, %s, %s", rd
, rs
, rt
);
2362 * [DSP] ADDQH_R.W rd, rt, rs - Add fractional words and shift right to halve
2363 * results with rounding
2366 * 10987654321098765432109876543210
2367 * 001000 00010001101
2372 std::string
NMD::ADDQH_R_W(uint64 instruction
)
2374 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2375 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2376 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
2378 std::string rd
= GPR(copy(rd_value
));
2379 std::string rs
= GPR(copy(rs_value
));
2380 std::string rt
= GPR(copy(rt_value
));
2382 return img::format("ADDQH_R.W %s, %s, %s", rd
, rs
, rt
);
2387 * [DSP] ADDQH.W rd, rt, rs - Add fractional words and shift right to halve
2391 * 10987654321098765432109876543210
2392 * 001000 10010001101
2397 std::string
NMD::ADDQH_W(uint64 instruction
)
2399 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2400 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2401 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
2403 std::string rd
= GPR(copy(rd_value
));
2404 std::string rs
= GPR(copy(rs_value
));
2405 std::string rt
= GPR(copy(rt_value
));
2407 return img::format("ADDQH.W %s, %s, %s", rd
, rs
, rt
);
2412 * [DSP] ADDSC rd, rt, rs - Add two signed words and set carry bit
2415 * 10987654321098765432109876543210
2416 * 001000 x1110000101
2421 std::string
NMD::ADDSC(uint64 instruction
)
2423 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2424 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2425 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
2427 std::string rd
= GPR(copy(rd_value
));
2428 std::string rs
= GPR(copy(rs_value
));
2429 std::string rt
= GPR(copy(rt_value
));
2431 return img::format("ADDSC %s, %s, %s", rd
, rs
, rt
);
2436 * ADDU[16] rd3, rs3, rt3 -
2444 std::string
NMD::ADDU_16_(uint64 instruction
)
2446 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
2447 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
2448 uint64 rd3_value
= extract_rd3_3_2_1(instruction
);
2450 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
2451 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
2452 std::string rd3
= GPR(decode_gpr_gpr3(rd3_value
));
2454 return img::format("ADDU %s, %s, %s", rd3
, rs3
, rt3
);
2462 * 10987654321098765432109876543210
2463 * 001000 x1110000101
2468 std::string
NMD::ADDU_32_(uint64 instruction
)
2470 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2471 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2472 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
2474 std::string rd
= GPR(copy(rd_value
));
2475 std::string rs
= GPR(copy(rs_value
));
2476 std::string rt
= GPR(copy(rt_value
));
2478 return img::format("ADDU %s, %s, %s", rd
, rs
, rt
);
2486 * 10987654321098765432109876543210
2487 * 001000 x1110000101
2492 std::string
NMD::ADDU_4X4_(uint64 instruction
)
2494 uint64 rt4_value
= extract_rt4_9_7_6_5(instruction
);
2495 uint64 rs4_value
= extract_rs4_4_2_1_0(instruction
);
2497 std::string rs4
= GPR(decode_gpr_gpr4(rs4_value
));
2498 std::string rt4
= GPR(decode_gpr_gpr4(rt4_value
));
2500 return img::format("ADDU %s, %s", rs4
, rt4
);
2505 * [DSP] ADDU.PH rd, rt, rs - Add two pairs of unsigned halfwords
2508 * 10987654321098765432109876543210
2509 * 001000 00100001101
2514 std::string
NMD::ADDU_PH(uint64 instruction
)
2516 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2517 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2518 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
2520 std::string rd
= GPR(copy(rd_value
));
2521 std::string rs
= GPR(copy(rs_value
));
2522 std::string rt
= GPR(copy(rt_value
));
2524 return img::format("ADDU.PH %s, %s, %s", rd
, rs
, rt
);
2529 * ADDU.QB rd, rt, rs - Unsigned Add Quad Byte Vectors
2532 * 10987654321098765432109876543210
2533 * 001000 00011001101
2538 std::string
NMD::ADDU_QB(uint64 instruction
)
2540 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2541 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2542 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
2544 std::string rd
= GPR(copy(rd_value
));
2545 std::string rs
= GPR(copy(rs_value
));
2546 std::string rt
= GPR(copy(rt_value
));
2548 return img::format("ADDU.QB %s, %s, %s", rd
, rs
, rt
);
2553 * [DSP] ADDU_S.PH rd, rt, rs - Add two pairs of unsigned halfwords with 16-bit
2557 * 10987654321098765432109876543210
2558 * 001000 10100001101
2563 std::string
NMD::ADDU_S_PH(uint64 instruction
)
2565 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2566 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2567 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
2569 std::string rd
= GPR(copy(rd_value
));
2570 std::string rs
= GPR(copy(rs_value
));
2571 std::string rt
= GPR(copy(rt_value
));
2573 return img::format("ADDU_S.PH %s, %s, %s", rd
, rs
, rt
);
2578 * ADDU_S.QB rd, rt, rs - Unsigned Add Quad Byte Vectors
2581 * 10987654321098765432109876543210
2582 * 001000 10011001101
2587 std::string
NMD::ADDU_S_QB(uint64 instruction
)
2589 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2590 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2591 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
2593 std::string rd
= GPR(copy(rd_value
));
2594 std::string rs
= GPR(copy(rs_value
));
2595 std::string rt
= GPR(copy(rt_value
));
2597 return img::format("ADDU_S.QB %s, %s, %s", rd
, rs
, rt
);
2602 * ADDUH.QB rd, rt, rs - Unsigned Add Vector Quad-Bytes And Right Shift
2606 * 10987654321098765432109876543210
2607 * 001000 00101001101
2612 std::string
NMD::ADDUH_QB(uint64 instruction
)
2614 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2615 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2616 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
2618 std::string rd
= GPR(copy(rd_value
));
2619 std::string rs
= GPR(copy(rs_value
));
2620 std::string rt
= GPR(copy(rt_value
));
2622 return img::format("ADDUH.QB %s, %s, %s", rd
, rs
, rt
);
2627 * ADDUH_R.QB rd, rt, rs - Unsigned Add Vector Quad-Bytes And Right Shift
2631 * 10987654321098765432109876543210
2632 * 001000 10101001101
2637 std::string
NMD::ADDUH_R_QB(uint64 instruction
)
2639 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2640 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2641 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
2643 std::string rd
= GPR(copy(rd_value
));
2644 std::string rs
= GPR(copy(rs_value
));
2645 std::string rt
= GPR(copy(rt_value
));
2647 return img::format("ADDUH_R.QB %s, %s, %s", rd
, rs
, rt
);
2651 * ADDWC rd, rt, rs - Add Word with Carry Bit
2654 * 10987654321098765432109876543210
2655 * 001000 x1111000101
2660 std::string
NMD::ADDWC(uint64 instruction
)
2662 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2663 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2664 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
2666 std::string rd
= GPR(copy(rd_value
));
2667 std::string rs
= GPR(copy(rs_value
));
2668 std::string rt
= GPR(copy(rt_value
));
2670 return img::format("ADDWC %s, %s, %s", rd
, rs
, rt
);
2678 * 10987654321098765432109876543210
2679 * 001000 x1110000101
2684 std::string
NMD::ALUIPC(uint64 instruction
)
2686 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2687 int64 s_value
= extract_s__se31_0_11_to_2_20_to_12_s12(instruction
);
2689 std::string rt
= GPR(copy(rt_value
));
2690 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
2692 return img::format("ALUIPC %s, %%pcrel_hi(%s)", rt
, s
);
2697 * AND[16] rt3, rs3 -
2705 std::string
NMD::AND_16_(uint64 instruction
)
2707 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
2708 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
2710 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
2711 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
2713 return img::format("AND %s, %s", rs3
, rt3
);
2721 * 10987654321098765432109876543210
2722 * 001000 x1110000101
2727 std::string
NMD::AND_32_(uint64 instruction
)
2729 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2730 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2731 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
2733 std::string rd
= GPR(copy(rd_value
));
2734 std::string rs
= GPR(copy(rs_value
));
2735 std::string rt
= GPR(copy(rt_value
));
2737 return img::format("AND %s, %s, %s", rd
, rs
, rt
);
2750 std::string
NMD::ANDI_16_(uint64 instruction
)
2752 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
2753 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
2754 uint64 eu_value
= extract_eu_3_2_1_0(instruction
);
2756 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
2757 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
2758 std::string eu
= IMMEDIATE(encode_eu_from_u_andi16(eu_value
));
2760 return img::format("ANDI %s, %s, %s", rt3
, rs3
, eu
);
2768 * 10987654321098765432109876543210
2769 * 001000 x1110000101
2774 std::string
NMD::ANDI_32_(uint64 instruction
)
2776 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2777 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2778 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
2780 std::string rt
= GPR(copy(rt_value
));
2781 std::string rs
= GPR(copy(rs_value
));
2782 std::string u
= IMMEDIATE(copy(u_value
));
2784 return img::format("ANDI %s, %s, %s", rt
, rs
, u
);
2792 * 10987654321098765432109876543210
2793 * 001000 x1110000101
2798 std::string
NMD::APPEND(uint64 instruction
)
2800 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2801 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2802 uint64 sa_value
= extract_sa_15_14_13_12_11(instruction
);
2804 std::string rt
= GPR(copy(rt_value
));
2805 std::string rs
= GPR(copy(rs_value
));
2806 std::string sa
= IMMEDIATE(copy(sa_value
));
2808 return img::format("APPEND %s, %s, %s", rt
, rs
, sa
);
2816 * 10987654321098765432109876543210
2817 * 001000 x1110000101
2822 std::string
NMD::ASET(uint64 instruction
)
2824 uint64 bit_value
= extract_bit_23_22_21(instruction
);
2825 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2826 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
2828 std::string bit
= IMMEDIATE(copy(bit_value
));
2829 std::string s
= IMMEDIATE(copy(s_value
));
2830 std::string rs
= GPR(copy(rs_value
));
2832 return img::format("ASET %s, %s(%s)", bit
, s
, rs
);
2840 * 10987654321098765432109876543210
2841 * 001000 x1110000101
2846 std::string
NMD::BALC_16_(uint64 instruction
)
2848 int64 s_value
= extract_s__se10_0_9_8_7_6_5_4_3_2_1_s1(instruction
);
2850 std::string s
= ADDRESS(encode_s_from_address(s_value
), 2);
2852 return img::format("BALC %s", s
);
2860 * 10987654321098765432109876543210
2861 * 001000 x1110000101
2866 std::string
NMD::BALC_32_(uint64 instruction
)
2868 int64 s_value
= extract_s__se25_0_24_to_1_s1(instruction
);
2870 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
2872 return img::format("BALC %s", s
);
2880 * 10987654321098765432109876543210
2881 * 001000 x1110000101
2886 std::string
NMD::BALRSC(uint64 instruction
)
2888 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2889 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
2891 std::string rt
= GPR(copy(rt_value
));
2892 std::string rs
= GPR(copy(rs_value
));
2894 return img::format("BALRSC %s, %s", rt
, rs
);
2902 * 10987654321098765432109876543210
2903 * 001000 x1110000101
2908 std::string
NMD::BBEQZC(uint64 instruction
)
2910 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2911 uint64 bit_value
= extract_bit_16_15_14_13_12_11(instruction
);
2912 int64 s_value
= extract_s__se11_0_10_9_8_7_6_5_4_3_2_1_0_s1(instruction
);
2914 std::string rt
= GPR(copy(rt_value
));
2915 std::string bit
= IMMEDIATE(copy(bit_value
));
2916 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
2918 return img::format("BBEQZC %s, %s, %s", rt
, bit
, s
);
2926 * 10987654321098765432109876543210
2927 * 001000 x1110000101
2932 std::string
NMD::BBNEZC(uint64 instruction
)
2934 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
2935 uint64 bit_value
= extract_bit_16_15_14_13_12_11(instruction
);
2936 int64 s_value
= extract_s__se11_0_10_9_8_7_6_5_4_3_2_1_0_s1(instruction
);
2938 std::string rt
= GPR(copy(rt_value
));
2939 std::string bit
= IMMEDIATE(copy(bit_value
));
2940 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
2942 return img::format("BBNEZC %s, %s, %s", rt
, bit
, s
);
2950 * 10987654321098765432109876543210
2951 * 001000 x1110000101
2956 std::string
NMD::BC_16_(uint64 instruction
)
2958 int64 s_value
= extract_s__se10_0_9_8_7_6_5_4_3_2_1_s1(instruction
);
2960 std::string s
= ADDRESS(encode_s_from_address(s_value
), 2);
2962 return img::format("BC %s", s
);
2970 * 10987654321098765432109876543210
2971 * 001000 x1110000101
2976 std::string
NMD::BC_32_(uint64 instruction
)
2978 int64 s_value
= extract_s__se25_0_24_to_1_s1(instruction
);
2980 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
2982 return img::format("BC %s", s
);
2990 * 10987654321098765432109876543210
2991 * 001000 x1110000101
2996 std::string
NMD::BC1EQZC(uint64 instruction
)
2998 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
2999 int64 s_value
= extract_s__se14_0_13_to_1_s1(instruction
);
3001 std::string ft
= FPR(copy(ft_value
));
3002 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
3004 return img::format("BC1EQZC %s, %s", ft
, s
);
3012 * 10987654321098765432109876543210
3013 * 001000 x1110000101
3018 std::string
NMD::BC1NEZC(uint64 instruction
)
3020 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
3021 int64 s_value
= extract_s__se14_0_13_to_1_s1(instruction
);
3023 std::string ft
= FPR(copy(ft_value
));
3024 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
3026 return img::format("BC1NEZC %s, %s", ft
, s
);
3034 * 10987654321098765432109876543210
3035 * 001000 x1110000101
3040 std::string
NMD::BC2EQZC(uint64 instruction
)
3042 uint64 ct_value
= extract_ct_25_24_23_22_21(instruction
);
3043 int64 s_value
= extract_s__se14_0_13_to_1_s1(instruction
);
3045 std::string ct
= CPR(copy(ct_value
));
3046 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
3048 return img::format("BC2EQZC %s, %s", ct
, s
);
3056 * 10987654321098765432109876543210
3057 * 001000 x1110000101
3062 std::string
NMD::BC2NEZC(uint64 instruction
)
3064 uint64 ct_value
= extract_ct_25_24_23_22_21(instruction
);
3065 int64 s_value
= extract_s__se14_0_13_to_1_s1(instruction
);
3067 std::string ct
= CPR(copy(ct_value
));
3068 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
3070 return img::format("BC2NEZC %s, %s", ct
, s
);
3078 * 10987654321098765432109876543210
3079 * 001000 x1110000101
3084 std::string
NMD::BEQC_16_(uint64 instruction
)
3086 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
3087 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
3088 uint64 u_value
= extract_u_3_2_1_0__s1(instruction
);
3090 std::string rs3
= GPR(encode_rs3_and_check_rs3_lt_rt3(rs3_value
));
3091 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
3092 std::string u
= ADDRESS(encode_u_from_address(u_value
), 2);
3094 return img::format("BEQC %s, %s, %s", rs3
, rt3
, u
);
3102 * 10987654321098765432109876543210
3103 * 001000 x1110000101
3108 std::string
NMD::BEQC_32_(uint64 instruction
)
3110 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
3111 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
3112 int64 s_value
= extract_s__se14_0_13_to_1_s1(instruction
);
3114 std::string rs
= GPR(copy(rs_value
));
3115 std::string rt
= GPR(copy(rt_value
));
3116 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
3118 return img::format("BEQC %s, %s, %s", rs
, rt
, s
);
3126 * 10987654321098765432109876543210
3127 * 001000 x1110000101
3132 std::string
NMD::BEQIC(uint64 instruction
)
3134 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
3135 uint64 u_value
= extract_u_17_16_15_14_13_12_11(instruction
);
3136 int64 s_value
= extract_s__se11_0_10_9_8_7_6_5_4_3_2_1_0_s1(instruction
);
3138 std::string rt
= GPR(copy(rt_value
));
3139 std::string u
= IMMEDIATE(copy(u_value
));
3140 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
3142 return img::format("BEQIC %s, %s, %s", rt
, u
, s
);
3150 * 10987654321098765432109876543210
3151 * 001000 x1110000101
3156 std::string
NMD::BEQZC_16_(uint64 instruction
)
3158 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
3159 int64 s_value
= extract_s__se7_0_6_5_4_3_2_1_s1(instruction
);
3161 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
3162 std::string s
= ADDRESS(encode_s_from_address(s_value
), 2);
3164 return img::format("BEQZC %s, %s", rt3
, s
);
3172 * 10987654321098765432109876543210
3173 * 001000 x1110000101
3178 std::string
NMD::BGEC(uint64 instruction
)
3180 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
3181 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
3182 int64 s_value
= extract_s__se14_0_13_to_1_s1(instruction
);
3184 std::string rs
= GPR(copy(rs_value
));
3185 std::string rt
= GPR(copy(rt_value
));
3186 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
3188 return img::format("BGEC %s, %s, %s", rs
, rt
, s
);
3196 * 10987654321098765432109876543210
3197 * 001000 x1110000101
3202 std::string
NMD::BGEIC(uint64 instruction
)
3204 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
3205 uint64 u_value
= extract_u_17_16_15_14_13_12_11(instruction
);
3206 int64 s_value
= extract_s__se11_0_10_9_8_7_6_5_4_3_2_1_0_s1(instruction
);
3208 std::string rt
= GPR(copy(rt_value
));
3209 std::string u
= IMMEDIATE(copy(u_value
));
3210 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
3212 return img::format("BGEIC %s, %s, %s", rt
, u
, s
);
3220 * 10987654321098765432109876543210
3221 * 001000 x1110000101
3226 std::string
NMD::BGEIUC(uint64 instruction
)
3228 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
3229 uint64 u_value
= extract_u_17_16_15_14_13_12_11(instruction
);
3230 int64 s_value
= extract_s__se11_0_10_9_8_7_6_5_4_3_2_1_0_s1(instruction
);
3232 std::string rt
= GPR(copy(rt_value
));
3233 std::string u
= IMMEDIATE(copy(u_value
));
3234 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
3236 return img::format("BGEIUC %s, %s, %s", rt
, u
, s
);
3244 * 10987654321098765432109876543210
3245 * 001000 x1110000101
3250 std::string
NMD::BGEUC(uint64 instruction
)
3252 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
3253 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
3254 int64 s_value
= extract_s__se14_0_13_to_1_s1(instruction
);
3256 std::string rs
= GPR(copy(rs_value
));
3257 std::string rt
= GPR(copy(rt_value
));
3258 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
3260 return img::format("BGEUC %s, %s, %s", rs
, rt
, s
);
3268 * 10987654321098765432109876543210
3269 * 001000 x1110000101
3274 std::string
NMD::BLTC(uint64 instruction
)
3276 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
3277 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
3278 int64 s_value
= extract_s__se14_0_13_to_1_s1(instruction
);
3280 std::string rs
= GPR(copy(rs_value
));
3281 std::string rt
= GPR(copy(rt_value
));
3282 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
3284 return img::format("BLTC %s, %s, %s", rs
, rt
, s
);
3292 * 10987654321098765432109876543210
3293 * 001000 x1110000101
3298 std::string
NMD::BLTIC(uint64 instruction
)
3300 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
3301 uint64 u_value
= extract_u_17_16_15_14_13_12_11(instruction
);
3302 int64 s_value
= extract_s__se11_0_10_9_8_7_6_5_4_3_2_1_0_s1(instruction
);
3304 std::string rt
= GPR(copy(rt_value
));
3305 std::string u
= IMMEDIATE(copy(u_value
));
3306 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
3308 return img::format("BLTIC %s, %s, %s", rt
, u
, s
);
3316 * 10987654321098765432109876543210
3317 * 001000 x1110000101
3322 std::string
NMD::BLTIUC(uint64 instruction
)
3324 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
3325 uint64 u_value
= extract_u_17_16_15_14_13_12_11(instruction
);
3326 int64 s_value
= extract_s__se11_0_10_9_8_7_6_5_4_3_2_1_0_s1(instruction
);
3328 std::string rt
= GPR(copy(rt_value
));
3329 std::string u
= IMMEDIATE(copy(u_value
));
3330 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
3332 return img::format("BLTIUC %s, %s, %s", rt
, u
, s
);
3340 * 10987654321098765432109876543210
3341 * 001000 x1110000101
3346 std::string
NMD::BLTUC(uint64 instruction
)
3348 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
3349 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
3350 int64 s_value
= extract_s__se14_0_13_to_1_s1(instruction
);
3352 std::string rs
= GPR(copy(rs_value
));
3353 std::string rt
= GPR(copy(rt_value
));
3354 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
3356 return img::format("BLTUC %s, %s, %s", rs
, rt
, s
);
3364 * 10987654321098765432109876543210
3365 * 001000 x1110000101
3370 std::string
NMD::BNEC_16_(uint64 instruction
)
3372 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
3373 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
3374 uint64 u_value
= extract_u_3_2_1_0__s1(instruction
);
3376 std::string rs3
= GPR(encode_rs3_and_check_rs3_ge_rt3(rs3_value
));
3377 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
3378 std::string u
= ADDRESS(encode_u_from_address(u_value
), 2);
3380 return img::format("BNEC %s, %s, %s", rs3
, rt3
, u
);
3388 * 10987654321098765432109876543210
3389 * 001000 x1110000101
3394 std::string
NMD::BNEC_32_(uint64 instruction
)
3396 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
3397 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
3398 int64 s_value
= extract_s__se14_0_13_to_1_s1(instruction
);
3400 std::string rs
= GPR(copy(rs_value
));
3401 std::string rt
= GPR(copy(rt_value
));
3402 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
3404 return img::format("BNEC %s, %s, %s", rs
, rt
, s
);
3412 * 10987654321098765432109876543210
3413 * 001000 x1110000101
3418 std::string
NMD::BNEIC(uint64 instruction
)
3420 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
3421 uint64 u_value
= extract_u_17_16_15_14_13_12_11(instruction
);
3422 int64 s_value
= extract_s__se11_0_10_9_8_7_6_5_4_3_2_1_0_s1(instruction
);
3424 std::string rt
= GPR(copy(rt_value
));
3425 std::string u
= IMMEDIATE(copy(u_value
));
3426 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
3428 return img::format("BNEIC %s, %s, %s", rt
, u
, s
);
3436 * 10987654321098765432109876543210
3437 * 001000 x1110000101
3442 std::string
NMD::BNEZC_16_(uint64 instruction
)
3444 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
3445 int64 s_value
= extract_s__se7_0_6_5_4_3_2_1_s1(instruction
);
3447 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
3448 std::string s
= ADDRESS(encode_s_from_address(s_value
), 2);
3450 return img::format("BNEZC %s, %s", rt3
, s
);
3455 * [DSP] BPOSGE32C offset - Branch on greater than or equal to value 32 in
3456 * DSPControl Pos field
3459 * 10987654321098765432109876543210
3460 * 100010xxxxx0010001
3461 * s[13:1] -------------
3464 std::string
NMD::BPOSGE32C(uint64 instruction
)
3466 int64 s_value
= extract_s__se14_0_13_to_1_s1(instruction
);
3468 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
3470 return img::format("BPOSGE32C %s", s
);
3478 * 10987654321098765432109876543210
3479 * 001000 x1110000101
3484 std::string
NMD::BREAK_16_(uint64 instruction
)
3486 uint64 code_value
= extract_code_2_1_0(instruction
);
3488 std::string code
= IMMEDIATE(copy(code_value
));
3490 return img::format("BREAK %s", code
);
3495 * BREAK code - Break. Cause a Breakpoint exception
3498 * 10987654321098765432109876543210
3499 * 001000 x1110000101
3504 std::string
NMD::BREAK_32_(uint64 instruction
)
3506 uint64 code_value
= extract_code_18_to_0(instruction
);
3508 std::string code
= IMMEDIATE(copy(code_value
));
3510 return img::format("BREAK %s", code
);
3518 * 10987654321098765432109876543210
3519 * 001000 x1110000101
3524 std::string
NMD::BRSC(uint64 instruction
)
3526 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
3528 std::string rs
= GPR(copy(rs_value
));
3530 return img::format("BRSC %s", rs
);
3538 * 10987654321098765432109876543210
3539 * 001000 x1110000101
3544 std::string
NMD::CACHE(uint64 instruction
)
3546 uint64 op_value
= extract_op_25_24_23_22_21(instruction
);
3547 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
3548 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
3550 std::string op
= IMMEDIATE(copy(op_value
));
3551 std::string s
= IMMEDIATE(copy(s_value
));
3552 std::string rs
= GPR(copy(rs_value
));
3554 return img::format("CACHE %s, %s(%s)", op
, s
, rs
);
3562 * 10987654321098765432109876543210
3563 * 001000 x1110000101
3568 std::string
NMD::CACHEE(uint64 instruction
)
3570 uint64 op_value
= extract_op_25_24_23_22_21(instruction
);
3571 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
3572 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
3574 std::string op
= IMMEDIATE(copy(op_value
));
3575 std::string s
= IMMEDIATE(copy(s_value
));
3576 std::string rs
= GPR(copy(rs_value
));
3578 return img::format("CACHEE %s, %s(%s)", op
, s
, rs
);
3586 * 10987654321098765432109876543210
3587 * 001000 x1110000101
3592 std::string
NMD::CEIL_L_D(uint64 instruction
)
3594 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
3595 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
3597 std::string ft
= FPR(copy(ft_value
));
3598 std::string fs
= FPR(copy(fs_value
));
3600 return img::format("CEIL.L.D %s, %s", ft
, fs
);
3608 * 10987654321098765432109876543210
3609 * 001000 x1110000101
3614 std::string
NMD::CEIL_L_S(uint64 instruction
)
3616 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
3617 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
3619 std::string ft
= FPR(copy(ft_value
));
3620 std::string fs
= FPR(copy(fs_value
));
3622 return img::format("CEIL.L.S %s, %s", ft
, fs
);
3630 * 10987654321098765432109876543210
3631 * 001000 x1110000101
3636 std::string
NMD::CEIL_W_D(uint64 instruction
)
3638 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
3639 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
3641 std::string ft
= FPR(copy(ft_value
));
3642 std::string fs
= FPR(copy(fs_value
));
3644 return img::format("CEIL.W.D %s, %s", ft
, fs
);
3652 * 10987654321098765432109876543210
3653 * 001000 x1110000101
3658 std::string
NMD::CEIL_W_S(uint64 instruction
)
3660 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
3661 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
3663 std::string ft
= FPR(copy(ft_value
));
3664 std::string fs
= FPR(copy(fs_value
));
3666 return img::format("CEIL.W.S %s, %s", ft
, fs
);
3674 * 10987654321098765432109876543210
3675 * 001000 x1110000101
3680 std::string
NMD::CFC1(uint64 instruction
)
3682 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
3683 uint64 cs_value
= extract_cs_20_19_18_17_16(instruction
);
3685 std::string rt
= GPR(copy(rt_value
));
3686 std::string cs
= CPR(copy(cs_value
));
3688 return img::format("CFC1 %s, %s", rt
, cs
);
3696 * 10987654321098765432109876543210
3697 * 001000 x1110000101
3702 std::string
NMD::CFC2(uint64 instruction
)
3704 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
3705 uint64 cs_value
= extract_cs_20_19_18_17_16(instruction
);
3707 std::string rt
= GPR(copy(rt_value
));
3708 std::string cs
= CPR(copy(cs_value
));
3710 return img::format("CFC2 %s, %s", rt
, cs
);
3718 * 10987654321098765432109876543210
3719 * 001000 x1110000101
3724 std::string
NMD::CLASS_D(uint64 instruction
)
3726 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
3727 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
3729 std::string ft
= FPR(copy(ft_value
));
3730 std::string fs
= FPR(copy(fs_value
));
3732 return img::format("CLASS.D %s, %s", ft
, fs
);
3740 * 10987654321098765432109876543210
3741 * 001000 x1110000101
3746 std::string
NMD::CLASS_S(uint64 instruction
)
3748 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
3749 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
3751 std::string ft
= FPR(copy(ft_value
));
3752 std::string fs
= FPR(copy(fs_value
));
3754 return img::format("CLASS.S %s, %s", ft
, fs
);
3762 * 10987654321098765432109876543210
3763 * 001000 x1110000101
3768 std::string
NMD::CLO(uint64 instruction
)
3770 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
3771 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
3773 std::string rt
= GPR(copy(rt_value
));
3774 std::string rs
= GPR(copy(rs_value
));
3776 return img::format("CLO %s, %s", rt
, rs
);
3784 * 10987654321098765432109876543210
3785 * 001000 x1110000101
3790 std::string
NMD::CLZ(uint64 instruction
)
3792 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
3793 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
3795 std::string rt
= GPR(copy(rt_value
));
3796 std::string rs
= GPR(copy(rs_value
));
3798 return img::format("CLZ %s, %s", rt
, rs
);
3806 * 10987654321098765432109876543210
3807 * 001000 x1110000101
3812 std::string
NMD::CMP_AF_D(uint64 instruction
)
3814 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
3815 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
3816 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
3818 std::string fd
= FPR(copy(fd_value
));
3819 std::string fs
= FPR(copy(fs_value
));
3820 std::string ft
= FPR(copy(ft_value
));
3822 return img::format("CMP.AF.D %s, %s, %s", fd
, fs
, ft
);
3830 * 10987654321098765432109876543210
3831 * 001000 x1110000101
3836 std::string
NMD::CMP_AF_S(uint64 instruction
)
3838 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
3839 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
3840 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
3842 std::string fd
= FPR(copy(fd_value
));
3843 std::string fs
= FPR(copy(fs_value
));
3844 std::string ft
= FPR(copy(ft_value
));
3846 return img::format("CMP.AF.S %s, %s, %s", fd
, fs
, ft
);
3854 * 10987654321098765432109876543210
3855 * 001000 x1110000101
3860 std::string
NMD::CMP_EQ_D(uint64 instruction
)
3862 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
3863 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
3864 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
3866 std::string fd
= FPR(copy(fd_value
));
3867 std::string fs
= FPR(copy(fs_value
));
3868 std::string ft
= FPR(copy(ft_value
));
3870 return img::format("CMP.EQ.D %s, %s, %s", fd
, fs
, ft
);
3875 * [DSP] CMP.EQ.PH rs, rt - Compare vectors of signed integer halfword values
3878 * 10987654321098765432109876543210
3879 * 001000 xxxxxx0000000101
3883 std::string
NMD::CMP_EQ_PH(uint64 instruction
)
3885 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
3886 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
3888 std::string rs
= GPR(copy(rs_value
));
3889 std::string rt
= GPR(copy(rt_value
));
3891 return img::format("CMP.EQ.PH %s, %s", rs
, rt
);
3899 * 10987654321098765432109876543210
3900 * 001000 x1110000101
3905 std::string
NMD::CMP_EQ_S(uint64 instruction
)
3907 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
3908 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
3909 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
3911 std::string fd
= FPR(copy(fd_value
));
3912 std::string fs
= FPR(copy(fs_value
));
3913 std::string ft
= FPR(copy(ft_value
));
3915 return img::format("CMP.EQ.S %s, %s, %s", fd
, fs
, ft
);
3923 * 10987654321098765432109876543210
3924 * 001000 x1110000101
3929 std::string
NMD::CMP_LE_D(uint64 instruction
)
3931 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
3932 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
3933 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
3935 std::string fd
= FPR(copy(fd_value
));
3936 std::string fs
= FPR(copy(fs_value
));
3937 std::string ft
= FPR(copy(ft_value
));
3939 return img::format("CMP.LE.D %s, %s, %s", fd
, fs
, ft
);
3944 * [DSP] CMP.LE.PH rs, rt - Compare vectors of signed integer halfword values
3947 * 10987654321098765432109876543210
3948 * 001000 xxxxxx0010000101
3952 std::string
NMD::CMP_LE_PH(uint64 instruction
)
3954 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
3955 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
3957 std::string rs
= GPR(copy(rs_value
));
3958 std::string rt
= GPR(copy(rt_value
));
3960 return img::format("CMP.LE.PH %s, %s", rs
, rt
);
3968 * 10987654321098765432109876543210
3969 * 001000 x1110000101
3974 std::string
NMD::CMP_LE_S(uint64 instruction
)
3976 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
3977 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
3978 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
3980 std::string fd
= FPR(copy(fd_value
));
3981 std::string fs
= FPR(copy(fs_value
));
3982 std::string ft
= FPR(copy(ft_value
));
3984 return img::format("CMP.LE.S %s, %s, %s", fd
, fs
, ft
);
3992 * 10987654321098765432109876543210
3993 * 001000 x1110000101
3998 std::string
NMD::CMP_LT_D(uint64 instruction
)
4000 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4001 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4002 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4004 std::string fd
= FPR(copy(fd_value
));
4005 std::string fs
= FPR(copy(fs_value
));
4006 std::string ft
= FPR(copy(ft_value
));
4008 return img::format("CMP.LT.D %s, %s, %s", fd
, fs
, ft
);
4013 * [DSP] CMP.LT.PH rs, rt - Compare vectors of signed integer halfword values
4016 * 10987654321098765432109876543210
4017 * 001000 xxxxxx0001000101
4021 std::string
NMD::CMP_LT_PH(uint64 instruction
)
4023 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
4024 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
4026 std::string rs
= GPR(copy(rs_value
));
4027 std::string rt
= GPR(copy(rt_value
));
4029 return img::format("CMP.LT.PH %s, %s", rs
, rt
);
4037 * 10987654321098765432109876543210
4038 * 001000 x1110000101
4043 std::string
NMD::CMP_LT_S(uint64 instruction
)
4045 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4046 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4047 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4049 std::string fd
= FPR(copy(fd_value
));
4050 std::string fs
= FPR(copy(fs_value
));
4051 std::string ft
= FPR(copy(ft_value
));
4053 return img::format("CMP.LT.S %s, %s, %s", fd
, fs
, ft
);
4061 * 10987654321098765432109876543210
4062 * 001000 x1110000101
4067 std::string
NMD::CMP_NE_D(uint64 instruction
)
4069 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4070 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4071 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4073 std::string fd
= FPR(copy(fd_value
));
4074 std::string fs
= FPR(copy(fs_value
));
4075 std::string ft
= FPR(copy(ft_value
));
4077 return img::format("CMP.NE.D %s, %s, %s", fd
, fs
, ft
);
4085 * 10987654321098765432109876543210
4086 * 001000 x1110000101
4091 std::string
NMD::CMP_NE_S(uint64 instruction
)
4093 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4094 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4095 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4097 std::string fd
= FPR(copy(fd_value
));
4098 std::string fs
= FPR(copy(fs_value
));
4099 std::string ft
= FPR(copy(ft_value
));
4101 return img::format("CMP.NE.S %s, %s, %s", fd
, fs
, ft
);
4109 * 10987654321098765432109876543210
4110 * 001000 x1110000101
4115 std::string
NMD::CMP_OR_D(uint64 instruction
)
4117 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4118 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4119 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4121 std::string fd
= FPR(copy(fd_value
));
4122 std::string fs
= FPR(copy(fs_value
));
4123 std::string ft
= FPR(copy(ft_value
));
4125 return img::format("CMP.OR.D %s, %s, %s", fd
, fs
, ft
);
4133 * 10987654321098765432109876543210
4134 * 001000 x1110000101
4139 std::string
NMD::CMP_OR_S(uint64 instruction
)
4141 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4142 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4143 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4145 std::string fd
= FPR(copy(fd_value
));
4146 std::string fs
= FPR(copy(fs_value
));
4147 std::string ft
= FPR(copy(ft_value
));
4149 return img::format("CMP.OR.S %s, %s, %s", fd
, fs
, ft
);
4157 * 10987654321098765432109876543210
4158 * 001000 x1110000101
4163 std::string
NMD::CMP_SAF_D(uint64 instruction
)
4165 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4166 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4167 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4169 std::string fd
= FPR(copy(fd_value
));
4170 std::string fs
= FPR(copy(fs_value
));
4171 std::string ft
= FPR(copy(ft_value
));
4173 return img::format("CMP.SAF.D %s, %s, %s", fd
, fs
, ft
);
4181 * 10987654321098765432109876543210
4182 * 001000 x1110000101
4187 std::string
NMD::CMP_SAF_S(uint64 instruction
)
4189 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4190 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4191 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4193 std::string fd
= FPR(copy(fd_value
));
4194 std::string fs
= FPR(copy(fs_value
));
4195 std::string ft
= FPR(copy(ft_value
));
4197 return img::format("CMP.SAF.S %s, %s, %s", fd
, fs
, ft
);
4205 * 10987654321098765432109876543210
4206 * 001000 x1110000101
4211 std::string
NMD::CMP_SEQ_D(uint64 instruction
)
4213 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4214 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4215 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4217 std::string fd
= FPR(copy(fd_value
));
4218 std::string fs
= FPR(copy(fs_value
));
4219 std::string ft
= FPR(copy(ft_value
));
4221 return img::format("CMP.SEQ.D %s, %s, %s", fd
, fs
, ft
);
4229 * 10987654321098765432109876543210
4230 * 001000 x1110000101
4235 std::string
NMD::CMP_SEQ_S(uint64 instruction
)
4237 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4238 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4239 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4241 std::string fd
= FPR(copy(fd_value
));
4242 std::string fs
= FPR(copy(fs_value
));
4243 std::string ft
= FPR(copy(ft_value
));
4245 return img::format("CMP.SEQ.S %s, %s, %s", fd
, fs
, ft
);
4253 * 10987654321098765432109876543210
4254 * 001000 x1110000101
4259 std::string
NMD::CMP_SLE_D(uint64 instruction
)
4261 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4262 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4263 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4265 std::string fd
= FPR(copy(fd_value
));
4266 std::string fs
= FPR(copy(fs_value
));
4267 std::string ft
= FPR(copy(ft_value
));
4269 return img::format("CMP.SLE.D %s, %s, %s", fd
, fs
, ft
);
4277 * 10987654321098765432109876543210
4278 * 001000 x1110000101
4283 std::string
NMD::CMP_SLE_S(uint64 instruction
)
4285 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4286 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4287 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4289 std::string fd
= FPR(copy(fd_value
));
4290 std::string fs
= FPR(copy(fs_value
));
4291 std::string ft
= FPR(copy(ft_value
));
4293 return img::format("CMP.SLE.S %s, %s, %s", fd
, fs
, ft
);
4301 * 10987654321098765432109876543210
4302 * 001000 x1110000101
4307 std::string
NMD::CMP_SLT_D(uint64 instruction
)
4309 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4310 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4311 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4313 std::string fd
= FPR(copy(fd_value
));
4314 std::string fs
= FPR(copy(fs_value
));
4315 std::string ft
= FPR(copy(ft_value
));
4317 return img::format("CMP.SLT.D %s, %s, %s", fd
, fs
, ft
);
4325 * 10987654321098765432109876543210
4326 * 001000 x1110000101
4331 std::string
NMD::CMP_SLT_S(uint64 instruction
)
4333 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4334 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4335 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4337 std::string fd
= FPR(copy(fd_value
));
4338 std::string fs
= FPR(copy(fs_value
));
4339 std::string ft
= FPR(copy(ft_value
));
4341 return img::format("CMP.SLT.S %s, %s, %s", fd
, fs
, ft
);
4349 * 10987654321098765432109876543210
4350 * 001000 x1110000101
4355 std::string
NMD::CMP_SNE_D(uint64 instruction
)
4357 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4358 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4359 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4361 std::string fd
= FPR(copy(fd_value
));
4362 std::string fs
= FPR(copy(fs_value
));
4363 std::string ft
= FPR(copy(ft_value
));
4365 return img::format("CMP.SNE.D %s, %s, %s", fd
, fs
, ft
);
4373 * 10987654321098765432109876543210
4374 * 001000 x1110000101
4379 std::string
NMD::CMP_SNE_S(uint64 instruction
)
4381 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4382 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4383 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4385 std::string fd
= FPR(copy(fd_value
));
4386 std::string fs
= FPR(copy(fs_value
));
4387 std::string ft
= FPR(copy(ft_value
));
4389 return img::format("CMP.SNE.S %s, %s, %s", fd
, fs
, ft
);
4397 * 10987654321098765432109876543210
4398 * 001000 x1110000101
4403 std::string
NMD::CMP_SOR_D(uint64 instruction
)
4405 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4406 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4407 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4409 std::string fd
= FPR(copy(fd_value
));
4410 std::string fs
= FPR(copy(fs_value
));
4411 std::string ft
= FPR(copy(ft_value
));
4413 return img::format("CMP.SOR.D %s, %s, %s", fd
, fs
, ft
);
4421 * 10987654321098765432109876543210
4422 * 001000 x1110000101
4427 std::string
NMD::CMP_SOR_S(uint64 instruction
)
4429 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4430 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4431 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4433 std::string fd
= FPR(copy(fd_value
));
4434 std::string fs
= FPR(copy(fs_value
));
4435 std::string ft
= FPR(copy(ft_value
));
4437 return img::format("CMP.SOR.S %s, %s, %s", fd
, fs
, ft
);
4445 * 10987654321098765432109876543210
4446 * 001000 x1110000101
4451 std::string
NMD::CMP_SUEQ_D(uint64 instruction
)
4453 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4454 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4455 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4457 std::string fd
= FPR(copy(fd_value
));
4458 std::string fs
= FPR(copy(fs_value
));
4459 std::string ft
= FPR(copy(ft_value
));
4461 return img::format("CMP.SUEQ.D %s, %s, %s", fd
, fs
, ft
);
4469 * 10987654321098765432109876543210
4470 * 001000 x1110000101
4475 std::string
NMD::CMP_SUEQ_S(uint64 instruction
)
4477 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4478 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4479 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4481 std::string fd
= FPR(copy(fd_value
));
4482 std::string fs
= FPR(copy(fs_value
));
4483 std::string ft
= FPR(copy(ft_value
));
4485 return img::format("CMP.SUEQ.S %s, %s, %s", fd
, fs
, ft
);
4493 * 10987654321098765432109876543210
4494 * 001000 x1110000101
4499 std::string
NMD::CMP_SULE_D(uint64 instruction
)
4501 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4502 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4503 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4505 std::string fd
= FPR(copy(fd_value
));
4506 std::string fs
= FPR(copy(fs_value
));
4507 std::string ft
= FPR(copy(ft_value
));
4509 return img::format("CMP.SULE.D %s, %s, %s", fd
, fs
, ft
);
4517 * 10987654321098765432109876543210
4518 * 001000 x1110000101
4523 std::string
NMD::CMP_SULE_S(uint64 instruction
)
4525 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4526 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4527 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4529 std::string fd
= FPR(copy(fd_value
));
4530 std::string fs
= FPR(copy(fs_value
));
4531 std::string ft
= FPR(copy(ft_value
));
4533 return img::format("CMP.SULE.S %s, %s, %s", fd
, fs
, ft
);
4541 * 10987654321098765432109876543210
4542 * 001000 x1110000101
4547 std::string
NMD::CMP_SULT_D(uint64 instruction
)
4549 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4550 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4551 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4553 std::string fd
= FPR(copy(fd_value
));
4554 std::string fs
= FPR(copy(fs_value
));
4555 std::string ft
= FPR(copy(ft_value
));
4557 return img::format("CMP.SULT.D %s, %s, %s", fd
, fs
, ft
);
4565 * 10987654321098765432109876543210
4566 * 001000 x1110000101
4571 std::string
NMD::CMP_SULT_S(uint64 instruction
)
4573 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4574 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4575 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4577 std::string fd
= FPR(copy(fd_value
));
4578 std::string fs
= FPR(copy(fs_value
));
4579 std::string ft
= FPR(copy(ft_value
));
4581 return img::format("CMP.SULT.S %s, %s, %s", fd
, fs
, ft
);
4589 * 10987654321098765432109876543210
4590 * 001000 x1110000101
4595 std::string
NMD::CMP_SUN_D(uint64 instruction
)
4597 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4598 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4599 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4601 std::string fd
= FPR(copy(fd_value
));
4602 std::string fs
= FPR(copy(fs_value
));
4603 std::string ft
= FPR(copy(ft_value
));
4605 return img::format("CMP.SUN.D %s, %s, %s", fd
, fs
, ft
);
4613 * 10987654321098765432109876543210
4614 * 001000 x1110000101
4619 std::string
NMD::CMP_SUNE_D(uint64 instruction
)
4621 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4622 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4623 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4625 std::string fd
= FPR(copy(fd_value
));
4626 std::string fs
= FPR(copy(fs_value
));
4627 std::string ft
= FPR(copy(ft_value
));
4629 return img::format("CMP.SUNE.D %s, %s, %s", fd
, fs
, ft
);
4637 * 10987654321098765432109876543210
4638 * 001000 x1110000101
4643 std::string
NMD::CMP_SUNE_S(uint64 instruction
)
4645 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4646 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4647 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4649 std::string fd
= FPR(copy(fd_value
));
4650 std::string fs
= FPR(copy(fs_value
));
4651 std::string ft
= FPR(copy(ft_value
));
4653 return img::format("CMP.SUNE.S %s, %s, %s", fd
, fs
, ft
);
4661 * 10987654321098765432109876543210
4662 * 001000 x1110000101
4667 std::string
NMD::CMP_SUN_S(uint64 instruction
)
4669 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4670 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4671 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4673 std::string fd
= FPR(copy(fd_value
));
4674 std::string fs
= FPR(copy(fs_value
));
4675 std::string ft
= FPR(copy(ft_value
));
4677 return img::format("CMP.SUN.S %s, %s, %s", fd
, fs
, ft
);
4685 * 10987654321098765432109876543210
4686 * 001000 x1110000101
4691 std::string
NMD::CMP_UEQ_D(uint64 instruction
)
4693 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4694 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4695 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4697 std::string fd
= FPR(copy(fd_value
));
4698 std::string fs
= FPR(copy(fs_value
));
4699 std::string ft
= FPR(copy(ft_value
));
4701 return img::format("CMP.UEQ.D %s, %s, %s", fd
, fs
, ft
);
4709 * 10987654321098765432109876543210
4710 * 001000 x1110000101
4715 std::string
NMD::CMP_UEQ_S(uint64 instruction
)
4717 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4718 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4719 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4721 std::string fd
= FPR(copy(fd_value
));
4722 std::string fs
= FPR(copy(fs_value
));
4723 std::string ft
= FPR(copy(ft_value
));
4725 return img::format("CMP.UEQ.S %s, %s, %s", fd
, fs
, ft
);
4733 * 10987654321098765432109876543210
4734 * 001000 x1110000101
4739 std::string
NMD::CMP_ULE_D(uint64 instruction
)
4741 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4742 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4743 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4745 std::string fd
= FPR(copy(fd_value
));
4746 std::string fs
= FPR(copy(fs_value
));
4747 std::string ft
= FPR(copy(ft_value
));
4749 return img::format("CMP.ULE.D %s, %s, %s", fd
, fs
, ft
);
4757 * 10987654321098765432109876543210
4758 * 001000 x1110000101
4763 std::string
NMD::CMP_ULE_S(uint64 instruction
)
4765 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4766 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4767 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4769 std::string fd
= FPR(copy(fd_value
));
4770 std::string fs
= FPR(copy(fs_value
));
4771 std::string ft
= FPR(copy(ft_value
));
4773 return img::format("CMP.ULE.S %s, %s, %s", fd
, fs
, ft
);
4781 * 10987654321098765432109876543210
4782 * 001000 x1110000101
4787 std::string
NMD::CMP_ULT_D(uint64 instruction
)
4789 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4790 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4791 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4793 std::string fd
= FPR(copy(fd_value
));
4794 std::string fs
= FPR(copy(fs_value
));
4795 std::string ft
= FPR(copy(ft_value
));
4797 return img::format("CMP.ULT.D %s, %s, %s", fd
, fs
, ft
);
4805 * 10987654321098765432109876543210
4806 * 001000 x1110000101
4811 std::string
NMD::CMP_ULT_S(uint64 instruction
)
4813 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4814 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4815 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4817 std::string fd
= FPR(copy(fd_value
));
4818 std::string fs
= FPR(copy(fs_value
));
4819 std::string ft
= FPR(copy(ft_value
));
4821 return img::format("CMP.ULT.S %s, %s, %s", fd
, fs
, ft
);
4829 * 10987654321098765432109876543210
4830 * 001000 x1110000101
4835 std::string
NMD::CMP_UN_D(uint64 instruction
)
4837 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4838 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4839 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4841 std::string fd
= FPR(copy(fd_value
));
4842 std::string fs
= FPR(copy(fs_value
));
4843 std::string ft
= FPR(copy(ft_value
));
4845 return img::format("CMP.UN.D %s, %s, %s", fd
, fs
, ft
);
4853 * 10987654321098765432109876543210
4854 * 001000 x1110000101
4859 std::string
NMD::CMP_UNE_D(uint64 instruction
)
4861 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4862 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4863 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4865 std::string fd
= FPR(copy(fd_value
));
4866 std::string fs
= FPR(copy(fs_value
));
4867 std::string ft
= FPR(copy(ft_value
));
4869 return img::format("CMP.UNE.D %s, %s, %s", fd
, fs
, ft
);
4877 * 10987654321098765432109876543210
4878 * 001000 x1110000101
4883 std::string
NMD::CMP_UNE_S(uint64 instruction
)
4885 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4886 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4887 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4889 std::string fd
= FPR(copy(fd_value
));
4890 std::string fs
= FPR(copy(fs_value
));
4891 std::string ft
= FPR(copy(ft_value
));
4893 return img::format("CMP.UNE.S %s, %s, %s", fd
, fs
, ft
);
4901 * 10987654321098765432109876543210
4902 * 001000 x1110000101
4907 std::string
NMD::CMP_UN_S(uint64 instruction
)
4909 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
4910 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
4911 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
4913 std::string fd
= FPR(copy(fd_value
));
4914 std::string fs
= FPR(copy(fs_value
));
4915 std::string ft
= FPR(copy(ft_value
));
4917 return img::format("CMP.UN.S %s, %s, %s", fd
, fs
, ft
);
4922 * [DSP] CMPGDU.EQ.QB rd, rs, rt - Compare unsigned vector of
4923 * four bytes and write result to GPR and DSPControl
4926 * 10987654321098765432109876543210
4927 * 001000 x0110000101
4932 std::string
NMD::CMPGDU_EQ_QB(uint64 instruction
)
4934 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
4935 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
4936 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
4938 std::string rd
= GPR(copy(rd_value
));
4939 std::string rs
= GPR(copy(rs_value
));
4940 std::string rt
= GPR(copy(rt_value
));
4942 return img::format("CMPGDU.EQ.QB %s, %s, %s", rd
, rs
, rt
);
4947 * [DSP] CMPGDU.LE.QB rd, rs, rt - Compare unsigned vector of
4948 * four bytes and write result to GPR and DSPControl
4951 * 10987654321098765432109876543210
4952 * 001000 x1000000101
4957 std::string
NMD::CMPGDU_LE_QB(uint64 instruction
)
4959 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
4960 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
4961 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
4963 std::string rd
= GPR(copy(rd_value
));
4964 std::string rs
= GPR(copy(rs_value
));
4965 std::string rt
= GPR(copy(rt_value
));
4967 return img::format("CMPGDU.LE.QB %s, %s, %s", rd
, rs
, rt
);
4972 * [DSP] CMPGDU.EQ.QB rd, rs, rt - Compare unsigned vector of
4973 * four bytes and write result to GPR and DSPControl
4976 * 10987654321098765432109876543210
4977 * 001000 x0111000101
4982 std::string
NMD::CMPGDU_LT_QB(uint64 instruction
)
4984 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
4985 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
4986 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
4988 std::string rd
= GPR(copy(rd_value
));
4989 std::string rs
= GPR(copy(rs_value
));
4990 std::string rt
= GPR(copy(rt_value
));
4992 return img::format("CMPGDU.LT.QB %s, %s, %s", rd
, rs
, rt
);
4997 * [DSP] CMPGU.EQ.QB rd, rs, rt - Compare vectors of unsigned
4998 * byte values and write result to a GPR
5001 * 10987654321098765432109876543210
5002 * 001000 x0011000101
5007 std::string
NMD::CMPGU_EQ_QB(uint64 instruction
)
5009 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5010 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5011 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
5013 std::string rd
= GPR(copy(rd_value
));
5014 std::string rs
= GPR(copy(rs_value
));
5015 std::string rt
= GPR(copy(rt_value
));
5017 return img::format("CMPGU.EQ.QB %s, %s, %s", rd
, rs
, rt
);
5022 * [DSP] CMPGU.LE.QB rd, rs, rt - Compare vectors of unsigned
5023 * byte values and write result to a GPR
5026 * 10987654321098765432109876543210
5027 * 001000 x0101000101
5032 std::string
NMD::CMPGU_LE_QB(uint64 instruction
)
5034 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5035 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5036 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
5038 std::string rd
= GPR(copy(rd_value
));
5039 std::string rs
= GPR(copy(rs_value
));
5040 std::string rt
= GPR(copy(rt_value
));
5042 return img::format("CMPGU.LE.QB %s, %s, %s", rd
, rs
, rt
);
5047 * [DSP] CMPGU.LT.QB rd, rs, rt - Compare vectors of unsigned
5048 * byte values and write result to a GPR
5051 * 10987654321098765432109876543210
5052 * 001000 x0100000101
5057 std::string
NMD::CMPGU_LT_QB(uint64 instruction
)
5059 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5060 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5061 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
5063 std::string rd
= GPR(copy(rd_value
));
5064 std::string rs
= GPR(copy(rs_value
));
5065 std::string rt
= GPR(copy(rt_value
));
5067 return img::format("CMPGU.LT.QB %s, %s, %s", rd
, rs
, rt
);
5072 * [DSP] CMPU.EQ.QB rd, rs, rt - Compare vectors of unsigned
5076 * 10987654321098765432109876543210
5077 * 001000 xxxxxx1001000101
5081 std::string
NMD::CMPU_EQ_QB(uint64 instruction
)
5083 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5084 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5086 std::string rs
= GPR(copy(rs_value
));
5087 std::string rt
= GPR(copy(rt_value
));
5089 return img::format("CMPU.EQ.QB %s, %s", rs
, rt
);
5094 * [DSP] CMPU.LE.QB rd, rs, rt - Compare vectors of unsigned
5098 * 10987654321098765432109876543210
5099 * 001000 xxxxxx1011000101
5103 std::string
NMD::CMPU_LE_QB(uint64 instruction
)
5105 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5106 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5108 std::string rs
= GPR(copy(rs_value
));
5109 std::string rt
= GPR(copy(rt_value
));
5111 return img::format("CMPU.LE.QB %s, %s", rs
, rt
);
5116 * [DSP] CMPU.LT.QB rd, rs, rt - Compare vectors of unsigned
5120 * 10987654321098765432109876543210
5121 * 001000 xxxxxx1010000101
5125 std::string
NMD::CMPU_LT_QB(uint64 instruction
)
5127 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5128 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5130 std::string rs
= GPR(copy(rs_value
));
5131 std::string rt
= GPR(copy(rt_value
));
5133 return img::format("CMPU.LT.QB %s, %s", rs
, rt
);
5141 * 10987654321098765432109876543210
5142 * 001000 x1110000101
5147 std::string
NMD::COP2_1(uint64 instruction
)
5149 uint64 cofun_value
= extract_cofun_25_24_23(instruction
);
5151 std::string cofun
= IMMEDIATE(copy(cofun_value
));
5153 return img::format("COP2_1 %s", cofun
);
5161 * 10987654321098765432109876543210
5162 * 001000 x1110000101
5167 std::string
NMD::CTC1(uint64 instruction
)
5169 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5170 uint64 cs_value
= extract_cs_20_19_18_17_16(instruction
);
5172 std::string rt
= GPR(copy(rt_value
));
5173 std::string cs
= CPR(copy(cs_value
));
5175 return img::format("CTC1 %s, %s", rt
, cs
);
5183 * 10987654321098765432109876543210
5184 * 001000 x1110000101
5189 std::string
NMD::CTC2(uint64 instruction
)
5191 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5192 uint64 cs_value
= extract_cs_20_19_18_17_16(instruction
);
5194 std::string rt
= GPR(copy(rt_value
));
5195 std::string cs
= CPR(copy(cs_value
));
5197 return img::format("CTC2 %s, %s", rt
, cs
);
5205 * 10987654321098765432109876543210
5206 * 001000 x1110000101
5211 std::string
NMD::CVT_D_L(uint64 instruction
)
5213 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
5214 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
5216 std::string ft
= FPR(copy(ft_value
));
5217 std::string fs
= FPR(copy(fs_value
));
5219 return img::format("CVT.D.L %s, %s", ft
, fs
);
5227 * 10987654321098765432109876543210
5228 * 001000 x1110000101
5233 std::string
NMD::CVT_D_S(uint64 instruction
)
5235 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
5236 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
5238 std::string ft
= FPR(copy(ft_value
));
5239 std::string fs
= FPR(copy(fs_value
));
5241 return img::format("CVT.D.S %s, %s", ft
, fs
);
5249 * 10987654321098765432109876543210
5250 * 001000 x1110000101
5255 std::string
NMD::CVT_D_W(uint64 instruction
)
5257 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
5258 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
5260 std::string ft
= FPR(copy(ft_value
));
5261 std::string fs
= FPR(copy(fs_value
));
5263 return img::format("CVT.D.W %s, %s", ft
, fs
);
5271 * 10987654321098765432109876543210
5272 * 001000 x1110000101
5277 std::string
NMD::CVT_L_D(uint64 instruction
)
5279 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
5280 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
5282 std::string ft
= FPR(copy(ft_value
));
5283 std::string fs
= FPR(copy(fs_value
));
5285 return img::format("CVT.L.D %s, %s", ft
, fs
);
5293 * 10987654321098765432109876543210
5294 * 001000 x1110000101
5299 std::string
NMD::CVT_L_S(uint64 instruction
)
5301 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
5302 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
5304 std::string ft
= FPR(copy(ft_value
));
5305 std::string fs
= FPR(copy(fs_value
));
5307 return img::format("CVT.L.S %s, %s", ft
, fs
);
5315 * 10987654321098765432109876543210
5316 * 001000 x1110000101
5321 std::string
NMD::CVT_S_D(uint64 instruction
)
5323 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
5324 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
5326 std::string ft
= FPR(copy(ft_value
));
5327 std::string fs
= FPR(copy(fs_value
));
5329 return img::format("CVT.S.D %s, %s", ft
, fs
);
5337 * 10987654321098765432109876543210
5338 * 001000 x1110000101
5343 std::string
NMD::CVT_S_L(uint64 instruction
)
5345 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
5346 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
5348 std::string ft
= FPR(copy(ft_value
));
5349 std::string fs
= FPR(copy(fs_value
));
5351 return img::format("CVT.S.L %s, %s", ft
, fs
);
5359 * 10987654321098765432109876543210
5360 * 001000 x1110000101
5365 std::string
NMD::CVT_S_PL(uint64 instruction
)
5367 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
5368 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
5370 std::string ft
= FPR(copy(ft_value
));
5371 std::string fs
= FPR(copy(fs_value
));
5373 return img::format("CVT.S.PL %s, %s", ft
, fs
);
5381 * 10987654321098765432109876543210
5382 * 001000 x1110000101
5387 std::string
NMD::CVT_S_PU(uint64 instruction
)
5389 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
5390 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
5392 std::string ft
= FPR(copy(ft_value
));
5393 std::string fs
= FPR(copy(fs_value
));
5395 return img::format("CVT.S.PU %s, %s", ft
, fs
);
5403 * 10987654321098765432109876543210
5404 * 001000 x1110000101
5409 std::string
NMD::CVT_S_W(uint64 instruction
)
5411 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
5412 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
5414 std::string ft
= FPR(copy(ft_value
));
5415 std::string fs
= FPR(copy(fs_value
));
5417 return img::format("CVT.S.W %s, %s", ft
, fs
);
5425 * 10987654321098765432109876543210
5426 * 001000 x1110000101
5431 std::string
NMD::CVT_W_D(uint64 instruction
)
5433 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
5434 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
5436 std::string ft
= FPR(copy(ft_value
));
5437 std::string fs
= FPR(copy(fs_value
));
5439 return img::format("CVT.W.D %s, %s", ft
, fs
);
5447 * 10987654321098765432109876543210
5448 * 001000 x1110000101
5453 std::string
NMD::CVT_W_S(uint64 instruction
)
5455 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
5456 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
5458 std::string ft
= FPR(copy(ft_value
));
5459 std::string fs
= FPR(copy(fs_value
));
5461 return img::format("CVT.W.S %s, %s", ft
, fs
);
5469 * 10987654321098765432109876543210
5470 * 001000 x1110000101
5475 std::string
NMD::DADDIU_48_(uint64 instruction
)
5477 uint64 rt_value
= extract_rt_41_40_39_38_37(instruction
);
5478 int64 s_value
= extract_s__se31_15_to_0_31_to_16(instruction
);
5480 std::string rt
= GPR(copy(rt_value
));
5481 std::string s
= IMMEDIATE(copy(s_value
));
5483 return img::format("DADDIU %s, %s", rt
, s
);
5491 * 10987654321098765432109876543210
5492 * 001000 x1110000101
5497 std::string
NMD::DADDIU_NEG_(uint64 instruction
)
5499 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5500 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5501 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
5503 std::string rt
= GPR(copy(rt_value
));
5504 std::string rs
= GPR(copy(rs_value
));
5505 std::string u
= IMMEDIATE(neg_copy(u_value
));
5507 return img::format("DADDIU %s, %s, %s", rt
, rs
, u
);
5515 * 10987654321098765432109876543210
5516 * 001000 x1110000101
5521 std::string
NMD::DADDIU_U12_(uint64 instruction
)
5523 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5524 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5525 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
5527 std::string rt
= GPR(copy(rt_value
));
5528 std::string rs
= GPR(copy(rs_value
));
5529 std::string u
= IMMEDIATE(copy(u_value
));
5531 return img::format("DADDIU %s, %s, %s", rt
, rs
, u
);
5539 * 10987654321098765432109876543210
5540 * 001000 x1110000101
5545 std::string
NMD::DADD(uint64 instruction
)
5547 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5548 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5549 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
5551 std::string rd
= GPR(copy(rd_value
));
5552 std::string rs
= GPR(copy(rs_value
));
5553 std::string rt
= GPR(copy(rt_value
));
5555 return img::format("DADD %s, %s, %s", rd
, rs
, rt
);
5563 * 10987654321098765432109876543210
5564 * 001000 x1110000101
5569 std::string
NMD::DADDU(uint64 instruction
)
5571 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5572 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5573 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
5575 std::string rd
= GPR(copy(rd_value
));
5576 std::string rs
= GPR(copy(rs_value
));
5577 std::string rt
= GPR(copy(rt_value
));
5579 return img::format("DADDU %s, %s, %s", rd
, rs
, rt
);
5587 * 10987654321098765432109876543210
5588 * 001000 x1110000101
5593 std::string
NMD::DCLO(uint64 instruction
)
5595 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5596 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5598 std::string rt
= GPR(copy(rt_value
));
5599 std::string rs
= GPR(copy(rs_value
));
5601 return img::format("DCLO %s, %s", rt
, rs
);
5609 * 10987654321098765432109876543210
5610 * 001000 x1110000101
5615 std::string
NMD::DCLZ(uint64 instruction
)
5617 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5618 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5620 std::string rt
= GPR(copy(rt_value
));
5621 std::string rs
= GPR(copy(rs_value
));
5623 return img::format("DCLZ %s, %s", rt
, rs
);
5631 * 10987654321098765432109876543210
5632 * 001000 x1110000101
5637 std::string
NMD::DDIV(uint64 instruction
)
5639 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5640 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5641 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
5643 std::string rd
= GPR(copy(rd_value
));
5644 std::string rs
= GPR(copy(rs_value
));
5645 std::string rt
= GPR(copy(rt_value
));
5647 return img::format("DDIV %s, %s, %s", rd
, rs
, rt
);
5655 * 10987654321098765432109876543210
5656 * 001000 x1110000101
5661 std::string
NMD::DDIVU(uint64 instruction
)
5663 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5664 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5665 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
5667 std::string rd
= GPR(copy(rd_value
));
5668 std::string rs
= GPR(copy(rs_value
));
5669 std::string rt
= GPR(copy(rt_value
));
5671 return img::format("DDIVU %s, %s, %s", rd
, rs
, rt
);
5679 * 10987654321098765432109876543210
5680 * 001000 x1110000101
5685 std::string
NMD::DERET(uint64 instruction
)
5697 * 10987654321098765432109876543210
5698 * 001000 x1110000101
5703 std::string
NMD::DEXTM(uint64 instruction
)
5705 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5706 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5707 uint64 msbd_value
= extract_msbt_10_9_8_7_6(instruction
);
5708 uint64 lsb_value
= extract_lsb_4_3_2_1_0(instruction
);
5710 std::string rt
= GPR(copy(rt_value
));
5711 std::string rs
= GPR(copy(rs_value
));
5712 std::string lsb
= IMMEDIATE(copy(lsb_value
));
5713 std::string msbd
= IMMEDIATE(encode_msbd_from_size(msbd_value
));
5715 return img::format("DEXTM %s, %s, %s, %s", rt
, rs
, lsb
, msbd
);
5723 * 10987654321098765432109876543210
5724 * 001000 x1110000101
5729 std::string
NMD::DEXT(uint64 instruction
)
5731 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5732 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5733 uint64 msbd_value
= extract_msbt_10_9_8_7_6(instruction
);
5734 uint64 lsb_value
= extract_lsb_4_3_2_1_0(instruction
);
5736 std::string rt
= GPR(copy(rt_value
));
5737 std::string rs
= GPR(copy(rs_value
));
5738 std::string lsb
= IMMEDIATE(copy(lsb_value
));
5739 std::string msbd
= IMMEDIATE(encode_msbd_from_size(msbd_value
));
5741 return img::format("DEXT %s, %s, %s, %s", rt
, rs
, lsb
, msbd
);
5749 * 10987654321098765432109876543210
5750 * 001000 x1110000101
5755 std::string
NMD::DEXTU(uint64 instruction
)
5757 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5758 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5759 uint64 msbd_value
= extract_msbt_10_9_8_7_6(instruction
);
5760 uint64 lsb_value
= extract_lsb_4_3_2_1_0(instruction
);
5762 std::string rt
= GPR(copy(rt_value
));
5763 std::string rs
= GPR(copy(rs_value
));
5764 std::string lsb
= IMMEDIATE(copy(lsb_value
));
5765 std::string msbd
= IMMEDIATE(encode_msbd_from_size(msbd_value
));
5767 return img::format("DEXTU %s, %s, %s, %s", rt
, rs
, lsb
, msbd
);
5775 * 10987654321098765432109876543210
5776 * 001000 x1110000101
5781 std::string
NMD::DINSM(uint64 instruction
)
5783 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5784 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5785 uint64 msbd_value
= extract_msbt_10_9_8_7_6(instruction
);
5786 uint64 lsb_value
= extract_lsb_4_3_2_1_0(instruction
);
5788 std::string rt
= GPR(copy(rt_value
));
5789 std::string rs
= GPR(copy(rs_value
));
5790 std::string pos
= IMMEDIATE(encode_lsb_from_pos_and_size(lsb_value
));
5791 std::string size
= IMMEDIATE(encode_lsb_from_pos_and_size(msbd_value
));
5792 /* !!!!!!!!!! - no conversion function */
5794 return img::format("DINSM %s, %s, %s, %s", rt
, rs
, pos
, size
);
5803 * 10987654321098765432109876543210
5804 * 001000 x1110000101
5809 std::string
NMD::DINS(uint64 instruction
)
5811 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5812 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5813 uint64 msbd_value
= extract_msbt_10_9_8_7_6(instruction
);
5814 uint64 lsb_value
= extract_lsb_4_3_2_1_0(instruction
);
5816 std::string rt
= GPR(copy(rt_value
));
5817 std::string rs
= GPR(copy(rs_value
));
5818 std::string pos
= IMMEDIATE(encode_lsb_from_pos_and_size(lsb_value
));
5819 std::string size
= IMMEDIATE(encode_lsb_from_pos_and_size(msbd_value
));
5820 /* !!!!!!!!!! - no conversion function */
5822 return img::format("DINS %s, %s, %s, %s", rt
, rs
, pos
, size
);
5831 * 10987654321098765432109876543210
5832 * 001000 x1110000101
5837 std::string
NMD::DINSU(uint64 instruction
)
5839 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5840 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5841 uint64 msbd_value
= extract_msbt_10_9_8_7_6(instruction
);
5842 uint64 lsb_value
= extract_lsb_4_3_2_1_0(instruction
);
5844 std::string rt
= GPR(copy(rt_value
));
5845 std::string rs
= GPR(copy(rs_value
));
5846 std::string pos
= IMMEDIATE(encode_lsb_from_pos_and_size(lsb_value
));
5847 std::string size
= IMMEDIATE(encode_lsb_from_pos_and_size(msbd_value
));
5848 /* !!!!!!!!!! - no conversion function */
5850 return img::format("DINSU %s, %s, %s, %s", rt
, rs
, pos
, size
);
5859 * 10987654321098765432109876543210
5860 * 001000 x1110000101
5865 std::string
NMD::DI(uint64 instruction
)
5867 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5869 std::string rt
= GPR(copy(rt_value
));
5871 return img::format("DI %s", rt
);
5879 * 10987654321098765432109876543210
5880 * 001000 x1110000101
5885 std::string
NMD::DIV(uint64 instruction
)
5887 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5888 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5889 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
5891 std::string rd
= GPR(copy(rd_value
));
5892 std::string rs
= GPR(copy(rs_value
));
5893 std::string rt
= GPR(copy(rt_value
));
5895 return img::format("DIV %s, %s, %s", rd
, rs
, rt
);
5903 * 10987654321098765432109876543210
5904 * 001000 x1110000101
5909 std::string
NMD::DIV_D(uint64 instruction
)
5911 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
5912 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
5913 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
5915 std::string fd
= FPR(copy(fd_value
));
5916 std::string fs
= FPR(copy(fs_value
));
5917 std::string ft
= FPR(copy(ft_value
));
5919 return img::format("DIV.D %s, %s, %s", fd
, fs
, ft
);
5927 * 10987654321098765432109876543210
5928 * 001000 x1110000101
5933 std::string
NMD::DIV_S(uint64 instruction
)
5935 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
5936 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
5937 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
5939 std::string fd
= FPR(copy(fd_value
));
5940 std::string fs
= FPR(copy(fs_value
));
5941 std::string ft
= FPR(copy(ft_value
));
5943 return img::format("DIV.S %s, %s, %s", fd
, fs
, ft
);
5951 * 10987654321098765432109876543210
5952 * 001000 x1110000101
5957 std::string
NMD::DIVU(uint64 instruction
)
5959 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5960 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5961 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
5963 std::string rd
= GPR(copy(rd_value
));
5964 std::string rs
= GPR(copy(rs_value
));
5965 std::string rt
= GPR(copy(rt_value
));
5967 return img::format("DIVU %s, %s, %s", rd
, rs
, rt
);
5975 * 10987654321098765432109876543210
5976 * 001000 x1110000101
5981 std::string
NMD::DLSA(uint64 instruction
)
5983 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
5984 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
5985 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
5986 uint64 u2_value
= extract_u2_10_9(instruction
);
5988 std::string rd
= GPR(copy(rd_value
));
5989 std::string rs
= GPR(copy(rs_value
));
5990 std::string rt
= GPR(copy(rt_value
));
5991 std::string u2
= IMMEDIATE(copy(u2_value
));
5993 return img::format("DLSA %s, %s, %s, %s", rd
, rs
, rt
, u2
);
6001 * 10987654321098765432109876543210
6002 * 001000 x1110000101
6007 std::string
NMD::DLUI_48_(uint64 instruction
)
6009 uint64 rt_value
= extract_rt_41_40_39_38_37(instruction
);
6010 uint64 u_value
= extract_u_31_to_0__s32(instruction
);
6012 std::string rt
= GPR(copy(rt_value
));
6013 std::string u
= IMMEDIATE(copy(u_value
));
6015 return img::format("DLUI %s, %s", rt
, u
);
6023 * 10987654321098765432109876543210
6024 * 001000 x1110000101
6029 std::string
NMD::DMFC0(uint64 instruction
)
6031 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6032 uint64 c0s_value
= extract_c0s_20_19_18_17_16(instruction
);
6033 uint64 sel_value
= extract_sel_15_14_13_12_11(instruction
);
6035 std::string rt
= GPR(copy(rt_value
));
6036 std::string c0s
= CPR(copy(c0s_value
));
6037 std::string sel
= IMMEDIATE(copy(sel_value
));
6039 return img::format("DMFC0 %s, %s, %s", rt
, c0s
, sel
);
6047 * 10987654321098765432109876543210
6048 * 001000 x1110000101
6053 std::string
NMD::DMFC1(uint64 instruction
)
6055 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6056 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
6058 std::string rt
= GPR(copy(rt_value
));
6059 std::string fs
= FPR(copy(fs_value
));
6061 return img::format("DMFC1 %s, %s", rt
, fs
);
6069 * 10987654321098765432109876543210
6070 * 001000 x1110000101
6075 std::string
NMD::DMFC2(uint64 instruction
)
6077 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6078 uint64 cs_value
= extract_cs_20_19_18_17_16(instruction
);
6080 std::string rt
= GPR(copy(rt_value
));
6081 std::string cs
= CPR(copy(cs_value
));
6083 return img::format("DMFC2 %s, %s", rt
, cs
);
6091 * 10987654321098765432109876543210
6092 * 001000 x1110000101
6097 std::string
NMD::DMFGC0(uint64 instruction
)
6099 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6100 uint64 c0s_value
= extract_c0s_20_19_18_17_16(instruction
);
6101 uint64 sel_value
= extract_sel_15_14_13_12_11(instruction
);
6103 std::string rt
= GPR(copy(rt_value
));
6104 std::string c0s
= CPR(copy(c0s_value
));
6105 std::string sel
= IMMEDIATE(copy(sel_value
));
6107 return img::format("DMFGC0 %s, %s, %s", rt
, c0s
, sel
);
6115 * 10987654321098765432109876543210
6116 * 001000 x1110000101
6121 std::string
NMD::DMOD(uint64 instruction
)
6123 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6124 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6125 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
6127 std::string rd
= GPR(copy(rd_value
));
6128 std::string rs
= GPR(copy(rs_value
));
6129 std::string rt
= GPR(copy(rt_value
));
6131 return img::format("DMOD %s, %s, %s", rd
, rs
, rt
);
6139 * 10987654321098765432109876543210
6140 * 001000 x1110000101
6145 std::string
NMD::DMODU(uint64 instruction
)
6147 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6148 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6149 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
6151 std::string rd
= GPR(copy(rd_value
));
6152 std::string rs
= GPR(copy(rs_value
));
6153 std::string rt
= GPR(copy(rt_value
));
6155 return img::format("DMODU %s, %s, %s", rd
, rs
, rt
);
6163 * 10987654321098765432109876543210
6164 * 001000 x1110000101
6169 std::string
NMD::DMTC0(uint64 instruction
)
6171 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6172 uint64 c0s_value
= extract_c0s_20_19_18_17_16(instruction
);
6173 uint64 sel_value
= extract_sel_15_14_13_12_11(instruction
);
6175 std::string rt
= GPR(copy(rt_value
));
6176 std::string c0s
= CPR(copy(c0s_value
));
6177 std::string sel
= IMMEDIATE(copy(sel_value
));
6179 return img::format("DMTC0 %s, %s, %s", rt
, c0s
, sel
);
6187 * 10987654321098765432109876543210
6188 * 001000 x1110000101
6193 std::string
NMD::DMTC1(uint64 instruction
)
6195 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6196 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
6198 std::string rt
= GPR(copy(rt_value
));
6199 std::string fs
= FPR(copy(fs_value
));
6201 return img::format("DMTC1 %s, %s", rt
, fs
);
6209 * 10987654321098765432109876543210
6210 * 001000 x1110000101
6215 std::string
NMD::DMTC2(uint64 instruction
)
6217 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6218 uint64 cs_value
= extract_cs_20_19_18_17_16(instruction
);
6220 std::string rt
= GPR(copy(rt_value
));
6221 std::string cs
= CPR(copy(cs_value
));
6223 return img::format("DMTC2 %s, %s", rt
, cs
);
6231 * 10987654321098765432109876543210
6232 * 001000 x1110000101
6237 std::string
NMD::DMTGC0(uint64 instruction
)
6239 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6240 uint64 c0s_value
= extract_c0s_20_19_18_17_16(instruction
);
6241 uint64 sel_value
= extract_sel_15_14_13_12_11(instruction
);
6243 std::string rt
= GPR(copy(rt_value
));
6244 std::string c0s
= CPR(copy(c0s_value
));
6245 std::string sel
= IMMEDIATE(copy(sel_value
));
6247 return img::format("DMTGC0 %s, %s, %s", rt
, c0s
, sel
);
6255 * 10987654321098765432109876543210
6256 * 001000 x1110000101
6261 std::string
NMD::DMT(uint64 instruction
)
6263 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6265 std::string rt
= GPR(copy(rt_value
));
6267 return img::format("DMT %s", rt
);
6275 * 10987654321098765432109876543210
6276 * 001000 x1110000101
6281 std::string
NMD::DMUH(uint64 instruction
)
6283 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6284 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6285 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
6287 std::string rd
= GPR(copy(rd_value
));
6288 std::string rs
= GPR(copy(rs_value
));
6289 std::string rt
= GPR(copy(rt_value
));
6291 return img::format("DMUH %s, %s, %s", rd
, rs
, rt
);
6299 * 10987654321098765432109876543210
6300 * 001000 x1110000101
6305 std::string
NMD::DMUHU(uint64 instruction
)
6307 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6308 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6309 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
6311 std::string rd
= GPR(copy(rd_value
));
6312 std::string rs
= GPR(copy(rs_value
));
6313 std::string rt
= GPR(copy(rt_value
));
6315 return img::format("DMUHU %s, %s, %s", rd
, rs
, rt
);
6323 * 10987654321098765432109876543210
6324 * 001000 x1110000101
6329 std::string
NMD::DMUL(uint64 instruction
)
6331 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6332 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6333 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
6335 std::string rd
= GPR(copy(rd_value
));
6336 std::string rs
= GPR(copy(rs_value
));
6337 std::string rt
= GPR(copy(rt_value
));
6339 return img::format("DMUL %s, %s, %s", rd
, rs
, rt
);
6347 * 10987654321098765432109876543210
6348 * 001000 x1110000101
6353 std::string
NMD::DMULU(uint64 instruction
)
6355 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6356 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6357 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
6359 std::string rd
= GPR(copy(rd_value
));
6360 std::string rs
= GPR(copy(rs_value
));
6361 std::string rt
= GPR(copy(rt_value
));
6363 return img::format("DMULU %s, %s, %s", rd
, rs
, rt
);
6368 * [DSP] DPA.W.PH ac, rs, rt - Dot product with accumulate on
6369 * vector integer halfword elements
6372 * 10987654321098765432109876543210
6373 * 001000 00000010111111
6378 std::string
NMD::DPA_W_PH(uint64 instruction
)
6380 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6381 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6382 uint64 ac_value
= extract_ac_15_14(instruction
);
6384 std::string ac
= AC(copy(ac_value
));
6385 std::string rs
= GPR(copy(rs_value
));
6386 std::string rt
= GPR(copy(rt_value
));
6388 return img::format("DPA.W.PH %s, %s, %s", ac
, rs
, rt
);
6396 * 10987654321098765432109876543210
6397 * 001000 x1110000101
6402 std::string
NMD::DPAQ_SA_L_W(uint64 instruction
)
6404 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6405 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6406 uint64 ac_value
= extract_ac_15_14(instruction
);
6408 std::string ac
= AC(copy(ac_value
));
6409 std::string rs
= GPR(copy(rs_value
));
6410 std::string rt
= GPR(copy(rt_value
));
6412 return img::format("DPAQ_SA.L.W %s, %s, %s", ac
, rs
, rt
);
6420 * 10987654321098765432109876543210
6421 * 001000 x1110000101
6426 std::string
NMD::DPAQ_S_W_PH(uint64 instruction
)
6428 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6429 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6430 uint64 ac_value
= extract_ac_15_14(instruction
);
6432 std::string ac
= AC(copy(ac_value
));
6433 std::string rs
= GPR(copy(rs_value
));
6434 std::string rt
= GPR(copy(rt_value
));
6436 return img::format("DPAQ_S.W.PH %s, %s, %s", ac
, rs
, rt
);
6444 * 10987654321098765432109876543210
6445 * 001000 x1110000101
6450 std::string
NMD::DPAQX_SA_W_PH(uint64 instruction
)
6452 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6453 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6454 uint64 ac_value
= extract_ac_15_14(instruction
);
6456 std::string ac
= AC(copy(ac_value
));
6457 std::string rs
= GPR(copy(rs_value
));
6458 std::string rt
= GPR(copy(rt_value
));
6460 return img::format("DPAQX_SA.W.PH %s, %s, %s", ac
, rs
, rt
);
6468 * 10987654321098765432109876543210
6469 * 001000 x1110000101
6474 std::string
NMD::DPAQX_S_W_PH(uint64 instruction
)
6476 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6477 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6478 uint64 ac_value
= extract_ac_15_14(instruction
);
6480 std::string ac
= AC(copy(ac_value
));
6481 std::string rs
= GPR(copy(rs_value
));
6482 std::string rt
= GPR(copy(rt_value
));
6484 return img::format("DPAQX_S.W.PH %s, %s, %s", ac
, rs
, rt
);
6492 * 10987654321098765432109876543210
6493 * 001000 x1110000101
6498 std::string
NMD::DPAU_H_QBL(uint64 instruction
)
6500 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6501 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6502 uint64 ac_value
= extract_ac_15_14(instruction
);
6504 std::string ac
= AC(copy(ac_value
));
6505 std::string rs
= GPR(copy(rs_value
));
6506 std::string rt
= GPR(copy(rt_value
));
6508 return img::format("DPAU.H.QBL %s, %s, %s", ac
, rs
, rt
);
6516 * 10987654321098765432109876543210
6517 * 001000 x1110000101
6522 std::string
NMD::DPAU_H_QBR(uint64 instruction
)
6524 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6525 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6526 uint64 ac_value
= extract_ac_15_14(instruction
);
6528 std::string ac
= AC(copy(ac_value
));
6529 std::string rs
= GPR(copy(rs_value
));
6530 std::string rt
= GPR(copy(rt_value
));
6532 return img::format("DPAU.H.QBR %s, %s, %s", ac
, rs
, rt
);
6540 * 10987654321098765432109876543210
6541 * 001000 x1110000101
6546 std::string
NMD::DPAX_W_PH(uint64 instruction
)
6548 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6549 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6550 uint64 ac_value
= extract_ac_15_14(instruction
);
6552 std::string ac
= AC(copy(ac_value
));
6553 std::string rs
= GPR(copy(rs_value
));
6554 std::string rt
= GPR(copy(rt_value
));
6556 return img::format("DPAX.W.PH %s, %s, %s", ac
, rs
, rt
);
6564 * 10987654321098765432109876543210
6565 * 001000 x1110000101
6570 std::string
NMD::DPS_W_PH(uint64 instruction
)
6572 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6573 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6574 uint64 ac_value
= extract_ac_15_14(instruction
);
6576 std::string ac
= AC(copy(ac_value
));
6577 std::string rs
= GPR(copy(rs_value
));
6578 std::string rt
= GPR(copy(rt_value
));
6580 return img::format("DPS.W.PH %s, %s, %s", ac
, rs
, rt
);
6588 * 10987654321098765432109876543210
6589 * 001000 x1110000101
6594 std::string
NMD::DPSQ_SA_L_W(uint64 instruction
)
6596 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6597 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6598 uint64 ac_value
= extract_ac_15_14(instruction
);
6600 std::string ac
= AC(copy(ac_value
));
6601 std::string rs
= GPR(copy(rs_value
));
6602 std::string rt
= GPR(copy(rt_value
));
6604 return img::format("DPSQ_SA.L.W %s, %s, %s", ac
, rs
, rt
);
6612 * 10987654321098765432109876543210
6613 * 001000 x1110000101
6618 std::string
NMD::DPSQ_S_W_PH(uint64 instruction
)
6620 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6621 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6622 uint64 ac_value
= extract_ac_15_14(instruction
);
6624 std::string ac
= AC(copy(ac_value
));
6625 std::string rs
= GPR(copy(rs_value
));
6626 std::string rt
= GPR(copy(rt_value
));
6628 return img::format("DPSQ_S.W.PH %s, %s, %s", ac
, rs
, rt
);
6636 * 10987654321098765432109876543210
6637 * 001000 x1110000101
6642 std::string
NMD::DPSQX_SA_W_PH(uint64 instruction
)
6644 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6645 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6646 uint64 ac_value
= extract_ac_15_14(instruction
);
6648 std::string ac
= AC(copy(ac_value
));
6649 std::string rs
= GPR(copy(rs_value
));
6650 std::string rt
= GPR(copy(rt_value
));
6652 return img::format("DPSQX_SA.W.PH %s, %s, %s", ac
, rs
, rt
);
6660 * 10987654321098765432109876543210
6661 * 001000 x1110000101
6666 std::string
NMD::DPSQX_S_W_PH(uint64 instruction
)
6668 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6669 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6670 uint64 ac_value
= extract_ac_15_14(instruction
);
6672 std::string ac
= AC(copy(ac_value
));
6673 std::string rs
= GPR(copy(rs_value
));
6674 std::string rt
= GPR(copy(rt_value
));
6676 return img::format("DPSQX_S.W.PH %s, %s, %s", ac
, rs
, rt
);
6684 * 10987654321098765432109876543210
6685 * 001000 x1110000101
6690 std::string
NMD::DPSU_H_QBL(uint64 instruction
)
6692 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6693 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6694 uint64 ac_value
= extract_ac_15_14(instruction
);
6696 std::string ac
= AC(copy(ac_value
));
6697 std::string rs
= GPR(copy(rs_value
));
6698 std::string rt
= GPR(copy(rt_value
));
6700 return img::format("DPSU.H.QBL %s, %s, %s", ac
, rs
, rt
);
6708 * 10987654321098765432109876543210
6709 * 001000 x1110000101
6714 std::string
NMD::DPSU_H_QBR(uint64 instruction
)
6716 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6717 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6718 uint64 ac_value
= extract_ac_15_14(instruction
);
6720 std::string ac
= AC(copy(ac_value
));
6721 std::string rs
= GPR(copy(rs_value
));
6722 std::string rt
= GPR(copy(rt_value
));
6724 return img::format("DPSU.H.QBR %s, %s, %s", ac
, rs
, rt
);
6732 * 10987654321098765432109876543210
6733 * 001000 x1110000101
6738 std::string
NMD::DPSX_W_PH(uint64 instruction
)
6740 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6741 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6742 uint64 ac_value
= extract_ac_15_14(instruction
);
6744 std::string ac
= AC(copy(ac_value
));
6745 std::string rs
= GPR(copy(rs_value
));
6746 std::string rt
= GPR(copy(rt_value
));
6748 return img::format("DPSX.W.PH %s, %s, %s", ac
, rs
, rt
);
6756 * 10987654321098765432109876543210
6757 * 001000 x1110000101
6762 std::string
NMD::DROTR(uint64 instruction
)
6764 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6765 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6766 uint64 shift_value
= extract_shift_4_3_2_1_0(instruction
);
6768 std::string rt
= GPR(copy(rt_value
));
6769 std::string rs
= GPR(copy(rs_value
));
6770 std::string shift
= IMMEDIATE(copy(shift_value
));
6772 return img::format("DROTR %s, %s, %s", rt
, rs
, shift
);
6780 * 10987654321098765432109876543210
6781 * 10o000 1100xxx0110
6786 std::string
NMD::DROTR32(uint64 instruction
)
6788 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6789 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6790 uint64 shift_value
= extract_shift_4_3_2_1_0(instruction
);
6792 std::string rt
= GPR(copy(rt_value
));
6793 std::string rs
= GPR(copy(rs_value
));
6794 std::string shift
= IMMEDIATE(copy(shift_value
));
6796 return img::format("DROTR32 %s, %s, %s", rt
, rs
, shift
);
6804 * 10987654321098765432109876543210
6805 * 001000 x1110000101
6810 std::string
NMD::DROTRV(uint64 instruction
)
6812 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6813 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6814 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
6816 std::string rd
= GPR(copy(rd_value
));
6817 std::string rs
= GPR(copy(rs_value
));
6818 std::string rt
= GPR(copy(rt_value
));
6820 return img::format("DROTRV %s, %s, %s", rd
, rs
, rt
);
6828 * 10987654321098765432109876543210
6829 * 001000 x1110000101
6834 std::string
NMD::DROTX(uint64 instruction
)
6836 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6837 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6838 uint64 shiftx_value
= extract_shiftx_11_10_9_8_7_6(instruction
);
6839 uint64 shift_value
= extract_shift_5_4_3_2_1_0(instruction
);
6841 std::string rt
= GPR(copy(rt_value
));
6842 std::string rs
= GPR(copy(rs_value
));
6843 std::string shift
= IMMEDIATE(copy(shift_value
));
6844 std::string shiftx
= IMMEDIATE(copy(shiftx_value
));
6846 return img::format("DROTX %s, %s, %s, %s", rt
, rs
, shift
, shiftx
);
6854 * 10987654321098765432109876543210
6855 * 10o000 1100xxx0000
6860 std::string
NMD::DSLL(uint64 instruction
)
6862 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6863 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6864 uint64 shift_value
= extract_shift_4_3_2_1_0(instruction
);
6866 std::string rt
= GPR(copy(rt_value
));
6867 std::string rs
= GPR(copy(rs_value
));
6868 std::string shift
= IMMEDIATE(copy(shift_value
));
6870 return img::format("DSLL %s, %s, %s", rt
, rs
, shift
);
6878 * 10987654321098765432109876543210
6879 * 10o000 1100xxx0000
6884 std::string
NMD::DSLL32(uint64 instruction
)
6886 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6887 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6888 uint64 shift_value
= extract_shift_4_3_2_1_0(instruction
);
6890 std::string rt
= GPR(copy(rt_value
));
6891 std::string rs
= GPR(copy(rs_value
));
6892 std::string shift
= IMMEDIATE(copy(shift_value
));
6894 return img::format("DSLL32 %s, %s, %s", rt
, rs
, shift
);
6902 * 10987654321098765432109876543210
6903 * 001000 x1110000101
6908 std::string
NMD::DSLLV(uint64 instruction
)
6910 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6911 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6912 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
6914 std::string rd
= GPR(copy(rd_value
));
6915 std::string rs
= GPR(copy(rs_value
));
6916 std::string rt
= GPR(copy(rt_value
));
6918 return img::format("DSLLV %s, %s, %s", rd
, rs
, rt
);
6926 * 10987654321098765432109876543210
6927 * 10o000 1100xxx0100
6932 std::string
NMD::DSRA(uint64 instruction
)
6934 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6935 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6936 uint64 shift_value
= extract_shift_4_3_2_1_0(instruction
);
6938 std::string rt
= GPR(copy(rt_value
));
6939 std::string rs
= GPR(copy(rs_value
));
6940 std::string shift
= IMMEDIATE(copy(shift_value
));
6942 return img::format("DSRA %s, %s, %s", rt
, rs
, shift
);
6950 * 10987654321098765432109876543210
6951 * 10o000 1100xxx0100
6956 std::string
NMD::DSRA32(uint64 instruction
)
6958 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6959 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6960 uint64 shift_value
= extract_shift_4_3_2_1_0(instruction
);
6962 std::string rt
= GPR(copy(rt_value
));
6963 std::string rs
= GPR(copy(rs_value
));
6964 std::string shift
= IMMEDIATE(copy(shift_value
));
6966 return img::format("DSRA32 %s, %s, %s", rt
, rs
, shift
);
6974 * 10987654321098765432109876543210
6975 * 001000 x1110000101
6980 std::string
NMD::DSRAV(uint64 instruction
)
6982 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
6983 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
6984 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
6986 std::string rd
= GPR(copy(rd_value
));
6987 std::string rs
= GPR(copy(rs_value
));
6988 std::string rt
= GPR(copy(rt_value
));
6990 return img::format("DSRAV %s, %s, %s", rd
, rs
, rt
);
6998 * 10987654321098765432109876543210
6999 * 10o000 1100xxx0100
7004 std::string
NMD::DSRL(uint64 instruction
)
7006 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7007 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7008 uint64 shift_value
= extract_shift_4_3_2_1_0(instruction
);
7010 std::string rt
= GPR(copy(rt_value
));
7011 std::string rs
= GPR(copy(rs_value
));
7012 std::string shift
= IMMEDIATE(copy(shift_value
));
7014 return img::format("DSRL %s, %s, %s", rt
, rs
, shift
);
7022 * 10987654321098765432109876543210
7023 * 10o000 1100xxx0010
7028 std::string
NMD::DSRL32(uint64 instruction
)
7030 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7031 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7032 uint64 shift_value
= extract_shift_4_3_2_1_0(instruction
);
7034 std::string rt
= GPR(copy(rt_value
));
7035 std::string rs
= GPR(copy(rs_value
));
7036 std::string shift
= IMMEDIATE(copy(shift_value
));
7038 return img::format("DSRL32 %s, %s, %s", rt
, rs
, shift
);
7046 * 10987654321098765432109876543210
7047 * 001000 x1110000101
7052 std::string
NMD::DSRLV(uint64 instruction
)
7054 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7055 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7056 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
7058 std::string rd
= GPR(copy(rd_value
));
7059 std::string rs
= GPR(copy(rs_value
));
7060 std::string rt
= GPR(copy(rt_value
));
7062 return img::format("DSRLV %s, %s, %s", rd
, rs
, rt
);
7070 * 10987654321098765432109876543210
7071 * 001000 x1110000101
7076 std::string
NMD::DSUB(uint64 instruction
)
7078 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7079 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7080 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
7082 std::string rd
= GPR(copy(rd_value
));
7083 std::string rs
= GPR(copy(rs_value
));
7084 std::string rt
= GPR(copy(rt_value
));
7086 return img::format("DSUB %s, %s, %s", rd
, rs
, rt
);
7094 * 10987654321098765432109876543210
7095 * 001000 x1110000101
7100 std::string
NMD::DSUBU(uint64 instruction
)
7102 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7103 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7104 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
7106 std::string rd
= GPR(copy(rd_value
));
7107 std::string rs
= GPR(copy(rs_value
));
7108 std::string rt
= GPR(copy(rt_value
));
7110 return img::format("DSUBU %s, %s, %s", rd
, rs
, rt
);
7118 * 10987654321098765432109876543210
7119 * 001000 x1110000101
7124 std::string
NMD::DVPE(uint64 instruction
)
7126 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7128 std::string rt
= GPR(copy(rt_value
));
7130 return img::format("DVPE %s", rt
);
7138 * 10987654321098765432109876543210
7139 * 001000 x1110000101
7144 std::string
NMD::DVP(uint64 instruction
)
7146 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7148 std::string rt
= GPR(copy(rt_value
));
7150 return img::format("DVP %s", rt
);
7158 * 10987654321098765432109876543210
7159 * 001000 x1110000101
7164 std::string
NMD::EHB(uint64 instruction
)
7176 * 10987654321098765432109876543210
7177 * 001000 x1110000101
7182 std::string
NMD::EI(uint64 instruction
)
7184 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7186 std::string rt
= GPR(copy(rt_value
));
7188 return img::format("EI %s", rt
);
7196 * 10987654321098765432109876543210
7197 * 001000 x1110000101
7202 std::string
NMD::EMT(uint64 instruction
)
7204 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7206 std::string rt
= GPR(copy(rt_value
));
7208 return img::format("EMT %s", rt
);
7216 * 10987654321098765432109876543210
7217 * 001000 x1110000101
7222 std::string
NMD::ERET(uint64 instruction
)
7234 * 10987654321098765432109876543210
7235 * 001000 x1110000101
7240 std::string
NMD::ERETNC(uint64 instruction
)
7252 * 10987654321098765432109876543210
7253 * 001000 x1110000101
7258 std::string
NMD::EVP(uint64 instruction
)
7260 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7262 std::string rt
= GPR(copy(rt_value
));
7264 return img::format("EVP %s", rt
);
7272 * 10987654321098765432109876543210
7273 * 001000 x1110000101
7278 std::string
NMD::EVPE(uint64 instruction
)
7280 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7282 std::string rt
= GPR(copy(rt_value
));
7284 return img::format("EVPE %s", rt
);
7292 * 10987654321098765432109876543210
7293 * 001000 x1110000101
7298 std::string
NMD::EXT(uint64 instruction
)
7300 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7301 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7302 uint64 msbd_value
= extract_msbt_10_9_8_7_6(instruction
);
7303 uint64 lsb_value
= extract_lsb_4_3_2_1_0(instruction
);
7305 std::string rt
= GPR(copy(rt_value
));
7306 std::string rs
= GPR(copy(rs_value
));
7307 std::string lsb
= IMMEDIATE(copy(lsb_value
));
7308 std::string msbd
= IMMEDIATE(encode_msbd_from_size(msbd_value
));
7310 return img::format("EXT %s, %s, %s, %s", rt
, rs
, lsb
, msbd
);
7318 * 10987654321098765432109876543210
7319 * 001000 x1110000101
7324 std::string
NMD::EXTD(uint64 instruction
)
7326 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7327 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7328 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
7329 uint64 shift_value
= extract_shift_10_9_8_7_6(instruction
);
7331 std::string rd
= GPR(copy(rd_value
));
7332 std::string rs
= GPR(copy(rs_value
));
7333 std::string rt
= GPR(copy(rt_value
));
7334 std::string shift
= IMMEDIATE(copy(shift_value
));
7336 return img::format("EXTD %s, %s, %s, %s", rd
, rs
, rt
, shift
);
7344 * 10987654321098765432109876543210
7345 * 001000 x1110000101
7350 std::string
NMD::EXTD32(uint64 instruction
)
7352 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7353 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7354 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
7355 uint64 shift_value
= extract_shift_10_9_8_7_6(instruction
);
7357 std::string rd
= GPR(copy(rd_value
));
7358 std::string rs
= GPR(copy(rs_value
));
7359 std::string rt
= GPR(copy(rt_value
));
7360 std::string shift
= IMMEDIATE(copy(shift_value
));
7362 return img::format("EXTD32 %s, %s, %s, %s", rd
, rs
, rt
, shift
);
7370 * 10987654321098765432109876543210
7371 * 001000 x1110000101
7376 std::string
NMD::EXTPDP(uint64 instruction
)
7378 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7379 uint64 size_value
= extract_size_20_19_18_17_16(instruction
);
7380 uint64 ac_value
= extract_ac_15_14(instruction
);
7382 std::string rt
= GPR(copy(rt_value
));
7383 std::string ac
= AC(copy(ac_value
));
7384 std::string size
= IMMEDIATE(copy(size_value
));
7386 return img::format("EXTPDP %s, %s, %s", rt
, ac
, size
);
7394 * 10987654321098765432109876543210
7395 * 001000 x1110000101
7400 std::string
NMD::EXTPDPV(uint64 instruction
)
7402 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7403 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7404 uint64 ac_value
= extract_ac_15_14(instruction
);
7406 std::string rt
= GPR(copy(rt_value
));
7407 std::string ac
= AC(copy(ac_value
));
7408 std::string rs
= GPR(copy(rs_value
));
7410 return img::format("EXTPDPV %s, %s, %s", rt
, ac
, rs
);
7418 * 10987654321098765432109876543210
7419 * 001000 x1110000101
7424 std::string
NMD::EXTP(uint64 instruction
)
7426 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7427 uint64 size_value
= extract_size_20_19_18_17_16(instruction
);
7428 uint64 ac_value
= extract_ac_15_14(instruction
);
7430 std::string rt
= GPR(copy(rt_value
));
7431 std::string ac
= AC(copy(ac_value
));
7432 std::string size
= IMMEDIATE(copy(size_value
));
7434 return img::format("EXTP %s, %s, %s", rt
, ac
, size
);
7442 * 10987654321098765432109876543210
7443 * 001000 x1110000101
7448 std::string
NMD::EXTPV(uint64 instruction
)
7450 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7451 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7452 uint64 ac_value
= extract_ac_15_14(instruction
);
7454 std::string rt
= GPR(copy(rt_value
));
7455 std::string ac
= AC(copy(ac_value
));
7456 std::string rs
= GPR(copy(rs_value
));
7458 return img::format("EXTPV %s, %s, %s", rt
, ac
, rs
);
7463 * [DSP] EXTR_RS.W rt, ac, shift - Extract word value from accumulator to GPR
7467 * 10987654321098765432109876543210
7468 * 001000 10111001111111
7473 std::string
NMD::EXTR_RS_W(uint64 instruction
)
7475 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7476 uint64 shift_value
= extract_shift_20_19_18_17_16(instruction
);
7477 uint64 ac_value
= extract_ac_15_14(instruction
);
7479 std::string rt
= GPR(copy(rt_value
));
7480 std::string ac
= AC(copy(ac_value
));
7481 std::string shift
= IMMEDIATE(copy(shift_value
));
7483 return img::format("EXTR_RS.W %s, %s, %s", rt
, ac
, shift
);
7488 * [DSP] EXTR_R.W rt, ac, shift - Extract word value from accumulator to GPR
7492 * 10987654321098765432109876543210
7493 * 001000 01111001111111
7498 std::string
NMD::EXTR_R_W(uint64 instruction
)
7500 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7501 uint64 shift_value
= extract_shift_20_19_18_17_16(instruction
);
7502 uint64 ac_value
= extract_ac_15_14(instruction
);
7504 std::string rt
= GPR(copy(rt_value
));
7505 std::string ac
= AC(copy(ac_value
));
7506 std::string shift
= IMMEDIATE(copy(shift_value
));
7508 return img::format("EXTR_R.W %s, %s, %s", rt
, ac
, shift
);
7513 * [DSP] EXTR_S.H rt, ac, shift - Extract halfword value from accumulator
7514 * to GPR with right shift and saturate
7517 * 10987654321098765432109876543210
7518 * 001000 11111001111111
7523 std::string
NMD::EXTR_S_H(uint64 instruction
)
7525 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7526 uint64 shift_value
= extract_shift_20_19_18_17_16(instruction
);
7527 uint64 ac_value
= extract_ac_15_14(instruction
);
7529 std::string rt
= GPR(copy(rt_value
));
7530 std::string ac
= AC(copy(ac_value
));
7531 std::string shift
= IMMEDIATE(copy(shift_value
));
7533 return img::format("EXTR_S.H %s, %s, %s", rt
, ac
, shift
);
7538 * [DSP] EXTR.W rt, ac, shift - Extract word value from accumulator to GPR
7542 * 10987654321098765432109876543210
7543 * 001000 00111001111111
7548 std::string
NMD::EXTR_W(uint64 instruction
)
7550 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7551 uint64 shift_value
= extract_shift_20_19_18_17_16(instruction
);
7552 uint64 ac_value
= extract_ac_15_14(instruction
);
7554 std::string rt
= GPR(copy(rt_value
));
7555 std::string ac
= AC(copy(ac_value
));
7556 std::string shift
= IMMEDIATE(copy(shift_value
));
7558 return img::format("EXTR.W %s, %s, %s", rt
, ac
, shift
);
7563 * [DSP] EXTRV_RS.W rt, ac, rs - Extract word value with variable
7564 * right shift from accumulator to GPR
7567 * 10987654321098765432109876543210
7568 * 001000 10111010111111
7573 std::string
NMD::EXTRV_RS_W(uint64 instruction
)
7575 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7576 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7577 uint64 ac_value
= extract_ac_15_14(instruction
);
7579 std::string rt
= GPR(copy(rt_value
));
7580 std::string ac
= AC(copy(ac_value
));
7581 std::string rs
= GPR(copy(rs_value
));
7583 return img::format("EXTRV_RS.W %s, %s, %s", rt
, ac
, rs
);
7588 * [DSP] EXTRV_R.W rt, ac, rs - Extract word value with variable
7589 * right shift from accumulator to GPR
7592 * 10987654321098765432109876543210
7593 * 001000 01111010111111
7598 std::string
NMD::EXTRV_R_W(uint64 instruction
)
7600 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7601 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7602 uint64 ac_value
= extract_ac_15_14(instruction
);
7604 std::string rt
= GPR(copy(rt_value
));
7605 std::string ac
= AC(copy(ac_value
));
7606 std::string rs
= GPR(copy(rs_value
));
7608 return img::format("EXTRV_R.W %s, %s, %s", rt
, ac
, rs
);
7613 * [DSP] EXTRV_S.H rt, ac, rs - Extract halfword value variable from
7614 * accumulator to GPR with right shift and saturate
7617 * 10987654321098765432109876543210
7618 * 001000 11111010111111
7623 std::string
NMD::EXTRV_S_H(uint64 instruction
)
7625 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7626 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7627 uint64 ac_value
= extract_ac_15_14(instruction
);
7629 std::string rt
= GPR(copy(rt_value
));
7630 std::string ac
= AC(copy(ac_value
));
7631 std::string rs
= GPR(copy(rs_value
));
7633 return img::format("EXTRV_S.H %s, %s, %s", rt
, ac
, rs
);
7638 * [DSP] EXTRV.W rt, ac, rs - Extract word value with variable
7639 * right shift from accumulator to GPR
7642 * 10987654321098765432109876543210
7643 * 001000 00111010111111
7648 std::string
NMD::EXTRV_W(uint64 instruction
)
7650 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7651 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7652 uint64 ac_value
= extract_ac_15_14(instruction
);
7654 std::string rt
= GPR(copy(rt_value
));
7655 std::string ac
= AC(copy(ac_value
));
7656 std::string rs
= GPR(copy(rs_value
));
7658 return img::format("EXTRV.W %s, %s, %s", rt
, ac
, rs
);
7663 * EXTW - Extract Word
7666 * 10987654321098765432109876543210
7673 std::string
NMD::EXTW(uint64 instruction
)
7675 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7676 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7677 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
7678 uint64 shift_value
= extract_shift_10_9_8_7_6(instruction
);
7680 std::string rd
= GPR(copy(rd_value
));
7681 std::string rs
= GPR(copy(rs_value
));
7682 std::string rt
= GPR(copy(rt_value
));
7683 std::string shift
= IMMEDIATE(copy(shift_value
));
7685 return img::format("EXTW %s, %s, %s, %s", rd
, rs
, rt
, shift
);
7693 * 10987654321098765432109876543210
7694 * 001000 x1110000101
7699 std::string
NMD::FLOOR_L_D(uint64 instruction
)
7701 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
7702 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
7704 std::string ft
= FPR(copy(ft_value
));
7705 std::string fs
= FPR(copy(fs_value
));
7707 return img::format("FLOOR.L.D %s, %s", ft
, fs
);
7715 * 10987654321098765432109876543210
7716 * 001000 x1110000101
7721 std::string
NMD::FLOOR_L_S(uint64 instruction
)
7723 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
7724 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
7726 std::string ft
= FPR(copy(ft_value
));
7727 std::string fs
= FPR(copy(fs_value
));
7729 return img::format("FLOOR.L.S %s, %s", ft
, fs
);
7737 * 10987654321098765432109876543210
7738 * 001000 x1110000101
7743 std::string
NMD::FLOOR_W_D(uint64 instruction
)
7745 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
7746 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
7748 std::string ft
= FPR(copy(ft_value
));
7749 std::string fs
= FPR(copy(fs_value
));
7751 return img::format("FLOOR.W.D %s, %s", ft
, fs
);
7759 * 10987654321098765432109876543210
7760 * 001000 x1110000101
7765 std::string
NMD::FLOOR_W_S(uint64 instruction
)
7767 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
7768 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
7770 std::string ft
= FPR(copy(ft_value
));
7771 std::string fs
= FPR(copy(fs_value
));
7773 return img::format("FLOOR.W.S %s, %s", ft
, fs
);
7781 * 10987654321098765432109876543210
7782 * 001000 x1110000101
7787 std::string
NMD::FORK(uint64 instruction
)
7789 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7790 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7791 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
7793 std::string rd
= GPR(copy(rd_value
));
7794 std::string rs
= GPR(copy(rs_value
));
7795 std::string rt
= GPR(copy(rt_value
));
7797 return img::format("FORK %s, %s, %s", rd
, rs
, rt
);
7805 * 10987654321098765432109876543210
7806 * 001000 x1110000101
7811 std::string
NMD::HYPCALL(uint64 instruction
)
7813 uint64 code_value
= extract_code_17_to_0(instruction
);
7815 std::string code
= IMMEDIATE(copy(code_value
));
7817 return img::format("HYPCALL %s", code
);
7825 * 10987654321098765432109876543210
7826 * 001000 x1110000101
7831 std::string
NMD::HYPCALL_16_(uint64 instruction
)
7833 uint64 code_value
= extract_code_1_0(instruction
);
7835 std::string code
= IMMEDIATE(copy(code_value
));
7837 return img::format("HYPCALL %s", code
);
7845 * 10987654321098765432109876543210
7846 * 001000 x1110000101
7851 std::string
NMD::INS(uint64 instruction
)
7853 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7854 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7855 uint64 msbd_value
= extract_msbt_10_9_8_7_6(instruction
);
7856 uint64 lsb_value
= extract_lsb_4_3_2_1_0(instruction
);
7858 std::string rt
= GPR(copy(rt_value
));
7859 std::string rs
= GPR(copy(rs_value
));
7860 std::string pos
= IMMEDIATE(encode_lsb_from_pos_and_size(lsb_value
));
7861 std::string size
= IMMEDIATE(encode_lsb_from_pos_and_size(msbd_value
));
7862 /* !!!!!!!!!! - no conversion function */
7864 return img::format("INS %s, %s, %s, %s", rt
, rs
, pos
, size
);
7870 * [DSP] INSV rt, rs - Insert bit field variable
7873 * 10987654321098765432109876543210
7874 * 001000 0100000100111111
7878 std::string
NMD::INSV(uint64 instruction
)
7880 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7881 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7883 std::string rt
= GPR(copy(rt_value
));
7884 std::string rs
= GPR(copy(rs_value
));
7886 return img::format("INSV %s, %s", rt
, rs
);
7894 * 10987654321098765432109876543210
7895 * 001000 x1110000101
7900 std::string
NMD::IRET(uint64 instruction
)
7912 * 10987654321098765432109876543210
7913 * 001000 x1110000101
7918 std::string
NMD::JALRC_16_(uint64 instruction
)
7920 uint64 rt_value
= extract_rt_9_8_7_6_5(instruction
);
7922 std::string rt
= GPR(copy(rt_value
));
7924 return img::format("JALRC $%d, %s", 31, rt
);
7932 * 10987654321098765432109876543210
7933 * 001000 x1110000101
7938 std::string
NMD::JALRC_32_(uint64 instruction
)
7940 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7941 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7943 std::string rt
= GPR(copy(rt_value
));
7944 std::string rs
= GPR(copy(rs_value
));
7946 return img::format("JALRC %s, %s", rt
, rs
);
7954 * 10987654321098765432109876543210
7955 * 001000 x1110000101
7960 std::string
NMD::JALRC_HB(uint64 instruction
)
7962 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
7963 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
7965 std::string rt
= GPR(copy(rt_value
));
7966 std::string rs
= GPR(copy(rs_value
));
7968 return img::format("JALRC.HB %s, %s", rt
, rs
);
7976 * 10987654321098765432109876543210
7977 * 001000 x1110000101
7982 std::string
NMD::JRC(uint64 instruction
)
7984 uint64 rt_value
= extract_rt_9_8_7_6_5(instruction
);
7986 std::string rt
= GPR(copy(rt_value
));
7988 return img::format("JRC %s", rt
);
7996 * 10987654321098765432109876543210
7997 * 001000 x1110000101
8002 std::string
NMD::LB_16_(uint64 instruction
)
8004 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
8005 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
8006 uint64 u_value
= extract_u_1_0(instruction
);
8008 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
8009 std::string u
= IMMEDIATE(copy(u_value
));
8010 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
8012 return img::format("LB %s, %s(%s)", rt3
, u
, rs3
);
8020 * 10987654321098765432109876543210
8021 * 001000 x1110000101
8026 std::string
NMD::LB_GP_(uint64 instruction
)
8028 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8029 uint64 u_value
= extract_u_17_to_0(instruction
);
8031 std::string rt
= GPR(copy(rt_value
));
8032 std::string u
= IMMEDIATE(copy(u_value
));
8034 return img::format("LB %s, %s($%d)", rt
, u
, 28);
8042 * 10987654321098765432109876543210
8043 * 001000 x1110000101
8048 std::string
NMD::LB_S9_(uint64 instruction
)
8050 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8051 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8052 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
8054 std::string rt
= GPR(copy(rt_value
));
8055 std::string s
= IMMEDIATE(copy(s_value
));
8056 std::string rs
= GPR(copy(rs_value
));
8058 return img::format("LB %s, %s(%s)", rt
, s
, rs
);
8066 * 10987654321098765432109876543210
8067 * 001000 x1110000101
8072 std::string
NMD::LB_U12_(uint64 instruction
)
8074 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8075 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8076 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
8078 std::string rt
= GPR(copy(rt_value
));
8079 std::string u
= IMMEDIATE(copy(u_value
));
8080 std::string rs
= GPR(copy(rs_value
));
8082 return img::format("LB %s, %s(%s)", rt
, u
, rs
);
8090 * 10987654321098765432109876543210
8091 * 001000 x1110000101
8096 std::string
NMD::LBE(uint64 instruction
)
8098 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8099 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8100 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
8102 std::string rt
= GPR(copy(rt_value
));
8103 std::string s
= IMMEDIATE(copy(s_value
));
8104 std::string rs
= GPR(copy(rs_value
));
8106 return img::format("LBE %s, %s(%s)", rt
, s
, rs
);
8114 * 10987654321098765432109876543210
8115 * 001000 x1110000101
8120 std::string
NMD::LBU_16_(uint64 instruction
)
8122 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
8123 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
8124 uint64 u_value
= extract_u_1_0(instruction
);
8126 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
8127 std::string u
= IMMEDIATE(copy(u_value
));
8128 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
8130 return img::format("LBU %s, %s(%s)", rt3
, u
, rs3
);
8138 * 10987654321098765432109876543210
8139 * 001000 x1110000101
8144 std::string
NMD::LBU_GP_(uint64 instruction
)
8146 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8147 uint64 u_value
= extract_u_17_to_0(instruction
);
8149 std::string rt
= GPR(copy(rt_value
));
8150 std::string u
= IMMEDIATE(copy(u_value
));
8152 return img::format("LBU %s, %s($%d)", rt
, u
, 28);
8160 * 10987654321098765432109876543210
8161 * 001000 x1110000101
8166 std::string
NMD::LBU_S9_(uint64 instruction
)
8168 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8169 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8170 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
8172 std::string rt
= GPR(copy(rt_value
));
8173 std::string s
= IMMEDIATE(copy(s_value
));
8174 std::string rs
= GPR(copy(rs_value
));
8176 return img::format("LBU %s, %s(%s)", rt
, s
, rs
);
8184 * 10987654321098765432109876543210
8185 * 001000 x1110000101
8190 std::string
NMD::LBU_U12_(uint64 instruction
)
8192 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8193 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8194 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
8196 std::string rt
= GPR(copy(rt_value
));
8197 std::string u
= IMMEDIATE(copy(u_value
));
8198 std::string rs
= GPR(copy(rs_value
));
8200 return img::format("LBU %s, %s(%s)", rt
, u
, rs
);
8208 * 10987654321098765432109876543210
8209 * 001000 x1110000101
8214 std::string
NMD::LBUE(uint64 instruction
)
8216 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8217 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8218 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
8220 std::string rt
= GPR(copy(rt_value
));
8221 std::string s
= IMMEDIATE(copy(s_value
));
8222 std::string rs
= GPR(copy(rs_value
));
8224 return img::format("LBUE %s, %s(%s)", rt
, s
, rs
);
8232 * 10987654321098765432109876543210
8233 * 001000 x1110000101
8238 std::string
NMD::LBUX(uint64 instruction
)
8240 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8241 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8242 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
8244 std::string rd
= GPR(copy(rd_value
));
8245 std::string rs
= GPR(copy(rs_value
));
8246 std::string rt
= GPR(copy(rt_value
));
8248 return img::format("LBUX %s, %s(%s)", rd
, rs
, rt
);
8256 * 10987654321098765432109876543210
8257 * 001000 x1110000101
8262 std::string
NMD::LBX(uint64 instruction
)
8264 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8265 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8266 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
8268 std::string rd
= GPR(copy(rd_value
));
8269 std::string rs
= GPR(copy(rs_value
));
8270 std::string rt
= GPR(copy(rt_value
));
8272 return img::format("LBX %s, %s(%s)", rd
, rs
, rt
);
8280 * 10987654321098765432109876543210
8281 * 001000 x1110000101
8286 std::string
NMD::LD_GP_(uint64 instruction
)
8288 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8289 uint64 u_value
= extract_u_20_to_3__s3(instruction
);
8291 std::string rt
= GPR(copy(rt_value
));
8292 std::string u
= IMMEDIATE(copy(u_value
));
8294 return img::format("LD %s, %s($%d)", rt
, u
, 28);
8302 * 10987654321098765432109876543210
8303 * 001000 x1110000101
8308 std::string
NMD::LD_S9_(uint64 instruction
)
8310 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8311 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8312 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
8314 std::string rt
= GPR(copy(rt_value
));
8315 std::string s
= IMMEDIATE(copy(s_value
));
8316 std::string rs
= GPR(copy(rs_value
));
8318 return img::format("LD %s, %s(%s)", rt
, s
, rs
);
8326 * 10987654321098765432109876543210
8327 * 001000 x1110000101
8332 std::string
NMD::LD_U12_(uint64 instruction
)
8334 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8335 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8336 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
8338 std::string rt
= GPR(copy(rt_value
));
8339 std::string u
= IMMEDIATE(copy(u_value
));
8340 std::string rs
= GPR(copy(rs_value
));
8342 return img::format("LD %s, %s(%s)", rt
, u
, rs
);
8350 * 10987654321098765432109876543210
8351 * 001000 x1110000101
8356 std::string
NMD::LDC1_GP_(uint64 instruction
)
8358 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
8359 uint64 u_value
= extract_u_17_to_2__s2(instruction
);
8361 std::string ft
= FPR(copy(ft_value
));
8362 std::string u
= IMMEDIATE(copy(u_value
));
8364 return img::format("LDC1 %s, %s($%d)", ft
, u
, 28);
8372 * 10987654321098765432109876543210
8373 * 001000 x1110000101
8378 std::string
NMD::LDC1_S9_(uint64 instruction
)
8380 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
8381 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8382 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
8384 std::string ft
= FPR(copy(ft_value
));
8385 std::string s
= IMMEDIATE(copy(s_value
));
8386 std::string rs
= GPR(copy(rs_value
));
8388 return img::format("LDC1 %s, %s(%s)", ft
, s
, rs
);
8396 * 10987654321098765432109876543210
8397 * 001000 x1110000101
8402 std::string
NMD::LDC1_U12_(uint64 instruction
)
8404 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
8405 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8406 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
8408 std::string ft
= FPR(copy(ft_value
));
8409 std::string u
= IMMEDIATE(copy(u_value
));
8410 std::string rs
= GPR(copy(rs_value
));
8412 return img::format("LDC1 %s, %s(%s)", ft
, u
, rs
);
8420 * 10987654321098765432109876543210
8421 * 001000 x1110000101
8426 std::string
NMD::LDC1XS(uint64 instruction
)
8428 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8429 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8430 uint64 ft_value
= extract_ft_15_14_13_12_11(instruction
);
8432 std::string ft
= FPR(copy(ft_value
));
8433 std::string rs
= GPR(copy(rs_value
));
8434 std::string rt
= GPR(copy(rt_value
));
8436 return img::format("LDC1XS %s, %s(%s)", ft
, rs
, rt
);
8444 * 10987654321098765432109876543210
8445 * 001000 x1110000101
8450 std::string
NMD::LDC1X(uint64 instruction
)
8452 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8453 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8454 uint64 ft_value
= extract_ft_15_14_13_12_11(instruction
);
8456 std::string ft
= FPR(copy(ft_value
));
8457 std::string rs
= GPR(copy(rs_value
));
8458 std::string rt
= GPR(copy(rt_value
));
8460 return img::format("LDC1X %s, %s(%s)", ft
, rs
, rt
);
8468 * 10987654321098765432109876543210
8469 * 001000 x1110000101
8474 std::string
NMD::LDC2(uint64 instruction
)
8476 uint64 ct_value
= extract_ct_25_24_23_22_21(instruction
);
8477 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8478 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
8480 std::string ct
= CPR(copy(ct_value
));
8481 std::string s
= IMMEDIATE(copy(s_value
));
8482 std::string rs
= GPR(copy(rs_value
));
8484 return img::format("LDC2 %s, %s(%s)", ct
, s
, rs
);
8492 * 10987654321098765432109876543210
8493 * 001000 x1110000101
8498 std::string
NMD::LDM(uint64 instruction
)
8500 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8501 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8502 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
8503 uint64 count3_value
= extract_count3_14_13_12(instruction
);
8505 std::string rt
= GPR(copy(rt_value
));
8506 std::string s
= IMMEDIATE(copy(s_value
));
8507 std::string rs
= GPR(copy(rs_value
));
8508 std::string count3
= IMMEDIATE(encode_count3_from_count(count3_value
));
8510 return img::format("LDM %s, %s(%s), %s", rt
, s
, rs
, count3
);
8518 * 10987654321098765432109876543210
8519 * 001000 x1110000101
8524 std::string
NMD::LDPC_48_(uint64 instruction
)
8526 uint64 rt_value
= extract_rt_41_40_39_38_37(instruction
);
8527 int64 s_value
= extract_s__se31_15_to_0_31_to_16(instruction
);
8529 std::string rt
= GPR(copy(rt_value
));
8530 std::string s
= ADDRESS(encode_s_from_address(s_value
), 6);
8532 return img::format("LDPC %s, %s", rt
, s
);
8540 * 10987654321098765432109876543210
8541 * 001000 x1110000101
8546 std::string
NMD::LDX(uint64 instruction
)
8548 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8549 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8550 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
8552 std::string rd
= GPR(copy(rd_value
));
8553 std::string rs
= GPR(copy(rs_value
));
8554 std::string rt
= GPR(copy(rt_value
));
8556 return img::format("LDX %s, %s(%s)", rd
, rs
, rt
);
8564 * 10987654321098765432109876543210
8565 * 001000 x1110000101
8570 std::string
NMD::LDXS(uint64 instruction
)
8572 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8573 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8574 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
8576 std::string rd
= GPR(copy(rd_value
));
8577 std::string rs
= GPR(copy(rs_value
));
8578 std::string rt
= GPR(copy(rt_value
));
8580 return img::format("LDXS %s, %s(%s)", rd
, rs
, rt
);
8588 * 10987654321098765432109876543210
8589 * 001000 x1110000101
8594 std::string
NMD::LH_16_(uint64 instruction
)
8596 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
8597 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
8598 uint64 u_value
= extract_u_2_1__s1(instruction
);
8600 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
8601 std::string u
= IMMEDIATE(copy(u_value
));
8602 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
8604 return img::format("LH %s, %s(%s)", rt3
, u
, rs3
);
8612 * 10987654321098765432109876543210
8613 * 001000 x1110000101
8618 std::string
NMD::LH_GP_(uint64 instruction
)
8620 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8621 uint64 u_value
= extract_u_17_to_1__s1(instruction
);
8623 std::string rt
= GPR(copy(rt_value
));
8624 std::string u
= IMMEDIATE(copy(u_value
));
8626 return img::format("LH %s, %s($%d)", rt
, u
, 28);
8634 * 10987654321098765432109876543210
8635 * 001000 x1110000101
8640 std::string
NMD::LH_S9_(uint64 instruction
)
8642 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8643 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8644 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
8646 std::string rt
= GPR(copy(rt_value
));
8647 std::string s
= IMMEDIATE(copy(s_value
));
8648 std::string rs
= GPR(copy(rs_value
));
8650 return img::format("LH %s, %s(%s)", rt
, s
, rs
);
8658 * 10987654321098765432109876543210
8659 * 001000 x1110000101
8664 std::string
NMD::LH_U12_(uint64 instruction
)
8666 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8667 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8668 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
8670 std::string rt
= GPR(copy(rt_value
));
8671 std::string u
= IMMEDIATE(copy(u_value
));
8672 std::string rs
= GPR(copy(rs_value
));
8674 return img::format("LH %s, %s(%s)", rt
, u
, rs
);
8682 * 10987654321098765432109876543210
8683 * 001000 x1110000101
8688 std::string
NMD::LHE(uint64 instruction
)
8690 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8691 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8692 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
8694 std::string rt
= GPR(copy(rt_value
));
8695 std::string s
= IMMEDIATE(copy(s_value
));
8696 std::string rs
= GPR(copy(rs_value
));
8698 return img::format("LHE %s, %s(%s)", rt
, s
, rs
);
8706 * 10987654321098765432109876543210
8707 * 001000 x1110000101
8712 std::string
NMD::LHU_16_(uint64 instruction
)
8714 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
8715 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
8716 uint64 u_value
= extract_u_2_1__s1(instruction
);
8718 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
8719 std::string u
= IMMEDIATE(copy(u_value
));
8720 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
8722 return img::format("LHU %s, %s(%s)", rt3
, u
, rs3
);
8730 * 10987654321098765432109876543210
8731 * 001000 x1110000101
8736 std::string
NMD::LHU_GP_(uint64 instruction
)
8738 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8739 uint64 u_value
= extract_u_17_to_1__s1(instruction
);
8741 std::string rt
= GPR(copy(rt_value
));
8742 std::string u
= IMMEDIATE(copy(u_value
));
8744 return img::format("LHU %s, %s($%d)", rt
, u
, 28);
8752 * 10987654321098765432109876543210
8753 * 001000 x1110000101
8758 std::string
NMD::LHU_S9_(uint64 instruction
)
8760 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8761 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8762 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
8764 std::string rt
= GPR(copy(rt_value
));
8765 std::string s
= IMMEDIATE(copy(s_value
));
8766 std::string rs
= GPR(copy(rs_value
));
8768 return img::format("LHU %s, %s(%s)", rt
, s
, rs
);
8776 * 10987654321098765432109876543210
8777 * 001000 x1110000101
8782 std::string
NMD::LHU_U12_(uint64 instruction
)
8784 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8785 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8786 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
8788 std::string rt
= GPR(copy(rt_value
));
8789 std::string u
= IMMEDIATE(copy(u_value
));
8790 std::string rs
= GPR(copy(rs_value
));
8792 return img::format("LHU %s, %s(%s)", rt
, u
, rs
);
8800 * 10987654321098765432109876543210
8801 * 001000 x1110000101
8806 std::string
NMD::LHUE(uint64 instruction
)
8808 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8809 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8810 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
8812 std::string rt
= GPR(copy(rt_value
));
8813 std::string s
= IMMEDIATE(copy(s_value
));
8814 std::string rs
= GPR(copy(rs_value
));
8816 return img::format("LHUE %s, %s(%s)", rt
, s
, rs
);
8824 * 10987654321098765432109876543210
8825 * 001000 x1110000101
8830 std::string
NMD::LHUX(uint64 instruction
)
8832 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8833 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8834 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
8836 std::string rd
= GPR(copy(rd_value
));
8837 std::string rs
= GPR(copy(rs_value
));
8838 std::string rt
= GPR(copy(rt_value
));
8840 return img::format("LHUX %s, %s(%s)", rd
, rs
, rt
);
8848 * 10987654321098765432109876543210
8849 * 001000 x1110000101
8854 std::string
NMD::LHUXS(uint64 instruction
)
8856 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8857 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8858 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
8860 std::string rd
= GPR(copy(rd_value
));
8861 std::string rs
= GPR(copy(rs_value
));
8862 std::string rt
= GPR(copy(rt_value
));
8864 return img::format("LHUXS %s, %s(%s)", rd
, rs
, rt
);
8872 * 10987654321098765432109876543210
8873 * 001000 x1110000101
8878 std::string
NMD::LHXS(uint64 instruction
)
8880 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8881 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8882 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
8884 std::string rd
= GPR(copy(rd_value
));
8885 std::string rs
= GPR(copy(rs_value
));
8886 std::string rt
= GPR(copy(rt_value
));
8888 return img::format("LHXS %s, %s(%s)", rd
, rs
, rt
);
8896 * 10987654321098765432109876543210
8897 * 001000 x1110000101
8902 std::string
NMD::LHX(uint64 instruction
)
8904 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8905 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8906 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
8908 std::string rd
= GPR(copy(rd_value
));
8909 std::string rs
= GPR(copy(rs_value
));
8910 std::string rt
= GPR(copy(rt_value
));
8912 return img::format("LHX %s, %s(%s)", rd
, rs
, rt
);
8920 * 10987654321098765432109876543210
8921 * 001000 x1110000101
8926 std::string
NMD::LI_16_(uint64 instruction
)
8928 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
8929 uint64 eu_value
= extract_eu_6_5_4_3_2_1_0(instruction
);
8931 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
8932 std::string eu
= IMMEDIATE(encode_eu_from_s_li16(eu_value
));
8934 return img::format("LI %s, %s", rt3
, eu
);
8942 * 10987654321098765432109876543210
8943 * 001000 x1110000101
8948 std::string
NMD::LI_48_(uint64 instruction
)
8950 uint64 rt_value
= extract_rt_41_40_39_38_37(instruction
);
8951 int64 s_value
= extract_s__se31_15_to_0_31_to_16(instruction
);
8953 std::string rt
= GPR(copy(rt_value
));
8954 std::string s
= IMMEDIATE(copy(s_value
));
8956 return img::format("LI %s, %s", rt
, s
);
8964 * 10987654321098765432109876543210
8965 * 001000 x1110000101
8970 std::string
NMD::LL(uint64 instruction
)
8972 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8973 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8974 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_s2(instruction
);
8976 std::string rt
= GPR(copy(rt_value
));
8977 std::string s
= IMMEDIATE(copy(s_value
));
8978 std::string rs
= GPR(copy(rs_value
));
8980 return img::format("LL %s, %s(%s)", rt
, s
, rs
);
8988 * 10987654321098765432109876543210
8989 * 001000 x1110000101
8994 std::string
NMD::LLD(uint64 instruction
)
8996 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
8997 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
8998 int64 s_value
= extract_s__se8_15_7_6_5_4_3_s3(instruction
);
9000 std::string rt
= GPR(copy(rt_value
));
9001 std::string s
= IMMEDIATE(copy(s_value
));
9002 std::string rs
= GPR(copy(rs_value
));
9004 return img::format("LLD %s, %s(%s)", rt
, s
, rs
);
9012 * 10987654321098765432109876543210
9013 * 001000 x1110000101
9018 std::string
NMD::LLDP(uint64 instruction
)
9020 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9021 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9022 uint64 ru_value
= extract_ru_7_6_5_4_3(instruction
);
9024 std::string rt
= GPR(copy(rt_value
));
9025 std::string ru
= GPR(copy(ru_value
));
9026 std::string rs
= GPR(copy(rs_value
));
9028 return img::format("LLDP %s, %s, (%s)", rt
, ru
, rs
);
9036 * 10987654321098765432109876543210
9037 * 001000 x1110000101
9042 std::string
NMD::LLE(uint64 instruction
)
9044 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9045 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9046 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_s2(instruction
);
9048 std::string rt
= GPR(copy(rt_value
));
9049 std::string s
= IMMEDIATE(copy(s_value
));
9050 std::string rs
= GPR(copy(rs_value
));
9052 return img::format("LLE %s, %s(%s)", rt
, s
, rs
);
9060 * 10987654321098765432109876543210
9061 * 001000 x1110000101
9066 std::string
NMD::LLWP(uint64 instruction
)
9068 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9069 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9070 uint64 ru_value
= extract_ru_7_6_5_4_3(instruction
);
9072 std::string rt
= GPR(copy(rt_value
));
9073 std::string ru
= GPR(copy(ru_value
));
9074 std::string rs
= GPR(copy(rs_value
));
9076 return img::format("LLWP %s, %s, (%s)", rt
, ru
, rs
);
9084 * 10987654321098765432109876543210
9085 * 001000 x1110000101
9090 std::string
NMD::LLWPE(uint64 instruction
)
9092 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9093 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9094 uint64 ru_value
= extract_ru_7_6_5_4_3(instruction
);
9096 std::string rt
= GPR(copy(rt_value
));
9097 std::string ru
= GPR(copy(ru_value
));
9098 std::string rs
= GPR(copy(rs_value
));
9100 return img::format("LLWPE %s, %s, (%s)", rt
, ru
, rs
);
9108 * 10987654321098765432109876543210
9109 * 001000 x1110000101
9114 std::string
NMD::LSA(uint64 instruction
)
9116 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9117 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9118 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
9119 uint64 u2_value
= extract_u2_10_9(instruction
);
9121 std::string rd
= GPR(copy(rd_value
));
9122 std::string rs
= GPR(copy(rs_value
));
9123 std::string rt
= GPR(copy(rt_value
));
9124 std::string u2
= IMMEDIATE(copy(u2_value
));
9126 return img::format("LSA %s, %s, %s, %s", rd
, rs
, rt
, u2
);
9134 * 10987654321098765432109876543210
9135 * 001000 x1110000101
9140 std::string
NMD::LUI(uint64 instruction
)
9142 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9143 int64 s_value
= extract_s__se31_0_11_to_2_20_to_12_s12(instruction
);
9145 std::string rt
= GPR(copy(rt_value
));
9146 std::string s
= IMMEDIATE(copy(s_value
));
9148 return img::format("LUI %s, %%hi(%s)", rt
, s
);
9156 * 10987654321098765432109876543210
9157 * 001000 x1110000101
9162 std::string
NMD::LW_16_(uint64 instruction
)
9164 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
9165 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
9166 uint64 u_value
= extract_u_3_2_1_0__s2(instruction
);
9168 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
9169 std::string u
= IMMEDIATE(copy(u_value
));
9170 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
9172 return img::format("LW %s, %s(%s)", rt3
, u
, rs3
);
9180 * 10987654321098765432109876543210
9181 * 001000 x1110000101
9186 std::string
NMD::LW_4X4_(uint64 instruction
)
9188 uint64 rt4_value
= extract_rt4_9_7_6_5(instruction
);
9189 uint64 rs4_value
= extract_rs4_4_2_1_0(instruction
);
9190 uint64 u_value
= extract_u_3_8__s2(instruction
);
9192 std::string rt4
= GPR(decode_gpr_gpr4(rt4_value
));
9193 std::string u
= IMMEDIATE(copy(u_value
));
9194 std::string rs4
= GPR(decode_gpr_gpr4(rs4_value
));
9196 return img::format("LW %s, %s(%s)", rt4
, u
, rs4
);
9204 * 10987654321098765432109876543210
9205 * 001000 x1110000101
9210 std::string
NMD::LW_GP_(uint64 instruction
)
9212 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9213 uint64 u_value
= extract_u_20_to_2__s2(instruction
);
9215 std::string rt
= GPR(copy(rt_value
));
9216 std::string u
= IMMEDIATE(copy(u_value
));
9218 return img::format("LW %s, %s($%d)", rt
, u
, 28);
9226 * 10987654321098765432109876543210
9227 * 001000 x1110000101
9232 std::string
NMD::LW_GP16_(uint64 instruction
)
9234 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
9235 uint64 u_value
= extract_u_6_5_4_3_2_1_0__s2(instruction
);
9237 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
9238 std::string u
= IMMEDIATE(copy(u_value
));
9240 return img::format("LW %s, %s($%d)", rt3
, u
, 28);
9248 * 10987654321098765432109876543210
9249 * 001000 x1110000101
9254 std::string
NMD::LW_S9_(uint64 instruction
)
9256 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9257 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9258 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
9260 std::string rt
= GPR(copy(rt_value
));
9261 std::string s
= IMMEDIATE(copy(s_value
));
9262 std::string rs
= GPR(copy(rs_value
));
9264 return img::format("LW %s, %s(%s)", rt
, s
, rs
);
9272 * 10987654321098765432109876543210
9273 * 001000 x1110000101
9278 std::string
NMD::LW_SP_(uint64 instruction
)
9280 uint64 rt_value
= extract_rt_9_8_7_6_5(instruction
);
9281 uint64 u_value
= extract_u_4_3_2_1_0__s2(instruction
);
9283 std::string rt
= GPR(copy(rt_value
));
9284 std::string u
= IMMEDIATE(copy(u_value
));
9286 return img::format("LW %s, %s($%d)", rt
, u
, 29);
9294 * 10987654321098765432109876543210
9295 * 001000 x1110000101
9300 std::string
NMD::LW_U12_(uint64 instruction
)
9302 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9303 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9304 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
9306 std::string rt
= GPR(copy(rt_value
));
9307 std::string u
= IMMEDIATE(copy(u_value
));
9308 std::string rs
= GPR(copy(rs_value
));
9310 return img::format("LW %s, %s(%s)", rt
, u
, rs
);
9318 * 10987654321098765432109876543210
9319 * 001000 x1110000101
9324 std::string
NMD::LWC1_GP_(uint64 instruction
)
9326 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
9327 uint64 u_value
= extract_u_17_to_2__s2(instruction
);
9329 std::string ft
= FPR(copy(ft_value
));
9330 std::string u
= IMMEDIATE(copy(u_value
));
9332 return img::format("LWC1 %s, %s($%d)", ft
, u
, 28);
9340 * 10987654321098765432109876543210
9341 * 001000 x1110000101
9346 std::string
NMD::LWC1_S9_(uint64 instruction
)
9348 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
9349 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9350 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
9352 std::string ft
= FPR(copy(ft_value
));
9353 std::string s
= IMMEDIATE(copy(s_value
));
9354 std::string rs
= GPR(copy(rs_value
));
9356 return img::format("LWC1 %s, %s(%s)", ft
, s
, rs
);
9364 * 10987654321098765432109876543210
9365 * 001000 x1110000101
9370 std::string
NMD::LWC1_U12_(uint64 instruction
)
9372 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
9373 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9374 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
9376 std::string ft
= FPR(copy(ft_value
));
9377 std::string u
= IMMEDIATE(copy(u_value
));
9378 std::string rs
= GPR(copy(rs_value
));
9380 return img::format("LWC1 %s, %s(%s)", ft
, u
, rs
);
9388 * 10987654321098765432109876543210
9389 * 001000 x1110000101
9394 std::string
NMD::LWC1X(uint64 instruction
)
9396 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9397 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9398 uint64 ft_value
= extract_ft_15_14_13_12_11(instruction
);
9400 std::string ft
= FPR(copy(ft_value
));
9401 std::string rs
= GPR(copy(rs_value
));
9402 std::string rt
= GPR(copy(rt_value
));
9404 return img::format("LWC1X %s, %s(%s)", ft
, rs
, rt
);
9412 * 10987654321098765432109876543210
9413 * 001000 x1110000101
9418 std::string
NMD::LWC1XS(uint64 instruction
)
9420 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9421 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9422 uint64 ft_value
= extract_ft_15_14_13_12_11(instruction
);
9424 std::string ft
= FPR(copy(ft_value
));
9425 std::string rs
= GPR(copy(rs_value
));
9426 std::string rt
= GPR(copy(rt_value
));
9428 return img::format("LWC1XS %s, %s(%s)", ft
, rs
, rt
);
9436 * 10987654321098765432109876543210
9437 * 001000 x1110000101
9442 std::string
NMD::LWC2(uint64 instruction
)
9444 uint64 ct_value
= extract_ct_25_24_23_22_21(instruction
);
9445 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9446 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
9448 std::string ct
= CPR(copy(ct_value
));
9449 std::string s
= IMMEDIATE(copy(s_value
));
9450 std::string rs
= GPR(copy(rs_value
));
9452 return img::format("LWC2 %s, %s(%s)", ct
, s
, rs
);
9460 * 10987654321098765432109876543210
9461 * 001000 x1110000101
9466 std::string
NMD::LWE(uint64 instruction
)
9468 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9469 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9470 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
9472 std::string rt
= GPR(copy(rt_value
));
9473 std::string s
= IMMEDIATE(copy(s_value
));
9474 std::string rs
= GPR(copy(rs_value
));
9476 return img::format("LWE %s, %s(%s)", rt
, s
, rs
);
9484 * 10987654321098765432109876543210
9485 * 001000 x1110000101
9490 std::string
NMD::LWM(uint64 instruction
)
9492 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9493 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9494 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
9495 uint64 count3_value
= extract_count3_14_13_12(instruction
);
9497 std::string rt
= GPR(copy(rt_value
));
9498 std::string s
= IMMEDIATE(copy(s_value
));
9499 std::string rs
= GPR(copy(rs_value
));
9500 std::string count3
= IMMEDIATE(encode_count3_from_count(count3_value
));
9502 return img::format("LWM %s, %s(%s), %s", rt
, s
, rs
, count3
);
9510 * 10987654321098765432109876543210
9511 * 001000 x1110000101
9516 std::string
NMD::LWPC_48_(uint64 instruction
)
9518 uint64 rt_value
= extract_rt_41_40_39_38_37(instruction
);
9519 int64 s_value
= extract_s__se31_15_to_0_31_to_16(instruction
);
9521 std::string rt
= GPR(copy(rt_value
));
9522 std::string s
= ADDRESS(encode_s_from_address(s_value
), 6);
9524 return img::format("LWPC %s, %s", rt
, s
);
9532 * 10987654321098765432109876543210
9533 * 001000 x1110000101
9538 std::string
NMD::LWU_GP_(uint64 instruction
)
9540 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9541 uint64 u_value
= extract_u_17_to_2__s2(instruction
);
9543 std::string rt
= GPR(copy(rt_value
));
9544 std::string u
= IMMEDIATE(copy(u_value
));
9546 return img::format("LWU %s, %s($%d)", rt
, u
, 28);
9554 * 10987654321098765432109876543210
9555 * 001000 x1110000101
9560 std::string
NMD::LWU_S9_(uint64 instruction
)
9562 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9563 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9564 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
9566 std::string rt
= GPR(copy(rt_value
));
9567 std::string s
= IMMEDIATE(copy(s_value
));
9568 std::string rs
= GPR(copy(rs_value
));
9570 return img::format("LWU %s, %s(%s)", rt
, s
, rs
);
9578 * 10987654321098765432109876543210
9579 * 001000 x1110000101
9584 std::string
NMD::LWU_U12_(uint64 instruction
)
9586 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9587 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9588 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
9590 std::string rt
= GPR(copy(rt_value
));
9591 std::string u
= IMMEDIATE(copy(u_value
));
9592 std::string rs
= GPR(copy(rs_value
));
9594 return img::format("LWU %s, %s(%s)", rt
, u
, rs
);
9602 * 10987654321098765432109876543210
9603 * 001000 x1110000101
9608 std::string
NMD::LWUX(uint64 instruction
)
9610 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9611 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9612 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
9614 std::string rd
= GPR(copy(rd_value
));
9615 std::string rs
= GPR(copy(rs_value
));
9616 std::string rt
= GPR(copy(rt_value
));
9618 return img::format("LWUX %s, %s(%s)", rd
, rs
, rt
);
9626 * 10987654321098765432109876543210
9627 * 001000 x1110000101
9632 std::string
NMD::LWUXS(uint64 instruction
)
9634 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9635 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9636 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
9638 std::string rd
= GPR(copy(rd_value
));
9639 std::string rs
= GPR(copy(rs_value
));
9640 std::string rt
= GPR(copy(rt_value
));
9642 return img::format("LWUXS %s, %s(%s)", rd
, rs
, rt
);
9650 * 10987654321098765432109876543210
9651 * 001000 x1110000101
9656 std::string
NMD::LWX(uint64 instruction
)
9658 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9659 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9660 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
9662 std::string rd
= GPR(copy(rd_value
));
9663 std::string rs
= GPR(copy(rs_value
));
9664 std::string rt
= GPR(copy(rt_value
));
9666 return img::format("LWX %s, %s(%s)", rd
, rs
, rt
);
9674 * 10987654321098765432109876543210
9675 * 001000 x1110000101
9680 std::string
NMD::LWXS_16_(uint64 instruction
)
9682 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
9683 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
9684 uint64 rd3_value
= extract_rd3_3_2_1(instruction
);
9686 std::string rd3
= GPR(decode_gpr_gpr3(rd3_value
));
9687 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
9688 std::string rt3
= IMMEDIATE(decode_gpr_gpr3(rt3_value
));
9690 return img::format("LWXS %s, %s(%s)", rd3
, rs3
, rt3
);
9698 * 10987654321098765432109876543210
9699 * 001000 x1110000101
9704 std::string
NMD::LWXS_32_(uint64 instruction
)
9706 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9707 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9708 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
9710 std::string rd
= GPR(copy(rd_value
));
9711 std::string rs
= GPR(copy(rs_value
));
9712 std::string rt
= GPR(copy(rt_value
));
9714 return img::format("LWXS %s, %s(%s)", rd
, rs
, rt
);
9719 * [DSP] MADD ac, rs, rt - Multiply two words and add to the specified
9723 * 10987654321098765432109876543210
9724 * 001000 x1110000101
9729 std::string
NMD::MADD_DSP_(uint64 instruction
)
9731 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9732 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9733 uint64 ac_value
= extract_ac_15_14(instruction
);
9735 std::string ac
= AC(copy(ac_value
));
9736 std::string rs
= GPR(copy(rs_value
));
9737 std::string rt
= GPR(copy(rt_value
));
9739 return img::format("MADD %s, %s, %s", ac
, rs
, rt
);
9747 * 10987654321098765432109876543210
9748 * 001000 x1110000101
9753 std::string
NMD::MADDF_D(uint64 instruction
)
9755 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
9756 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
9757 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
9759 std::string fd
= FPR(copy(fd_value
));
9760 std::string fs
= FPR(copy(fs_value
));
9761 std::string ft
= FPR(copy(ft_value
));
9763 return img::format("MADDF.D %s, %s, %s", fd
, fs
, ft
);
9771 * 10987654321098765432109876543210
9772 * 001000 x1110000101
9777 std::string
NMD::MADDF_S(uint64 instruction
)
9779 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
9780 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
9781 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
9783 std::string fd
= FPR(copy(fd_value
));
9784 std::string fs
= FPR(copy(fs_value
));
9785 std::string ft
= FPR(copy(ft_value
));
9787 return img::format("MADDF.S %s, %s, %s", fd
, fs
, ft
);
9792 * [DSP] MADDU ac, rs, rt - Multiply two unsigned words and add to the
9793 * specified accumulator
9796 * 10987654321098765432109876543210
9797 * 001000 x1110000101
9802 std::string
NMD::MADDU_DSP_(uint64 instruction
)
9804 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9805 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9806 uint64 ac_value
= extract_ac_15_14(instruction
);
9808 std::string ac
= AC(copy(ac_value
));
9809 std::string rs
= GPR(copy(rs_value
));
9810 std::string rt
= GPR(copy(rt_value
));
9812 return img::format("MADDU %s, %s, %s", ac
, rs
, rt
);
9817 * [DSP] MAQ_S.W.PHL ac, rs, rt - Multiply the left-most single vector
9818 * fractional halfword elements with accumulation
9821 * 10987654321098765432109876543210
9822 * 001000 x1110000101
9827 std::string
NMD::MAQ_S_W_PHL(uint64 instruction
)
9829 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9830 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9831 uint64 ac_value
= extract_ac_15_14(instruction
);
9833 std::string ac
= AC(copy(ac_value
));
9834 std::string rs
= GPR(copy(rs_value
));
9835 std::string rt
= GPR(copy(rt_value
));
9837 return img::format("MAQ_S.W.PHL %s, %s, %s", ac
, rs
, rt
);
9842 * [DSP] MAQ_S.W.PHR ac, rs, rt - Multiply the right-most single vector
9843 * fractional halfword elements with accumulation
9846 * 10987654321098765432109876543210
9847 * 001000 x1110000101
9852 std::string
NMD::MAQ_S_W_PHR(uint64 instruction
)
9854 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9855 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9856 uint64 ac_value
= extract_ac_15_14(instruction
);
9858 std::string ac
= AC(copy(ac_value
));
9859 std::string rs
= GPR(copy(rs_value
));
9860 std::string rt
= GPR(copy(rt_value
));
9862 return img::format("MAQ_S.W.PHR %s, %s, %s", ac
, rs
, rt
);
9867 * [DSP] MAQ_SA.W.PHL ac, rs, rt - Multiply the left-most single vector
9868 * fractional halfword elements with saturating accumulation
9871 * 10987654321098765432109876543210
9872 * 001000 x1110000101
9877 std::string
NMD::MAQ_SA_W_PHL(uint64 instruction
)
9879 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9880 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9881 uint64 ac_value
= extract_ac_15_14(instruction
);
9883 std::string ac
= AC(copy(ac_value
));
9884 std::string rs
= GPR(copy(rs_value
));
9885 std::string rt
= GPR(copy(rt_value
));
9887 return img::format("MAQ_SA.W.PHL %s, %s, %s", ac
, rs
, rt
);
9892 * [DSP] MAQ_SA.W.PHR ac, rs, rt - Multiply the right-most single vector
9893 * fractional halfword elements with saturating accumulation
9896 * 10987654321098765432109876543210
9897 * 001000 x1110000101
9902 std::string
NMD::MAQ_SA_W_PHR(uint64 instruction
)
9904 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
9905 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
9906 uint64 ac_value
= extract_ac_15_14(instruction
);
9908 std::string ac
= AC(copy(ac_value
));
9909 std::string rs
= GPR(copy(rs_value
));
9910 std::string rt
= GPR(copy(rt_value
));
9912 return img::format("MAQ_SA.W.PHR %s, %s, %s", ac
, rs
, rt
);
9920 * 10987654321098765432109876543210
9921 * 001000 x1110000101
9926 std::string
NMD::MAX_D(uint64 instruction
)
9928 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
9929 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
9930 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
9932 std::string fd
= FPR(copy(fd_value
));
9933 std::string fs
= FPR(copy(fs_value
));
9934 std::string ft
= FPR(copy(ft_value
));
9936 return img::format("MAX.D %s, %s, %s", fd
, fs
, ft
);
9944 * 10987654321098765432109876543210
9945 * 001000 x1110000101
9950 std::string
NMD::MAX_S(uint64 instruction
)
9952 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
9953 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
9954 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
9956 std::string fd
= FPR(copy(fd_value
));
9957 std::string fs
= FPR(copy(fs_value
));
9958 std::string ft
= FPR(copy(ft_value
));
9960 return img::format("MAX.S %s, %s, %s", fd
, fs
, ft
);
9968 * 10987654321098765432109876543210
9969 * 001000 x1110000101
9974 std::string
NMD::MAXA_D(uint64 instruction
)
9976 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
9977 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
9978 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
9980 std::string fd
= FPR(copy(fd_value
));
9981 std::string fs
= FPR(copy(fs_value
));
9982 std::string ft
= FPR(copy(ft_value
));
9984 return img::format("MAXA.D %s, %s, %s", fd
, fs
, ft
);
9992 * 10987654321098765432109876543210
9993 * 001000 x1110000101
9998 std::string
NMD::MAXA_S(uint64 instruction
)
10000 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
10001 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
10002 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
10004 std::string fd
= FPR(copy(fd_value
));
10005 std::string fs
= FPR(copy(fs_value
));
10006 std::string ft
= FPR(copy(ft_value
));
10008 return img::format("MAXA.S %s, %s, %s", fd
, fs
, ft
);
10016 * 10987654321098765432109876543210
10017 * 001000 x1110000101
10022 std::string
NMD::MFC0(uint64 instruction
)
10024 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10025 uint64 c0s_value
= extract_c0s_20_19_18_17_16(instruction
);
10026 uint64 sel_value
= extract_sel_15_14_13_12_11(instruction
);
10028 std::string rt
= GPR(copy(rt_value
));
10029 std::string c0s
= CPR(copy(c0s_value
));
10030 std::string sel
= IMMEDIATE(copy(sel_value
));
10032 return img::format("MFC0 %s, %s, %s", rt
, c0s
, sel
);
10040 * 10987654321098765432109876543210
10041 * 001000 x1110000101
10046 std::string
NMD::MFC1(uint64 instruction
)
10048 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10049 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
10051 std::string rt
= GPR(copy(rt_value
));
10052 std::string fs
= FPR(copy(fs_value
));
10054 return img::format("MFC1 %s, %s", rt
, fs
);
10062 * 10987654321098765432109876543210
10063 * 001000 x1110000101
10068 std::string
NMD::MFC2(uint64 instruction
)
10070 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10071 uint64 cs_value
= extract_cs_20_19_18_17_16(instruction
);
10073 std::string rt
= GPR(copy(rt_value
));
10074 std::string cs
= CPR(copy(cs_value
));
10076 return img::format("MFC2 %s, %s", rt
, cs
);
10084 * 10987654321098765432109876543210
10085 * 001000 x1110000101
10090 std::string
NMD::MFGC0(uint64 instruction
)
10092 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10093 uint64 c0s_value
= extract_c0s_20_19_18_17_16(instruction
);
10094 uint64 sel_value
= extract_sel_15_14_13_12_11(instruction
);
10096 std::string rt
= GPR(copy(rt_value
));
10097 std::string c0s
= CPR(copy(c0s_value
));
10098 std::string sel
= IMMEDIATE(copy(sel_value
));
10100 return img::format("MFGC0 %s, %s, %s", rt
, c0s
, sel
);
10108 * 10987654321098765432109876543210
10109 * 001000 x1110000101
10114 std::string
NMD::MFHC0(uint64 instruction
)
10116 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10117 uint64 c0s_value
= extract_c0s_20_19_18_17_16(instruction
);
10118 uint64 sel_value
= extract_sel_15_14_13_12_11(instruction
);
10120 std::string rt
= GPR(copy(rt_value
));
10121 std::string c0s
= CPR(copy(c0s_value
));
10122 std::string sel
= IMMEDIATE(copy(sel_value
));
10124 return img::format("MFHC0 %s, %s, %s", rt
, c0s
, sel
);
10132 * 10987654321098765432109876543210
10133 * 001000 x1110000101
10138 std::string
NMD::MFHC1(uint64 instruction
)
10140 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10141 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
10143 std::string rt
= GPR(copy(rt_value
));
10144 std::string fs
= FPR(copy(fs_value
));
10146 return img::format("MFHC1 %s, %s", rt
, fs
);
10154 * 10987654321098765432109876543210
10155 * 001000 x1110000101
10160 std::string
NMD::MFHC2(uint64 instruction
)
10162 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10163 uint64 cs_value
= extract_cs_20_19_18_17_16(instruction
);
10165 std::string rt
= GPR(copy(rt_value
));
10166 std::string cs
= CPR(copy(cs_value
));
10168 return img::format("MFHC2 %s, %s", rt
, cs
);
10176 * 10987654321098765432109876543210
10177 * 001000 x1110000101
10182 std::string
NMD::MFHGC0(uint64 instruction
)
10184 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10185 uint64 c0s_value
= extract_c0s_20_19_18_17_16(instruction
);
10186 uint64 sel_value
= extract_sel_15_14_13_12_11(instruction
);
10188 std::string rt
= GPR(copy(rt_value
));
10189 std::string c0s
= CPR(copy(c0s_value
));
10190 std::string sel
= IMMEDIATE(copy(sel_value
));
10192 return img::format("MFHGC0 %s, %s, %s", rt
, c0s
, sel
);
10197 * [DSP] MFHI rs, ac - Move from HI register
10200 * 10987654321098765432109876543210
10201 * 001000 xxxxx 00000001111111
10205 std::string
NMD::MFHI_DSP_(uint64 instruction
)
10207 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10208 uint64 ac_value
= extract_ac_15_14(instruction
);
10210 std::string rt
= GPR(copy(rt_value
));
10211 std::string ac
= AC(copy(ac_value
));
10213 return img::format("MFHI %s, %s", rt
, ac
);
10221 * 10987654321098765432109876543210
10222 * 001000 x1110000101
10227 std::string
NMD::MFHTR(uint64 instruction
)
10229 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10230 uint64 c0s_value
= extract_c0s_20_19_18_17_16(instruction
);
10231 uint64 sel_value
= extract_sel_15_14_13_12_11(instruction
);
10232 uint64 u_value
= extract_u_10(instruction
);
10234 std::string rt
= GPR(copy(rt_value
));
10235 std::string c0s
= IMMEDIATE(copy(c0s_value
));
10236 std::string u
= IMMEDIATE(copy(u_value
));
10237 std::string sel
= IMMEDIATE(copy(sel_value
));
10239 return img::format("MFHTR %s, %s, %s, %s", rt
, c0s
, u
, sel
);
10244 * [DSP] MFLO rs, ac - Move from HI register
10247 * 10987654321098765432109876543210
10248 * 001000 xxxxx 01000001111111
10252 std::string
NMD::MFLO_DSP_(uint64 instruction
)
10254 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10255 uint64 ac_value
= extract_ac_15_14(instruction
);
10257 std::string rt
= GPR(copy(rt_value
));
10258 std::string ac
= AC(copy(ac_value
));
10260 return img::format("MFLO %s, %s", rt
, ac
);
10268 * 10987654321098765432109876543210
10269 * 001000 x1110000101
10274 std::string
NMD::MFTR(uint64 instruction
)
10276 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10277 uint64 c0s_value
= extract_c0s_20_19_18_17_16(instruction
);
10278 uint64 sel_value
= extract_sel_15_14_13_12_11(instruction
);
10279 uint64 u_value
= extract_u_10(instruction
);
10281 std::string rt
= GPR(copy(rt_value
));
10282 std::string c0s
= IMMEDIATE(copy(c0s_value
));
10283 std::string u
= IMMEDIATE(copy(u_value
));
10284 std::string sel
= IMMEDIATE(copy(sel_value
));
10286 return img::format("MFTR %s, %s, %s, %s", rt
, c0s
, u
, sel
);
10294 * 10987654321098765432109876543210
10295 * 001000 x1110000101
10300 std::string
NMD::MIN_D(uint64 instruction
)
10302 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
10303 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
10304 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
10306 std::string fd
= FPR(copy(fd_value
));
10307 std::string fs
= FPR(copy(fs_value
));
10308 std::string ft
= FPR(copy(ft_value
));
10310 return img::format("MIN.D %s, %s, %s", fd
, fs
, ft
);
10318 * 10987654321098765432109876543210
10319 * 001000 x1110000101
10324 std::string
NMD::MIN_S(uint64 instruction
)
10326 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
10327 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
10328 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
10330 std::string fd
= FPR(copy(fd_value
));
10331 std::string fs
= FPR(copy(fs_value
));
10332 std::string ft
= FPR(copy(ft_value
));
10334 return img::format("MIN.S %s, %s, %s", fd
, fs
, ft
);
10342 * 10987654321098765432109876543210
10343 * 001000 x1110000101
10348 std::string
NMD::MINA_D(uint64 instruction
)
10350 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
10351 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
10352 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
10354 std::string fd
= FPR(copy(fd_value
));
10355 std::string fs
= FPR(copy(fs_value
));
10356 std::string ft
= FPR(copy(ft_value
));
10358 return img::format("MINA.D %s, %s, %s", fd
, fs
, ft
);
10366 * 10987654321098765432109876543210
10367 * 001000 x1110000101
10372 std::string
NMD::MINA_S(uint64 instruction
)
10374 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
10375 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
10376 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
10378 std::string fd
= FPR(copy(fd_value
));
10379 std::string fs
= FPR(copy(fs_value
));
10380 std::string ft
= FPR(copy(ft_value
));
10382 return img::format("MINA.S %s, %s, %s", fd
, fs
, ft
);
10390 * 10987654321098765432109876543210
10391 * 001000 x1110000101
10396 std::string
NMD::MOD(uint64 instruction
)
10398 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10399 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
10400 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
10402 std::string rd
= GPR(copy(rd_value
));
10403 std::string rs
= GPR(copy(rs_value
));
10404 std::string rt
= GPR(copy(rt_value
));
10406 return img::format("MOD %s, %s, %s", rd
, rs
, rt
);
10411 * [DSP] MODSUB rd, rs, rt - Modular subtraction on an index value
10414 * 10987654321098765432109876543210
10415 * 001000 x1110000101
10420 std::string
NMD::MODSUB(uint64 instruction
)
10422 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10423 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
10424 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
10426 std::string rd
= GPR(copy(rd_value
));
10427 std::string rs
= GPR(copy(rs_value
));
10428 std::string rt
= GPR(copy(rt_value
));
10430 return img::format("MODSUB %s, %s, %s", rd
, rs
, rt
);
10438 * 10987654321098765432109876543210
10439 * 001000 x1010010101
10444 std::string
NMD::MODU(uint64 instruction
)
10446 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10447 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
10448 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
10450 std::string rd
= GPR(copy(rd_value
));
10451 std::string rs
= GPR(copy(rs_value
));
10452 std::string rt
= GPR(copy(rt_value
));
10454 return img::format("MODU %s, %s, %s", rd
, rs
, rt
);
10462 * 10987654321098765432109876543210
10463 * 001000 x1110000101
10468 std::string
NMD::MOV_D(uint64 instruction
)
10470 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
10471 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
10473 std::string ft
= FPR(copy(ft_value
));
10474 std::string fs
= FPR(copy(fs_value
));
10476 return img::format("MOV.D %s, %s", ft
, fs
);
10484 * 10987654321098765432109876543210
10485 * 001000 x1110000101
10490 std::string
NMD::MOV_S(uint64 instruction
)
10492 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
10493 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
10495 std::string ft
= FPR(copy(ft_value
));
10496 std::string fs
= FPR(copy(fs_value
));
10498 return img::format("MOV.S %s, %s", ft
, fs
);
10506 * 10987654321098765432109876543210
10507 * 001000 x1110000101
10512 std::string
NMD::MOVE_BALC(uint64 instruction
)
10514 uint64 rtz4_value
= extract_rtz4_27_26_25_23_22_21(instruction
);
10515 uint64 rd1_value
= extract_rdl_25_24(instruction
);
10516 int64 s_value
= extract_s__se21_0_20_to_1_s1(instruction
);
10518 std::string rd1
= GPR(decode_gpr_gpr1(rd1_value
));
10519 std::string rtz4
= GPR(decode_gpr_gpr4_zero(rtz4_value
));
10520 std::string s
= ADDRESS(encode_s_from_address(s_value
), 4);
10522 return img::format("MOVE.BALC %s, %s, %s", rd1
, rtz4
, s
);
10530 * 10987654321098765432109876543210
10531 * 001000 x1110000101
10536 std::string
NMD::MOVEP(uint64 instruction
)
10538 uint64 rtz4_value
= extract_rtz4_9_7_6_5(instruction
);
10539 uint64 rd2_value
= extract_rd2_3_8(instruction
);
10540 uint64 rsz4_value
= extract_rsz4_4_2_1_0(instruction
);
10542 std::string rd2
= GPR(decode_gpr_gpr2_reg1(rd2_value
));
10543 std::string re2
= GPR(decode_gpr_gpr2_reg2(rd2_value
));
10544 /* !!!!!!!!!! - no conversion function */
10545 std::string rsz4
= GPR(decode_gpr_gpr4_zero(rsz4_value
));
10546 std::string rtz4
= GPR(decode_gpr_gpr4_zero(rtz4_value
));
10548 return img::format("MOVEP %s, %s, %s, %s", rd2
, re2
, rsz4
, rtz4
);
10557 * 10987654321098765432109876543210
10558 * 001000 x1110000101
10563 std::string
NMD::MOVEP_REV_(uint64 instruction
)
10565 uint64 rt4_value
= extract_rt4_9_7_6_5(instruction
);
10566 uint64 rd2_value
= extract_rd2_3_8(instruction
);
10567 uint64 rs4_value
= extract_rs4_4_2_1_0(instruction
);
10569 std::string rs4
= GPR(decode_gpr_gpr4(rs4_value
));
10570 std::string rt4
= GPR(decode_gpr_gpr4(rt4_value
));
10571 std::string rd2
= GPR(decode_gpr_gpr2_reg1(rd2_value
));
10572 std::string rs2
= GPR(decode_gpr_gpr2_reg2(rd2_value
));
10573 /* !!!!!!!!!! - no conversion function */
10575 return img::format("MOVEP %s, %s, %s, %s", rs4
, rt4
, rd2
, rs2
);
10581 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
10584 * 10987654321098765432109876543210
10585 * 001000 00010001101
10590 std::string
NMD::MOVE(uint64 instruction
)
10592 uint64 rt_value
= extract_rt_9_8_7_6_5(instruction
);
10593 uint64 rs_value
= extract_rs_4_3_2_1_0(instruction
);
10595 std::string rt
= GPR(copy(rt_value
));
10596 std::string rs
= GPR(copy(rs_value
));
10598 return img::format("MOVE %s, %s", rt
, rs
);
10603 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
10606 * 10987654321098765432109876543210
10607 * 001000 00010001101
10612 std::string
NMD::MOVN(uint64 instruction
)
10614 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10615 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
10616 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
10618 std::string rd
= GPR(copy(rd_value
));
10619 std::string rs
= GPR(copy(rs_value
));
10620 std::string rt
= GPR(copy(rt_value
));
10622 return img::format("MOVN %s, %s, %s", rd
, rs
, rt
);
10627 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
10630 * 10987654321098765432109876543210
10631 * 001000 00010001101
10636 std::string
NMD::MOVZ(uint64 instruction
)
10638 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10639 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
10640 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
10642 std::string rd
= GPR(copy(rd_value
));
10643 std::string rs
= GPR(copy(rs_value
));
10644 std::string rt
= GPR(copy(rt_value
));
10646 return img::format("MOVZ %s, %s, %s", rd
, rs
, rt
);
10651 * [DSP] MSUB ac, rs, rt - Multiply word and subtract from accumulator
10654 * 10987654321098765432109876543210
10655 * 001000 10101010111111
10660 std::string
NMD::MSUB_DSP_(uint64 instruction
)
10662 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10663 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
10664 uint64 ac_value
= extract_ac_15_14(instruction
);
10666 std::string ac
= AC(copy(ac_value
));
10667 std::string rs
= GPR(copy(rs_value
));
10668 std::string rt
= GPR(copy(rt_value
));
10670 return img::format("MSUB %s, %s, %s", ac
, rs
, rt
);
10675 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
10678 * 10987654321098765432109876543210
10679 * 001000 00010001101
10684 std::string
NMD::MSUBF_D(uint64 instruction
)
10686 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
10687 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
10688 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
10690 std::string fd
= FPR(copy(fd_value
));
10691 std::string fs
= FPR(copy(fs_value
));
10692 std::string ft
= FPR(copy(ft_value
));
10694 return img::format("MSUBF.D %s, %s, %s", fd
, fs
, ft
);
10699 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
10702 * 10987654321098765432109876543210
10703 * 001000 00010001101
10708 std::string
NMD::MSUBF_S(uint64 instruction
)
10710 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
10711 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
10712 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
10714 std::string fd
= FPR(copy(fd_value
));
10715 std::string fs
= FPR(copy(fs_value
));
10716 std::string ft
= FPR(copy(ft_value
));
10718 return img::format("MSUBF.S %s, %s, %s", fd
, fs
, ft
);
10723 * [DSP] MSUBU ac, rs, rt - Multiply word and add to accumulator
10726 * 10987654321098765432109876543210
10727 * 001000 11101010111111
10732 std::string
NMD::MSUBU_DSP_(uint64 instruction
)
10734 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10735 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
10736 uint64 ac_value
= extract_ac_15_14(instruction
);
10738 std::string ac
= AC(copy(ac_value
));
10739 std::string rs
= GPR(copy(rs_value
));
10740 std::string rt
= GPR(copy(rt_value
));
10742 return img::format("MSUBU %s, %s, %s", ac
, rs
, rt
);
10747 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
10750 * 10987654321098765432109876543210
10751 * 001000 00010001101
10756 std::string
NMD::MTC0(uint64 instruction
)
10758 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10759 uint64 c0s_value
= extract_c0s_20_19_18_17_16(instruction
);
10760 uint64 sel_value
= extract_sel_15_14_13_12_11(instruction
);
10762 std::string rt
= GPR(copy(rt_value
));
10763 std::string c0s
= CPR(copy(c0s_value
));
10764 std::string sel
= IMMEDIATE(copy(sel_value
));
10766 return img::format("MTC0 %s, %s, %s", rt
, c0s
, sel
);
10771 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
10774 * 10987654321098765432109876543210
10775 * 001000 00010001101
10780 std::string
NMD::MTC1(uint64 instruction
)
10782 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10783 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
10785 std::string rt
= GPR(copy(rt_value
));
10786 std::string fs
= FPR(copy(fs_value
));
10788 return img::format("MTC1 %s, %s", rt
, fs
);
10793 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
10796 * 10987654321098765432109876543210
10797 * 001000 00010001101
10802 std::string
NMD::MTC2(uint64 instruction
)
10804 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10805 uint64 cs_value
= extract_cs_20_19_18_17_16(instruction
);
10807 std::string rt
= GPR(copy(rt_value
));
10808 std::string cs
= CPR(copy(cs_value
));
10810 return img::format("MTC2 %s, %s", rt
, cs
);
10815 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
10818 * 10987654321098765432109876543210
10819 * 001000 00010001101
10824 std::string
NMD::MTGC0(uint64 instruction
)
10826 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10827 uint64 c0s_value
= extract_c0s_20_19_18_17_16(instruction
);
10828 uint64 sel_value
= extract_sel_15_14_13_12_11(instruction
);
10830 std::string rt
= GPR(copy(rt_value
));
10831 std::string c0s
= CPR(copy(c0s_value
));
10832 std::string sel
= IMMEDIATE(copy(sel_value
));
10834 return img::format("MTGC0 %s, %s, %s", rt
, c0s
, sel
);
10839 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
10842 * 10987654321098765432109876543210
10843 * 001000 00010001101
10848 std::string
NMD::MTHC0(uint64 instruction
)
10850 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10851 uint64 c0s_value
= extract_c0s_20_19_18_17_16(instruction
);
10852 uint64 sel_value
= extract_sel_15_14_13_12_11(instruction
);
10854 std::string rt
= GPR(copy(rt_value
));
10855 std::string c0s
= CPR(copy(c0s_value
));
10856 std::string sel
= IMMEDIATE(copy(sel_value
));
10858 return img::format("MTHC0 %s, %s, %s", rt
, c0s
, sel
);
10863 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
10866 * 10987654321098765432109876543210
10867 * 001000 00010001101
10872 std::string
NMD::MTHC1(uint64 instruction
)
10874 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10875 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
10877 std::string rt
= GPR(copy(rt_value
));
10878 std::string fs
= FPR(copy(fs_value
));
10880 return img::format("MTHC1 %s, %s", rt
, fs
);
10885 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
10888 * 10987654321098765432109876543210
10889 * 001000 00010001101
10894 std::string
NMD::MTHC2(uint64 instruction
)
10896 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10897 uint64 cs_value
= extract_cs_20_19_18_17_16(instruction
);
10899 std::string rt
= GPR(copy(rt_value
));
10900 std::string cs
= CPR(copy(cs_value
));
10902 return img::format("MTHC2 %s, %s", rt
, cs
);
10907 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
10910 * 10987654321098765432109876543210
10911 * 001000 00010001101
10916 std::string
NMD::MTHGC0(uint64 instruction
)
10918 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10919 uint64 c0s_value
= extract_c0s_20_19_18_17_16(instruction
);
10920 uint64 sel_value
= extract_sel_15_14_13_12_11(instruction
);
10922 std::string rt
= GPR(copy(rt_value
));
10923 std::string c0s
= CPR(copy(c0s_value
));
10924 std::string sel
= IMMEDIATE(copy(sel_value
));
10926 return img::format("MTHGC0 %s, %s, %s", rt
, c0s
, sel
);
10931 * [DSP] MTHI rs, ac - Move to HI register
10934 * 10987654321098765432109876543210
10935 * 001000xxxxx 10000001111111
10939 std::string
NMD::MTHI_DSP_(uint64 instruction
)
10941 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
10942 uint64 ac_value
= extract_ac_15_14(instruction
);
10944 std::string rs
= GPR(copy(rs_value
));
10945 std::string ac
= AC(copy(ac_value
));
10947 return img::format("MTHI %s, %s", rs
, ac
);
10952 * [DSP] MTHLIP rs, ac - Copy LO to HI and a GPR to LO and increment pos by 32
10955 * 10987654321098765432109876543210
10956 * 001000xxxxx 00001001111111
10960 std::string
NMD::MTHLIP(uint64 instruction
)
10962 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
10963 uint64 ac_value
= extract_ac_15_14(instruction
);
10965 std::string rs
= GPR(copy(rs_value
));
10966 std::string ac
= AC(copy(ac_value
));
10968 return img::format("MTHLIP %s, %s", rs
, ac
);
10973 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
10976 * 10987654321098765432109876543210
10977 * 001000 00010001101
10982 std::string
NMD::MTHTR(uint64 instruction
)
10984 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
10985 uint64 c0s_value
= extract_c0s_20_19_18_17_16(instruction
);
10986 uint64 sel_value
= extract_sel_15_14_13_12_11(instruction
);
10987 uint64 u_value
= extract_u_10(instruction
);
10989 std::string rt
= GPR(copy(rt_value
));
10990 std::string c0s
= IMMEDIATE(copy(c0s_value
));
10991 std::string u
= IMMEDIATE(copy(u_value
));
10992 std::string sel
= IMMEDIATE(copy(sel_value
));
10994 return img::format("MTHTR %s, %s, %s, %s", rt
, c0s
, u
, sel
);
10999 * [DSP] MTLO rs, ac - Move to LO register
11002 * 10987654321098765432109876543210
11003 * 001000xxxxx 11000001111111
11007 std::string
NMD::MTLO_DSP_(uint64 instruction
)
11009 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11010 uint64 ac_value
= extract_ac_15_14(instruction
);
11012 std::string rs
= GPR(copy(rs_value
));
11013 std::string ac
= AC(copy(ac_value
));
11015 return img::format("MTLO %s, %s", rs
, ac
);
11020 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
11023 * 10987654321098765432109876543210
11024 * 001000 00010001101
11029 std::string
NMD::MTTR(uint64 instruction
)
11031 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11032 uint64 c0s_value
= extract_c0s_20_19_18_17_16(instruction
);
11033 uint64 sel_value
= extract_sel_15_14_13_12_11(instruction
);
11034 uint64 u_value
= extract_u_10(instruction
);
11036 std::string rt
= GPR(copy(rt_value
));
11037 std::string c0s
= IMMEDIATE(copy(c0s_value
));
11038 std::string u
= IMMEDIATE(copy(u_value
));
11039 std::string sel
= IMMEDIATE(copy(sel_value
));
11041 return img::format("MTTR %s, %s, %s, %s", rt
, c0s
, u
, sel
);
11046 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
11049 * 10987654321098765432109876543210
11050 * 001000 00010001101
11055 std::string
NMD::MUH(uint64 instruction
)
11057 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11058 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11059 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11061 std::string rd
= GPR(copy(rd_value
));
11062 std::string rs
= GPR(copy(rs_value
));
11063 std::string rt
= GPR(copy(rt_value
));
11065 return img::format("MUH %s, %s, %s", rd
, rs
, rt
);
11070 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
11073 * 10987654321098765432109876543210
11074 * 001000 00010001101
11079 std::string
NMD::MUHU(uint64 instruction
)
11081 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11082 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11083 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11085 std::string rd
= GPR(copy(rd_value
));
11086 std::string rs
= GPR(copy(rs_value
));
11087 std::string rt
= GPR(copy(rt_value
));
11089 return img::format("MUHU %s, %s, %s", rd
, rs
, rt
);
11094 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
11097 * 10987654321098765432109876543210
11098 * 001000 00010001101
11103 std::string
NMD::MUL_32_(uint64 instruction
)
11105 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11106 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11107 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11109 std::string rd
= GPR(copy(rd_value
));
11110 std::string rs
= GPR(copy(rs_value
));
11111 std::string rt
= GPR(copy(rt_value
));
11113 return img::format("MUL %s, %s, %s", rd
, rs
, rt
);
11118 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
11121 * 10987654321098765432109876543210
11122 * 001000 00010001101
11127 std::string
NMD::MUL_4X4_(uint64 instruction
)
11129 uint64 rt4_value
= extract_rt4_9_7_6_5(instruction
);
11130 uint64 rs4_value
= extract_rs4_4_2_1_0(instruction
);
11132 std::string rs4
= GPR(decode_gpr_gpr4(rs4_value
));
11133 std::string rt4
= GPR(decode_gpr_gpr4(rt4_value
));
11135 return img::format("MUL %s, %s", rs4
, rt4
);
11140 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
11143 * 10987654321098765432109876543210
11144 * 001000 00010001101
11149 std::string
NMD::MUL_D(uint64 instruction
)
11151 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
11152 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
11153 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
11155 std::string fd
= FPR(copy(fd_value
));
11156 std::string fs
= FPR(copy(fs_value
));
11157 std::string ft
= FPR(copy(ft_value
));
11159 return img::format("MUL.D %s, %s, %s", fd
, fs
, ft
);
11164 * [DSP] MUL.PH rd, rs, rt - Multiply vector integer half words to same size
11168 * 10987654321098765432109876543210
11169 * 001000 00000101101
11174 std::string
NMD::MUL_PH(uint64 instruction
)
11176 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11177 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11178 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11180 std::string rd
= GPR(copy(rd_value
));
11181 std::string rs
= GPR(copy(rs_value
));
11182 std::string rt
= GPR(copy(rt_value
));
11184 return img::format("MUL.PH %s, %s, %s", rd
, rs
, rt
);
11189 * [DSP] MUL_S.PH rd, rs, rt - Multiply vector integer half words to same size
11190 * products (saturated)
11193 * 10987654321098765432109876543210
11194 * 001000 10000101101
11199 std::string
NMD::MUL_S_PH(uint64 instruction
)
11201 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11202 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11203 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11205 std::string rd
= GPR(copy(rd_value
));
11206 std::string rs
= GPR(copy(rs_value
));
11207 std::string rt
= GPR(copy(rt_value
));
11209 return img::format("MUL_S.PH %s, %s, %s", rd
, rs
, rt
);
11214 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
11217 * 10987654321098765432109876543210
11218 * 001000 00010001101
11223 std::string
NMD::MUL_S(uint64 instruction
)
11225 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
11226 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
11227 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
11229 std::string fd
= FPR(copy(fd_value
));
11230 std::string fs
= FPR(copy(fs_value
));
11231 std::string ft
= FPR(copy(ft_value
));
11233 return img::format("MUL.S %s, %s, %s", fd
, fs
, ft
);
11238 * [DSP] MULEQ_S.W.PHL rd, rs, rt - Multiply vector fractional left halfwords
11239 * to expanded width products
11242 * 10987654321098765432109876543210
11243 * 001000 x0000100101
11248 std::string
NMD::MULEQ_S_W_PHL(uint64 instruction
)
11250 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11251 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11252 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11254 std::string rd
= GPR(copy(rd_value
));
11255 std::string rs
= GPR(copy(rs_value
));
11256 std::string rt
= GPR(copy(rt_value
));
11258 return img::format("MULEQ_S.W.PHL %s, %s, %s", rd
, rs
, rt
);
11263 * [DSP] MULEQ_S.W.PHR rd, rs, rt - Multiply vector fractional right halfwords
11264 * to expanded width products
11267 * 10987654321098765432109876543210
11268 * 001000 x0001100101
11273 std::string
NMD::MULEQ_S_W_PHR(uint64 instruction
)
11275 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11276 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11277 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11279 std::string rd
= GPR(copy(rd_value
));
11280 std::string rs
= GPR(copy(rs_value
));
11281 std::string rt
= GPR(copy(rt_value
));
11283 return img::format("MULEQ_S.W.PHR %s, %s, %s", rd
, rs
, rt
);
11288 * [DSP] MULEU_S.PH.QBL rd, rs, rt - Multiply vector fractional left bytes
11289 * by halfwords to halfword products
11292 * 10987654321098765432109876543210
11293 * 001000 x0010010101
11298 std::string
NMD::MULEU_S_PH_QBL(uint64 instruction
)
11300 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11301 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11302 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11304 std::string rd
= GPR(copy(rd_value
));
11305 std::string rs
= GPR(copy(rs_value
));
11306 std::string rt
= GPR(copy(rt_value
));
11308 return img::format("MULEU_S.PH.QBL %s, %s, %s", rd
, rs
, rt
);
11313 * [DSP] MULEU_S.PH.QBR rd, rs, rt - Multiply vector fractional right bytes
11314 * by halfwords to halfword products
11317 * 10987654321098765432109876543210
11318 * 001000 x0011010101
11323 std::string
NMD::MULEU_S_PH_QBR(uint64 instruction
)
11325 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11326 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11327 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11329 std::string rd
= GPR(copy(rd_value
));
11330 std::string rs
= GPR(copy(rs_value
));
11331 std::string rt
= GPR(copy(rt_value
));
11333 return img::format("MULEU_S.PH.QBR %s, %s, %s", rd
, rs
, rt
);
11338 * [DSP] MULQ_RS.PH rd, rs, rt - Multiply vector fractional halfwords
11339 * to fractional halfword products
11342 * 10987654321098765432109876543210
11343 * 001000 x0100010101
11348 std::string
NMD::MULQ_RS_PH(uint64 instruction
)
11350 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11351 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11352 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11354 std::string rd
= GPR(copy(rd_value
));
11355 std::string rs
= GPR(copy(rs_value
));
11356 std::string rt
= GPR(copy(rt_value
));
11358 return img::format("MULQ_RS.PH %s, %s, %s", rd
, rs
, rt
);
11363 * [DSP] MULQ_RS.W rd, rs, rt - Multiply fractional words to same size
11364 * product with saturation and rounding
11367 * 10987654321098765432109876543210
11368 * 001000 x0110010101
11373 std::string
NMD::MULQ_RS_W(uint64 instruction
)
11375 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11376 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11377 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11379 std::string rd
= GPR(copy(rd_value
));
11380 std::string rs
= GPR(copy(rs_value
));
11381 std::string rt
= GPR(copy(rt_value
));
11383 return img::format("MULQ_RS.W %s, %s, %s", rd
, rs
, rt
);
11388 * [DSP] MULQ_S.PH rd, rs, rt - Multiply fractional halfwords to same size
11392 * 10987654321098765432109876543210
11393 * 001000 x0101010101
11398 std::string
NMD::MULQ_S_PH(uint64 instruction
)
11400 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11401 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11402 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11404 std::string rd
= GPR(copy(rd_value
));
11405 std::string rs
= GPR(copy(rs_value
));
11406 std::string rt
= GPR(copy(rt_value
));
11408 return img::format("MULQ_S.PH %s, %s, %s", rd
, rs
, rt
);
11413 * [DSP] MULQ_S.W rd, rs, rt - Multiply fractional words to same size product
11417 * 10987654321098765432109876543210
11418 * 001000 x0111010101
11423 std::string
NMD::MULQ_S_W(uint64 instruction
)
11425 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11426 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11427 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11429 std::string rd
= GPR(copy(rd_value
));
11430 std::string rs
= GPR(copy(rs_value
));
11431 std::string rt
= GPR(copy(rt_value
));
11433 return img::format("MULQ_S.W %s, %s, %s", rd
, rs
, rt
);
11438 * [DSP] MULSA.W.PH ac, rs, rt - Multiply and subtract vector integer halfword
11439 * elements and accumulate
11442 * 10987654321098765432109876543210
11443 * 001000 10110010111111
11448 std::string
NMD::MULSA_W_PH(uint64 instruction
)
11450 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11451 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11452 uint64 ac_value
= extract_ac_15_14(instruction
);
11454 std::string ac
= AC(copy(ac_value
));
11455 std::string rs
= GPR(copy(rs_value
));
11456 std::string rt
= GPR(copy(rt_value
));
11458 return img::format("MULSA.W.PH %s, %s, %s", ac
, rs
, rt
);
11463 * [DSP] MULSAQ_S.W.PH ac, rs, rt - Multiply and subtract vector fractional
11464 * halfwords and accumulate
11467 * 10987654321098765432109876543210
11468 * 001000 11110010111111
11473 std::string
NMD::MULSAQ_S_W_PH(uint64 instruction
)
11475 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11476 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11477 uint64 ac_value
= extract_ac_15_14(instruction
);
11479 std::string ac
= AC(copy(ac_value
));
11480 std::string rs
= GPR(copy(rs_value
));
11481 std::string rt
= GPR(copy(rt_value
));
11483 return img::format("MULSAQ_S.W.PH %s, %s, %s", ac
, rs
, rt
);
11488 * [DSP] MULT ac, rs, rt - Multiply word
11491 * 10987654321098765432109876543210
11492 * 001000 00110010111111
11497 std::string
NMD::MULT_DSP_(uint64 instruction
)
11499 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11500 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11501 uint64 ac_value
= extract_ac_15_14(instruction
);
11503 std::string ac
= AC(copy(ac_value
));
11504 std::string rs
= GPR(copy(rs_value
));
11505 std::string rt
= GPR(copy(rt_value
));
11507 return img::format("MULT %s, %s, %s", ac
, rs
, rt
);
11512 * [DSP] MULTU ac, rs, rt - Multiply unsigned word
11515 * 10987654321098765432109876543210
11516 * 001000 01110010111111
11521 std::string
NMD::MULTU_DSP_(uint64 instruction
)
11523 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11524 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11525 uint64 ac_value
= extract_ac_15_14(instruction
);
11527 std::string ac
= AC(copy(ac_value
));
11528 std::string rs
= GPR(copy(rs_value
));
11529 std::string rt
= GPR(copy(rt_value
));
11531 return img::format("MULTU %s, %s, %s", ac
, rs
, rt
);
11536 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
11539 * 10987654321098765432109876543210
11540 * 001000 00010001101
11545 std::string
NMD::MULU(uint64 instruction
)
11547 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11548 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11549 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11551 std::string rd
= GPR(copy(rd_value
));
11552 std::string rs
= GPR(copy(rs_value
));
11553 std::string rt
= GPR(copy(rt_value
));
11555 return img::format("MULU %s, %s, %s", rd
, rs
, rt
);
11560 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
11563 * 10987654321098765432109876543210
11564 * 001000 00010001101
11569 std::string
NMD::NEG_D(uint64 instruction
)
11571 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
11572 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
11574 std::string ft
= FPR(copy(ft_value
));
11575 std::string fs
= FPR(copy(fs_value
));
11577 return img::format("NEG.D %s, %s", ft
, fs
);
11582 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
11585 * 10987654321098765432109876543210
11586 * 001000 00010001101
11591 std::string
NMD::NEG_S(uint64 instruction
)
11593 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
11594 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
11596 std::string ft
= FPR(copy(ft_value
));
11597 std::string fs
= FPR(copy(fs_value
));
11599 return img::format("NEG.S %s, %s", ft
, fs
);
11604 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
11607 * 10987654321098765432109876543210
11608 * 001000 00010001101
11613 std::string
NMD::NOP_16_(uint64 instruction
)
11622 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
11625 * 10987654321098765432109876543210
11626 * 001000 00010001101
11631 std::string
NMD::NOP_32_(uint64 instruction
)
11640 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
11643 * 10987654321098765432109876543210
11644 * 001000 00010001101
11649 std::string
NMD::NOR(uint64 instruction
)
11651 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11652 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11653 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11655 std::string rd
= GPR(copy(rd_value
));
11656 std::string rs
= GPR(copy(rs_value
));
11657 std::string rt
= GPR(copy(rt_value
));
11659 return img::format("NOR %s, %s, %s", rd
, rs
, rt
);
11664 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
11667 * 10987654321098765432109876543210
11668 * 001000 00010001101
11673 std::string
NMD::NOT_16_(uint64 instruction
)
11675 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
11676 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
11678 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
11679 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
11681 return img::format("NOT %s, %s", rt3
, rs3
);
11686 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
11689 * 10987654321098765432109876543210
11690 * 001000 00010001101
11695 std::string
NMD::OR_16_(uint64 instruction
)
11697 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
11698 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
11700 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
11701 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
11703 return img::format("OR %s, %s", rs3
, rt3
);
11708 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
11711 * 10987654321098765432109876543210
11712 * 001000 00010001101
11717 std::string
NMD::OR_32_(uint64 instruction
)
11719 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11720 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11721 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11723 std::string rd
= GPR(copy(rd_value
));
11724 std::string rs
= GPR(copy(rs_value
));
11725 std::string rt
= GPR(copy(rt_value
));
11727 return img::format("OR %s, %s, %s", rd
, rs
, rt
);
11732 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
11735 * 10987654321098765432109876543210
11736 * 001000 00010001101
11741 std::string
NMD::ORI(uint64 instruction
)
11743 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11744 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11745 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
11747 std::string rt
= GPR(copy(rt_value
));
11748 std::string rs
= GPR(copy(rs_value
));
11749 std::string u
= IMMEDIATE(copy(u_value
));
11751 return img::format("ORI %s, %s, %s", rt
, rs
, u
);
11756 * [DSP] PACKRL.PH rd, rs, rt - Pack a word using the right halfword from one
11757 * source register and left halfword from another source register
11760 * 10987654321098765432109876543210
11761 * 001000 00010001101
11766 std::string
NMD::PACKRL_PH(uint64 instruction
)
11768 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11769 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11770 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11772 std::string rd
= GPR(copy(rd_value
));
11773 std::string rs
= GPR(copy(rs_value
));
11774 std::string rt
= GPR(copy(rt_value
));
11776 return img::format("PACKRL.PH %s, %s, %s", rd
, rs
, rt
);
11781 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
11784 * 10987654321098765432109876543210
11785 * 001000 00010001101
11790 std::string
NMD::PAUSE(uint64 instruction
)
11799 * [DSP] PICK.PH rd, rs, rt - Pick a vector of halfwords based on condition
11803 * 10987654321098765432109876543210
11804 * 001000 00010001101
11809 std::string
NMD::PICK_PH(uint64 instruction
)
11811 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11812 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11813 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11815 std::string rd
= GPR(copy(rd_value
));
11816 std::string rs
= GPR(copy(rs_value
));
11817 std::string rt
= GPR(copy(rt_value
));
11819 return img::format("PICK.PH %s, %s, %s", rd
, rs
, rt
);
11824 * [DSP] PICK.QB rd, rs, rt - Pick a vector of byte values based on condition
11828 * 10987654321098765432109876543210
11829 * 001000 00010001101
11834 std::string
NMD::PICK_QB(uint64 instruction
)
11836 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11837 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11838 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
11840 std::string rd
= GPR(copy(rd_value
));
11841 std::string rs
= GPR(copy(rs_value
));
11842 std::string rt
= GPR(copy(rt_value
));
11844 return img::format("PICK.QB %s, %s, %s", rd
, rs
, rt
);
11849 * [DSP] PRECEQ.W.PHL rt, rs - Expand the precision of the left-most element
11850 * of a paired halfword
11853 * 10987654321098765432109876543210
11854 * 001000 00010001101
11859 std::string
NMD::PRECEQ_W_PHL(uint64 instruction
)
11861 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11862 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11864 std::string rt
= GPR(copy(rt_value
));
11865 std::string rs
= GPR(copy(rs_value
));
11867 return img::format("PRECEQ.W.PHL %s, %s", rt
, rs
);
11872 * [DSP] PRECEQ.W.PHR rt, rs - Expand the precision of the right-most element
11873 * of a paired halfword
11876 * 10987654321098765432109876543210
11877 * 001000 00010001101
11882 std::string
NMD::PRECEQ_W_PHR(uint64 instruction
)
11884 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11885 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11887 std::string rt
= GPR(copy(rt_value
));
11888 std::string rs
= GPR(copy(rs_value
));
11890 return img::format("PRECEQ.W.PHR %s, %s", rt
, rs
);
11895 * [DSP] PRECEQU.PH.QBLA rt, rs - Expand the precision of the two
11896 * left-alternate elements of a quad byte vector
11899 * 10987654321098765432109876543210
11900 * 001000 00010001101
11905 std::string
NMD::PRECEQU_PH_QBLA(uint64 instruction
)
11907 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11908 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11910 std::string rt
= GPR(copy(rt_value
));
11911 std::string rs
= GPR(copy(rs_value
));
11913 return img::format("PRECEQU.PH.QBLA %s, %s", rt
, rs
);
11918 * [DSP] PRECEQU.PH.QBL rt, rs - Expand the precision of the two left-most
11919 * elements of a quad byte vector
11922 * 10987654321098765432109876543210
11923 * 001000 00010001101
11928 std::string
NMD::PRECEQU_PH_QBL(uint64 instruction
)
11930 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11931 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11933 std::string rt
= GPR(copy(rt_value
));
11934 std::string rs
= GPR(copy(rs_value
));
11936 return img::format("PRECEQU.PH.QBL %s, %s", rt
, rs
);
11941 * [DSP] PRECEQU.PH.QBRA rt, rs - Expand the precision of the two
11942 * right-alternate elements of a quad byte vector
11945 * 10987654321098765432109876543210
11946 * 001000 00010001101
11951 std::string
NMD::PRECEQU_PH_QBRA(uint64 instruction
)
11953 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11954 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11956 std::string rt
= GPR(copy(rt_value
));
11957 std::string rs
= GPR(copy(rs_value
));
11959 return img::format("PRECEQU.PH.QBRA %s, %s", rt
, rs
);
11964 * [DSP] PRECEQU.PH.QBR rt, rs - Expand the precision of the two right-most
11965 * elements of a quad byte vector
11968 * 10987654321098765432109876543210
11969 * 001000 00010001101
11974 std::string
NMD::PRECEQU_PH_QBR(uint64 instruction
)
11976 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
11977 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
11979 std::string rt
= GPR(copy(rt_value
));
11980 std::string rs
= GPR(copy(rs_value
));
11982 return img::format("PRECEQU.PH.QBR %s, %s", rt
, rs
);
11987 * [DSP] PRECEU.PH.QBLA rt, rs - Expand the precision of the two
11988 * left-alternate elements of a quad byte vector to four unsigned
11992 * 10987654321098765432109876543210
11993 * 001000 00010001101
11998 std::string
NMD::PRECEU_PH_QBLA(uint64 instruction
)
12000 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12001 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12003 std::string rt
= GPR(copy(rt_value
));
12004 std::string rs
= GPR(copy(rs_value
));
12006 return img::format("PRECEU.PH.QBLA %s, %s", rt
, rs
);
12011 * [DSP] PRECEU.PH.QBL rt, rs - Expand the precision of the two left-most
12012 * elements of a quad byte vector to form unsigned halfwords
12015 * 10987654321098765432109876543210
12016 * 001000 00010001101
12021 std::string
NMD::PRECEU_PH_QBL(uint64 instruction
)
12023 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12024 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12026 std::string rt
= GPR(copy(rt_value
));
12027 std::string rs
= GPR(copy(rs_value
));
12029 return img::format("PRECEU.PH.QBL %s, %s", rt
, rs
);
12034 * [DSP] PRECEU.PH.QBRA rt, rs - Expand the precision of the two
12035 * right-alternate elements of a quad byte vector to form four
12036 * unsigned halfwords
12039 * 10987654321098765432109876543210
12040 * 001000 00010001101
12045 std::string
NMD::PRECEU_PH_QBRA(uint64 instruction
)
12047 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12048 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12050 std::string rt
= GPR(copy(rt_value
));
12051 std::string rs
= GPR(copy(rs_value
));
12053 return img::format("PRECEU.PH.QBRA %s, %s", rt
, rs
);
12058 * [DSP] PRECEU.PH.QBR rt, rs - Expand the precision of the two right-most
12059 * elements of a quad byte vector to form unsigned halfwords
12062 * 10987654321098765432109876543210
12063 * 001000 00010001101
12068 std::string
NMD::PRECEU_PH_QBR(uint64 instruction
)
12070 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12071 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12073 std::string rt
= GPR(copy(rt_value
));
12074 std::string rs
= GPR(copy(rs_value
));
12076 return img::format("PRECEU.PH.QBR %s, %s", rt
, rs
);
12081 * [DSP] PRECR.QB.PH rd, rs, rt - Reduce the precision of four integer
12082 * halfwords to four bytes
12085 * 10987654321098765432109876543210
12086 * 001000 x0001101101
12091 std::string
NMD::PRECR_QB_PH(uint64 instruction
)
12093 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12094 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12095 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
12097 std::string rd
= GPR(copy(rd_value
));
12098 std::string rs
= GPR(copy(rs_value
));
12099 std::string rt
= GPR(copy(rt_value
));
12101 return img::format("PRECR.QB.PH %s, %s, %s", rd
, rs
, rt
);
12106 * [DSP] PRECR_SRA.PH.W rt, rs, sa - Reduce the precision of two integer
12107 * words to halfwords after a right shift
12110 * 10987654321098765432109876543210
12111 * 001000 x1110000101
12116 std::string
NMD::PRECR_SRA_PH_W(uint64 instruction
)
12118 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12119 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12120 uint64 sa_value
= extract_sa_15_14_13_12_11(instruction
);
12122 std::string rt
= GPR(copy(rt_value
));
12123 std::string rs
= GPR(copy(rs_value
));
12124 std::string sa
= IMMEDIATE(copy(sa_value
));
12126 return img::format("PRECR_SRA.PH.W %s, %s, %s", rt
, rs
, sa
);
12131 * [DSP] PRECR_SRA_R.PH.W rt, rs, sa - Reduce the precision of two integer
12132 * words to halfwords after a right shift with rounding
12135 * 10987654321098765432109876543210
12136 * 001000 x1110000101
12141 std::string
NMD::PRECR_SRA_R_PH_W(uint64 instruction
)
12143 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12144 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12145 uint64 sa_value
= extract_sa_15_14_13_12_11(instruction
);
12147 std::string rt
= GPR(copy(rt_value
));
12148 std::string rs
= GPR(copy(rs_value
));
12149 std::string sa
= IMMEDIATE(copy(sa_value
));
12151 return img::format("PRECR_SRA_R.PH.W %s, %s, %s", rt
, rs
, sa
);
12156 * [DSP] PRECRQ.PH.W rd, rs, rt - Reduce the precision of fractional
12157 * words to fractional halfwords
12160 * 10987654321098765432109876543210
12161 * 001000 x1110000101
12166 std::string
NMD::PRECRQ_PH_W(uint64 instruction
)
12168 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12169 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12170 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
12172 std::string rd
= GPR(copy(rd_value
));
12173 std::string rs
= GPR(copy(rs_value
));
12174 std::string rt
= GPR(copy(rt_value
));
12176 return img::format("PRECRQ.PH.W %s, %s, %s", rd
, rs
, rt
);
12181 * [DSP] PRECRQ.QB.PH rd, rs, rt - Reduce the precision of four fractional
12182 * halfwords to four bytes
12185 * 10987654321098765432109876543210
12186 * 001000 x0010101101
12191 std::string
NMD::PRECRQ_QB_PH(uint64 instruction
)
12193 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12194 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12195 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
12197 std::string rd
= GPR(copy(rd_value
));
12198 std::string rs
= GPR(copy(rs_value
));
12199 std::string rt
= GPR(copy(rt_value
));
12201 return img::format("PRECRQ.QB.PH %s, %s, %s", rd
, rs
, rt
);
12206 * [DSP] PRECRQ_RS.PH.W rd, rs, rt - Reduce the precision of fractional
12207 * words to halfwords with rounding and saturation
12210 * 10987654321098765432109876543210
12211 * 001000 x1110000101
12216 std::string
NMD::PRECRQ_RS_PH_W(uint64 instruction
)
12218 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12219 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12220 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
12222 std::string rd
= GPR(copy(rd_value
));
12223 std::string rs
= GPR(copy(rs_value
));
12224 std::string rt
= GPR(copy(rt_value
));
12226 return img::format("PRECRQ_RS.PH.W %s, %s, %s", rd
, rs
, rt
);
12231 * [DSP] PRECRQU_S.QB.PH rd, rs, rt - Reduce the precision of fractional
12232 * halfwords to unsigned bytes with saturation
12235 * 10987654321098765432109876543210
12236 * 001000 x1110000101
12241 std::string
NMD::PRECRQU_S_QB_PH(uint64 instruction
)
12243 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12244 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12245 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
12247 std::string rd
= GPR(copy(rd_value
));
12248 std::string rs
= GPR(copy(rs_value
));
12249 std::string rt
= GPR(copy(rt_value
));
12251 return img::format("PRECRQU_S.QB.PH %s, %s, %s", rd
, rs
, rt
);
12259 * 10987654321098765432109876543210
12260 * 001000 x1110000101
12265 std::string
NMD::PREF_S9_(uint64 instruction
)
12267 uint64 hint_value
= extract_hint_25_24_23_22_21(instruction
);
12268 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12269 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
12271 std::string hint
= IMMEDIATE(copy(hint_value
));
12272 std::string s
= IMMEDIATE(copy(s_value
));
12273 std::string rs
= GPR(copy(rs_value
));
12275 return img::format("PREF %s, %s(%s)", hint
, s
, rs
);
12283 * 10987654321098765432109876543210
12284 * 001000 x1110000101
12289 std::string
NMD::PREF_U12_(uint64 instruction
)
12291 uint64 hint_value
= extract_hint_25_24_23_22_21(instruction
);
12292 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12293 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
12295 std::string hint
= IMMEDIATE(copy(hint_value
));
12296 std::string u
= IMMEDIATE(copy(u_value
));
12297 std::string rs
= GPR(copy(rs_value
));
12299 return img::format("PREF %s, %s(%s)", hint
, u
, rs
);
12307 * 10987654321098765432109876543210
12308 * 001000 x1110000101
12313 std::string
NMD::PREFE(uint64 instruction
)
12315 uint64 hint_value
= extract_hint_25_24_23_22_21(instruction
);
12316 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12317 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
12319 std::string hint
= IMMEDIATE(copy(hint_value
));
12320 std::string s
= IMMEDIATE(copy(s_value
));
12321 std::string rs
= GPR(copy(rs_value
));
12323 return img::format("PREFE %s, %s(%s)", hint
, s
, rs
);
12328 * [DSP] PREPEND rt, rs, sa - Right shift and prepend bits to the MSB
12331 * 10987654321098765432109876543210
12332 * 001000 x1110000101
12337 std::string
NMD::PREPEND(uint64 instruction
)
12339 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12340 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12341 uint64 sa_value
= extract_sa_15_14_13_12_11(instruction
);
12343 std::string rt
= GPR(copy(rt_value
));
12344 std::string rs
= GPR(copy(rs_value
));
12345 std::string sa
= IMMEDIATE(copy(sa_value
));
12347 return img::format("PREPEND %s, %s, %s", rt
, rs
, sa
);
12352 * [DSP] RADDU.W.QB rt, rs - Unsigned reduction add of vector quad bytes
12355 * 10987654321098765432109876543210
12356 * 001000 1111000100111111
12360 std::string
NMD::RADDU_W_QB(uint64 instruction
)
12362 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12363 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12365 std::string rt
= GPR(copy(rt_value
));
12366 std::string rs
= GPR(copy(rs_value
));
12368 return img::format("RADDU.W.QB %s, %s", rt
, rs
);
12373 * [DSP] RDDSP rt, mask - Read DSPControl register fields to a GPR
12376 * 10987654321098765432109876543210
12377 * 001000 00011001111111
12381 std::string
NMD::RDDSP(uint64 instruction
)
12383 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12384 uint64 mask_value
= extract_mask_20_19_18_17_16_15_14(instruction
);
12386 std::string rt
= GPR(copy(rt_value
));
12387 std::string mask
= IMMEDIATE(copy(mask_value
));
12389 return img::format("RDDSP %s, %s", rt
, mask
);
12397 * 10987654321098765432109876543210
12398 * 001000 x1110000101
12403 std::string
NMD::RDHWR(uint64 instruction
)
12405 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12406 uint64 hs_value
= extract_hs_20_19_18_17_16(instruction
);
12407 uint64 sel_value
= extract_sel_13_12_11(instruction
);
12409 std::string rt
= GPR(copy(rt_value
));
12410 std::string hs
= CPR(copy(hs_value
));
12411 std::string sel
= IMMEDIATE(copy(sel_value
));
12413 return img::format("RDHWR %s, %s, %s", rt
, hs
, sel
);
12421 * 10987654321098765432109876543210
12422 * 001000 x1110000101
12427 std::string
NMD::RDPGPR(uint64 instruction
)
12429 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12430 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12432 std::string rt
= GPR(copy(rt_value
));
12433 std::string rs
= GPR(copy(rs_value
));
12435 return img::format("RDPGPR %s, %s", rt
, rs
);
12443 * 10987654321098765432109876543210
12444 * 001000 x1110000101
12449 std::string
NMD::RECIP_D(uint64 instruction
)
12451 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
12452 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
12454 std::string ft
= FPR(copy(ft_value
));
12455 std::string fs
= FPR(copy(fs_value
));
12457 return img::format("RECIP.D %s, %s", ft
, fs
);
12465 * 10987654321098765432109876543210
12466 * 001000 x1110000101
12471 std::string
NMD::RECIP_S(uint64 instruction
)
12473 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
12474 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
12476 std::string ft
= FPR(copy(ft_value
));
12477 std::string fs
= FPR(copy(fs_value
));
12479 return img::format("RECIP.S %s, %s", ft
, fs
);
12484 * [DSP] REPL.PH rd, s - Replicate immediate integer into all vector element
12488 * 10987654321098765432109876543210
12489 * 001000 x0000111101
12493 std::string
NMD::REPL_PH(uint64 instruction
)
12495 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12496 int64 s_value
= extract_s__se9_20_19_18_17_16_15_14_13_12_11(instruction
);
12498 std::string rt
= GPR(copy(rt_value
));
12499 std::string s
= IMMEDIATE(copy(s_value
));
12501 return img::format("REPL.PH %s, %s", rt
, s
);
12506 * [DSP] REPL.QB rd, u - Replicate immediate integer into all vector element
12510 * 10987654321098765432109876543210
12511 * 001000 x010111111111
12515 std::string
NMD::REPL_QB(uint64 instruction
)
12517 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12518 uint64 u_value
= extract_u_20_19_18_17_16_15_14_13(instruction
);
12520 std::string rt
= GPR(copy(rt_value
));
12521 std::string u
= IMMEDIATE(copy(u_value
));
12523 return img::format("REPL.QB %s, %s", rt
, u
);
12528 * [DSP] REPLV.PH rt, rs - Replicate a halfword into all vector element
12532 * 10987654321098765432109876543210
12533 * 001000 0000001100111111
12537 std::string
NMD::REPLV_PH(uint64 instruction
)
12539 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12540 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12542 std::string rt
= GPR(copy(rt_value
));
12543 std::string rs
= GPR(copy(rs_value
));
12545 return img::format("REPLV.PH %s, %s", rt
, rs
);
12550 * [DSP] REPLV.QB rt, rs - Replicate byte into all vector element positions
12553 * 10987654321098765432109876543210
12554 * 001000 0001001100111111
12558 std::string
NMD::REPLV_QB(uint64 instruction
)
12560 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12561 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12563 std::string rt
= GPR(copy(rt_value
));
12564 std::string rs
= GPR(copy(rs_value
));
12566 return img::format("REPLV.QB %s, %s", rt
, rs
);
12574 * 10987654321098765432109876543210
12575 * 001000 x1110000101
12580 std::string
NMD::RESTORE_32_(uint64 instruction
)
12582 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12583 uint64 count_value
= extract_count_19_18_17_16(instruction
);
12584 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3__s3(instruction
);
12585 uint64 gp_value
= extract_gp_2(instruction
);
12587 std::string u
= IMMEDIATE(copy(u_value
));
12588 return img::format("RESTORE %s%s", u
,
12589 save_restore_list(rt_value
, count_value
, gp_value
));
12597 * 10987654321098765432109876543210
12598 * 001000 x1110000101
12603 std::string
NMD::RESTORE_JRC_16_(uint64 instruction
)
12605 uint64 rt1_value
= extract_rtl_11(instruction
);
12606 uint64 u_value
= extract_u_7_6_5_4__s4(instruction
);
12607 uint64 count_value
= extract_count_3_2_1_0(instruction
);
12609 std::string u
= IMMEDIATE(copy(u_value
));
12610 return img::format("RESTORE.JRC %s%s", u
,
12611 save_restore_list(encode_rt1_from_rt(rt1_value
), count_value
, 0));
12619 * 10987654321098765432109876543210
12620 * 001000 x1110000101
12625 std::string
NMD::RESTORE_JRC_32_(uint64 instruction
)
12627 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12628 uint64 count_value
= extract_count_19_18_17_16(instruction
);
12629 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3__s3(instruction
);
12630 uint64 gp_value
= extract_gp_2(instruction
);
12632 std::string u
= IMMEDIATE(copy(u_value
));
12633 return img::format("RESTORE.JRC %s%s", u
,
12634 save_restore_list(rt_value
, count_value
, gp_value
));
12642 * 10987654321098765432109876543210
12643 * 001000 x1110000101
12648 std::string
NMD::RESTOREF(uint64 instruction
)
12650 uint64 count_value
= extract_count_19_18_17_16(instruction
);
12651 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3__s3(instruction
);
12653 std::string u
= IMMEDIATE(copy(u_value
));
12654 std::string count
= IMMEDIATE(copy(count_value
));
12656 return img::format("RESTOREF %s, %s", u
, count
);
12664 * 10987654321098765432109876543210
12665 * 001000 x1110000101
12670 std::string
NMD::RINT_D(uint64 instruction
)
12672 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
12673 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
12675 std::string ft
= FPR(copy(ft_value
));
12676 std::string fs
= FPR(copy(fs_value
));
12678 return img::format("RINT.D %s, %s", ft
, fs
);
12686 * 10987654321098765432109876543210
12687 * 001000 x1110000101
12692 std::string
NMD::RINT_S(uint64 instruction
)
12694 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
12695 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
12697 std::string ft
= FPR(copy(ft_value
));
12698 std::string fs
= FPR(copy(fs_value
));
12700 return img::format("RINT.S %s, %s", ft
, fs
);
12708 * 10987654321098765432109876543210
12709 * 001000 x1110000101
12714 std::string
NMD::ROTR(uint64 instruction
)
12716 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12717 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12718 uint64 shift_value
= extract_shift_4_3_2_1_0(instruction
);
12720 std::string rt
= GPR(copy(rt_value
));
12721 std::string rs
= GPR(copy(rs_value
));
12722 std::string shift
= IMMEDIATE(copy(shift_value
));
12724 return img::format("ROTR %s, %s, %s", rt
, rs
, shift
);
12732 * 10987654321098765432109876543210
12733 * 001000 x1110000101
12738 std::string
NMD::ROTRV(uint64 instruction
)
12740 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12741 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12742 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
12744 std::string rd
= GPR(copy(rd_value
));
12745 std::string rs
= GPR(copy(rs_value
));
12746 std::string rt
= GPR(copy(rt_value
));
12748 return img::format("ROTRV %s, %s, %s", rd
, rs
, rt
);
12756 * 10987654321098765432109876543210
12757 * 001000 x1110000101
12762 std::string
NMD::ROTX(uint64 instruction
)
12764 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12765 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
12766 uint64 shiftx_value
= extract_shiftx_10_9_8_7__s1(instruction
);
12767 uint64 stripe_value
= extract_stripe_6(instruction
);
12768 uint64 shift_value
= extract_shift_4_3_2_1_0(instruction
);
12770 std::string rt
= GPR(copy(rt_value
));
12771 std::string rs
= GPR(copy(rs_value
));
12772 std::string shift
= IMMEDIATE(copy(shift_value
));
12773 std::string shiftx
= IMMEDIATE(copy(shiftx_value
));
12774 std::string stripe
= IMMEDIATE(copy(stripe_value
));
12776 return img::format("ROTX %s, %s, %s, %s, %s",
12777 rt
, rs
, shift
, shiftx
, stripe
);
12785 * 10987654321098765432109876543210
12786 * 001000 x1110000101
12791 std::string
NMD::ROUND_L_D(uint64 instruction
)
12793 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
12794 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
12796 std::string ft
= FPR(copy(ft_value
));
12797 std::string fs
= FPR(copy(fs_value
));
12799 return img::format("ROUND.L.D %s, %s", ft
, fs
);
12807 * 10987654321098765432109876543210
12808 * 001000 x1110000101
12813 std::string
NMD::ROUND_L_S(uint64 instruction
)
12815 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
12816 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
12818 std::string ft
= FPR(copy(ft_value
));
12819 std::string fs
= FPR(copy(fs_value
));
12821 return img::format("ROUND.L.S %s, %s", ft
, fs
);
12829 * 10987654321098765432109876543210
12830 * 001000 x1110000101
12835 std::string
NMD::ROUND_W_D(uint64 instruction
)
12837 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
12838 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
12840 std::string ft
= FPR(copy(ft_value
));
12841 std::string fs
= FPR(copy(fs_value
));
12843 return img::format("ROUND.W.D %s, %s", ft
, fs
);
12851 * 10987654321098765432109876543210
12852 * 001000 x1110000101
12857 std::string
NMD::ROUND_W_S(uint64 instruction
)
12859 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
12860 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
12862 std::string ft
= FPR(copy(ft_value
));
12863 std::string fs
= FPR(copy(fs_value
));
12865 return img::format("ROUND.W.S %s, %s", ft
, fs
);
12873 * 10987654321098765432109876543210
12874 * 001000 x1110000101
12879 std::string
NMD::RSQRT_D(uint64 instruction
)
12881 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
12882 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
12884 std::string ft
= FPR(copy(ft_value
));
12885 std::string fs
= FPR(copy(fs_value
));
12887 return img::format("RSQRT.D %s, %s", ft
, fs
);
12895 * 10987654321098765432109876543210
12896 * 001000 x1110000101
12901 std::string
NMD::RSQRT_S(uint64 instruction
)
12903 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
12904 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
12906 std::string ft
= FPR(copy(ft_value
));
12907 std::string fs
= FPR(copy(fs_value
));
12909 return img::format("RSQRT.S %s, %s", ft
, fs
);
12917 * 10987654321098765432109876543210
12918 * 001000 01001001101
12923 std::string
NMD::SAVE_16_(uint64 instruction
)
12925 uint64 rt1_value
= extract_rtl_11(instruction
);
12926 uint64 u_value
= extract_u_7_6_5_4__s4(instruction
);
12927 uint64 count_value
= extract_count_3_2_1_0(instruction
);
12929 std::string u
= IMMEDIATE(copy(u_value
));
12930 return img::format("SAVE %s%s", u
,
12931 save_restore_list(encode_rt1_from_rt(rt1_value
), count_value
, 0));
12939 * 10987654321098765432109876543210
12940 * 001000 01001001101
12945 std::string
NMD::SAVE_32_(uint64 instruction
)
12947 uint64 count_value
= extract_count_19_18_17_16(instruction
);
12948 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
12949 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3__s3(instruction
);
12950 uint64 gp_value
= extract_gp_2(instruction
);
12952 std::string u
= IMMEDIATE(copy(u_value
));
12953 return img::format("SAVE %s%s", u
,
12954 save_restore_list(rt_value
, count_value
, gp_value
));
12962 * 10987654321098765432109876543210
12963 * 001000 01001001101
12968 std::string
NMD::SAVEF(uint64 instruction
)
12970 uint64 count_value
= extract_count_19_18_17_16(instruction
);
12971 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3__s3(instruction
);
12973 std::string u
= IMMEDIATE(copy(u_value
));
12974 std::string count
= IMMEDIATE(copy(count_value
));
12976 return img::format("SAVEF %s, %s", u
, count
);
12984 * 10987654321098765432109876543210
12985 * 001000 01001001101
12990 std::string
NMD::SB_16_(uint64 instruction
)
12992 uint64 rtz3_value
= extract_rtz3_9_8_7(instruction
);
12993 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
12994 uint64 u_value
= extract_u_1_0(instruction
);
12996 std::string rtz3
= GPR(decode_gpr_gpr3_src_store(rtz3_value
));
12997 std::string u
= IMMEDIATE(copy(u_value
));
12998 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
13000 return img::format("SB %s, %s(%s)", rtz3
, u
, rs3
);
13008 * 10987654321098765432109876543210
13009 * 001000 01001001101
13014 std::string
NMD::SB_GP_(uint64 instruction
)
13016 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13017 uint64 u_value
= extract_u_17_to_0(instruction
);
13019 std::string rt
= GPR(copy(rt_value
));
13020 std::string u
= IMMEDIATE(copy(u_value
));
13022 return img::format("SB %s, %s($%d)", rt
, u
, 28);
13030 * 10987654321098765432109876543210
13031 * 001000 01001001101
13036 std::string
NMD::SB_S9_(uint64 instruction
)
13038 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13039 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13040 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
13042 std::string rt
= GPR(copy(rt_value
));
13043 std::string s
= IMMEDIATE(copy(s_value
));
13044 std::string rs
= GPR(copy(rs_value
));
13046 return img::format("SB %s, %s(%s)", rt
, s
, rs
);
13054 * 10987654321098765432109876543210
13055 * 001000 01001001101
13060 std::string
NMD::SB_U12_(uint64 instruction
)
13062 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13063 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13064 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
13066 std::string rt
= GPR(copy(rt_value
));
13067 std::string u
= IMMEDIATE(copy(u_value
));
13068 std::string rs
= GPR(copy(rs_value
));
13070 return img::format("SB %s, %s(%s)", rt
, u
, rs
);
13078 * 10987654321098765432109876543210
13079 * 001000 01001001101
13084 std::string
NMD::SBE(uint64 instruction
)
13086 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13087 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13088 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
13090 std::string rt
= GPR(copy(rt_value
));
13091 std::string s
= IMMEDIATE(copy(s_value
));
13092 std::string rs
= GPR(copy(rs_value
));
13094 return img::format("SBE %s, %s(%s)", rt
, s
, rs
);
13102 * 10987654321098765432109876543210
13103 * 001000 01001001101
13108 std::string
NMD::SBX(uint64 instruction
)
13110 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13111 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13112 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
13114 std::string rd
= GPR(copy(rd_value
));
13115 std::string rs
= GPR(copy(rs_value
));
13116 std::string rt
= GPR(copy(rt_value
));
13118 return img::format("SBX %s, %s(%s)", rd
, rs
, rt
);
13126 * 10987654321098765432109876543210
13127 * 001000 01001001101
13132 std::string
NMD::SC(uint64 instruction
)
13134 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13135 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13136 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_s2(instruction
);
13138 std::string rt
= GPR(copy(rt_value
));
13139 std::string s
= IMMEDIATE(copy(s_value
));
13140 std::string rs
= GPR(copy(rs_value
));
13142 return img::format("SC %s, %s(%s)", rt
, s
, rs
);
13150 * 10987654321098765432109876543210
13151 * 001000 01001001101
13156 std::string
NMD::SCD(uint64 instruction
)
13158 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13159 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13160 int64 s_value
= extract_s__se8_15_7_6_5_4_3_s3(instruction
);
13162 std::string rt
= GPR(copy(rt_value
));
13163 std::string s
= IMMEDIATE(copy(s_value
));
13164 std::string rs
= GPR(copy(rs_value
));
13166 return img::format("SCD %s, %s(%s)", rt
, s
, rs
);
13174 * 10987654321098765432109876543210
13175 * 001000 01001001101
13180 std::string
NMD::SCDP(uint64 instruction
)
13182 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13183 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13184 uint64 ru_value
= extract_ru_7_6_5_4_3(instruction
);
13186 std::string rt
= GPR(copy(rt_value
));
13187 std::string ru
= GPR(copy(ru_value
));
13188 std::string rs
= GPR(copy(rs_value
));
13190 return img::format("SCDP %s, %s, (%s)", rt
, ru
, rs
);
13198 * 10987654321098765432109876543210
13199 * 001000 01001001101
13204 std::string
NMD::SCE(uint64 instruction
)
13206 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13207 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13208 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_s2(instruction
);
13210 std::string rt
= GPR(copy(rt_value
));
13211 std::string s
= IMMEDIATE(copy(s_value
));
13212 std::string rs
= GPR(copy(rs_value
));
13214 return img::format("SCE %s, %s(%s)", rt
, s
, rs
);
13222 * 10987654321098765432109876543210
13223 * 001000 01001001101
13228 std::string
NMD::SCWP(uint64 instruction
)
13230 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13231 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13232 uint64 ru_value
= extract_ru_7_6_5_4_3(instruction
);
13234 std::string rt
= GPR(copy(rt_value
));
13235 std::string ru
= GPR(copy(ru_value
));
13236 std::string rs
= GPR(copy(rs_value
));
13238 return img::format("SCWP %s, %s, (%s)", rt
, ru
, rs
);
13246 * 10987654321098765432109876543210
13247 * 001000 01001001101
13252 std::string
NMD::SCWPE(uint64 instruction
)
13254 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13255 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13256 uint64 ru_value
= extract_ru_7_6_5_4_3(instruction
);
13258 std::string rt
= GPR(copy(rt_value
));
13259 std::string ru
= GPR(copy(ru_value
));
13260 std::string rs
= GPR(copy(rs_value
));
13262 return img::format("SCWPE %s, %s, (%s)", rt
, ru
, rs
);
13270 * 10987654321098765432109876543210
13271 * 001000 01001001101
13276 std::string
NMD::SD_GP_(uint64 instruction
)
13278 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13279 uint64 u_value
= extract_u_20_to_3__s3(instruction
);
13281 std::string rt
= GPR(copy(rt_value
));
13282 std::string u
= IMMEDIATE(copy(u_value
));
13284 return img::format("SD %s, %s($%d)", rt
, u
, 28);
13292 * 10987654321098765432109876543210
13293 * 001000 01001001101
13298 std::string
NMD::SD_S9_(uint64 instruction
)
13300 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13301 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13302 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
13304 std::string rt
= GPR(copy(rt_value
));
13305 std::string s
= IMMEDIATE(copy(s_value
));
13306 std::string rs
= GPR(copy(rs_value
));
13308 return img::format("SD %s, %s(%s)", rt
, s
, rs
);
13316 * 10987654321098765432109876543210
13317 * 001000 01001001101
13322 std::string
NMD::SD_U12_(uint64 instruction
)
13324 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13325 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13326 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
13328 std::string rt
= GPR(copy(rt_value
));
13329 std::string u
= IMMEDIATE(copy(u_value
));
13330 std::string rs
= GPR(copy(rs_value
));
13332 return img::format("SD %s, %s(%s)", rt
, u
, rs
);
13340 * 10987654321098765432109876543210
13341 * 001000 01001001101
13346 std::string
NMD::SDBBP_16_(uint64 instruction
)
13348 uint64 code_value
= extract_code_2_1_0(instruction
);
13350 std::string code
= IMMEDIATE(copy(code_value
));
13352 return img::format("SDBBP %s", code
);
13360 * 10987654321098765432109876543210
13361 * 001000 01001001101
13366 std::string
NMD::SDBBP_32_(uint64 instruction
)
13368 uint64 code_value
= extract_code_18_to_0(instruction
);
13370 std::string code
= IMMEDIATE(copy(code_value
));
13372 return img::format("SDBBP %s", code
);
13380 * 10987654321098765432109876543210
13381 * 001000 01001001101
13386 std::string
NMD::SDC1_GP_(uint64 instruction
)
13388 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
13389 uint64 u_value
= extract_u_17_to_2__s2(instruction
);
13391 std::string ft
= FPR(copy(ft_value
));
13392 std::string u
= IMMEDIATE(copy(u_value
));
13394 return img::format("SDC1 %s, %s($%d)", ft
, u
, 28);
13402 * 10987654321098765432109876543210
13403 * 001000 01001001101
13408 std::string
NMD::SDC1_S9_(uint64 instruction
)
13410 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
13411 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13412 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
13414 std::string ft
= FPR(copy(ft_value
));
13415 std::string s
= IMMEDIATE(copy(s_value
));
13416 std::string rs
= GPR(copy(rs_value
));
13418 return img::format("SDC1 %s, %s(%s)", ft
, s
, rs
);
13426 * 10987654321098765432109876543210
13427 * 001000 01001001101
13432 std::string
NMD::SDC1_U12_(uint64 instruction
)
13434 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
13435 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13436 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
13438 std::string ft
= FPR(copy(ft_value
));
13439 std::string u
= IMMEDIATE(copy(u_value
));
13440 std::string rs
= GPR(copy(rs_value
));
13442 return img::format("SDC1 %s, %s(%s)", ft
, u
, rs
);
13450 * 10987654321098765432109876543210
13451 * 001000 01001001101
13456 std::string
NMD::SDC1X(uint64 instruction
)
13458 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13459 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13460 uint64 ft_value
= extract_ft_15_14_13_12_11(instruction
);
13462 std::string ft
= FPR(copy(ft_value
));
13463 std::string rs
= GPR(copy(rs_value
));
13464 std::string rt
= GPR(copy(rt_value
));
13466 return img::format("SDC1X %s, %s(%s)", ft
, rs
, rt
);
13474 * 10987654321098765432109876543210
13475 * 001000 01001001101
13480 std::string
NMD::SDC1XS(uint64 instruction
)
13482 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13483 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13484 uint64 ft_value
= extract_ft_15_14_13_12_11(instruction
);
13486 std::string ft
= FPR(copy(ft_value
));
13487 std::string rs
= GPR(copy(rs_value
));
13488 std::string rt
= GPR(copy(rt_value
));
13490 return img::format("SDC1XS %s, %s(%s)", ft
, rs
, rt
);
13498 * 10987654321098765432109876543210
13499 * 001000 01001001101
13504 std::string
NMD::SDC2(uint64 instruction
)
13506 uint64 cs_value
= extract_cs_25_24_23_22_21(instruction
);
13507 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13508 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
13510 std::string cs
= CPR(copy(cs_value
));
13511 std::string s
= IMMEDIATE(copy(s_value
));
13512 std::string rs
= GPR(copy(rs_value
));
13514 return img::format("SDC2 %s, %s(%s)", cs
, s
, rs
);
13522 * 10987654321098765432109876543210
13523 * 001000 01001001101
13528 std::string
NMD::SDM(uint64 instruction
)
13530 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13531 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13532 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
13533 uint64 count3_value
= extract_count3_14_13_12(instruction
);
13535 std::string rt
= GPR(copy(rt_value
));
13536 std::string s
= IMMEDIATE(copy(s_value
));
13537 std::string rs
= GPR(copy(rs_value
));
13538 std::string count3
= IMMEDIATE(encode_count3_from_count(count3_value
));
13540 return img::format("SDM %s, %s(%s), %s", rt
, s
, rs
, count3
);
13548 * 10987654321098765432109876543210
13549 * 001000 01001001101
13554 std::string
NMD::SDPC_48_(uint64 instruction
)
13556 uint64 rt_value
= extract_rt_41_40_39_38_37(instruction
);
13557 int64 s_value
= extract_s__se31_15_to_0_31_to_16(instruction
);
13559 std::string rt
= GPR(copy(rt_value
));
13560 std::string s
= ADDRESS(encode_s_from_address(s_value
), 6);
13562 return img::format("SDPC %s, %s", rt
, s
);
13570 * 10987654321098765432109876543210
13571 * 001000 01001001101
13576 std::string
NMD::SDXS(uint64 instruction
)
13578 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13579 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13580 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
13582 std::string rd
= GPR(copy(rd_value
));
13583 std::string rs
= GPR(copy(rs_value
));
13584 std::string rt
= GPR(copy(rt_value
));
13586 return img::format("SDXS %s, %s(%s)", rd
, rs
, rt
);
13594 * 10987654321098765432109876543210
13595 * 001000 01001001101
13600 std::string
NMD::SDX(uint64 instruction
)
13602 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13603 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13604 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
13606 std::string rd
= GPR(copy(rd_value
));
13607 std::string rs
= GPR(copy(rs_value
));
13608 std::string rt
= GPR(copy(rt_value
));
13610 return img::format("SDX %s, %s(%s)", rd
, rs
, rt
);
13618 * 10987654321098765432109876543210
13619 * 001000 01001001101
13624 std::string
NMD::SEB(uint64 instruction
)
13626 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13627 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13629 std::string rt
= GPR(copy(rt_value
));
13630 std::string rs
= GPR(copy(rs_value
));
13632 return img::format("SEB %s, %s", rt
, rs
);
13640 * 10987654321098765432109876543210
13641 * 001000 01001001101
13646 std::string
NMD::SEH(uint64 instruction
)
13648 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13649 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13651 std::string rt
= GPR(copy(rt_value
));
13652 std::string rs
= GPR(copy(rs_value
));
13654 return img::format("SEH %s, %s", rt
, rs
);
13662 * 10987654321098765432109876543210
13663 * 001000 01001001101
13668 std::string
NMD::SEL_D(uint64 instruction
)
13670 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
13671 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
13672 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
13674 std::string fd
= FPR(copy(fd_value
));
13675 std::string fs
= FPR(copy(fs_value
));
13676 std::string ft
= FPR(copy(ft_value
));
13678 return img::format("SEL.D %s, %s, %s", fd
, fs
, ft
);
13686 * 10987654321098765432109876543210
13687 * 001000 01001001101
13692 std::string
NMD::SEL_S(uint64 instruction
)
13694 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
13695 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
13696 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
13698 std::string fd
= FPR(copy(fd_value
));
13699 std::string fs
= FPR(copy(fs_value
));
13700 std::string ft
= FPR(copy(ft_value
));
13702 return img::format("SEL.S %s, %s, %s", fd
, fs
, ft
);
13710 * 10987654321098765432109876543210
13711 * 001000 01001001101
13716 std::string
NMD::SELEQZ_D(uint64 instruction
)
13718 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
13719 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
13720 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
13722 std::string fd
= FPR(copy(fd_value
));
13723 std::string fs
= FPR(copy(fs_value
));
13724 std::string ft
= FPR(copy(ft_value
));
13726 return img::format("SELEQZ.D %s, %s, %s", fd
, fs
, ft
);
13734 * 10987654321098765432109876543210
13735 * 001000 01001001101
13740 std::string
NMD::SELEQZ_S(uint64 instruction
)
13742 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
13743 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
13744 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
13746 std::string fd
= FPR(copy(fd_value
));
13747 std::string fs
= FPR(copy(fs_value
));
13748 std::string ft
= FPR(copy(ft_value
));
13750 return img::format("SELEQZ.S %s, %s, %s", fd
, fs
, ft
);
13758 * 10987654321098765432109876543210
13759 * 001000 01001001101
13764 std::string
NMD::SELNEZ_D(uint64 instruction
)
13766 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
13767 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
13768 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
13770 std::string fd
= FPR(copy(fd_value
));
13771 std::string fs
= FPR(copy(fs_value
));
13772 std::string ft
= FPR(copy(ft_value
));
13774 return img::format("SELNEZ.D %s, %s, %s", fd
, fs
, ft
);
13782 * 10987654321098765432109876543210
13783 * 001000 01001001101
13788 std::string
NMD::SELNEZ_S(uint64 instruction
)
13790 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
13791 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
13792 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
13794 std::string fd
= FPR(copy(fd_value
));
13795 std::string fs
= FPR(copy(fs_value
));
13796 std::string ft
= FPR(copy(ft_value
));
13798 return img::format("SELNEZ.S %s, %s, %s", fd
, fs
, ft
);
13806 * 10987654321098765432109876543210
13807 * 001000 01001001101
13812 std::string
NMD::SEQI(uint64 instruction
)
13814 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13815 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13816 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
13818 std::string rt
= GPR(copy(rt_value
));
13819 std::string rs
= GPR(copy(rs_value
));
13820 std::string u
= IMMEDIATE(copy(u_value
));
13822 return img::format("SEQI %s, %s, %s", rt
, rs
, u
);
13830 * 10987654321098765432109876543210
13831 * 001000 01001001101
13836 std::string
NMD::SH_16_(uint64 instruction
)
13838 uint64 rtz3_value
= extract_rtz3_9_8_7(instruction
);
13839 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
13840 uint64 u_value
= extract_u_2_1__s1(instruction
);
13842 std::string rtz3
= GPR(decode_gpr_gpr3_src_store(rtz3_value
));
13843 std::string u
= IMMEDIATE(copy(u_value
));
13844 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
13846 return img::format("SH %s, %s(%s)", rtz3
, u
, rs3
);
13854 * 10987654321098765432109876543210
13855 * 001000 01001001101
13860 std::string
NMD::SH_GP_(uint64 instruction
)
13862 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13863 uint64 u_value
= extract_u_17_to_1__s1(instruction
);
13865 std::string rt
= GPR(copy(rt_value
));
13866 std::string u
= IMMEDIATE(copy(u_value
));
13868 return img::format("SH %s, %s($%d)", rt
, u
, 28);
13876 * 10987654321098765432109876543210
13877 * 001000 01001001101
13882 std::string
NMD::SH_S9_(uint64 instruction
)
13884 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13885 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13886 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
13888 std::string rt
= GPR(copy(rt_value
));
13889 std::string s
= IMMEDIATE(copy(s_value
));
13890 std::string rs
= GPR(copy(rs_value
));
13892 return img::format("SH %s, %s(%s)", rt
, s
, rs
);
13900 * 10987654321098765432109876543210
13901 * 001000 01001001101
13906 std::string
NMD::SH_U12_(uint64 instruction
)
13908 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13909 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13910 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
13912 std::string rt
= GPR(copy(rt_value
));
13913 std::string u
= IMMEDIATE(copy(u_value
));
13914 std::string rs
= GPR(copy(rs_value
));
13916 return img::format("SH %s, %s(%s)", rt
, u
, rs
);
13924 * 10987654321098765432109876543210
13925 * 001000 01001001101
13930 std::string
NMD::SHE(uint64 instruction
)
13932 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
13933 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13934 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
13936 std::string rt
= GPR(copy(rt_value
));
13937 std::string s
= IMMEDIATE(copy(s_value
));
13938 std::string rs
= GPR(copy(rs_value
));
13940 return img::format("SHE %s, %s(%s)", rt
, s
, rs
);
13945 * [DSP] SHILO ac, shift - Shift an accumulator value leaving the result in
13946 * the same accumulator
13949 * 10987654321098765432109876543210
13950 * 001000xxxx xxxx0000011101
13954 std::string
NMD::SHILO(uint64 instruction
)
13956 int64 shift_value
= extract_shift__se5_21_20_19_18_17_16(instruction
);
13957 uint64 ac_value
= extract_ac_15_14(instruction
);
13959 std::string shift
= IMMEDIATE(copy(shift_value
));
13960 std::string ac
= AC(copy(ac_value
));
13962 return img::format("SHILO %s, %s", ac
, shift
);
13967 * [DSP] SHILOV ac, rs - Variable shift of accumulator value leaving the result
13968 * in the same accumulator
13971 * 10987654321098765432109876543210
13972 * 001000xxxxx 01001001111111
13976 std::string
NMD::SHILOV(uint64 instruction
)
13978 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
13979 uint64 ac_value
= extract_ac_15_14(instruction
);
13981 std::string rs
= GPR(copy(rs_value
));
13982 std::string ac
= AC(copy(ac_value
));
13984 return img::format("SHILOV %s, %s", ac
, rs
);
13989 * [DSP] SHLL.PH rt, rs, sa - Shift left logical vector pair halfwords
13992 * 10987654321098765432109876543210
13993 * 001000 001110110101
13998 std::string
NMD::SHLL_PH(uint64 instruction
)
14000 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14001 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14002 uint64 sa_value
= extract_sa_15_14_13_12(instruction
);
14004 std::string rt
= GPR(copy(rt_value
));
14005 std::string rs
= GPR(copy(rs_value
));
14006 std::string sa
= IMMEDIATE(copy(sa_value
));
14008 return img::format("SHLL.PH %s, %s, %s", rt
, rs
, sa
);
14013 * [DSP] SHLL.QB rt, rs, sa - Shift left logical vector quad bytes
14016 * 10987654321098765432109876543210
14017 * 001000 0100001111111
14022 std::string
NMD::SHLL_QB(uint64 instruction
)
14024 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14025 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14026 uint64 sa_value
= extract_sa_15_14_13(instruction
);
14028 std::string rt
= GPR(copy(rt_value
));
14029 std::string rs
= GPR(copy(rs_value
));
14030 std::string sa
= IMMEDIATE(copy(sa_value
));
14032 return img::format("SHLL.QB %s, %s, %s", rt
, rs
, sa
);
14037 * [DSP] SHLL_S.PH rt, rs, sa - Shift left logical vector pair halfwords
14041 * 10987654321098765432109876543210
14042 * 001000 001110110101
14047 std::string
NMD::SHLL_S_PH(uint64 instruction
)
14049 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14050 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14051 uint64 sa_value
= extract_sa_15_14_13_12(instruction
);
14053 std::string rt
= GPR(copy(rt_value
));
14054 std::string rs
= GPR(copy(rs_value
));
14055 std::string sa
= IMMEDIATE(copy(sa_value
));
14057 return img::format("SHLL_S.PH %s, %s, %s", rt
, rs
, sa
);
14062 * [DSP] SHLL_S.PH rt, rs, sa - Shift left logical word with saturation
14065 * 10987654321098765432109876543210
14066 * 001000 x1111110101
14071 std::string
NMD::SHLL_S_W(uint64 instruction
)
14073 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14074 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14075 uint64 sa_value
= extract_sa_15_14_13_12_11(instruction
);
14077 std::string rt
= GPR(copy(rt_value
));
14078 std::string rs
= GPR(copy(rs_value
));
14079 std::string sa
= IMMEDIATE(copy(sa_value
));
14081 return img::format("SHLL_S.W %s, %s, %s", rt
, rs
, sa
);
14086 * [DSP] SHLLV.PH rd, rt, rs - Shift left logical variable vector pair
14090 * 10987654321098765432109876543210
14091 * 001000 01110001101
14096 std::string
NMD::SHLLV_PH(uint64 instruction
)
14098 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14099 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14100 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14102 std::string rd
= GPR(copy(rd_value
));
14103 std::string rt
= GPR(copy(rt_value
));
14104 std::string rs
= GPR(copy(rs_value
));
14106 return img::format("SHLLV.PH %s, %s, %s", rd
, rt
, rs
);
14111 * [DSP] SHLLV_S.QB rd, rt, rs - Shift left logical variable vector quad bytes
14114 * 10987654321098765432109876543210
14115 * 001000 x1110010101
14120 std::string
NMD::SHLLV_QB(uint64 instruction
)
14122 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14123 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14124 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14126 std::string rd
= GPR(copy(rd_value
));
14127 std::string rt
= GPR(copy(rt_value
));
14128 std::string rs
= GPR(copy(rs_value
));
14130 return img::format("SHLLV.QB %s, %s, %s", rd
, rt
, rs
);
14135 * [DSP] SHLLV.PH rd, rt, rs - Shift left logical variable vector pair
14136 * halfwords with saturation
14139 * 10987654321098765432109876543210
14140 * 001000 11110001101
14145 std::string
NMD::SHLLV_S_PH(uint64 instruction
)
14147 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14148 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14149 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14151 std::string rd
= GPR(copy(rd_value
));
14152 std::string rt
= GPR(copy(rt_value
));
14153 std::string rs
= GPR(copy(rs_value
));
14155 return img::format("SHLLV_S.PH %s, %s, %s", rd
, rt
, rs
);
14160 * [DSP] SHLLV_S.W rd, rt, rs - Shift left logical variable vector word
14163 * 10987654321098765432109876543210
14164 * 001000 x1111010101
14169 std::string
NMD::SHLLV_S_W(uint64 instruction
)
14171 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14172 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14173 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14175 std::string rd
= GPR(copy(rd_value
));
14176 std::string rt
= GPR(copy(rt_value
));
14177 std::string rs
= GPR(copy(rs_value
));
14179 return img::format("SHLLV_S.W %s, %s, %s", rd
, rt
, rs
);
14187 * 10987654321098765432109876543210
14188 * 001000 01001001101
14193 std::string
NMD::SHRA_PH(uint64 instruction
)
14195 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14196 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14197 uint64 sa_value
= extract_sa_15_14_13_12(instruction
);
14199 std::string rt
= GPR(copy(rt_value
));
14200 std::string rs
= GPR(copy(rs_value
));
14201 std::string sa
= IMMEDIATE(copy(sa_value
));
14203 return img::format("SHRA.PH %s, %s, %s", rt
, rs
, sa
);
14211 * 10987654321098765432109876543210
14212 * 001000 01001001101
14217 std::string
NMD::SHRA_QB(uint64 instruction
)
14219 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14220 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14221 uint64 sa_value
= extract_sa_15_14_13(instruction
);
14223 std::string rt
= GPR(copy(rt_value
));
14224 std::string rs
= GPR(copy(rs_value
));
14225 std::string sa
= IMMEDIATE(copy(sa_value
));
14227 return img::format("SHRA.QB %s, %s, %s", rt
, rs
, sa
);
14235 * 10987654321098765432109876543210
14236 * 001000 01001001101
14241 std::string
NMD::SHRA_R_PH(uint64 instruction
)
14243 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14244 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14245 uint64 sa_value
= extract_sa_15_14_13_12(instruction
);
14247 std::string rt
= GPR(copy(rt_value
));
14248 std::string rs
= GPR(copy(rs_value
));
14249 std::string sa
= IMMEDIATE(copy(sa_value
));
14251 return img::format("SHRA_R.PH %s, %s, %s", rt
, rs
, sa
);
14259 * 10987654321098765432109876543210
14260 * 001000 01001001101
14265 std::string
NMD::SHRA_R_QB(uint64 instruction
)
14267 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14268 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14269 uint64 sa_value
= extract_sa_15_14_13(instruction
);
14271 std::string rt
= GPR(copy(rt_value
));
14272 std::string rs
= GPR(copy(rs_value
));
14273 std::string sa
= IMMEDIATE(copy(sa_value
));
14275 return img::format("SHRA_R.QB %s, %s, %s", rt
, rs
, sa
);
14283 * 10987654321098765432109876543210
14284 * 001000 01001001101
14289 std::string
NMD::SHRA_R_W(uint64 instruction
)
14291 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14292 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14293 uint64 sa_value
= extract_sa_15_14_13_12_11(instruction
);
14295 std::string rt
= GPR(copy(rt_value
));
14296 std::string rs
= GPR(copy(rs_value
));
14297 std::string sa
= IMMEDIATE(copy(sa_value
));
14299 return img::format("SHRA_R.W %s, %s, %s", rt
, rs
, sa
);
14307 * 10987654321098765432109876543210
14308 * 001000 01001001101
14313 std::string
NMD::SHRAV_PH(uint64 instruction
)
14315 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14316 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14317 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14319 std::string rd
= GPR(copy(rd_value
));
14320 std::string rt
= GPR(copy(rt_value
));
14321 std::string rs
= GPR(copy(rs_value
));
14323 return img::format("SHRAV.PH %s, %s, %s", rd
, rt
, rs
);
14331 * 10987654321098765432109876543210
14332 * 001000 01001001101
14337 std::string
NMD::SHRAV_QB(uint64 instruction
)
14339 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14340 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14341 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14343 std::string rd
= GPR(copy(rd_value
));
14344 std::string rt
= GPR(copy(rt_value
));
14345 std::string rs
= GPR(copy(rs_value
));
14347 return img::format("SHRAV.QB %s, %s, %s", rd
, rt
, rs
);
14355 * 10987654321098765432109876543210
14356 * 001000 01001001101
14361 std::string
NMD::SHRAV_R_PH(uint64 instruction
)
14363 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14364 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14365 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14367 std::string rd
= GPR(copy(rd_value
));
14368 std::string rt
= GPR(copy(rt_value
));
14369 std::string rs
= GPR(copy(rs_value
));
14371 return img::format("SHRAV_R.PH %s, %s, %s", rd
, rt
, rs
);
14379 * 10987654321098765432109876543210
14380 * 001000 01001001101
14385 std::string
NMD::SHRAV_R_QB(uint64 instruction
)
14387 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14388 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14389 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14391 std::string rd
= GPR(copy(rd_value
));
14392 std::string rt
= GPR(copy(rt_value
));
14393 std::string rs
= GPR(copy(rs_value
));
14395 return img::format("SHRAV_R.QB %s, %s, %s", rd
, rt
, rs
);
14403 * 10987654321098765432109876543210
14404 * 001000 01001001101
14409 std::string
NMD::SHRAV_R_W(uint64 instruction
)
14411 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14412 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14413 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14415 std::string rd
= GPR(copy(rd_value
));
14416 std::string rt
= GPR(copy(rt_value
));
14417 std::string rs
= GPR(copy(rs_value
));
14419 return img::format("SHRAV_R.W %s, %s, %s", rd
, rt
, rs
);
14424 * [DSP] SHRL.PH rt, rs, sa - Shift right logical two halfwords
14427 * 10987654321098765432109876543210
14428 * 001000 001111111111
14433 std::string
NMD::SHRL_PH(uint64 instruction
)
14435 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14436 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14437 uint64 sa_value
= extract_sa_15_14_13_12(instruction
);
14439 std::string rt
= GPR(copy(rt_value
));
14440 std::string rs
= GPR(copy(rs_value
));
14441 std::string sa
= IMMEDIATE(copy(sa_value
));
14443 return img::format("SHRL.PH %s, %s, %s", rt
, rs
, sa
);
14448 * [DSP] SHRL.QB rt, rs, sa - Shift right logical vector quad bytes
14451 * 10987654321098765432109876543210
14452 * 001000 1100001111111
14457 std::string
NMD::SHRL_QB(uint64 instruction
)
14459 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14460 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14461 uint64 sa_value
= extract_sa_15_14_13(instruction
);
14463 std::string rt
= GPR(copy(rt_value
));
14464 std::string rs
= GPR(copy(rs_value
));
14465 std::string sa
= IMMEDIATE(copy(sa_value
));
14467 return img::format("SHRL.QB %s, %s, %s", rt
, rs
, sa
);
14472 * [DSP] SHLLV.PH rd, rt, rs - Shift right logical variable vector pair of
14476 * 10987654321098765432109876543210
14477 * 001000 x1100010101
14482 std::string
NMD::SHRLV_PH(uint64 instruction
)
14484 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14485 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14486 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14488 std::string rd
= GPR(copy(rd_value
));
14489 std::string rt
= GPR(copy(rt_value
));
14490 std::string rs
= GPR(copy(rs_value
));
14492 return img::format("SHRLV.PH %s, %s, %s", rd
, rt
, rs
);
14497 * [DSP] SHLLV.QB rd, rt, rs - Shift right logical variable vector quad bytes
14500 * 10987654321098765432109876543210
14501 * 001000 x1101010101
14506 std::string
NMD::SHRLV_QB(uint64 instruction
)
14508 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14509 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14510 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14512 std::string rd
= GPR(copy(rd_value
));
14513 std::string rt
= GPR(copy(rt_value
));
14514 std::string rs
= GPR(copy(rs_value
));
14516 return img::format("SHRLV.QB %s, %s, %s", rd
, rt
, rs
);
14524 * 10987654321098765432109876543210
14525 * 001000 01001001101
14530 std::string
NMD::SHX(uint64 instruction
)
14532 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14533 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14534 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14536 std::string rd
= GPR(copy(rd_value
));
14537 std::string rs
= GPR(copy(rs_value
));
14538 std::string rt
= GPR(copy(rt_value
));
14540 return img::format("SHX %s, %s(%s)", rd
, rs
, rt
);
14548 * 10987654321098765432109876543210
14549 * 001000 01001001101
14554 std::string
NMD::SHXS(uint64 instruction
)
14556 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14557 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14558 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14560 std::string rd
= GPR(copy(rd_value
));
14561 std::string rs
= GPR(copy(rs_value
));
14562 std::string rt
= GPR(copy(rt_value
));
14564 return img::format("SHXS %s, %s(%s)", rd
, rs
, rt
);
14572 * 10987654321098765432109876543210
14573 * 001000 01001001101
14578 std::string
NMD::SIGRIE(uint64 instruction
)
14580 uint64 code_value
= extract_code_18_to_0(instruction
);
14582 std::string code
= IMMEDIATE(copy(code_value
));
14584 return img::format("SIGRIE %s", code
);
14592 * 10987654321098765432109876543210
14593 * 001000 01001001101
14598 std::string
NMD::SLL_16_(uint64 instruction
)
14600 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
14601 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
14602 uint64 shift3_value
= extract_shift3_2_1_0(instruction
);
14604 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
14605 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
14606 std::string shift3
= IMMEDIATE(encode_shift3_from_shift(shift3_value
));
14608 return img::format("SLL %s, %s, %s", rt3
, rs3
, shift3
);
14616 * 10987654321098765432109876543210
14617 * 001000 01001001101
14622 std::string
NMD::SLL_32_(uint64 instruction
)
14624 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14625 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14626 uint64 shift_value
= extract_shift_4_3_2_1_0(instruction
);
14628 std::string rt
= GPR(copy(rt_value
));
14629 std::string rs
= GPR(copy(rs_value
));
14630 std::string shift
= IMMEDIATE(copy(shift_value
));
14632 return img::format("SLL %s, %s, %s", rt
, rs
, shift
);
14640 * 10987654321098765432109876543210
14641 * 001000 01001001101
14646 std::string
NMD::SLLV(uint64 instruction
)
14648 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14649 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14650 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14652 std::string rd
= GPR(copy(rd_value
));
14653 std::string rs
= GPR(copy(rs_value
));
14654 std::string rt
= GPR(copy(rt_value
));
14656 return img::format("SLLV %s, %s, %s", rd
, rs
, rt
);
14664 * 10987654321098765432109876543210
14665 * 001000 01001001101
14670 std::string
NMD::SLT(uint64 instruction
)
14672 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14673 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14674 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14676 std::string rd
= GPR(copy(rd_value
));
14677 std::string rs
= GPR(copy(rs_value
));
14678 std::string rt
= GPR(copy(rt_value
));
14680 return img::format("SLT %s, %s, %s", rd
, rs
, rt
);
14688 * 10987654321098765432109876543210
14689 * 001000 01001001101
14694 std::string
NMD::SLTI(uint64 instruction
)
14696 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14697 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14698 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
14700 std::string rt
= GPR(copy(rt_value
));
14701 std::string rs
= GPR(copy(rs_value
));
14702 std::string u
= IMMEDIATE(copy(u_value
));
14704 return img::format("SLTI %s, %s, %s", rt
, rs
, u
);
14712 * 10987654321098765432109876543210
14713 * 001000 01001001101
14718 std::string
NMD::SLTIU(uint64 instruction
)
14720 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14721 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14722 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
14724 std::string rt
= GPR(copy(rt_value
));
14725 std::string rs
= GPR(copy(rs_value
));
14726 std::string u
= IMMEDIATE(copy(u_value
));
14728 return img::format("SLTIU %s, %s, %s", rt
, rs
, u
);
14736 * 10987654321098765432109876543210
14737 * 001000 01001001101
14742 std::string
NMD::SLTU(uint64 instruction
)
14744 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14745 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14746 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14748 std::string rd
= GPR(copy(rd_value
));
14749 std::string rs
= GPR(copy(rs_value
));
14750 std::string rt
= GPR(copy(rt_value
));
14752 return img::format("SLTU %s, %s, %s", rd
, rs
, rt
);
14760 * 10987654321098765432109876543210
14761 * 001000 01001001101
14766 std::string
NMD::SOV(uint64 instruction
)
14768 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14769 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14770 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14772 std::string rd
= GPR(copy(rd_value
));
14773 std::string rs
= GPR(copy(rs_value
));
14774 std::string rt
= GPR(copy(rt_value
));
14776 return img::format("SOV %s, %s, %s", rd
, rs
, rt
);
14784 * 10987654321098765432109876543210
14785 * 001000 01001001101
14790 std::string
NMD::SPECIAL2(uint64 instruction
)
14792 uint64 op_value
= extract_op_25_to_3(instruction
);
14794 std::string op
= IMMEDIATE(copy(op_value
));
14796 return img::format("SPECIAL2 %s", op
);
14804 * 10987654321098765432109876543210
14805 * 001000 01001001101
14810 std::string
NMD::SQRT_D(uint64 instruction
)
14812 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
14813 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
14815 std::string ft
= FPR(copy(ft_value
));
14816 std::string fs
= FPR(copy(fs_value
));
14818 return img::format("SQRT.D %s, %s", ft
, fs
);
14826 * 10987654321098765432109876543210
14827 * 001000 01001001101
14832 std::string
NMD::SQRT_S(uint64 instruction
)
14834 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
14835 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
14837 std::string ft
= FPR(copy(ft_value
));
14838 std::string fs
= FPR(copy(fs_value
));
14840 return img::format("SQRT.S %s, %s", ft
, fs
);
14845 * SRA rd, rt, sa - Shift Word Right Arithmetic
14848 * 10987654321098765432109876543210
14849 * 00000000000 000011
14854 std::string
NMD::SRA(uint64 instruction
)
14856 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14857 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14858 uint64 shift_value
= extract_shift_4_3_2_1_0(instruction
);
14860 std::string rt
= GPR(copy(rt_value
));
14861 std::string rs
= GPR(copy(rs_value
));
14862 std::string shift
= IMMEDIATE(copy(shift_value
));
14864 return img::format("SRA %s, %s, %s", rt
, rs
, shift
);
14869 * SRAV rd, rt, rs - Shift Word Right Arithmetic Variable
14872 * 10987654321098765432109876543210
14873 * 001000 00000000111
14878 std::string
NMD::SRAV(uint64 instruction
)
14880 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14881 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14882 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14884 std::string rd
= GPR(copy(rd_value
));
14885 std::string rs
= GPR(copy(rs_value
));
14886 std::string rt
= GPR(copy(rt_value
));
14888 return img::format("SRAV %s, %s, %s", rd
, rs
, rt
);
14896 * 10987654321098765432109876543210
14897 * 001000 00000000111
14902 std::string
NMD::SRL_16_(uint64 instruction
)
14904 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
14905 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
14906 uint64 shift3_value
= extract_shift3_2_1_0(instruction
);
14908 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
14909 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
14910 std::string shift3
= IMMEDIATE(encode_shift3_from_shift(shift3_value
));
14912 return img::format("SRL %s, %s, %s", rt3
, rs3
, shift3
);
14920 * 10987654321098765432109876543210
14921 * 001000 01001001101
14926 std::string
NMD::SRL_32_(uint64 instruction
)
14928 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14929 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14930 uint64 shift_value
= extract_shift_4_3_2_1_0(instruction
);
14932 std::string rt
= GPR(copy(rt_value
));
14933 std::string rs
= GPR(copy(rs_value
));
14934 std::string shift
= IMMEDIATE(copy(shift_value
));
14936 return img::format("SRL %s, %s, %s", rt
, rs
, shift
);
14944 * 10987654321098765432109876543210
14945 * 001000 01001001101
14950 std::string
NMD::SRLV(uint64 instruction
)
14952 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14953 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14954 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14956 std::string rd
= GPR(copy(rd_value
));
14957 std::string rs
= GPR(copy(rs_value
));
14958 std::string rt
= GPR(copy(rt_value
));
14960 return img::format("SRLV %s, %s, %s", rd
, rs
, rt
);
14968 * 10987654321098765432109876543210
14969 * 001000 01001001101
14974 std::string
NMD::SUB(uint64 instruction
)
14976 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
14977 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
14978 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
14980 std::string rd
= GPR(copy(rd_value
));
14981 std::string rs
= GPR(copy(rs_value
));
14982 std::string rt
= GPR(copy(rt_value
));
14984 return img::format("SUB %s, %s, %s", rd
, rs
, rt
);
14992 * 10987654321098765432109876543210
14993 * 001000 01001001101
14998 std::string
NMD::SUB_D(uint64 instruction
)
15000 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
15001 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
15002 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
15004 std::string fd
= FPR(copy(fd_value
));
15005 std::string fs
= FPR(copy(fs_value
));
15006 std::string ft
= FPR(copy(ft_value
));
15008 return img::format("SUB.D %s, %s, %s", fd
, fs
, ft
);
15016 * 10987654321098765432109876543210
15017 * 001000 01001001101
15022 std::string
NMD::SUB_S(uint64 instruction
)
15024 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
15025 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
15026 uint64 fd_value
= extract_fd_15_14_13_12_11(instruction
);
15028 std::string fd
= FPR(copy(fd_value
));
15029 std::string fs
= FPR(copy(fs_value
));
15030 std::string ft
= FPR(copy(ft_value
));
15032 return img::format("SUB.S %s, %s, %s", fd
, fs
, ft
);
15040 * 10987654321098765432109876543210
15041 * 001000 01001001101
15046 std::string
NMD::SUBQ_PH(uint64 instruction
)
15048 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15049 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15050 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
15052 std::string rd
= GPR(copy(rd_value
));
15053 std::string rs
= GPR(copy(rs_value
));
15054 std::string rt
= GPR(copy(rt_value
));
15056 return img::format("SUBQ.PH %s, %s, %s", rd
, rs
, rt
);
15061 * [DSP] SUBQ.S.PH rd, rt, rs - Subtract fractional halfword vectors and shift
15062 * right to halve results
15065 * 10987654321098765432109876543210
15066 * 001000 01001001101
15071 std::string
NMD::SUBQ_S_PH(uint64 instruction
)
15073 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15074 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15075 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
15077 std::string rd
= GPR(copy(rd_value
));
15078 std::string rs
= GPR(copy(rs_value
));
15079 std::string rt
= GPR(copy(rt_value
));
15081 return img::format("SUBQ_S.PH %s, %s, %s", rd
, rs
, rt
);
15086 * [DSP] SUBQ.S.W rd, rt, rs - Subtract fractional halfword vectors and shift
15087 * right to halve results
15090 * 10987654321098765432109876543210
15091 * 001000 01001001101
15096 std::string
NMD::SUBQ_S_W(uint64 instruction
)
15098 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15099 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15100 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
15102 std::string rd
= GPR(copy(rd_value
));
15103 std::string rs
= GPR(copy(rs_value
));
15104 std::string rt
= GPR(copy(rt_value
));
15106 return img::format("SUBQ_S.W %s, %s, %s", rd
, rs
, rt
);
15111 * [DSP] SUBQH.PH rd, rt, rs - Subtract fractional halfword vectors and shift
15112 * right to halve results
15115 * 10987654321098765432109876543210
15116 * 001000 01001001101
15121 std::string
NMD::SUBQH_PH(uint64 instruction
)
15123 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15124 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15125 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
15127 std::string rd
= GPR(copy(rd_value
));
15128 std::string rs
= GPR(copy(rs_value
));
15129 std::string rt
= GPR(copy(rt_value
));
15131 return img::format("SUBQH.PH %s, %s, %s", rd
, rs
, rt
);
15136 * [DSP] SUBQH_R.PH rd, rt, rs - Subtract fractional halfword vectors and shift
15137 * right to halve results
15140 * 10987654321098765432109876543210
15141 * 001000 01001001101
15146 std::string
NMD::SUBQH_R_PH(uint64 instruction
)
15148 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15149 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15150 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
15152 std::string rd
= GPR(copy(rd_value
));
15153 std::string rs
= GPR(copy(rs_value
));
15154 std::string rt
= GPR(copy(rt_value
));
15156 return img::format("SUBQH_R.PH %s, %s, %s", rd
, rs
, rt
);
15161 * [DSP] SUBQH_R.W rd, rt, rs - Subtract fractional halfword vectors and shift
15162 * right to halve results with rounding
15165 * 10987654321098765432109876543210
15166 * 001000 11001001101
15171 std::string
NMD::SUBQH_R_W(uint64 instruction
)
15173 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15174 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15175 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
15177 std::string rd
= GPR(copy(rd_value
));
15178 std::string rs
= GPR(copy(rs_value
));
15179 std::string rt
= GPR(copy(rt_value
));
15181 return img::format("SUBQH_R.W %s, %s, %s", rd
, rs
, rt
);
15186 * [DSP] SUBQH.W rd, rs, rt - Subtract fractional words and shift right to
15190 * 10987654321098765432109876543210
15191 * 001000 01010001101
15196 std::string
NMD::SUBQH_W(uint64 instruction
)
15198 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15199 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15200 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
15202 std::string rd
= GPR(copy(rd_value
));
15203 std::string rs
= GPR(copy(rs_value
));
15204 std::string rt
= GPR(copy(rt_value
));
15206 return img::format("SUBQH.W %s, %s, %s", rd
, rs
, rt
);
15211 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15214 * 10987654321098765432109876543210
15215 * 001000 00010001101
15220 std::string
NMD::SUBU_16_(uint64 instruction
)
15222 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
15223 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
15224 uint64 rd3_value
= extract_rd3_3_2_1(instruction
);
15226 std::string rd3
= GPR(decode_gpr_gpr3(rd3_value
));
15227 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
15228 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
15230 return img::format("SUBU %s, %s, %s", rd3
, rs3
, rt3
);
15235 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15238 * 10987654321098765432109876543210
15239 * 001000 00010001101
15244 std::string
NMD::SUBU_32_(uint64 instruction
)
15246 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15247 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15248 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
15250 std::string rd
= GPR(copy(rd_value
));
15251 std::string rs
= GPR(copy(rs_value
));
15252 std::string rt
= GPR(copy(rt_value
));
15254 return img::format("SUBU %s, %s, %s", rd
, rs
, rt
);
15259 * [DSP] SUBU.PH rd, rs, rt - Subtract unsigned unsigned halfwords
15262 * 10987654321098765432109876543210
15263 * 001000 01100001101
15268 std::string
NMD::SUBU_PH(uint64 instruction
)
15270 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15271 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15272 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
15274 std::string rd
= GPR(copy(rd_value
));
15275 std::string rs
= GPR(copy(rs_value
));
15276 std::string rt
= GPR(copy(rt_value
));
15278 return img::format("SUBU.PH %s, %s, %s", rd
, rs
, rt
);
15283 * [DSP] SUBU.QB rd, rs, rt - Subtract unsigned quad byte vectors
15286 * 10987654321098765432109876543210
15287 * 001000 01011001101
15292 std::string
NMD::SUBU_QB(uint64 instruction
)
15294 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15295 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15296 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
15298 std::string rd
= GPR(copy(rd_value
));
15299 std::string rs
= GPR(copy(rs_value
));
15300 std::string rt
= GPR(copy(rt_value
));
15302 return img::format("SUBU.QB %s, %s, %s", rd
, rs
, rt
);
15307 * [DSP] SUBU_S.PH rd, rs, rt - Subtract unsigned unsigned halfwords with
15311 * 10987654321098765432109876543210
15312 * 001000 11100001101
15317 std::string
NMD::SUBU_S_PH(uint64 instruction
)
15319 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15320 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15321 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
15323 std::string rd
= GPR(copy(rd_value
));
15324 std::string rs
= GPR(copy(rs_value
));
15325 std::string rt
= GPR(copy(rt_value
));
15327 return img::format("SUBU_S.PH %s, %s, %s", rd
, rs
, rt
);
15332 * [DSP] SUBU_S.QB rd, rs, rt - Subtract unsigned quad byte vectors with
15336 * 10987654321098765432109876543210
15337 * 001000 11011001101
15342 std::string
NMD::SUBU_S_QB(uint64 instruction
)
15344 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15345 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15346 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
15348 std::string rd
= GPR(copy(rd_value
));
15349 std::string rs
= GPR(copy(rs_value
));
15350 std::string rt
= GPR(copy(rt_value
));
15352 return img::format("SUBU_S.QB %s, %s, %s", rd
, rs
, rt
);
15357 * [DSP] SUBUH.QB rd, rs, rt - Subtract unsigned bytes and right shift
15361 * 10987654321098765432109876543210
15362 * 001000 01101001101
15367 std::string
NMD::SUBUH_QB(uint64 instruction
)
15369 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15370 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15371 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
15373 std::string rd
= GPR(copy(rd_value
));
15374 std::string rs
= GPR(copy(rs_value
));
15375 std::string rt
= GPR(copy(rt_value
));
15377 return img::format("SUBUH.QB %s, %s, %s", rd
, rs
, rt
);
15382 * [DSP] SUBUH_R.QB rd, rs, rt - Subtract unsigned bytes and right shift
15383 * to halve results with rounding
15386 * 10987654321098765432109876543210
15387 * 001000 11101001101
15392 std::string
NMD::SUBUH_R_QB(uint64 instruction
)
15394 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15395 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15396 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
15398 std::string rd
= GPR(copy(rd_value
));
15399 std::string rs
= GPR(copy(rs_value
));
15400 std::string rt
= GPR(copy(rt_value
));
15402 return img::format("SUBUH_R.QB %s, %s, %s", rd
, rs
, rt
);
15407 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15410 * 10987654321098765432109876543210
15411 * 001000 00010001101
15416 std::string
NMD::SW_16_(uint64 instruction
)
15418 uint64 rtz3_value
= extract_rtz3_9_8_7(instruction
);
15419 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
15420 uint64 u_value
= extract_u_3_2_1_0__s2(instruction
);
15422 std::string rtz3
= GPR(decode_gpr_gpr3_src_store(rtz3_value
));
15423 std::string u
= IMMEDIATE(copy(u_value
));
15424 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
15426 return img::format("SW %s, %s(%s)", rtz3
, u
, rs3
);
15431 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15434 * 10987654321098765432109876543210
15435 * 001000 00010001101
15440 std::string
NMD::SW_4X4_(uint64 instruction
)
15442 uint64 rtz4_value
= extract_rtz4_9_7_6_5(instruction
);
15443 uint64 rs4_value
= extract_rs4_4_2_1_0(instruction
);
15444 uint64 u_value
= extract_u_3_8__s2(instruction
);
15446 std::string rtz4
= GPR(decode_gpr_gpr4_zero(rtz4_value
));
15447 std::string u
= IMMEDIATE(copy(u_value
));
15448 std::string rs4
= GPR(decode_gpr_gpr4(rs4_value
));
15450 return img::format("SW %s, %s(%s)", rtz4
, u
, rs4
);
15455 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15458 * 10987654321098765432109876543210
15459 * 001000 00010001101
15464 std::string
NMD::SW_GP16_(uint64 instruction
)
15466 uint64 u_value
= extract_u_6_5_4_3_2_1_0__s2(instruction
);
15467 uint64 rtz3_value
= extract_rtz3_9_8_7(instruction
);
15469 std::string rtz3
= GPR(decode_gpr_gpr3_src_store(rtz3_value
));
15470 std::string u
= IMMEDIATE(copy(u_value
));
15472 return img::format("SW %s, %s($%d)", rtz3
, u
, 28);
15477 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15480 * 10987654321098765432109876543210
15481 * 001000 00010001101
15486 std::string
NMD::SW_GP_(uint64 instruction
)
15488 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15489 uint64 u_value
= extract_u_20_to_2__s2(instruction
);
15491 std::string rt
= GPR(copy(rt_value
));
15492 std::string u
= IMMEDIATE(copy(u_value
));
15494 return img::format("SW %s, %s($%d)", rt
, u
, 28);
15499 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15502 * 10987654321098765432109876543210
15503 * 001000 00010001101
15508 std::string
NMD::SW_S9_(uint64 instruction
)
15510 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15511 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
15512 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15514 std::string rt
= GPR(copy(rt_value
));
15515 std::string s
= IMMEDIATE(copy(s_value
));
15516 std::string rs
= GPR(copy(rs_value
));
15518 return img::format("SW %s, %s(%s)", rt
, s
, rs
);
15523 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15526 * 10987654321098765432109876543210
15527 * 001000 00010001101
15532 std::string
NMD::SW_SP_(uint64 instruction
)
15534 uint64 rt_value
= extract_rt_9_8_7_6_5(instruction
);
15535 uint64 u_value
= extract_u_4_3_2_1_0__s2(instruction
);
15537 std::string rt
= GPR(copy(rt_value
));
15538 std::string u
= IMMEDIATE(copy(u_value
));
15540 return img::format("SW %s, %s($%d)", rt
, u
, 29);
15545 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15548 * 10987654321098765432109876543210
15549 * 001000 00010001101
15554 std::string
NMD::SW_U12_(uint64 instruction
)
15556 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15557 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15558 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
15560 std::string rt
= GPR(copy(rt_value
));
15561 std::string u
= IMMEDIATE(copy(u_value
));
15562 std::string rs
= GPR(copy(rs_value
));
15564 return img::format("SW %s, %s(%s)", rt
, u
, rs
);
15569 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15572 * 10987654321098765432109876543210
15573 * 001000 00010001101
15578 std::string
NMD::SWC1_GP_(uint64 instruction
)
15580 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
15581 uint64 u_value
= extract_u_17_to_2__s2(instruction
);
15583 std::string ft
= FPR(copy(ft_value
));
15584 std::string u
= IMMEDIATE(copy(u_value
));
15586 return img::format("SWC1 %s, %s($%d)", ft
, u
, 28);
15591 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15594 * 10987654321098765432109876543210
15595 * 001000 00010001101
15600 std::string
NMD::SWC1_S9_(uint64 instruction
)
15602 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
15603 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15604 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
15606 std::string ft
= FPR(copy(ft_value
));
15607 std::string s
= IMMEDIATE(copy(s_value
));
15608 std::string rs
= GPR(copy(rs_value
));
15610 return img::format("SWC1 %s, %s(%s)", ft
, s
, rs
);
15615 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15618 * 10987654321098765432109876543210
15619 * 001000 00010001101
15624 std::string
NMD::SWC1_U12_(uint64 instruction
)
15626 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
15627 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15628 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
15630 std::string ft
= FPR(copy(ft_value
));
15631 std::string u
= IMMEDIATE(copy(u_value
));
15632 std::string rs
= GPR(copy(rs_value
));
15634 return img::format("SWC1 %s, %s(%s)", ft
, u
, rs
);
15639 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15642 * 10987654321098765432109876543210
15643 * 001000 00010001101
15648 std::string
NMD::SWC1X(uint64 instruction
)
15650 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15651 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15652 uint64 ft_value
= extract_ft_15_14_13_12_11(instruction
);
15654 std::string ft
= FPR(copy(ft_value
));
15655 std::string rs
= GPR(copy(rs_value
));
15656 std::string rt
= GPR(copy(rt_value
));
15658 return img::format("SWC1X %s, %s(%s)", ft
, rs
, rt
);
15663 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15666 * 10987654321098765432109876543210
15667 * 001000 00010001101
15672 std::string
NMD::SWC1XS(uint64 instruction
)
15674 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15675 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15676 uint64 ft_value
= extract_ft_15_14_13_12_11(instruction
);
15678 std::string ft
= FPR(copy(ft_value
));
15679 std::string rs
= GPR(copy(rs_value
));
15680 std::string rt
= GPR(copy(rt_value
));
15682 return img::format("SWC1XS %s, %s(%s)", ft
, rs
, rt
);
15687 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15690 * 10987654321098765432109876543210
15691 * 001000 00010001101
15696 std::string
NMD::SWC2(uint64 instruction
)
15698 uint64 cs_value
= extract_cs_25_24_23_22_21(instruction
);
15699 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15700 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
15702 std::string cs
= CPR(copy(cs_value
));
15703 std::string s
= IMMEDIATE(copy(s_value
));
15704 std::string rs
= GPR(copy(rs_value
));
15706 return img::format("SWC2 %s, %s(%s)", cs
, s
, rs
);
15711 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15714 * 10987654321098765432109876543210
15715 * 001000 00010001101
15720 std::string
NMD::SWE(uint64 instruction
)
15722 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15723 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15724 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
15726 std::string rt
= GPR(copy(rt_value
));
15727 std::string s
= IMMEDIATE(copy(s_value
));
15728 std::string rs
= GPR(copy(rs_value
));
15730 return img::format("SWE %s, %s(%s)", rt
, s
, rs
);
15735 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15738 * 10987654321098765432109876543210
15739 * 001000 00010001101
15744 std::string
NMD::SWM(uint64 instruction
)
15746 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15747 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15748 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
15749 uint64 count3_value
= extract_count3_14_13_12(instruction
);
15751 std::string rt
= GPR(copy(rt_value
));
15752 std::string s
= IMMEDIATE(copy(s_value
));
15753 std::string rs
= GPR(copy(rs_value
));
15754 std::string count3
= IMMEDIATE(encode_count3_from_count(count3_value
));
15756 return img::format("SWM %s, %s(%s), %s", rt
, s
, rs
, count3
);
15761 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15764 * 10987654321098765432109876543210
15765 * 001000 00010001101
15770 std::string
NMD::SWPC_48_(uint64 instruction
)
15772 uint64 rt_value
= extract_rt_41_40_39_38_37(instruction
);
15773 int64 s_value
= extract_s__se31_15_to_0_31_to_16(instruction
);
15775 std::string rt
= GPR(copy(rt_value
));
15776 std::string s
= ADDRESS(encode_s_from_address(s_value
), 6);
15778 return img::format("SWPC %s, %s", rt
, s
);
15783 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15786 * 10987654321098765432109876543210
15787 * 001000 00010001101
15792 std::string
NMD::SWX(uint64 instruction
)
15794 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15795 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15796 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
15798 std::string rd
= GPR(copy(rd_value
));
15799 std::string rs
= GPR(copy(rs_value
));
15800 std::string rt
= GPR(copy(rt_value
));
15802 return img::format("SWX %s, %s(%s)", rd
, rs
, rt
);
15807 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15810 * 10987654321098765432109876543210
15811 * 001000 00010001101
15816 std::string
NMD::SWXS(uint64 instruction
)
15818 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15819 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15820 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
15822 std::string rd
= GPR(copy(rd_value
));
15823 std::string rs
= GPR(copy(rs_value
));
15824 std::string rt
= GPR(copy(rt_value
));
15826 return img::format("SWXS %s, %s(%s)", rd
, rs
, rt
);
15831 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15834 * 10987654321098765432109876543210
15835 * 001000 00010001101
15840 std::string
NMD::SYNC(uint64 instruction
)
15842 uint64 stype_value
= extract_stype_20_19_18_17_16(instruction
);
15844 std::string stype
= IMMEDIATE(copy(stype_value
));
15846 return img::format("SYNC %s", stype
);
15851 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15854 * 10987654321098765432109876543210
15855 * 001000 00010001101
15860 std::string
NMD::SYNCI(uint64 instruction
)
15862 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15863 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
15865 std::string s
= IMMEDIATE(copy(s_value
));
15866 std::string rs
= GPR(copy(rs_value
));
15868 return img::format("SYNCI %s(%s)", s
, rs
);
15873 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15876 * 10987654321098765432109876543210
15877 * 001000 00010001101
15882 std::string
NMD::SYNCIE(uint64 instruction
)
15884 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15885 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
15887 std::string s
= IMMEDIATE(copy(s_value
));
15888 std::string rs
= GPR(copy(rs_value
));
15890 return img::format("SYNCIE %s(%s)", s
, rs
);
15895 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15898 * 10987654321098765432109876543210
15899 * 001000 00010001101
15904 std::string
NMD::SYSCALL_16_(uint64 instruction
)
15906 uint64 code_value
= extract_code_1_0(instruction
);
15908 std::string code
= IMMEDIATE(copy(code_value
));
15910 return img::format("SYSCALL %s", code
);
15915 * SYSCALL code - System Call. Cause a System Call Exception
15918 * 10987654321098765432109876543210
15920 * code ------------------
15922 std::string
NMD::SYSCALL_32_(uint64 instruction
)
15924 uint64 code_value
= extract_code_17_to_0(instruction
);
15926 std::string code
= IMMEDIATE(copy(code_value
));
15928 return img::format("SYSCALL %s", code
);
15933 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15936 * 10987654321098765432109876543210
15937 * 001000 00010001101
15942 std::string
NMD::TEQ(uint64 instruction
)
15944 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
15945 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
15947 std::string rs
= GPR(copy(rs_value
));
15948 std::string rt
= GPR(copy(rt_value
));
15950 return img::format("TEQ %s, %s", rs
, rt
);
15955 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15958 * 10987654321098765432109876543210
15959 * 001000 00010001101
15964 std::string
NMD::TLBGINV(uint64 instruction
)
15973 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15976 * 10987654321098765432109876543210
15977 * 001000 00010001101
15982 std::string
NMD::TLBGINVF(uint64 instruction
)
15986 return "TLBGINVF ";
15991 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
15994 * 10987654321098765432109876543210
15995 * 001000 00010001101
16000 std::string
NMD::TLBGP(uint64 instruction
)
16009 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16012 * 10987654321098765432109876543210
16013 * 001000 00010001101
16018 std::string
NMD::TLBGR(uint64 instruction
)
16027 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16030 * 10987654321098765432109876543210
16031 * 001000 00010001101
16036 std::string
NMD::TLBGWI(uint64 instruction
)
16045 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16048 * 10987654321098765432109876543210
16049 * 001000 00010001101
16054 std::string
NMD::TLBGWR(uint64 instruction
)
16063 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16066 * 10987654321098765432109876543210
16067 * 001000 00010001101
16072 std::string
NMD::TLBINV(uint64 instruction
)
16081 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16084 * 10987654321098765432109876543210
16085 * 001000 00010001101
16090 std::string
NMD::TLBINVF(uint64 instruction
)
16099 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16102 * 10987654321098765432109876543210
16103 * 001000 00010001101
16108 std::string
NMD::TLBP(uint64 instruction
)
16117 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16120 * 10987654321098765432109876543210
16121 * 001000 00010001101
16126 std::string
NMD::TLBR(uint64 instruction
)
16135 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16138 * 10987654321098765432109876543210
16139 * 001000 00010001101
16144 std::string
NMD::TLBWI(uint64 instruction
)
16153 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16156 * 10987654321098765432109876543210
16157 * 001000 00010001101
16162 std::string
NMD::TLBWR(uint64 instruction
)
16171 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16174 * 10987654321098765432109876543210
16175 * 001000 00010001101
16180 std::string
NMD::TNE(uint64 instruction
)
16182 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
16183 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
16185 std::string rs
= GPR(copy(rs_value
));
16186 std::string rt
= GPR(copy(rt_value
));
16188 return img::format("TNE %s, %s", rs
, rt
);
16193 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16196 * 10987654321098765432109876543210
16197 * 001000 00010001101
16202 std::string
NMD::TRUNC_L_D(uint64 instruction
)
16204 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
16205 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
16207 std::string ft
= FPR(copy(ft_value
));
16208 std::string fs
= FPR(copy(fs_value
));
16210 return img::format("TRUNC.L.D %s, %s", ft
, fs
);
16215 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16218 * 10987654321098765432109876543210
16219 * 001000 00010001101
16224 std::string
NMD::TRUNC_L_S(uint64 instruction
)
16226 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
16227 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
16229 std::string ft
= FPR(copy(ft_value
));
16230 std::string fs
= FPR(copy(fs_value
));
16232 return img::format("TRUNC.L.S %s, %s", ft
, fs
);
16237 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16240 * 10987654321098765432109876543210
16241 * 001000 00010001101
16246 std::string
NMD::TRUNC_W_D(uint64 instruction
)
16248 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
16249 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
16251 std::string ft
= FPR(copy(ft_value
));
16252 std::string fs
= FPR(copy(fs_value
));
16254 return img::format("TRUNC.W.D %s, %s", ft
, fs
);
16259 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16262 * 10987654321098765432109876543210
16263 * 001000 00010001101
16268 std::string
NMD::TRUNC_W_S(uint64 instruction
)
16270 uint64 ft_value
= extract_ft_25_24_23_22_21(instruction
);
16271 uint64 fs_value
= extract_fs_20_19_18_17_16(instruction
);
16273 std::string ft
= FPR(copy(ft_value
));
16274 std::string fs
= FPR(copy(fs_value
));
16276 return img::format("TRUNC.W.S %s, %s", ft
, fs
);
16281 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16284 * 10987654321098765432109876543210
16285 * 001000 00010001101
16290 std::string
NMD::UALDM(uint64 instruction
)
16292 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
16293 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
16294 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
16295 uint64 count3_value
= extract_count3_14_13_12(instruction
);
16297 std::string rt
= GPR(copy(rt_value
));
16298 std::string s
= IMMEDIATE(copy(s_value
));
16299 std::string rs
= GPR(copy(rs_value
));
16300 std::string count3
= IMMEDIATE(encode_count3_from_count(count3_value
));
16302 return img::format("UALDM %s, %s(%s), %s", rt
, s
, rs
, count3
);
16307 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16310 * 10987654321098765432109876543210
16311 * 001000 00010001101
16316 std::string
NMD::UALH(uint64 instruction
)
16318 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
16319 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
16320 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
16322 std::string rt
= GPR(copy(rt_value
));
16323 std::string s
= IMMEDIATE(copy(s_value
));
16324 std::string rs
= GPR(copy(rs_value
));
16326 return img::format("UALH %s, %s(%s)", rt
, s
, rs
);
16331 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16334 * 10987654321098765432109876543210
16335 * 001000 00010001101
16340 std::string
NMD::UALWM(uint64 instruction
)
16342 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
16343 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
16344 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
16345 uint64 count3_value
= extract_count3_14_13_12(instruction
);
16347 std::string rt
= GPR(copy(rt_value
));
16348 std::string s
= IMMEDIATE(copy(s_value
));
16349 std::string rs
= GPR(copy(rs_value
));
16350 std::string count3
= IMMEDIATE(encode_count3_from_count(count3_value
));
16352 return img::format("UALWM %s, %s(%s), %s", rt
, s
, rs
, count3
);
16357 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16360 * 10987654321098765432109876543210
16361 * 001000 00010001101
16366 std::string
NMD::UASDM(uint64 instruction
)
16368 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
16369 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
16370 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
16371 uint64 count3_value
= extract_count3_14_13_12(instruction
);
16373 std::string rt
= GPR(copy(rt_value
));
16374 std::string s
= IMMEDIATE(copy(s_value
));
16375 std::string rs
= GPR(copy(rs_value
));
16376 std::string count3
= IMMEDIATE(encode_count3_from_count(count3_value
));
16378 return img::format("UASDM %s, %s(%s), %s", rt
, s
, rs
, count3
);
16383 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16386 * 10987654321098765432109876543210
16387 * 001000 00010001101
16392 std::string
NMD::UASH(uint64 instruction
)
16394 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
16395 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
16396 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
16398 std::string rt
= GPR(copy(rt_value
));
16399 std::string s
= IMMEDIATE(copy(s_value
));
16400 std::string rs
= GPR(copy(rs_value
));
16402 return img::format("UASH %s, %s(%s)", rt
, s
, rs
);
16407 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16410 * 10987654321098765432109876543210
16411 * 001000 00010001101
16416 std::string
NMD::UASWM(uint64 instruction
)
16418 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
16419 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
16420 int64 s_value
= extract_s__se8_15_7_6_5_4_3_2_1_0(instruction
);
16421 uint64 count3_value
= extract_count3_14_13_12(instruction
);
16423 std::string rt
= GPR(copy(rt_value
));
16424 std::string s
= IMMEDIATE(copy(s_value
));
16425 std::string rs
= GPR(copy(rs_value
));
16426 std::string count3
= IMMEDIATE(encode_count3_from_count(count3_value
));
16428 return img::format("UASWM %s, %s(%s), %s", rt
, s
, rs
, count3
);
16433 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16436 * 10987654321098765432109876543210
16437 * 001000 00010001101
16442 std::string
NMD::UDI(uint64 instruction
)
16444 uint64 op_value
= extract_op_25_to_3(instruction
);
16446 std::string op
= IMMEDIATE(copy(op_value
));
16448 return img::format("UDI %s", op
);
16453 * WAIT code - Enter Wait State
16456 * 10987654321098765432109876543210
16457 * 001000 1100001101111111
16460 std::string
NMD::WAIT(uint64 instruction
)
16462 uint64 code_value
= extract_code_25_24_23_22_21_20_19_18_17_16(instruction
);
16464 std::string code
= IMMEDIATE(copy(code_value
));
16466 return img::format("WAIT %s", code
);
16471 * [DSP] WRDSP rt, mask - Write selected fields from a GPR to the DSPControl
16475 * 10987654321098765432109876543210
16476 * 001000 01011001111111
16480 std::string
NMD::WRDSP(uint64 instruction
)
16482 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
16483 uint64 mask_value
= extract_mask_20_19_18_17_16_15_14(instruction
);
16485 std::string rt
= GPR(copy(rt_value
));
16486 std::string mask
= IMMEDIATE(copy(mask_value
));
16488 return img::format("WRDSP %s, %s", rt
, mask
);
16493 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16496 * 10987654321098765432109876543210
16497 * 001000 00010001101
16502 std::string
NMD::WRPGPR(uint64 instruction
)
16504 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
16505 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
16507 std::string rt
= GPR(copy(rt_value
));
16508 std::string rs
= GPR(copy(rs_value
));
16510 return img::format("WRPGPR %s, %s", rt
, rs
);
16515 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16518 * 10987654321098765432109876543210
16519 * 001000 00010001101
16524 std::string
NMD::XOR_16_(uint64 instruction
)
16526 uint64 rt3_value
= extract_rt3_9_8_7(instruction
);
16527 uint64 rs3_value
= extract_rs3_6_5_4(instruction
);
16529 std::string rs3
= GPR(decode_gpr_gpr3(rs3_value
));
16530 std::string rt3
= GPR(decode_gpr_gpr3(rt3_value
));
16532 return img::format("XOR %s, %s", rs3
, rt3
);
16537 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16540 * 10987654321098765432109876543210
16541 * 001000 00010001101
16546 std::string
NMD::XOR_32_(uint64 instruction
)
16548 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
16549 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
16550 uint64 rd_value
= extract_rd_15_14_13_12_11(instruction
);
16552 std::string rd
= GPR(copy(rd_value
));
16553 std::string rs
= GPR(copy(rs_value
));
16554 std::string rt
= GPR(copy(rt_value
));
16556 return img::format("XOR %s, %s, %s", rd
, rs
, rt
);
16561 * ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
16564 * 10987654321098765432109876543210
16565 * 001000 00010001101
16570 std::string
NMD::XORI(uint64 instruction
)
16572 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
16573 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
16574 uint64 u_value
= extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction
);
16576 std::string rt
= GPR(copy(rt_value
));
16577 std::string rs
= GPR(copy(rs_value
));
16578 std::string u
= IMMEDIATE(copy(u_value
));
16580 return img::format("XORI %s, %s, %s", rt
, rs
, u
);
16588 * 10987654321098765432109876543210
16589 * 001000 00010001101
16593 std::string
NMD::YIELD(uint64 instruction
)
16595 uint64 rt_value
= extract_rt_25_24_23_22_21(instruction
);
16596 uint64 rs_value
= extract_rs_20_19_18_17_16(instruction
);
16598 std::string rt
= GPR(copy(rt_value
));
16599 std::string rs
= GPR(copy(rs_value
));
16601 return img::format("YIELD %s, %s", rt
, rs
);
16607 * nanoMIPS instruction pool organization
16608 * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
16611 * āā P.ADDIU āāā P.RI āāā P.SYSCALL
16613 * ā āā P.TRAP
16615 * ā āā _POOL32A0_0 āā¼ā P.CMOVE
16617 * ā ā āā P.SLTU
16618 * ā āā _POOL32A0 āā¤
16621 * ā ā āā _POOL32A0_1 āāā CRC32
16623 * āā P32A āā¤
16624 * ā ā āā PP.LSX
16625 * ā ā āā P.LSX āāāāāā¤
16626 * ā ā ā āā PP.LSXS
16627 * ā āā _POOL32A7 āā¤
16628 * ā ā āā POOL32Axf_4
16629 * ā āā POOL32Axf āā¤
16630 * ā āā POOL32Axf_5
16634 * āā P.GP.W āā PP.LSX
16635 * āā P32 āā¤ ā
16636 * ā āā P.GP.BH āā“ā PP.LSXS
16638 * ā āā P.J āāāāāāā PP.BALRSC
16641 * ā ā āā P.SR
16643 * ā ā āā P.SHIFT
16645 * ā āā P.U12 āāāā¼ā P.ROTX
16647 * ā ā āā P.INS
16649 * ā ā āā P.EXT
16651 * ā āā P.LS.U12 āā P.PREF.U12
16653 * ā āā P.BR1 āāāāā P.BR3A
16655 * ā ā āā P.LS.S0 āāā P16.SYSCALL
16657 * ā ā ā āā P.LL
16658 * ā ā āā P.LS.S1 āā¤
16659 * ā ā ā āā P.SC
16661 * ā ā ā āā P.PREFE
16662 * MAJOR āā¤ āā P.LS.S9 āā¤ ā
16663 * ā ā āā P.LS.E0 āā¼ā P.LLE
16665 * ā ā ā āā P.SCE
16667 * ā ā āā P.LS.WM
16669 * ā ā āā P.LS.UAWM
16679 * ā āā P16.MV āāāā P16.RI āāā P16.SYSCALL
16681 * ā āā P16.SR
16683 * ā āā P16.SHIFT
16685 * ā āā P16.4x4
16687 * ā āā P16C āāāāāā POOL16C_0 āā POOL16C_00
16689 * āā P16 āā¼ā P16.LB
16695 * āā P16.A2 āāāā P.ADDIU[RS5]
16699 * āā P16.BR āāā¬ā P16.JRC
16704 * (FP, DPS, and some minor instruction pools are omitted from the diagram)
16708 NMD::Pool
NMD::P_SYSCALL
[2] = {
16709 { instruction
, 0 , 0 , 32,
16710 0xfffc0000, 0x00080000, &NMD::SYSCALL_32_
, 0,
16711 0x0 }, /* SYSCALL[32] */
16712 { instruction
, 0 , 0 , 32,
16713 0xfffc0000, 0x000c0000, &NMD::HYPCALL
, 0,
16714 CP0_
| VZ_
}, /* HYPCALL */
16718 NMD::Pool
NMD::P_RI
[4] = {
16719 { instruction
, 0 , 0 , 32,
16720 0xfff80000, 0x00000000, &NMD::SIGRIE
, 0,
16721 0x0 }, /* SIGRIE */
16722 { pool
, P_SYSCALL
, 2 , 32,
16723 0xfff80000, 0x00080000, 0 , 0,
16724 0x0 }, /* P.SYSCALL */
16725 { instruction
, 0 , 0 , 32,
16726 0xfff80000, 0x00100000, &NMD::BREAK_32_
, 0,
16727 0x0 }, /* BREAK[32] */
16728 { instruction
, 0 , 0 , 32,
16729 0xfff80000, 0x00180000, &NMD::SDBBP_32_
, 0,
16730 EJTAG_
}, /* SDBBP[32] */
16734 NMD::Pool
NMD::P_ADDIU
[2] = {
16735 { pool
, P_RI
, 4 , 32,
16736 0xffe00000, 0x00000000, 0 , 0,
16738 { instruction
, 0 , 0 , 32,
16739 0xfc000000, 0x00000000, &NMD::ADDIU_32_
, &NMD::ADDIU_32__cond
,
16740 0x0 }, /* ADDIU[32] */
16744 NMD::Pool
NMD::P_TRAP
[2] = {
16745 { instruction
, 0 , 0 , 32,
16746 0xfc0007ff, 0x20000000, &NMD::TEQ
, 0,
16748 { instruction
, 0 , 0 , 32,
16749 0xfc0007ff, 0x20000400, &NMD::TNE
, 0,
16754 NMD::Pool
NMD::P_CMOVE
[2] = {
16755 { instruction
, 0 , 0 , 32,
16756 0xfc0007ff, 0x20000210, &NMD::MOVZ
, 0,
16758 { instruction
, 0 , 0 , 32,
16759 0xfc0007ff, 0x20000610, &NMD::MOVN
, 0,
16764 NMD::Pool
NMD::P_D_MT_VPE
[2] = {
16765 { instruction
, 0 , 0 , 32,
16766 0xfc1f3fff, 0x20010ab0, &NMD::DMT
, 0,
16768 { instruction
, 0 , 0 , 32,
16769 0xfc1f3fff, 0x20000ab0, &NMD::DVPE
, 0,
16774 NMD::Pool
NMD::P_E_MT_VPE
[2] = {
16775 { instruction
, 0 , 0 , 32,
16776 0xfc1f3fff, 0x20010eb0, &NMD::EMT
, 0,
16778 { instruction
, 0 , 0 , 32,
16779 0xfc1f3fff, 0x20000eb0, &NMD::EVPE
, 0,
16784 NMD::Pool
NMD::_P_MT_VPE
[2] = {
16785 { pool
, P_D_MT_VPE
, 2 , 32,
16786 0xfc003fff, 0x20000ab0, 0 , 0,
16787 0x0 }, /* P.D_MT_VPE */
16788 { pool
, P_E_MT_VPE
, 2 , 32,
16789 0xfc003fff, 0x20000eb0, 0 , 0,
16790 0x0 }, /* P.E_MT_VPE */
16794 NMD::Pool
NMD::P_MT_VPE
[8] = {
16795 { reserved_block
, 0 , 0 , 32,
16796 0xfc003bff, 0x200002b0, 0 , 0,
16797 0x0 }, /* P.MT_VPE~*(0) */
16798 { pool
, _P_MT_VPE
, 2 , 32,
16799 0xfc003bff, 0x20000ab0, 0 , 0,
16800 0x0 }, /* _P.MT_VPE */
16801 { reserved_block
, 0 , 0 , 32,
16802 0xfc003bff, 0x200012b0, 0 , 0,
16803 0x0 }, /* P.MT_VPE~*(2) */
16804 { reserved_block
, 0 , 0 , 32,
16805 0xfc003bff, 0x20001ab0, 0 , 0,
16806 0x0 }, /* P.MT_VPE~*(3) */
16807 { reserved_block
, 0 , 0 , 32,
16808 0xfc003bff, 0x200022b0, 0 , 0,
16809 0x0 }, /* P.MT_VPE~*(4) */
16810 { reserved_block
, 0 , 0 , 32,
16811 0xfc003bff, 0x20002ab0, 0 , 0,
16812 0x0 }, /* P.MT_VPE~*(5) */
16813 { reserved_block
, 0 , 0 , 32,
16814 0xfc003bff, 0x200032b0, 0 , 0,
16815 0x0 }, /* P.MT_VPE~*(6) */
16816 { reserved_block
, 0 , 0 , 32,
16817 0xfc003bff, 0x20003ab0, 0 , 0,
16818 0x0 }, /* P.MT_VPE~*(7) */
16822 NMD::Pool
NMD::P_DVP
[2] = {
16823 { instruction
, 0 , 0 , 32,
16824 0xfc00ffff, 0x20000390, &NMD::DVP
, 0,
16826 { instruction
, 0 , 0 , 32,
16827 0xfc00ffff, 0x20000790, &NMD::EVP
, 0,
16832 NMD::Pool
NMD::P_SLTU
[2] = {
16833 { pool
, P_DVP
, 2 , 32,
16834 0xfc00fbff, 0x20000390, 0 , 0,
16836 { instruction
, 0 , 0 , 32,
16837 0xfc0003ff, 0x20000390, &NMD::SLTU
, &NMD::SLTU_cond
,
16842 NMD::Pool
NMD::_POOL32A0
[128] = {
16843 { pool
, P_TRAP
, 2 , 32,
16844 0xfc0003ff, 0x20000000, 0 , 0,
16845 0x0 }, /* P.TRAP */
16846 { instruction
, 0 , 0 , 32,
16847 0xfc0003ff, 0x20000008, &NMD::SEB
, 0,
16849 { instruction
, 0 , 0 , 32,
16850 0xfc0003ff, 0x20000010, &NMD::SLLV
, 0,
16852 { instruction
, 0 , 0 , 32,
16853 0xfc0003ff, 0x20000018, &NMD::MUL_32_
, 0,
16854 0x0 }, /* MUL[32] */
16855 { reserved_block
, 0 , 0 , 32,
16856 0xfc0003ff, 0x20000020, 0 , 0,
16857 0x0 }, /* _POOL32A0~*(4) */
16858 { reserved_block
, 0 , 0 , 32,
16859 0xfc0003ff, 0x20000028, 0 , 0,
16860 0x0 }, /* _POOL32A0~*(5) */
16861 { instruction
, 0 , 0 , 32,
16862 0xfc0003ff, 0x20000030, &NMD::MFC0
, 0,
16864 { instruction
, 0 , 0 , 32,
16865 0xfc0003ff, 0x20000038, &NMD::MFHC0
, 0,
16866 CP0_
| MVH_
}, /* MFHC0 */
16867 { reserved_block
, 0 , 0 , 32,
16868 0xfc0003ff, 0x20000040, 0 , 0,
16869 0x0 }, /* _POOL32A0~*(8) */
16870 { instruction
, 0 , 0 , 32,
16871 0xfc0003ff, 0x20000048, &NMD::SEH
, 0,
16873 { instruction
, 0 , 0 , 32,
16874 0xfc0003ff, 0x20000050, &NMD::SRLV
, 0,
16876 { instruction
, 0 , 0 , 32,
16877 0xfc0003ff, 0x20000058, &NMD::MUH
, 0,
16879 { reserved_block
, 0 , 0 , 32,
16880 0xfc0003ff, 0x20000060, 0 , 0,
16881 0x0 }, /* _POOL32A0~*(12) */
16882 { reserved_block
, 0 , 0 , 32,
16883 0xfc0003ff, 0x20000068, 0 , 0,
16884 0x0 }, /* _POOL32A0~*(13) */
16885 { instruction
, 0 , 0 , 32,
16886 0xfc0003ff, 0x20000070, &NMD::MTC0
, 0,
16888 { instruction
, 0 , 0 , 32,
16889 0xfc0003ff, 0x20000078, &NMD::MTHC0
, 0,
16890 CP0_
| MVH_
}, /* MTHC0 */
16891 { reserved_block
, 0 , 0 , 32,
16892 0xfc0003ff, 0x20000080, 0 , 0,
16893 0x0 }, /* _POOL32A0~*(16) */
16894 { reserved_block
, 0 , 0 , 32,
16895 0xfc0003ff, 0x20000088, 0 , 0,
16896 0x0 }, /* _POOL32A0~*(17) */
16897 { instruction
, 0 , 0 , 32,
16898 0xfc0003ff, 0x20000090, &NMD::SRAV
, 0,
16900 { instruction
, 0 , 0 , 32,
16901 0xfc0003ff, 0x20000098, &NMD::MULU
, 0,
16903 { reserved_block
, 0 , 0 , 32,
16904 0xfc0003ff, 0x200000a0, 0 , 0,
16905 0x0 }, /* _POOL32A0~*(20) */
16906 { reserved_block
, 0 , 0 , 32,
16907 0xfc0003ff, 0x200000a8, 0 , 0,
16908 0x0 }, /* _POOL32A0~*(21) */
16909 { instruction
, 0 , 0 , 32,
16910 0xfc0003ff, 0x200000b0, &NMD::MFGC0
, 0,
16911 CP0_
| VZ_
}, /* MFGC0 */
16912 { instruction
, 0 , 0 , 32,
16913 0xfc0003ff, 0x200000b8, &NMD::MFHGC0
, 0,
16914 CP0_
| VZ_
| MVH_
}, /* MFHGC0 */
16915 { reserved_block
, 0 , 0 , 32,
16916 0xfc0003ff, 0x200000c0, 0 , 0,
16917 0x0 }, /* _POOL32A0~*(24) */
16918 { reserved_block
, 0 , 0 , 32,
16919 0xfc0003ff, 0x200000c8, 0 , 0,
16920 0x0 }, /* _POOL32A0~*(25) */
16921 { instruction
, 0 , 0 , 32,
16922 0xfc0003ff, 0x200000d0, &NMD::ROTRV
, 0,
16924 { instruction
, 0 , 0 , 32,
16925 0xfc0003ff, 0x200000d8, &NMD::MUHU
, 0,
16927 { reserved_block
, 0 , 0 , 32,
16928 0xfc0003ff, 0x200000e0, 0 , 0,
16929 0x0 }, /* _POOL32A0~*(28) */
16930 { reserved_block
, 0 , 0 , 32,
16931 0xfc0003ff, 0x200000e8, 0 , 0,
16932 0x0 }, /* _POOL32A0~*(29) */
16933 { instruction
, 0 , 0 , 32,
16934 0xfc0003ff, 0x200000f0, &NMD::MTGC0
, 0,
16935 CP0_
| VZ_
}, /* MTGC0 */
16936 { instruction
, 0 , 0 , 32,
16937 0xfc0003ff, 0x200000f8, &NMD::MTHGC0
, 0,
16938 CP0_
| VZ_
| MVH_
}, /* MTHGC0 */
16939 { reserved_block
, 0 , 0 , 32,
16940 0xfc0003ff, 0x20000100, 0 , 0,
16941 0x0 }, /* _POOL32A0~*(32) */
16942 { reserved_block
, 0 , 0 , 32,
16943 0xfc0003ff, 0x20000108, 0 , 0,
16944 0x0 }, /* _POOL32A0~*(33) */
16945 { instruction
, 0 , 0 , 32,
16946 0xfc0003ff, 0x20000110, &NMD::ADD
, 0,
16948 { instruction
, 0 , 0 , 32,
16949 0xfc0003ff, 0x20000118, &NMD::DIV
, 0,
16951 { reserved_block
, 0 , 0 , 32,
16952 0xfc0003ff, 0x20000120, 0 , 0,
16953 0x0 }, /* _POOL32A0~*(36) */
16954 { reserved_block
, 0 , 0 , 32,
16955 0xfc0003ff, 0x20000128, 0 , 0,
16956 0x0 }, /* _POOL32A0~*(37) */
16957 { instruction
, 0 , 0 , 32,
16958 0xfc0003ff, 0x20000130, &NMD::DMFC0
, 0,
16959 CP0_
| MIPS64_
}, /* DMFC0 */
16960 { reserved_block
, 0 , 0 , 32,
16961 0xfc0003ff, 0x20000138, 0 , 0,
16962 0x0 }, /* _POOL32A0~*(39) */
16963 { reserved_block
, 0 , 0 , 32,
16964 0xfc0003ff, 0x20000140, 0 , 0,
16965 0x0 }, /* _POOL32A0~*(40) */
16966 { reserved_block
, 0 , 0 , 32,
16967 0xfc0003ff, 0x20000148, 0 , 0,
16968 0x0 }, /* _POOL32A0~*(41) */
16969 { instruction
, 0 , 0 , 32,
16970 0xfc0003ff, 0x20000150, &NMD::ADDU_32_
, 0,
16971 0x0 }, /* ADDU[32] */
16972 { instruction
, 0 , 0 , 32,
16973 0xfc0003ff, 0x20000158, &NMD::MOD
, 0,
16975 { reserved_block
, 0 , 0 , 32,
16976 0xfc0003ff, 0x20000160, 0 , 0,
16977 0x0 }, /* _POOL32A0~*(44) */
16978 { reserved_block
, 0 , 0 , 32,
16979 0xfc0003ff, 0x20000168, 0 , 0,
16980 0x0 }, /* _POOL32A0~*(45) */
16981 { instruction
, 0 , 0 , 32,
16982 0xfc0003ff, 0x20000170, &NMD::DMTC0
, 0,
16983 CP0_
| MIPS64_
}, /* DMTC0 */
16984 { reserved_block
, 0 , 0 , 32,
16985 0xfc0003ff, 0x20000178, 0 , 0,
16986 0x0 }, /* _POOL32A0~*(47) */
16987 { reserved_block
, 0 , 0 , 32,
16988 0xfc0003ff, 0x20000180, 0 , 0,
16989 0x0 }, /* _POOL32A0~*(48) */
16990 { reserved_block
, 0 , 0 , 32,
16991 0xfc0003ff, 0x20000188, 0 , 0,
16992 0x0 }, /* _POOL32A0~*(49) */
16993 { instruction
, 0 , 0 , 32,
16994 0xfc0003ff, 0x20000190, &NMD::SUB
, 0,
16996 { instruction
, 0 , 0 , 32,
16997 0xfc0003ff, 0x20000198, &NMD::DIVU
, 0,
16999 { reserved_block
, 0 , 0 , 32,
17000 0xfc0003ff, 0x200001a0, 0 , 0,
17001 0x0 }, /* _POOL32A0~*(52) */
17002 { reserved_block
, 0 , 0 , 32,
17003 0xfc0003ff, 0x200001a8, 0 , 0,
17004 0x0 }, /* _POOL32A0~*(53) */
17005 { instruction
, 0 , 0 , 32,
17006 0xfc0003ff, 0x200001b0, &NMD::DMFGC0
, 0,
17007 CP0_
| MIPS64_
| VZ_
}, /* DMFGC0 */
17008 { reserved_block
, 0 , 0 , 32,
17009 0xfc0003ff, 0x200001b8, 0 , 0,
17010 0x0 }, /* _POOL32A0~*(55) */
17011 { instruction
, 0 , 0 , 32,
17012 0xfc0003ff, 0x200001c0, &NMD::RDHWR
, 0,
17013 XMMS_
}, /* RDHWR */
17014 { reserved_block
, 0 , 0 , 32,
17015 0xfc0003ff, 0x200001c8, 0 , 0,
17016 0x0 }, /* _POOL32A0~*(57) */
17017 { instruction
, 0 , 0 , 32,
17018 0xfc0003ff, 0x200001d0, &NMD::SUBU_32_
, 0,
17019 0x0 }, /* SUBU[32] */
17020 { instruction
, 0 , 0 , 32,
17021 0xfc0003ff, 0x200001d8, &NMD::MODU
, 0,
17023 { reserved_block
, 0 , 0 , 32,
17024 0xfc0003ff, 0x200001e0, 0 , 0,
17025 0x0 }, /* _POOL32A0~*(60) */
17026 { reserved_block
, 0 , 0 , 32,
17027 0xfc0003ff, 0x200001e8, 0 , 0,
17028 0x0 }, /* _POOL32A0~*(61) */
17029 { instruction
, 0 , 0 , 32,
17030 0xfc0003ff, 0x200001f0, &NMD::DMTGC0
, 0,
17031 CP0_
| MIPS64_
| VZ_
}, /* DMTGC0 */
17032 { reserved_block
, 0 , 0 , 32,
17033 0xfc0003ff, 0x200001f8, 0 , 0,
17034 0x0 }, /* _POOL32A0~*(63) */
17035 { reserved_block
, 0 , 0 , 32,
17036 0xfc0003ff, 0x20000200, 0 , 0,
17037 0x0 }, /* _POOL32A0~*(64) */
17038 { reserved_block
, 0 , 0 , 32,
17039 0xfc0003ff, 0x20000208, 0 , 0,
17040 0x0 }, /* _POOL32A0~*(65) */
17041 { pool
, P_CMOVE
, 2 , 32,
17042 0xfc0003ff, 0x20000210, 0 , 0,
17043 0x0 }, /* P.CMOVE */
17044 { reserved_block
, 0 , 0 , 32,
17045 0xfc0003ff, 0x20000218, 0 , 0,
17046 0x0 }, /* _POOL32A0~*(67) */
17047 { reserved_block
, 0 , 0 , 32,
17048 0xfc0003ff, 0x20000220, 0 , 0,
17049 0x0 }, /* _POOL32A0~*(68) */
17050 { instruction
, 0 , 0 , 32,
17051 0xfc0003ff, 0x20000228, &NMD::FORK
, 0,
17053 { instruction
, 0 , 0 , 32,
17054 0xfc0003ff, 0x20000230, &NMD::MFTR
, 0,
17056 { instruction
, 0 , 0 , 32,
17057 0xfc0003ff, 0x20000238, &NMD::MFHTR
, 0,
17059 { reserved_block
, 0 , 0 , 32,
17060 0xfc0003ff, 0x20000240, 0 , 0,
17061 0x0 }, /* _POOL32A0~*(72) */
17062 { reserved_block
, 0 , 0 , 32,
17063 0xfc0003ff, 0x20000248, 0 , 0,
17064 0x0 }, /* _POOL32A0~*(73) */
17065 { instruction
, 0 , 0 , 32,
17066 0xfc0003ff, 0x20000250, &NMD::AND_32_
, 0,
17067 0x0 }, /* AND[32] */
17068 { reserved_block
, 0 , 0 , 32,
17069 0xfc0003ff, 0x20000258, 0 , 0,
17070 0x0 }, /* _POOL32A0~*(75) */
17071 { reserved_block
, 0 , 0 , 32,
17072 0xfc0003ff, 0x20000260, 0 , 0,
17073 0x0 }, /* _POOL32A0~*(76) */
17074 { instruction
, 0 , 0 , 32,
17075 0xfc0003ff, 0x20000268, &NMD::YIELD
, 0,
17077 { instruction
, 0 , 0 , 32,
17078 0xfc0003ff, 0x20000270, &NMD::MTTR
, 0,
17080 { instruction
, 0 , 0 , 32,
17081 0xfc0003ff, 0x20000278, &NMD::MTHTR
, 0,
17083 { reserved_block
, 0 , 0 , 32,
17084 0xfc0003ff, 0x20000280, 0 , 0,
17085 0x0 }, /* _POOL32A0~*(80) */
17086 { reserved_block
, 0 , 0 , 32,
17087 0xfc0003ff, 0x20000288, 0 , 0,
17088 0x0 }, /* _POOL32A0~*(81) */
17089 { instruction
, 0 , 0 , 32,
17090 0xfc0003ff, 0x20000290, &NMD::OR_32_
, 0,
17091 0x0 }, /* OR[32] */
17092 { reserved_block
, 0 , 0 , 32,
17093 0xfc0003ff, 0x20000298, 0 , 0,
17094 0x0 }, /* _POOL32A0~*(83) */
17095 { reserved_block
, 0 , 0 , 32,
17096 0xfc0003ff, 0x200002a0, 0 , 0,
17097 0x0 }, /* _POOL32A0~*(84) */
17098 { reserved_block
, 0 , 0 , 32,
17099 0xfc0003ff, 0x200002a8, 0 , 0,
17100 0x0 }, /* _POOL32A0~*(85) */
17101 { pool
, P_MT_VPE
, 8 , 32,
17102 0xfc0003ff, 0x200002b0, 0 , 0,
17103 0x0 }, /* P.MT_VPE */
17104 { reserved_block
, 0 , 0 , 32,
17105 0xfc0003ff, 0x200002b8, 0 , 0,
17106 0x0 }, /* _POOL32A0~*(87) */
17107 { reserved_block
, 0 , 0 , 32,
17108 0xfc0003ff, 0x200002c0, 0 , 0,
17109 0x0 }, /* _POOL32A0~*(88) */
17110 { reserved_block
, 0 , 0 , 32,
17111 0xfc0003ff, 0x200002c8, 0 , 0,
17112 0x0 }, /* _POOL32A0~*(89) */
17113 { instruction
, 0 , 0 , 32,
17114 0xfc0003ff, 0x200002d0, &NMD::NOR
, 0,
17116 { reserved_block
, 0 , 0 , 32,
17117 0xfc0003ff, 0x200002d8, 0 , 0,
17118 0x0 }, /* _POOL32A0~*(91) */
17119 { reserved_block
, 0 , 0 , 32,
17120 0xfc0003ff, 0x200002e0, 0 , 0,
17121 0x0 }, /* _POOL32A0~*(92) */
17122 { reserved_block
, 0 , 0 , 32,
17123 0xfc0003ff, 0x200002e8, 0 , 0,
17124 0x0 }, /* _POOL32A0~*(93) */
17125 { reserved_block
, 0 , 0 , 32,
17126 0xfc0003ff, 0x200002f0, 0 , 0,
17127 0x0 }, /* _POOL32A0~*(94) */
17128 { reserved_block
, 0 , 0 , 32,
17129 0xfc0003ff, 0x200002f8, 0 , 0,
17130 0x0 }, /* _POOL32A0~*(95) */
17131 { reserved_block
, 0 , 0 , 32,
17132 0xfc0003ff, 0x20000300, 0 , 0,
17133 0x0 }, /* _POOL32A0~*(96) */
17134 { reserved_block
, 0 , 0 , 32,
17135 0xfc0003ff, 0x20000308, 0 , 0,
17136 0x0 }, /* _POOL32A0~*(97) */
17137 { instruction
, 0 , 0 , 32,
17138 0xfc0003ff, 0x20000310, &NMD::XOR_32_
, 0,
17139 0x0 }, /* XOR[32] */
17140 { reserved_block
, 0 , 0 , 32,
17141 0xfc0003ff, 0x20000318, 0 , 0,
17142 0x0 }, /* _POOL32A0~*(99) */
17143 { reserved_block
, 0 , 0 , 32,
17144 0xfc0003ff, 0x20000320, 0 , 0,
17145 0x0 }, /* _POOL32A0~*(100) */
17146 { reserved_block
, 0 , 0 , 32,
17147 0xfc0003ff, 0x20000328, 0 , 0,
17148 0x0 }, /* _POOL32A0~*(101) */
17149 { reserved_block
, 0 , 0 , 32,
17150 0xfc0003ff, 0x20000330, 0 , 0,
17151 0x0 }, /* _POOL32A0~*(102) */
17152 { reserved_block
, 0 , 0 , 32,
17153 0xfc0003ff, 0x20000338, 0 , 0,
17154 0x0 }, /* _POOL32A0~*(103) */
17155 { reserved_block
, 0 , 0 , 32,
17156 0xfc0003ff, 0x20000340, 0 , 0,
17157 0x0 }, /* _POOL32A0~*(104) */
17158 { reserved_block
, 0 , 0 , 32,
17159 0xfc0003ff, 0x20000348, 0 , 0,
17160 0x0 }, /* _POOL32A0~*(105) */
17161 { instruction
, 0 , 0 , 32,
17162 0xfc0003ff, 0x20000350, &NMD::SLT
, 0,
17164 { reserved_block
, 0 , 0 , 32,
17165 0xfc0003ff, 0x20000358, 0 , 0,
17166 0x0 }, /* _POOL32A0~*(107) */
17167 { reserved_block
, 0 , 0 , 32,
17168 0xfc0003ff, 0x20000360, 0 , 0,
17169 0x0 }, /* _POOL32A0~*(108) */
17170 { reserved_block
, 0 , 0 , 32,
17171 0xfc0003ff, 0x20000368, 0 , 0,
17172 0x0 }, /* _POOL32A0~*(109) */
17173 { reserved_block
, 0 , 0 , 32,
17174 0xfc0003ff, 0x20000370, 0 , 0,
17175 0x0 }, /* _POOL32A0~*(110) */
17176 { reserved_block
, 0 , 0 , 32,
17177 0xfc0003ff, 0x20000378, 0 , 0,
17178 0x0 }, /* _POOL32A0~*(111) */
17179 { reserved_block
, 0 , 0 , 32,
17180 0xfc0003ff, 0x20000380, 0 , 0,
17181 0x0 }, /* _POOL32A0~*(112) */
17182 { reserved_block
, 0 , 0 , 32,
17183 0xfc0003ff, 0x20000388, 0 , 0,
17184 0x0 }, /* _POOL32A0~*(113) */
17185 { pool
, P_SLTU
, 2 , 32,
17186 0xfc0003ff, 0x20000390, 0 , 0,
17187 0x0 }, /* P.SLTU */
17188 { reserved_block
, 0 , 0 , 32,
17189 0xfc0003ff, 0x20000398, 0 , 0,
17190 0x0 }, /* _POOL32A0~*(115) */
17191 { reserved_block
, 0 , 0 , 32,
17192 0xfc0003ff, 0x200003a0, 0 , 0,
17193 0x0 }, /* _POOL32A0~*(116) */
17194 { reserved_block
, 0 , 0 , 32,
17195 0xfc0003ff, 0x200003a8, 0 , 0,
17196 0x0 }, /* _POOL32A0~*(117) */
17197 { reserved_block
, 0 , 0 , 32,
17198 0xfc0003ff, 0x200003b0, 0 , 0,
17199 0x0 }, /* _POOL32A0~*(118) */
17200 { reserved_block
, 0 , 0 , 32,
17201 0xfc0003ff, 0x200003b8, 0 , 0,
17202 0x0 }, /* _POOL32A0~*(119) */
17203 { reserved_block
, 0 , 0 , 32,
17204 0xfc0003ff, 0x200003c0, 0 , 0,
17205 0x0 }, /* _POOL32A0~*(120) */
17206 { reserved_block
, 0 , 0 , 32,
17207 0xfc0003ff, 0x200003c8, 0 , 0,
17208 0x0 }, /* _POOL32A0~*(121) */
17209 { instruction
, 0 , 0 , 32,
17210 0xfc0003ff, 0x200003d0, &NMD::SOV
, 0,
17212 { reserved_block
, 0 , 0 , 32,
17213 0xfc0003ff, 0x200003d8, 0 , 0,
17214 0x0 }, /* _POOL32A0~*(123) */
17215 { reserved_block
, 0 , 0 , 32,
17216 0xfc0003ff, 0x200003e0, 0 , 0,
17217 0x0 }, /* _POOL32A0~*(124) */
17218 { reserved_block
, 0 , 0 , 32,
17219 0xfc0003ff, 0x200003e8, 0 , 0,
17220 0x0 }, /* _POOL32A0~*(125) */
17221 { reserved_block
, 0 , 0 , 32,
17222 0xfc0003ff, 0x200003f0, 0 , 0,
17223 0x0 }, /* _POOL32A0~*(126) */
17224 { reserved_block
, 0 , 0 , 32,
17225 0xfc0003ff, 0x200003f8, 0 , 0,
17226 0x0 }, /* _POOL32A0~*(127) */
17230 NMD::Pool
NMD::ADDQ__S__PH
[2] = {
17231 { instruction
, 0 , 0 , 32,
17232 0xfc0007ff, 0x2000000d, &NMD::ADDQ_PH
, 0,
17233 DSP_
}, /* ADDQ.PH */
17234 { instruction
, 0 , 0 , 32,
17235 0xfc0007ff, 0x2000040d, &NMD::ADDQ_S_PH
, 0,
17236 DSP_
}, /* ADDQ_S.PH */
17240 NMD::Pool
NMD::MUL__S__PH
[2] = {
17241 { instruction
, 0 , 0 , 32,
17242 0xfc0007ff, 0x2000002d, &NMD::MUL_PH
, 0,
17243 DSP_
}, /* MUL.PH */
17244 { instruction
, 0 , 0 , 32,
17245 0xfc0007ff, 0x2000042d, &NMD::MUL_S_PH
, 0,
17246 DSP_
}, /* MUL_S.PH */
17250 NMD::Pool
NMD::ADDQH__R__PH
[2] = {
17251 { instruction
, 0 , 0 , 32,
17252 0xfc0007ff, 0x2000004d, &NMD::ADDQH_PH
, 0,
17253 DSP_
}, /* ADDQH.PH */
17254 { instruction
, 0 , 0 , 32,
17255 0xfc0007ff, 0x2000044d, &NMD::ADDQH_R_PH
, 0,
17256 DSP_
}, /* ADDQH_R.PH */
17260 NMD::Pool
NMD::ADDQH__R__W
[2] = {
17261 { instruction
, 0 , 0 , 32,
17262 0xfc0007ff, 0x2000008d, &NMD::ADDQH_W
, 0,
17263 DSP_
}, /* ADDQH.W */
17264 { instruction
, 0 , 0 , 32,
17265 0xfc0007ff, 0x2000048d, &NMD::ADDQH_R_W
, 0,
17266 DSP_
}, /* ADDQH_R.W */
17270 NMD::Pool
NMD::ADDU__S__QB
[2] = {
17271 { instruction
, 0 , 0 , 32,
17272 0xfc0007ff, 0x200000cd, &NMD::ADDU_QB
, 0,
17273 DSP_
}, /* ADDU.QB */
17274 { instruction
, 0 , 0 , 32,
17275 0xfc0007ff, 0x200004cd, &NMD::ADDU_S_QB
, 0,
17276 DSP_
}, /* ADDU_S.QB */
17280 NMD::Pool
NMD::ADDU__S__PH
[2] = {
17281 { instruction
, 0 , 0 , 32,
17282 0xfc0007ff, 0x2000010d, &NMD::ADDU_PH
, 0,
17283 DSP_
}, /* ADDU.PH */
17284 { instruction
, 0 , 0 , 32,
17285 0xfc0007ff, 0x2000050d, &NMD::ADDU_S_PH
, 0,
17286 DSP_
}, /* ADDU_S.PH */
17290 NMD::Pool
NMD::ADDUH__R__QB
[2] = {
17291 { instruction
, 0 , 0 , 32,
17292 0xfc0007ff, 0x2000014d, &NMD::ADDUH_QB
, 0,
17293 DSP_
}, /* ADDUH.QB */
17294 { instruction
, 0 , 0 , 32,
17295 0xfc0007ff, 0x2000054d, &NMD::ADDUH_R_QB
, 0,
17296 DSP_
}, /* ADDUH_R.QB */
17300 NMD::Pool
NMD::SHRAV__R__PH
[2] = {
17301 { instruction
, 0 , 0 , 32,
17302 0xfc0007ff, 0x2000018d, &NMD::SHRAV_PH
, 0,
17303 DSP_
}, /* SHRAV.PH */
17304 { instruction
, 0 , 0 , 32,
17305 0xfc0007ff, 0x2000058d, &NMD::SHRAV_R_PH
, 0,
17306 DSP_
}, /* SHRAV_R.PH */
17310 NMD::Pool
NMD::SHRAV__R__QB
[2] = {
17311 { instruction
, 0 , 0 , 32,
17312 0xfc0007ff, 0x200001cd, &NMD::SHRAV_QB
, 0,
17313 DSP_
}, /* SHRAV.QB */
17314 { instruction
, 0 , 0 , 32,
17315 0xfc0007ff, 0x200005cd, &NMD::SHRAV_R_QB
, 0,
17316 DSP_
}, /* SHRAV_R.QB */
17320 NMD::Pool
NMD::SUBQ__S__PH
[2] = {
17321 { instruction
, 0 , 0 , 32,
17322 0xfc0007ff, 0x2000020d, &NMD::SUBQ_PH
, 0,
17323 DSP_
}, /* SUBQ.PH */
17324 { instruction
, 0 , 0 , 32,
17325 0xfc0007ff, 0x2000060d, &NMD::SUBQ_S_PH
, 0,
17326 DSP_
}, /* SUBQ_S.PH */
17330 NMD::Pool
NMD::SUBQH__R__PH
[2] = {
17331 { instruction
, 0 , 0 , 32,
17332 0xfc0007ff, 0x2000024d, &NMD::SUBQH_PH
, 0,
17333 DSP_
}, /* SUBQH.PH */
17334 { instruction
, 0 , 0 , 32,
17335 0xfc0007ff, 0x2000064d, &NMD::SUBQH_R_PH
, 0,
17336 DSP_
}, /* SUBQH_R.PH */
17340 NMD::Pool
NMD::SUBQH__R__W
[2] = {
17341 { instruction
, 0 , 0 , 32,
17342 0xfc0007ff, 0x2000028d, &NMD::SUBQH_W
, 0,
17343 DSP_
}, /* SUBQH.W */
17344 { instruction
, 0 , 0 , 32,
17345 0xfc0007ff, 0x2000068d, &NMD::SUBQH_R_W
, 0,
17346 DSP_
}, /* SUBQH_R.W */
17350 NMD::Pool
NMD::SUBU__S__QB
[2] = {
17351 { instruction
, 0 , 0 , 32,
17352 0xfc0007ff, 0x200002cd, &NMD::SUBU_QB
, 0,
17353 DSP_
}, /* SUBU.QB */
17354 { instruction
, 0 , 0 , 32,
17355 0xfc0007ff, 0x200006cd, &NMD::SUBU_S_QB
, 0,
17356 DSP_
}, /* SUBU_S.QB */
17360 NMD::Pool
NMD::SUBU__S__PH
[2] = {
17361 { instruction
, 0 , 0 , 32,
17362 0xfc0007ff, 0x2000030d, &NMD::SUBU_PH
, 0,
17363 DSP_
}, /* SUBU.PH */
17364 { instruction
, 0 , 0 , 32,
17365 0xfc0007ff, 0x2000070d, &NMD::SUBU_S_PH
, 0,
17366 DSP_
}, /* SUBU_S.PH */
17370 NMD::Pool
NMD::SHRA__R__PH
[2] = {
17371 { instruction
, 0 , 0 , 32,
17372 0xfc0007ff, 0x20000335, &NMD::SHRA_PH
, 0,
17373 DSP_
}, /* SHRA.PH */
17374 { instruction
, 0 , 0 , 32,
17375 0xfc0007ff, 0x20000735, &NMD::SHRA_R_PH
, 0,
17376 DSP_
}, /* SHRA_R.PH */
17380 NMD::Pool
NMD::SUBUH__R__QB
[2] = {
17381 { instruction
, 0 , 0 , 32,
17382 0xfc0007ff, 0x2000034d, &NMD::SUBUH_QB
, 0,
17383 DSP_
}, /* SUBUH.QB */
17384 { instruction
, 0 , 0 , 32,
17385 0xfc0007ff, 0x2000074d, &NMD::SUBUH_R_QB
, 0,
17386 DSP_
}, /* SUBUH_R.QB */
17390 NMD::Pool
NMD::SHLLV__S__PH
[2] = {
17391 { instruction
, 0 , 0 , 32,
17392 0xfc0007ff, 0x2000038d, &NMD::SHLLV_PH
, 0,
17393 DSP_
}, /* SHLLV.PH */
17394 { instruction
, 0 , 0 , 32,
17395 0xfc0007ff, 0x2000078d, &NMD::SHLLV_S_PH
, 0,
17396 DSP_
}, /* SHLLV_S.PH */
17400 NMD::Pool
NMD::SHLL__S__PH
[4] = {
17401 { instruction
, 0 , 0 , 32,
17402 0xfc000fff, 0x200003b5, &NMD::SHLL_PH
, 0,
17403 DSP_
}, /* SHLL.PH */
17404 { reserved_block
, 0 , 0 , 32,
17405 0xfc000fff, 0x200007b5, 0 , 0,
17406 0x0 }, /* SHLL[_S].PH~*(1) */
17407 { instruction
, 0 , 0 , 32,
17408 0xfc000fff, 0x20000bb5, &NMD::SHLL_S_PH
, 0,
17409 DSP_
}, /* SHLL_S.PH */
17410 { reserved_block
, 0 , 0 , 32,
17411 0xfc000fff, 0x20000fb5, 0 , 0,
17412 0x0 }, /* SHLL[_S].PH~*(3) */
17416 NMD::Pool
NMD::PRECR_SRA__R__PH_W
[2] = {
17417 { instruction
, 0 , 0 , 32,
17418 0xfc0007ff, 0x200003cd, &NMD::PRECR_SRA_PH_W
, 0,
17419 DSP_
}, /* PRECR_SRA.PH.W */
17420 { instruction
, 0 , 0 , 32,
17421 0xfc0007ff, 0x200007cd, &NMD::PRECR_SRA_R_PH_W
, 0,
17422 DSP_
}, /* PRECR_SRA_R.PH.W */
17426 NMD::Pool
NMD::_POOL32A5
[128] = {
17427 { instruction
, 0 , 0 , 32,
17428 0xfc0003ff, 0x20000005, &NMD::CMP_EQ_PH
, 0,
17429 DSP_
}, /* CMP.EQ.PH */
17430 { pool
, ADDQ__S__PH
, 2 , 32,
17431 0xfc0003ff, 0x2000000d, 0 , 0,
17432 0x0 }, /* ADDQ[_S].PH */
17433 { reserved_block
, 0 , 0 , 32,
17434 0xfc0003ff, 0x20000015, 0 , 0,
17435 0x0 }, /* _POOL32A5~*(2) */
17436 { instruction
, 0 , 0 , 32,
17437 0xfc0003ff, 0x2000001d, &NMD::SHILO
, 0,
17438 DSP_
}, /* SHILO */
17439 { instruction
, 0 , 0 , 32,
17440 0xfc0003ff, 0x20000025, &NMD::MULEQ_S_W_PHL
, 0,
17441 DSP_
}, /* MULEQ_S.W.PHL */
17442 { pool
, MUL__S__PH
, 2 , 32,
17443 0xfc0003ff, 0x2000002d, 0 , 0,
17444 0x0 }, /* MUL[_S].PH */
17445 { reserved_block
, 0 , 0 , 32,
17446 0xfc0003ff, 0x20000035, 0 , 0,
17447 0x0 }, /* _POOL32A5~*(6) */
17448 { instruction
, 0 , 0 , 32,
17449 0xfc0003ff, 0x2000003d, &NMD::REPL_PH
, 0,
17450 DSP_
}, /* REPL.PH */
17451 { instruction
, 0 , 0 , 32,
17452 0xfc0003ff, 0x20000045, &NMD::CMP_LT_PH
, 0,
17453 DSP_
}, /* CMP.LT.PH */
17454 { pool
, ADDQH__R__PH
, 2 , 32,
17455 0xfc0003ff, 0x2000004d, 0 , 0,
17456 0x0 }, /* ADDQH[_R].PH */
17457 { reserved_block
, 0 , 0 , 32,
17458 0xfc0003ff, 0x20000055, 0 , 0,
17459 0x0 }, /* _POOL32A5~*(10) */
17460 { reserved_block
, 0 , 0 , 32,
17461 0xfc0003ff, 0x2000005d, 0 , 0,
17462 0x0 }, /* _POOL32A5~*(11) */
17463 { instruction
, 0 , 0 , 32,
17464 0xfc0003ff, 0x20000065, &NMD::MULEQ_S_W_PHR
, 0,
17465 DSP_
}, /* MULEQ_S.W.PHR */
17466 { instruction
, 0 , 0 , 32,
17467 0xfc0003ff, 0x2000006d, &NMD::PRECR_QB_PH
, 0,
17468 DSP_
}, /* PRECR.QB.PH */
17469 { reserved_block
, 0 , 0 , 32,
17470 0xfc0003ff, 0x20000075, 0 , 0,
17471 0x0 }, /* _POOL32A5~*(14) */
17472 { reserved_block
, 0 , 0 , 32,
17473 0xfc0003ff, 0x2000007d, 0 , 0,
17474 0x0 }, /* _POOL32A5~*(15) */
17475 { instruction
, 0 , 0 , 32,
17476 0xfc0003ff, 0x20000085, &NMD::CMP_LE_PH
, 0,
17477 DSP_
}, /* CMP.LE.PH */
17478 { pool
, ADDQH__R__W
, 2 , 32,
17479 0xfc0003ff, 0x2000008d, 0 , 0,
17480 0x0 }, /* ADDQH[_R].W */
17481 { instruction
, 0 , 0 , 32,
17482 0xfc0003ff, 0x20000095, &NMD::MULEU_S_PH_QBL
, 0,
17483 DSP_
}, /* MULEU_S.PH.QBL */
17484 { reserved_block
, 0 , 0 , 32,
17485 0xfc0003ff, 0x2000009d, 0 , 0,
17486 0x0 }, /* _POOL32A5~*(19) */
17487 { reserved_block
, 0 , 0 , 32,
17488 0xfc0003ff, 0x200000a5, 0 , 0,
17489 0x0 }, /* _POOL32A5~*(20) */
17490 { instruction
, 0 , 0 , 32,
17491 0xfc0003ff, 0x200000ad, &NMD::PRECRQ_QB_PH
, 0,
17492 DSP_
}, /* PRECRQ.QB.PH */
17493 { reserved_block
, 0 , 0 , 32,
17494 0xfc0003ff, 0x200000b5, 0 , 0,
17495 0x0 }, /* _POOL32A5~*(22) */
17496 { reserved_block
, 0 , 0 , 32,
17497 0xfc0003ff, 0x200000bd, 0 , 0,
17498 0x0 }, /* _POOL32A5~*(23) */
17499 { instruction
, 0 , 0 , 32,
17500 0xfc0003ff, 0x200000c5, &NMD::CMPGU_EQ_QB
, 0,
17501 DSP_
}, /* CMPGU.EQ.QB */
17502 { pool
, ADDU__S__QB
, 2 , 32,
17503 0xfc0003ff, 0x200000cd, 0 , 0,
17504 0x0 }, /* ADDU[_S].QB */
17505 { instruction
, 0 , 0 , 32,
17506 0xfc0003ff, 0x200000d5, &NMD::MULEU_S_PH_QBR
, 0,
17507 DSP_
}, /* MULEU_S.PH.QBR */
17508 { reserved_block
, 0 , 0 , 32,
17509 0xfc0003ff, 0x200000dd, 0 , 0,
17510 0x0 }, /* _POOL32A5~*(27) */
17511 { reserved_block
, 0 , 0 , 32,
17512 0xfc0003ff, 0x200000e5, 0 , 0,
17513 0x0 }, /* _POOL32A5~*(28) */
17514 { instruction
, 0 , 0 , 32,
17515 0xfc0003ff, 0x200000ed, &NMD::PRECRQ_PH_W
, 0,
17516 DSP_
}, /* PRECRQ.PH.W */
17517 { reserved_block
, 0 , 0 , 32,
17518 0xfc0003ff, 0x200000f5, 0 , 0,
17519 0x0 }, /* _POOL32A5~*(30) */
17520 { reserved_block
, 0 , 0 , 32,
17521 0xfc0003ff, 0x200000fd, 0 , 0,
17522 0x0 }, /* _POOL32A5~*(31) */
17523 { instruction
, 0 , 0 , 32,
17524 0xfc0003ff, 0x20000105, &NMD::CMPGU_LT_QB
, 0,
17525 DSP_
}, /* CMPGU.LT.QB */
17526 { pool
, ADDU__S__PH
, 2 , 32,
17527 0xfc0003ff, 0x2000010d, 0 , 0,
17528 0x0 }, /* ADDU[_S].PH */
17529 { instruction
, 0 , 0 , 32,
17530 0xfc0003ff, 0x20000115, &NMD::MULQ_RS_PH
, 0,
17531 DSP_
}, /* MULQ_RS.PH */
17532 { reserved_block
, 0 , 0 , 32,
17533 0xfc0003ff, 0x2000011d, 0 , 0,
17534 0x0 }, /* _POOL32A5~*(35) */
17535 { reserved_block
, 0 , 0 , 32,
17536 0xfc0003ff, 0x20000125, 0 , 0,
17537 0x0 }, /* _POOL32A5~*(36) */
17538 { instruction
, 0 , 0 , 32,
17539 0xfc0003ff, 0x2000012d, &NMD::PRECRQ_RS_PH_W
, 0,
17540 DSP_
}, /* PRECRQ_RS.PH.W */
17541 { reserved_block
, 0 , 0 , 32,
17542 0xfc0003ff, 0x20000135, 0 , 0,
17543 0x0 }, /* _POOL32A5~*(38) */
17544 { reserved_block
, 0 , 0 , 32,
17545 0xfc0003ff, 0x2000013d, 0 , 0,
17546 0x0 }, /* _POOL32A5~*(39) */
17547 { instruction
, 0 , 0 , 32,
17548 0xfc0003ff, 0x20000145, &NMD::CMPGU_LE_QB
, 0,
17549 DSP_
}, /* CMPGU.LE.QB */
17550 { pool
, ADDUH__R__QB
, 2 , 32,
17551 0xfc0003ff, 0x2000014d, 0 , 0,
17552 0x0 }, /* ADDUH[_R].QB */
17553 { instruction
, 0 , 0 , 32,
17554 0xfc0003ff, 0x20000155, &NMD::MULQ_S_PH
, 0,
17555 DSP_
}, /* MULQ_S.PH */
17556 { reserved_block
, 0 , 0 , 32,
17557 0xfc0003ff, 0x2000015d, 0 , 0,
17558 0x0 }, /* _POOL32A5~*(43) */
17559 { reserved_block
, 0 , 0 , 32,
17560 0xfc0003ff, 0x20000165, 0 , 0,
17561 0x0 }, /* _POOL32A5~*(44) */
17562 { instruction
, 0 , 0 , 32,
17563 0xfc0003ff, 0x2000016d, &NMD::PRECRQU_S_QB_PH
, 0,
17564 DSP_
}, /* PRECRQU_S.QB.PH */
17565 { reserved_block
, 0 , 0 , 32,
17566 0xfc0003ff, 0x20000175, 0 , 0,
17567 0x0 }, /* _POOL32A5~*(46) */
17568 { reserved_block
, 0 , 0 , 32,
17569 0xfc0003ff, 0x2000017d, 0 , 0,
17570 0x0 }, /* _POOL32A5~*(47) */
17571 { instruction
, 0 , 0 , 32,
17572 0xfc0003ff, 0x20000185, &NMD::CMPGDU_EQ_QB
, 0,
17573 DSP_
}, /* CMPGDU.EQ.QB */
17574 { pool
, SHRAV__R__PH
, 2 , 32,
17575 0xfc0003ff, 0x2000018d, 0 , 0,
17576 0x0 }, /* SHRAV[_R].PH */
17577 { instruction
, 0 , 0 , 32,
17578 0xfc0003ff, 0x20000195, &NMD::MULQ_RS_W
, 0,
17579 DSP_
}, /* MULQ_RS.W */
17580 { reserved_block
, 0 , 0 , 32,
17581 0xfc0003ff, 0x2000019d, 0 , 0,
17582 0x0 }, /* _POOL32A5~*(51) */
17583 { reserved_block
, 0 , 0 , 32,
17584 0xfc0003ff, 0x200001a5, 0 , 0,
17585 0x0 }, /* _POOL32A5~*(52) */
17586 { instruction
, 0 , 0 , 32,
17587 0xfc0003ff, 0x200001ad, &NMD::PACKRL_PH
, 0,
17588 DSP_
}, /* PACKRL.PH */
17589 { reserved_block
, 0 , 0 , 32,
17590 0xfc0003ff, 0x200001b5, 0 , 0,
17591 0x0 }, /* _POOL32A5~*(54) */
17592 { reserved_block
, 0 , 0 , 32,
17593 0xfc0003ff, 0x200001bd, 0 , 0,
17594 0x0 }, /* _POOL32A5~*(55) */
17595 { instruction
, 0 , 0 , 32,
17596 0xfc0003ff, 0x200001c5, &NMD::CMPGDU_LT_QB
, 0,
17597 DSP_
}, /* CMPGDU.LT.QB */
17598 { pool
, SHRAV__R__QB
, 2 , 32,
17599 0xfc0003ff, 0x200001cd, 0 , 0,
17600 0x0 }, /* SHRAV[_R].QB */
17601 { instruction
, 0 , 0 , 32,
17602 0xfc0003ff, 0x200001d5, &NMD::MULQ_S_W
, 0,
17603 DSP_
}, /* MULQ_S.W */
17604 { reserved_block
, 0 , 0 , 32,
17605 0xfc0003ff, 0x200001dd, 0 , 0,
17606 0x0 }, /* _POOL32A5~*(59) */
17607 { reserved_block
, 0 , 0 , 32,
17608 0xfc0003ff, 0x200001e5, 0 , 0,
17609 0x0 }, /* _POOL32A5~*(60) */
17610 { instruction
, 0 , 0 , 32,
17611 0xfc0003ff, 0x200001ed, &NMD::PICK_QB
, 0,
17612 DSP_
}, /* PICK.QB */
17613 { reserved_block
, 0 , 0 , 32,
17614 0xfc0003ff, 0x200001f5, 0 , 0,
17615 0x0 }, /* _POOL32A5~*(62) */
17616 { reserved_block
, 0 , 0 , 32,
17617 0xfc0003ff, 0x200001fd, 0 , 0,
17618 0x0 }, /* _POOL32A5~*(63) */
17619 { instruction
, 0 , 0 , 32,
17620 0xfc0003ff, 0x20000205, &NMD::CMPGDU_LE_QB
, 0,
17621 DSP_
}, /* CMPGDU.LE.QB */
17622 { pool
, SUBQ__S__PH
, 2 , 32,
17623 0xfc0003ff, 0x2000020d, 0 , 0,
17624 0x0 }, /* SUBQ[_S].PH */
17625 { instruction
, 0 , 0 , 32,
17626 0xfc0003ff, 0x20000215, &NMD::APPEND
, 0,
17627 DSP_
}, /* APPEND */
17628 { reserved_block
, 0 , 0 , 32,
17629 0xfc0003ff, 0x2000021d, 0 , 0,
17630 0x0 }, /* _POOL32A5~*(67) */
17631 { reserved_block
, 0 , 0 , 32,
17632 0xfc0003ff, 0x20000225, 0 , 0,
17633 0x0 }, /* _POOL32A5~*(68) */
17634 { instruction
, 0 , 0 , 32,
17635 0xfc0003ff, 0x2000022d, &NMD::PICK_PH
, 0,
17636 DSP_
}, /* PICK.PH */
17637 { reserved_block
, 0 , 0 , 32,
17638 0xfc0003ff, 0x20000235, 0 , 0,
17639 0x0 }, /* _POOL32A5~*(70) */
17640 { reserved_block
, 0 , 0 , 32,
17641 0xfc0003ff, 0x2000023d, 0 , 0,
17642 0x0 }, /* _POOL32A5~*(71) */
17643 { instruction
, 0 , 0 , 32,
17644 0xfc0003ff, 0x20000245, &NMD::CMPU_EQ_QB
, 0,
17645 DSP_
}, /* CMPU.EQ.QB */
17646 { pool
, SUBQH__R__PH
, 2 , 32,
17647 0xfc0003ff, 0x2000024d, 0 , 0,
17648 0x0 }, /* SUBQH[_R].PH */
17649 { instruction
, 0 , 0 , 32,
17650 0xfc0003ff, 0x20000255, &NMD::PREPEND
, 0,
17651 DSP_
}, /* PREPEND */
17652 { reserved_block
, 0 , 0 , 32,
17653 0xfc0003ff, 0x2000025d, 0 , 0,
17654 0x0 }, /* _POOL32A5~*(75) */
17655 { reserved_block
, 0 , 0 , 32,
17656 0xfc0003ff, 0x20000265, 0 , 0,
17657 0x0 }, /* _POOL32A5~*(76) */
17658 { reserved_block
, 0 , 0 , 32,
17659 0xfc0003ff, 0x2000026d, 0 , 0,
17660 0x0 }, /* _POOL32A5~*(77) */
17661 { reserved_block
, 0 , 0 , 32,
17662 0xfc0003ff, 0x20000275, 0 , 0,
17663 0x0 }, /* _POOL32A5~*(78) */
17664 { reserved_block
, 0 , 0 , 32,
17665 0xfc0003ff, 0x2000027d, 0 , 0,
17666 0x0 }, /* _POOL32A5~*(79) */
17667 { instruction
, 0 , 0 , 32,
17668 0xfc0003ff, 0x20000285, &NMD::CMPU_LT_QB
, 0,
17669 DSP_
}, /* CMPU.LT.QB */
17670 { pool
, SUBQH__R__W
, 2 , 32,
17671 0xfc0003ff, 0x2000028d, 0 , 0,
17672 0x0 }, /* SUBQH[_R].W */
17673 { instruction
, 0 , 0 , 32,
17674 0xfc0003ff, 0x20000295, &NMD::MODSUB
, 0,
17675 DSP_
}, /* MODSUB */
17676 { reserved_block
, 0 , 0 , 32,
17677 0xfc0003ff, 0x2000029d, 0 , 0,
17678 0x0 }, /* _POOL32A5~*(83) */
17679 { reserved_block
, 0 , 0 , 32,
17680 0xfc0003ff, 0x200002a5, 0 , 0,
17681 0x0 }, /* _POOL32A5~*(84) */
17682 { reserved_block
, 0 , 0 , 32,
17683 0xfc0003ff, 0x200002ad, 0 , 0,
17684 0x0 }, /* _POOL32A5~*(85) */
17685 { reserved_block
, 0 , 0 , 32,
17686 0xfc0003ff, 0x200002b5, 0 , 0,
17687 0x0 }, /* _POOL32A5~*(86) */
17688 { reserved_block
, 0 , 0 , 32,
17689 0xfc0003ff, 0x200002bd, 0 , 0,
17690 0x0 }, /* _POOL32A5~*(87) */
17691 { instruction
, 0 , 0 , 32,
17692 0xfc0003ff, 0x200002c5, &NMD::CMPU_LE_QB
, 0,
17693 DSP_
}, /* CMPU.LE.QB */
17694 { pool
, SUBU__S__QB
, 2 , 32,
17695 0xfc0003ff, 0x200002cd, 0 , 0,
17696 0x0 }, /* SUBU[_S].QB */
17697 { instruction
, 0 , 0 , 32,
17698 0xfc0003ff, 0x200002d5, &NMD::SHRAV_R_W
, 0,
17699 DSP_
}, /* SHRAV_R.W */
17700 { reserved_block
, 0 , 0 , 32,
17701 0xfc0003ff, 0x200002dd, 0 , 0,
17702 0x0 }, /* _POOL32A5~*(91) */
17703 { reserved_block
, 0 , 0 , 32,
17704 0xfc0003ff, 0x200002e5, 0 , 0,
17705 0x0 }, /* _POOL32A5~*(92) */
17706 { reserved_block
, 0 , 0 , 32,
17707 0xfc0003ff, 0x200002ed, 0 , 0,
17708 0x0 }, /* _POOL32A5~*(93) */
17709 { instruction
, 0 , 0 , 32,
17710 0xfc0003ff, 0x200002f5, &NMD::SHRA_R_W
, 0,
17711 DSP_
}, /* SHRA_R.W */
17712 { reserved_block
, 0 , 0 , 32,
17713 0xfc0003ff, 0x200002fd, 0 , 0,
17714 0x0 }, /* _POOL32A5~*(95) */
17715 { instruction
, 0 , 0 , 32,
17716 0xfc0003ff, 0x20000305, &NMD::ADDQ_S_W
, 0,
17717 DSP_
}, /* ADDQ_S.W */
17718 { pool
, SUBU__S__PH
, 2 , 32,
17719 0xfc0003ff, 0x2000030d, 0 , 0,
17720 0x0 }, /* SUBU[_S].PH */
17721 { instruction
, 0 , 0 , 32,
17722 0xfc0003ff, 0x20000315, &NMD::SHRLV_PH
, 0,
17723 DSP_
}, /* SHRLV.PH */
17724 { reserved_block
, 0 , 0 , 32,
17725 0xfc0003ff, 0x2000031d, 0 , 0,
17726 0x0 }, /* _POOL32A5~*(99) */
17727 { reserved_block
, 0 , 0 , 32,
17728 0xfc0003ff, 0x20000325, 0 , 0,
17729 0x0 }, /* _POOL32A5~*(100) */
17730 { reserved_block
, 0 , 0 , 32,
17731 0xfc0003ff, 0x2000032d, 0 , 0,
17732 0x0 }, /* _POOL32A5~*(101) */
17733 { pool
, SHRA__R__PH
, 2 , 32,
17734 0xfc0003ff, 0x20000335, 0 , 0,
17735 0x0 }, /* SHRA[_R].PH */
17736 { reserved_block
, 0 , 0 , 32,
17737 0xfc0003ff, 0x2000033d, 0 , 0,
17738 0x0 }, /* _POOL32A5~*(103) */
17739 { instruction
, 0 , 0 , 32,
17740 0xfc0003ff, 0x20000345, &NMD::SUBQ_S_W
, 0,
17741 DSP_
}, /* SUBQ_S.W */
17742 { pool
, SUBUH__R__QB
, 2 , 32,
17743 0xfc0003ff, 0x2000034d, 0 , 0,
17744 0x0 }, /* SUBUH[_R].QB */
17745 { instruction
, 0 , 0 , 32,
17746 0xfc0003ff, 0x20000355, &NMD::SHRLV_QB
, 0,
17747 DSP_
}, /* SHRLV.QB */
17748 { reserved_block
, 0 , 0 , 32,
17749 0xfc0003ff, 0x2000035d, 0 , 0,
17750 0x0 }, /* _POOL32A5~*(107) */
17751 { reserved_block
, 0 , 0 , 32,
17752 0xfc0003ff, 0x20000365, 0 , 0,
17753 0x0 }, /* _POOL32A5~*(108) */
17754 { reserved_block
, 0 , 0 , 32,
17755 0xfc0003ff, 0x2000036d, 0 , 0,
17756 0x0 }, /* _POOL32A5~*(109) */
17757 { reserved_block
, 0 , 0 , 32,
17758 0xfc0003ff, 0x20000375, 0 , 0,
17759 0x0 }, /* _POOL32A5~*(110) */
17760 { reserved_block
, 0 , 0 , 32,
17761 0xfc0003ff, 0x2000037d, 0 , 0,
17762 0x0 }, /* _POOL32A5~*(111) */
17763 { instruction
, 0 , 0 , 32,
17764 0xfc0003ff, 0x20000385, &NMD::ADDSC
, 0,
17765 DSP_
}, /* ADDSC */
17766 { pool
, SHLLV__S__PH
, 2 , 32,
17767 0xfc0003ff, 0x2000038d, 0 , 0,
17768 0x0 }, /* SHLLV[_S].PH */
17769 { instruction
, 0 , 0 , 32,
17770 0xfc0003ff, 0x20000395, &NMD::SHLLV_QB
, 0,
17771 DSP_
}, /* SHLLV.QB */
17772 { reserved_block
, 0 , 0 , 32,
17773 0xfc0003ff, 0x2000039d, 0 , 0,
17774 0x0 }, /* _POOL32A5~*(115) */
17775 { reserved_block
, 0 , 0 , 32,
17776 0xfc0003ff, 0x200003a5, 0 , 0,
17777 0x0 }, /* _POOL32A5~*(116) */
17778 { reserved_block
, 0 , 0 , 32,
17779 0xfc0003ff, 0x200003ad, 0 , 0,
17780 0x0 }, /* _POOL32A5~*(117) */
17781 { pool
, SHLL__S__PH
, 4 , 32,
17782 0xfc0003ff, 0x200003b5, 0 , 0,
17783 0x0 }, /* SHLL[_S].PH */
17784 { reserved_block
, 0 , 0 , 32,
17785 0xfc0003ff, 0x200003bd, 0 , 0,
17786 0x0 }, /* _POOL32A5~*(119) */
17787 { instruction
, 0 , 0 , 32,
17788 0xfc0003ff, 0x200003c5, &NMD::ADDWC
, 0,
17789 DSP_
}, /* ADDWC */
17790 { pool
, PRECR_SRA__R__PH_W
, 2 , 32,
17791 0xfc0003ff, 0x200003cd, 0 , 0,
17792 0x0 }, /* PRECR_SRA[_R].PH.W */
17793 { instruction
, 0 , 0 , 32,
17794 0xfc0003ff, 0x200003d5, &NMD::SHLLV_S_W
, 0,
17795 DSP_
}, /* SHLLV_S.W */
17796 { reserved_block
, 0 , 0 , 32,
17797 0xfc0003ff, 0x200003dd, 0 , 0,
17798 0x0 }, /* _POOL32A5~*(123) */
17799 { reserved_block
, 0 , 0 , 32,
17800 0xfc0003ff, 0x200003e5, 0 , 0,
17801 0x0 }, /* _POOL32A5~*(124) */
17802 { reserved_block
, 0 , 0 , 32,
17803 0xfc0003ff, 0x200003ed, 0 , 0,
17804 0x0 }, /* _POOL32A5~*(125) */
17805 { instruction
, 0 , 0 , 32,
17806 0xfc0003ff, 0x200003f5, &NMD::SHLL_S_W
, 0,
17807 DSP_
}, /* SHLL_S.W */
17808 { reserved_block
, 0 , 0 , 32,
17809 0xfc0003ff, 0x200003fd, 0 , 0,
17810 0x0 }, /* _POOL32A5~*(127) */
17814 NMD::Pool
NMD::PP_LSX
[16] = {
17815 { instruction
, 0 , 0 , 32,
17816 0xfc0007ff, 0x20000007, &NMD::LBX
, 0,
17818 { instruction
, 0 , 0 , 32,
17819 0xfc0007ff, 0x20000087, &NMD::SBX
, 0,
17821 { instruction
, 0 , 0 , 32,
17822 0xfc0007ff, 0x20000107, &NMD::LBUX
, 0,
17824 { reserved_block
, 0 , 0 , 32,
17825 0xfc0007ff, 0x20000187, 0 , 0,
17826 0x0 }, /* PP.LSX~*(3) */
17827 { instruction
, 0 , 0 , 32,
17828 0xfc0007ff, 0x20000207, &NMD::LHX
, 0,
17830 { instruction
, 0 , 0 , 32,
17831 0xfc0007ff, 0x20000287, &NMD::SHX
, 0,
17833 { instruction
, 0 , 0 , 32,
17834 0xfc0007ff, 0x20000307, &NMD::LHUX
, 0,
17836 { instruction
, 0 , 0 , 32,
17837 0xfc0007ff, 0x20000387, &NMD::LWUX
, 0,
17838 MIPS64_
}, /* LWUX */
17839 { instruction
, 0 , 0 , 32,
17840 0xfc0007ff, 0x20000407, &NMD::LWX
, 0,
17842 { instruction
, 0 , 0 , 32,
17843 0xfc0007ff, 0x20000487, &NMD::SWX
, 0,
17845 { instruction
, 0 , 0 , 32,
17846 0xfc0007ff, 0x20000507, &NMD::LWC1X
, 0,
17847 CP1_
}, /* LWC1X */
17848 { instruction
, 0 , 0 , 32,
17849 0xfc0007ff, 0x20000587, &NMD::SWC1X
, 0,
17850 CP1_
}, /* SWC1X */
17851 { instruction
, 0 , 0 , 32,
17852 0xfc0007ff, 0x20000607, &NMD::LDX
, 0,
17853 MIPS64_
}, /* LDX */
17854 { instruction
, 0 , 0 , 32,
17855 0xfc0007ff, 0x20000687, &NMD::SDX
, 0,
17856 MIPS64_
}, /* SDX */
17857 { instruction
, 0 , 0 , 32,
17858 0xfc0007ff, 0x20000707, &NMD::LDC1X
, 0,
17859 CP1_
}, /* LDC1X */
17860 { instruction
, 0 , 0 , 32,
17861 0xfc0007ff, 0x20000787, &NMD::SDC1X
, 0,
17862 CP1_
}, /* SDC1X */
17866 NMD::Pool
NMD::PP_LSXS
[16] = {
17867 { reserved_block
, 0 , 0 , 32,
17868 0xfc0007ff, 0x20000047, 0 , 0,
17869 0x0 }, /* PP.LSXS~*(0) */
17870 { reserved_block
, 0 , 0 , 32,
17871 0xfc0007ff, 0x200000c7, 0 , 0,
17872 0x0 }, /* PP.LSXS~*(1) */
17873 { reserved_block
, 0 , 0 , 32,
17874 0xfc0007ff, 0x20000147, 0 , 0,
17875 0x0 }, /* PP.LSXS~*(2) */
17876 { reserved_block
, 0 , 0 , 32,
17877 0xfc0007ff, 0x200001c7, 0 , 0,
17878 0x0 }, /* PP.LSXS~*(3) */
17879 { instruction
, 0 , 0 , 32,
17880 0xfc0007ff, 0x20000247, &NMD::LHXS
, 0,
17882 { instruction
, 0 , 0 , 32,
17883 0xfc0007ff, 0x200002c7, &NMD::SHXS
, 0,
17884 XMMS_
}, /* SHXS */
17885 { instruction
, 0 , 0 , 32,
17886 0xfc0007ff, 0x20000347, &NMD::LHUXS
, 0,
17888 { instruction
, 0 , 0 , 32,
17889 0xfc0007ff, 0x200003c7, &NMD::LWUXS
, 0,
17890 MIPS64_
}, /* LWUXS */
17891 { instruction
, 0 , 0 , 32,
17892 0xfc0007ff, 0x20000447, &NMD::LWXS_32_
, 0,
17893 0x0 }, /* LWXS[32] */
17894 { instruction
, 0 , 0 , 32,
17895 0xfc0007ff, 0x200004c7, &NMD::SWXS
, 0,
17896 XMMS_
}, /* SWXS */
17897 { instruction
, 0 , 0 , 32,
17898 0xfc0007ff, 0x20000547, &NMD::LWC1XS
, 0,
17899 CP1_
}, /* LWC1XS */
17900 { instruction
, 0 , 0 , 32,
17901 0xfc0007ff, 0x200005c7, &NMD::SWC1XS
, 0,
17902 CP1_
}, /* SWC1XS */
17903 { instruction
, 0 , 0 , 32,
17904 0xfc0007ff, 0x20000647, &NMD::LDXS
, 0,
17905 MIPS64_
}, /* LDXS */
17906 { instruction
, 0 , 0 , 32,
17907 0xfc0007ff, 0x200006c7, &NMD::SDXS
, 0,
17908 MIPS64_
}, /* SDXS */
17909 { instruction
, 0 , 0 , 32,
17910 0xfc0007ff, 0x20000747, &NMD::LDC1XS
, 0,
17911 CP1_
}, /* LDC1XS */
17912 { instruction
, 0 , 0 , 32,
17913 0xfc0007ff, 0x200007c7, &NMD::SDC1XS
, 0,
17914 CP1_
}, /* SDC1XS */
17918 NMD::Pool
NMD::P_LSX
[2] = {
17919 { pool
, PP_LSX
, 16 , 32,
17920 0xfc00007f, 0x20000007, 0 , 0,
17921 0x0 }, /* PP.LSX */
17922 { pool
, PP_LSXS
, 16 , 32,
17923 0xfc00007f, 0x20000047, 0 , 0,
17924 0x0 }, /* PP.LSXS */
17928 NMD::Pool
NMD::POOL32Axf_1_0
[4] = {
17929 { instruction
, 0 , 0 , 32,
17930 0xfc003fff, 0x2000007f, &NMD::MFHI_DSP_
, 0,
17931 DSP_
}, /* MFHI[DSP] */
17932 { instruction
, 0 , 0 , 32,
17933 0xfc003fff, 0x2000107f, &NMD::MFLO_DSP_
, 0,
17934 DSP_
}, /* MFLO[DSP] */
17935 { instruction
, 0 , 0 , 32,
17936 0xfc003fff, 0x2000207f, &NMD::MTHI_DSP_
, 0,
17937 DSP_
}, /* MTHI[DSP] */
17938 { instruction
, 0 , 0 , 32,
17939 0xfc003fff, 0x2000307f, &NMD::MTLO_DSP_
, 0,
17940 DSP_
}, /* MTLO[DSP] */
17944 NMD::Pool
NMD::POOL32Axf_1_1
[4] = {
17945 { instruction
, 0 , 0 , 32,
17946 0xfc003fff, 0x2000027f, &NMD::MTHLIP
, 0,
17947 DSP_
}, /* MTHLIP */
17948 { instruction
, 0 , 0 , 32,
17949 0xfc003fff, 0x2000127f, &NMD::SHILOV
, 0,
17950 DSP_
}, /* SHILOV */
17951 { reserved_block
, 0 , 0 , 32,
17952 0xfc003fff, 0x2000227f, 0 , 0,
17953 0x0 }, /* POOL32Axf_1_1~*(2) */
17954 { reserved_block
, 0 , 0 , 32,
17955 0xfc003fff, 0x2000327f, 0 , 0,
17956 0x0 }, /* POOL32Axf_1_1~*(3) */
17960 NMD::Pool
NMD::POOL32Axf_1_3
[4] = {
17961 { instruction
, 0 , 0 , 32,
17962 0xfc003fff, 0x2000067f, &NMD::RDDSP
, 0,
17963 DSP_
}, /* RDDSP */
17964 { instruction
, 0 , 0 , 32,
17965 0xfc003fff, 0x2000167f, &NMD::WRDSP
, 0,
17966 DSP_
}, /* WRDSP */
17967 { instruction
, 0 , 0 , 32,
17968 0xfc003fff, 0x2000267f, &NMD::EXTP
, 0,
17970 { instruction
, 0 , 0 , 32,
17971 0xfc003fff, 0x2000367f, &NMD::EXTPDP
, 0,
17972 DSP_
}, /* EXTPDP */
17976 NMD::Pool
NMD::POOL32Axf_1_4
[2] = {
17977 { instruction
, 0 , 0 , 32,
17978 0xfc001fff, 0x2000087f, &NMD::SHLL_QB
, 0,
17979 DSP_
}, /* SHLL.QB */
17980 { instruction
, 0 , 0 , 32,
17981 0xfc001fff, 0x2000187f, &NMD::SHRL_QB
, 0,
17982 DSP_
}, /* SHRL.QB */
17986 NMD::Pool
NMD::MAQ_S_A__W_PHR
[2] = {
17987 { instruction
, 0 , 0 , 32,
17988 0xfc003fff, 0x20000a7f, &NMD::MAQ_S_W_PHR
, 0,
17989 DSP_
}, /* MAQ_S.W.PHR */
17990 { instruction
, 0 , 0 , 32,
17991 0xfc003fff, 0x20002a7f, &NMD::MAQ_SA_W_PHR
, 0,
17992 DSP_
}, /* MAQ_SA.W.PHR */
17996 NMD::Pool
NMD::MAQ_S_A__W_PHL
[2] = {
17997 { instruction
, 0 , 0 , 32,
17998 0xfc003fff, 0x20001a7f, &NMD::MAQ_S_W_PHL
, 0,
17999 DSP_
}, /* MAQ_S.W.PHL */
18000 { instruction
, 0 , 0 , 32,
18001 0xfc003fff, 0x20003a7f, &NMD::MAQ_SA_W_PHL
, 0,
18002 DSP_
}, /* MAQ_SA.W.PHL */
18006 NMD::Pool
NMD::POOL32Axf_1_5
[2] = {
18007 { pool
, MAQ_S_A__W_PHR
, 2 , 32,
18008 0xfc001fff, 0x20000a7f, 0 , 0,
18009 0x0 }, /* MAQ_S[A].W.PHR */
18010 { pool
, MAQ_S_A__W_PHL
, 2 , 32,
18011 0xfc001fff, 0x20001a7f, 0 , 0,
18012 0x0 }, /* MAQ_S[A].W.PHL */
18016 NMD::Pool
NMD::POOL32Axf_1_7
[4] = {
18017 { instruction
, 0 , 0 , 32,
18018 0xfc003fff, 0x20000e7f, &NMD::EXTR_W
, 0,
18019 DSP_
}, /* EXTR.W */
18020 { instruction
, 0 , 0 , 32,
18021 0xfc003fff, 0x20001e7f, &NMD::EXTR_R_W
, 0,
18022 DSP_
}, /* EXTR_R.W */
18023 { instruction
, 0 , 0 , 32,
18024 0xfc003fff, 0x20002e7f, &NMD::EXTR_RS_W
, 0,
18025 DSP_
}, /* EXTR_RS.W */
18026 { instruction
, 0 , 0 , 32,
18027 0xfc003fff, 0x20003e7f, &NMD::EXTR_S_H
, 0,
18028 DSP_
}, /* EXTR_S.H */
18032 NMD::Pool
NMD::POOL32Axf_1
[8] = {
18033 { pool
, POOL32Axf_1_0
, 4 , 32,
18034 0xfc000fff, 0x2000007f, 0 , 0,
18035 0x0 }, /* POOL32Axf_1_0 */
18036 { pool
, POOL32Axf_1_1
, 4 , 32,
18037 0xfc000fff, 0x2000027f, 0 , 0,
18038 0x0 }, /* POOL32Axf_1_1 */
18039 { reserved_block
, 0 , 0 , 32,
18040 0xfc000fff, 0x2000047f, 0 , 0,
18041 0x0 }, /* POOL32Axf_1~*(2) */
18042 { pool
, POOL32Axf_1_3
, 4 , 32,
18043 0xfc000fff, 0x2000067f, 0 , 0,
18044 0x0 }, /* POOL32Axf_1_3 */
18045 { pool
, POOL32Axf_1_4
, 2 , 32,
18046 0xfc000fff, 0x2000087f, 0 , 0,
18047 0x0 }, /* POOL32Axf_1_4 */
18048 { pool
, POOL32Axf_1_5
, 2 , 32,
18049 0xfc000fff, 0x20000a7f, 0 , 0,
18050 0x0 }, /* POOL32Axf_1_5 */
18051 { reserved_block
, 0 , 0 , 32,
18052 0xfc000fff, 0x20000c7f, 0 , 0,
18053 0x0 }, /* POOL32Axf_1~*(6) */
18054 { pool
, POOL32Axf_1_7
, 4 , 32,
18055 0xfc000fff, 0x20000e7f, 0 , 0,
18056 0x0 }, /* POOL32Axf_1_7 */
18060 NMD::Pool
NMD::POOL32Axf_2_DSP__0_7
[8] = {
18061 { instruction
, 0 , 0 , 32,
18062 0xfc003fff, 0x200000bf, &NMD::DPA_W_PH
, 0,
18063 DSP_
}, /* DPA.W.PH */
18064 { instruction
, 0 , 0 , 32,
18065 0xfc003fff, 0x200002bf, &NMD::DPAQ_S_W_PH
, 0,
18066 DSP_
}, /* DPAQ_S.W.PH */
18067 { instruction
, 0 , 0 , 32,
18068 0xfc003fff, 0x200004bf, &NMD::DPS_W_PH
, 0,
18069 DSP_
}, /* DPS.W.PH */
18070 { instruction
, 0 , 0 , 32,
18071 0xfc003fff, 0x200006bf, &NMD::DPSQ_S_W_PH
, 0,
18072 DSP_
}, /* DPSQ_S.W.PH */
18073 { reserved_block
, 0 , 0 , 32,
18074 0xfc003fff, 0x200008bf, 0 , 0,
18075 0x0 }, /* POOL32Axf_2(DSP)_0_7~*(4) */
18076 { instruction
, 0 , 0 , 32,
18077 0xfc003fff, 0x20000abf, &NMD::MADD_DSP_
, 0,
18078 DSP_
}, /* MADD[DSP] */
18079 { instruction
, 0 , 0 , 32,
18080 0xfc003fff, 0x20000cbf, &NMD::MULT_DSP_
, 0,
18081 DSP_
}, /* MULT[DSP] */
18082 { instruction
, 0 , 0 , 32,
18083 0xfc003fff, 0x20000ebf, &NMD::EXTRV_W
, 0,
18084 DSP_
}, /* EXTRV.W */
18088 NMD::Pool
NMD::POOL32Axf_2_DSP__8_15
[8] = {
18089 { instruction
, 0 , 0 , 32,
18090 0xfc003fff, 0x200010bf, &NMD::DPAX_W_PH
, 0,
18091 DSP_
}, /* DPAX.W.PH */
18092 { instruction
, 0 , 0 , 32,
18093 0xfc003fff, 0x200012bf, &NMD::DPAQ_SA_L_W
, 0,
18094 DSP_
}, /* DPAQ_SA.L.W */
18095 { instruction
, 0 , 0 , 32,
18096 0xfc003fff, 0x200014bf, &NMD::DPSX_W_PH
, 0,
18097 DSP_
}, /* DPSX.W.PH */
18098 { instruction
, 0 , 0 , 32,
18099 0xfc003fff, 0x200016bf, &NMD::DPSQ_SA_L_W
, 0,
18100 DSP_
}, /* DPSQ_SA.L.W */
18101 { reserved_block
, 0 , 0 , 32,
18102 0xfc003fff, 0x200018bf, 0 , 0,
18103 0x0 }, /* POOL32Axf_2(DSP)_8_15~*(4) */
18104 { instruction
, 0 , 0 , 32,
18105 0xfc003fff, 0x20001abf, &NMD::MADDU_DSP_
, 0,
18106 DSP_
}, /* MADDU[DSP] */
18107 { instruction
, 0 , 0 , 32,
18108 0xfc003fff, 0x20001cbf, &NMD::MULTU_DSP_
, 0,
18109 DSP_
}, /* MULTU[DSP] */
18110 { instruction
, 0 , 0 , 32,
18111 0xfc003fff, 0x20001ebf, &NMD::EXTRV_R_W
, 0,
18112 DSP_
}, /* EXTRV_R.W */
18116 NMD::Pool
NMD::POOL32Axf_2_DSP__16_23
[8] = {
18117 { instruction
, 0 , 0 , 32,
18118 0xfc003fff, 0x200020bf, &NMD::DPAU_H_QBL
, 0,
18119 DSP_
}, /* DPAU.H.QBL */
18120 { instruction
, 0 , 0 , 32,
18121 0xfc003fff, 0x200022bf, &NMD::DPAQX_S_W_PH
, 0,
18122 DSP_
}, /* DPAQX_S.W.PH */
18123 { instruction
, 0 , 0 , 32,
18124 0xfc003fff, 0x200024bf, &NMD::DPSU_H_QBL
, 0,
18125 DSP_
}, /* DPSU.H.QBL */
18126 { instruction
, 0 , 0 , 32,
18127 0xfc003fff, 0x200026bf, &NMD::DPSQX_S_W_PH
, 0,
18128 DSP_
}, /* DPSQX_S.W.PH */
18129 { instruction
, 0 , 0 , 32,
18130 0xfc003fff, 0x200028bf, &NMD::EXTPV
, 0,
18131 DSP_
}, /* EXTPV */
18132 { instruction
, 0 , 0 , 32,
18133 0xfc003fff, 0x20002abf, &NMD::MSUB_DSP_
, 0,
18134 DSP_
}, /* MSUB[DSP] */
18135 { instruction
, 0 , 0 , 32,
18136 0xfc003fff, 0x20002cbf, &NMD::MULSA_W_PH
, 0,
18137 DSP_
}, /* MULSA.W.PH */
18138 { instruction
, 0 , 0 , 32,
18139 0xfc003fff, 0x20002ebf, &NMD::EXTRV_RS_W
, 0,
18140 DSP_
}, /* EXTRV_RS.W */
18144 NMD::Pool
NMD::POOL32Axf_2_DSP__24_31
[8] = {
18145 { instruction
, 0 , 0 , 32,
18146 0xfc003fff, 0x200030bf, &NMD::DPAU_H_QBR
, 0,
18147 DSP_
}, /* DPAU.H.QBR */
18148 { instruction
, 0 , 0 , 32,
18149 0xfc003fff, 0x200032bf, &NMD::DPAQX_SA_W_PH
, 0,
18150 DSP_
}, /* DPAQX_SA.W.PH */
18151 { instruction
, 0 , 0 , 32,
18152 0xfc003fff, 0x200034bf, &NMD::DPSU_H_QBR
, 0,
18153 DSP_
}, /* DPSU.H.QBR */
18154 { instruction
, 0 , 0 , 32,
18155 0xfc003fff, 0x200036bf, &NMD::DPSQX_SA_W_PH
, 0,
18156 DSP_
}, /* DPSQX_SA.W.PH */
18157 { instruction
, 0 , 0 , 32,
18158 0xfc003fff, 0x200038bf, &NMD::EXTPDPV
, 0,
18159 DSP_
}, /* EXTPDPV */
18160 { instruction
, 0 , 0 , 32,
18161 0xfc003fff, 0x20003abf, &NMD::MSUBU_DSP_
, 0,
18162 DSP_
}, /* MSUBU[DSP] */
18163 { instruction
, 0 , 0 , 32,
18164 0xfc003fff, 0x20003cbf, &NMD::MULSAQ_S_W_PH
, 0,
18165 DSP_
}, /* MULSAQ_S.W.PH */
18166 { instruction
, 0 , 0 , 32,
18167 0xfc003fff, 0x20003ebf, &NMD::EXTRV_S_H
, 0,
18168 DSP_
}, /* EXTRV_S.H */
18172 NMD::Pool
NMD::POOL32Axf_2
[4] = {
18173 { pool
, POOL32Axf_2_DSP__0_7
, 8 , 32,
18174 0xfc0031ff, 0x200000bf, 0 , 0,
18175 0x0 }, /* POOL32Axf_2(DSP)_0_7 */
18176 { pool
, POOL32Axf_2_DSP__8_15
, 8 , 32,
18177 0xfc0031ff, 0x200010bf, 0 , 0,
18178 0x0 }, /* POOL32Axf_2(DSP)_8_15 */
18179 { pool
, POOL32Axf_2_DSP__16_23
, 8 , 32,
18180 0xfc0031ff, 0x200020bf, 0 , 0,
18181 0x0 }, /* POOL32Axf_2(DSP)_16_23 */
18182 { pool
, POOL32Axf_2_DSP__24_31
, 8 , 32,
18183 0xfc0031ff, 0x200030bf, 0 , 0,
18184 0x0 }, /* POOL32Axf_2(DSP)_24_31 */
18188 NMD::Pool
NMD::POOL32Axf_4
[128] = {
18189 { instruction
, 0 , 0 , 32,
18190 0xfc00ffff, 0x2000013f, &NMD::ABSQ_S_QB
, 0,
18191 DSP_
}, /* ABSQ_S.QB */
18192 { instruction
, 0 , 0 , 32,
18193 0xfc00ffff, 0x2000033f, &NMD::REPLV_PH
, 0,
18194 DSP_
}, /* REPLV.PH */
18195 { reserved_block
, 0 , 0 , 32,
18196 0xfc00ffff, 0x2000053f, 0 , 0,
18197 0x0 }, /* POOL32Axf_4~*(2) */
18198 { reserved_block
, 0 , 0 , 32,
18199 0xfc00ffff, 0x2000073f, 0 , 0,
18200 0x0 }, /* POOL32Axf_4~*(3) */
18201 { reserved_block
, 0 , 0 , 32,
18202 0xfc00ffff, 0x2000093f, 0 , 0,
18203 0x0 }, /* POOL32Axf_4~*(4) */
18204 { reserved_block
, 0 , 0 , 32,
18205 0xfc00ffff, 0x20000b3f, 0 , 0,
18206 0x0 }, /* POOL32Axf_4~*(5) */
18207 { reserved_block
, 0 , 0 , 32,
18208 0xfc00ffff, 0x20000d3f, 0 , 0,
18209 0x0 }, /* POOL32Axf_4~*(6) */
18210 { reserved_block
, 0 , 0 , 32,
18211 0xfc00ffff, 0x20000f3f, 0 , 0,
18212 0x0 }, /* POOL32Axf_4~*(7) */
18213 { instruction
, 0 , 0 , 32,
18214 0xfc00ffff, 0x2000113f, &NMD::ABSQ_S_PH
, 0,
18215 DSP_
}, /* ABSQ_S.PH */
18216 { instruction
, 0 , 0 , 32,
18217 0xfc00ffff, 0x2000133f, &NMD::REPLV_QB
, 0,
18218 DSP_
}, /* REPLV.QB */
18219 { reserved_block
, 0 , 0 , 32,
18220 0xfc00ffff, 0x2000153f, 0 , 0,
18221 0x0 }, /* POOL32Axf_4~*(10) */
18222 { reserved_block
, 0 , 0 , 32,
18223 0xfc00ffff, 0x2000173f, 0 , 0,
18224 0x0 }, /* POOL32Axf_4~*(11) */
18225 { reserved_block
, 0 , 0 , 32,
18226 0xfc00ffff, 0x2000193f, 0 , 0,
18227 0x0 }, /* POOL32Axf_4~*(12) */
18228 { reserved_block
, 0 , 0 , 32,
18229 0xfc00ffff, 0x20001b3f, 0 , 0,
18230 0x0 }, /* POOL32Axf_4~*(13) */
18231 { reserved_block
, 0 , 0 , 32,
18232 0xfc00ffff, 0x20001d3f, 0 , 0,
18233 0x0 }, /* POOL32Axf_4~*(14) */
18234 { reserved_block
, 0 , 0 , 32,
18235 0xfc00ffff, 0x20001f3f, 0 , 0,
18236 0x0 }, /* POOL32Axf_4~*(15) */
18237 { instruction
, 0 , 0 , 32,
18238 0xfc00ffff, 0x2000213f, &NMD::ABSQ_S_W
, 0,
18239 DSP_
}, /* ABSQ_S.W */
18240 { reserved_block
, 0 , 0 , 32,
18241 0xfc00ffff, 0x2000233f, 0 , 0,
18242 0x0 }, /* POOL32Axf_4~*(17) */
18243 { reserved_block
, 0 , 0 , 32,
18244 0xfc00ffff, 0x2000253f, 0 , 0,
18245 0x0 }, /* POOL32Axf_4~*(18) */
18246 { reserved_block
, 0 , 0 , 32,
18247 0xfc00ffff, 0x2000273f, 0 , 0,
18248 0x0 }, /* POOL32Axf_4~*(19) */
18249 { reserved_block
, 0 , 0 , 32,
18250 0xfc00ffff, 0x2000293f, 0 , 0,
18251 0x0 }, /* POOL32Axf_4~*(20) */
18252 { reserved_block
, 0 , 0 , 32,
18253 0xfc00ffff, 0x20002b3f, 0 , 0,
18254 0x0 }, /* POOL32Axf_4~*(21) */
18255 { reserved_block
, 0 , 0 , 32,
18256 0xfc00ffff, 0x20002d3f, 0 , 0,
18257 0x0 }, /* POOL32Axf_4~*(22) */
18258 { reserved_block
, 0 , 0 , 32,
18259 0xfc00ffff, 0x20002f3f, 0 , 0,
18260 0x0 }, /* POOL32Axf_4~*(23) */
18261 { reserved_block
, 0 , 0 , 32,
18262 0xfc00ffff, 0x2000313f, 0 , 0,
18263 0x0 }, /* POOL32Axf_4~*(24) */
18264 { reserved_block
, 0 , 0 , 32,
18265 0xfc00ffff, 0x2000333f, 0 , 0,
18266 0x0 }, /* POOL32Axf_4~*(25) */
18267 { reserved_block
, 0 , 0 , 32,
18268 0xfc00ffff, 0x2000353f, 0 , 0,
18269 0x0 }, /* POOL32Axf_4~*(26) */
18270 { reserved_block
, 0 , 0 , 32,
18271 0xfc00ffff, 0x2000373f, 0 , 0,
18272 0x0 }, /* POOL32Axf_4~*(27) */
18273 { reserved_block
, 0 , 0 , 32,
18274 0xfc00ffff, 0x2000393f, 0 , 0,
18275 0x0 }, /* POOL32Axf_4~*(28) */
18276 { reserved_block
, 0 , 0 , 32,
18277 0xfc00ffff, 0x20003b3f, 0 , 0,
18278 0x0 }, /* POOL32Axf_4~*(29) */
18279 { reserved_block
, 0 , 0 , 32,
18280 0xfc00ffff, 0x20003d3f, 0 , 0,
18281 0x0 }, /* POOL32Axf_4~*(30) */
18282 { reserved_block
, 0 , 0 , 32,
18283 0xfc00ffff, 0x20003f3f, 0 , 0,
18284 0x0 }, /* POOL32Axf_4~*(31) */
18285 { instruction
, 0 , 0 , 32,
18286 0xfc00ffff, 0x2000413f, &NMD::INSV
, 0,
18288 { reserved_block
, 0 , 0 , 32,
18289 0xfc00ffff, 0x2000433f, 0 , 0,
18290 0x0 }, /* POOL32Axf_4~*(33) */
18291 { reserved_block
, 0 , 0 , 32,
18292 0xfc00ffff, 0x2000453f, 0 , 0,
18293 0x0 }, /* POOL32Axf_4~*(34) */
18294 { reserved_block
, 0 , 0 , 32,
18295 0xfc00ffff, 0x2000473f, 0 , 0,
18296 0x0 }, /* POOL32Axf_4~*(35) */
18297 { reserved_block
, 0 , 0 , 32,
18298 0xfc00ffff, 0x2000493f, 0 , 0,
18299 0x0 }, /* POOL32Axf_4~*(36) */
18300 { instruction
, 0 , 0 , 32,
18301 0xfc00ffff, 0x20004b3f, &NMD::CLO
, 0,
18303 { instruction
, 0 , 0 , 32,
18304 0xfc00ffff, 0x20004d3f, &NMD::MFC2
, 0,
18306 { reserved_block
, 0 , 0 , 32,
18307 0xfc00ffff, 0x20004f3f, 0 , 0,
18308 0x0 }, /* POOL32Axf_4~*(39) */
18309 { instruction
, 0 , 0 , 32,
18310 0xfc00ffff, 0x2000513f, &NMD::PRECEQ_W_PHL
, 0,
18311 DSP_
}, /* PRECEQ.W.PHL */
18312 { reserved_block
, 0 , 0 , 32,
18313 0xfc00ffff, 0x2000533f, 0 , 0,
18314 0x0 }, /* POOL32Axf_4~*(41) */
18315 { reserved_block
, 0 , 0 , 32,
18316 0xfc00ffff, 0x2000553f, 0 , 0,
18317 0x0 }, /* POOL32Axf_4~*(42) */
18318 { reserved_block
, 0 , 0 , 32,
18319 0xfc00ffff, 0x2000573f, 0 , 0,
18320 0x0 }, /* POOL32Axf_4~*(43) */
18321 { reserved_block
, 0 , 0 , 32,
18322 0xfc00ffff, 0x2000593f, 0 , 0,
18323 0x0 }, /* POOL32Axf_4~*(44) */
18324 { instruction
, 0 , 0 , 32,
18325 0xfc00ffff, 0x20005b3f, &NMD::CLZ
, 0,
18327 { instruction
, 0 , 0 , 32,
18328 0xfc00ffff, 0x20005d3f, &NMD::MTC2
, 0,
18330 { reserved_block
, 0 , 0 , 32,
18331 0xfc00ffff, 0x20005f3f, 0 , 0,
18332 0x0 }, /* POOL32Axf_4~*(47) */
18333 { instruction
, 0 , 0 , 32,
18334 0xfc00ffff, 0x2000613f, &NMD::PRECEQ_W_PHR
, 0,
18335 DSP_
}, /* PRECEQ.W.PHR */
18336 { reserved_block
, 0 , 0 , 32,
18337 0xfc00ffff, 0x2000633f, 0 , 0,
18338 0x0 }, /* POOL32Axf_4~*(49) */
18339 { reserved_block
, 0 , 0 , 32,
18340 0xfc00ffff, 0x2000653f, 0 , 0,
18341 0x0 }, /* POOL32Axf_4~*(50) */
18342 { reserved_block
, 0 , 0 , 32,
18343 0xfc00ffff, 0x2000673f, 0 , 0,
18344 0x0 }, /* POOL32Axf_4~*(51) */
18345 { reserved_block
, 0 , 0 , 32,
18346 0xfc00ffff, 0x2000693f, 0 , 0,
18347 0x0 }, /* POOL32Axf_4~*(52) */
18348 { reserved_block
, 0 , 0 , 32,
18349 0xfc00ffff, 0x20006b3f, 0 , 0,
18350 0x0 }, /* POOL32Axf_4~*(53) */
18351 { instruction
, 0 , 0 , 32,
18352 0xfc00ffff, 0x20006d3f, &NMD::DMFC2
, 0,
18353 CP2_
}, /* DMFC2 */
18354 { reserved_block
, 0 , 0 , 32,
18355 0xfc00ffff, 0x20006f3f, 0 , 0,
18356 0x0 }, /* POOL32Axf_4~*(55) */
18357 { instruction
, 0 , 0 , 32,
18358 0xfc00ffff, 0x2000713f, &NMD::PRECEQU_PH_QBL
, 0,
18359 DSP_
}, /* PRECEQU.PH.QBL */
18360 { instruction
, 0 , 0 , 32,
18361 0xfc00ffff, 0x2000733f, &NMD::PRECEQU_PH_QBLA
, 0,
18362 DSP_
}, /* PRECEQU.PH.QBLA */
18363 { reserved_block
, 0 , 0 , 32,
18364 0xfc00ffff, 0x2000753f, 0 , 0,
18365 0x0 }, /* POOL32Axf_4~*(58) */
18366 { reserved_block
, 0 , 0 , 32,
18367 0xfc00ffff, 0x2000773f, 0 , 0,
18368 0x0 }, /* POOL32Axf_4~*(59) */
18369 { reserved_block
, 0 , 0 , 32,
18370 0xfc00ffff, 0x2000793f, 0 , 0,
18371 0x0 }, /* POOL32Axf_4~*(60) */
18372 { reserved_block
, 0 , 0 , 32,
18373 0xfc00ffff, 0x20007b3f, 0 , 0,
18374 0x0 }, /* POOL32Axf_4~*(61) */
18375 { instruction
, 0 , 0 , 32,
18376 0xfc00ffff, 0x20007d3f, &NMD::DMTC2
, 0,
18377 CP2_
}, /* DMTC2 */
18378 { reserved_block
, 0 , 0 , 32,
18379 0xfc00ffff, 0x20007f3f, 0 , 0,
18380 0x0 }, /* POOL32Axf_4~*(63) */
18381 { reserved_block
, 0 , 0 , 32,
18382 0xfc00ffff, 0x2000813f, 0 , 0,
18383 0x0 }, /* POOL32Axf_4~*(64) */
18384 { reserved_block
, 0 , 0 , 32,
18385 0xfc00ffff, 0x2000833f, 0 , 0,
18386 0x0 }, /* POOL32Axf_4~*(65) */
18387 { reserved_block
, 0 , 0 , 32,
18388 0xfc00ffff, 0x2000853f, 0 , 0,
18389 0x0 }, /* POOL32Axf_4~*(66) */
18390 { reserved_block
, 0 , 0 , 32,
18391 0xfc00ffff, 0x2000873f, 0 , 0,
18392 0x0 }, /* POOL32Axf_4~*(67) */
18393 { reserved_block
, 0 , 0 , 32,
18394 0xfc00ffff, 0x2000893f, 0 , 0,
18395 0x0 }, /* POOL32Axf_4~*(68) */
18396 { reserved_block
, 0 , 0 , 32,
18397 0xfc00ffff, 0x20008b3f, 0 , 0,
18398 0x0 }, /* POOL32Axf_4~*(69) */
18399 { instruction
, 0 , 0 , 32,
18400 0xfc00ffff, 0x20008d3f, &NMD::MFHC2
, 0,
18401 CP2_
}, /* MFHC2 */
18402 { reserved_block
, 0 , 0 , 32,
18403 0xfc00ffff, 0x20008f3f, 0 , 0,
18404 0x0 }, /* POOL32Axf_4~*(71) */
18405 { instruction
, 0 , 0 , 32,
18406 0xfc00ffff, 0x2000913f, &NMD::PRECEQU_PH_QBR
, 0,
18407 DSP_
}, /* PRECEQU.PH.QBR */
18408 { instruction
, 0 , 0 , 32,
18409 0xfc00ffff, 0x2000933f, &NMD::PRECEQU_PH_QBRA
, 0,
18410 DSP_
}, /* PRECEQU.PH.QBRA */
18411 { reserved_block
, 0 , 0 , 32,
18412 0xfc00ffff, 0x2000953f, 0 , 0,
18413 0x0 }, /* POOL32Axf_4~*(74) */
18414 { reserved_block
, 0 , 0 , 32,
18415 0xfc00ffff, 0x2000973f, 0 , 0,
18416 0x0 }, /* POOL32Axf_4~*(75) */
18417 { reserved_block
, 0 , 0 , 32,
18418 0xfc00ffff, 0x2000993f, 0 , 0,
18419 0x0 }, /* POOL32Axf_4~*(76) */
18420 { reserved_block
, 0 , 0 , 32,
18421 0xfc00ffff, 0x20009b3f, 0 , 0,
18422 0x0 }, /* POOL32Axf_4~*(77) */
18423 { instruction
, 0 , 0 , 32,
18424 0xfc00ffff, 0x20009d3f, &NMD::MTHC2
, 0,
18425 CP2_
}, /* MTHC2 */
18426 { reserved_block
, 0 , 0 , 32,
18427 0xfc00ffff, 0x20009f3f, 0 , 0,
18428 0x0 }, /* POOL32Axf_4~*(79) */
18429 { reserved_block
, 0 , 0 , 32,
18430 0xfc00ffff, 0x2000a13f, 0 , 0,
18431 0x0 }, /* POOL32Axf_4~*(80) */
18432 { reserved_block
, 0 , 0 , 32,
18433 0xfc00ffff, 0x2000a33f, 0 , 0,
18434 0x0 }, /* POOL32Axf_4~*(81) */
18435 { reserved_block
, 0 , 0 , 32,
18436 0xfc00ffff, 0x2000a53f, 0 , 0,
18437 0x0 }, /* POOL32Axf_4~*(82) */
18438 { reserved_block
, 0 , 0 , 32,
18439 0xfc00ffff, 0x2000a73f, 0 , 0,
18440 0x0 }, /* POOL32Axf_4~*(83) */
18441 { reserved_block
, 0 , 0 , 32,
18442 0xfc00ffff, 0x2000a93f, 0 , 0,
18443 0x0 }, /* POOL32Axf_4~*(84) */
18444 { reserved_block
, 0 , 0 , 32,
18445 0xfc00ffff, 0x2000ab3f, 0 , 0,
18446 0x0 }, /* POOL32Axf_4~*(85) */
18447 { reserved_block
, 0 , 0 , 32,
18448 0xfc00ffff, 0x2000ad3f, 0 , 0,
18449 0x0 }, /* POOL32Axf_4~*(86) */
18450 { reserved_block
, 0 , 0 , 32,
18451 0xfc00ffff, 0x2000af3f, 0 , 0,
18452 0x0 }, /* POOL32Axf_4~*(87) */
18453 { instruction
, 0 , 0 , 32,
18454 0xfc00ffff, 0x2000b13f, &NMD::PRECEU_PH_QBL
, 0,
18455 DSP_
}, /* PRECEU.PH.QBL */
18456 { instruction
, 0 , 0 , 32,
18457 0xfc00ffff, 0x2000b33f, &NMD::PRECEU_PH_QBLA
, 0,
18458 DSP_
}, /* PRECEU.PH.QBLA */
18459 { reserved_block
, 0 , 0 , 32,
18460 0xfc00ffff, 0x2000b53f, 0 , 0,
18461 0x0 }, /* POOL32Axf_4~*(90) */
18462 { reserved_block
, 0 , 0 , 32,
18463 0xfc00ffff, 0x2000b73f, 0 , 0,
18464 0x0 }, /* POOL32Axf_4~*(91) */
18465 { reserved_block
, 0 , 0 , 32,
18466 0xfc00ffff, 0x2000b93f, 0 , 0,
18467 0x0 }, /* POOL32Axf_4~*(92) */
18468 { reserved_block
, 0 , 0 , 32,
18469 0xfc00ffff, 0x2000bb3f, 0 , 0,
18470 0x0 }, /* POOL32Axf_4~*(93) */
18471 { reserved_block
, 0 , 0 , 32,
18472 0xfc00ffff, 0x2000bd3f, 0 , 0,
18473 0x0 }, /* POOL32Axf_4~*(94) */
18474 { reserved_block
, 0 , 0 , 32,
18475 0xfc00ffff, 0x2000bf3f, 0 , 0,
18476 0x0 }, /* POOL32Axf_4~*(95) */
18477 { reserved_block
, 0 , 0 , 32,
18478 0xfc00ffff, 0x2000c13f, 0 , 0,
18479 0x0 }, /* POOL32Axf_4~*(96) */
18480 { reserved_block
, 0 , 0 , 32,
18481 0xfc00ffff, 0x2000c33f, 0 , 0,
18482 0x0 }, /* POOL32Axf_4~*(97) */
18483 { reserved_block
, 0 , 0 , 32,
18484 0xfc00ffff, 0x2000c53f, 0 , 0,
18485 0x0 }, /* POOL32Axf_4~*(98) */
18486 { reserved_block
, 0 , 0 , 32,
18487 0xfc00ffff, 0x2000c73f, 0 , 0,
18488 0x0 }, /* POOL32Axf_4~*(99) */
18489 { reserved_block
, 0 , 0 , 32,
18490 0xfc00ffff, 0x2000c93f, 0 , 0,
18491 0x0 }, /* POOL32Axf_4~*(100) */
18492 { reserved_block
, 0 , 0 , 32,
18493 0xfc00ffff, 0x2000cb3f, 0 , 0,
18494 0x0 }, /* POOL32Axf_4~*(101) */
18495 { instruction
, 0 , 0 , 32,
18496 0xfc00ffff, 0x2000cd3f, &NMD::CFC2
, 0,
18498 { reserved_block
, 0 , 0 , 32,
18499 0xfc00ffff, 0x2000cf3f, 0 , 0,
18500 0x0 }, /* POOL32Axf_4~*(103) */
18501 { instruction
, 0 , 0 , 32,
18502 0xfc00ffff, 0x2000d13f, &NMD::PRECEU_PH_QBR
, 0,
18503 DSP_
}, /* PRECEU.PH.QBR */
18504 { instruction
, 0 , 0 , 32,
18505 0xfc00ffff, 0x2000d33f, &NMD::PRECEU_PH_QBRA
, 0,
18506 DSP_
}, /* PRECEU.PH.QBRA */
18507 { reserved_block
, 0 , 0 , 32,
18508 0xfc00ffff, 0x2000d53f, 0 , 0,
18509 0x0 }, /* POOL32Axf_4~*(106) */
18510 { reserved_block
, 0 , 0 , 32,
18511 0xfc00ffff, 0x2000d73f, 0 , 0,
18512 0x0 }, /* POOL32Axf_4~*(107) */
18513 { reserved_block
, 0 , 0 , 32,
18514 0xfc00ffff, 0x2000d93f, 0 , 0,
18515 0x0 }, /* POOL32Axf_4~*(108) */
18516 { reserved_block
, 0 , 0 , 32,
18517 0xfc00ffff, 0x2000db3f, 0 , 0,
18518 0x0 }, /* POOL32Axf_4~*(109) */
18519 { instruction
, 0 , 0 , 32,
18520 0xfc00ffff, 0x2000dd3f, &NMD::CTC2
, 0,
18522 { reserved_block
, 0 , 0 , 32,
18523 0xfc00ffff, 0x2000df3f, 0 , 0,
18524 0x0 }, /* POOL32Axf_4~*(111) */
18525 { reserved_block
, 0 , 0 , 32,
18526 0xfc00ffff, 0x2000e13f, 0 , 0,
18527 0x0 }, /* POOL32Axf_4~*(112) */
18528 { reserved_block
, 0 , 0 , 32,
18529 0xfc00ffff, 0x2000e33f, 0 , 0,
18530 0x0 }, /* POOL32Axf_4~*(113) */
18531 { reserved_block
, 0 , 0 , 32,
18532 0xfc00ffff, 0x2000e53f, 0 , 0,
18533 0x0 }, /* POOL32Axf_4~*(114) */
18534 { reserved_block
, 0 , 0 , 32,
18535 0xfc00ffff, 0x2000e73f, 0 , 0,
18536 0x0 }, /* POOL32Axf_4~*(115) */
18537 { reserved_block
, 0 , 0 , 32,
18538 0xfc00ffff, 0x2000e93f, 0 , 0,
18539 0x0 }, /* POOL32Axf_4~*(116) */
18540 { reserved_block
, 0 , 0 , 32,
18541 0xfc00ffff, 0x2000eb3f, 0 , 0,
18542 0x0 }, /* POOL32Axf_4~*(117) */
18543 { reserved_block
, 0 , 0 , 32,
18544 0xfc00ffff, 0x2000ed3f, 0 , 0,
18545 0x0 }, /* POOL32Axf_4~*(118) */
18546 { reserved_block
, 0 , 0 , 32,
18547 0xfc00ffff, 0x2000ef3f, 0 , 0,
18548 0x0 }, /* POOL32Axf_4~*(119) */
18549 { instruction
, 0 , 0 , 32,
18550 0xfc00ffff, 0x2000f13f, &NMD::RADDU_W_QB
, 0,
18551 DSP_
}, /* RADDU.W.QB */
18552 { reserved_block
, 0 , 0 , 32,
18553 0xfc00ffff, 0x2000f33f, 0 , 0,
18554 0x0 }, /* POOL32Axf_4~*(121) */
18555 { reserved_block
, 0 , 0 , 32,
18556 0xfc00ffff, 0x2000f53f, 0 , 0,
18557 0x0 }, /* POOL32Axf_4~*(122) */
18558 { reserved_block
, 0 , 0 , 32,
18559 0xfc00ffff, 0x2000f73f, 0 , 0,
18560 0x0 }, /* POOL32Axf_4~*(123) */
18561 { reserved_block
, 0 , 0 , 32,
18562 0xfc00ffff, 0x2000f93f, 0 , 0,
18563 0x0 }, /* POOL32Axf_4~*(124) */
18564 { reserved_block
, 0 , 0 , 32,
18565 0xfc00ffff, 0x2000fb3f, 0 , 0,
18566 0x0 }, /* POOL32Axf_4~*(125) */
18567 { reserved_block
, 0 , 0 , 32,
18568 0xfc00ffff, 0x2000fd3f, 0 , 0,
18569 0x0 }, /* POOL32Axf_4~*(126) */
18570 { reserved_block
, 0 , 0 , 32,
18571 0xfc00ffff, 0x2000ff3f, 0 , 0,
18572 0x0 }, /* POOL32Axf_4~*(127) */
18576 NMD::Pool
NMD::POOL32Axf_5_group0
[32] = {
18577 { instruction
, 0 , 0 , 32,
18578 0xfc00ffff, 0x2000017f, &NMD::TLBGP
, 0,
18579 CP0_
| VZ_
| TLB_
}, /* TLBGP */
18580 { instruction
, 0 , 0 , 32,
18581 0xfc00ffff, 0x2000037f, &NMD::TLBP
, 0,
18582 CP0_
| TLB_
}, /* TLBP */
18583 { instruction
, 0 , 0 , 32,
18584 0xfc00ffff, 0x2000057f, &NMD::TLBGINV
, 0,
18585 CP0_
| VZ_
| TLB_
| TLBINV_
}, /* TLBGINV */
18586 { instruction
, 0 , 0 , 32,
18587 0xfc00ffff, 0x2000077f, &NMD::TLBINV
, 0,
18588 CP0_
| TLB_
| TLBINV_
}, /* TLBINV */
18589 { reserved_block
, 0 , 0 , 32,
18590 0xfc00ffff, 0x2000097f, 0 , 0,
18591 0x0 }, /* POOL32Axf_5_group0~*(4) */
18592 { reserved_block
, 0 , 0 , 32,
18593 0xfc00ffff, 0x20000b7f, 0 , 0,
18594 0x0 }, /* POOL32Axf_5_group0~*(5) */
18595 { reserved_block
, 0 , 0 , 32,
18596 0xfc00ffff, 0x20000d7f, 0 , 0,
18597 0x0 }, /* POOL32Axf_5_group0~*(6) */
18598 { reserved_block
, 0 , 0 , 32,
18599 0xfc00ffff, 0x20000f7f, 0 , 0,
18600 0x0 }, /* POOL32Axf_5_group0~*(7) */
18601 { instruction
, 0 , 0 , 32,
18602 0xfc00ffff, 0x2000117f, &NMD::TLBGR
, 0,
18603 CP0_
| VZ_
| TLB_
}, /* TLBGR */
18604 { instruction
, 0 , 0 , 32,
18605 0xfc00ffff, 0x2000137f, &NMD::TLBR
, 0,
18606 CP0_
| TLB_
}, /* TLBR */
18607 { instruction
, 0 , 0 , 32,
18608 0xfc00ffff, 0x2000157f, &NMD::TLBGINVF
, 0,
18609 CP0_
| VZ_
| TLB_
| TLBINV_
}, /* TLBGINVF */
18610 { instruction
, 0 , 0 , 32,
18611 0xfc00ffff, 0x2000177f, &NMD::TLBINVF
, 0,
18612 CP0_
| TLB_
| TLBINV_
}, /* TLBINVF */
18613 { reserved_block
, 0 , 0 , 32,
18614 0xfc00ffff, 0x2000197f, 0 , 0,
18615 0x0 }, /* POOL32Axf_5_group0~*(12) */
18616 { reserved_block
, 0 , 0 , 32,
18617 0xfc00ffff, 0x20001b7f, 0 , 0,
18618 0x0 }, /* POOL32Axf_5_group0~*(13) */
18619 { reserved_block
, 0 , 0 , 32,
18620 0xfc00ffff, 0x20001d7f, 0 , 0,
18621 0x0 }, /* POOL32Axf_5_group0~*(14) */
18622 { reserved_block
, 0 , 0 , 32,
18623 0xfc00ffff, 0x20001f7f, 0 , 0,
18624 0x0 }, /* POOL32Axf_5_group0~*(15) */
18625 { instruction
, 0 , 0 , 32,
18626 0xfc00ffff, 0x2000217f, &NMD::TLBGWI
, 0,
18627 CP0_
| VZ_
| TLB_
}, /* TLBGWI */
18628 { instruction
, 0 , 0 , 32,
18629 0xfc00ffff, 0x2000237f, &NMD::TLBWI
, 0,
18630 CP0_
| TLB_
}, /* TLBWI */
18631 { reserved_block
, 0 , 0 , 32,
18632 0xfc00ffff, 0x2000257f, 0 , 0,
18633 0x0 }, /* POOL32Axf_5_group0~*(18) */
18634 { reserved_block
, 0 , 0 , 32,
18635 0xfc00ffff, 0x2000277f, 0 , 0,
18636 0x0 }, /* POOL32Axf_5_group0~*(19) */
18637 { reserved_block
, 0 , 0 , 32,
18638 0xfc00ffff, 0x2000297f, 0 , 0,
18639 0x0 }, /* POOL32Axf_5_group0~*(20) */
18640 { reserved_block
, 0 , 0 , 32,
18641 0xfc00ffff, 0x20002b7f, 0 , 0,
18642 0x0 }, /* POOL32Axf_5_group0~*(21) */
18643 { reserved_block
, 0 , 0 , 32,
18644 0xfc00ffff, 0x20002d7f, 0 , 0,
18645 0x0 }, /* POOL32Axf_5_group0~*(22) */
18646 { reserved_block
, 0 , 0 , 32,
18647 0xfc00ffff, 0x20002f7f, 0 , 0,
18648 0x0 }, /* POOL32Axf_5_group0~*(23) */
18649 { instruction
, 0 , 0 , 32,
18650 0xfc00ffff, 0x2000317f, &NMD::TLBGWR
, 0,
18651 CP0_
| VZ_
| TLB_
}, /* TLBGWR */
18652 { instruction
, 0 , 0 , 32,
18653 0xfc00ffff, 0x2000337f, &NMD::TLBWR
, 0,
18654 CP0_
| TLB_
}, /* TLBWR */
18655 { reserved_block
, 0 , 0 , 32,
18656 0xfc00ffff, 0x2000357f, 0 , 0,
18657 0x0 }, /* POOL32Axf_5_group0~*(26) */
18658 { reserved_block
, 0 , 0 , 32,
18659 0xfc00ffff, 0x2000377f, 0 , 0,
18660 0x0 }, /* POOL32Axf_5_group0~*(27) */
18661 { reserved_block
, 0 , 0 , 32,
18662 0xfc00ffff, 0x2000397f, 0 , 0,
18663 0x0 }, /* POOL32Axf_5_group0~*(28) */
18664 { reserved_block
, 0 , 0 , 32,
18665 0xfc00ffff, 0x20003b7f, 0 , 0,
18666 0x0 }, /* POOL32Axf_5_group0~*(29) */
18667 { reserved_block
, 0 , 0 , 32,
18668 0xfc00ffff, 0x20003d7f, 0 , 0,
18669 0x0 }, /* POOL32Axf_5_group0~*(30) */
18670 { reserved_block
, 0 , 0 , 32,
18671 0xfc00ffff, 0x20003f7f, 0 , 0,
18672 0x0 }, /* POOL32Axf_5_group0~*(31) */
18676 NMD::Pool
NMD::POOL32Axf_5_group1
[32] = {
18677 { reserved_block
, 0 , 0 , 32,
18678 0xfc00ffff, 0x2000417f, 0 , 0,
18679 0x0 }, /* POOL32Axf_5_group1~*(0) */
18680 { reserved_block
, 0 , 0 , 32,
18681 0xfc00ffff, 0x2000437f, 0 , 0,
18682 0x0 }, /* POOL32Axf_5_group1~*(1) */
18683 { reserved_block
, 0 , 0 , 32,
18684 0xfc00ffff, 0x2000457f, 0 , 0,
18685 0x0 }, /* POOL32Axf_5_group1~*(2) */
18686 { instruction
, 0 , 0 , 32,
18687 0xfc00ffff, 0x2000477f, &NMD::DI
, 0,
18689 { reserved_block
, 0 , 0 , 32,
18690 0xfc00ffff, 0x2000497f, 0 , 0,
18691 0x0 }, /* POOL32Axf_5_group1~*(4) */
18692 { reserved_block
, 0 , 0 , 32,
18693 0xfc00ffff, 0x20004b7f, 0 , 0,
18694 0x0 }, /* POOL32Axf_5_group1~*(5) */
18695 { reserved_block
, 0 , 0 , 32,
18696 0xfc00ffff, 0x20004d7f, 0 , 0,
18697 0x0 }, /* POOL32Axf_5_group1~*(6) */
18698 { reserved_block
, 0 , 0 , 32,
18699 0xfc00ffff, 0x20004f7f, 0 , 0,
18700 0x0 }, /* POOL32Axf_5_group1~*(7) */
18701 { reserved_block
, 0 , 0 , 32,
18702 0xfc00ffff, 0x2000517f, 0 , 0,
18703 0x0 }, /* POOL32Axf_5_group1~*(8) */
18704 { reserved_block
, 0 , 0 , 32,
18705 0xfc00ffff, 0x2000537f, 0 , 0,
18706 0x0 }, /* POOL32Axf_5_group1~*(9) */
18707 { reserved_block
, 0 , 0 , 32,
18708 0xfc00ffff, 0x2000557f, 0 , 0,
18709 0x0 }, /* POOL32Axf_5_group1~*(10) */
18710 { instruction
, 0 , 0 , 32,
18711 0xfc00ffff, 0x2000577f, &NMD::EI
, 0,
18713 { reserved_block
, 0 , 0 , 32,
18714 0xfc00ffff, 0x2000597f, 0 , 0,
18715 0x0 }, /* POOL32Axf_5_group1~*(12) */
18716 { reserved_block
, 0 , 0 , 32,
18717 0xfc00ffff, 0x20005b7f, 0 , 0,
18718 0x0 }, /* POOL32Axf_5_group1~*(13) */
18719 { reserved_block
, 0 , 0 , 32,
18720 0xfc00ffff, 0x20005d7f, 0 , 0,
18721 0x0 }, /* POOL32Axf_5_group1~*(14) */
18722 { reserved_block
, 0 , 0 , 32,
18723 0xfc00ffff, 0x20005f7f, 0 , 0,
18724 0x0 }, /* POOL32Axf_5_group1~*(15) */
18725 { reserved_block
, 0 , 0 , 32,
18726 0xfc00ffff, 0x2000617f, 0 , 0,
18727 0x0 }, /* POOL32Axf_5_group1~*(16) */
18728 { reserved_block
, 0 , 0 , 32,
18729 0xfc00ffff, 0x2000637f, 0 , 0,
18730 0x0 }, /* POOL32Axf_5_group1~*(17) */
18731 { reserved_block
, 0 , 0 , 32,
18732 0xfc00ffff, 0x2000657f, 0 , 0,
18733 0x0 }, /* POOL32Axf_5_group1~*(18) */
18734 { reserved_block
, 0 , 0 , 32,
18735 0xfc00ffff, 0x2000677f, 0 , 0,
18736 0x0 }, /* POOL32Axf_5_group1~*(19) */
18737 { reserved_block
, 0 , 0 , 32,
18738 0xfc00ffff, 0x2000697f, 0 , 0,
18739 0x0 }, /* POOL32Axf_5_group1~*(20) */
18740 { reserved_block
, 0 , 0 , 32,
18741 0xfc00ffff, 0x20006b7f, 0 , 0,
18742 0x0 }, /* POOL32Axf_5_group1~*(21) */
18743 { reserved_block
, 0 , 0 , 32,
18744 0xfc00ffff, 0x20006d7f, 0 , 0,
18745 0x0 }, /* POOL32Axf_5_group1~*(22) */
18746 { reserved_block
, 0 , 0 , 32,
18747 0xfc00ffff, 0x20006f7f, 0 , 0,
18748 0x0 }, /* POOL32Axf_5_group1~*(23) */
18749 { reserved_block
, 0 , 0 , 32,
18750 0xfc00ffff, 0x2000717f, 0 , 0,
18751 0x0 }, /* POOL32Axf_5_group1~*(24) */
18752 { reserved_block
, 0 , 0 , 32,
18753 0xfc00ffff, 0x2000737f, 0 , 0,
18754 0x0 }, /* POOL32Axf_5_group1~*(25) */
18755 { reserved_block
, 0 , 0 , 32,
18756 0xfc00ffff, 0x2000757f, 0 , 0,
18757 0x0 }, /* POOL32Axf_5_group1~*(26) */
18758 { reserved_block
, 0 , 0 , 32,
18759 0xfc00ffff, 0x2000777f, 0 , 0,
18760 0x0 }, /* POOL32Axf_5_group1~*(27) */
18761 { reserved_block
, 0 , 0 , 32,
18762 0xfc00ffff, 0x2000797f, 0 , 0,
18763 0x0 }, /* POOL32Axf_5_group1~*(28) */
18764 { reserved_block
, 0 , 0 , 32,
18765 0xfc00ffff, 0x20007b7f, 0 , 0,
18766 0x0 }, /* POOL32Axf_5_group1~*(29) */
18767 { reserved_block
, 0 , 0 , 32,
18768 0xfc00ffff, 0x20007d7f, 0 , 0,
18769 0x0 }, /* POOL32Axf_5_group1~*(30) */
18770 { reserved_block
, 0 , 0 , 32,
18771 0xfc00ffff, 0x20007f7f, 0 , 0,
18772 0x0 }, /* POOL32Axf_5_group1~*(31) */
18776 NMD::Pool
NMD::ERETx
[2] = {
18777 { instruction
, 0 , 0 , 32,
18778 0xfc01ffff, 0x2000f37f, &NMD::ERET
, 0,
18780 { instruction
, 0 , 0 , 32,
18781 0xfc01ffff, 0x2001f37f, &NMD::ERETNC
, 0,
18782 0x0 }, /* ERETNC */
18786 NMD::Pool
NMD::POOL32Axf_5_group3
[32] = {
18787 { reserved_block
, 0 , 0 , 32,
18788 0xfc00ffff, 0x2000c17f, 0 , 0,
18789 0x0 }, /* POOL32Axf_5_group3~*(0) */
18790 { instruction
, 0 , 0 , 32,
18791 0xfc00ffff, 0x2000c37f, &NMD::WAIT
, 0,
18793 { reserved_block
, 0 , 0 , 32,
18794 0xfc00ffff, 0x2000c57f, 0 , 0,
18795 0x0 }, /* POOL32Axf_5_group3~*(2) */
18796 { reserved_block
, 0 , 0 , 32,
18797 0xfc00ffff, 0x2000c77f, 0 , 0,
18798 0x0 }, /* POOL32Axf_5_group3~*(3) */
18799 { reserved_block
, 0 , 0 , 32,
18800 0xfc00ffff, 0x2000c97f, 0 , 0,
18801 0x0 }, /* POOL32Axf_5_group3~*(4) */
18802 { reserved_block
, 0 , 0 , 32,
18803 0xfc00ffff, 0x2000cb7f, 0 , 0,
18804 0x0 }, /* POOL32Axf_5_group3~*(5) */
18805 { reserved_block
, 0 , 0 , 32,
18806 0xfc00ffff, 0x2000cd7f, 0 , 0,
18807 0x0 }, /* POOL32Axf_5_group3~*(6) */
18808 { reserved_block
, 0 , 0 , 32,
18809 0xfc00ffff, 0x2000cf7f, 0 , 0,
18810 0x0 }, /* POOL32Axf_5_group3~*(7) */
18811 { reserved_block
, 0 , 0 , 32,
18812 0xfc00ffff, 0x2000d17f, 0 , 0,
18813 0x0 }, /* POOL32Axf_5_group3~*(8) */
18814 { instruction
, 0 , 0 , 32,
18815 0xfc00ffff, 0x2000d37f, &NMD::IRET
, 0,
18817 { reserved_block
, 0 , 0 , 32,
18818 0xfc00ffff, 0x2000d57f, 0 , 0,
18819 0x0 }, /* POOL32Axf_5_group3~*(10) */
18820 { reserved_block
, 0 , 0 , 32,
18821 0xfc00ffff, 0x2000d77f, 0 , 0,
18822 0x0 }, /* POOL32Axf_5_group3~*(11) */
18823 { reserved_block
, 0 , 0 , 32,
18824 0xfc00ffff, 0x2000d97f, 0 , 0,
18825 0x0 }, /* POOL32Axf_5_group3~*(12) */
18826 { reserved_block
, 0 , 0 , 32,
18827 0xfc00ffff, 0x2000db7f, 0 , 0,
18828 0x0 }, /* POOL32Axf_5_group3~*(13) */
18829 { reserved_block
, 0 , 0 , 32,
18830 0xfc00ffff, 0x2000dd7f, 0 , 0,
18831 0x0 }, /* POOL32Axf_5_group3~*(14) */
18832 { reserved_block
, 0 , 0 , 32,
18833 0xfc00ffff, 0x2000df7f, 0 , 0,
18834 0x0 }, /* POOL32Axf_5_group3~*(15) */
18835 { instruction
, 0 , 0 , 32,
18836 0xfc00ffff, 0x2000e17f, &NMD::RDPGPR
, 0,
18837 CP0_
}, /* RDPGPR */
18838 { instruction
, 0 , 0 , 32,
18839 0xfc00ffff, 0x2000e37f, &NMD::DERET
, 0,
18840 EJTAG_
}, /* DERET */
18841 { reserved_block
, 0 , 0 , 32,
18842 0xfc00ffff, 0x2000e57f, 0 , 0,
18843 0x0 }, /* POOL32Axf_5_group3~*(18) */
18844 { reserved_block
, 0 , 0 , 32,
18845 0xfc00ffff, 0x2000e77f, 0 , 0,
18846 0x0 }, /* POOL32Axf_5_group3~*(19) */
18847 { reserved_block
, 0 , 0 , 32,
18848 0xfc00ffff, 0x2000e97f, 0 , 0,
18849 0x0 }, /* POOL32Axf_5_group3~*(20) */
18850 { reserved_block
, 0 , 0 , 32,
18851 0xfc00ffff, 0x2000eb7f, 0 , 0,
18852 0x0 }, /* POOL32Axf_5_group3~*(21) */
18853 { reserved_block
, 0 , 0 , 32,
18854 0xfc00ffff, 0x2000ed7f, 0 , 0,
18855 0x0 }, /* POOL32Axf_5_group3~*(22) */
18856 { reserved_block
, 0 , 0 , 32,
18857 0xfc00ffff, 0x2000ef7f, 0 , 0,
18858 0x0 }, /* POOL32Axf_5_group3~*(23) */
18859 { instruction
, 0 , 0 , 32,
18860 0xfc00ffff, 0x2000f17f, &NMD::WRPGPR
, 0,
18861 CP0_
}, /* WRPGPR */
18862 { pool
, ERETx
, 2 , 32,
18863 0xfc00ffff, 0x2000f37f, 0 , 0,
18865 { reserved_block
, 0 , 0 , 32,
18866 0xfc00ffff, 0x2000f57f, 0 , 0,
18867 0x0 }, /* POOL32Axf_5_group3~*(26) */
18868 { reserved_block
, 0 , 0 , 32,
18869 0xfc00ffff, 0x2000f77f, 0 , 0,
18870 0x0 }, /* POOL32Axf_5_group3~*(27) */
18871 { reserved_block
, 0 , 0 , 32,
18872 0xfc00ffff, 0x2000f97f, 0 , 0,
18873 0x0 }, /* POOL32Axf_5_group3~*(28) */
18874 { reserved_block
, 0 , 0 , 32,
18875 0xfc00ffff, 0x2000fb7f, 0 , 0,
18876 0x0 }, /* POOL32Axf_5_group3~*(29) */
18877 { reserved_block
, 0 , 0 , 32,
18878 0xfc00ffff, 0x2000fd7f, 0 , 0,
18879 0x0 }, /* POOL32Axf_5_group3~*(30) */
18880 { reserved_block
, 0 , 0 , 32,
18881 0xfc00ffff, 0x2000ff7f, 0 , 0,
18882 0x0 }, /* POOL32Axf_5_group3~*(31) */
18886 NMD::Pool
NMD::POOL32Axf_5
[4] = {
18887 { pool
, POOL32Axf_5_group0
, 32 , 32,
18888 0xfc00c1ff, 0x2000017f, 0 , 0,
18889 0x0 }, /* POOL32Axf_5_group0 */
18890 { pool
, POOL32Axf_5_group1
, 32 , 32,
18891 0xfc00c1ff, 0x2000417f, 0 , 0,
18892 0x0 }, /* POOL32Axf_5_group1 */
18893 { reserved_block
, 0 , 0 , 32,
18894 0xfc00c1ff, 0x2000817f, 0 , 0,
18895 0x0 }, /* POOL32Axf_5~*(2) */
18896 { pool
, POOL32Axf_5_group3
, 32 , 32,
18897 0xfc00c1ff, 0x2000c17f, 0 , 0,
18898 0x0 }, /* POOL32Axf_5_group3 */
18902 NMD::Pool
NMD::SHRA__R__QB
[2] = {
18903 { instruction
, 0 , 0 , 32,
18904 0xfc001fff, 0x200001ff, &NMD::SHRA_QB
, 0,
18905 DSP_
}, /* SHRA.QB */
18906 { instruction
, 0 , 0 , 32,
18907 0xfc001fff, 0x200011ff, &NMD::SHRA_R_QB
, 0,
18908 DSP_
}, /* SHRA_R.QB */
18912 NMD::Pool
NMD::POOL32Axf_7
[8] = {
18913 { pool
, SHRA__R__QB
, 2 , 32,
18914 0xfc000fff, 0x200001ff, 0 , 0,
18915 0x0 }, /* SHRA[_R].QB */
18916 { instruction
, 0 , 0 , 32,
18917 0xfc000fff, 0x200003ff, &NMD::SHRL_PH
, 0,
18918 DSP_
}, /* SHRL.PH */
18919 { instruction
, 0 , 0 , 32,
18920 0xfc000fff, 0x200005ff, &NMD::REPL_QB
, 0,
18921 DSP_
}, /* REPL.QB */
18922 { reserved_block
, 0 , 0 , 32,
18923 0xfc000fff, 0x200007ff, 0 , 0,
18924 0x0 }, /* POOL32Axf_7~*(3) */
18925 { reserved_block
, 0 , 0 , 32,
18926 0xfc000fff, 0x200009ff, 0 , 0,
18927 0x0 }, /* POOL32Axf_7~*(4) */
18928 { reserved_block
, 0 , 0 , 32,
18929 0xfc000fff, 0x20000bff, 0 , 0,
18930 0x0 }, /* POOL32Axf_7~*(5) */
18931 { reserved_block
, 0 , 0 , 32,
18932 0xfc000fff, 0x20000dff, 0 , 0,
18933 0x0 }, /* POOL32Axf_7~*(6) */
18934 { reserved_block
, 0 , 0 , 32,
18935 0xfc000fff, 0x20000fff, 0 , 0,
18936 0x0 }, /* POOL32Axf_7~*(7) */
18940 NMD::Pool
NMD::POOL32Axf
[8] = {
18941 { reserved_block
, 0 , 0 , 32,
18942 0xfc0001ff, 0x2000003f, 0 , 0,
18943 0x0 }, /* POOL32Axf~*(0) */
18944 { pool
, POOL32Axf_1
, 8 , 32,
18945 0xfc0001ff, 0x2000007f, 0 , 0,
18946 0x0 }, /* POOL32Axf_1 */
18947 { pool
, POOL32Axf_2
, 4 , 32,
18948 0xfc0001ff, 0x200000bf, 0 , 0,
18949 0x0 }, /* POOL32Axf_2 */
18950 { reserved_block
, 0 , 0 , 32,
18951 0xfc0001ff, 0x200000ff, 0 , 0,
18952 0x0 }, /* POOL32Axf~*(3) */
18953 { pool
, POOL32Axf_4
, 128 , 32,
18954 0xfc0001ff, 0x2000013f, 0 , 0,
18955 0x0 }, /* POOL32Axf_4 */
18956 { pool
, POOL32Axf_5
, 4 , 32,
18957 0xfc0001ff, 0x2000017f, 0 , 0,
18958 0x0 }, /* POOL32Axf_5 */
18959 { reserved_block
, 0 , 0 , 32,
18960 0xfc0001ff, 0x200001bf, 0 , 0,
18961 0x0 }, /* POOL32Axf~*(6) */
18962 { pool
, POOL32Axf_7
, 8 , 32,
18963 0xfc0001ff, 0x200001ff, 0 , 0,
18964 0x0 }, /* POOL32Axf_7 */
18968 NMD::Pool
NMD::_POOL32A7
[8] = {
18969 { pool
, P_LSX
, 2 , 32,
18970 0xfc00003f, 0x20000007, 0 , 0,
18972 { instruction
, 0 , 0 , 32,
18973 0xfc00003f, 0x2000000f, &NMD::LSA
, 0,
18975 { reserved_block
, 0 , 0 , 32,
18976 0xfc00003f, 0x20000017, 0 , 0,
18977 0x0 }, /* _POOL32A7~*(2) */
18978 { instruction
, 0 , 0 , 32,
18979 0xfc00003f, 0x2000001f, &NMD::EXTW
, 0,
18981 { reserved_block
, 0 , 0 , 32,
18982 0xfc00003f, 0x20000027, 0 , 0,
18983 0x0 }, /* _POOL32A7~*(4) */
18984 { reserved_block
, 0 , 0 , 32,
18985 0xfc00003f, 0x2000002f, 0 , 0,
18986 0x0 }, /* _POOL32A7~*(5) */
18987 { reserved_block
, 0 , 0 , 32,
18988 0xfc00003f, 0x20000037, 0 , 0,
18989 0x0 }, /* _POOL32A7~*(6) */
18990 { pool
, POOL32Axf
, 8 , 32,
18991 0xfc00003f, 0x2000003f, 0 , 0,
18992 0x0 }, /* POOL32Axf */
18996 NMD::Pool
NMD::P32A
[8] = {
18997 { pool
, _POOL32A0
, 128 , 32,
18998 0xfc000007, 0x20000000, 0 , 0,
18999 0x0 }, /* _POOL32A0 */
19000 { instruction
, 0 , 0 , 32,
19001 0xfc000007, 0x20000001, &NMD::SPECIAL2
, 0,
19002 UDI_
}, /* SPECIAL2 */
19003 { instruction
, 0 , 0 , 32,
19004 0xfc000007, 0x20000002, &NMD::COP2_1
, 0,
19005 CP2_
}, /* COP2_1 */
19006 { instruction
, 0 , 0 , 32,
19007 0xfc000007, 0x20000003, &NMD::UDI
, 0,
19009 { reserved_block
, 0 , 0 , 32,
19010 0xfc000007, 0x20000004, 0 , 0,
19011 0x0 }, /* P32A~*(4) */
19012 { pool
, _POOL32A5
, 128 , 32,
19013 0xfc000007, 0x20000005, 0 , 0,
19014 0x0 }, /* _POOL32A5 */
19015 { reserved_block
, 0 , 0 , 32,
19016 0xfc000007, 0x20000006, 0 , 0,
19017 0x0 }, /* P32A~*(6) */
19018 { pool
, _POOL32A7
, 8 , 32,
19019 0xfc000007, 0x20000007, 0 , 0,
19020 0x0 }, /* _POOL32A7 */
19024 NMD::Pool
NMD::P_GP_D
[2] = {
19025 { instruction
, 0 , 0 , 32,
19026 0xfc000007, 0x40000001, &NMD::LD_GP_
, 0,
19027 MIPS64_
}, /* LD[GP] */
19028 { instruction
, 0 , 0 , 32,
19029 0xfc000007, 0x40000005, &NMD::SD_GP_
, 0,
19030 MIPS64_
}, /* SD[GP] */
19034 NMD::Pool
NMD::P_GP_W
[4] = {
19035 { instruction
, 0 , 0 , 32,
19036 0xfc000003, 0x40000000, &NMD::ADDIU_GP_W_
, 0,
19037 0x0 }, /* ADDIU[GP.W] */
19038 { pool
, P_GP_D
, 2 , 32,
19039 0xfc000003, 0x40000001, 0 , 0,
19040 0x0 }, /* P.GP.D */
19041 { instruction
, 0 , 0 , 32,
19042 0xfc000003, 0x40000002, &NMD::LW_GP_
, 0,
19043 0x0 }, /* LW[GP] */
19044 { instruction
, 0 , 0 , 32,
19045 0xfc000003, 0x40000003, &NMD::SW_GP_
, 0,
19046 0x0 }, /* SW[GP] */
19050 NMD::Pool
NMD::POOL48I
[32] = {
19051 { instruction
, 0 , 0 , 48,
19052 0xfc1f00000000ull
, 0x600000000000ull
, &NMD::LI_48_
, 0,
19053 XMMS_
}, /* LI[48] */
19054 { instruction
, 0 , 0 , 48,
19055 0xfc1f00000000ull
, 0x600100000000ull
, &NMD::ADDIU_48_
, 0,
19056 XMMS_
}, /* ADDIU[48] */
19057 { instruction
, 0 , 0 , 48,
19058 0xfc1f00000000ull
, 0x600200000000ull
, &NMD::ADDIU_GP48_
, 0,
19059 XMMS_
}, /* ADDIU[GP48] */
19060 { instruction
, 0 , 0 , 48,
19061 0xfc1f00000000ull
, 0x600300000000ull
, &NMD::ADDIUPC_48_
, 0,
19062 XMMS_
}, /* ADDIUPC[48] */
19063 { reserved_block
, 0 , 0 , 48,
19064 0xfc1f00000000ull
, 0x600400000000ull
, 0 , 0,
19065 0x0 }, /* POOL48I~*(4) */
19066 { reserved_block
, 0 , 0 , 48,
19067 0xfc1f00000000ull
, 0x600500000000ull
, 0 , 0,
19068 0x0 }, /* POOL48I~*(5) */
19069 { reserved_block
, 0 , 0 , 48,
19070 0xfc1f00000000ull
, 0x600600000000ull
, 0 , 0,
19071 0x0 }, /* POOL48I~*(6) */
19072 { reserved_block
, 0 , 0 , 48,
19073 0xfc1f00000000ull
, 0x600700000000ull
, 0 , 0,
19074 0x0 }, /* POOL48I~*(7) */
19075 { reserved_block
, 0 , 0 , 48,
19076 0xfc1f00000000ull
, 0x600800000000ull
, 0 , 0,
19077 0x0 }, /* POOL48I~*(8) */
19078 { reserved_block
, 0 , 0 , 48,
19079 0xfc1f00000000ull
, 0x600900000000ull
, 0 , 0,
19080 0x0 }, /* POOL48I~*(9) */
19081 { reserved_block
, 0 , 0 , 48,
19082 0xfc1f00000000ull
, 0x600a00000000ull
, 0 , 0,
19083 0x0 }, /* POOL48I~*(10) */
19084 { instruction
, 0 , 0 , 48,
19085 0xfc1f00000000ull
, 0x600b00000000ull
, &NMD::LWPC_48_
, 0,
19086 XMMS_
}, /* LWPC[48] */
19087 { reserved_block
, 0 , 0 , 48,
19088 0xfc1f00000000ull
, 0x600c00000000ull
, 0 , 0,
19089 0x0 }, /* POOL48I~*(12) */
19090 { reserved_block
, 0 , 0 , 48,
19091 0xfc1f00000000ull
, 0x600d00000000ull
, 0 , 0,
19092 0x0 }, /* POOL48I~*(13) */
19093 { reserved_block
, 0 , 0 , 48,
19094 0xfc1f00000000ull
, 0x600e00000000ull
, 0 , 0,
19095 0x0 }, /* POOL48I~*(14) */
19096 { instruction
, 0 , 0 , 48,
19097 0xfc1f00000000ull
, 0x600f00000000ull
, &NMD::SWPC_48_
, 0,
19098 XMMS_
}, /* SWPC[48] */
19099 { reserved_block
, 0 , 0 , 48,
19100 0xfc1f00000000ull
, 0x601000000000ull
, 0 , 0,
19101 0x0 }, /* POOL48I~*(16) */
19102 { instruction
, 0 , 0 , 48,
19103 0xfc1f00000000ull
, 0x601100000000ull
, &NMD::DADDIU_48_
, 0,
19104 MIPS64_
}, /* DADDIU[48] */
19105 { reserved_block
, 0 , 0 , 48,
19106 0xfc1f00000000ull
, 0x601200000000ull
, 0 , 0,
19107 0x0 }, /* POOL48I~*(18) */
19108 { reserved_block
, 0 , 0 , 48,
19109 0xfc1f00000000ull
, 0x601300000000ull
, 0 , 0,
19110 0x0 }, /* POOL48I~*(19) */
19111 { instruction
, 0 , 0 , 48,
19112 0xfc1f00000000ull
, 0x601400000000ull
, &NMD::DLUI_48_
, 0,
19113 MIPS64_
}, /* DLUI[48] */
19114 { reserved_block
, 0 , 0 , 48,
19115 0xfc1f00000000ull
, 0x601500000000ull
, 0 , 0,
19116 0x0 }, /* POOL48I~*(21) */
19117 { reserved_block
, 0 , 0 , 48,
19118 0xfc1f00000000ull
, 0x601600000000ull
, 0 , 0,
19119 0x0 }, /* POOL48I~*(22) */
19120 { reserved_block
, 0 , 0 , 48,
19121 0xfc1f00000000ull
, 0x601700000000ull
, 0 , 0,
19122 0x0 }, /* POOL48I~*(23) */
19123 { reserved_block
, 0 , 0 , 48,
19124 0xfc1f00000000ull
, 0x601800000000ull
, 0 , 0,
19125 0x0 }, /* POOL48I~*(24) */
19126 { reserved_block
, 0 , 0 , 48,
19127 0xfc1f00000000ull
, 0x601900000000ull
, 0 , 0,
19128 0x0 }, /* POOL48I~*(25) */
19129 { reserved_block
, 0 , 0 , 48,
19130 0xfc1f00000000ull
, 0x601a00000000ull
, 0 , 0,
19131 0x0 }, /* POOL48I~*(26) */
19132 { instruction
, 0 , 0 , 48,
19133 0xfc1f00000000ull
, 0x601b00000000ull
, &NMD::LDPC_48_
, 0,
19134 MIPS64_
}, /* LDPC[48] */
19135 { reserved_block
, 0 , 0 , 48,
19136 0xfc1f00000000ull
, 0x601c00000000ull
, 0 , 0,
19137 0x0 }, /* POOL48I~*(28) */
19138 { reserved_block
, 0 , 0 , 48,
19139 0xfc1f00000000ull
, 0x601d00000000ull
, 0 , 0,
19140 0x0 }, /* POOL48I~*(29) */
19141 { reserved_block
, 0 , 0 , 48,
19142 0xfc1f00000000ull
, 0x601e00000000ull
, 0 , 0,
19143 0x0 }, /* POOL48I~*(30) */
19144 { instruction
, 0 , 0 , 48,
19145 0xfc1f00000000ull
, 0x601f00000000ull
, &NMD::SDPC_48_
, 0,
19146 MIPS64_
}, /* SDPC[48] */
19150 NMD::Pool
NMD::PP_SR
[4] = {
19151 { instruction
, 0 , 0 , 32,
19152 0xfc10f003, 0x80003000, &NMD::SAVE_32_
, 0,
19153 0x0 }, /* SAVE[32] */
19154 { reserved_block
, 0 , 0 , 32,
19155 0xfc10f003, 0x80003001, 0 , 0,
19156 0x0 }, /* PP.SR~*(1) */
19157 { instruction
, 0 , 0 , 32,
19158 0xfc10f003, 0x80003002, &NMD::RESTORE_32_
, 0,
19159 0x0 }, /* RESTORE[32] */
19160 { return_instruction
, 0 , 0 , 32,
19161 0xfc10f003, 0x80003003, &NMD::RESTORE_JRC_32_
, 0,
19162 0x0 }, /* RESTORE.JRC[32] */
19166 NMD::Pool
NMD::P_SR_F
[8] = {
19167 { instruction
, 0 , 0 , 32,
19168 0xfc10f007, 0x80103000, &NMD::SAVEF
, 0,
19169 CP1_
}, /* SAVEF */
19170 { instruction
, 0 , 0 , 32,
19171 0xfc10f007, 0x80103001, &NMD::RESTOREF
, 0,
19172 CP1_
}, /* RESTOREF */
19173 { reserved_block
, 0 , 0 , 32,
19174 0xfc10f007, 0x80103002, 0 , 0,
19175 0x0 }, /* P.SR.F~*(2) */
19176 { reserved_block
, 0 , 0 , 32,
19177 0xfc10f007, 0x80103003, 0 , 0,
19178 0x0 }, /* P.SR.F~*(3) */
19179 { reserved_block
, 0 , 0 , 32,
19180 0xfc10f007, 0x80103004, 0 , 0,
19181 0x0 }, /* P.SR.F~*(4) */
19182 { reserved_block
, 0 , 0 , 32,
19183 0xfc10f007, 0x80103005, 0 , 0,
19184 0x0 }, /* P.SR.F~*(5) */
19185 { reserved_block
, 0 , 0 , 32,
19186 0xfc10f007, 0x80103006, 0 , 0,
19187 0x0 }, /* P.SR.F~*(6) */
19188 { reserved_block
, 0 , 0 , 32,
19189 0xfc10f007, 0x80103007, 0 , 0,
19190 0x0 }, /* P.SR.F~*(7) */
19194 NMD::Pool
NMD::P_SR
[2] = {
19195 { pool
, PP_SR
, 4 , 32,
19196 0xfc10f000, 0x80003000, 0 , 0,
19198 { pool
, P_SR_F
, 8 , 32,
19199 0xfc10f000, 0x80103000, 0 , 0,
19200 0x0 }, /* P.SR.F */
19204 NMD::Pool
NMD::P_SLL
[5] = {
19205 { instruction
, 0 , 0 , 32,
19206 0xffe0f1ff, 0x8000c000, &NMD::NOP_32_
, 0,
19207 0x0 }, /* NOP[32] */
19208 { instruction
, 0 , 0 , 32,
19209 0xffe0f1ff, 0x8000c003, &NMD::EHB
, 0,
19211 { instruction
, 0 , 0 , 32,
19212 0xffe0f1ff, 0x8000c005, &NMD::PAUSE
, 0,
19214 { instruction
, 0 , 0 , 32,
19215 0xffe0f1ff, 0x8000c006, &NMD::SYNC
, 0,
19217 { instruction
, 0 , 0 , 32,
19218 0xfc00f1e0, 0x8000c000, &NMD::SLL_32_
, 0,
19219 0x0 }, /* SLL[32] */
19223 NMD::Pool
NMD::P_SHIFT
[16] = {
19224 { pool
, P_SLL
, 5 , 32,
19225 0xfc00f1e0, 0x8000c000, 0 , 0,
19227 { reserved_block
, 0 , 0 , 32,
19228 0xfc00f1e0, 0x8000c020, 0 , 0,
19229 0x0 }, /* P.SHIFT~*(1) */
19230 { instruction
, 0 , 0 , 32,
19231 0xfc00f1e0, 0x8000c040, &NMD::SRL_32_
, 0,
19232 0x0 }, /* SRL[32] */
19233 { reserved_block
, 0 , 0 , 32,
19234 0xfc00f1e0, 0x8000c060, 0 , 0,
19235 0x0 }, /* P.SHIFT~*(3) */
19236 { instruction
, 0 , 0 , 32,
19237 0xfc00f1e0, 0x8000c080, &NMD::SRA
, 0,
19239 { reserved_block
, 0 , 0 , 32,
19240 0xfc00f1e0, 0x8000c0a0, 0 , 0,
19241 0x0 }, /* P.SHIFT~*(5) */
19242 { instruction
, 0 , 0 , 32,
19243 0xfc00f1e0, 0x8000c0c0, &NMD::ROTR
, 0,
19245 { reserved_block
, 0 , 0 , 32,
19246 0xfc00f1e0, 0x8000c0e0, 0 , 0,
19247 0x0 }, /* P.SHIFT~*(7) */
19248 { instruction
, 0 , 0 , 32,
19249 0xfc00f1e0, 0x8000c100, &NMD::DSLL
, 0,
19250 MIPS64_
}, /* DSLL */
19251 { instruction
, 0 , 0 , 32,
19252 0xfc00f1e0, 0x8000c120, &NMD::DSLL32
, 0,
19253 MIPS64_
}, /* DSLL32 */
19254 { instruction
, 0 , 0 , 32,
19255 0xfc00f1e0, 0x8000c140, &NMD::DSRL
, 0,
19256 MIPS64_
}, /* DSRL */
19257 { instruction
, 0 , 0 , 32,
19258 0xfc00f1e0, 0x8000c160, &NMD::DSRL32
, 0,
19259 MIPS64_
}, /* DSRL32 */
19260 { instruction
, 0 , 0 , 32,
19261 0xfc00f1e0, 0x8000c180, &NMD::DSRA
, 0,
19262 MIPS64_
}, /* DSRA */
19263 { instruction
, 0 , 0 , 32,
19264 0xfc00f1e0, 0x8000c1a0, &NMD::DSRA32
, 0,
19265 MIPS64_
}, /* DSRA32 */
19266 { instruction
, 0 , 0 , 32,
19267 0xfc00f1e0, 0x8000c1c0, &NMD::DROTR
, 0,
19268 MIPS64_
}, /* DROTR */
19269 { instruction
, 0 , 0 , 32,
19270 0xfc00f1e0, 0x8000c1e0, &NMD::DROTR32
, 0,
19271 MIPS64_
}, /* DROTR32 */
19275 NMD::Pool
NMD::P_ROTX
[4] = {
19276 { instruction
, 0 , 0 , 32,
19277 0xfc00f820, 0x8000d000, &NMD::ROTX
, 0,
19278 XMMS_
}, /* ROTX */
19279 { reserved_block
, 0 , 0 , 32,
19280 0xfc00f820, 0x8000d020, 0 , 0,
19281 0x0 }, /* P.ROTX~*(1) */
19282 { reserved_block
, 0 , 0 , 32,
19283 0xfc00f820, 0x8000d800, 0 , 0,
19284 0x0 }, /* P.ROTX~*(2) */
19285 { reserved_block
, 0 , 0 , 32,
19286 0xfc00f820, 0x8000d820, 0 , 0,
19287 0x0 }, /* P.ROTX~*(3) */
19291 NMD::Pool
NMD::P_INS
[4] = {
19292 { instruction
, 0 , 0 , 32,
19293 0xfc00f820, 0x8000e000, &NMD::INS
, 0,
19295 { instruction
, 0 , 0 , 32,
19296 0xfc00f820, 0x8000e020, &NMD::DINSU
, 0,
19297 MIPS64_
}, /* DINSU */
19298 { instruction
, 0 , 0 , 32,
19299 0xfc00f820, 0x8000e800, &NMD::DINSM
, 0,
19300 MIPS64_
}, /* DINSM */
19301 { instruction
, 0 , 0 , 32,
19302 0xfc00f820, 0x8000e820, &NMD::DINS
, 0,
19303 MIPS64_
}, /* DINS */
19307 NMD::Pool
NMD::P_EXT
[4] = {
19308 { instruction
, 0 , 0 , 32,
19309 0xfc00f820, 0x8000f000, &NMD::EXT
, 0,
19311 { instruction
, 0 , 0 , 32,
19312 0xfc00f820, 0x8000f020, &NMD::DEXTU
, 0,
19313 MIPS64_
}, /* DEXTU */
19314 { instruction
, 0 , 0 , 32,
19315 0xfc00f820, 0x8000f800, &NMD::DEXTM
, 0,
19316 MIPS64_
}, /* DEXTM */
19317 { instruction
, 0 , 0 , 32,
19318 0xfc00f820, 0x8000f820, &NMD::DEXT
, 0,
19319 MIPS64_
}, /* DEXT */
19323 NMD::Pool
NMD::P_U12
[16] = {
19324 { instruction
, 0 , 0 , 32,
19325 0xfc00f000, 0x80000000, &NMD::ORI
, 0,
19327 { instruction
, 0 , 0 , 32,
19328 0xfc00f000, 0x80001000, &NMD::XORI
, 0,
19330 { instruction
, 0 , 0 , 32,
19331 0xfc00f000, 0x80002000, &NMD::ANDI_32_
, 0,
19332 0x0 }, /* ANDI[32] */
19333 { pool
, P_SR
, 2 , 32,
19334 0xfc00f000, 0x80003000, 0 , 0,
19336 { instruction
, 0 , 0 , 32,
19337 0xfc00f000, 0x80004000, &NMD::SLTI
, 0,
19339 { instruction
, 0 , 0 , 32,
19340 0xfc00f000, 0x80005000, &NMD::SLTIU
, 0,
19342 { instruction
, 0 , 0 , 32,
19343 0xfc00f000, 0x80006000, &NMD::SEQI
, 0,
19345 { reserved_block
, 0 , 0 , 32,
19346 0xfc00f000, 0x80007000, 0 , 0,
19347 0x0 }, /* P.U12~*(7) */
19348 { instruction
, 0 , 0 , 32,
19349 0xfc00f000, 0x80008000, &NMD::ADDIU_NEG_
, 0,
19350 0x0 }, /* ADDIU[NEG] */
19351 { instruction
, 0 , 0 , 32,
19352 0xfc00f000, 0x80009000, &NMD::DADDIU_U12_
, 0,
19353 MIPS64_
}, /* DADDIU[U12] */
19354 { instruction
, 0 , 0 , 32,
19355 0xfc00f000, 0x8000a000, &NMD::DADDIU_NEG_
, 0,
19356 MIPS64_
}, /* DADDIU[NEG] */
19357 { instruction
, 0 , 0 , 32,
19358 0xfc00f000, 0x8000b000, &NMD::DROTX
, 0,
19359 MIPS64_
}, /* DROTX */
19360 { pool
, P_SHIFT
, 16 , 32,
19361 0xfc00f000, 0x8000c000, 0 , 0,
19362 0x0 }, /* P.SHIFT */
19363 { pool
, P_ROTX
, 4 , 32,
19364 0xfc00f000, 0x8000d000, 0 , 0,
19365 0x0 }, /* P.ROTX */
19366 { pool
, P_INS
, 4 , 32,
19367 0xfc00f000, 0x8000e000, 0 , 0,
19369 { pool
, P_EXT
, 4 , 32,
19370 0xfc00f000, 0x8000f000, 0 , 0,
19375 NMD::Pool
NMD::RINT_fmt
[2] = {
19376 { instruction
, 0 , 0 , 32,
19377 0xfc0003ff, 0xa0000020, &NMD::RINT_S
, 0,
19378 CP1_
}, /* RINT.S */
19379 { instruction
, 0 , 0 , 32,
19380 0xfc0003ff, 0xa0000220, &NMD::RINT_D
, 0,
19381 CP1_
}, /* RINT.D */
19385 NMD::Pool
NMD::ADD_fmt0
[2] = {
19386 { instruction
, 0 , 0 , 32,
19387 0xfc0003ff, 0xa0000030, &NMD::ADD_S
, 0,
19388 CP1_
}, /* ADD.S */
19389 { reserved_block
, 0 , 0 , 32,
19390 0xfc0003ff, 0xa0000230, 0 , 0,
19391 CP1_
}, /* ADD.fmt0~*(1) */
19395 NMD::Pool
NMD::SELEQZ_fmt
[2] = {
19396 { instruction
, 0 , 0 , 32,
19397 0xfc0003ff, 0xa0000038, &NMD::SELEQZ_S
, 0,
19398 CP1_
}, /* SELEQZ.S */
19399 { instruction
, 0 , 0 , 32,
19400 0xfc0003ff, 0xa0000238, &NMD::SELEQZ_D
, 0,
19401 CP1_
}, /* SELEQZ.D */
19405 NMD::Pool
NMD::CLASS_fmt
[2] = {
19406 { instruction
, 0 , 0 , 32,
19407 0xfc0003ff, 0xa0000060, &NMD::CLASS_S
, 0,
19408 CP1_
}, /* CLASS.S */
19409 { instruction
, 0 , 0 , 32,
19410 0xfc0003ff, 0xa0000260, &NMD::CLASS_D
, 0,
19411 CP1_
}, /* CLASS.D */
19415 NMD::Pool
NMD::SUB_fmt0
[2] = {
19416 { instruction
, 0 , 0 , 32,
19417 0xfc0003ff, 0xa0000070, &NMD::SUB_S
, 0,
19418 CP1_
}, /* SUB.S */
19419 { reserved_block
, 0 , 0 , 32,
19420 0xfc0003ff, 0xa0000270, 0 , 0,
19421 CP1_
}, /* SUB.fmt0~*(1) */
19425 NMD::Pool
NMD::SELNEZ_fmt
[2] = {
19426 { instruction
, 0 , 0 , 32,
19427 0xfc0003ff, 0xa0000078, &NMD::SELNEZ_S
, 0,
19428 CP1_
}, /* SELNEZ.S */
19429 { instruction
, 0 , 0 , 32,
19430 0xfc0003ff, 0xa0000278, &NMD::SELNEZ_D
, 0,
19431 CP1_
}, /* SELNEZ.D */
19435 NMD::Pool
NMD::MUL_fmt0
[2] = {
19436 { instruction
, 0 , 0 , 32,
19437 0xfc0003ff, 0xa00000b0, &NMD::MUL_S
, 0,
19438 CP1_
}, /* MUL.S */
19439 { reserved_block
, 0 , 0 , 32,
19440 0xfc0003ff, 0xa00002b0, 0 , 0,
19441 CP1_
}, /* MUL.fmt0~*(1) */
19445 NMD::Pool
NMD::SEL_fmt
[2] = {
19446 { instruction
, 0 , 0 , 32,
19447 0xfc0003ff, 0xa00000b8, &NMD::SEL_S
, 0,
19448 CP1_
}, /* SEL.S */
19449 { instruction
, 0 , 0 , 32,
19450 0xfc0003ff, 0xa00002b8, &NMD::SEL_D
, 0,
19451 CP1_
}, /* SEL.D */
19455 NMD::Pool
NMD::DIV_fmt0
[2] = {
19456 { instruction
, 0 , 0 , 32,
19457 0xfc0003ff, 0xa00000f0, &NMD::DIV_S
, 0,
19458 CP1_
}, /* DIV.S */
19459 { reserved_block
, 0 , 0 , 32,
19460 0xfc0003ff, 0xa00002f0, 0 , 0,
19461 CP1_
}, /* DIV.fmt0~*(1) */
19465 NMD::Pool
NMD::ADD_fmt1
[2] = {
19466 { instruction
, 0 , 0 , 32,
19467 0xfc0003ff, 0xa0000130, &NMD::ADD_D
, 0,
19468 CP1_
}, /* ADD.D */
19469 { reserved_block
, 0 , 0 , 32,
19470 0xfc0003ff, 0xa0000330, 0 , 0,
19471 CP1_
}, /* ADD.fmt1~*(1) */
19475 NMD::Pool
NMD::SUB_fmt1
[2] = {
19476 { instruction
, 0 , 0 , 32,
19477 0xfc0003ff, 0xa0000170, &NMD::SUB_D
, 0,
19478 CP1_
}, /* SUB.D */
19479 { reserved_block
, 0 , 0 , 32,
19480 0xfc0003ff, 0xa0000370, 0 , 0,
19481 CP1_
}, /* SUB.fmt1~*(1) */
19485 NMD::Pool
NMD::MUL_fmt1
[2] = {
19486 { instruction
, 0 , 0 , 32,
19487 0xfc0003ff, 0xa00001b0, &NMD::MUL_D
, 0,
19488 CP1_
}, /* MUL.D */
19489 { reserved_block
, 0 , 0 , 32,
19490 0xfc0003ff, 0xa00003b0, 0 , 0,
19491 CP1_
}, /* MUL.fmt1~*(1) */
19495 NMD::Pool
NMD::MADDF_fmt
[2] = {
19496 { instruction
, 0 , 0 , 32,
19497 0xfc0003ff, 0xa00001b8, &NMD::MADDF_S
, 0,
19498 CP1_
}, /* MADDF.S */
19499 { instruction
, 0 , 0 , 32,
19500 0xfc0003ff, 0xa00003b8, &NMD::MADDF_D
, 0,
19501 CP1_
}, /* MADDF.D */
19505 NMD::Pool
NMD::DIV_fmt1
[2] = {
19506 { instruction
, 0 , 0 , 32,
19507 0xfc0003ff, 0xa00001f0, &NMD::DIV_D
, 0,
19508 CP1_
}, /* DIV.D */
19509 { reserved_block
, 0 , 0 , 32,
19510 0xfc0003ff, 0xa00003f0, 0 , 0,
19511 CP1_
}, /* DIV.fmt1~*(1) */
19515 NMD::Pool
NMD::MSUBF_fmt
[2] = {
19516 { instruction
, 0 , 0 , 32,
19517 0xfc0003ff, 0xa00001f8, &NMD::MSUBF_S
, 0,
19518 CP1_
}, /* MSUBF.S */
19519 { instruction
, 0 , 0 , 32,
19520 0xfc0003ff, 0xa00003f8, &NMD::MSUBF_D
, 0,
19521 CP1_
}, /* MSUBF.D */
19525 NMD::Pool
NMD::POOL32F_0
[64] = {
19526 { reserved_block
, 0 , 0 , 32,
19527 0xfc0001ff, 0xa0000000, 0 , 0,
19528 CP1_
}, /* POOL32F_0~*(0) */
19529 { reserved_block
, 0 , 0 , 32,
19530 0xfc0001ff, 0xa0000008, 0 , 0,
19531 CP1_
}, /* POOL32F_0~*(1) */
19532 { reserved_block
, 0 , 0 , 32,
19533 0xfc0001ff, 0xa0000010, 0 , 0,
19534 CP1_
}, /* POOL32F_0~*(2) */
19535 { reserved_block
, 0 , 0 , 32,
19536 0xfc0001ff, 0xa0000018, 0 , 0,
19537 CP1_
}, /* POOL32F_0~*(3) */
19538 { pool
, RINT_fmt
, 2 , 32,
19539 0xfc0001ff, 0xa0000020, 0 , 0,
19540 CP1_
}, /* RINT.fmt */
19541 { reserved_block
, 0 , 0 , 32,
19542 0xfc0001ff, 0xa0000028, 0 , 0,
19543 CP1_
}, /* POOL32F_0~*(5) */
19544 { pool
, ADD_fmt0
, 2 , 32,
19545 0xfc0001ff, 0xa0000030, 0 , 0,
19546 CP1_
}, /* ADD.fmt0 */
19547 { pool
, SELEQZ_fmt
, 2 , 32,
19548 0xfc0001ff, 0xa0000038, 0 , 0,
19549 CP1_
}, /* SELEQZ.fmt */
19550 { reserved_block
, 0 , 0 , 32,
19551 0xfc0001ff, 0xa0000040, 0 , 0,
19552 CP1_
}, /* POOL32F_0~*(8) */
19553 { reserved_block
, 0 , 0 , 32,
19554 0xfc0001ff, 0xa0000048, 0 , 0,
19555 CP1_
}, /* POOL32F_0~*(9) */
19556 { reserved_block
, 0 , 0 , 32,
19557 0xfc0001ff, 0xa0000050, 0 , 0,
19558 CP1_
}, /* POOL32F_0~*(10) */
19559 { reserved_block
, 0 , 0 , 32,
19560 0xfc0001ff, 0xa0000058, 0 , 0,
19561 CP1_
}, /* POOL32F_0~*(11) */
19562 { pool
, CLASS_fmt
, 2 , 32,
19563 0xfc0001ff, 0xa0000060, 0 , 0,
19564 CP1_
}, /* CLASS.fmt */
19565 { reserved_block
, 0 , 0 , 32,
19566 0xfc0001ff, 0xa0000068, 0 , 0,
19567 CP1_
}, /* POOL32F_0~*(13) */
19568 { pool
, SUB_fmt0
, 2 , 32,
19569 0xfc0001ff, 0xa0000070, 0 , 0,
19570 CP1_
}, /* SUB.fmt0 */
19571 { pool
, SELNEZ_fmt
, 2 , 32,
19572 0xfc0001ff, 0xa0000078, 0 , 0,
19573 CP1_
}, /* SELNEZ.fmt */
19574 { reserved_block
, 0 , 0 , 32,
19575 0xfc0001ff, 0xa0000080, 0 , 0,
19576 CP1_
}, /* POOL32F_0~*(16) */
19577 { reserved_block
, 0 , 0 , 32,
19578 0xfc0001ff, 0xa0000088, 0 , 0,
19579 CP1_
}, /* POOL32F_0~*(17) */
19580 { reserved_block
, 0 , 0 , 32,
19581 0xfc0001ff, 0xa0000090, 0 , 0,
19582 CP1_
}, /* POOL32F_0~*(18) */
19583 { reserved_block
, 0 , 0 , 32,
19584 0xfc0001ff, 0xa0000098, 0 , 0,
19585 CP1_
}, /* POOL32F_0~*(19) */
19586 { reserved_block
, 0 , 0 , 32,
19587 0xfc0001ff, 0xa00000a0, 0 , 0,
19588 CP1_
}, /* POOL32F_0~*(20) */
19589 { reserved_block
, 0 , 0 , 32,
19590 0xfc0001ff, 0xa00000a8, 0 , 0,
19591 CP1_
}, /* POOL32F_0~*(21) */
19592 { pool
, MUL_fmt0
, 2 , 32,
19593 0xfc0001ff, 0xa00000b0, 0 , 0,
19594 CP1_
}, /* MUL.fmt0 */
19595 { pool
, SEL_fmt
, 2 , 32,
19596 0xfc0001ff, 0xa00000b8, 0 , 0,
19597 CP1_
}, /* SEL.fmt */
19598 { reserved_block
, 0 , 0 , 32,
19599 0xfc0001ff, 0xa00000c0, 0 , 0,
19600 CP1_
}, /* POOL32F_0~*(24) */
19601 { reserved_block
, 0 , 0 , 32,
19602 0xfc0001ff, 0xa00000c8, 0 , 0,
19603 CP1_
}, /* POOL32F_0~*(25) */
19604 { reserved_block
, 0 , 0 , 32,
19605 0xfc0001ff, 0xa00000d0, 0 , 0,
19606 CP1_
}, /* POOL32F_0~*(26) */
19607 { reserved_block
, 0 , 0 , 32,
19608 0xfc0001ff, 0xa00000d8, 0 , 0,
19609 CP1_
}, /* POOL32F_0~*(27) */
19610 { reserved_block
, 0 , 0 , 32,
19611 0xfc0001ff, 0xa00000e0, 0 , 0,
19612 CP1_
}, /* POOL32F_0~*(28) */
19613 { reserved_block
, 0 , 0 , 32,
19614 0xfc0001ff, 0xa00000e8, 0 , 0,
19615 CP1_
}, /* POOL32F_0~*(29) */
19616 { pool
, DIV_fmt0
, 2 , 32,
19617 0xfc0001ff, 0xa00000f0, 0 , 0,
19618 CP1_
}, /* DIV.fmt0 */
19619 { reserved_block
, 0 , 0 , 32,
19620 0xfc0001ff, 0xa00000f8, 0 , 0,
19621 CP1_
}, /* POOL32F_0~*(31) */
19622 { reserved_block
, 0 , 0 , 32,
19623 0xfc0001ff, 0xa0000100, 0 , 0,
19624 CP1_
}, /* POOL32F_0~*(32) */
19625 { reserved_block
, 0 , 0 , 32,
19626 0xfc0001ff, 0xa0000108, 0 , 0,
19627 CP1_
}, /* POOL32F_0~*(33) */
19628 { reserved_block
, 0 , 0 , 32,
19629 0xfc0001ff, 0xa0000110, 0 , 0,
19630 CP1_
}, /* POOL32F_0~*(34) */
19631 { reserved_block
, 0 , 0 , 32,
19632 0xfc0001ff, 0xa0000118, 0 , 0,
19633 CP1_
}, /* POOL32F_0~*(35) */
19634 { reserved_block
, 0 , 0 , 32,
19635 0xfc0001ff, 0xa0000120, 0 , 0,
19636 CP1_
}, /* POOL32F_0~*(36) */
19637 { reserved_block
, 0 , 0 , 32,
19638 0xfc0001ff, 0xa0000128, 0 , 0,
19639 CP1_
}, /* POOL32F_0~*(37) */
19640 { pool
, ADD_fmt1
, 2 , 32,
19641 0xfc0001ff, 0xa0000130, 0 , 0,
19642 CP1_
}, /* ADD.fmt1 */
19643 { reserved_block
, 0 , 0 , 32,
19644 0xfc0001ff, 0xa0000138, 0 , 0,
19645 CP1_
}, /* POOL32F_0~*(39) */
19646 { reserved_block
, 0 , 0 , 32,
19647 0xfc0001ff, 0xa0000140, 0 , 0,
19648 CP1_
}, /* POOL32F_0~*(40) */
19649 { reserved_block
, 0 , 0 , 32,
19650 0xfc0001ff, 0xa0000148, 0 , 0,
19651 CP1_
}, /* POOL32F_0~*(41) */
19652 { reserved_block
, 0 , 0 , 32,
19653 0xfc0001ff, 0xa0000150, 0 , 0,
19654 CP1_
}, /* POOL32F_0~*(42) */
19655 { reserved_block
, 0 , 0 , 32,
19656 0xfc0001ff, 0xa0000158, 0 , 0,
19657 CP1_
}, /* POOL32F_0~*(43) */
19658 { reserved_block
, 0 , 0 , 32,
19659 0xfc0001ff, 0xa0000160, 0 , 0,
19660 CP1_
}, /* POOL32F_0~*(44) */
19661 { reserved_block
, 0 , 0 , 32,
19662 0xfc0001ff, 0xa0000168, 0 , 0,
19663 CP1_
}, /* POOL32F_0~*(45) */
19664 { pool
, SUB_fmt1
, 2 , 32,
19665 0xfc0001ff, 0xa0000170, 0 , 0,
19666 CP1_
}, /* SUB.fmt1 */
19667 { reserved_block
, 0 , 0 , 32,
19668 0xfc0001ff, 0xa0000178, 0 , 0,
19669 CP1_
}, /* POOL32F_0~*(47) */
19670 { reserved_block
, 0 , 0 , 32,
19671 0xfc0001ff, 0xa0000180, 0 , 0,
19672 CP1_
}, /* POOL32F_0~*(48) */
19673 { reserved_block
, 0 , 0 , 32,
19674 0xfc0001ff, 0xa0000188, 0 , 0,
19675 CP1_
}, /* POOL32F_0~*(49) */
19676 { reserved_block
, 0 , 0 , 32,
19677 0xfc0001ff, 0xa0000190, 0 , 0,
19678 CP1_
}, /* POOL32F_0~*(50) */
19679 { reserved_block
, 0 , 0 , 32,
19680 0xfc0001ff, 0xa0000198, 0 , 0,
19681 CP1_
}, /* POOL32F_0~*(51) */
19682 { reserved_block
, 0 , 0 , 32,
19683 0xfc0001ff, 0xa00001a0, 0 , 0,
19684 CP1_
}, /* POOL32F_0~*(52) */
19685 { reserved_block
, 0 , 0 , 32,
19686 0xfc0001ff, 0xa00001a8, 0 , 0,
19687 CP1_
}, /* POOL32F_0~*(53) */
19688 { pool
, MUL_fmt1
, 2 , 32,
19689 0xfc0001ff, 0xa00001b0, 0 , 0,
19690 CP1_
}, /* MUL.fmt1 */
19691 { pool
, MADDF_fmt
, 2 , 32,
19692 0xfc0001ff, 0xa00001b8, 0 , 0,
19693 CP1_
}, /* MADDF.fmt */
19694 { reserved_block
, 0 , 0 , 32,
19695 0xfc0001ff, 0xa00001c0, 0 , 0,
19696 CP1_
}, /* POOL32F_0~*(56) */
19697 { reserved_block
, 0 , 0 , 32,
19698 0xfc0001ff, 0xa00001c8, 0 , 0,
19699 CP1_
}, /* POOL32F_0~*(57) */
19700 { reserved_block
, 0 , 0 , 32,
19701 0xfc0001ff, 0xa00001d0, 0 , 0,
19702 CP1_
}, /* POOL32F_0~*(58) */
19703 { reserved_block
, 0 , 0 , 32,
19704 0xfc0001ff, 0xa00001d8, 0 , 0,
19705 CP1_
}, /* POOL32F_0~*(59) */
19706 { reserved_block
, 0 , 0 , 32,
19707 0xfc0001ff, 0xa00001e0, 0 , 0,
19708 CP1_
}, /* POOL32F_0~*(60) */
19709 { reserved_block
, 0 , 0 , 32,
19710 0xfc0001ff, 0xa00001e8, 0 , 0,
19711 CP1_
}, /* POOL32F_0~*(61) */
19712 { pool
, DIV_fmt1
, 2 , 32,
19713 0xfc0001ff, 0xa00001f0, 0 , 0,
19714 CP1_
}, /* DIV.fmt1 */
19715 { pool
, MSUBF_fmt
, 2 , 32,
19716 0xfc0001ff, 0xa00001f8, 0 , 0,
19717 CP1_
}, /* MSUBF.fmt */
19721 NMD::Pool
NMD::MIN_fmt
[2] = {
19722 { instruction
, 0 , 0 , 32,
19723 0xfc00023f, 0xa0000003, &NMD::MIN_S
, 0,
19724 CP1_
}, /* MIN.S */
19725 { instruction
, 0 , 0 , 32,
19726 0xfc00023f, 0xa0000203, &NMD::MIN_D
, 0,
19727 CP1_
}, /* MIN.D */
19731 NMD::Pool
NMD::MAX_fmt
[2] = {
19732 { instruction
, 0 , 0 , 32,
19733 0xfc00023f, 0xa000000b, &NMD::MAX_S
, 0,
19734 CP1_
}, /* MAX.S */
19735 { instruction
, 0 , 0 , 32,
19736 0xfc00023f, 0xa000020b, &NMD::MAX_D
, 0,
19737 CP1_
}, /* MAX.D */
19741 NMD::Pool
NMD::MINA_fmt
[2] = {
19742 { instruction
, 0 , 0 , 32,
19743 0xfc00023f, 0xa0000023, &NMD::MINA_S
, 0,
19744 CP1_
}, /* MINA.S */
19745 { instruction
, 0 , 0 , 32,
19746 0xfc00023f, 0xa0000223, &NMD::MINA_D
, 0,
19747 CP1_
}, /* MINA.D */
19751 NMD::Pool
NMD::MAXA_fmt
[2] = {
19752 { instruction
, 0 , 0 , 32,
19753 0xfc00023f, 0xa000002b, &NMD::MAXA_S
, 0,
19754 CP1_
}, /* MAXA.S */
19755 { instruction
, 0 , 0 , 32,
19756 0xfc00023f, 0xa000022b, &NMD::MAXA_D
, 0,
19757 CP1_
}, /* MAXA.D */
19761 NMD::Pool
NMD::CVT_L_fmt
[2] = {
19762 { instruction
, 0 , 0 , 32,
19763 0xfc007fff, 0xa000013b, &NMD::CVT_L_S
, 0,
19764 CP1_
}, /* CVT.L.S */
19765 { instruction
, 0 , 0 , 32,
19766 0xfc007fff, 0xa000413b, &NMD::CVT_L_D
, 0,
19767 CP1_
}, /* CVT.L.D */
19771 NMD::Pool
NMD::RSQRT_fmt
[2] = {
19772 { instruction
, 0 , 0 , 32,
19773 0xfc007fff, 0xa000023b, &NMD::RSQRT_S
, 0,
19774 CP1_
}, /* RSQRT.S */
19775 { instruction
, 0 , 0 , 32,
19776 0xfc007fff, 0xa000423b, &NMD::RSQRT_D
, 0,
19777 CP1_
}, /* RSQRT.D */
19781 NMD::Pool
NMD::FLOOR_L_fmt
[2] = {
19782 { instruction
, 0 , 0 , 32,
19783 0xfc007fff, 0xa000033b, &NMD::FLOOR_L_S
, 0,
19784 CP1_
}, /* FLOOR.L.S */
19785 { instruction
, 0 , 0 , 32,
19786 0xfc007fff, 0xa000433b, &NMD::FLOOR_L_D
, 0,
19787 CP1_
}, /* FLOOR.L.D */
19791 NMD::Pool
NMD::CVT_W_fmt
[2] = {
19792 { instruction
, 0 , 0 , 32,
19793 0xfc007fff, 0xa000093b, &NMD::CVT_W_S
, 0,
19794 CP1_
}, /* CVT.W.S */
19795 { instruction
, 0 , 0 , 32,
19796 0xfc007fff, 0xa000493b, &NMD::CVT_W_D
, 0,
19797 CP1_
}, /* CVT.W.D */
19801 NMD::Pool
NMD::SQRT_fmt
[2] = {
19802 { instruction
, 0 , 0 , 32,
19803 0xfc007fff, 0xa0000a3b, &NMD::SQRT_S
, 0,
19804 CP1_
}, /* SQRT.S */
19805 { instruction
, 0 , 0 , 32,
19806 0xfc007fff, 0xa0004a3b, &NMD::SQRT_D
, 0,
19807 CP1_
}, /* SQRT.D */
19811 NMD::Pool
NMD::FLOOR_W_fmt
[2] = {
19812 { instruction
, 0 , 0 , 32,
19813 0xfc007fff, 0xa0000b3b, &NMD::FLOOR_W_S
, 0,
19814 CP1_
}, /* FLOOR.W.S */
19815 { instruction
, 0 , 0 , 32,
19816 0xfc007fff, 0xa0004b3b, &NMD::FLOOR_W_D
, 0,
19817 CP1_
}, /* FLOOR.W.D */
19821 NMD::Pool
NMD::RECIP_fmt
[2] = {
19822 { instruction
, 0 , 0 , 32,
19823 0xfc007fff, 0xa000123b, &NMD::RECIP_S
, 0,
19824 CP1_
}, /* RECIP.S */
19825 { instruction
, 0 , 0 , 32,
19826 0xfc007fff, 0xa000523b, &NMD::RECIP_D
, 0,
19827 CP1_
}, /* RECIP.D */
19831 NMD::Pool
NMD::CEIL_L_fmt
[2] = {
19832 { instruction
, 0 , 0 , 32,
19833 0xfc007fff, 0xa000133b, &NMD::CEIL_L_S
, 0,
19834 CP1_
}, /* CEIL.L.S */
19835 { instruction
, 0 , 0 , 32,
19836 0xfc007fff, 0xa000533b, &NMD::CEIL_L_D
, 0,
19837 CP1_
}, /* CEIL.L.D */
19841 NMD::Pool
NMD::CEIL_W_fmt
[2] = {
19842 { instruction
, 0 , 0 , 32,
19843 0xfc007fff, 0xa0001b3b, &NMD::CEIL_W_S
, 0,
19844 CP1_
}, /* CEIL.W.S */
19845 { instruction
, 0 , 0 , 32,
19846 0xfc007fff, 0xa0005b3b, &NMD::CEIL_W_D
, 0,
19847 CP1_
}, /* CEIL.W.D */
19851 NMD::Pool
NMD::TRUNC_L_fmt
[2] = {
19852 { instruction
, 0 , 0 , 32,
19853 0xfc007fff, 0xa000233b, &NMD::TRUNC_L_S
, 0,
19854 CP1_
}, /* TRUNC.L.S */
19855 { instruction
, 0 , 0 , 32,
19856 0xfc007fff, 0xa000633b, &NMD::TRUNC_L_D
, 0,
19857 CP1_
}, /* TRUNC.L.D */
19861 NMD::Pool
NMD::TRUNC_W_fmt
[2] = {
19862 { instruction
, 0 , 0 , 32,
19863 0xfc007fff, 0xa0002b3b, &NMD::TRUNC_W_S
, 0,
19864 CP1_
}, /* TRUNC.W.S */
19865 { instruction
, 0 , 0 , 32,
19866 0xfc007fff, 0xa0006b3b, &NMD::TRUNC_W_D
, 0,
19867 CP1_
}, /* TRUNC.W.D */
19871 NMD::Pool
NMD::ROUND_L_fmt
[2] = {
19872 { instruction
, 0 , 0 , 32,
19873 0xfc007fff, 0xa000333b, &NMD::ROUND_L_S
, 0,
19874 CP1_
}, /* ROUND.L.S */
19875 { instruction
, 0 , 0 , 32,
19876 0xfc007fff, 0xa000733b, &NMD::ROUND_L_D
, 0,
19877 CP1_
}, /* ROUND.L.D */
19881 NMD::Pool
NMD::ROUND_W_fmt
[2] = {
19882 { instruction
, 0 , 0 , 32,
19883 0xfc007fff, 0xa0003b3b, &NMD::ROUND_W_S
, 0,
19884 CP1_
}, /* ROUND.W.S */
19885 { instruction
, 0 , 0 , 32,
19886 0xfc007fff, 0xa0007b3b, &NMD::ROUND_W_D
, 0,
19887 CP1_
}, /* ROUND.W.D */
19891 NMD::Pool
NMD::POOL32Fxf_0
[64] = {
19892 { reserved_block
, 0 , 0 , 32,
19893 0xfc003fff, 0xa000003b, 0 , 0,
19894 CP1_
}, /* POOL32Fxf_0~*(0) */
19895 { pool
, CVT_L_fmt
, 2 , 32,
19896 0xfc003fff, 0xa000013b, 0 , 0,
19897 CP1_
}, /* CVT.L.fmt */
19898 { pool
, RSQRT_fmt
, 2 , 32,
19899 0xfc003fff, 0xa000023b, 0 , 0,
19900 CP1_
}, /* RSQRT.fmt */
19901 { pool
, FLOOR_L_fmt
, 2 , 32,
19902 0xfc003fff, 0xa000033b, 0 , 0,
19903 CP1_
}, /* FLOOR.L.fmt */
19904 { reserved_block
, 0 , 0 , 32,
19905 0xfc003fff, 0xa000043b, 0 , 0,
19906 CP1_
}, /* POOL32Fxf_0~*(4) */
19907 { reserved_block
, 0 , 0 , 32,
19908 0xfc003fff, 0xa000053b, 0 , 0,
19909 CP1_
}, /* POOL32Fxf_0~*(5) */
19910 { reserved_block
, 0 , 0 , 32,
19911 0xfc003fff, 0xa000063b, 0 , 0,
19912 CP1_
}, /* POOL32Fxf_0~*(6) */
19913 { reserved_block
, 0 , 0 , 32,
19914 0xfc003fff, 0xa000073b, 0 , 0,
19915 CP1_
}, /* POOL32Fxf_0~*(7) */
19916 { reserved_block
, 0 , 0 , 32,
19917 0xfc003fff, 0xa000083b, 0 , 0,
19918 CP1_
}, /* POOL32Fxf_0~*(8) */
19919 { pool
, CVT_W_fmt
, 2 , 32,
19920 0xfc003fff, 0xa000093b, 0 , 0,
19921 CP1_
}, /* CVT.W.fmt */
19922 { pool
, SQRT_fmt
, 2 , 32,
19923 0xfc003fff, 0xa0000a3b, 0 , 0,
19924 CP1_
}, /* SQRT.fmt */
19925 { pool
, FLOOR_W_fmt
, 2 , 32,
19926 0xfc003fff, 0xa0000b3b, 0 , 0,
19927 CP1_
}, /* FLOOR.W.fmt */
19928 { reserved_block
, 0 , 0 , 32,
19929 0xfc003fff, 0xa0000c3b, 0 , 0,
19930 CP1_
}, /* POOL32Fxf_0~*(12) */
19931 { reserved_block
, 0 , 0 , 32,
19932 0xfc003fff, 0xa0000d3b, 0 , 0,
19933 CP1_
}, /* POOL32Fxf_0~*(13) */
19934 { reserved_block
, 0 , 0 , 32,
19935 0xfc003fff, 0xa0000e3b, 0 , 0,
19936 CP1_
}, /* POOL32Fxf_0~*(14) */
19937 { reserved_block
, 0 , 0 , 32,
19938 0xfc003fff, 0xa0000f3b, 0 , 0,
19939 CP1_
}, /* POOL32Fxf_0~*(15) */
19940 { instruction
, 0 , 0 , 32,
19941 0xfc003fff, 0xa000103b, &NMD::CFC1
, 0,
19943 { reserved_block
, 0 , 0 , 32,
19944 0xfc003fff, 0xa000113b, 0 , 0,
19945 CP1_
}, /* POOL32Fxf_0~*(17) */
19946 { pool
, RECIP_fmt
, 2 , 32,
19947 0xfc003fff, 0xa000123b, 0 , 0,
19948 CP1_
}, /* RECIP.fmt */
19949 { pool
, CEIL_L_fmt
, 2 , 32,
19950 0xfc003fff, 0xa000133b, 0 , 0,
19951 CP1_
}, /* CEIL.L.fmt */
19952 { reserved_block
, 0 , 0 , 32,
19953 0xfc003fff, 0xa000143b, 0 , 0,
19954 CP1_
}, /* POOL32Fxf_0~*(20) */
19955 { reserved_block
, 0 , 0 , 32,
19956 0xfc003fff, 0xa000153b, 0 , 0,
19957 CP1_
}, /* POOL32Fxf_0~*(21) */
19958 { reserved_block
, 0 , 0 , 32,
19959 0xfc003fff, 0xa000163b, 0 , 0,
19960 CP1_
}, /* POOL32Fxf_0~*(22) */
19961 { reserved_block
, 0 , 0 , 32,
19962 0xfc003fff, 0xa000173b, 0 , 0,
19963 CP1_
}, /* POOL32Fxf_0~*(23) */
19964 { instruction
, 0 , 0 , 32,
19965 0xfc003fff, 0xa000183b, &NMD::CTC1
, 0,
19967 { reserved_block
, 0 , 0 , 32,
19968 0xfc003fff, 0xa000193b, 0 , 0,
19969 CP1_
}, /* POOL32Fxf_0~*(25) */
19970 { reserved_block
, 0 , 0 , 32,
19971 0xfc003fff, 0xa0001a3b, 0 , 0,
19972 CP1_
}, /* POOL32Fxf_0~*(26) */
19973 { pool
, CEIL_W_fmt
, 2 , 32,
19974 0xfc003fff, 0xa0001b3b, 0 , 0,
19975 CP1_
}, /* CEIL.W.fmt */
19976 { reserved_block
, 0 , 0 , 32,
19977 0xfc003fff, 0xa0001c3b, 0 , 0,
19978 CP1_
}, /* POOL32Fxf_0~*(28) */
19979 { reserved_block
, 0 , 0 , 32,
19980 0xfc003fff, 0xa0001d3b, 0 , 0,
19981 CP1_
}, /* POOL32Fxf_0~*(29) */
19982 { reserved_block
, 0 , 0 , 32,
19983 0xfc003fff, 0xa0001e3b, 0 , 0,
19984 CP1_
}, /* POOL32Fxf_0~*(30) */
19985 { reserved_block
, 0 , 0 , 32,
19986 0xfc003fff, 0xa0001f3b, 0 , 0,
19987 CP1_
}, /* POOL32Fxf_0~*(31) */
19988 { instruction
, 0 , 0 , 32,
19989 0xfc003fff, 0xa000203b, &NMD::MFC1
, 0,
19991 { instruction
, 0 , 0 , 32,
19992 0xfc003fff, 0xa000213b, &NMD::CVT_S_PL
, 0,
19993 CP1_
}, /* CVT.S.PL */
19994 { reserved_block
, 0 , 0 , 32,
19995 0xfc003fff, 0xa000223b, 0 , 0,
19996 CP1_
}, /* POOL32Fxf_0~*(34) */
19997 { pool
, TRUNC_L_fmt
, 2 , 32,
19998 0xfc003fff, 0xa000233b, 0 , 0,
19999 CP1_
}, /* TRUNC.L.fmt */
20000 { instruction
, 0 , 0 , 32,
20001 0xfc003fff, 0xa000243b, &NMD::DMFC1
, 0,
20002 CP1_
| MIPS64_
}, /* DMFC1 */
20003 { reserved_block
, 0 , 0 , 32,
20004 0xfc003fff, 0xa000253b, 0 , 0,
20005 CP1_
}, /* POOL32Fxf_0~*(37) */
20006 { reserved_block
, 0 , 0 , 32,
20007 0xfc003fff, 0xa000263b, 0 , 0,
20008 CP1_
}, /* POOL32Fxf_0~*(38) */
20009 { reserved_block
, 0 , 0 , 32,
20010 0xfc003fff, 0xa000273b, 0 , 0,
20011 CP1_
}, /* POOL32Fxf_0~*(39) */
20012 { instruction
, 0 , 0 , 32,
20013 0xfc003fff, 0xa000283b, &NMD::MTC1
, 0,
20015 { instruction
, 0 , 0 , 32,
20016 0xfc003fff, 0xa000293b, &NMD::CVT_S_PU
, 0,
20017 CP1_
}, /* CVT.S.PU */
20018 { reserved_block
, 0 , 0 , 32,
20019 0xfc003fff, 0xa0002a3b, 0 , 0,
20020 CP1_
}, /* POOL32Fxf_0~*(42) */
20021 { pool
, TRUNC_W_fmt
, 2 , 32,
20022 0xfc003fff, 0xa0002b3b, 0 , 0,
20023 CP1_
}, /* TRUNC.W.fmt */
20024 { instruction
, 0 , 0 , 32,
20025 0xfc003fff, 0xa0002c3b, &NMD::DMTC1
, 0,
20026 CP1_
| MIPS64_
}, /* DMTC1 */
20027 { reserved_block
, 0 , 0 , 32,
20028 0xfc003fff, 0xa0002d3b, 0 , 0,
20029 CP1_
}, /* POOL32Fxf_0~*(45) */
20030 { reserved_block
, 0 , 0 , 32,
20031 0xfc003fff, 0xa0002e3b, 0 , 0,
20032 CP1_
}, /* POOL32Fxf_0~*(46) */
20033 { reserved_block
, 0 , 0 , 32,
20034 0xfc003fff, 0xa0002f3b, 0 , 0,
20035 CP1_
}, /* POOL32Fxf_0~*(47) */
20036 { instruction
, 0 , 0 , 32,
20037 0xfc003fff, 0xa000303b, &NMD::MFHC1
, 0,
20038 CP1_
}, /* MFHC1 */
20039 { reserved_block
, 0 , 0 , 32,
20040 0xfc003fff, 0xa000313b, 0 , 0,
20041 CP1_
}, /* POOL32Fxf_0~*(49) */
20042 { reserved_block
, 0 , 0 , 32,
20043 0xfc003fff, 0xa000323b, 0 , 0,
20044 CP1_
}, /* POOL32Fxf_0~*(50) */
20045 { pool
, ROUND_L_fmt
, 2 , 32,
20046 0xfc003fff, 0xa000333b, 0 , 0,
20047 CP1_
}, /* ROUND.L.fmt */
20048 { reserved_block
, 0 , 0 , 32,
20049 0xfc003fff, 0xa000343b, 0 , 0,
20050 CP1_
}, /* POOL32Fxf_0~*(52) */
20051 { reserved_block
, 0 , 0 , 32,
20052 0xfc003fff, 0xa000353b, 0 , 0,
20053 CP1_
}, /* POOL32Fxf_0~*(53) */
20054 { reserved_block
, 0 , 0 , 32,
20055 0xfc003fff, 0xa000363b, 0 , 0,
20056 CP1_
}, /* POOL32Fxf_0~*(54) */
20057 { reserved_block
, 0 , 0 , 32,
20058 0xfc003fff, 0xa000373b, 0 , 0,
20059 CP1_
}, /* POOL32Fxf_0~*(55) */
20060 { instruction
, 0 , 0 , 32,
20061 0xfc003fff, 0xa000383b, &NMD::MTHC1
, 0,
20062 CP1_
}, /* MTHC1 */
20063 { reserved_block
, 0 , 0 , 32,
20064 0xfc003fff, 0xa000393b, 0 , 0,
20065 CP1_
}, /* POOL32Fxf_0~*(57) */
20066 { reserved_block
, 0 , 0 , 32,
20067 0xfc003fff, 0xa0003a3b, 0 , 0,
20068 CP1_
}, /* POOL32Fxf_0~*(58) */
20069 { pool
, ROUND_W_fmt
, 2 , 32,
20070 0xfc003fff, 0xa0003b3b, 0 , 0,
20071 CP1_
}, /* ROUND.W.fmt */
20072 { reserved_block
, 0 , 0 , 32,
20073 0xfc003fff, 0xa0003c3b, 0 , 0,
20074 CP1_
}, /* POOL32Fxf_0~*(60) */
20075 { reserved_block
, 0 , 0 , 32,
20076 0xfc003fff, 0xa0003d3b, 0 , 0,
20077 CP1_
}, /* POOL32Fxf_0~*(61) */
20078 { reserved_block
, 0 , 0 , 32,
20079 0xfc003fff, 0xa0003e3b, 0 , 0,
20080 CP1_
}, /* POOL32Fxf_0~*(62) */
20081 { reserved_block
, 0 , 0 , 32,
20082 0xfc003fff, 0xa0003f3b, 0 , 0,
20083 CP1_
}, /* POOL32Fxf_0~*(63) */
20087 NMD::Pool
NMD::MOV_fmt
[4] = {
20088 { instruction
, 0 , 0 , 32,
20089 0xfc007fff, 0xa000007b, &NMD::MOV_S
, 0,
20090 CP1_
}, /* MOV.S */
20091 { instruction
, 0 , 0 , 32,
20092 0xfc007fff, 0xa000207b, &NMD::MOV_D
, 0,
20093 CP1_
}, /* MOV.D */
20094 { reserved_block
, 0 , 0 , 32,
20095 0xfc007fff, 0xa000407b, 0 , 0,
20096 CP1_
}, /* MOV.fmt~*(2) */
20097 { reserved_block
, 0 , 0 , 32,
20098 0xfc007fff, 0xa000607b, 0 , 0,
20099 CP1_
}, /* MOV.fmt~*(3) */
20103 NMD::Pool
NMD::ABS_fmt
[4] = {
20104 { instruction
, 0 , 0 , 32,
20105 0xfc007fff, 0xa000037b, &NMD::ABS_S
, 0,
20106 CP1_
}, /* ABS.S */
20107 { instruction
, 0 , 0 , 32,
20108 0xfc007fff, 0xa000237b, &NMD::ABS_D
, 0,
20109 CP1_
}, /* ABS.D */
20110 { reserved_block
, 0 , 0 , 32,
20111 0xfc007fff, 0xa000437b, 0 , 0,
20112 CP1_
}, /* ABS.fmt~*(2) */
20113 { reserved_block
, 0 , 0 , 32,
20114 0xfc007fff, 0xa000637b, 0 , 0,
20115 CP1_
}, /* ABS.fmt~*(3) */
20119 NMD::Pool
NMD::NEG_fmt
[4] = {
20120 { instruction
, 0 , 0 , 32,
20121 0xfc007fff, 0xa0000b7b, &NMD::NEG_S
, 0,
20122 CP1_
}, /* NEG.S */
20123 { instruction
, 0 , 0 , 32,
20124 0xfc007fff, 0xa0002b7b, &NMD::NEG_D
, 0,
20125 CP1_
}, /* NEG.D */
20126 { reserved_block
, 0 , 0 , 32,
20127 0xfc007fff, 0xa0004b7b, 0 , 0,
20128 CP1_
}, /* NEG.fmt~*(2) */
20129 { reserved_block
, 0 , 0 , 32,
20130 0xfc007fff, 0xa0006b7b, 0 , 0,
20131 CP1_
}, /* NEG.fmt~*(3) */
20135 NMD::Pool
NMD::CVT_D_fmt
[4] = {
20136 { instruction
, 0 , 0 , 32,
20137 0xfc007fff, 0xa000137b, &NMD::CVT_D_S
, 0,
20138 CP1_
}, /* CVT.D.S */
20139 { instruction
, 0 , 0 , 32,
20140 0xfc007fff, 0xa000337b, &NMD::CVT_D_W
, 0,
20141 CP1_
}, /* CVT.D.W */
20142 { instruction
, 0 , 0 , 32,
20143 0xfc007fff, 0xa000537b, &NMD::CVT_D_L
, 0,
20144 CP1_
}, /* CVT.D.L */
20145 { reserved_block
, 0 , 0 , 32,
20146 0xfc007fff, 0xa000737b, 0 , 0,
20147 CP1_
}, /* CVT.D.fmt~*(3) */
20151 NMD::Pool
NMD::CVT_S_fmt
[4] = {
20152 { instruction
, 0 , 0 , 32,
20153 0xfc007fff, 0xa0001b7b, &NMD::CVT_S_D
, 0,
20154 CP1_
}, /* CVT.S.D */
20155 { instruction
, 0 , 0 , 32,
20156 0xfc007fff, 0xa0003b7b, &NMD::CVT_S_W
, 0,
20157 CP1_
}, /* CVT.S.W */
20158 { instruction
, 0 , 0 , 32,
20159 0xfc007fff, 0xa0005b7b, &NMD::CVT_S_L
, 0,
20160 CP1_
}, /* CVT.S.L */
20161 { reserved_block
, 0 , 0 , 32,
20162 0xfc007fff, 0xa0007b7b, 0 , 0,
20163 CP1_
}, /* CVT.S.fmt~*(3) */
20167 NMD::Pool
NMD::POOL32Fxf_1
[32] = {
20168 { pool
, MOV_fmt
, 4 , 32,
20169 0xfc001fff, 0xa000007b, 0 , 0,
20170 CP1_
}, /* MOV.fmt */
20171 { reserved_block
, 0 , 0 , 32,
20172 0xfc001fff, 0xa000017b, 0 , 0,
20173 CP1_
}, /* POOL32Fxf_1~*(1) */
20174 { reserved_block
, 0 , 0 , 32,
20175 0xfc001fff, 0xa000027b, 0 , 0,
20176 CP1_
}, /* POOL32Fxf_1~*(2) */
20177 { pool
, ABS_fmt
, 4 , 32,
20178 0xfc001fff, 0xa000037b, 0 , 0,
20179 CP1_
}, /* ABS.fmt */
20180 { reserved_block
, 0 , 0 , 32,
20181 0xfc001fff, 0xa000047b, 0 , 0,
20182 CP1_
}, /* POOL32Fxf_1~*(4) */
20183 { reserved_block
, 0 , 0 , 32,
20184 0xfc001fff, 0xa000057b, 0 , 0,
20185 CP1_
}, /* POOL32Fxf_1~*(5) */
20186 { reserved_block
, 0 , 0 , 32,
20187 0xfc001fff, 0xa000067b, 0 , 0,
20188 CP1_
}, /* POOL32Fxf_1~*(6) */
20189 { reserved_block
, 0 , 0 , 32,
20190 0xfc001fff, 0xa000077b, 0 , 0,
20191 CP1_
}, /* POOL32Fxf_1~*(7) */
20192 { reserved_block
, 0 , 0 , 32,
20193 0xfc001fff, 0xa000087b, 0 , 0,
20194 CP1_
}, /* POOL32Fxf_1~*(8) */
20195 { reserved_block
, 0 , 0 , 32,
20196 0xfc001fff, 0xa000097b, 0 , 0,
20197 CP1_
}, /* POOL32Fxf_1~*(9) */
20198 { reserved_block
, 0 , 0 , 32,
20199 0xfc001fff, 0xa0000a7b, 0 , 0,
20200 CP1_
}, /* POOL32Fxf_1~*(10) */
20201 { pool
, NEG_fmt
, 4 , 32,
20202 0xfc001fff, 0xa0000b7b, 0 , 0,
20203 CP1_
}, /* NEG.fmt */
20204 { reserved_block
, 0 , 0 , 32,
20205 0xfc001fff, 0xa0000c7b, 0 , 0,
20206 CP1_
}, /* POOL32Fxf_1~*(12) */
20207 { reserved_block
, 0 , 0 , 32,
20208 0xfc001fff, 0xa0000d7b, 0 , 0,
20209 CP1_
}, /* POOL32Fxf_1~*(13) */
20210 { reserved_block
, 0 , 0 , 32,
20211 0xfc001fff, 0xa0000e7b, 0 , 0,
20212 CP1_
}, /* POOL32Fxf_1~*(14) */
20213 { reserved_block
, 0 , 0 , 32,
20214 0xfc001fff, 0xa0000f7b, 0 , 0,
20215 CP1_
}, /* POOL32Fxf_1~*(15) */
20216 { reserved_block
, 0 , 0 , 32,
20217 0xfc001fff, 0xa000107b, 0 , 0,
20218 CP1_
}, /* POOL32Fxf_1~*(16) */
20219 { reserved_block
, 0 , 0 , 32,
20220 0xfc001fff, 0xa000117b, 0 , 0,
20221 CP1_
}, /* POOL32Fxf_1~*(17) */
20222 { reserved_block
, 0 , 0 , 32,
20223 0xfc001fff, 0xa000127b, 0 , 0,
20224 CP1_
}, /* POOL32Fxf_1~*(18) */
20225 { pool
, CVT_D_fmt
, 4 , 32,
20226 0xfc001fff, 0xa000137b, 0 , 0,
20227 CP1_
}, /* CVT.D.fmt */
20228 { reserved_block
, 0 , 0 , 32,
20229 0xfc001fff, 0xa000147b, 0 , 0,
20230 CP1_
}, /* POOL32Fxf_1~*(20) */
20231 { reserved_block
, 0 , 0 , 32,
20232 0xfc001fff, 0xa000157b, 0 , 0,
20233 CP1_
}, /* POOL32Fxf_1~*(21) */
20234 { reserved_block
, 0 , 0 , 32,
20235 0xfc001fff, 0xa000167b, 0 , 0,
20236 CP1_
}, /* POOL32Fxf_1~*(22) */
20237 { reserved_block
, 0 , 0 , 32,
20238 0xfc001fff, 0xa000177b, 0 , 0,
20239 CP1_
}, /* POOL32Fxf_1~*(23) */
20240 { reserved_block
, 0 , 0 , 32,
20241 0xfc001fff, 0xa000187b, 0 , 0,
20242 CP1_
}, /* POOL32Fxf_1~*(24) */
20243 { reserved_block
, 0 , 0 , 32,
20244 0xfc001fff, 0xa000197b, 0 , 0,
20245 CP1_
}, /* POOL32Fxf_1~*(25) */
20246 { reserved_block
, 0 , 0 , 32,
20247 0xfc001fff, 0xa0001a7b, 0 , 0,
20248 CP1_
}, /* POOL32Fxf_1~*(26) */
20249 { pool
, CVT_S_fmt
, 4 , 32,
20250 0xfc001fff, 0xa0001b7b, 0 , 0,
20251 CP1_
}, /* CVT.S.fmt */
20252 { reserved_block
, 0 , 0 , 32,
20253 0xfc001fff, 0xa0001c7b, 0 , 0,
20254 CP1_
}, /* POOL32Fxf_1~*(28) */
20255 { reserved_block
, 0 , 0 , 32,
20256 0xfc001fff, 0xa0001d7b, 0 , 0,
20257 CP1_
}, /* POOL32Fxf_1~*(29) */
20258 { reserved_block
, 0 , 0 , 32,
20259 0xfc001fff, 0xa0001e7b, 0 , 0,
20260 CP1_
}, /* POOL32Fxf_1~*(30) */
20261 { reserved_block
, 0 , 0 , 32,
20262 0xfc001fff, 0xa0001f7b, 0 , 0,
20263 CP1_
}, /* POOL32Fxf_1~*(31) */
20267 NMD::Pool
NMD::POOL32Fxf
[4] = {
20268 { pool
, POOL32Fxf_0
, 64 , 32,
20269 0xfc0000ff, 0xa000003b, 0 , 0,
20270 CP1_
}, /* POOL32Fxf_0 */
20271 { pool
, POOL32Fxf_1
, 32 , 32,
20272 0xfc0000ff, 0xa000007b, 0 , 0,
20273 CP1_
}, /* POOL32Fxf_1 */
20274 { reserved_block
, 0 , 0 , 32,
20275 0xfc0000ff, 0xa00000bb, 0 , 0,
20276 CP1_
}, /* POOL32Fxf~*(2) */
20277 { reserved_block
, 0 , 0 , 32,
20278 0xfc0000ff, 0xa00000fb, 0 , 0,
20279 CP1_
}, /* POOL32Fxf~*(3) */
20283 NMD::Pool
NMD::POOL32F_3
[8] = {
20284 { pool
, MIN_fmt
, 2 , 32,
20285 0xfc00003f, 0xa0000003, 0 , 0,
20286 CP1_
}, /* MIN.fmt */
20287 { pool
, MAX_fmt
, 2 , 32,
20288 0xfc00003f, 0xa000000b, 0 , 0,
20289 CP1_
}, /* MAX.fmt */
20290 { reserved_block
, 0 , 0 , 32,
20291 0xfc00003f, 0xa0000013, 0 , 0,
20292 CP1_
}, /* POOL32F_3~*(2) */
20293 { reserved_block
, 0 , 0 , 32,
20294 0xfc00003f, 0xa000001b, 0 , 0,
20295 CP1_
}, /* POOL32F_3~*(3) */
20296 { pool
, MINA_fmt
, 2 , 32,
20297 0xfc00003f, 0xa0000023, 0 , 0,
20298 CP1_
}, /* MINA.fmt */
20299 { pool
, MAXA_fmt
, 2 , 32,
20300 0xfc00003f, 0xa000002b, 0 , 0,
20301 CP1_
}, /* MAXA.fmt */
20302 { reserved_block
, 0 , 0 , 32,
20303 0xfc00003f, 0xa0000033, 0 , 0,
20304 CP1_
}, /* POOL32F_3~*(6) */
20305 { pool
, POOL32Fxf
, 4 , 32,
20306 0xfc00003f, 0xa000003b, 0 , 0,
20307 CP1_
}, /* POOL32Fxf */
20311 NMD::Pool
NMD::CMP_condn_S
[32] = {
20312 { instruction
, 0 , 0 , 32,
20313 0xfc0007ff, 0xa0000005, &NMD::CMP_AF_S
, 0,
20314 CP1_
}, /* CMP.AF.S */
20315 { instruction
, 0 , 0 , 32,
20316 0xfc0007ff, 0xa0000045, &NMD::CMP_UN_S
, 0,
20317 CP1_
}, /* CMP.UN.S */
20318 { instruction
, 0 , 0 , 32,
20319 0xfc0007ff, 0xa0000085, &NMD::CMP_EQ_S
, 0,
20320 CP1_
}, /* CMP.EQ.S */
20321 { instruction
, 0 , 0 , 32,
20322 0xfc0007ff, 0xa00000c5, &NMD::CMP_UEQ_S
, 0,
20323 CP1_
}, /* CMP.UEQ.S */
20324 { instruction
, 0 , 0 , 32,
20325 0xfc0007ff, 0xa0000105, &NMD::CMP_LT_S
, 0,
20326 CP1_
}, /* CMP.LT.S */
20327 { instruction
, 0 , 0 , 32,
20328 0xfc0007ff, 0xa0000145, &NMD::CMP_ULT_S
, 0,
20329 CP1_
}, /* CMP.ULT.S */
20330 { instruction
, 0 , 0 , 32,
20331 0xfc0007ff, 0xa0000185, &NMD::CMP_LE_S
, 0,
20332 CP1_
}, /* CMP.LE.S */
20333 { instruction
, 0 , 0 , 32,
20334 0xfc0007ff, 0xa00001c5, &NMD::CMP_ULE_S
, 0,
20335 CP1_
}, /* CMP.ULE.S */
20336 { instruction
, 0 , 0 , 32,
20337 0xfc0007ff, 0xa0000205, &NMD::CMP_SAF_S
, 0,
20338 CP1_
}, /* CMP.SAF.S */
20339 { instruction
, 0 , 0 , 32,
20340 0xfc0007ff, 0xa0000245, &NMD::CMP_SUN_S
, 0,
20341 CP1_
}, /* CMP.SUN.S */
20342 { instruction
, 0 , 0 , 32,
20343 0xfc0007ff, 0xa0000285, &NMD::CMP_SEQ_S
, 0,
20344 CP1_
}, /* CMP.SEQ.S */
20345 { instruction
, 0 , 0 , 32,
20346 0xfc0007ff, 0xa00002c5, &NMD::CMP_SUEQ_S
, 0,
20347 CP1_
}, /* CMP.SUEQ.S */
20348 { instruction
, 0 , 0 , 32,
20349 0xfc0007ff, 0xa0000305, &NMD::CMP_SLT_S
, 0,
20350 CP1_
}, /* CMP.SLT.S */
20351 { instruction
, 0 , 0 , 32,
20352 0xfc0007ff, 0xa0000345, &NMD::CMP_SULT_S
, 0,
20353 CP1_
}, /* CMP.SULT.S */
20354 { instruction
, 0 , 0 , 32,
20355 0xfc0007ff, 0xa0000385, &NMD::CMP_SLE_S
, 0,
20356 CP1_
}, /* CMP.SLE.S */
20357 { instruction
, 0 , 0 , 32,
20358 0xfc0007ff, 0xa00003c5, &NMD::CMP_SULE_S
, 0,
20359 CP1_
}, /* CMP.SULE.S */
20360 { reserved_block
, 0 , 0 , 32,
20361 0xfc0007ff, 0xa0000405, 0 , 0,
20362 CP1_
}, /* CMP.condn.S~*(16) */
20363 { instruction
, 0 , 0 , 32,
20364 0xfc0007ff, 0xa0000445, &NMD::CMP_OR_S
, 0,
20365 CP1_
}, /* CMP.OR.S */
20366 { instruction
, 0 , 0 , 32,
20367 0xfc0007ff, 0xa0000485, &NMD::CMP_UNE_S
, 0,
20368 CP1_
}, /* CMP.UNE.S */
20369 { instruction
, 0 , 0 , 32,
20370 0xfc0007ff, 0xa00004c5, &NMD::CMP_NE_S
, 0,
20371 CP1_
}, /* CMP.NE.S */
20372 { reserved_block
, 0 , 0 , 32,
20373 0xfc0007ff, 0xa0000505, 0 , 0,
20374 CP1_
}, /* CMP.condn.S~*(20) */
20375 { reserved_block
, 0 , 0 , 32,
20376 0xfc0007ff, 0xa0000545, 0 , 0,
20377 CP1_
}, /* CMP.condn.S~*(21) */
20378 { reserved_block
, 0 , 0 , 32,
20379 0xfc0007ff, 0xa0000585, 0 , 0,
20380 CP1_
}, /* CMP.condn.S~*(22) */
20381 { reserved_block
, 0 , 0 , 32,
20382 0xfc0007ff, 0xa00005c5, 0 , 0,
20383 CP1_
}, /* CMP.condn.S~*(23) */
20384 { reserved_block
, 0 , 0 , 32,
20385 0xfc0007ff, 0xa0000605, 0 , 0,
20386 CP1_
}, /* CMP.condn.S~*(24) */
20387 { instruction
, 0 , 0 , 32,
20388 0xfc0007ff, 0xa0000645, &NMD::CMP_SOR_S
, 0,
20389 CP1_
}, /* CMP.SOR.S */
20390 { instruction
, 0 , 0 , 32,
20391 0xfc0007ff, 0xa0000685, &NMD::CMP_SUNE_S
, 0,
20392 CP1_
}, /* CMP.SUNE.S */
20393 { instruction
, 0 , 0 , 32,
20394 0xfc0007ff, 0xa00006c5, &NMD::CMP_SNE_S
, 0,
20395 CP1_
}, /* CMP.SNE.S */
20396 { reserved_block
, 0 , 0 , 32,
20397 0xfc0007ff, 0xa0000705, 0 , 0,
20398 CP1_
}, /* CMP.condn.S~*(28) */
20399 { reserved_block
, 0 , 0 , 32,
20400 0xfc0007ff, 0xa0000745, 0 , 0,
20401 CP1_
}, /* CMP.condn.S~*(29) */
20402 { reserved_block
, 0 , 0 , 32,
20403 0xfc0007ff, 0xa0000785, 0 , 0,
20404 CP1_
}, /* CMP.condn.S~*(30) */
20405 { reserved_block
, 0 , 0 , 32,
20406 0xfc0007ff, 0xa00007c5, 0 , 0,
20407 CP1_
}, /* CMP.condn.S~*(31) */
20411 NMD::Pool
NMD::CMP_condn_D
[32] = {
20412 { instruction
, 0 , 0 , 32,
20413 0xfc0007ff, 0xa0000015, &NMD::CMP_AF_D
, 0,
20414 CP1_
}, /* CMP.AF.D */
20415 { instruction
, 0 , 0 , 32,
20416 0xfc0007ff, 0xa0000055, &NMD::CMP_UN_D
, 0,
20417 CP1_
}, /* CMP.UN.D */
20418 { instruction
, 0 , 0 , 32,
20419 0xfc0007ff, 0xa0000095, &NMD::CMP_EQ_D
, 0,
20420 CP1_
}, /* CMP.EQ.D */
20421 { instruction
, 0 , 0 , 32,
20422 0xfc0007ff, 0xa00000d5, &NMD::CMP_UEQ_D
, 0,
20423 CP1_
}, /* CMP.UEQ.D */
20424 { instruction
, 0 , 0 , 32,
20425 0xfc0007ff, 0xa0000115, &NMD::CMP_LT_D
, 0,
20426 CP1_
}, /* CMP.LT.D */
20427 { instruction
, 0 , 0 , 32,
20428 0xfc0007ff, 0xa0000155, &NMD::CMP_ULT_D
, 0,
20429 CP1_
}, /* CMP.ULT.D */
20430 { instruction
, 0 , 0 , 32,
20431 0xfc0007ff, 0xa0000195, &NMD::CMP_LE_D
, 0,
20432 CP1_
}, /* CMP.LE.D */
20433 { instruction
, 0 , 0 , 32,
20434 0xfc0007ff, 0xa00001d5, &NMD::CMP_ULE_D
, 0,
20435 CP1_
}, /* CMP.ULE.D */
20436 { instruction
, 0 , 0 , 32,
20437 0xfc0007ff, 0xa0000215, &NMD::CMP_SAF_D
, 0,
20438 CP1_
}, /* CMP.SAF.D */
20439 { instruction
, 0 , 0 , 32,
20440 0xfc0007ff, 0xa0000255, &NMD::CMP_SUN_D
, 0,
20441 CP1_
}, /* CMP.SUN.D */
20442 { instruction
, 0 , 0 , 32,
20443 0xfc0007ff, 0xa0000295, &NMD::CMP_SEQ_D
, 0,
20444 CP1_
}, /* CMP.SEQ.D */
20445 { instruction
, 0 , 0 , 32,
20446 0xfc0007ff, 0xa00002d5, &NMD::CMP_SUEQ_D
, 0,
20447 CP1_
}, /* CMP.SUEQ.D */
20448 { instruction
, 0 , 0 , 32,
20449 0xfc0007ff, 0xa0000315, &NMD::CMP_SLT_D
, 0,
20450 CP1_
}, /* CMP.SLT.D */
20451 { instruction
, 0 , 0 , 32,
20452 0xfc0007ff, 0xa0000355, &NMD::CMP_SULT_D
, 0,
20453 CP1_
}, /* CMP.SULT.D */
20454 { instruction
, 0 , 0 , 32,
20455 0xfc0007ff, 0xa0000395, &NMD::CMP_SLE_D
, 0,
20456 CP1_
}, /* CMP.SLE.D */
20457 { instruction
, 0 , 0 , 32,
20458 0xfc0007ff, 0xa00003d5, &NMD::CMP_SULE_D
, 0,
20459 CP1_
}, /* CMP.SULE.D */
20460 { reserved_block
, 0 , 0 , 32,
20461 0xfc0007ff, 0xa0000415, 0 , 0,
20462 CP1_
}, /* CMP.condn.D~*(16) */
20463 { instruction
, 0 , 0 , 32,
20464 0xfc0007ff, 0xa0000455, &NMD::CMP_OR_D
, 0,
20465 CP1_
}, /* CMP.OR.D */
20466 { instruction
, 0 , 0 , 32,
20467 0xfc0007ff, 0xa0000495, &NMD::CMP_UNE_D
, 0,
20468 CP1_
}, /* CMP.UNE.D */
20469 { instruction
, 0 , 0 , 32,
20470 0xfc0007ff, 0xa00004d5, &NMD::CMP_NE_D
, 0,
20471 CP1_
}, /* CMP.NE.D */
20472 { reserved_block
, 0 , 0 , 32,
20473 0xfc0007ff, 0xa0000515, 0 , 0,
20474 CP1_
}, /* CMP.condn.D~*(20) */
20475 { reserved_block
, 0 , 0 , 32,
20476 0xfc0007ff, 0xa0000555, 0 , 0,
20477 CP1_
}, /* CMP.condn.D~*(21) */
20478 { reserved_block
, 0 , 0 , 32,
20479 0xfc0007ff, 0xa0000595, 0 , 0,
20480 CP1_
}, /* CMP.condn.D~*(22) */
20481 { reserved_block
, 0 , 0 , 32,
20482 0xfc0007ff, 0xa00005d5, 0 , 0,
20483 CP1_
}, /* CMP.condn.D~*(23) */
20484 { reserved_block
, 0 , 0 , 32,
20485 0xfc0007ff, 0xa0000615, 0 , 0,
20486 CP1_
}, /* CMP.condn.D~*(24) */
20487 { instruction
, 0 , 0 , 32,
20488 0xfc0007ff, 0xa0000655, &NMD::CMP_SOR_D
, 0,
20489 CP1_
}, /* CMP.SOR.D */
20490 { instruction
, 0 , 0 , 32,
20491 0xfc0007ff, 0xa0000695, &NMD::CMP_SUNE_D
, 0,
20492 CP1_
}, /* CMP.SUNE.D */
20493 { instruction
, 0 , 0 , 32,
20494 0xfc0007ff, 0xa00006d5, &NMD::CMP_SNE_D
, 0,
20495 CP1_
}, /* CMP.SNE.D */
20496 { reserved_block
, 0 , 0 , 32,
20497 0xfc0007ff, 0xa0000715, 0 , 0,
20498 CP1_
}, /* CMP.condn.D~*(28) */
20499 { reserved_block
, 0 , 0 , 32,
20500 0xfc0007ff, 0xa0000755, 0 , 0,
20501 CP1_
}, /* CMP.condn.D~*(29) */
20502 { reserved_block
, 0 , 0 , 32,
20503 0xfc0007ff, 0xa0000795, 0 , 0,
20504 CP1_
}, /* CMP.condn.D~*(30) */
20505 { reserved_block
, 0 , 0 , 32,
20506 0xfc0007ff, 0xa00007d5, 0 , 0,
20507 CP1_
}, /* CMP.condn.D~*(31) */
20511 NMD::Pool
NMD::POOL32F_5
[8] = {
20512 { pool
, CMP_condn_S
, 32 , 32,
20513 0xfc00003f, 0xa0000005, 0 , 0,
20514 CP1_
}, /* CMP.condn.S */
20515 { reserved_block
, 0 , 0 , 32,
20516 0xfc00003f, 0xa000000d, 0 , 0,
20517 CP1_
}, /* POOL32F_5~*(1) */
20518 { pool
, CMP_condn_D
, 32 , 32,
20519 0xfc00003f, 0xa0000015, 0 , 0,
20520 CP1_
}, /* CMP.condn.D */
20521 { reserved_block
, 0 , 0 , 32,
20522 0xfc00003f, 0xa000001d, 0 , 0,
20523 CP1_
}, /* POOL32F_5~*(3) */
20524 { reserved_block
, 0 , 0 , 32,
20525 0xfc00003f, 0xa0000025, 0 , 0,
20526 CP1_
}, /* POOL32F_5~*(4) */
20527 { reserved_block
, 0 , 0 , 32,
20528 0xfc00003f, 0xa000002d, 0 , 0,
20529 CP1_
}, /* POOL32F_5~*(5) */
20530 { reserved_block
, 0 , 0 , 32,
20531 0xfc00003f, 0xa0000035, 0 , 0,
20532 CP1_
}, /* POOL32F_5~*(6) */
20533 { reserved_block
, 0 , 0 , 32,
20534 0xfc00003f, 0xa000003d, 0 , 0,
20535 CP1_
}, /* POOL32F_5~*(7) */
20539 NMD::Pool
NMD::POOL32F
[8] = {
20540 { pool
, POOL32F_0
, 64 , 32,
20541 0xfc000007, 0xa0000000, 0 , 0,
20542 CP1_
}, /* POOL32F_0 */
20543 { reserved_block
, 0 , 0 , 32,
20544 0xfc000007, 0xa0000001, 0 , 0,
20545 CP1_
}, /* POOL32F~*(1) */
20546 { reserved_block
, 0 , 0 , 32,
20547 0xfc000007, 0xa0000002, 0 , 0,
20548 CP1_
}, /* POOL32F~*(2) */
20549 { pool
, POOL32F_3
, 8 , 32,
20550 0xfc000007, 0xa0000003, 0 , 0,
20551 CP1_
}, /* POOL32F_3 */
20552 { reserved_block
, 0 , 0 , 32,
20553 0xfc000007, 0xa0000004, 0 , 0,
20554 CP1_
}, /* POOL32F~*(4) */
20555 { pool
, POOL32F_5
, 8 , 32,
20556 0xfc000007, 0xa0000005, 0 , 0,
20557 CP1_
}, /* POOL32F_5 */
20558 { reserved_block
, 0 , 0 , 32,
20559 0xfc000007, 0xa0000006, 0 , 0,
20560 CP1_
}, /* POOL32F~*(6) */
20561 { reserved_block
, 0 , 0 , 32,
20562 0xfc000007, 0xa0000007, 0 , 0,
20563 CP1_
}, /* POOL32F~*(7) */
20567 NMD::Pool
NMD::POOL32S_0
[64] = {
20568 { reserved_block
, 0 , 0 , 32,
20569 0xfc0001ff, 0xc0000000, 0 , 0,
20570 0x0 }, /* POOL32S_0~*(0) */
20571 { instruction
, 0 , 0 , 32,
20572 0xfc0001ff, 0xc0000008, &NMD::DLSA
, 0,
20573 MIPS64_
}, /* DLSA */
20574 { instruction
, 0 , 0 , 32,
20575 0xfc0001ff, 0xc0000010, &NMD::DSLLV
, 0,
20576 MIPS64_
}, /* DSLLV */
20577 { instruction
, 0 , 0 , 32,
20578 0xfc0001ff, 0xc0000018, &NMD::DMUL
, 0,
20579 MIPS64_
}, /* DMUL */
20580 { reserved_block
, 0 , 0 , 32,
20581 0xfc0001ff, 0xc0000020, 0 , 0,
20582 0x0 }, /* POOL32S_0~*(4) */
20583 { reserved_block
, 0 , 0 , 32,
20584 0xfc0001ff, 0xc0000028, 0 , 0,
20585 0x0 }, /* POOL32S_0~*(5) */
20586 { reserved_block
, 0 , 0 , 32,
20587 0xfc0001ff, 0xc0000030, 0 , 0,
20588 0x0 }, /* POOL32S_0~*(6) */
20589 { reserved_block
, 0 , 0 , 32,
20590 0xfc0001ff, 0xc0000038, 0 , 0,
20591 0x0 }, /* POOL32S_0~*(7) */
20592 { reserved_block
, 0 , 0 , 32,
20593 0xfc0001ff, 0xc0000040, 0 , 0,
20594 0x0 }, /* POOL32S_0~*(8) */
20595 { reserved_block
, 0 , 0 , 32,
20596 0xfc0001ff, 0xc0000048, 0 , 0,
20597 0x0 }, /* POOL32S_0~*(9) */
20598 { instruction
, 0 , 0 , 32,
20599 0xfc0001ff, 0xc0000050, &NMD::DSRLV
, 0,
20600 MIPS64_
}, /* DSRLV */
20601 { instruction
, 0 , 0 , 32,
20602 0xfc0001ff, 0xc0000058, &NMD::DMUH
, 0,
20603 MIPS64_
}, /* DMUH */
20604 { reserved_block
, 0 , 0 , 32,
20605 0xfc0001ff, 0xc0000060, 0 , 0,
20606 0x0 }, /* POOL32S_0~*(12) */
20607 { reserved_block
, 0 , 0 , 32,
20608 0xfc0001ff, 0xc0000068, 0 , 0,
20609 0x0 }, /* POOL32S_0~*(13) */
20610 { reserved_block
, 0 , 0 , 32,
20611 0xfc0001ff, 0xc0000070, 0 , 0,
20612 0x0 }, /* POOL32S_0~*(14) */
20613 { reserved_block
, 0 , 0 , 32,
20614 0xfc0001ff, 0xc0000078, 0 , 0,
20615 0x0 }, /* POOL32S_0~*(15) */
20616 { reserved_block
, 0 , 0 , 32,
20617 0xfc0001ff, 0xc0000080, 0 , 0,
20618 0x0 }, /* POOL32S_0~*(16) */
20619 { reserved_block
, 0 , 0 , 32,
20620 0xfc0001ff, 0xc0000088, 0 , 0,
20621 0x0 }, /* POOL32S_0~*(17) */
20622 { instruction
, 0 , 0 , 32,
20623 0xfc0001ff, 0xc0000090, &NMD::DSRAV
, 0,
20624 MIPS64_
}, /* DSRAV */
20625 { instruction
, 0 , 0 , 32,
20626 0xfc0001ff, 0xc0000098, &NMD::DMULU
, 0,
20627 MIPS64_
}, /* DMULU */
20628 { reserved_block
, 0 , 0 , 32,
20629 0xfc0001ff, 0xc00000a0, 0 , 0,
20630 0x0 }, /* POOL32S_0~*(20) */
20631 { reserved_block
, 0 , 0 , 32,
20632 0xfc0001ff, 0xc00000a8, 0 , 0,
20633 0x0 }, /* POOL32S_0~*(21) */
20634 { reserved_block
, 0 , 0 , 32,
20635 0xfc0001ff, 0xc00000b0, 0 , 0,
20636 0x0 }, /* POOL32S_0~*(22) */
20637 { reserved_block
, 0 , 0 , 32,
20638 0xfc0001ff, 0xc00000b8, 0 , 0,
20639 0x0 }, /* POOL32S_0~*(23) */
20640 { reserved_block
, 0 , 0 , 32,
20641 0xfc0001ff, 0xc00000c0, 0 , 0,
20642 0x0 }, /* POOL32S_0~*(24) */
20643 { reserved_block
, 0 , 0 , 32,
20644 0xfc0001ff, 0xc00000c8, 0 , 0,
20645 0x0 }, /* POOL32S_0~*(25) */
20646 { instruction
, 0 , 0 , 32,
20647 0xfc0001ff, 0xc00000d0, &NMD::DROTRV
, 0,
20648 MIPS64_
}, /* DROTRV */
20649 { instruction
, 0 , 0 , 32,
20650 0xfc0001ff, 0xc00000d8, &NMD::DMUHU
, 0,
20651 MIPS64_
}, /* DMUHU */
20652 { reserved_block
, 0 , 0 , 32,
20653 0xfc0001ff, 0xc00000e0, 0 , 0,
20654 0x0 }, /* POOL32S_0~*(28) */
20655 { reserved_block
, 0 , 0 , 32,
20656 0xfc0001ff, 0xc00000e8, 0 , 0,
20657 0x0 }, /* POOL32S_0~*(29) */
20658 { reserved_block
, 0 , 0 , 32,
20659 0xfc0001ff, 0xc00000f0, 0 , 0,
20660 0x0 }, /* POOL32S_0~*(30) */
20661 { reserved_block
, 0 , 0 , 32,
20662 0xfc0001ff, 0xc00000f8, 0 , 0,
20663 0x0 }, /* POOL32S_0~*(31) */
20664 { reserved_block
, 0 , 0 , 32,
20665 0xfc0001ff, 0xc0000100, 0 , 0,
20666 0x0 }, /* POOL32S_0~*(32) */
20667 { reserved_block
, 0 , 0 , 32,
20668 0xfc0001ff, 0xc0000108, 0 , 0,
20669 0x0 }, /* POOL32S_0~*(33) */
20670 { instruction
, 0 , 0 , 32,
20671 0xfc0001ff, 0xc0000110, &NMD::DADD
, 0,
20672 MIPS64_
}, /* DADD */
20673 { instruction
, 0 , 0 , 32,
20674 0xfc0001ff, 0xc0000118, &NMD::DDIV
, 0,
20675 MIPS64_
}, /* DDIV */
20676 { reserved_block
, 0 , 0 , 32,
20677 0xfc0001ff, 0xc0000120, 0 , 0,
20678 0x0 }, /* POOL32S_0~*(36) */
20679 { reserved_block
, 0 , 0 , 32,
20680 0xfc0001ff, 0xc0000128, 0 , 0,
20681 0x0 }, /* POOL32S_0~*(37) */
20682 { reserved_block
, 0 , 0 , 32,
20683 0xfc0001ff, 0xc0000130, 0 , 0,
20684 0x0 }, /* POOL32S_0~*(38) */
20685 { reserved_block
, 0 , 0 , 32,
20686 0xfc0001ff, 0xc0000138, 0 , 0,
20687 0x0 }, /* POOL32S_0~*(39) */
20688 { reserved_block
, 0 , 0 , 32,
20689 0xfc0001ff, 0xc0000140, 0 , 0,
20690 0x0 }, /* POOL32S_0~*(40) */
20691 { reserved_block
, 0 , 0 , 32,
20692 0xfc0001ff, 0xc0000148, 0 , 0,
20693 0x0 }, /* POOL32S_0~*(41) */
20694 { instruction
, 0 , 0 , 32,
20695 0xfc0001ff, 0xc0000150, &NMD::DADDU
, 0,
20696 MIPS64_
}, /* DADDU */
20697 { instruction
, 0 , 0 , 32,
20698 0xfc0001ff, 0xc0000158, &NMD::DMOD
, 0,
20699 MIPS64_
}, /* DMOD */
20700 { reserved_block
, 0 , 0 , 32,
20701 0xfc0001ff, 0xc0000160, 0 , 0,
20702 0x0 }, /* POOL32S_0~*(44) */
20703 { reserved_block
, 0 , 0 , 32,
20704 0xfc0001ff, 0xc0000168, 0 , 0,
20705 0x0 }, /* POOL32S_0~*(45) */
20706 { reserved_block
, 0 , 0 , 32,
20707 0xfc0001ff, 0xc0000170, 0 , 0,
20708 0x0 }, /* POOL32S_0~*(46) */
20709 { reserved_block
, 0 , 0 , 32,
20710 0xfc0001ff, 0xc0000178, 0 , 0,
20711 0x0 }, /* POOL32S_0~*(47) */
20712 { reserved_block
, 0 , 0 , 32,
20713 0xfc0001ff, 0xc0000180, 0 , 0,
20714 0x0 }, /* POOL32S_0~*(48) */
20715 { reserved_block
, 0 , 0 , 32,
20716 0xfc0001ff, 0xc0000188, 0 , 0,
20717 0x0 }, /* POOL32S_0~*(49) */
20718 { instruction
, 0 , 0 , 32,
20719 0xfc0001ff, 0xc0000190, &NMD::DSUB
, 0,
20720 MIPS64_
}, /* DSUB */
20721 { instruction
, 0 , 0 , 32,
20722 0xfc0001ff, 0xc0000198, &NMD::DDIVU
, 0,
20723 MIPS64_
}, /* DDIVU */
20724 { reserved_block
, 0 , 0 , 32,
20725 0xfc0001ff, 0xc00001a0, 0 , 0,
20726 0x0 }, /* POOL32S_0~*(52) */
20727 { reserved_block
, 0 , 0 , 32,
20728 0xfc0001ff, 0xc00001a8, 0 , 0,
20729 0x0 }, /* POOL32S_0~*(53) */
20730 { reserved_block
, 0 , 0 , 32,
20731 0xfc0001ff, 0xc00001b0, 0 , 0,
20732 0x0 }, /* POOL32S_0~*(54) */
20733 { reserved_block
, 0 , 0 , 32,
20734 0xfc0001ff, 0xc00001b8, 0 , 0,
20735 0x0 }, /* POOL32S_0~*(55) */
20736 { reserved_block
, 0 , 0 , 32,
20737 0xfc0001ff, 0xc00001c0, 0 , 0,
20738 0x0 }, /* POOL32S_0~*(56) */
20739 { reserved_block
, 0 , 0 , 32,
20740 0xfc0001ff, 0xc00001c8, 0 , 0,
20741 0x0 }, /* POOL32S_0~*(57) */
20742 { instruction
, 0 , 0 , 32,
20743 0xfc0001ff, 0xc00001d0, &NMD::DSUBU
, 0,
20744 MIPS64_
}, /* DSUBU */
20745 { instruction
, 0 , 0 , 32,
20746 0xfc0001ff, 0xc00001d8, &NMD::DMODU
, 0,
20747 MIPS64_
}, /* DMODU */
20748 { reserved_block
, 0 , 0 , 32,
20749 0xfc0001ff, 0xc00001e0, 0 , 0,
20750 0x0 }, /* POOL32S_0~*(60) */
20751 { reserved_block
, 0 , 0 , 32,
20752 0xfc0001ff, 0xc00001e8, 0 , 0,
20753 0x0 }, /* POOL32S_0~*(61) */
20754 { reserved_block
, 0 , 0 , 32,
20755 0xfc0001ff, 0xc00001f0, 0 , 0,
20756 0x0 }, /* POOL32S_0~*(62) */
20757 { reserved_block
, 0 , 0 , 32,
20758 0xfc0001ff, 0xc00001f8, 0 , 0,
20759 0x0 }, /* POOL32S_0~*(63) */
20763 NMD::Pool
NMD::POOL32Sxf_4
[128] = {
20764 { reserved_block
, 0 , 0 , 32,
20765 0xfc00ffff, 0xc000013c, 0 , 0,
20766 0x0 }, /* POOL32Sxf_4~*(0) */
20767 { reserved_block
, 0 , 0 , 32,
20768 0xfc00ffff, 0xc000033c, 0 , 0,
20769 0x0 }, /* POOL32Sxf_4~*(1) */
20770 { reserved_block
, 0 , 0 , 32,
20771 0xfc00ffff, 0xc000053c, 0 , 0,
20772 0x0 }, /* POOL32Sxf_4~*(2) */
20773 { reserved_block
, 0 , 0 , 32,
20774 0xfc00ffff, 0xc000073c, 0 , 0,
20775 0x0 }, /* POOL32Sxf_4~*(3) */
20776 { reserved_block
, 0 , 0 , 32,
20777 0xfc00ffff, 0xc000093c, 0 , 0,
20778 0x0 }, /* POOL32Sxf_4~*(4) */
20779 { reserved_block
, 0 , 0 , 32,
20780 0xfc00ffff, 0xc0000b3c, 0 , 0,
20781 0x0 }, /* POOL32Sxf_4~*(5) */
20782 { reserved_block
, 0 , 0 , 32,
20783 0xfc00ffff, 0xc0000d3c, 0 , 0,
20784 0x0 }, /* POOL32Sxf_4~*(6) */
20785 { reserved_block
, 0 , 0 , 32,
20786 0xfc00ffff, 0xc0000f3c, 0 , 0,
20787 0x0 }, /* POOL32Sxf_4~*(7) */
20788 { reserved_block
, 0 , 0 , 32,
20789 0xfc00ffff, 0xc000113c, 0 , 0,
20790 0x0 }, /* POOL32Sxf_4~*(8) */
20791 { reserved_block
, 0 , 0 , 32,
20792 0xfc00ffff, 0xc000133c, 0 , 0,
20793 0x0 }, /* POOL32Sxf_4~*(9) */
20794 { reserved_block
, 0 , 0 , 32,
20795 0xfc00ffff, 0xc000153c, 0 , 0,
20796 0x0 }, /* POOL32Sxf_4~*(10) */
20797 { reserved_block
, 0 , 0 , 32,
20798 0xfc00ffff, 0xc000173c, 0 , 0,
20799 0x0 }, /* POOL32Sxf_4~*(11) */
20800 { reserved_block
, 0 , 0 , 32,
20801 0xfc00ffff, 0xc000193c, 0 , 0,
20802 0x0 }, /* POOL32Sxf_4~*(12) */
20803 { reserved_block
, 0 , 0 , 32,
20804 0xfc00ffff, 0xc0001b3c, 0 , 0,
20805 0x0 }, /* POOL32Sxf_4~*(13) */
20806 { reserved_block
, 0 , 0 , 32,
20807 0xfc00ffff, 0xc0001d3c, 0 , 0,
20808 0x0 }, /* POOL32Sxf_4~*(14) */
20809 { reserved_block
, 0 , 0 , 32,
20810 0xfc00ffff, 0xc0001f3c, 0 , 0,
20811 0x0 }, /* POOL32Sxf_4~*(15) */
20812 { reserved_block
, 0 , 0 , 32,
20813 0xfc00ffff, 0xc000213c, 0 , 0,
20814 0x0 }, /* POOL32Sxf_4~*(16) */
20815 { reserved_block
, 0 , 0 , 32,
20816 0xfc00ffff, 0xc000233c, 0 , 0,
20817 0x0 }, /* POOL32Sxf_4~*(17) */
20818 { reserved_block
, 0 , 0 , 32,
20819 0xfc00ffff, 0xc000253c, 0 , 0,
20820 0x0 }, /* POOL32Sxf_4~*(18) */
20821 { reserved_block
, 0 , 0 , 32,
20822 0xfc00ffff, 0xc000273c, 0 , 0,
20823 0x0 }, /* POOL32Sxf_4~*(19) */
20824 { reserved_block
, 0 , 0 , 32,
20825 0xfc00ffff, 0xc000293c, 0 , 0,
20826 0x0 }, /* POOL32Sxf_4~*(20) */
20827 { reserved_block
, 0 , 0 , 32,
20828 0xfc00ffff, 0xc0002b3c, 0 , 0,
20829 0x0 }, /* POOL32Sxf_4~*(21) */
20830 { reserved_block
, 0 , 0 , 32,
20831 0xfc00ffff, 0xc0002d3c, 0 , 0,
20832 0x0 }, /* POOL32Sxf_4~*(22) */
20833 { reserved_block
, 0 , 0 , 32,
20834 0xfc00ffff, 0xc0002f3c, 0 , 0,
20835 0x0 }, /* POOL32Sxf_4~*(23) */
20836 { reserved_block
, 0 , 0 , 32,
20837 0xfc00ffff, 0xc000313c, 0 , 0,
20838 0x0 }, /* POOL32Sxf_4~*(24) */
20839 { reserved_block
, 0 , 0 , 32,
20840 0xfc00ffff, 0xc000333c, 0 , 0,
20841 0x0 }, /* POOL32Sxf_4~*(25) */
20842 { reserved_block
, 0 , 0 , 32,
20843 0xfc00ffff, 0xc000353c, 0 , 0,
20844 0x0 }, /* POOL32Sxf_4~*(26) */
20845 { reserved_block
, 0 , 0 , 32,
20846 0xfc00ffff, 0xc000373c, 0 , 0,
20847 0x0 }, /* POOL32Sxf_4~*(27) */
20848 { reserved_block
, 0 , 0 , 32,
20849 0xfc00ffff, 0xc000393c, 0 , 0,
20850 0x0 }, /* POOL32Sxf_4~*(28) */
20851 { reserved_block
, 0 , 0 , 32,
20852 0xfc00ffff, 0xc0003b3c, 0 , 0,
20853 0x0 }, /* POOL32Sxf_4~*(29) */
20854 { reserved_block
, 0 , 0 , 32,
20855 0xfc00ffff, 0xc0003d3c, 0 , 0,
20856 0x0 }, /* POOL32Sxf_4~*(30) */
20857 { reserved_block
, 0 , 0 , 32,
20858 0xfc00ffff, 0xc0003f3c, 0 , 0,
20859 0x0 }, /* POOL32Sxf_4~*(31) */
20860 { reserved_block
, 0 , 0 , 32,
20861 0xfc00ffff, 0xc000413c, 0 , 0,
20862 0x0 }, /* POOL32Sxf_4~*(32) */
20863 { reserved_block
, 0 , 0 , 32,
20864 0xfc00ffff, 0xc000433c, 0 , 0,
20865 0x0 }, /* POOL32Sxf_4~*(33) */
20866 { reserved_block
, 0 , 0 , 32,
20867 0xfc00ffff, 0xc000453c, 0 , 0,
20868 0x0 }, /* POOL32Sxf_4~*(34) */
20869 { reserved_block
, 0 , 0 , 32,
20870 0xfc00ffff, 0xc000473c, 0 , 0,
20871 0x0 }, /* POOL32Sxf_4~*(35) */
20872 { reserved_block
, 0 , 0 , 32,
20873 0xfc00ffff, 0xc000493c, 0 , 0,
20874 0x0 }, /* POOL32Sxf_4~*(36) */
20875 { instruction
, 0 , 0 , 32,
20876 0xfc00ffff, 0xc0004b3c, &NMD::DCLO
, 0,
20877 MIPS64_
}, /* DCLO */
20878 { reserved_block
, 0 , 0 , 32,
20879 0xfc00ffff, 0xc0004d3c, 0 , 0,
20880 0x0 }, /* POOL32Sxf_4~*(38) */
20881 { reserved_block
, 0 , 0 , 32,
20882 0xfc00ffff, 0xc0004f3c, 0 , 0,
20883 0x0 }, /* POOL32Sxf_4~*(39) */
20884 { reserved_block
, 0 , 0 , 32,
20885 0xfc00ffff, 0xc000513c, 0 , 0,
20886 0x0 }, /* POOL32Sxf_4~*(40) */
20887 { reserved_block
, 0 , 0 , 32,
20888 0xfc00ffff, 0xc000533c, 0 , 0,
20889 0x0 }, /* POOL32Sxf_4~*(41) */
20890 { reserved_block
, 0 , 0 , 32,
20891 0xfc00ffff, 0xc000553c, 0 , 0,
20892 0x0 }, /* POOL32Sxf_4~*(42) */
20893 { reserved_block
, 0 , 0 , 32,
20894 0xfc00ffff, 0xc000573c, 0 , 0,
20895 0x0 }, /* POOL32Sxf_4~*(43) */
20896 { reserved_block
, 0 , 0 , 32,
20897 0xfc00ffff, 0xc000593c, 0 , 0,
20898 0x0 }, /* POOL32Sxf_4~*(44) */
20899 { instruction
, 0 , 0 , 32,
20900 0xfc00ffff, 0xc0005b3c, &NMD::DCLZ
, 0,
20901 MIPS64_
}, /* DCLZ */
20902 { reserved_block
, 0 , 0 , 32,
20903 0xfc00ffff, 0xc0005d3c, 0 , 0,
20904 0x0 }, /* POOL32Sxf_4~*(46) */
20905 { reserved_block
, 0 , 0 , 32,
20906 0xfc00ffff, 0xc0005f3c, 0 , 0,
20907 0x0 }, /* POOL32Sxf_4~*(47) */
20908 { reserved_block
, 0 , 0 , 32,
20909 0xfc00ffff, 0xc000613c, 0 , 0,
20910 0x0 }, /* POOL32Sxf_4~*(48) */
20911 { reserved_block
, 0 , 0 , 32,
20912 0xfc00ffff, 0xc000633c, 0 , 0,
20913 0x0 }, /* POOL32Sxf_4~*(49) */
20914 { reserved_block
, 0 , 0 , 32,
20915 0xfc00ffff, 0xc000653c, 0 , 0,
20916 0x0 }, /* POOL32Sxf_4~*(50) */
20917 { reserved_block
, 0 , 0 , 32,
20918 0xfc00ffff, 0xc000673c, 0 , 0,
20919 0x0 }, /* POOL32Sxf_4~*(51) */
20920 { reserved_block
, 0 , 0 , 32,
20921 0xfc00ffff, 0xc000693c, 0 , 0,
20922 0x0 }, /* POOL32Sxf_4~*(52) */
20923 { reserved_block
, 0 , 0 , 32,
20924 0xfc00ffff, 0xc0006b3c, 0 , 0,
20925 0x0 }, /* POOL32Sxf_4~*(53) */
20926 { reserved_block
, 0 , 0 , 32,
20927 0xfc00ffff, 0xc0006d3c, 0 , 0,
20928 0x0 }, /* POOL32Sxf_4~*(54) */
20929 { reserved_block
, 0 , 0 , 32,
20930 0xfc00ffff, 0xc0006f3c, 0 , 0,
20931 0x0 }, /* POOL32Sxf_4~*(55) */
20932 { reserved_block
, 0 , 0 , 32,
20933 0xfc00ffff, 0xc000713c, 0 , 0,
20934 0x0 }, /* POOL32Sxf_4~*(56) */
20935 { reserved_block
, 0 , 0 , 32,
20936 0xfc00ffff, 0xc000733c, 0 , 0,
20937 0x0 }, /* POOL32Sxf_4~*(57) */
20938 { reserved_block
, 0 , 0 , 32,
20939 0xfc00ffff, 0xc000753c, 0 , 0,
20940 0x0 }, /* POOL32Sxf_4~*(58) */
20941 { reserved_block
, 0 , 0 , 32,
20942 0xfc00ffff, 0xc000773c, 0 , 0,
20943 0x0 }, /* POOL32Sxf_4~*(59) */
20944 { reserved_block
, 0 , 0 , 32,
20945 0xfc00ffff, 0xc000793c, 0 , 0,
20946 0x0 }, /* POOL32Sxf_4~*(60) */
20947 { reserved_block
, 0 , 0 , 32,
20948 0xfc00ffff, 0xc0007b3c, 0 , 0,
20949 0x0 }, /* POOL32Sxf_4~*(61) */
20950 { reserved_block
, 0 , 0 , 32,
20951 0xfc00ffff, 0xc0007d3c, 0 , 0,
20952 0x0 }, /* POOL32Sxf_4~*(62) */
20953 { reserved_block
, 0 , 0 , 32,
20954 0xfc00ffff, 0xc0007f3c, 0 , 0,
20955 0x0 }, /* POOL32Sxf_4~*(63) */
20956 { reserved_block
, 0 , 0 , 32,
20957 0xfc00ffff, 0xc000813c, 0 , 0,
20958 0x0 }, /* POOL32Sxf_4~*(64) */
20959 { reserved_block
, 0 , 0 , 32,
20960 0xfc00ffff, 0xc000833c, 0 , 0,
20961 0x0 }, /* POOL32Sxf_4~*(65) */
20962 { reserved_block
, 0 , 0 , 32,
20963 0xfc00ffff, 0xc000853c, 0 , 0,
20964 0x0 }, /* POOL32Sxf_4~*(66) */
20965 { reserved_block
, 0 , 0 , 32,
20966 0xfc00ffff, 0xc000873c, 0 , 0,
20967 0x0 }, /* POOL32Sxf_4~*(67) */
20968 { reserved_block
, 0 , 0 , 32,
20969 0xfc00ffff, 0xc000893c, 0 , 0,
20970 0x0 }, /* POOL32Sxf_4~*(68) */
20971 { reserved_block
, 0 , 0 , 32,
20972 0xfc00ffff, 0xc0008b3c, 0 , 0,
20973 0x0 }, /* POOL32Sxf_4~*(69) */
20974 { reserved_block
, 0 , 0 , 32,
20975 0xfc00ffff, 0xc0008d3c, 0 , 0,
20976 0x0 }, /* POOL32Sxf_4~*(70) */
20977 { reserved_block
, 0 , 0 , 32,
20978 0xfc00ffff, 0xc0008f3c, 0 , 0,
20979 0x0 }, /* POOL32Sxf_4~*(71) */
20980 { reserved_block
, 0 , 0 , 32,
20981 0xfc00ffff, 0xc000913c, 0 , 0,
20982 0x0 }, /* POOL32Sxf_4~*(72) */
20983 { reserved_block
, 0 , 0 , 32,
20984 0xfc00ffff, 0xc000933c, 0 , 0,
20985 0x0 }, /* POOL32Sxf_4~*(73) */
20986 { reserved_block
, 0 , 0 , 32,
20987 0xfc00ffff, 0xc000953c, 0 , 0,
20988 0x0 }, /* POOL32Sxf_4~*(74) */
20989 { reserved_block
, 0 , 0 , 32,
20990 0xfc00ffff, 0xc000973c, 0 , 0,
20991 0x0 }, /* POOL32Sxf_4~*(75) */
20992 { reserved_block
, 0 , 0 , 32,
20993 0xfc00ffff, 0xc000993c, 0 , 0,
20994 0x0 }, /* POOL32Sxf_4~*(76) */
20995 { reserved_block
, 0 , 0 , 32,
20996 0xfc00ffff, 0xc0009b3c, 0 , 0,
20997 0x0 }, /* POOL32Sxf_4~*(77) */
20998 { reserved_block
, 0 , 0 , 32,
20999 0xfc00ffff, 0xc0009d3c, 0 , 0,
21000 0x0 }, /* POOL32Sxf_4~*(78) */
21001 { reserved_block
, 0 , 0 , 32,
21002 0xfc00ffff, 0xc0009f3c, 0 , 0,
21003 0x0 }, /* POOL32Sxf_4~*(79) */
21004 { reserved_block
, 0 , 0 , 32,
21005 0xfc00ffff, 0xc000a13c, 0 , 0,
21006 0x0 }, /* POOL32Sxf_4~*(80) */
21007 { reserved_block
, 0 , 0 , 32,
21008 0xfc00ffff, 0xc000a33c, 0 , 0,
21009 0x0 }, /* POOL32Sxf_4~*(81) */
21010 { reserved_block
, 0 , 0 , 32,
21011 0xfc00ffff, 0xc000a53c, 0 , 0,
21012 0x0 }, /* POOL32Sxf_4~*(82) */
21013 { reserved_block
, 0 , 0 , 32,
21014 0xfc00ffff, 0xc000a73c, 0 , 0,
21015 0x0 }, /* POOL32Sxf_4~*(83) */
21016 { reserved_block
, 0 , 0 , 32,
21017 0xfc00ffff, 0xc000a93c, 0 , 0,
21018 0x0 }, /* POOL32Sxf_4~*(84) */
21019 { reserved_block
, 0 , 0 , 32,
21020 0xfc00ffff, 0xc000ab3c, 0 , 0,
21021 0x0 }, /* POOL32Sxf_4~*(85) */
21022 { reserved_block
, 0 , 0 , 32,
21023 0xfc00ffff, 0xc000ad3c, 0 , 0,
21024 0x0 }, /* POOL32Sxf_4~*(86) */
21025 { reserved_block
, 0 , 0 , 32,
21026 0xfc00ffff, 0xc000af3c, 0 , 0,
21027 0x0 }, /* POOL32Sxf_4~*(87) */
21028 { reserved_block
, 0 , 0 , 32,
21029 0xfc00ffff, 0xc000b13c, 0 , 0,
21030 0x0 }, /* POOL32Sxf_4~*(88) */
21031 { reserved_block
, 0 , 0 , 32,
21032 0xfc00ffff, 0xc000b33c, 0 , 0,
21033 0x0 }, /* POOL32Sxf_4~*(89) */
21034 { reserved_block
, 0 , 0 , 32,
21035 0xfc00ffff, 0xc000b53c, 0 , 0,
21036 0x0 }, /* POOL32Sxf_4~*(90) */
21037 { reserved_block
, 0 , 0 , 32,
21038 0xfc00ffff, 0xc000b73c, 0 , 0,
21039 0x0 }, /* POOL32Sxf_4~*(91) */
21040 { reserved_block
, 0 , 0 , 32,
21041 0xfc00ffff, 0xc000b93c, 0 , 0,
21042 0x0 }, /* POOL32Sxf_4~*(92) */
21043 { reserved_block
, 0 , 0 , 32,
21044 0xfc00ffff, 0xc000bb3c, 0 , 0,
21045 0x0 }, /* POOL32Sxf_4~*(93) */
21046 { reserved_block
, 0 , 0 , 32,
21047 0xfc00ffff, 0xc000bd3c, 0 , 0,
21048 0x0 }, /* POOL32Sxf_4~*(94) */
21049 { reserved_block
, 0 , 0 , 32,
21050 0xfc00ffff, 0xc000bf3c, 0 , 0,
21051 0x0 }, /* POOL32Sxf_4~*(95) */
21052 { reserved_block
, 0 , 0 , 32,
21053 0xfc00ffff, 0xc000c13c, 0 , 0,
21054 0x0 }, /* POOL32Sxf_4~*(96) */
21055 { reserved_block
, 0 , 0 , 32,
21056 0xfc00ffff, 0xc000c33c, 0 , 0,
21057 0x0 }, /* POOL32Sxf_4~*(97) */
21058 { reserved_block
, 0 , 0 , 32,
21059 0xfc00ffff, 0xc000c53c, 0 , 0,
21060 0x0 }, /* POOL32Sxf_4~*(98) */
21061 { reserved_block
, 0 , 0 , 32,
21062 0xfc00ffff, 0xc000c73c, 0 , 0,
21063 0x0 }, /* POOL32Sxf_4~*(99) */
21064 { reserved_block
, 0 , 0 , 32,
21065 0xfc00ffff, 0xc000c93c, 0 , 0,
21066 0x0 }, /* POOL32Sxf_4~*(100) */
21067 { reserved_block
, 0 , 0 , 32,
21068 0xfc00ffff, 0xc000cb3c, 0 , 0,
21069 0x0 }, /* POOL32Sxf_4~*(101) */
21070 { reserved_block
, 0 , 0 , 32,
21071 0xfc00ffff, 0xc000cd3c, 0 , 0,
21072 0x0 }, /* POOL32Sxf_4~*(102) */
21073 { reserved_block
, 0 , 0 , 32,
21074 0xfc00ffff, 0xc000cf3c, 0 , 0,
21075 0x0 }, /* POOL32Sxf_4~*(103) */
21076 { reserved_block
, 0 , 0 , 32,
21077 0xfc00ffff, 0xc000d13c, 0 , 0,
21078 0x0 }, /* POOL32Sxf_4~*(104) */
21079 { reserved_block
, 0 , 0 , 32,
21080 0xfc00ffff, 0xc000d33c, 0 , 0,
21081 0x0 }, /* POOL32Sxf_4~*(105) */
21082 { reserved_block
, 0 , 0 , 32,
21083 0xfc00ffff, 0xc000d53c, 0 , 0,
21084 0x0 }, /* POOL32Sxf_4~*(106) */
21085 { reserved_block
, 0 , 0 , 32,
21086 0xfc00ffff, 0xc000d73c, 0 , 0,
21087 0x0 }, /* POOL32Sxf_4~*(107) */
21088 { reserved_block
, 0 , 0 , 32,
21089 0xfc00ffff, 0xc000d93c, 0 , 0,
21090 0x0 }, /* POOL32Sxf_4~*(108) */
21091 { reserved_block
, 0 , 0 , 32,
21092 0xfc00ffff, 0xc000db3c, 0 , 0,
21093 0x0 }, /* POOL32Sxf_4~*(109) */
21094 { reserved_block
, 0 , 0 , 32,
21095 0xfc00ffff, 0xc000dd3c, 0 , 0,
21096 0x0 }, /* POOL32Sxf_4~*(110) */
21097 { reserved_block
, 0 , 0 , 32,
21098 0xfc00ffff, 0xc000df3c, 0 , 0,
21099 0x0 }, /* POOL32Sxf_4~*(111) */
21100 { reserved_block
, 0 , 0 , 32,
21101 0xfc00ffff, 0xc000e13c, 0 , 0,
21102 0x0 }, /* POOL32Sxf_4~*(112) */
21103 { reserved_block
, 0 , 0 , 32,
21104 0xfc00ffff, 0xc000e33c, 0 , 0,
21105 0x0 }, /* POOL32Sxf_4~*(113) */
21106 { reserved_block
, 0 , 0 , 32,
21107 0xfc00ffff, 0xc000e53c, 0 , 0,
21108 0x0 }, /* POOL32Sxf_4~*(114) */
21109 { reserved_block
, 0 , 0 , 32,
21110 0xfc00ffff, 0xc000e73c, 0 , 0,
21111 0x0 }, /* POOL32Sxf_4~*(115) */
21112 { reserved_block
, 0 , 0 , 32,
21113 0xfc00ffff, 0xc000e93c, 0 , 0,
21114 0x0 }, /* POOL32Sxf_4~*(116) */
21115 { reserved_block
, 0 , 0 , 32,
21116 0xfc00ffff, 0xc000eb3c, 0 , 0,
21117 0x0 }, /* POOL32Sxf_4~*(117) */
21118 { reserved_block
, 0 , 0 , 32,
21119 0xfc00ffff, 0xc000ed3c, 0 , 0,
21120 0x0 }, /* POOL32Sxf_4~*(118) */
21121 { reserved_block
, 0 , 0 , 32,
21122 0xfc00ffff, 0xc000ef3c, 0 , 0,
21123 0x0 }, /* POOL32Sxf_4~*(119) */
21124 { reserved_block
, 0 , 0 , 32,
21125 0xfc00ffff, 0xc000f13c, 0 , 0,
21126 0x0 }, /* POOL32Sxf_4~*(120) */
21127 { reserved_block
, 0 , 0 , 32,
21128 0xfc00ffff, 0xc000f33c, 0 , 0,
21129 0x0 }, /* POOL32Sxf_4~*(121) */
21130 { reserved_block
, 0 , 0 , 32,
21131 0xfc00ffff, 0xc000f53c, 0 , 0,
21132 0x0 }, /* POOL32Sxf_4~*(122) */
21133 { reserved_block
, 0 , 0 , 32,
21134 0xfc00ffff, 0xc000f73c, 0 , 0,
21135 0x0 }, /* POOL32Sxf_4~*(123) */
21136 { reserved_block
, 0 , 0 , 32,
21137 0xfc00ffff, 0xc000f93c, 0 , 0,
21138 0x0 }, /* POOL32Sxf_4~*(124) */
21139 { reserved_block
, 0 , 0 , 32,
21140 0xfc00ffff, 0xc000fb3c, 0 , 0,
21141 0x0 }, /* POOL32Sxf_4~*(125) */
21142 { reserved_block
, 0 , 0 , 32,
21143 0xfc00ffff, 0xc000fd3c, 0 , 0,
21144 0x0 }, /* POOL32Sxf_4~*(126) */
21145 { reserved_block
, 0 , 0 , 32,
21146 0xfc00ffff, 0xc000ff3c, 0 , 0,
21147 0x0 }, /* POOL32Sxf_4~*(127) */
21151 NMD::Pool
NMD::POOL32Sxf
[8] = {
21152 { reserved_block
, 0 , 0 , 32,
21153 0xfc0001ff, 0xc000003c, 0 , 0,
21154 0x0 }, /* POOL32Sxf~*(0) */
21155 { reserved_block
, 0 , 0 , 32,
21156 0xfc0001ff, 0xc000007c, 0 , 0,
21157 0x0 }, /* POOL32Sxf~*(1) */
21158 { reserved_block
, 0 , 0 , 32,
21159 0xfc0001ff, 0xc00000bc, 0 , 0,
21160 0x0 }, /* POOL32Sxf~*(2) */
21161 { reserved_block
, 0 , 0 , 32,
21162 0xfc0001ff, 0xc00000fc, 0 , 0,
21163 0x0 }, /* POOL32Sxf~*(3) */
21164 { pool
, POOL32Sxf_4
, 128 , 32,
21165 0xfc0001ff, 0xc000013c, 0 , 0,
21166 0x0 }, /* POOL32Sxf_4 */
21167 { reserved_block
, 0 , 0 , 32,
21168 0xfc0001ff, 0xc000017c, 0 , 0,
21169 0x0 }, /* POOL32Sxf~*(5) */
21170 { reserved_block
, 0 , 0 , 32,
21171 0xfc0001ff, 0xc00001bc, 0 , 0,
21172 0x0 }, /* POOL32Sxf~*(6) */
21173 { reserved_block
, 0 , 0 , 32,
21174 0xfc0001ff, 0xc00001fc, 0 , 0,
21175 0x0 }, /* POOL32Sxf~*(7) */
21179 NMD::Pool
NMD::POOL32S_4
[8] = {
21180 { instruction
, 0 , 0 , 32,
21181 0xfc00003f, 0xc0000004, &NMD::EXTD
, 0,
21182 MIPS64_
}, /* EXTD */
21183 { instruction
, 0 , 0 , 32,
21184 0xfc00003f, 0xc000000c, &NMD::EXTD32
, 0,
21185 MIPS64_
}, /* EXTD32 */
21186 { reserved_block
, 0 , 0 , 32,
21187 0xfc00003f, 0xc0000014, 0 , 0,
21188 0x0 }, /* POOL32S_4~*(2) */
21189 { reserved_block
, 0 , 0 , 32,
21190 0xfc00003f, 0xc000001c, 0 , 0,
21191 0x0 }, /* POOL32S_4~*(3) */
21192 { reserved_block
, 0 , 0 , 32,
21193 0xfc00003f, 0xc0000024, 0 , 0,
21194 0x0 }, /* POOL32S_4~*(4) */
21195 { reserved_block
, 0 , 0 , 32,
21196 0xfc00003f, 0xc000002c, 0 , 0,
21197 0x0 }, /* POOL32S_4~*(5) */
21198 { reserved_block
, 0 , 0 , 32,
21199 0xfc00003f, 0xc0000034, 0 , 0,
21200 0x0 }, /* POOL32S_4~*(6) */
21201 { pool
, POOL32Sxf
, 8 , 32,
21202 0xfc00003f, 0xc000003c, 0 , 0,
21203 0x0 }, /* POOL32Sxf */
21207 NMD::Pool
NMD::POOL32S
[8] = {
21208 { pool
, POOL32S_0
, 64 , 32,
21209 0xfc000007, 0xc0000000, 0 , 0,
21210 0x0 }, /* POOL32S_0 */
21211 { reserved_block
, 0 , 0 , 32,
21212 0xfc000007, 0xc0000001, 0 , 0,
21213 0x0 }, /* POOL32S~*(1) */
21214 { reserved_block
, 0 , 0 , 32,
21215 0xfc000007, 0xc0000002, 0 , 0,
21216 0x0 }, /* POOL32S~*(2) */
21217 { reserved_block
, 0 , 0 , 32,
21218 0xfc000007, 0xc0000003, 0 , 0,
21219 0x0 }, /* POOL32S~*(3) */
21220 { pool
, POOL32S_4
, 8 , 32,
21221 0xfc000007, 0xc0000004, 0 , 0,
21222 0x0 }, /* POOL32S_4 */
21223 { reserved_block
, 0 , 0 , 32,
21224 0xfc000007, 0xc0000005, 0 , 0,
21225 0x0 }, /* POOL32S~*(5) */
21226 { reserved_block
, 0 , 0 , 32,
21227 0xfc000007, 0xc0000006, 0 , 0,
21228 0x0 }, /* POOL32S~*(6) */
21229 { reserved_block
, 0 , 0 , 32,
21230 0xfc000007, 0xc0000007, 0 , 0,
21231 0x0 }, /* POOL32S~*(7) */
21235 NMD::Pool
NMD::P_LUI
[2] = {
21236 { instruction
, 0 , 0 , 32,
21237 0xfc000002, 0xe0000000, &NMD::LUI
, 0,
21239 { instruction
, 0 , 0 , 32,
21240 0xfc000002, 0xe0000002, &NMD::ALUIPC
, 0,
21241 0x0 }, /* ALUIPC */
21245 NMD::Pool
NMD::P_GP_LH
[2] = {
21246 { instruction
, 0 , 0 , 32,
21247 0xfc1c0001, 0x44100000, &NMD::LH_GP_
, 0,
21248 0x0 }, /* LH[GP] */
21249 { instruction
, 0 , 0 , 32,
21250 0xfc1c0001, 0x44100001, &NMD::LHU_GP_
, 0,
21251 0x0 }, /* LHU[GP] */
21255 NMD::Pool
NMD::P_GP_SH
[2] = {
21256 { instruction
, 0 , 0 , 32,
21257 0xfc1c0001, 0x44140000, &NMD::SH_GP_
, 0,
21258 0x0 }, /* SH[GP] */
21259 { reserved_block
, 0 , 0 , 32,
21260 0xfc1c0001, 0x44140001, 0 , 0,
21261 0x0 }, /* P.GP.SH~*(1) */
21265 NMD::Pool
NMD::P_GP_CP1
[4] = {
21266 { instruction
, 0 , 0 , 32,
21267 0xfc1c0003, 0x44180000, &NMD::LWC1_GP_
, 0,
21268 CP1_
}, /* LWC1[GP] */
21269 { instruction
, 0 , 0 , 32,
21270 0xfc1c0003, 0x44180001, &NMD::SWC1_GP_
, 0,
21271 CP1_
}, /* SWC1[GP] */
21272 { instruction
, 0 , 0 , 32,
21273 0xfc1c0003, 0x44180002, &NMD::LDC1_GP_
, 0,
21274 CP1_
}, /* LDC1[GP] */
21275 { instruction
, 0 , 0 , 32,
21276 0xfc1c0003, 0x44180003, &NMD::SDC1_GP_
, 0,
21277 CP1_
}, /* SDC1[GP] */
21281 NMD::Pool
NMD::P_GP_M64
[4] = {
21282 { instruction
, 0 , 0 , 32,
21283 0xfc1c0003, 0x441c0000, &NMD::LWU_GP_
, 0,
21284 MIPS64_
}, /* LWU[GP] */
21285 { reserved_block
, 0 , 0 , 32,
21286 0xfc1c0003, 0x441c0001, 0 , 0,
21287 0x0 }, /* P.GP.M64~*(1) */
21288 { reserved_block
, 0 , 0 , 32,
21289 0xfc1c0003, 0x441c0002, 0 , 0,
21290 0x0 }, /* P.GP.M64~*(2) */
21291 { reserved_block
, 0 , 0 , 32,
21292 0xfc1c0003, 0x441c0003, 0 , 0,
21293 0x0 }, /* P.GP.M64~*(3) */
21297 NMD::Pool
NMD::P_GP_BH
[8] = {
21298 { instruction
, 0 , 0 , 32,
21299 0xfc1c0000, 0x44000000, &NMD::LB_GP_
, 0,
21300 0x0 }, /* LB[GP] */
21301 { instruction
, 0 , 0 , 32,
21302 0xfc1c0000, 0x44040000, &NMD::SB_GP_
, 0,
21303 0x0 }, /* SB[GP] */
21304 { instruction
, 0 , 0 , 32,
21305 0xfc1c0000, 0x44080000, &NMD::LBU_GP_
, 0,
21306 0x0 }, /* LBU[GP] */
21307 { instruction
, 0 , 0 , 32,
21308 0xfc1c0000, 0x440c0000, &NMD::ADDIU_GP_B_
, 0,
21309 0x0 }, /* ADDIU[GP.B] */
21310 { pool
, P_GP_LH
, 2 , 32,
21311 0xfc1c0000, 0x44100000, 0 , 0,
21312 0x0 }, /* P.GP.LH */
21313 { pool
, P_GP_SH
, 2 , 32,
21314 0xfc1c0000, 0x44140000, 0 , 0,
21315 0x0 }, /* P.GP.SH */
21316 { pool
, P_GP_CP1
, 4 , 32,
21317 0xfc1c0000, 0x44180000, 0 , 0,
21318 0x0 }, /* P.GP.CP1 */
21319 { pool
, P_GP_M64
, 4 , 32,
21320 0xfc1c0000, 0x441c0000, 0 , 0,
21321 0x0 }, /* P.GP.M64 */
21325 NMD::Pool
NMD::P_LS_U12
[16] = {
21326 { instruction
, 0 , 0 , 32,
21327 0xfc00f000, 0x84000000, &NMD::LB_U12_
, 0,
21328 0x0 }, /* LB[U12] */
21329 { instruction
, 0 , 0 , 32,
21330 0xfc00f000, 0x84001000, &NMD::SB_U12_
, 0,
21331 0x0 }, /* SB[U12] */
21332 { instruction
, 0 , 0 , 32,
21333 0xfc00f000, 0x84002000, &NMD::LBU_U12_
, 0,
21334 0x0 }, /* LBU[U12] */
21335 { instruction
, 0 , 0 , 32,
21336 0xfc00f000, 0x84003000, &NMD::PREF_U12_
, 0,
21337 0x0 }, /* PREF[U12] */
21338 { instruction
, 0 , 0 , 32,
21339 0xfc00f000, 0x84004000, &NMD::LH_U12_
, 0,
21340 0x0 }, /* LH[U12] */
21341 { instruction
, 0 , 0 , 32,
21342 0xfc00f000, 0x84005000, &NMD::SH_U12_
, 0,
21343 0x0 }, /* SH[U12] */
21344 { instruction
, 0 , 0 , 32,
21345 0xfc00f000, 0x84006000, &NMD::LHU_U12_
, 0,
21346 0x0 }, /* LHU[U12] */
21347 { instruction
, 0 , 0 , 32,
21348 0xfc00f000, 0x84007000, &NMD::LWU_U12_
, 0,
21349 MIPS64_
}, /* LWU[U12] */
21350 { instruction
, 0 , 0 , 32,
21351 0xfc00f000, 0x84008000, &NMD::LW_U12_
, 0,
21352 0x0 }, /* LW[U12] */
21353 { instruction
, 0 , 0 , 32,
21354 0xfc00f000, 0x84009000, &NMD::SW_U12_
, 0,
21355 0x0 }, /* SW[U12] */
21356 { instruction
, 0 , 0 , 32,
21357 0xfc00f000, 0x8400a000, &NMD::LWC1_U12_
, 0,
21358 CP1_
}, /* LWC1[U12] */
21359 { instruction
, 0 , 0 , 32,
21360 0xfc00f000, 0x8400b000, &NMD::SWC1_U12_
, 0,
21361 CP1_
}, /* SWC1[U12] */
21362 { instruction
, 0 , 0 , 32,
21363 0xfc00f000, 0x8400c000, &NMD::LD_U12_
, 0,
21364 MIPS64_
}, /* LD[U12] */
21365 { instruction
, 0 , 0 , 32,
21366 0xfc00f000, 0x8400d000, &NMD::SD_U12_
, 0,
21367 MIPS64_
}, /* SD[U12] */
21368 { instruction
, 0 , 0 , 32,
21369 0xfc00f000, 0x8400e000, &NMD::LDC1_U12_
, 0,
21370 CP1_
}, /* LDC1[U12] */
21371 { instruction
, 0 , 0 , 32,
21372 0xfc00f000, 0x8400f000, &NMD::SDC1_U12_
, 0,
21373 CP1_
}, /* SDC1[U12] */
21377 NMD::Pool
NMD::P_PREF_S9_
[2] = {
21378 { instruction
, 0 , 0 , 32,
21379 0xffe07f00, 0xa7e01800, &NMD::SYNCI
, 0,
21381 { instruction
, 0 , 0 , 32,
21382 0xfc007f00, 0xa4001800, &NMD::PREF_S9_
, &NMD::PREF_S9__cond
,
21383 0x0 }, /* PREF[S9] */
21387 NMD::Pool
NMD::P_LS_S0
[16] = {
21388 { instruction
, 0 , 0 , 32,
21389 0xfc007f00, 0xa4000000, &NMD::LB_S9_
, 0,
21390 0x0 }, /* LB[S9] */
21391 { instruction
, 0 , 0 , 32,
21392 0xfc007f00, 0xa4000800, &NMD::SB_S9_
, 0,
21393 0x0 }, /* SB[S9] */
21394 { instruction
, 0 , 0 , 32,
21395 0xfc007f00, 0xa4001000, &NMD::LBU_S9_
, 0,
21396 0x0 }, /* LBU[S9] */
21397 { pool
, P_PREF_S9_
, 2 , 32,
21398 0xfc007f00, 0xa4001800, 0 , 0,
21399 0x0 }, /* P.PREF[S9] */
21400 { instruction
, 0 , 0 , 32,
21401 0xfc007f00, 0xa4002000, &NMD::LH_S9_
, 0,
21402 0x0 }, /* LH[S9] */
21403 { instruction
, 0 , 0 , 32,
21404 0xfc007f00, 0xa4002800, &NMD::SH_S9_
, 0,
21405 0x0 }, /* SH[S9] */
21406 { instruction
, 0 , 0 , 32,
21407 0xfc007f00, 0xa4003000, &NMD::LHU_S9_
, 0,
21408 0x0 }, /* LHU[S9] */
21409 { instruction
, 0 , 0 , 32,
21410 0xfc007f00, 0xa4003800, &NMD::LWU_S9_
, 0,
21411 MIPS64_
}, /* LWU[S9] */
21412 { instruction
, 0 , 0 , 32,
21413 0xfc007f00, 0xa4004000, &NMD::LW_S9_
, 0,
21414 0x0 }, /* LW[S9] */
21415 { instruction
, 0 , 0 , 32,
21416 0xfc007f00, 0xa4004800, &NMD::SW_S9_
, 0,
21417 0x0 }, /* SW[S9] */
21418 { instruction
, 0 , 0 , 32,
21419 0xfc007f00, 0xa4005000, &NMD::LWC1_S9_
, 0,
21420 CP1_
}, /* LWC1[S9] */
21421 { instruction
, 0 , 0 , 32,
21422 0xfc007f00, 0xa4005800, &NMD::SWC1_S9_
, 0,
21423 CP1_
}, /* SWC1[S9] */
21424 { instruction
, 0 , 0 , 32,
21425 0xfc007f00, 0xa4006000, &NMD::LD_S9_
, 0,
21426 MIPS64_
}, /* LD[S9] */
21427 { instruction
, 0 , 0 , 32,
21428 0xfc007f00, 0xa4006800, &NMD::SD_S9_
, 0,
21429 MIPS64_
}, /* SD[S9] */
21430 { instruction
, 0 , 0 , 32,
21431 0xfc007f00, 0xa4007000, &NMD::LDC1_S9_
, 0,
21432 CP1_
}, /* LDC1[S9] */
21433 { instruction
, 0 , 0 , 32,
21434 0xfc007f00, 0xa4007800, &NMD::SDC1_S9_
, 0,
21435 CP1_
}, /* SDC1[S9] */
21439 NMD::Pool
NMD::ASET_ACLR
[2] = {
21440 { instruction
, 0 , 0 , 32,
21441 0xfe007f00, 0xa4001100, &NMD::ASET
, 0,
21443 { instruction
, 0 , 0 , 32,
21444 0xfe007f00, 0xa6001100, &NMD::ACLR
, 0,
21449 NMD::Pool
NMD::P_LL
[4] = {
21450 { instruction
, 0 , 0 , 32,
21451 0xfc007f03, 0xa4005100, &NMD::LL
, 0,
21453 { instruction
, 0 , 0 , 32,
21454 0xfc007f03, 0xa4005101, &NMD::LLWP
, 0,
21456 { reserved_block
, 0 , 0 , 32,
21457 0xfc007f03, 0xa4005102, 0 , 0,
21458 0x0 }, /* P.LL~*(2) */
21459 { reserved_block
, 0 , 0 , 32,
21460 0xfc007f03, 0xa4005103, 0 , 0,
21461 0x0 }, /* P.LL~*(3) */
21465 NMD::Pool
NMD::P_SC
[4] = {
21466 { instruction
, 0 , 0 , 32,
21467 0xfc007f03, 0xa4005900, &NMD::SC
, 0,
21469 { instruction
, 0 , 0 , 32,
21470 0xfc007f03, 0xa4005901, &NMD::SCWP
, 0,
21472 { reserved_block
, 0 , 0 , 32,
21473 0xfc007f03, 0xa4005902, 0 , 0,
21474 0x0 }, /* P.SC~*(2) */
21475 { reserved_block
, 0 , 0 , 32,
21476 0xfc007f03, 0xa4005903, 0 , 0,
21477 0x0 }, /* P.SC~*(3) */
21481 NMD::Pool
NMD::P_LLD
[8] = {
21482 { instruction
, 0 , 0 , 32,
21483 0xfc007f07, 0xa4007100, &NMD::LLD
, 0,
21484 MIPS64_
}, /* LLD */
21485 { instruction
, 0 , 0 , 32,
21486 0xfc007f07, 0xa4007101, &NMD::LLDP
, 0,
21487 MIPS64_
}, /* LLDP */
21488 { reserved_block
, 0 , 0 , 32,
21489 0xfc007f07, 0xa4007102, 0 , 0,
21490 0x0 }, /* P.LLD~*(2) */
21491 { reserved_block
, 0 , 0 , 32,
21492 0xfc007f07, 0xa4007103, 0 , 0,
21493 0x0 }, /* P.LLD~*(3) */
21494 { reserved_block
, 0 , 0 , 32,
21495 0xfc007f07, 0xa4007104, 0 , 0,
21496 0x0 }, /* P.LLD~*(4) */
21497 { reserved_block
, 0 , 0 , 32,
21498 0xfc007f07, 0xa4007105, 0 , 0,
21499 0x0 }, /* P.LLD~*(5) */
21500 { reserved_block
, 0 , 0 , 32,
21501 0xfc007f07, 0xa4007106, 0 , 0,
21502 0x0 }, /* P.LLD~*(6) */
21503 { reserved_block
, 0 , 0 , 32,
21504 0xfc007f07, 0xa4007107, 0 , 0,
21505 0x0 }, /* P.LLD~*(7) */
21509 NMD::Pool
NMD::P_SCD
[8] = {
21510 { instruction
, 0 , 0 , 32,
21511 0xfc007f07, 0xa4007900, &NMD::SCD
, 0,
21512 MIPS64_
}, /* SCD */
21513 { instruction
, 0 , 0 , 32,
21514 0xfc007f07, 0xa4007901, &NMD::SCDP
, 0,
21515 MIPS64_
}, /* SCDP */
21516 { reserved_block
, 0 , 0 , 32,
21517 0xfc007f07, 0xa4007902, 0 , 0,
21518 0x0 }, /* P.SCD~*(2) */
21519 { reserved_block
, 0 , 0 , 32,
21520 0xfc007f07, 0xa4007903, 0 , 0,
21521 0x0 }, /* P.SCD~*(3) */
21522 { reserved_block
, 0 , 0 , 32,
21523 0xfc007f07, 0xa4007904, 0 , 0,
21524 0x0 }, /* P.SCD~*(4) */
21525 { reserved_block
, 0 , 0 , 32,
21526 0xfc007f07, 0xa4007905, 0 , 0,
21527 0x0 }, /* P.SCD~*(5) */
21528 { reserved_block
, 0 , 0 , 32,
21529 0xfc007f07, 0xa4007906, 0 , 0,
21530 0x0 }, /* P.SCD~*(6) */
21531 { reserved_block
, 0 , 0 , 32,
21532 0xfc007f07, 0xa4007907, 0 , 0,
21533 0x0 }, /* P.SCD~*(7) */
21537 NMD::Pool
NMD::P_LS_S1
[16] = {
21538 { reserved_block
, 0 , 0 , 32,
21539 0xfc007f00, 0xa4000100, 0 , 0,
21540 0x0 }, /* P.LS.S1~*(0) */
21541 { reserved_block
, 0 , 0 , 32,
21542 0xfc007f00, 0xa4000900, 0 , 0,
21543 0x0 }, /* P.LS.S1~*(1) */
21544 { pool
, ASET_ACLR
, 2 , 32,
21545 0xfc007f00, 0xa4001100, 0 , 0,
21546 0x0 }, /* ASET_ACLR */
21547 { reserved_block
, 0 , 0 , 32,
21548 0xfc007f00, 0xa4001900, 0 , 0,
21549 0x0 }, /* P.LS.S1~*(3) */
21550 { instruction
, 0 , 0 , 32,
21551 0xfc007f00, 0xa4002100, &NMD::UALH
, 0,
21552 XMMS_
}, /* UALH */
21553 { instruction
, 0 , 0 , 32,
21554 0xfc007f00, 0xa4002900, &NMD::UASH
, 0,
21555 XMMS_
}, /* UASH */
21556 { reserved_block
, 0 , 0 , 32,
21557 0xfc007f00, 0xa4003100, 0 , 0,
21558 0x0 }, /* P.LS.S1~*(6) */
21559 { instruction
, 0 , 0 , 32,
21560 0xfc007f00, 0xa4003900, &NMD::CACHE
, 0,
21561 CP0_
}, /* CACHE */
21562 { instruction
, 0 , 0 , 32,
21563 0xfc007f00, 0xa4004100, &NMD::LWC2
, 0,
21565 { instruction
, 0 , 0 , 32,
21566 0xfc007f00, 0xa4004900, &NMD::SWC2
, 0,
21568 { pool
, P_LL
, 4 , 32,
21569 0xfc007f00, 0xa4005100, 0 , 0,
21571 { pool
, P_SC
, 4 , 32,
21572 0xfc007f00, 0xa4005900, 0 , 0,
21574 { instruction
, 0 , 0 , 32,
21575 0xfc007f00, 0xa4006100, &NMD::LDC2
, 0,
21577 { instruction
, 0 , 0 , 32,
21578 0xfc007f00, 0xa4006900, &NMD::SDC2
, 0,
21580 { pool
, P_LLD
, 8 , 32,
21581 0xfc007f00, 0xa4007100, 0 , 0,
21583 { pool
, P_SCD
, 8 , 32,
21584 0xfc007f00, 0xa4007900, 0 , 0,
21589 NMD::Pool
NMD::P_PREFE
[2] = {
21590 { instruction
, 0 , 0 , 32,
21591 0xffe07f00, 0xa7e01a00, &NMD::SYNCIE
, 0,
21592 CP0_
| EVA_
}, /* SYNCIE */
21593 { instruction
, 0 , 0 , 32,
21594 0xfc007f00, 0xa4001a00, &NMD::PREFE
, &NMD::PREFE_cond
,
21595 CP0_
| EVA_
}, /* PREFE */
21599 NMD::Pool
NMD::P_LLE
[4] = {
21600 { instruction
, 0 , 0 , 32,
21601 0xfc007f03, 0xa4005200, &NMD::LLE
, 0,
21602 CP0_
| EVA_
}, /* LLE */
21603 { instruction
, 0 , 0 , 32,
21604 0xfc007f03, 0xa4005201, &NMD::LLWPE
, 0,
21605 CP0_
| EVA_
}, /* LLWPE */
21606 { reserved_block
, 0 , 0 , 32,
21607 0xfc007f03, 0xa4005202, 0 , 0,
21608 0x0 }, /* P.LLE~*(2) */
21609 { reserved_block
, 0 , 0 , 32,
21610 0xfc007f03, 0xa4005203, 0 , 0,
21611 0x0 }, /* P.LLE~*(3) */
21615 NMD::Pool
NMD::P_SCE
[4] = {
21616 { instruction
, 0 , 0 , 32,
21617 0xfc007f03, 0xa4005a00, &NMD::SCE
, 0,
21618 CP0_
| EVA_
}, /* SCE */
21619 { instruction
, 0 , 0 , 32,
21620 0xfc007f03, 0xa4005a01, &NMD::SCWPE
, 0,
21621 CP0_
| EVA_
}, /* SCWPE */
21622 { reserved_block
, 0 , 0 , 32,
21623 0xfc007f03, 0xa4005a02, 0 , 0,
21624 0x0 }, /* P.SCE~*(2) */
21625 { reserved_block
, 0 , 0 , 32,
21626 0xfc007f03, 0xa4005a03, 0 , 0,
21627 0x0 }, /* P.SCE~*(3) */
21631 NMD::Pool
NMD::P_LS_E0
[16] = {
21632 { instruction
, 0 , 0 , 32,
21633 0xfc007f00, 0xa4000200, &NMD::LBE
, 0,
21634 CP0_
| EVA_
}, /* LBE */
21635 { instruction
, 0 , 0 , 32,
21636 0xfc007f00, 0xa4000a00, &NMD::SBE
, 0,
21637 CP0_
| EVA_
}, /* SBE */
21638 { instruction
, 0 , 0 , 32,
21639 0xfc007f00, 0xa4001200, &NMD::LBUE
, 0,
21640 CP0_
| EVA_
}, /* LBUE */
21641 { pool
, P_PREFE
, 2 , 32,
21642 0xfc007f00, 0xa4001a00, 0 , 0,
21643 0x0 }, /* P.PREFE */
21644 { instruction
, 0 , 0 , 32,
21645 0xfc007f00, 0xa4002200, &NMD::LHE
, 0,
21646 CP0_
| EVA_
}, /* LHE */
21647 { instruction
, 0 , 0 , 32,
21648 0xfc007f00, 0xa4002a00, &NMD::SHE
, 0,
21649 CP0_
| EVA_
}, /* SHE */
21650 { instruction
, 0 , 0 , 32,
21651 0xfc007f00, 0xa4003200, &NMD::LHUE
, 0,
21652 CP0_
| EVA_
}, /* LHUE */
21653 { instruction
, 0 , 0 , 32,
21654 0xfc007f00, 0xa4003a00, &NMD::CACHEE
, 0,
21655 CP0_
| EVA_
}, /* CACHEE */
21656 { instruction
, 0 , 0 , 32,
21657 0xfc007f00, 0xa4004200, &NMD::LWE
, 0,
21658 CP0_
| EVA_
}, /* LWE */
21659 { instruction
, 0 , 0 , 32,
21660 0xfc007f00, 0xa4004a00, &NMD::SWE
, 0,
21661 CP0_
| EVA_
}, /* SWE */
21662 { pool
, P_LLE
, 4 , 32,
21663 0xfc007f00, 0xa4005200, 0 , 0,
21665 { pool
, P_SCE
, 4 , 32,
21666 0xfc007f00, 0xa4005a00, 0 , 0,
21668 { reserved_block
, 0 , 0 , 32,
21669 0xfc007f00, 0xa4006200, 0 , 0,
21670 0x0 }, /* P.LS.E0~*(12) */
21671 { reserved_block
, 0 , 0 , 32,
21672 0xfc007f00, 0xa4006a00, 0 , 0,
21673 0x0 }, /* P.LS.E0~*(13) */
21674 { reserved_block
, 0 , 0 , 32,
21675 0xfc007f00, 0xa4007200, 0 , 0,
21676 0x0 }, /* P.LS.E0~*(14) */
21677 { reserved_block
, 0 , 0 , 32,
21678 0xfc007f00, 0xa4007a00, 0 , 0,
21679 0x0 }, /* P.LS.E0~*(15) */
21683 NMD::Pool
NMD::P_LS_WM
[2] = {
21684 { instruction
, 0 , 0 , 32,
21685 0xfc000f00, 0xa4000400, &NMD::LWM
, 0,
21687 { instruction
, 0 , 0 , 32,
21688 0xfc000f00, 0xa4000c00, &NMD::SWM
, 0,
21693 NMD::Pool
NMD::P_LS_UAWM
[2] = {
21694 { instruction
, 0 , 0 , 32,
21695 0xfc000f00, 0xa4000500, &NMD::UALWM
, 0,
21696 XMMS_
}, /* UALWM */
21697 { instruction
, 0 , 0 , 32,
21698 0xfc000f00, 0xa4000d00, &NMD::UASWM
, 0,
21699 XMMS_
}, /* UASWM */
21703 NMD::Pool
NMD::P_LS_DM
[2] = {
21704 { instruction
, 0 , 0 , 32,
21705 0xfc000f00, 0xa4000600, &NMD::LDM
, 0,
21706 MIPS64_
}, /* LDM */
21707 { instruction
, 0 , 0 , 32,
21708 0xfc000f00, 0xa4000e00, &NMD::SDM
, 0,
21709 MIPS64_
}, /* SDM */
21713 NMD::Pool
NMD::P_LS_UADM
[2] = {
21714 { instruction
, 0 , 0 , 32,
21715 0xfc000f00, 0xa4000700, &NMD::UALDM
, 0,
21716 MIPS64_
}, /* UALDM */
21717 { instruction
, 0 , 0 , 32,
21718 0xfc000f00, 0xa4000f00, &NMD::UASDM
, 0,
21719 MIPS64_
}, /* UASDM */
21723 NMD::Pool
NMD::P_LS_S9
[8] = {
21724 { pool
, P_LS_S0
, 16 , 32,
21725 0xfc000700, 0xa4000000, 0 , 0,
21726 0x0 }, /* P.LS.S0 */
21727 { pool
, P_LS_S1
, 16 , 32,
21728 0xfc000700, 0xa4000100, 0 , 0,
21729 0x0 }, /* P.LS.S1 */
21730 { pool
, P_LS_E0
, 16 , 32,
21731 0xfc000700, 0xa4000200, 0 , 0,
21732 0x0 }, /* P.LS.E0 */
21733 { reserved_block
, 0 , 0 , 32,
21734 0xfc000700, 0xa4000300, 0 , 0,
21735 0x0 }, /* P.LS.S9~*(3) */
21736 { pool
, P_LS_WM
, 2 , 32,
21737 0xfc000700, 0xa4000400, 0 , 0,
21738 0x0 }, /* P.LS.WM */
21739 { pool
, P_LS_UAWM
, 2 , 32,
21740 0xfc000700, 0xa4000500, 0 , 0,
21741 0x0 }, /* P.LS.UAWM */
21742 { pool
, P_LS_DM
, 2 , 32,
21743 0xfc000700, 0xa4000600, 0 , 0,
21744 0x0 }, /* P.LS.DM */
21745 { pool
, P_LS_UADM
, 2 , 32,
21746 0xfc000700, 0xa4000700, 0 , 0,
21747 0x0 }, /* P.LS.UADM */
21751 NMD::Pool
NMD::P_BAL
[2] = {
21752 { branch_instruction
, 0 , 0 , 32,
21753 0xfe000000, 0x28000000, &NMD::BC_32_
, 0,
21754 0x0 }, /* BC[32] */
21755 { call_instruction
, 0 , 0 , 32,
21756 0xfe000000, 0x2a000000, &NMD::BALC_32_
, 0,
21757 0x0 }, /* BALC[32] */
21761 NMD::Pool
NMD::P_BALRSC
[2] = {
21762 { branch_instruction
, 0 , 0 , 32,
21763 0xffe0f000, 0x48008000, &NMD::BRSC
, 0,
21765 { call_instruction
, 0 , 0 , 32,
21766 0xfc00f000, 0x48008000, &NMD::BALRSC
, &NMD::BALRSC_cond
,
21767 0x0 }, /* BALRSC */
21771 NMD::Pool
NMD::P_J
[16] = {
21772 { call_instruction
, 0 , 0 , 32,
21773 0xfc00f000, 0x48000000, &NMD::JALRC_32_
, 0,
21774 0x0 }, /* JALRC[32] */
21775 { call_instruction
, 0 , 0 , 32,
21776 0xfc00f000, 0x48001000, &NMD::JALRC_HB
, 0,
21777 0x0 }, /* JALRC.HB */
21778 { reserved_block
, 0 , 0 , 32,
21779 0xfc00f000, 0x48002000, 0 , 0,
21780 0x0 }, /* P.J~*(2) */
21781 { reserved_block
, 0 , 0 , 32,
21782 0xfc00f000, 0x48003000, 0 , 0,
21783 0x0 }, /* P.J~*(3) */
21784 { reserved_block
, 0 , 0 , 32,
21785 0xfc00f000, 0x48004000, 0 , 0,
21786 0x0 }, /* P.J~*(4) */
21787 { reserved_block
, 0 , 0 , 32,
21788 0xfc00f000, 0x48005000, 0 , 0,
21789 0x0 }, /* P.J~*(5) */
21790 { reserved_block
, 0 , 0 , 32,
21791 0xfc00f000, 0x48006000, 0 , 0,
21792 0x0 }, /* P.J~*(6) */
21793 { reserved_block
, 0 , 0 , 32,
21794 0xfc00f000, 0x48007000, 0 , 0,
21795 0x0 }, /* P.J~*(7) */
21796 { pool
, P_BALRSC
, 2 , 32,
21797 0xfc00f000, 0x48008000, 0 , 0,
21798 0x0 }, /* P.BALRSC */
21799 { reserved_block
, 0 , 0 , 32,
21800 0xfc00f000, 0x48009000, 0 , 0,
21801 0x0 }, /* P.J~*(9) */
21802 { reserved_block
, 0 , 0 , 32,
21803 0xfc00f000, 0x4800a000, 0 , 0,
21804 0x0 }, /* P.J~*(10) */
21805 { reserved_block
, 0 , 0 , 32,
21806 0xfc00f000, 0x4800b000, 0 , 0,
21807 0x0 }, /* P.J~*(11) */
21808 { reserved_block
, 0 , 0 , 32,
21809 0xfc00f000, 0x4800c000, 0 , 0,
21810 0x0 }, /* P.J~*(12) */
21811 { reserved_block
, 0 , 0 , 32,
21812 0xfc00f000, 0x4800d000, 0 , 0,
21813 0x0 }, /* P.J~*(13) */
21814 { reserved_block
, 0 , 0 , 32,
21815 0xfc00f000, 0x4800e000, 0 , 0,
21816 0x0 }, /* P.J~*(14) */
21817 { reserved_block
, 0 , 0 , 32,
21818 0xfc00f000, 0x4800f000, 0 , 0,
21819 0x0 }, /* P.J~*(15) */
21823 NMD::Pool
NMD::P_BR3A
[32] = {
21824 { branch_instruction
, 0 , 0 , 32,
21825 0xfc1fc000, 0x88004000, &NMD::BC1EQZC
, 0,
21826 CP1_
}, /* BC1EQZC */
21827 { branch_instruction
, 0 , 0 , 32,
21828 0xfc1fc000, 0x88014000, &NMD::BC1NEZC
, 0,
21829 CP1_
}, /* BC1NEZC */
21830 { branch_instruction
, 0 , 0 , 32,
21831 0xfc1fc000, 0x88024000, &NMD::BC2EQZC
, 0,
21832 CP2_
}, /* BC2EQZC */
21833 { branch_instruction
, 0 , 0 , 32,
21834 0xfc1fc000, 0x88034000, &NMD::BC2NEZC
, 0,
21835 CP2_
}, /* BC2NEZC */
21836 { branch_instruction
, 0 , 0 , 32,
21837 0xfc1fc000, 0x88044000, &NMD::BPOSGE32C
, 0,
21838 DSP_
}, /* BPOSGE32C */
21839 { reserved_block
, 0 , 0 , 32,
21840 0xfc1fc000, 0x88054000, 0 , 0,
21841 0x0 }, /* P.BR3A~*(5) */
21842 { reserved_block
, 0 , 0 , 32,
21843 0xfc1fc000, 0x88064000, 0 , 0,
21844 0x0 }, /* P.BR3A~*(6) */
21845 { reserved_block
, 0 , 0 , 32,
21846 0xfc1fc000, 0x88074000, 0 , 0,
21847 0x0 }, /* P.BR3A~*(7) */
21848 { reserved_block
, 0 , 0 , 32,
21849 0xfc1fc000, 0x88084000, 0 , 0,
21850 0x0 }, /* P.BR3A~*(8) */
21851 { reserved_block
, 0 , 0 , 32,
21852 0xfc1fc000, 0x88094000, 0 , 0,
21853 0x0 }, /* P.BR3A~*(9) */
21854 { reserved_block
, 0 , 0 , 32,
21855 0xfc1fc000, 0x880a4000, 0 , 0,
21856 0x0 }, /* P.BR3A~*(10) */
21857 { reserved_block
, 0 , 0 , 32,
21858 0xfc1fc000, 0x880b4000, 0 , 0,
21859 0x0 }, /* P.BR3A~*(11) */
21860 { reserved_block
, 0 , 0 , 32,
21861 0xfc1fc000, 0x880c4000, 0 , 0,
21862 0x0 }, /* P.BR3A~*(12) */
21863 { reserved_block
, 0 , 0 , 32,
21864 0xfc1fc000, 0x880d4000, 0 , 0,
21865 0x0 }, /* P.BR3A~*(13) */
21866 { reserved_block
, 0 , 0 , 32,
21867 0xfc1fc000, 0x880e4000, 0 , 0,
21868 0x0 }, /* P.BR3A~*(14) */
21869 { reserved_block
, 0 , 0 , 32,
21870 0xfc1fc000, 0x880f4000, 0 , 0,
21871 0x0 }, /* P.BR3A~*(15) */
21872 { reserved_block
, 0 , 0 , 32,
21873 0xfc1fc000, 0x88104000, 0 , 0,
21874 0x0 }, /* P.BR3A~*(16) */
21875 { reserved_block
, 0 , 0 , 32,
21876 0xfc1fc000, 0x88114000, 0 , 0,
21877 0x0 }, /* P.BR3A~*(17) */
21878 { reserved_block
, 0 , 0 , 32,
21879 0xfc1fc000, 0x88124000, 0 , 0,
21880 0x0 }, /* P.BR3A~*(18) */
21881 { reserved_block
, 0 , 0 , 32,
21882 0xfc1fc000, 0x88134000, 0 , 0,
21883 0x0 }, /* P.BR3A~*(19) */
21884 { reserved_block
, 0 , 0 , 32,
21885 0xfc1fc000, 0x88144000, 0 , 0,
21886 0x0 }, /* P.BR3A~*(20) */
21887 { reserved_block
, 0 , 0 , 32,
21888 0xfc1fc000, 0x88154000, 0 , 0,
21889 0x0 }, /* P.BR3A~*(21) */
21890 { reserved_block
, 0 , 0 , 32,
21891 0xfc1fc000, 0x88164000, 0 , 0,
21892 0x0 }, /* P.BR3A~*(22) */
21893 { reserved_block
, 0 , 0 , 32,
21894 0xfc1fc000, 0x88174000, 0 , 0,
21895 0x0 }, /* P.BR3A~*(23) */
21896 { reserved_block
, 0 , 0 , 32,
21897 0xfc1fc000, 0x88184000, 0 , 0,
21898 0x0 }, /* P.BR3A~*(24) */
21899 { reserved_block
, 0 , 0 , 32,
21900 0xfc1fc000, 0x88194000, 0 , 0,
21901 0x0 }, /* P.BR3A~*(25) */
21902 { reserved_block
, 0 , 0 , 32,
21903 0xfc1fc000, 0x881a4000, 0 , 0,
21904 0x0 }, /* P.BR3A~*(26) */
21905 { reserved_block
, 0 , 0 , 32,
21906 0xfc1fc000, 0x881b4000, 0 , 0,
21907 0x0 }, /* P.BR3A~*(27) */
21908 { reserved_block
, 0 , 0 , 32,
21909 0xfc1fc000, 0x881c4000, 0 , 0,
21910 0x0 }, /* P.BR3A~*(28) */
21911 { reserved_block
, 0 , 0 , 32,
21912 0xfc1fc000, 0x881d4000, 0 , 0,
21913 0x0 }, /* P.BR3A~*(29) */
21914 { reserved_block
, 0 , 0 , 32,
21915 0xfc1fc000, 0x881e4000, 0 , 0,
21916 0x0 }, /* P.BR3A~*(30) */
21917 { reserved_block
, 0 , 0 , 32,
21918 0xfc1fc000, 0x881f4000, 0 , 0,
21919 0x0 }, /* P.BR3A~*(31) */
21923 NMD::Pool
NMD::P_BR1
[4] = {
21924 { branch_instruction
, 0 , 0 , 32,
21925 0xfc00c000, 0x88000000, &NMD::BEQC_32_
, 0,
21926 0x0 }, /* BEQC[32] */
21927 { pool
, P_BR3A
, 32 , 32,
21928 0xfc00c000, 0x88004000, 0 , 0,
21929 0x0 }, /* P.BR3A */
21930 { branch_instruction
, 0 , 0 , 32,
21931 0xfc00c000, 0x88008000, &NMD::BGEC
, 0,
21933 { branch_instruction
, 0 , 0 , 32,
21934 0xfc00c000, 0x8800c000, &NMD::BGEUC
, 0,
21939 NMD::Pool
NMD::P_BR2
[4] = {
21940 { branch_instruction
, 0 , 0 , 32,
21941 0xfc00c000, 0xa8000000, &NMD::BNEC_32_
, 0,
21942 0x0 }, /* BNEC[32] */
21943 { reserved_block
, 0 , 0 , 32,
21944 0xfc00c000, 0xa8004000, 0 , 0,
21945 0x0 }, /* P.BR2~*(1) */
21946 { branch_instruction
, 0 , 0 , 32,
21947 0xfc00c000, 0xa8008000, &NMD::BLTC
, 0,
21949 { branch_instruction
, 0 , 0 , 32,
21950 0xfc00c000, 0xa800c000, &NMD::BLTUC
, 0,
21955 NMD::Pool
NMD::P_BRI
[8] = {
21956 { branch_instruction
, 0 , 0 , 32,
21957 0xfc1c0000, 0xc8000000, &NMD::BEQIC
, 0,
21959 { branch_instruction
, 0 , 0 , 32,
21960 0xfc1c0000, 0xc8040000, &NMD::BBEQZC
, 0,
21961 XMMS_
}, /* BBEQZC */
21962 { branch_instruction
, 0 , 0 , 32,
21963 0xfc1c0000, 0xc8080000, &NMD::BGEIC
, 0,
21965 { branch_instruction
, 0 , 0 , 32,
21966 0xfc1c0000, 0xc80c0000, &NMD::BGEIUC
, 0,
21967 0x0 }, /* BGEIUC */
21968 { branch_instruction
, 0 , 0 , 32,
21969 0xfc1c0000, 0xc8100000, &NMD::BNEIC
, 0,
21971 { branch_instruction
, 0 , 0 , 32,
21972 0xfc1c0000, 0xc8140000, &NMD::BBNEZC
, 0,
21973 XMMS_
}, /* BBNEZC */
21974 { branch_instruction
, 0 , 0 , 32,
21975 0xfc1c0000, 0xc8180000, &NMD::BLTIC
, 0,
21977 { branch_instruction
, 0 , 0 , 32,
21978 0xfc1c0000, 0xc81c0000, &NMD::BLTIUC
, 0,
21979 0x0 }, /* BLTIUC */
21983 NMD::Pool
NMD::P32
[32] = {
21984 { pool
, P_ADDIU
, 2 , 32,
21985 0xfc000000, 0x00000000, 0 , 0,
21986 0x0 }, /* P.ADDIU */
21987 { pool
, P32A
, 8 , 32,
21988 0xfc000000, 0x20000000, 0 , 0,
21990 { pool
, P_GP_W
, 4 , 32,
21991 0xfc000000, 0x40000000, 0 , 0,
21992 0x0 }, /* P.GP.W */
21993 { pool
, POOL48I
, 32 , 48,
21994 0xfc0000000000ull
, 0x600000000000ull
, 0 , 0,
21995 0x0 }, /* POOL48I */
21996 { pool
, P_U12
, 16 , 32,
21997 0xfc000000, 0x80000000, 0 , 0,
21999 { pool
, POOL32F
, 8 , 32,
22000 0xfc000000, 0xa0000000, 0 , 0,
22001 CP1_
}, /* POOL32F */
22002 { pool
, POOL32S
, 8 , 32,
22003 0xfc000000, 0xc0000000, 0 , 0,
22004 0x0 }, /* POOL32S */
22005 { pool
, P_LUI
, 2 , 32,
22006 0xfc000000, 0xe0000000, 0 , 0,
22008 { instruction
, 0 , 0 , 32,
22009 0xfc000000, 0x04000000, &NMD::ADDIUPC_32_
, 0,
22010 0x0 }, /* ADDIUPC[32] */
22011 { reserved_block
, 0 , 0 , 32,
22012 0xfc000000, 0x24000000, 0 , 0,
22013 0x0 }, /* P32~*(5) */
22014 { pool
, P_GP_BH
, 8 , 32,
22015 0xfc000000, 0x44000000, 0 , 0,
22016 0x0 }, /* P.GP.BH */
22017 { reserved_block
, 0 , 0 , 32,
22018 0xfc000000, 0x64000000, 0 , 0,
22019 0x0 }, /* P32~*(13) */
22020 { pool
, P_LS_U12
, 16 , 32,
22021 0xfc000000, 0x84000000, 0 , 0,
22022 0x0 }, /* P.LS.U12 */
22023 { pool
, P_LS_S9
, 8 , 32,
22024 0xfc000000, 0xa4000000, 0 , 0,
22025 0x0 }, /* P.LS.S9 */
22026 { reserved_block
, 0 , 0 , 32,
22027 0xfc000000, 0xc4000000, 0 , 0,
22028 0x0 }, /* P32~*(25) */
22029 { reserved_block
, 0 , 0 , 32,
22030 0xfc000000, 0xe4000000, 0 , 0,
22031 0x0 }, /* P32~*(29) */
22032 { call_instruction
, 0 , 0 , 32,
22033 0xfc000000, 0x08000000, &NMD::MOVE_BALC
, 0,
22034 XMMS_
}, /* MOVE.BALC */
22035 { pool
, P_BAL
, 2 , 32,
22036 0xfc000000, 0x28000000, 0 , 0,
22038 { pool
, P_J
, 16 , 32,
22039 0xfc000000, 0x48000000, 0 , 0,
22041 { reserved_block
, 0 , 0 , 32,
22042 0xfc000000, 0x68000000, 0 , 0,
22043 0x0 }, /* P32~*(14) */
22044 { pool
, P_BR1
, 4 , 32,
22045 0xfc000000, 0x88000000, 0 , 0,
22047 { pool
, P_BR2
, 4 , 32,
22048 0xfc000000, 0xa8000000, 0 , 0,
22050 { pool
, P_BRI
, 8 , 32,
22051 0xfc000000, 0xc8000000, 0 , 0,
22053 { reserved_block
, 0 , 0 , 32,
22054 0xfc000000, 0xe8000000, 0 , 0,
22055 0x0 }, /* P32~*(30) */
22056 { reserved_block
, 0 , 0 , 32,
22057 0xfc000000, 0x0c000000, 0 , 0,
22058 0x0 }, /* P32~*(3) */
22059 { reserved_block
, 0 , 0 , 32,
22060 0xfc000000, 0x2c000000, 0 , 0,
22061 0x0 }, /* P32~*(7) */
22062 { reserved_block
, 0 , 0 , 32,
22063 0xfc000000, 0x4c000000, 0 , 0,
22064 0x0 }, /* P32~*(11) */
22065 { reserved_block
, 0 , 0 , 32,
22066 0xfc000000, 0x6c000000, 0 , 0,
22067 0x0 }, /* P32~*(15) */
22068 { reserved_block
, 0 , 0 , 32,
22069 0xfc000000, 0x8c000000, 0 , 0,
22070 0x0 }, /* P32~*(19) */
22071 { reserved_block
, 0 , 0 , 32,
22072 0xfc000000, 0xac000000, 0 , 0,
22073 0x0 }, /* P32~*(23) */
22074 { reserved_block
, 0 , 0 , 32,
22075 0xfc000000, 0xcc000000, 0 , 0,
22076 0x0 }, /* P32~*(27) */
22077 { reserved_block
, 0 , 0 , 32,
22078 0xfc000000, 0xec000000, 0 , 0,
22079 0x0 }, /* P32~*(31) */
22083 NMD::Pool
NMD::P16_SYSCALL
[2] = {
22084 { instruction
, 0 , 0 , 16,
22085 0xfffc , 0x1008 , &NMD::SYSCALL_16_
, 0,
22086 0x0 }, /* SYSCALL[16] */
22087 { instruction
, 0 , 0 , 16,
22088 0xfffc , 0x100c , &NMD::HYPCALL_16_
, 0,
22089 CP0_
| VZ_
}, /* HYPCALL[16] */
22093 NMD::Pool
NMD::P16_RI
[4] = {
22094 { reserved_block
, 0 , 0 , 16,
22095 0xfff8 , 0x1000 , 0 , 0,
22096 0x0 }, /* P16.RI~*(0) */
22097 { pool
, P16_SYSCALL
, 2 , 16,
22098 0xfff8 , 0x1008 , 0 , 0,
22099 0x0 }, /* P16.SYSCALL */
22100 { instruction
, 0 , 0 , 16,
22101 0xfff8 , 0x1010 , &NMD::BREAK_16_
, 0,
22102 0x0 }, /* BREAK[16] */
22103 { instruction
, 0 , 0 , 16,
22104 0xfff8 , 0x1018 , &NMD::SDBBP_16_
, 0,
22105 EJTAG_
}, /* SDBBP[16] */
22109 NMD::Pool
NMD::P16_MV
[2] = {
22110 { pool
, P16_RI
, 4 , 16,
22111 0xffe0 , 0x1000 , 0 , 0,
22112 0x0 }, /* P16.RI */
22113 { instruction
, 0 , 0 , 16,
22114 0xfc00 , 0x1000 , &NMD::MOVE
, &NMD::MOVE_cond
,
22119 NMD::Pool
NMD::P16_SHIFT
[2] = {
22120 { instruction
, 0 , 0 , 16,
22121 0xfc08 , 0x3000 , &NMD::SLL_16_
, 0,
22122 0x0 }, /* SLL[16] */
22123 { instruction
, 0 , 0 , 16,
22124 0xfc08 , 0x3008 , &NMD::SRL_16_
, 0,
22125 0x0 }, /* SRL[16] */
22129 NMD::Pool
NMD::POOL16C_00
[4] = {
22130 { instruction
, 0 , 0 , 16,
22131 0xfc0f , 0x5000 , &NMD::NOT_16_
, 0,
22132 0x0 }, /* NOT[16] */
22133 { instruction
, 0 , 0 , 16,
22134 0xfc0f , 0x5004 , &NMD::XOR_16_
, 0,
22135 0x0 }, /* XOR[16] */
22136 { instruction
, 0 , 0 , 16,
22137 0xfc0f , 0x5008 , &NMD::AND_16_
, 0,
22138 0x0 }, /* AND[16] */
22139 { instruction
, 0 , 0 , 16,
22140 0xfc0f , 0x500c , &NMD::OR_16_
, 0,
22141 0x0 }, /* OR[16] */
22145 NMD::Pool
NMD::POOL16C_0
[2] = {
22146 { pool
, POOL16C_00
, 4 , 16,
22147 0xfc03 , 0x5000 , 0 , 0,
22148 0x0 }, /* POOL16C_00 */
22149 { reserved_block
, 0 , 0 , 16,
22150 0xfc03 , 0x5002 , 0 , 0,
22151 0x0 }, /* POOL16C_0~*(1) */
22155 NMD::Pool
NMD::P16C
[2] = {
22156 { pool
, POOL16C_0
, 2 , 16,
22157 0xfc01 , 0x5000 , 0 , 0,
22158 0x0 }, /* POOL16C_0 */
22159 { instruction
, 0 , 0 , 16,
22160 0xfc01 , 0x5001 , &NMD::LWXS_16_
, 0,
22161 0x0 }, /* LWXS[16] */
22165 NMD::Pool
NMD::P16_A1
[2] = {
22166 { reserved_block
, 0 , 0 , 16,
22167 0xfc40 , 0x7000 , 0 , 0,
22168 0x0 }, /* P16.A1~*(0) */
22169 { instruction
, 0 , 0 , 16,
22170 0xfc40 , 0x7040 , &NMD::ADDIU_R1_SP_
, 0,
22171 0x0 }, /* ADDIU[R1.SP] */
22175 NMD::Pool
NMD::P_ADDIU_RS5_
[2] = {
22176 { instruction
, 0 , 0 , 16,
22177 0xffe8 , 0x9008 , &NMD::NOP_16_
, 0,
22178 0x0 }, /* NOP[16] */
22179 { instruction
, 0 , 0 , 16,
22180 0xfc08 , 0x9008 , &NMD::ADDIU_RS5_
, &NMD::ADDIU_RS5__cond
,
22181 0x0 }, /* ADDIU[RS5] */
22185 NMD::Pool
NMD::P16_A2
[2] = {
22186 { instruction
, 0 , 0 , 16,
22187 0xfc08 , 0x9000 , &NMD::ADDIU_R2_
, 0,
22188 0x0 }, /* ADDIU[R2] */
22189 { pool
, P_ADDIU_RS5_
, 2 , 16,
22190 0xfc08 , 0x9008 , 0 , 0,
22191 0x0 }, /* P.ADDIU[RS5] */
22195 NMD::Pool
NMD::P16_ADDU
[2] = {
22196 { instruction
, 0 , 0 , 16,
22197 0xfc01 , 0xb000 , &NMD::ADDU_16_
, 0,
22198 0x0 }, /* ADDU[16] */
22199 { instruction
, 0 , 0 , 16,
22200 0xfc01 , 0xb001 , &NMD::SUBU_16_
, 0,
22201 0x0 }, /* SUBU[16] */
22205 NMD::Pool
NMD::P16_JRC
[2] = {
22206 { branch_instruction
, 0 , 0 , 16,
22207 0xfc1f , 0xd800 , &NMD::JRC
, 0,
22209 { call_instruction
, 0 , 0 , 16,
22210 0xfc1f , 0xd810 , &NMD::JALRC_16_
, 0,
22211 0x0 }, /* JALRC[16] */
22215 NMD::Pool
NMD::P16_BR1
[2] = {
22216 { branch_instruction
, 0 , 0 , 16,
22217 0xfc00 , 0xd800 , &NMD::BEQC_16_
, &NMD::BEQC_16__cond
,
22218 XMMS_
}, /* BEQC[16] */
22219 { branch_instruction
, 0 , 0 , 16,
22220 0xfc00 , 0xd800 , &NMD::BNEC_16_
, &NMD::BNEC_16__cond
,
22221 XMMS_
}, /* BNEC[16] */
22225 NMD::Pool
NMD::P16_BR
[2] = {
22226 { pool
, P16_JRC
, 2 , 16,
22227 0xfc0f , 0xd800 , 0 , 0,
22228 0x0 }, /* P16.JRC */
22229 { pool
, P16_BR1
, 2 , 16,
22230 0xfc00 , 0xd800 , 0 , &NMD::P16_BR1_cond
,
22231 0x0 }, /* P16.BR1 */
22235 NMD::Pool
NMD::P16_SR
[2] = {
22236 { instruction
, 0 , 0 , 16,
22237 0xfd00 , 0x1c00 , &NMD::SAVE_16_
, 0,
22238 0x0 }, /* SAVE[16] */
22239 { return_instruction
, 0 , 0 , 16,
22240 0xfd00 , 0x1d00 , &NMD::RESTORE_JRC_16_
, 0,
22241 0x0 }, /* RESTORE.JRC[16] */
22245 NMD::Pool
NMD::P16_4X4
[4] = {
22246 { instruction
, 0 , 0 , 16,
22247 0xfd08 , 0x3c00 , &NMD::ADDU_4X4_
, 0,
22248 XMMS_
}, /* ADDU[4X4] */
22249 { instruction
, 0 , 0 , 16,
22250 0xfd08 , 0x3c08 , &NMD::MUL_4X4_
, 0,
22251 XMMS_
}, /* MUL[4X4] */
22252 { reserved_block
, 0 , 0 , 16,
22253 0xfd08 , 0x3d00 , 0 , 0,
22254 0x0 }, /* P16.4X4~*(2) */
22255 { reserved_block
, 0 , 0 , 16,
22256 0xfd08 , 0x3d08 , 0 , 0,
22257 0x0 }, /* P16.4X4~*(3) */
22261 NMD::Pool
NMD::P16_LB
[4] = {
22262 { instruction
, 0 , 0 , 16,
22263 0xfc0c , 0x5c00 , &NMD::LB_16_
, 0,
22264 0x0 }, /* LB[16] */
22265 { instruction
, 0 , 0 , 16,
22266 0xfc0c , 0x5c04 , &NMD::SB_16_
, 0,
22267 0x0 }, /* SB[16] */
22268 { instruction
, 0 , 0 , 16,
22269 0xfc0c , 0x5c08 , &NMD::LBU_16_
, 0,
22270 0x0 }, /* LBU[16] */
22271 { reserved_block
, 0 , 0 , 16,
22272 0xfc0c , 0x5c0c , 0 , 0,
22273 0x0 }, /* P16.LB~*(3) */
22277 NMD::Pool
NMD::P16_LH
[4] = {
22278 { instruction
, 0 , 0 , 16,
22279 0xfc09 , 0x7c00 , &NMD::LH_16_
, 0,
22280 0x0 }, /* LH[16] */
22281 { instruction
, 0 , 0 , 16,
22282 0xfc09 , 0x7c01 , &NMD::SH_16_
, 0,
22283 0x0 }, /* SH[16] */
22284 { instruction
, 0 , 0 , 16,
22285 0xfc09 , 0x7c08 , &NMD::LHU_16_
, 0,
22286 0x0 }, /* LHU[16] */
22287 { reserved_block
, 0 , 0 , 16,
22288 0xfc09 , 0x7c09 , 0 , 0,
22289 0x0 }, /* P16.LH~*(3) */
22293 NMD::Pool
NMD::P16
[32] = {
22294 { pool
, P16_MV
, 2 , 16,
22295 0xfc00 , 0x1000 , 0 , 0,
22296 0x0 }, /* P16.MV */
22297 { pool
, P16_SHIFT
, 2 , 16,
22298 0xfc00 , 0x3000 , 0 , 0,
22299 0x0 }, /* P16.SHIFT */
22300 { pool
, P16C
, 2 , 16,
22301 0xfc00 , 0x5000 , 0 , 0,
22303 { pool
, P16_A1
, 2 , 16,
22304 0xfc00 , 0x7000 , 0 , 0,
22305 0x0 }, /* P16.A1 */
22306 { pool
, P16_A2
, 2 , 16,
22307 0xfc00 , 0x9000 , 0 , 0,
22308 0x0 }, /* P16.A2 */
22309 { pool
, P16_ADDU
, 2 , 16,
22310 0xfc00 , 0xb000 , 0 , 0,
22311 0x0 }, /* P16.ADDU */
22312 { instruction
, 0 , 0 , 16,
22313 0xfc00 , 0xd000 , &NMD::LI_16_
, 0,
22314 0x0 }, /* LI[16] */
22315 { instruction
, 0 , 0 , 16,
22316 0xfc00 , 0xf000 , &NMD::ANDI_16_
, 0,
22317 0x0 }, /* ANDI[16] */
22318 { instruction
, 0 , 0 , 16,
22319 0xfc00 , 0x1400 , &NMD::LW_16_
, 0,
22320 0x0 }, /* LW[16] */
22321 { instruction
, 0 , 0 , 16,
22322 0xfc00 , 0x3400 , &NMD::LW_SP_
, 0,
22323 0x0 }, /* LW[SP] */
22324 { instruction
, 0 , 0 , 16,
22325 0xfc00 , 0x5400 , &NMD::LW_GP16_
, 0,
22326 0x0 }, /* LW[GP16] */
22327 { instruction
, 0 , 0 , 16,
22328 0xfc00 , 0x7400 , &NMD::LW_4X4_
, 0,
22329 XMMS_
}, /* LW[4X4] */
22330 { instruction
, 0 , 0 , 16,
22331 0xfc00 , 0x9400 , &NMD::SW_16_
, 0,
22332 0x0 }, /* SW[16] */
22333 { instruction
, 0 , 0 , 16,
22334 0xfc00 , 0xb400 , &NMD::SW_SP_
, 0,
22335 0x0 }, /* SW[SP] */
22336 { instruction
, 0 , 0 , 16,
22337 0xfc00 , 0xd400 , &NMD::SW_GP16_
, 0,
22338 0x0 }, /* SW[GP16] */
22339 { instruction
, 0 , 0 , 16,
22340 0xfc00 , 0xf400 , &NMD::SW_4X4_
, 0,
22341 XMMS_
}, /* SW[4X4] */
22342 { branch_instruction
, 0 , 0 , 16,
22343 0xfc00 , 0x1800 , &NMD::BC_16_
, 0,
22344 0x0 }, /* BC[16] */
22345 { call_instruction
, 0 , 0 , 16,
22346 0xfc00 , 0x3800 , &NMD::BALC_16_
, 0,
22347 0x0 }, /* BALC[16] */
22348 { reserved_block
, 0 , 0 , 16,
22349 0xfc00 , 0x5800 , 0 , 0,
22350 0x0 }, /* P16~*(10) */
22351 { reserved_block
, 0 , 0 , 16,
22352 0xfc00 , 0x7800 , 0 , 0,
22353 0x0 }, /* P16~*(14) */
22354 { branch_instruction
, 0 , 0 , 16,
22355 0xfc00 , 0x9800 , &NMD::BEQZC_16_
, 0,
22356 0x0 }, /* BEQZC[16] */
22357 { branch_instruction
, 0 , 0 , 16,
22358 0xfc00 , 0xb800 , &NMD::BNEZC_16_
, 0,
22359 0x0 }, /* BNEZC[16] */
22360 { pool
, P16_BR
, 2 , 16,
22361 0xfc00 , 0xd800 , 0 , 0,
22362 0x0 }, /* P16.BR */
22363 { reserved_block
, 0 , 0 , 16,
22364 0xfc00 , 0xf800 , 0 , 0,
22365 0x0 }, /* P16~*(30) */
22366 { pool
, P16_SR
, 2 , 16,
22367 0xfc00 , 0x1c00 , 0 , 0,
22368 0x0 }, /* P16.SR */
22369 { pool
, P16_4X4
, 4 , 16,
22370 0xfc00 , 0x3c00 , 0 , 0,
22371 0x0 }, /* P16.4X4 */
22372 { pool
, P16_LB
, 4 , 16,
22373 0xfc00 , 0x5c00 , 0 , 0,
22374 0x0 }, /* P16.LB */
22375 { pool
, P16_LH
, 4 , 16,
22376 0xfc00 , 0x7c00 , 0 , 0,
22377 0x0 }, /* P16.LH */
22378 { reserved_block
, 0 , 0 , 16,
22379 0xfc00 , 0x9c00 , 0 , 0,
22380 0x0 }, /* P16~*(19) */
22381 { instruction
, 0 , 0 , 16,
22382 0xfc00 , 0xbc00 , &NMD::MOVEP
, 0,
22383 XMMS_
}, /* MOVEP */
22384 { reserved_block
, 0 , 0 , 16,
22385 0xfc00 , 0xdc00 , 0 , 0,
22386 0x0 }, /* P16~*(27) */
22387 { instruction
, 0 , 0 , 16,
22388 0xfc00 , 0xfc00 , &NMD::MOVEP_REV_
, 0,
22389 XMMS_
}, /* MOVEP[REV] */
22393 NMD::Pool
NMD::MAJOR
[2] = {
22394 { pool
, P32
, 32 , 32,
22395 0x10000000, 0x00000000, 0 , 0,
22397 { pool
, P16
, 32 , 16,
22398 0x1000 , 0x1000 , 0 , 0,