1 /* bfin-parse.y ADI Blackfin parser
2 Copyright 2005, 2006, 2007, 2008, 2009, 2010
3 Free Software Foundation, Inc.
5 This file is part of GAS, the GNU Assembler.
7 GAS is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 3, or (at your option)
12 GAS is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
17 You should have received a copy of the GNU General Public License
18 along with GAS; see the file COPYING. If not, write to the Free
19 Software Foundation, 51 Franklin Street - Fifth Floor, Boston, MA
26 #include "bfin-aux.h" /* Opcode generating auxiliaries. */
28 #include "elf/common.h"
31 #define DSP32ALU(aopcde, HL, dst1, dst0, src0, src1, s, x, aop) \
32 bfin_gen_dsp32alu
(HL
, aopcde
, aop
, s
, x
, dst0
, dst1
, src0
, src1
)
34 #define DSP32MAC(op1, MM, mmod, w1, P, h01, h11, h00, h10, dst, op0, src0, src1, w0) \
35 bfin_gen_dsp32mac
(op1
, MM
, mmod
, w1
, P
, h01
, h11
, h00
, h10
, op0
, \
38 #define DSP32MULT(op1, MM, mmod, w1, P, h01, h11, h00, h10, dst, op0, src0, src1, w0) \
39 bfin_gen_dsp32mult
(op1
, MM
, mmod
, w1
, P
, h01
, h11
, h00
, h10
, op0
, \
42 #define DSP32SHIFT(sopcde, dst0, src0, src1, sop, hls) \
43 bfin_gen_dsp32shift
(sopcde
, dst0
, src0
, src1
, sop
, hls
)
45 #define DSP32SHIFTIMM(sopcde, dst0, immag, src1, sop, hls) \
46 bfin_gen_dsp32shiftimm
(sopcde
, dst0
, immag
, src1
, sop
, hls
)
48 #define LDIMMHALF_R(reg, h, s, z, hword) \
49 bfin_gen_ldimmhalf
(reg
, h
, s
, z
, hword
, 1)
51 #define LDIMMHALF_R5(reg, h, s, z, hword) \
52 bfin_gen_ldimmhalf
(reg
, h
, s
, z
, hword
, 2)
54 #define LDSTIDXI(ptr, reg, w, sz, z, offset) \
55 bfin_gen_ldstidxi
(ptr
, reg
, w
, sz
, z
, offset
)
57 #define LDST(ptr, reg, aop, sz, z, w) \
58 bfin_gen_ldst
(ptr
, reg
, aop
, sz
, z
, w
)
60 #define LDSTII(ptr, reg, offset, w, op) \
61 bfin_gen_ldstii
(ptr
, reg
, offset
, w
, op
)
63 #define DSPLDST(i, m, reg, aop, w) \
64 bfin_gen_dspldst
(i
, reg
, aop
, w
, m
)
66 #define LDSTPMOD(ptr, reg, idx, aop, w) \
67 bfin_gen_ldstpmod
(ptr
, reg
, aop
, w
, idx
)
69 #define LDSTIIFP(offset, reg, w) \
70 bfin_gen_ldstiifp
(reg
, offset
, w
)
72 #define LOGI2OP(dst, src, opc) \
73 bfin_gen_logi2op
(opc
, src
, dst.regno
& CODE_MASK
)
75 #define ALU2OP(dst, src, opc) \
76 bfin_gen_alu2op
(dst
, src
, opc
)
78 #define BRCC(t, b, offset) \
79 bfin_gen_brcc
(t
, b
, offset
)
81 #define UJUMP(offset) \
82 bfin_gen_ujump
(offset
)
84 #define PROGCTRL(prgfunc, poprnd) \
85 bfin_gen_progctrl
(prgfunc
, poprnd
)
87 #define PUSHPOPMULTIPLE(dr, pr, d, p, w) \
88 bfin_gen_pushpopmultiple
(dr
, pr
, d
, p
, w
)
90 #define PUSHPOPREG(reg, w) \
91 bfin_gen_pushpopreg
(reg
, w
)
93 #define CALLA(addr, s) \
94 bfin_gen_calla
(addr
, s
)
96 #define LINKAGE(r, framesize) \
97 bfin_gen_linkage
(r
, framesize
)
99 #define COMPI2OPD(dst, src, op) \
100 bfin_gen_compi2opd
(dst
, src
, op
)
102 #define COMPI2OPP(dst, src, op) \
103 bfin_gen_compi2opp
(dst
, src
, op
)
105 #define DAGMODIK(i, op) \
106 bfin_gen_dagmodik
(i
, op
)
108 #define DAGMODIM(i, m, op, br) \
109 bfin_gen_dagmodim
(i
, m
, op
, br
)
111 #define COMP3OP(dst, src0, src1, opc) \
112 bfin_gen_comp3op
(src0
, src1
, dst
, opc
)
114 #define PTR2OP(dst, src, opc) \
115 bfin_gen_ptr2op
(dst
, src
, opc
)
117 #define CCFLAG(x, y, opc, i, g) \
118 bfin_gen_ccflag
(x
, y
, opc
, i
, g
)
120 #define CCMV(src, dst, t) \
121 bfin_gen_ccmv
(src
, dst
, t
)
123 #define CACTRL(reg, a, op) \
124 bfin_gen_cactrl
(reg
, a
, op
)
126 #define LOOPSETUP(soffset, c, rop, eoffset, reg) \
127 bfin_gen_loopsetup
(soffset
, c
, rop
, eoffset
, reg
)
129 #define HL2(r1, r0) (IS_H (r1) << 1 | IS_H (r0))
130 #define IS_RANGE(bits, expr, sign, mul) \
131 value_match
(expr
, bits
, sign
, mul
, 1)
132 #define IS_URANGE(bits, expr, sign, mul) \
133 value_match
(expr
, bits
, sign
, mul
, 0)
134 #define IS_CONST(expr) (expr->type == Expr_Node_Constant)
135 #define IS_RELOC(expr) (expr->type != Expr_Node_Constant)
136 #define IS_IMM(expr, bits) value_match (expr, bits, 0, 1, 1)
137 #define IS_UIMM(expr, bits) value_match (expr, bits, 0, 1, 0)
139 #define IS_PCREL4(expr) \
140 (value_match
(expr
, 4, 0, 2, 0))
142 #define IS_LPPCREL10(expr) \
143 (value_match
(expr
, 10, 0, 2, 0))
145 #define IS_PCREL10(expr) \
146 (value_match
(expr
, 10, 0, 2, 1))
148 #define IS_PCREL12(expr) \
149 (value_match
(expr
, 12, 0, 2, 1))
151 #define IS_PCREL24(expr) \
152 (value_match
(expr
, 24, 0, 2, 1))
155 static int value_match
(Expr_Node
*, int, int, int, int);
160 static Expr_Node
*binary
(Expr_Op_Type
, Expr_Node
*, Expr_Node
*);
161 static Expr_Node
*unary
(Expr_Op_Type
, Expr_Node
*);
163 static void notethat
(char *, ...
);
165 char *current_inputline
;
167 int yyerror (char *);
169 void error (char *format
, ...
)
172 static char buffer
[2000];
174 va_start
(ap
, format
);
175 vsprintf
(buffer
, format
, ap
);
178 as_bad
("%s", buffer
);
187 else if
(yytext
[0] != ';')
188 error ("%s. Input text was %s.", msg
, yytext
);
196 in_range_p
(Expr_Node
*exp
, int from
, int to
, unsigned int mask
)
198 int val
= EXPR_VALUE
(exp
);
199 if
(exp
->type
!= Expr_Node_Constant
)
201 if
(val
< from || val
> to
)
203 return
(val
& mask
) == 0;
206 extern
int yylex (void);
208 #define imm3(x) EXPR_VALUE (x)
209 #define imm4(x) EXPR_VALUE (x)
210 #define uimm4(x) EXPR_VALUE (x)
211 #define imm5(x) EXPR_VALUE (x)
212 #define uimm5(x) EXPR_VALUE (x)
213 #define imm6(x) EXPR_VALUE (x)
214 #define imm7(x) EXPR_VALUE (x)
215 #define uimm8(x) EXPR_VALUE (x)
216 #define imm16(x) EXPR_VALUE (x)
217 #define uimm16s4(x) ((EXPR_VALUE (x)) >> 2)
218 #define uimm16(x) EXPR_VALUE (x)
220 /* Return true if a value is inside a range. */
221 #define IN_RANGE(x, low, high) \
222 (((EXPR_VALUE
(x
)) >= (low
)) && (EXPR_VALUE
(x
)) <= ((high
)))
224 /* Auxiliary functions. */
227 valid_dreg_pair
(Register
*reg1
, Expr_Node
*reg2
)
229 if
(!IS_DREG
(*reg1
))
231 yyerror ("Dregs expected");
235 if
(reg1
->regno
!= 1 && reg1
->regno
!= 3)
237 yyerror ("Bad register pair");
241 if
(imm7
(reg2
) != reg1
->regno
- 1)
243 yyerror ("Bad register pair");
252 check_multiply_halfregs
(Macfunc
*aa
, Macfunc
*ab
)
254 if
((!REG_EQUAL
(aa
->s0
, ab
->s0
) && !REG_EQUAL
(aa
->s0
, ab
->s1
))
255 ||
(!REG_EQUAL
(aa
->s1
, ab
->s1
) && !REG_EQUAL
(aa
->s1
, ab
->s0
)))
256 return
yyerror ("Source multiplication register mismatch");
262 /* Check mac option. */
265 check_macfunc_option
(Macfunc
*a
, Opt_mode
*opt
)
267 /* Default option is always valid. */
271 if
((a
->w
== 1 && a
->P
== 1
272 && opt
->mod
!= M_FU
&& opt
->mod
!= M_IS
&& opt
->mod
!= M_IU
273 && opt
->mod
!= M_S2RND
&& opt
->mod
!= M_ISS2
)
274 ||
(a
->w
== 1 && a
->P
== 0
275 && opt
->mod
!= M_FU
&& opt
->mod
!= M_IS
&& opt
->mod
!= M_IU
276 && opt
->mod
!= M_T
&& opt
->mod
!= M_TFU
&& opt
->mod
!= M_S2RND
277 && opt
->mod
!= M_ISS2
&& opt
->mod
!= M_IH
)
278 ||
(a
->w
== 0 && a
->P
== 0
279 && opt
->mod
!= M_FU
&& opt
->mod
!= M_IS
&& opt
->mod
!= M_W32
))
285 /* Check (vector) mac funcs and ops. */
288 check_macfuncs
(Macfunc
*aa
, Opt_mode
*opa
,
289 Macfunc
*ab
, Opt_mode
*opb
)
291 /* Variables for swapping. */
295 /* The option mode should be put at the end of the second instruction
296 of the vector except M, which should follow MAC1 instruction. */
298 return
yyerror ("Bad opt mode");
300 /* If a0macfunc comes before a1macfunc, swap them. */
304 /* (M) is not allowed here. */
306 return
yyerror ("(M) not allowed with A0MAC");
308 return
yyerror ("Vector AxMACs can't be same");
310 mtmp
= *aa
; *aa
= *ab
; *ab
= mtmp
;
311 otmp
= *opa
; *opa
= *opb
; *opb
= otmp
;
316 return
yyerror ("(M) not allowed with A0MAC");
318 return
yyerror ("Vector AxMACs can't be same");
321 /* If both ops are one of 0, 1, or 2, we have multiply_halfregs in both
322 assignment_or_macfuncs. */
323 if
((aa
->op
== 0 || aa
->op
== 1 || aa
->op
== 2)
324 && (ab
->op
== 0 || ab
->op
== 1 || ab
->op
== 2))
326 if
(check_multiply_halfregs
(aa
, ab
) < 0)
331 /* Only one of the assign_macfuncs has a half reg multiply
332 Evil trick: Just 'OR' their source register codes:
333 We can do that, because we know they were initialized to 0
334 in the rules that don't use multiply_halfregs. */
335 aa
->s0.regno |
= (ab
->s0.regno
& CODE_MASK
);
336 aa
->s1.regno |
= (ab
->s1.regno
& CODE_MASK
);
339 if
(aa
->w
== ab
->w
&& aa
->P
!= ab
->P
)
341 return
yyerror ("macfuncs must differ");
342 if
(aa
->w
&& (aa
->dst.regno
- ab
->dst.regno
!= 1))
343 return
yyerror ("Destination Dregs must differ by one");
346 /* Make sure mod flags get ORed, too. */
347 opb
->mod |
= opa
->mod
;
350 if
(check_macfunc_option
(aa
, opb
) < 0
351 && check_macfunc_option
(ab
, opb
) < 0)
352 return
yyerror ("bad option");
354 /* Make sure first macfunc has got both P flags ORed. */
362 is_group1
(INSTR_T x
)
364 /* Group1 is dpsLDST, LDSTpmod, LDST, LDSTiiFP, LDSTii. */
365 if
((x
->value
& 0xc000) == 0x8000 ||
(x
->value
== 0x0000))
372 is_group2
(INSTR_T x
)
374 if
((((x
->value
& 0xfc00) == 0x9c00) /* dspLDST. */
375 && !((x
->value
& 0xfde0) == 0x9c60) /* dagMODim. */
376 && !((x
->value
& 0xfde0) == 0x9ce0) /* dagMODim with bit rev. */
377 && !((x
->value
& 0xfde0) == 0x9d60)) /* pick dagMODik. */
378 ||
(x
->value
== 0x0000))
389 if
((x
->value
& 0xf000) == 0x8000)
391 int aop
= ((x
->value
>> 9) & 0x3);
392 int w
= ((x
->value
>> 11) & 0x1);
398 if
(((x
->value
& 0xFF60) == 0x9E60) ||
/* dagMODim_0 */
399 ((x
->value
& 0xFFF0) == 0x9F60)) /* dagMODik_0 */
402 /* decode_dspLDST_0 */
403 if
((x
->value
& 0xFC00) == 0x9C00)
405 int w
= ((x
->value
>> 9) & 0x1);
414 gen_multi_instr_1
(INSTR_T dsp32
, INSTR_T dsp16_grp1
, INSTR_T dsp16_grp2
)
416 int mask1
= dsp32 ? insn_regmask
(dsp32
->value
, dsp32
->next
->value
) : 0;
417 int mask2
= dsp16_grp1 ? insn_regmask
(dsp16_grp1
->value
, 0) : 0;
418 int mask3
= dsp16_grp2 ? insn_regmask
(dsp16_grp2
->value
, 0) : 0;
420 if
((mask1
& mask2
) ||
(mask1
& mask3
) ||
(mask2
& mask3
))
421 yyerror ("resource conflict in multi-issue instruction");
423 /* Anomaly 05000074 */
424 if
(ENABLE_AC_05000074
425 && dsp32
!= NULL
&& dsp16_grp1
!= NULL
426 && (dsp32
->value
& 0xf780) == 0xc680
427 && ((dsp16_grp1
->value
& 0xfe40) == 0x9240
428 ||
(dsp16_grp1
->value
& 0xfe08) == 0xba08
429 ||
(dsp16_grp1
->value
& 0xfc00) == 0xbc00))
430 yyerror ("anomaly 05000074 - Multi-Issue Instruction with \
431 dsp32shiftimm in slot1 and P-reg Store in slot2 Not Supported");
433 if
(is_store
(dsp16_grp1
) && is_store
(dsp16_grp2
))
434 yyerror ("Only one instruction in multi-issue instruction can be a store");
436 return bfin_gen_multi_instr
(dsp32
, dsp16_grp1
, dsp16_grp2
);
448 struct { int r0
; int s0
; int x0
; int aop
; } modcodes
;
449 struct { int r0
; } r0
;
456 /* Vector Specific. */
457 %token BYTEOP16P BYTEOP16M
458 %token BYTEOP1P BYTEOP2P BYTEOP2M BYTEOP3P
459 %token BYTEUNPACK BYTEPACK
462 %token ALIGN8 ALIGN16 ALIGN24
464 %token EXTRACT DEPOSIT EXPADJ SEARCH
465 %token ONES SIGN SIGNBITS
473 %token CCREG BYTE_DREG
474 %token REG_A_DOUBLE_ZERO REG_A_DOUBLE_ONE
475 %token A_ZERO_DOT_L A_ZERO_DOT_H A_ONE_DOT_L A_ONE_DOT_H
480 %token RTI RTS RTX RTN RTE
491 %token JUMP JUMP_DOT_S JUMP_DOT_L
498 %token NOT TILDA BANG
504 %token MINUS PLUS STAR SLASH
508 %token _PLUS_BAR_PLUS _PLUS_BAR_MINUS _MINUS_BAR_PLUS _MINUS_BAR_MINUS
509 %token _MINUS_MINUS _PLUS_PLUS
511 /* Shift/rotate ops. */
512 %token SHIFT LSHIFT ASHIFT BXORSHIFT
513 %token _GREATER_GREATER_GREATER_THAN_ASSIGN
515 %token LESS_LESS GREATER_GREATER
516 %token _GREATER_GREATER_GREATER
517 %token _LESS_LESS_ASSIGN _GREATER_GREATER_ASSIGN
520 /* In place operators. */
521 %token ASSIGN _STAR_ASSIGN
522 %token _BAR_ASSIGN _CARET_ASSIGN _AMPERSAND_ASSIGN
523 %token _MINUS_ASSIGN _PLUS_ASSIGN
525 /* Assignments, comparisons. */
526 %token _ASSIGN_BANG _LESS_THAN_ASSIGN _ASSIGN_ASSIGN
531 %token FLUSHINV FLUSH
532 %token IFLUSH PREFETCH
549 %token R RND RNDL RNDH RND12 RND20
554 %token BITTGL BITCLR BITSET BITTST BITMUX
557 %token DBGAL DBGAH DBGHALT DBG DBGA DBGCMPLX
559 /* Semantic auxiliaries. */
562 %token COLON SEMICOLON
563 %token RPAREN LPAREN LBRACK RBRACK
567 %token GOT GOT17M4 FUNCDESC_GOT17M4
577 %type
<modcodes
> byteop_mod
579 %type
<reg
> a_plusassign
580 %type
<reg
> a_minusassign
581 %type
<macfunc
> multiply_halfregs
582 %type
<macfunc
> assign_macfunc
583 %type
<macfunc
> a_macfunc
587 %type
<modcodes
> vsmod
588 %type
<modcodes
> ccstat
591 %type
<reg
> reg_with_postinc
592 %type
<reg
> reg_with_predec
596 %type
<symbol
> SYMBOL
599 %type
<reg
> BYTE_DREG
600 %type
<reg
> REG_A_DOUBLE_ZERO
601 %type
<reg
> REG_A_DOUBLE_ONE
603 %type
<reg
> STATUS_REG
607 %type
<modcodes
> smod
608 %type
<modcodes
> b3_op
609 %type
<modcodes
> rnd_op
610 %type
<modcodes
> post_op
612 %type
<r0
> iu_or_nothing
613 %type
<r0
> plus_minus
617 %type
<modcodes
> amod0
618 %type
<modcodes
> amod1
619 %type
<modcodes
> amod2
621 %type
<r0
> w32_or_nothing
625 %type
<expr
> got_or_expr
627 %type
<value
> any_gotrel GOT GOT17M4 FUNCDESC_GOT17M4
629 /* Precedence rules. */
633 %left LESS_LESS GREATER_GREATER
635 %left STAR SLASH PERCENT
646 if
(insn
== (INSTR_T
) 0)
647 return NO_INSN_GENERATED
;
648 else if
(insn
== (INSTR_T
) - 1)
649 return SEMANTIC_ERROR
;
651 return INSN_GENERATED
;
656 /* Parallel instructions. */
657 | asm_1 DOUBLE_BAR asm_1 DOUBLE_BAR asm_1 SEMICOLON
659 if
(($1->value
& 0xf800) == 0xc000)
661 if
(is_group1
($3) && is_group2
($5))
662 $$
= gen_multi_instr_1
($1, $3, $5);
663 else if
(is_group2
($3) && is_group1
($5))
664 $$
= gen_multi_instr_1
($1, $5, $3);
666 return
yyerror ("Wrong 16 bit instructions groups, slot 2 and slot 3 must be 16-bit instrution group");
668 else if
(($3->value
& 0xf800) == 0xc000)
670 if
(is_group1
($1) && is_group2
($5))
671 $$
= gen_multi_instr_1
($3, $1, $5);
672 else if
(is_group2
($1) && is_group1
($5))
673 $$
= gen_multi_instr_1
($3, $5, $1);
675 return
yyerror ("Wrong 16 bit instructions groups, slot 1 and slot 3 must be 16-bit instrution group");
677 else if
(($5->value
& 0xf800) == 0xc000)
679 if
(is_group1
($1) && is_group2
($3))
680 $$
= gen_multi_instr_1
($5, $1, $3);
681 else if
(is_group2
($1) && is_group1
($3))
682 $$
= gen_multi_instr_1
($5, $3, $1);
684 return
yyerror ("Wrong 16 bit instructions groups, slot 1 and slot 2 must be 16-bit instrution group");
687 error ("\nIllegal Multi Issue Construct, at least any one of the slot must be DSP32 instruction group\n");
690 | asm_1 DOUBLE_BAR asm_1 SEMICOLON
692 if
(($1->value
& 0xf800) == 0xc000)
695 $$
= gen_multi_instr_1
($1, $3, 0);
696 else if
(is_group2
($3))
697 $$
= gen_multi_instr_1
($1, 0, $3);
699 return
yyerror ("Wrong 16 bit instructions groups, slot 2 must be the 16-bit instruction group");
701 else if
(($3->value
& 0xf800) == 0xc000)
704 $$
= gen_multi_instr_1
($3, $1, 0);
705 else if
(is_group2
($1))
706 $$
= gen_multi_instr_1
($3, 0, $1);
708 return
yyerror ("Wrong 16 bit instructions groups, slot 1 must be the 16-bit instruction group");
710 else if
(is_group1
($1) && is_group2
($3))
711 $$
= gen_multi_instr_1
(0, $1, $3);
712 else if
(is_group2
($1) && is_group1
($3))
713 $$
= gen_multi_instr_1
(0, $3, $1);
715 return
yyerror ("Wrong 16 bit instructions groups, slot 1 and slot 2 must be the 16-bit instruction group");
730 $$
= DSP32MAC
(3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 3, 0, 0, 0);
732 | assign_macfunc opt_mode
736 int h00
, h10
, h01
, h11
;
738 if
(check_macfunc_option
(&$1, &$2) < 0)
739 return
yyerror ("bad option");
744 return
yyerror ("(m) not allowed with a0 unit");
763 $$
= DSP32MAC
(op1
, $2.MM
, $2.mod
, w1
, $1.P
, h01
, h11
, h00
, h10
,
764 &$1.dst
, op0
, &$1.s0
, &$1.s1
, w0
);
770 | assign_macfunc opt_mode COMMA assign_macfunc opt_mode
774 if
(check_macfuncs
(&$1, &$2, &$4, &$5) < 0)
776 notethat
("assign_macfunc (.), assign_macfunc (.)\n");
783 $$
= DSP32MAC
($1.op
, $2.MM
, $5.mod
, $1.w
, $1.P
,
784 IS_H
($1.s0
), IS_H
($1.s1
), IS_H
($4.s0
), IS_H
($4.s1
),
785 dst
, $4.op
, &$1.s0
, &$1.s1
, $4.w
);
792 notethat
("dsp32alu: DISALGNEXCPT\n");
793 $$
= DSP32ALU
(18, 0, 0, 0, 0, 0, 0, 0, 3);
795 | REG ASSIGN LPAREN a_plusassign REG_A RPAREN
797 if
(IS_DREG
($1) && !IS_A1
($4) && IS_A1
($5))
799 notethat
("dsp32alu: dregs = ( A0 += A1 )\n");
800 $$
= DSP32ALU
(11, 0, 0, &$1, 0, 0, 0, 0, 0);
803 return
yyerror ("Register mismatch");
805 | HALF_REG ASSIGN LPAREN a_plusassign REG_A RPAREN
807 if
(!IS_A1
($4) && IS_A1
($5))
809 notethat
("dsp32alu: dregs_half = ( A0 += A1 )\n");
810 $$
= DSP32ALU
(11, IS_H
($1), 0, &$1, 0, 0, 0, 0, 1);
813 return
yyerror ("Register mismatch");
815 | A_ZERO_DOT_H ASSIGN HALF_REG
817 notethat
("dsp32alu: A_ZERO_DOT_H = dregs_hi\n");
818 $$
= DSP32ALU
(9, IS_H
($3), 0, 0, &$3, 0, 0, 0, 0);
820 | A_ONE_DOT_H ASSIGN HALF_REG
822 notethat
("dsp32alu: A_ZERO_DOT_H = dregs_hi\n");
823 $$
= DSP32ALU
(9, IS_H
($3), 0, 0, &$3, 0, 0, 0, 2);
825 | LPAREN REG COMMA REG RPAREN ASSIGN BYTEOP16P LPAREN REG
826 COLON expr COMMA REG COLON expr RPAREN aligndir
828 if
(!IS_DREG
($2) ||
!IS_DREG
($4))
829 return
yyerror ("Dregs expected");
830 else if
(!valid_dreg_pair
(&$9, $11))
831 return
yyerror ("Bad dreg pair");
832 else if
(!valid_dreg_pair
(&$13, $15))
833 return
yyerror ("Bad dreg pair");
836 notethat
("dsp32alu: (dregs , dregs ) = BYTEOP16P (dregs_pair , dregs_pair ) (aligndir)\n");
837 $$
= DSP32ALU
(21, 0, &$2, &$4, &$9, &$13, $17.r0
, 0, 0);
841 | LPAREN REG COMMA REG RPAREN ASSIGN BYTEOP16M LPAREN REG COLON expr COMMA
842 REG COLON expr RPAREN aligndir
844 if
(!IS_DREG
($2) ||
!IS_DREG
($4))
845 return
yyerror ("Dregs expected");
846 else if
(!valid_dreg_pair
(&$9, $11))
847 return
yyerror ("Bad dreg pair");
848 else if
(!valid_dreg_pair
(&$13, $15))
849 return
yyerror ("Bad dreg pair");
852 notethat
("dsp32alu: (dregs , dregs ) = BYTEOP16M (dregs_pair , dregs_pair ) (aligndir)\n");
853 $$
= DSP32ALU
(21, 0, &$2, &$4, &$9, &$13, $17.r0
, 0, 1);
857 | LPAREN REG COMMA REG RPAREN ASSIGN BYTEUNPACK REG COLON expr aligndir
859 if
(!IS_DREG
($2) ||
!IS_DREG
($4))
860 return
yyerror ("Dregs expected");
861 else if
(!valid_dreg_pair
(&$8, $10))
862 return
yyerror ("Bad dreg pair");
865 notethat
("dsp32alu: (dregs , dregs ) = BYTEUNPACK dregs_pair (aligndir)\n");
866 $$
= DSP32ALU
(24, 0, &$2, &$4, &$8, 0, $11.r0
, 0, 1);
869 | LPAREN REG COMMA REG RPAREN ASSIGN SEARCH REG LPAREN searchmod RPAREN
871 if
(IS_DREG
($2) && IS_DREG
($4) && IS_DREG
($8))
873 notethat
("dsp32alu: (dregs , dregs ) = SEARCH dregs (searchmod)\n");
874 $$
= DSP32ALU
(13, 0, &$2, &$4, &$8, 0, 0, 0, $10.r0
);
877 return
yyerror ("Register mismatch");
879 | REG ASSIGN A_ONE_DOT_L PLUS A_ONE_DOT_H COMMA
880 REG ASSIGN A_ZERO_DOT_L PLUS A_ZERO_DOT_H
882 if
(IS_DREG
($1) && IS_DREG
($7))
884 notethat
("dsp32alu: dregs = A1.l + A1.h, dregs = A0.l + A0.h \n");
885 $$
= DSP32ALU
(12, 0, &$1, &$7, 0, 0, 0, 0, 1);
888 return
yyerror ("Register mismatch");
892 | REG ASSIGN REG_A PLUS REG_A COMMA REG ASSIGN REG_A MINUS REG_A amod1
894 if
(IS_DREG
($1) && IS_DREG
($7) && !REG_SAME
($3, $5)
895 && IS_A1
($9) && !IS_A1
($11))
897 notethat
("dsp32alu: dregs = A1 + A0 , dregs = A1 - A0 (amod1)\n");
898 $$
= DSP32ALU
(17, 0, &$1, &$7, 0, 0, $12.s0
, $12.x0
, 0);
901 else if
(IS_DREG
($1) && IS_DREG
($7) && !REG_SAME
($3, $5)
902 && !IS_A1
($9) && IS_A1
($11))
904 notethat
("dsp32alu: dregs = A0 + A1 , dregs = A0 - A1 (amod1)\n");
905 $$
= DSP32ALU
(17, 0, &$1, &$7, 0, 0, $12.s0
, $12.x0
, 1);
908 return
yyerror ("Register mismatch");
911 | REG ASSIGN REG plus_minus REG COMMA REG ASSIGN REG plus_minus REG amod1
914 return
yyerror ("Operators must differ");
916 if
(IS_DREG
($1) && IS_DREG
($3) && IS_DREG
($5)
917 && REG_SAME
($3, $9) && REG_SAME
($5, $11))
919 notethat
("dsp32alu: dregs = dregs + dregs,"
920 "dregs = dregs - dregs (amod1)\n");
921 $$
= DSP32ALU
(4, 0, &$1, &$7, &$3, &$5, $12.s0
, $12.x0
, 2);
924 return
yyerror ("Register mismatch");
927 /* Bar Operations. */
929 | REG ASSIGN REG op_bar_op REG COMMA REG ASSIGN REG op_bar_op REG amod2
931 if
(!REG_SAME
($3, $9) ||
!REG_SAME
($5, $11))
932 return
yyerror ("Differing source registers");
934 if
(!IS_DREG
($1) ||
!IS_DREG
($3) ||
!IS_DREG
($5) ||
!IS_DREG
($7))
935 return
yyerror ("Dregs expected");
938 if
($4.r0
== 1 && $10.r0
== 2)
940 notethat
("dsp32alu: dregs = dregs .|. dregs , dregs = dregs .|. dregs (amod2)\n");
941 $$
= DSP32ALU
(1, 1, &$1, &$7, &$3, &$5, $12.s0
, $12.x0
, $12.r0
);
943 else if
($4.r0
== 0 && $10.r0
== 3)
945 notethat
("dsp32alu: dregs = dregs .|. dregs , dregs = dregs .|. dregs (amod2)\n");
946 $$
= DSP32ALU
(1, 0, &$1, &$7, &$3, &$5, $12.s0
, $12.x0
, $12.r0
);
949 return
yyerror ("Bar operand mismatch");
952 | REG ASSIGN ABS REG vmod
956 if
(IS_DREG
($1) && IS_DREG
($4))
960 notethat
("dsp32alu: dregs = ABS dregs (v)\n");
965 /* Vector version of ABS. */
966 notethat
("dsp32alu: dregs = ABS dregs\n");
969 $$
= DSP32ALU
(op
, 0, 0, &$1, &$4, 0, 0, 0, 2);
972 return
yyerror ("Dregs expected");
976 notethat
("dsp32alu: Ax = ABS Ax\n");
977 $$
= DSP32ALU
(16, IS_A1
($1), 0, 0, 0, 0, 0, 0, IS_A1
($3));
979 | A_ZERO_DOT_L ASSIGN HALF_REG
983 notethat
("dsp32alu: A0.l = reg_half\n");
984 $$
= DSP32ALU
(9, IS_H
($3), 0, 0, &$3, 0, 0, 0, 0);
987 return
yyerror ("A0.l = Rx.l expected");
989 | A_ONE_DOT_L ASSIGN HALF_REG
993 notethat
("dsp32alu: A1.l = reg_half\n");
994 $$
= DSP32ALU
(9, IS_H
($3), 0, 0, &$3, 0, 0, 0, 2);
997 return
yyerror ("A1.l = Rx.l expected");
1000 | REG ASSIGN c_align LPAREN REG COMMA REG RPAREN
1002 if
(IS_DREG
($1) && IS_DREG
($5) && IS_DREG
($7))
1004 notethat
("dsp32shift: dregs = ALIGN8 (dregs , dregs )\n");
1005 $$
= DSP32SHIFT
(13, &$1, &$7, &$5, $3.r0
, 0);
1008 return
yyerror ("Dregs expected");
1011 | REG ASSIGN BYTEOP1P LPAREN REG COLON expr COMMA REG COLON expr RPAREN byteop_mod
1014 return
yyerror ("Dregs expected");
1015 else if
(!valid_dreg_pair
(&$5, $7))
1016 return
yyerror ("Bad dreg pair");
1017 else if
(!valid_dreg_pair
(&$9, $11))
1018 return
yyerror ("Bad dreg pair");
1021 notethat
("dsp32alu: dregs = BYTEOP1P (dregs_pair , dregs_pair ) (T)\n");
1022 $$
= DSP32ALU
(20, 0, 0, &$1, &$5, &$9, $13.s0
, 0, $13.r0
);
1025 | REG ASSIGN BYTEOP1P LPAREN REG COLON expr COMMA REG COLON expr RPAREN
1028 return
yyerror ("Dregs expected");
1029 else if
(!valid_dreg_pair
(&$5, $7))
1030 return
yyerror ("Bad dreg pair");
1031 else if
(!valid_dreg_pair
(&$9, $11))
1032 return
yyerror ("Bad dreg pair");
1035 notethat
("dsp32alu: dregs = BYTEOP1P (dregs_pair , dregs_pair ) (T)\n");
1036 $$
= DSP32ALU
(20, 0, 0, &$1, &$5, &$9, 0, 0, 0);
1040 | REG ASSIGN BYTEOP2P LPAREN REG COLON expr COMMA REG COLON expr RPAREN
1044 return
yyerror ("Dregs expected");
1045 else if
(!valid_dreg_pair
(&$5, $7))
1046 return
yyerror ("Bad dreg pair");
1047 else if
(!valid_dreg_pair
(&$9, $11))
1048 return
yyerror ("Bad dreg pair");
1051 notethat
("dsp32alu: dregs = BYTEOP2P (dregs_pair , dregs_pair ) (rnd_op)\n");
1052 $$
= DSP32ALU
(22, $13.r0
, 0, &$1, &$5, &$9, $13.s0
, $13.x0
, $13.aop
);
1056 | REG ASSIGN BYTEOP2M LPAREN REG COLON expr COMMA REG COLON expr RPAREN
1060 return
yyerror ("Dregs expected");
1061 else if
(!valid_dreg_pair
(&$5, $7))
1062 return
yyerror ("Bad dreg pair");
1063 else if
(!valid_dreg_pair
(&$9, $11))
1064 return
yyerror ("Bad dreg pair");
1067 notethat
("dsp32alu: dregs = BYTEOP2M (dregs_pair , dregs_pair ) (rnd_op)\n");
1068 $$
= DSP32ALU
(22, $13.r0
, 0, &$1, &$5, &$9, $13.s0
, $13.x0
, $13.aop
+ 2);
1072 | REG ASSIGN BYTEOP3P LPAREN REG COLON expr COMMA REG COLON expr RPAREN
1076 return
yyerror ("Dregs expected");
1077 else if
(!valid_dreg_pair
(&$5, $7))
1078 return
yyerror ("Bad dreg pair");
1079 else if
(!valid_dreg_pair
(&$9, $11))
1080 return
yyerror ("Bad dreg pair");
1083 notethat
("dsp32alu: dregs = BYTEOP3P (dregs_pair , dregs_pair ) (b3_op)\n");
1084 $$
= DSP32ALU
(23, $13.x0
, 0, &$1, &$5, &$9, $13.s0
, 0, 0);
1088 | REG ASSIGN BYTEPACK LPAREN REG COMMA REG RPAREN
1090 if
(IS_DREG
($1) && IS_DREG
($5) && IS_DREG
($7))
1092 notethat
("dsp32alu: dregs = BYTEPACK (dregs , dregs )\n");
1093 $$
= DSP32ALU
(24, 0, 0, &$1, &$5, &$7, 0, 0, 0);
1096 return
yyerror ("Dregs expected");
1099 | HALF_REG ASSIGN HALF_REG ASSIGN SIGN LPAREN HALF_REG RPAREN STAR
1100 HALF_REG PLUS SIGN LPAREN HALF_REG RPAREN STAR HALF_REG
1102 if
(IS_HCOMPL
($1, $3) && IS_HCOMPL
($7, $14) && IS_HCOMPL
($10, $17))
1104 notethat
("dsp32alu: dregs_hi = dregs_lo ="
1105 "SIGN (dregs_hi) * dregs_hi + "
1106 "SIGN (dregs_lo) * dregs_lo \n");
1108 $$
= DSP32ALU
(12, 0, 0, &$1, &$7, &$10, 0, 0, 0);
1111 return
yyerror ("Dregs expected");
1113 | REG ASSIGN REG plus_minus REG amod1
1115 if
(IS_DREG
($1) && IS_DREG
($3) && IS_DREG
($5))
1119 /* No saturation flag specified, generate the 16 bit variant. */
1120 notethat
("COMP3op: dregs = dregs +- dregs\n");
1121 $$
= COMP3OP
(&$1, &$3, &$5, $4.r0
);
1125 /* Saturation flag specified, generate the 32 bit variant. */
1126 notethat
("dsp32alu: dregs = dregs +- dregs (amod1)\n");
1127 $$
= DSP32ALU
(4, 0, 0, &$1, &$3, &$5, $6.s0
, $6.x0
, $4.r0
);
1131 if
(IS_PREG
($1) && IS_PREG
($3) && IS_PREG
($5) && $4.r0
== 0)
1133 notethat
("COMP3op: pregs = pregs + pregs\n");
1134 $$
= COMP3OP
(&$1, &$3, &$5, 5);
1137 return
yyerror ("Dregs expected");
1139 | REG ASSIGN min_max LPAREN REG COMMA REG RPAREN vmod
1143 if
(IS_DREG
($1) && IS_DREG
($5) && IS_DREG
($7))
1150 notethat
("dsp32alu: dregs = {MIN|MAX} (dregs, dregs)\n");
1151 $$
= DSP32ALU
(op
, 0, 0, &$1, &$5, &$7, 0, 0, $3.r0
);
1154 return
yyerror ("Dregs expected");
1157 | a_assign MINUS REG_A
1159 notethat
("dsp32alu: Ax = - Ax\n");
1160 $$
= DSP32ALU
(14, IS_A1
($1), 0, 0, 0, 0, 0, 0, IS_A1
($3));
1162 | HALF_REG ASSIGN HALF_REG plus_minus HALF_REG amod1
1164 notethat
("dsp32alu: dregs_lo = dregs_lo +- dregs_lo (amod1)\n");
1165 $$
= DSP32ALU
(2 |
$4.r0
, IS_H
($1), 0, &$1, &$3, &$5,
1166 $6.s0
, $6.x0
, HL2
($3, $5));
1168 | a_assign a_assign expr
1170 if
(EXPR_VALUE
($3) == 0 && !REG_SAME
($1, $2))
1172 notethat
("dsp32alu: A1 = A0 = 0\n");
1173 $$
= DSP32ALU
(8, 0, 0, 0, 0, 0, 0, 0, 2);
1176 return
yyerror ("Bad value, 0 expected");
1180 | a_assign REG_A LPAREN S RPAREN
1182 if
(REG_SAME
($1, $2))
1184 notethat
("dsp32alu: Ax = Ax (S)\n");
1185 $$
= DSP32ALU
(8, 0, 0, 0, 0, 0, 1, 0, IS_A1
($1));
1188 return
yyerror ("Registers must be equal");
1191 | HALF_REG ASSIGN REG LPAREN RND RPAREN
1195 notethat
("dsp32alu: dregs_half = dregs (RND)\n");
1196 $$
= DSP32ALU
(12, IS_H
($1), 0, &$1, &$3, 0, 0, 0, 3);
1199 return
yyerror ("Dregs expected");
1202 | HALF_REG ASSIGN REG plus_minus REG LPAREN RND12 RPAREN
1204 if
(IS_DREG
($3) && IS_DREG
($5))
1206 notethat
("dsp32alu: dregs_half = dregs (+-) dregs (RND12)\n");
1207 $$
= DSP32ALU
(5, IS_H
($1), 0, &$1, &$3, &$5, 0, 0, $4.r0
);
1210 return
yyerror ("Dregs expected");
1213 | HALF_REG ASSIGN REG plus_minus REG LPAREN RND20 RPAREN
1215 if
(IS_DREG
($3) && IS_DREG
($5))
1217 notethat
("dsp32alu: dregs_half = dregs -+ dregs (RND20)\n");
1218 $$
= DSP32ALU
(5, IS_H
($1), 0, &$1, &$3, &$5, 0, 1, $4.r0 |
2);
1221 return
yyerror ("Dregs expected");
1226 if
(!REG_SAME
($1, $2))
1228 notethat
("dsp32alu: An = Am\n");
1229 $$
= DSP32ALU
(8, 0, 0, 0, 0, 0, IS_A1
($1), 0, 3);
1232 return
yyerror ("Accu reg arguments must differ");
1239 notethat
("dsp32alu: An = dregs\n");
1240 $$
= DSP32ALU
(9, 0, 0, 0, &$2, 0, 1, 0, IS_A1
($1) << 1);
1243 return
yyerror ("Dregs expected");
1246 | REG ASSIGN HALF_REG xpmod
1250 if
($1.regno
== REG_A0x
&& IS_DREG
($3))
1252 notethat
("dsp32alu: A0.x = dregs_lo\n");
1253 $$
= DSP32ALU
(9, 0, 0, 0, &$3, 0, 0, 0, 1);
1255 else if
($1.regno
== REG_A1x
&& IS_DREG
($3))
1257 notethat
("dsp32alu: A1.x = dregs_lo\n");
1258 $$
= DSP32ALU
(9, 0, 0, 0, &$3, 0, 0, 0, 3);
1260 else if
(IS_DREG
($1) && IS_DREG
($3))
1262 notethat
("ALU2op: dregs = dregs_lo\n");
1263 $$
= ALU2OP
(&$1, &$3, 10 |
($4.r0 ?
0: 1));
1266 return
yyerror ("Register mismatch");
1269 return
yyerror ("Low reg expected");
1272 | HALF_REG ASSIGN expr
1274 notethat
("LDIMMhalf: pregs_half = imm16\n");
1276 if
(!IS_DREG
($1) && !IS_PREG
($1) && !IS_IREG
($1)
1277 && !IS_MREG
($1) && !IS_BREG
($1) && !IS_LREG
($1))
1278 return
yyerror ("Wrong register for load immediate");
1280 if
(!IS_IMM
($3, 16) && !IS_UIMM
($3, 16))
1281 return
yyerror ("Constant out of range");
1283 $$
= LDIMMHALF_R
(&$1, IS_H
($1), 0, 0, $3);
1288 notethat
("dsp32alu: An = 0\n");
1291 return
yyerror ("0 expected");
1293 $$
= DSP32ALU
(8, 0, 0, 0, 0, 0, 0, 0, IS_A1
($1));
1296 | REG ASSIGN expr xpmod1
1298 if
(!IS_DREG
($1) && !IS_PREG
($1) && !IS_IREG
($1)
1299 && !IS_MREG
($1) && !IS_BREG
($1) && !IS_LREG
($1))
1300 return
yyerror ("Wrong register for load immediate");
1304 /* 7 bit immediate value if possible.
1305 We will check for that constant value for efficiency
1306 If it goes to reloc, it will be 16 bit. */
1307 if
(IS_CONST
($3) && IS_IMM
($3, 7) && IS_DREG
($1))
1309 notethat
("COMPI2opD: dregs = imm7 (x) \n");
1310 $$
= COMPI2OPD
(&$1, imm7
($3), 0);
1312 else if
(IS_CONST
($3) && IS_IMM
($3, 7) && IS_PREG
($1))
1314 notethat
("COMPI2opP: pregs = imm7 (x)\n");
1315 $$
= COMPI2OPP
(&$1, imm7
($3), 0);
1319 if
(IS_CONST
($3) && !IS_IMM
($3, 16))
1320 return
yyerror ("Immediate value out of range");
1322 notethat
("LDIMMhalf: regs = luimm16 (x)\n");
1324 $$
= LDIMMHALF_R5
(&$1, 0, 1, 0, $3);
1329 /* (z) There is no 7 bit zero extended instruction.
1330 If the expr is a relocation, generate it. */
1332 if
(IS_CONST
($3) && !IS_UIMM
($3, 16))
1333 return
yyerror ("Immediate value out of range");
1335 notethat
("LDIMMhalf: regs = luimm16 (x)\n");
1337 $$
= LDIMMHALF_R5
(&$1, 0, 0, 1, $3);
1341 | HALF_REG ASSIGN REG
1344 return
yyerror ("Low reg expected");
1346 if
(IS_DREG
($1) && $3.regno
== REG_A0x
)
1348 notethat
("dsp32alu: dregs_lo = A0.x\n");
1349 $$
= DSP32ALU
(10, 0, 0, &$1, 0, 0, 0, 0, 0);
1351 else if
(IS_DREG
($1) && $3.regno
== REG_A1x
)
1353 notethat
("dsp32alu: dregs_lo = A1.x\n");
1354 $$
= DSP32ALU
(10, 0, 0, &$1, 0, 0, 0, 0, 1);
1357 return
yyerror ("Register mismatch");
1360 | REG ASSIGN REG op_bar_op REG amod0
1362 if
(IS_DREG
($1) && IS_DREG
($3) && IS_DREG
($5))
1364 notethat
("dsp32alu: dregs = dregs .|. dregs (amod0)\n");
1365 $$
= DSP32ALU
(0, 0, 0, &$1, &$3, &$5, $6.s0
, $6.x0
, $4.r0
);
1368 return
yyerror ("Register mismatch");
1371 | REG ASSIGN BYTE_DREG xpmod
1373 if
(IS_DREG
($1) && IS_DREG
($3))
1375 notethat
("ALU2op: dregs = dregs_byte\n");
1376 $$
= ALU2OP
(&$1, &$3, 12 |
($4.r0 ?
0: 1));
1379 return
yyerror ("Register mismatch");
1382 | a_assign ABS REG_A COMMA a_assign ABS REG_A
1384 if
(REG_SAME
($1, $3) && REG_SAME
($5, $7) && !REG_SAME
($1, $5))
1386 notethat
("dsp32alu: A1 = ABS A1 , A0 = ABS A0\n");
1387 $$
= DSP32ALU
(16, 0, 0, 0, 0, 0, 0, 0, 3);
1390 return
yyerror ("Register mismatch");
1393 | a_assign MINUS REG_A COMMA a_assign MINUS REG_A
1395 if
(REG_SAME
($1, $3) && REG_SAME
($5, $7) && !REG_SAME
($1, $5))
1397 notethat
("dsp32alu: A1 = - A1 , A0 = - A0\n");
1398 $$
= DSP32ALU
(14, 0, 0, 0, 0, 0, 0, 0, 3);
1401 return
yyerror ("Register mismatch");
1404 | a_minusassign REG_A w32_or_nothing
1406 if
(!IS_A1
($1) && IS_A1
($2))
1408 notethat
("dsp32alu: A0 -= A1\n");
1409 $$
= DSP32ALU
(11, 0, 0, 0, 0, 0, $3.r0
, 0, 3);
1412 return
yyerror ("Register mismatch");
1415 | REG _MINUS_ASSIGN expr
1417 if
(IS_IREG
($1) && EXPR_VALUE
($3) == 4)
1419 notethat
("dagMODik: iregs -= 4\n");
1420 $$
= DAGMODIK
(&$1, 3);
1422 else if
(IS_IREG
($1) && EXPR_VALUE
($3) == 2)
1424 notethat
("dagMODik: iregs -= 2\n");
1425 $$
= DAGMODIK
(&$1, 1);
1428 return
yyerror ("Register or value mismatch");
1431 | REG _PLUS_ASSIGN REG LPAREN BREV RPAREN
1433 if
(IS_IREG
($1) && IS_MREG
($3))
1435 notethat
("dagMODim: iregs += mregs (opt_brev)\n");
1437 $$
= DAGMODIM
(&$1, &$3, 0, 1);
1439 else if
(IS_PREG
($1) && IS_PREG
($3))
1441 notethat
("PTR2op: pregs += pregs (BREV )\n");
1442 $$
= PTR2OP
(&$1, &$3, 5);
1445 return
yyerror ("Register mismatch");
1448 | REG _MINUS_ASSIGN REG
1450 if
(IS_IREG
($1) && IS_MREG
($3))
1452 notethat
("dagMODim: iregs -= mregs\n");
1453 $$
= DAGMODIM
(&$1, &$3, 1, 0);
1455 else if
(IS_PREG
($1) && IS_PREG
($3))
1457 notethat
("PTR2op: pregs -= pregs\n");
1458 $$
= PTR2OP
(&$1, &$3, 0);
1461 return
yyerror ("Register mismatch");
1464 | REG_A _PLUS_ASSIGN REG_A w32_or_nothing
1466 if
(!IS_A1
($1) && IS_A1
($3))
1468 notethat
("dsp32alu: A0 += A1 (W32)\n");
1469 $$
= DSP32ALU
(11, 0, 0, 0, 0, 0, $4.r0
, 0, 2);
1472 return
yyerror ("Register mismatch");
1475 | REG _PLUS_ASSIGN REG
1477 if
(IS_IREG
($1) && IS_MREG
($3))
1479 notethat
("dagMODim: iregs += mregs\n");
1480 $$
= DAGMODIM
(&$1, &$3, 0, 0);
1483 return
yyerror ("iregs += mregs expected");
1486 | REG _PLUS_ASSIGN expr
1490 if
(EXPR_VALUE
($3) == 4)
1492 notethat
("dagMODik: iregs += 4\n");
1493 $$
= DAGMODIK
(&$1, 2);
1495 else if
(EXPR_VALUE
($3) == 2)
1497 notethat
("dagMODik: iregs += 2\n");
1498 $$
= DAGMODIK
(&$1, 0);
1501 return
yyerror ("iregs += [ 2 | 4 ");
1503 else if
(IS_PREG
($1) && IS_IMM
($3, 7))
1505 notethat
("COMPI2opP: pregs += imm7\n");
1506 $$
= COMPI2OPP
(&$1, imm7
($3), 1);
1508 else if
(IS_DREG
($1) && IS_IMM
($3, 7))
1510 notethat
("COMPI2opD: dregs += imm7\n");
1511 $$
= COMPI2OPD
(&$1, imm7
($3), 1);
1513 else if
((IS_DREG
($1) || IS_PREG
($1)) && IS_CONST
($3))
1514 return
yyerror ("Immediate value out of range");
1516 return
yyerror ("Register mismatch");
1519 | REG _STAR_ASSIGN REG
1521 if
(IS_DREG
($1) && IS_DREG
($3))
1523 notethat
("ALU2op: dregs *= dregs\n");
1524 $$
= ALU2OP
(&$1, &$3, 3);
1527 return
yyerror ("Register mismatch");
1530 | SAA LPAREN REG COLON expr COMMA REG COLON expr RPAREN aligndir
1532 if
(!valid_dreg_pair
(&$3, $5))
1533 return
yyerror ("Bad dreg pair");
1534 else if
(!valid_dreg_pair
(&$7, $9))
1535 return
yyerror ("Bad dreg pair");
1538 notethat
("dsp32alu: SAA (dregs_pair , dregs_pair ) (aligndir)\n");
1539 $$
= DSP32ALU
(18, 0, 0, 0, &$3, &$7, $11.r0
, 0, 0);
1543 | a_assign REG_A LPAREN S RPAREN COMMA a_assign REG_A LPAREN S RPAREN
1545 if
(REG_SAME
($1, $2) && REG_SAME
($7, $8) && !REG_SAME
($1, $7))
1547 notethat
("dsp32alu: A1 = A1 (S) , A0 = A0 (S)\n");
1548 $$
= DSP32ALU
(8, 0, 0, 0, 0, 0, 1, 0, 2);
1551 return
yyerror ("Register mismatch");
1554 | REG ASSIGN LPAREN REG PLUS REG RPAREN LESS_LESS expr
1556 if
(IS_DREG
($1) && IS_DREG
($4) && IS_DREG
($6)
1557 && REG_SAME
($1, $4))
1559 if
(EXPR_VALUE
($9) == 1)
1561 notethat
("ALU2op: dregs = (dregs + dregs) << 1\n");
1562 $$
= ALU2OP
(&$1, &$6, 4);
1564 else if
(EXPR_VALUE
($9) == 2)
1566 notethat
("ALU2op: dregs = (dregs + dregs) << 2\n");
1567 $$
= ALU2OP
(&$1, &$6, 5);
1570 return
yyerror ("Bad shift value");
1572 else if
(IS_PREG
($1) && IS_PREG
($4) && IS_PREG
($6)
1573 && REG_SAME
($1, $4))
1575 if
(EXPR_VALUE
($9) == 1)
1577 notethat
("PTR2op: pregs = (pregs + pregs) << 1\n");
1578 $$
= PTR2OP
(&$1, &$6, 6);
1580 else if
(EXPR_VALUE
($9) == 2)
1582 notethat
("PTR2op: pregs = (pregs + pregs) << 2\n");
1583 $$
= PTR2OP
(&$1, &$6, 7);
1586 return
yyerror ("Bad shift value");
1589 return
yyerror ("Register mismatch");
1593 | REG ASSIGN REG BAR REG
1595 if
(IS_DREG
($1) && IS_DREG
($3) && IS_DREG
($5))
1597 notethat
("COMP3op: dregs = dregs | dregs\n");
1598 $$
= COMP3OP
(&$1, &$3, &$5, 3);
1601 return
yyerror ("Dregs expected");
1603 | REG ASSIGN REG CARET REG
1605 if
(IS_DREG
($1) && IS_DREG
($3) && IS_DREG
($5))
1607 notethat
("COMP3op: dregs = dregs ^ dregs\n");
1608 $$
= COMP3OP
(&$1, &$3, &$5, 4);
1611 return
yyerror ("Dregs expected");
1613 | REG ASSIGN REG PLUS LPAREN REG LESS_LESS expr RPAREN
1615 if
(IS_PREG
($1) && IS_PREG
($3) && IS_PREG
($6))
1617 if
(EXPR_VALUE
($8) == 1)
1619 notethat
("COMP3op: pregs = pregs + (pregs << 1)\n");
1620 $$
= COMP3OP
(&$1, &$3, &$6, 6);
1622 else if
(EXPR_VALUE
($8) == 2)
1624 notethat
("COMP3op: pregs = pregs + (pregs << 2)\n");
1625 $$
= COMP3OP
(&$1, &$3, &$6, 7);
1628 return
yyerror ("Bad shift value");
1631 return
yyerror ("Dregs expected");
1633 | CCREG ASSIGN REG_A _ASSIGN_ASSIGN REG_A
1635 if
($3.regno
== REG_A0
&& $5.regno
== REG_A1
)
1637 notethat
("CCflag: CC = A0 == A1\n");
1638 $$
= CCFLAG
(0, 0, 5, 0, 0);
1641 return
yyerror ("AREGs are in bad order or same");
1643 | CCREG ASSIGN REG_A LESS_THAN REG_A
1645 if
($3.regno
== REG_A0
&& $5.regno
== REG_A1
)
1647 notethat
("CCflag: CC = A0 < A1\n");
1648 $$
= CCFLAG
(0, 0, 6, 0, 0);
1651 return
yyerror ("AREGs are in bad order or same");
1653 | CCREG ASSIGN REG LESS_THAN REG iu_or_nothing
1655 if
((IS_DREG
($3) && IS_DREG
($5))
1656 ||
(IS_PREG
($3) && IS_PREG
($5)))
1658 notethat
("CCflag: CC = dpregs < dpregs\n");
1659 $$
= CCFLAG
(&$3, $5.regno
& CODE_MASK
, $6.r0
, 0, IS_PREG
($3) ?
1 : 0);
1662 return
yyerror ("Bad register in comparison");
1664 | CCREG ASSIGN REG LESS_THAN expr iu_or_nothing
1666 if
(!IS_DREG
($3) && !IS_PREG
($3))
1667 return
yyerror ("Bad register in comparison");
1669 if
(($6.r0
== 1 && IS_IMM
($5, 3))
1670 ||
($6.r0
== 3 && IS_UIMM
($5, 3)))
1672 notethat
("CCflag: CC = dpregs < (u)imm3\n");
1673 $$
= CCFLAG
(&$3, imm3
($5), $6.r0
, 1, IS_PREG
($3) ?
1 : 0);
1676 return
yyerror ("Bad constant value");
1678 | CCREG ASSIGN REG _ASSIGN_ASSIGN REG
1680 if
((IS_DREG
($3) && IS_DREG
($5))
1681 ||
(IS_PREG
($3) && IS_PREG
($5)))
1683 notethat
("CCflag: CC = dpregs == dpregs\n");
1684 $$
= CCFLAG
(&$3, $5.regno
& CODE_MASK
, 0, 0, IS_PREG
($3) ?
1 : 0);
1687 return
yyerror ("Bad register in comparison");
1689 | CCREG ASSIGN REG _ASSIGN_ASSIGN expr
1691 if
(!IS_DREG
($3) && !IS_PREG
($3))
1692 return
yyerror ("Bad register in comparison");
1696 notethat
("CCflag: CC = dpregs == imm3\n");
1697 $$
= CCFLAG
(&$3, imm3
($5), 0, 1, IS_PREG
($3) ?
1 : 0);
1700 return
yyerror ("Bad constant range");
1702 | CCREG ASSIGN REG_A _LESS_THAN_ASSIGN REG_A
1704 if
($3.regno
== REG_A0
&& $5.regno
== REG_A1
)
1706 notethat
("CCflag: CC = A0 <= A1\n");
1707 $$
= CCFLAG
(0, 0, 7, 0, 0);
1710 return
yyerror ("AREGs are in bad order or same");
1712 | CCREG ASSIGN REG _LESS_THAN_ASSIGN REG iu_or_nothing
1714 if
((IS_DREG
($3) && IS_DREG
($5))
1715 ||
(IS_PREG
($3) && IS_PREG
($5)))
1717 notethat
("CCflag: CC = dpregs <= dpregs (..)\n");
1718 $$
= CCFLAG
(&$3, $5.regno
& CODE_MASK
,
1719 1 + $6.r0
, 0, IS_PREG
($3) ?
1 : 0);
1722 return
yyerror ("Bad register in comparison");
1724 | CCREG ASSIGN REG _LESS_THAN_ASSIGN expr iu_or_nothing
1726 if
(!IS_DREG
($3) && !IS_PREG
($3))
1727 return
yyerror ("Bad register in comparison");
1729 if
(($6.r0
== 1 && IS_IMM
($5, 3))
1730 ||
($6.r0
== 3 && IS_UIMM
($5, 3)))
1732 notethat
("CCflag: CC = dpregs <= (u)imm3\n");
1733 $$
= CCFLAG
(&$3, imm3
($5), 1 + $6.r0
, 1, IS_PREG
($3) ?
1 : 0);
1736 return
yyerror ("Bad constant value");
1739 | REG ASSIGN REG AMPERSAND REG
1741 if
(IS_DREG
($1) && IS_DREG
($3) && IS_DREG
($5))
1743 notethat
("COMP3op: dregs = dregs & dregs\n");
1744 $$
= COMP3OP
(&$1, &$3, &$5, 2);
1747 return
yyerror ("Dregs expected");
1752 notethat
("CC2stat operation\n");
1753 $$
= bfin_gen_cc2stat
($1.r0
, $1.x0
, $1.s0
);
1758 if
((IS_GENREG
($1) && IS_GENREG
($3))
1759 ||
(IS_GENREG
($1) && IS_DAGREG
($3))
1760 ||
(IS_DAGREG
($1) && IS_GENREG
($3))
1761 ||
(IS_DAGREG
($1) && IS_DAGREG
($3))
1762 ||
(IS_GENREG
($1) && $3.regno
== REG_USP
)
1763 ||
($1.regno
== REG_USP
&& IS_GENREG
($3))
1764 ||
($1.regno
== REG_USP
&& $3.regno
== REG_USP
)
1765 ||
(IS_DREG
($1) && IS_SYSREG
($3))
1766 ||
(IS_PREG
($1) && IS_SYSREG
($3))
1767 ||
(IS_SYSREG
($1) && IS_GENREG
($3))
1768 ||
(IS_ALLREG
($1) && IS_EMUDAT
($3))
1769 ||
(IS_EMUDAT
($1) && IS_ALLREG
($3))
1770 ||
(IS_SYSREG
($1) && $3.regno
== REG_USP
))
1772 $$
= bfin_gen_regmv
(&$3, &$1);
1775 return
yyerror ("Unsupported register move");
1782 notethat
("CC2dreg: CC = dregs\n");
1783 $$
= bfin_gen_cc2dreg
(1, &$3);
1786 return
yyerror ("Only 'CC = Dreg' supported");
1793 notethat
("CC2dreg: dregs = CC\n");
1794 $$
= bfin_gen_cc2dreg
(0, &$1);
1797 return
yyerror ("Only 'Dreg = CC' supported");
1800 | CCREG _ASSIGN_BANG CCREG
1802 notethat
("CC2dreg: CC =! CC\n");
1803 $$
= bfin_gen_cc2dreg
(3, 0);
1808 | HALF_REG ASSIGN multiply_halfregs opt_mode
1810 notethat
("dsp32mult: dregs_half = multiply_halfregs (opt_mode)\n");
1812 if
(!IS_H
($1) && $4.MM
)
1813 return
yyerror ("(M) not allowed with MAC0");
1815 if
($4.mod
!= 0 && $4.mod
!= M_FU
&& $4.mod
!= M_IS
1816 && $4.mod
!= M_IU
&& $4.mod
!= M_T
&& $4.mod
!= M_TFU
1817 && $4.mod
!= M_S2RND
&& $4.mod
!= M_ISS2
&& $4.mod
!= M_IH
)
1818 return
yyerror ("bad option.");
1822 $$
= DSP32MULT
(0, $4.MM
, $4.mod
, 1, 0,
1823 IS_H
($3.s0
), IS_H
($3.s1
), 0, 0,
1824 &$1, 0, &$3.s0
, &$3.s1
, 0);
1828 $$
= DSP32MULT
(0, 0, $4.mod
, 0, 0,
1829 0, 0, IS_H
($3.s0
), IS_H
($3.s1
),
1830 &$1, 0, &$3.s0
, &$3.s1
, 1);
1834 | REG ASSIGN multiply_halfregs opt_mode
1836 /* Odd registers can use (M). */
1838 return
yyerror ("Dreg expected");
1840 if
(IS_EVEN
($1) && $4.MM
)
1841 return
yyerror ("(M) not allowed with MAC0");
1843 if
($4.mod
!= 0 && $4.mod
!= M_FU
&& $4.mod
!= M_IS
1844 && $4.mod
!= M_S2RND
&& $4.mod
!= M_ISS2
)
1845 return
yyerror ("bad option");
1849 notethat
("dsp32mult: dregs = multiply_halfregs (opt_mode)\n");
1851 $$
= DSP32MULT
(0, $4.MM
, $4.mod
, 1, 1,
1852 IS_H
($3.s0
), IS_H
($3.s1
), 0, 0,
1853 &$1, 0, &$3.s0
, &$3.s1
, 0);
1857 notethat
("dsp32mult: dregs = multiply_halfregs opt_mode\n");
1858 $$
= DSP32MULT
(0, 0, $4.mod
, 0, 1,
1859 0, 0, IS_H
($3.s0
), IS_H
($3.s1
),
1860 &$1, 0, &$3.s0
, &$3.s1
, 1);
1864 | HALF_REG ASSIGN multiply_halfregs opt_mode COMMA
1865 HALF_REG ASSIGN multiply_halfregs opt_mode
1867 if
(!IS_DREG
($1) ||
!IS_DREG
($6))
1868 return
yyerror ("Dregs expected");
1870 if
(!IS_HCOMPL
($1, $6))
1871 return
yyerror ("Dest registers mismatch");
1873 if
(check_multiply_halfregs
(&$3, &$8) < 0)
1876 if
((!IS_H
($1) && $4.MM
)
1877 ||
(!IS_H
($6) && $9.MM
))
1878 return
yyerror ("(M) not allowed with MAC0");
1880 notethat
("dsp32mult: dregs_hi = multiply_halfregs mxd_mod, "
1881 "dregs_lo = multiply_halfregs opt_mode\n");
1884 $$
= DSP32MULT
(0, $4.MM
, $9.mod
, 1, 0,
1885 IS_H
($3.s0
), IS_H
($3.s1
), IS_H
($8.s0
), IS_H
($8.s1
),
1886 &$1, 0, &$3.s0
, &$3.s1
, 1);
1888 $$
= DSP32MULT
(0, $9.MM
, $9.mod
, 1, 0,
1889 IS_H
($8.s0
), IS_H
($8.s1
), IS_H
($3.s0
), IS_H
($3.s1
),
1890 &$1, 0, &$3.s0
, &$3.s1
, 1);
1893 | REG ASSIGN multiply_halfregs opt_mode COMMA REG ASSIGN multiply_halfregs opt_mode
1895 if
(!IS_DREG
($1) ||
!IS_DREG
($6))
1896 return
yyerror ("Dregs expected");
1898 if
((IS_EVEN
($1) && $6.regno
- $1.regno
!= 1)
1899 ||
(IS_EVEN
($6) && $1.regno
- $6.regno
!= 1))
1900 return
yyerror ("Dest registers mismatch");
1902 if
(check_multiply_halfregs
(&$3, &$8) < 0)
1905 if
((IS_EVEN
($1) && $4.MM
)
1906 ||
(IS_EVEN
($6) && $9.MM
))
1907 return
yyerror ("(M) not allowed with MAC0");
1909 notethat
("dsp32mult: dregs = multiply_halfregs mxd_mod, "
1910 "dregs = multiply_halfregs opt_mode\n");
1913 $$
= DSP32MULT
(0, $9.MM
, $9.mod
, 1, 1,
1914 IS_H
($8.s0
), IS_H
($8.s1
), IS_H
($3.s0
), IS_H
($3.s1
),
1915 &$1, 0, &$3.s0
, &$3.s1
, 1);
1917 $$
= DSP32MULT
(0, $4.MM
, $9.mod
, 1, 1,
1918 IS_H
($3.s0
), IS_H
($3.s1
), IS_H
($8.s0
), IS_H
($8.s1
),
1919 &$1, 0, &$3.s0
, &$3.s1
, 1);
1924 | a_assign ASHIFT REG_A BY HALF_REG
1926 if
(!REG_SAME
($1, $3))
1927 return
yyerror ("Aregs must be same");
1929 if
(IS_DREG
($5) && !IS_H
($5))
1931 notethat
("dsp32shift: A0 = ASHIFT A0 BY dregs_lo\n");
1932 $$
= DSP32SHIFT
(3, 0, &$5, 0, 0, IS_A1
($1));
1935 return
yyerror ("Dregs expected");
1938 | HALF_REG ASSIGN ASHIFT HALF_REG BY HALF_REG smod
1940 if
(IS_DREG
($6) && !IS_H
($6))
1942 notethat
("dsp32shift: dregs_half = ASHIFT dregs_half BY dregs_lo\n");
1943 $$
= DSP32SHIFT
(0, &$1, &$6, &$4, $7.s0
, HL2
($1, $4));
1946 return
yyerror ("Dregs expected");
1949 | a_assign REG_A LESS_LESS expr
1951 if
(!REG_SAME
($1, $2))
1952 return
yyerror ("Aregs must be same");
1954 if
(IS_UIMM
($4, 5))
1956 notethat
("dsp32shiftimm: A0 = A0 << uimm5\n");
1957 $$
= DSP32SHIFTIMM
(3, 0, imm5
($4), 0, 0, IS_A1
($1));
1960 return
yyerror ("Bad shift value");
1963 | REG ASSIGN REG LESS_LESS expr vsmod
1965 if
(IS_DREG
($1) && IS_DREG
($3) && IS_UIMM
($5, 5))
1970 notethat
("dsp32shiftimm: dregs = dregs << expr (V, .)\n");
1971 $$
= DSP32SHIFTIMM
(1, &$1, imm4
($5), &$3, $6.s0 ?
1 : 2, 0);
1975 notethat
("dsp32shiftimm: dregs = dregs << uimm5 (.)\n");
1976 $$
= DSP32SHIFTIMM
(2, &$1, imm6
($5), &$3, $6.s0 ?
1 : 2, 0);
1979 else if
($6.s0
== 0 && IS_PREG
($1) && IS_PREG
($3))
1981 if
(EXPR_VALUE
($5) == 2)
1983 notethat
("PTR2op: pregs = pregs << 2\n");
1984 $$
= PTR2OP
(&$1, &$3, 1);
1986 else if
(EXPR_VALUE
($5) == 1)
1988 notethat
("COMP3op: pregs = pregs << 1\n");
1989 $$
= COMP3OP
(&$1, &$3, &$3, 5);
1992 return
yyerror ("Bad shift value");
1995 return
yyerror ("Bad shift value or register");
1997 | HALF_REG ASSIGN HALF_REG LESS_LESS expr smod
1999 if
(IS_UIMM
($5, 4))
2003 notethat
("dsp32shiftimm: dregs_half = dregs_half << uimm4 (S)\n");
2004 $$
= DSP32SHIFTIMM
(0x0, &$1, imm5
($5), &$3, $6.s0
, HL2
($1, $3));
2008 notethat
("dsp32shiftimm: dregs_half = dregs_half << uimm4\n");
2009 $$
= DSP32SHIFTIMM
(0x0, &$1, imm5
($5), &$3, 2, HL2
($1, $3));
2013 return
yyerror ("Bad shift value");
2015 | REG ASSIGN ASHIFT REG BY HALF_REG vsmod
2019 if
(IS_DREG
($1) && IS_DREG
($4) && IS_DREG
($6) && !IS_H
($6))
2024 notethat
("dsp32shift: dregs = ASHIFT dregs BY "
2025 "dregs_lo (V, .)\n");
2031 notethat
("dsp32shift: dregs = ASHIFT dregs BY dregs_lo (.)\n");
2033 $$
= DSP32SHIFT
(op
, &$1, &$6, &$4, $7.s0
, 0);
2036 return
yyerror ("Dregs expected");
2040 | HALF_REG ASSIGN EXPADJ LPAREN REG COMMA HALF_REG RPAREN vmod
2042 if
(IS_DREG_L
($1) && IS_DREG_L
($5) && IS_DREG_L
($7))
2044 notethat
("dsp32shift: dregs_lo = EXPADJ (dregs , dregs_lo )\n");
2045 $$
= DSP32SHIFT
(7, &$1, &$7, &$5, $9.r0
, 0);
2048 return
yyerror ("Bad shift value or register");
2052 | HALF_REG ASSIGN EXPADJ LPAREN HALF_REG COMMA HALF_REG RPAREN
2054 if
(IS_DREG_L
($1) && IS_DREG_L
($5) && IS_DREG_L
($7))
2056 notethat
("dsp32shift: dregs_lo = EXPADJ (dregs_lo, dregs_lo)\n");
2057 $$
= DSP32SHIFT
(7, &$1, &$7, &$5, 2, 0);
2059 else if
(IS_DREG_L
($1) && IS_DREG_H
($5) && IS_DREG_L
($7))
2061 notethat
("dsp32shift: dregs_lo = EXPADJ (dregs_hi, dregs_lo)\n");
2062 $$
= DSP32SHIFT
(7, &$1, &$7, &$5, 3, 0);
2065 return
yyerror ("Bad shift value or register");
2070 | REG ASSIGN DEPOSIT LPAREN REG COMMA REG RPAREN
2072 if
(IS_DREG
($1) && IS_DREG
($5) && IS_DREG
($7))
2074 notethat
("dsp32shift: dregs = DEPOSIT (dregs , dregs )\n");
2075 $$
= DSP32SHIFT
(10, &$1, &$7, &$5, 2, 0);
2078 return
yyerror ("Register mismatch");
2081 | REG ASSIGN DEPOSIT LPAREN REG COMMA REG RPAREN LPAREN X RPAREN
2083 if
(IS_DREG
($1) && IS_DREG
($5) && IS_DREG
($7))
2085 notethat
("dsp32shift: dregs = DEPOSIT (dregs , dregs ) (X)\n");
2086 $$
= DSP32SHIFT
(10, &$1, &$7, &$5, 3, 0);
2089 return
yyerror ("Register mismatch");
2092 | REG ASSIGN EXTRACT LPAREN REG COMMA HALF_REG RPAREN xpmod
2094 if
(IS_DREG
($1) && IS_DREG
($5) && IS_DREG_L
($7))
2096 notethat
("dsp32shift: dregs = EXTRACT (dregs, dregs_lo ) (.)\n");
2097 $$
= DSP32SHIFT
(10, &$1, &$7, &$5, $9.r0
, 0);
2100 return
yyerror ("Register mismatch");
2103 | a_assign REG_A _GREATER_GREATER_GREATER expr
2105 if
(!REG_SAME
($1, $2))
2106 return
yyerror ("Aregs must be same");
2108 if
(IS_UIMM
($4, 5))
2110 notethat
("dsp32shiftimm: Ax = Ax >>> uimm5\n");
2111 $$
= DSP32SHIFTIMM
(3, 0, -imm6
($4), 0, 0, IS_A1
($1));
2114 return
yyerror ("Shift value range error");
2116 | a_assign LSHIFT REG_A BY HALF_REG
2118 if
(REG_SAME
($1, $3) && IS_DREG_L
($5))
2120 notethat
("dsp32shift: Ax = LSHIFT Ax BY dregs_lo\n");
2121 $$
= DSP32SHIFT
(3, 0, &$5, 0, 1, IS_A1
($1));
2124 return
yyerror ("Register mismatch");
2127 | HALF_REG ASSIGN LSHIFT HALF_REG BY HALF_REG
2129 if
(IS_DREG
($1) && IS_DREG
($4) && IS_DREG_L
($6))
2131 notethat
("dsp32shift: dregs_lo = LSHIFT dregs_hi BY dregs_lo\n");
2132 $$
= DSP32SHIFT
(0, &$1, &$6, &$4, 2, HL2
($1, $4));
2135 return
yyerror ("Register mismatch");
2138 | REG ASSIGN LSHIFT REG BY HALF_REG vmod
2140 if
(IS_DREG
($1) && IS_DREG
($4) && IS_DREG_L
($6))
2142 notethat
("dsp32shift: dregs = LSHIFT dregs BY dregs_lo (V )\n");
2143 $$
= DSP32SHIFT
($7.r0 ?
1: 2, &$1, &$6, &$4, 2, 0);
2146 return
yyerror ("Register mismatch");
2149 | REG ASSIGN SHIFT REG BY HALF_REG
2151 if
(IS_DREG
($1) && IS_DREG
($4) && IS_DREG_L
($6))
2153 notethat
("dsp32shift: dregs = SHIFT dregs BY dregs_lo\n");
2154 $$
= DSP32SHIFT
(2, &$1, &$6, &$4, 2, 0);
2157 return
yyerror ("Register mismatch");
2160 | a_assign REG_A GREATER_GREATER expr
2162 if
(REG_SAME
($1, $2) && IS_IMM
($4, 6) >= 0)
2164 notethat
("dsp32shiftimm: Ax = Ax >> imm6\n");
2165 $$
= DSP32SHIFTIMM
(3, 0, -imm6
($4), 0, 1, IS_A1
($1));
2168 return
yyerror ("Accu register expected");
2171 | REG ASSIGN REG GREATER_GREATER expr vmod
2175 if
(IS_DREG
($1) && IS_DREG
($3) && IS_UIMM
($5, 5))
2177 notethat
("dsp32shiftimm: dregs = dregs >> uimm5 (V)\n");
2178 $$
= DSP32SHIFTIMM
(1, &$1, -uimm5
($5), &$3, 2, 0);
2181 return
yyerror ("Register mismatch");
2185 if
(IS_DREG
($1) && IS_DREG
($3) && IS_UIMM
($5, 5))
2187 notethat
("dsp32shiftimm: dregs = dregs >> uimm5\n");
2188 $$
= DSP32SHIFTIMM
(2, &$1, -imm6
($5), &$3, 2, 0);
2190 else if
(IS_PREG
($1) && IS_PREG
($3) && EXPR_VALUE
($5) == 2)
2192 notethat
("PTR2op: pregs = pregs >> 2\n");
2193 $$
= PTR2OP
(&$1, &$3, 3);
2195 else if
(IS_PREG
($1) && IS_PREG
($3) && EXPR_VALUE
($5) == 1)
2197 notethat
("PTR2op: pregs = pregs >> 1\n");
2198 $$
= PTR2OP
(&$1, &$3, 4);
2201 return
yyerror ("Register mismatch");
2204 | HALF_REG ASSIGN HALF_REG GREATER_GREATER expr
2206 if
(IS_UIMM
($5, 5))
2208 notethat
("dsp32shiftimm: dregs_half = dregs_half >> uimm5\n");
2209 $$
= DSP32SHIFTIMM
(0, &$1, -uimm5
($5), &$3, 2, HL2
($1, $3));
2212 return
yyerror ("Register mismatch");
2214 | HALF_REG ASSIGN HALF_REG _GREATER_GREATER_GREATER expr smod
2216 if
(IS_UIMM
($5, 5))
2218 notethat
("dsp32shiftimm: dregs_half = dregs_half >>> uimm5\n");
2219 $$
= DSP32SHIFTIMM
(0, &$1, -uimm5
($5), &$3,
2220 $6.s0
, HL2
($1, $3));
2223 return
yyerror ("Register or modifier mismatch");
2227 | REG ASSIGN REG _GREATER_GREATER_GREATER expr vsmod
2229 if
(IS_DREG
($1) && IS_DREG
($3) && IS_UIMM
($5, 5))
2234 notethat
("dsp32shiftimm: dregs = dregs >>> uimm5 (V, .)\n");
2235 $$
= DSP32SHIFTIMM
(1, &$1, -uimm5
($5), &$3, $6.s0
, 0);
2239 notethat
("dsp32shiftimm: dregs = dregs >>> uimm5 (.)\n");
2240 $$
= DSP32SHIFTIMM
(2, &$1, -uimm5
($5), &$3, $6.s0
, 0);
2244 return
yyerror ("Register mismatch");
2247 | HALF_REG ASSIGN ONES REG
2249 if
(IS_DREG_L
($1) && IS_DREG
($4))
2251 notethat
("dsp32shift: dregs_lo = ONES dregs\n");
2252 $$
= DSP32SHIFT
(6, &$1, 0, &$4, 3, 0);
2255 return
yyerror ("Register mismatch");
2258 | REG ASSIGN PACK LPAREN HALF_REG COMMA HALF_REG RPAREN
2260 if
(IS_DREG
($1) && IS_DREG
($5) && IS_DREG
($7))
2262 notethat
("dsp32shift: dregs = PACK (dregs_hi , dregs_hi )\n");
2263 $$
= DSP32SHIFT
(4, &$1, &$7, &$5, HL2
($5, $7), 0);
2266 return
yyerror ("Register mismatch");
2269 | HALF_REG ASSIGN CCREG ASSIGN BXORSHIFT LPAREN REG_A COMMA REG RPAREN
2272 && $7.regno
== REG_A0
2273 && IS_DREG
($9) && !IS_H
($1) && !IS_A1
($7))
2275 notethat
("dsp32shift: dregs_lo = CC = BXORSHIFT (A0 , dregs )\n");
2276 $$
= DSP32SHIFT
(11, &$1, &$9, 0, 0, 0);
2279 return
yyerror ("Register mismatch");
2282 | HALF_REG ASSIGN CCREG ASSIGN BXOR LPAREN REG_A COMMA REG RPAREN
2285 && $7.regno
== REG_A0
2286 && IS_DREG
($9) && !IS_H
($1) && !IS_A1
($7))
2288 notethat
("dsp32shift: dregs_lo = CC = BXOR (A0 , dregs)\n");
2289 $$
= DSP32SHIFT
(11, &$1, &$9, 0, 1, 0);
2292 return
yyerror ("Register mismatch");
2295 | HALF_REG ASSIGN CCREG ASSIGN BXOR LPAREN REG_A COMMA REG_A COMMA CCREG RPAREN
2297 if
(IS_DREG
($1) && !IS_H
($1) && !REG_SAME
($7, $9))
2299 notethat
("dsp32shift: dregs_lo = CC = BXOR (A0 , A1 , CC)\n");
2300 $$
= DSP32SHIFT
(12, &$1, 0, 0, 1, 0);
2303 return
yyerror ("Register mismatch");
2306 | a_assign ROT REG_A BY HALF_REG
2308 if
(REG_SAME
($1, $3) && IS_DREG_L
($5))
2310 notethat
("dsp32shift: Ax = ROT Ax BY dregs_lo\n");
2311 $$
= DSP32SHIFT
(3, 0, &$5, 0, 2, IS_A1
($1));
2314 return
yyerror ("Register mismatch");
2317 | REG ASSIGN ROT REG BY HALF_REG
2319 if
(IS_DREG
($1) && IS_DREG
($4) && IS_DREG_L
($6))
2321 notethat
("dsp32shift: dregs = ROT dregs BY dregs_lo\n");
2322 $$
= DSP32SHIFT
(2, &$1, &$6, &$4, 3, 0);
2325 return
yyerror ("Register mismatch");
2328 | a_assign ROT REG_A BY expr
2332 notethat
("dsp32shiftimm: An = ROT An BY imm6\n");
2333 $$
= DSP32SHIFTIMM
(3, 0, imm6
($5), 0, 2, IS_A1
($1));
2336 return
yyerror ("Register mismatch");
2339 | REG ASSIGN ROT REG BY expr
2341 if
(IS_DREG
($1) && IS_DREG
($4) && IS_IMM
($6, 6))
2343 $$
= DSP32SHIFTIMM
(2, &$1, imm6
($6), &$4, 3, IS_A1
($1));
2346 return
yyerror ("Register mismatch");
2349 | HALF_REG ASSIGN SIGNBITS REG_A
2353 notethat
("dsp32shift: dregs_lo = SIGNBITS An\n");
2354 $$
= DSP32SHIFT
(6, &$1, 0, 0, IS_A1
($4), 0);
2357 return
yyerror ("Register mismatch");
2360 | HALF_REG ASSIGN SIGNBITS REG
2362 if
(IS_DREG_L
($1) && IS_DREG
($4))
2364 notethat
("dsp32shift: dregs_lo = SIGNBITS dregs\n");
2365 $$
= DSP32SHIFT
(5, &$1, 0, &$4, 0, 0);
2368 return
yyerror ("Register mismatch");
2371 | HALF_REG ASSIGN SIGNBITS HALF_REG
2375 notethat
("dsp32shift: dregs_lo = SIGNBITS dregs_lo\n");
2376 $$
= DSP32SHIFT
(5, &$1, 0, &$4, 1 + IS_H
($4), 0);
2379 return
yyerror ("Register mismatch");
2382 /* The ASR bit is just inverted here. */
2383 | HALF_REG ASSIGN VIT_MAX LPAREN REG RPAREN asr_asl
2385 if
(IS_DREG_L
($1) && IS_DREG
($5))
2387 notethat
("dsp32shift: dregs_lo = VIT_MAX (dregs) (..)\n");
2388 $$
= DSP32SHIFT
(9, &$1, 0, &$5, ($7.r0 ?
0 : 1), 0);
2391 return
yyerror ("Register mismatch");
2394 | REG ASSIGN VIT_MAX LPAREN REG COMMA REG RPAREN asr_asl
2396 if
(IS_DREG
($1) && IS_DREG
($5) && IS_DREG
($7))
2398 notethat
("dsp32shift: dregs = VIT_MAX (dregs, dregs) (ASR)\n");
2399 $$
= DSP32SHIFT
(9, &$1, &$7, &$5, 2 |
($9.r0 ?
0 : 1), 0);
2402 return
yyerror ("Register mismatch");
2405 | BITMUX LPAREN REG COMMA REG COMMA REG_A RPAREN asr_asl
2407 if
(IS_DREG
($3) && IS_DREG
($5) && !IS_A1
($7))
2409 notethat
("dsp32shift: BITMUX (dregs , dregs , A0) (ASR)\n");
2410 $$
= DSP32SHIFT
(8, 0, &$3, &$5, $9.r0
, 0);
2413 return
yyerror ("Register mismatch");
2416 | a_assign BXORSHIFT LPAREN REG_A COMMA REG_A COMMA CCREG RPAREN
2418 if
(!IS_A1
($1) && !IS_A1
($4) && IS_A1
($6))
2420 notethat
("dsp32shift: A0 = BXORSHIFT (A0 , A1 , CC )\n");
2421 $$
= DSP32SHIFT
(12, 0, 0, 0, 0, 0);
2424 return
yyerror ("Dregs expected");
2428 /* LOGI2op: BITCLR (dregs, uimm5). */
2429 | BITCLR LPAREN REG COMMA expr RPAREN
2431 if
(IS_DREG
($3) && IS_UIMM
($5, 5))
2433 notethat
("LOGI2op: BITCLR (dregs , uimm5 )\n");
2434 $$
= LOGI2OP
($3, uimm5
($5), 4);
2437 return
yyerror ("Register mismatch");
2440 /* LOGI2op: BITSET (dregs, uimm5). */
2441 | BITSET LPAREN REG COMMA expr RPAREN
2443 if
(IS_DREG
($3) && IS_UIMM
($5, 5))
2445 notethat
("LOGI2op: BITCLR (dregs , uimm5 )\n");
2446 $$
= LOGI2OP
($3, uimm5
($5), 2);
2449 return
yyerror ("Register mismatch");
2452 /* LOGI2op: BITTGL (dregs, uimm5). */
2453 | BITTGL LPAREN REG COMMA expr RPAREN
2455 if
(IS_DREG
($3) && IS_UIMM
($5, 5))
2457 notethat
("LOGI2op: BITCLR (dregs , uimm5 )\n");
2458 $$
= LOGI2OP
($3, uimm5
($5), 3);
2461 return
yyerror ("Register mismatch");
2464 | CCREG _ASSIGN_BANG BITTST LPAREN REG COMMA expr RPAREN
2466 if
(IS_DREG
($5) && IS_UIMM
($7, 5))
2468 notethat
("LOGI2op: CC =! BITTST (dregs , uimm5 )\n");
2469 $$
= LOGI2OP
($5, uimm5
($7), 0);
2472 return
yyerror ("Register mismatch or value error");
2475 | CCREG ASSIGN BITTST LPAREN REG COMMA expr RPAREN
2477 if
(IS_DREG
($5) && IS_UIMM
($7, 5))
2479 notethat
("LOGI2op: CC = BITTST (dregs , uimm5 )\n");
2480 $$
= LOGI2OP
($5, uimm5
($7), 1);
2483 return
yyerror ("Register mismatch or value error");
2486 | IF BANG CCREG REG ASSIGN REG
2488 if
((IS_DREG
($4) || IS_PREG
($4))
2489 && (IS_DREG
($6) || IS_PREG
($6)))
2491 notethat
("ccMV: IF ! CC gregs = gregs\n");
2492 $$
= CCMV
(&$6, &$4, 0);
2495 return
yyerror ("Register mismatch");
2498 | IF CCREG REG ASSIGN REG
2500 if
((IS_DREG
($5) || IS_PREG
($5))
2501 && (IS_DREG
($3) || IS_PREG
($3)))
2503 notethat
("ccMV: IF CC gregs = gregs\n");
2504 $$
= CCMV
(&$5, &$3, 1);
2507 return
yyerror ("Register mismatch");
2510 | IF BANG CCREG JUMP expr
2512 if
(IS_PCREL10
($5))
2514 notethat
("BRCC: IF !CC JUMP pcrel11m2\n");
2515 $$
= BRCC
(0, 0, $5);
2518 return
yyerror ("Bad jump offset");
2521 | IF BANG CCREG JUMP expr LPAREN BP RPAREN
2523 if
(IS_PCREL10
($5))
2525 notethat
("BRCC: IF !CC JUMP pcrel11m2\n");
2526 $$
= BRCC
(0, 1, $5);
2529 return
yyerror ("Bad jump offset");
2532 | IF CCREG JUMP expr
2534 if
(IS_PCREL10
($4))
2536 notethat
("BRCC: IF CC JUMP pcrel11m2\n");
2537 $$
= BRCC
(1, 0, $4);
2540 return
yyerror ("Bad jump offset");
2543 | IF CCREG JUMP expr LPAREN BP RPAREN
2545 if
(IS_PCREL10
($4))
2547 notethat
("BRCC: IF !CC JUMP pcrel11m2\n");
2548 $$
= BRCC
(1, 1, $4);
2551 return
yyerror ("Bad jump offset");
2555 notethat
("ProgCtrl: NOP\n");
2556 $$
= PROGCTRL
(0, 0);
2561 notethat
("ProgCtrl: RTS\n");
2562 $$
= PROGCTRL
(1, 0);
2567 notethat
("ProgCtrl: RTI\n");
2568 $$
= PROGCTRL
(1, 1);
2573 notethat
("ProgCtrl: RTX\n");
2574 $$
= PROGCTRL
(1, 2);
2579 notethat
("ProgCtrl: RTN\n");
2580 $$
= PROGCTRL
(1, 3);
2585 notethat
("ProgCtrl: RTE\n");
2586 $$
= PROGCTRL
(1, 4);
2591 notethat
("ProgCtrl: IDLE\n");
2592 $$
= PROGCTRL
(2, 0);
2597 notethat
("ProgCtrl: CSYNC\n");
2598 $$
= PROGCTRL
(2, 3);
2603 notethat
("ProgCtrl: SSYNC\n");
2604 $$
= PROGCTRL
(2, 4);
2609 notethat
("ProgCtrl: EMUEXCPT\n");
2610 $$
= PROGCTRL
(2, 5);
2617 notethat
("ProgCtrl: CLI dregs\n");
2618 $$
= PROGCTRL
(3, $2.regno
& CODE_MASK
);
2621 return
yyerror ("Dreg expected for CLI");
2628 notethat
("ProgCtrl: STI dregs\n");
2629 $$
= PROGCTRL
(4, $2.regno
& CODE_MASK
);
2632 return
yyerror ("Dreg expected for STI");
2635 | JUMP LPAREN REG RPAREN
2639 notethat
("ProgCtrl: JUMP (pregs )\n");
2640 $$
= PROGCTRL
(5, $3.regno
& CODE_MASK
);
2643 return
yyerror ("Bad register for indirect jump");
2646 | CALL LPAREN REG RPAREN
2650 notethat
("ProgCtrl: CALL (pregs )\n");
2651 $$
= PROGCTRL
(6, $3.regno
& CODE_MASK
);
2654 return
yyerror ("Bad register for indirect call");
2657 | CALL LPAREN PC PLUS REG RPAREN
2661 notethat
("ProgCtrl: CALL (PC + pregs )\n");
2662 $$
= PROGCTRL
(7, $5.regno
& CODE_MASK
);
2665 return
yyerror ("Bad register for indirect call");
2668 | JUMP LPAREN PC PLUS REG RPAREN
2672 notethat
("ProgCtrl: JUMP (PC + pregs )\n");
2673 $$
= PROGCTRL
(8, $5.regno
& CODE_MASK
);
2676 return
yyerror ("Bad register for indirect jump");
2681 if
(IS_UIMM
($2, 4))
2683 notethat
("ProgCtrl: RAISE uimm4\n");
2684 $$
= PROGCTRL
(9, uimm4
($2));
2687 return
yyerror ("Bad value for RAISE");
2692 notethat
("ProgCtrl: EMUEXCPT\n");
2693 $$
= PROGCTRL
(10, uimm4
($2));
2696 | TESTSET LPAREN REG RPAREN
2700 notethat
("ProgCtrl: TESTSET (pregs )\n");
2701 $$
= PROGCTRL
(11, $3.regno
& CODE_MASK
);
2704 return
yyerror ("Preg expected");
2709 if
(IS_PCREL12
($2))
2711 notethat
("UJUMP: JUMP pcrel12\n");
2715 return
yyerror ("Bad value for relative jump");
2720 if
(IS_PCREL12
($2))
2722 notethat
("UJUMP: JUMP_DOT_S pcrel12\n");
2726 return
yyerror ("Bad value for relative jump");
2731 if
(IS_PCREL24
($2))
2733 notethat
("CALLa: jump.l pcrel24\n");
2737 return
yyerror ("Bad value for long jump");
2742 if
(IS_PCREL24
($2))
2744 notethat
("CALLa: jump.l pcrel24\n");
2748 return
yyerror ("Bad value for long jump");
2753 if
(IS_PCREL24
($2))
2755 notethat
("CALLa: CALL pcrel25m2\n");
2759 return
yyerror ("Bad call address");
2763 if
(IS_PCREL24
($2))
2765 notethat
("CALLa: CALL pcrel25m2\n");
2769 return
yyerror ("Bad call address");
2773 /* ALU2op: DIVQ (dregs, dregs). */
2774 | DIVQ LPAREN REG COMMA REG RPAREN
2776 if
(IS_DREG
($3) && IS_DREG
($5))
2777 $$
= ALU2OP
(&$3, &$5, 8);
2779 return
yyerror ("Bad registers for DIVQ");
2782 | DIVS LPAREN REG COMMA REG RPAREN
2784 if
(IS_DREG
($3) && IS_DREG
($5))
2785 $$
= ALU2OP
(&$3, &$5, 9);
2787 return
yyerror ("Bad registers for DIVS");
2790 | REG ASSIGN MINUS REG vsmod
2792 if
(IS_DREG
($1) && IS_DREG
($4))
2794 if
($5.r0
== 0 && $5.s0
== 0 && $5.aop
== 0)
2796 notethat
("ALU2op: dregs = - dregs\n");
2797 $$
= ALU2OP
(&$1, &$4, 14);
2799 else if
($5.r0
== 1 && $5.s0
== 0 && $5.aop
== 3)
2801 notethat
("dsp32alu: dregs = - dregs (.)\n");
2802 $$
= DSP32ALU
(15, 0, 0, &$1, &$4, 0, $5.s0
, 0, 3);
2806 notethat
("dsp32alu: dregs = - dregs (.)\n");
2807 $$
= DSP32ALU
(7, 0, 0, &$1, &$4, 0, $5.s0
, 0, 3);
2811 return
yyerror ("Dregs expected");
2814 | REG ASSIGN TILDA REG
2816 if
(IS_DREG
($1) && IS_DREG
($4))
2818 notethat
("ALU2op: dregs = ~dregs\n");
2819 $$
= ALU2OP
(&$1, &$4, 15);
2822 return
yyerror ("Dregs expected");
2825 | REG _GREATER_GREATER_ASSIGN REG
2827 if
(IS_DREG
($1) && IS_DREG
($3))
2829 notethat
("ALU2op: dregs >>= dregs\n");
2830 $$
= ALU2OP
(&$1, &$3, 1);
2833 return
yyerror ("Dregs expected");
2836 | REG _GREATER_GREATER_ASSIGN expr
2838 if
(IS_DREG
($1) && IS_UIMM
($3, 5))
2840 notethat
("LOGI2op: dregs >>= uimm5\n");
2841 $$
= LOGI2OP
($1, uimm5
($3), 6);
2844 return
yyerror ("Dregs expected or value error");
2847 | REG _GREATER_GREATER_GREATER_THAN_ASSIGN REG
2849 if
(IS_DREG
($1) && IS_DREG
($3))
2851 notethat
("ALU2op: dregs >>>= dregs\n");
2852 $$
= ALU2OP
(&$1, &$3, 0);
2855 return
yyerror ("Dregs expected");
2858 | REG _LESS_LESS_ASSIGN REG
2860 if
(IS_DREG
($1) && IS_DREG
($3))
2862 notethat
("ALU2op: dregs <<= dregs\n");
2863 $$
= ALU2OP
(&$1, &$3, 2);
2866 return
yyerror ("Dregs expected");
2869 | REG _LESS_LESS_ASSIGN expr
2871 if
(IS_DREG
($1) && IS_UIMM
($3, 5))
2873 notethat
("LOGI2op: dregs <<= uimm5\n");
2874 $$
= LOGI2OP
($1, uimm5
($3), 7);
2877 return
yyerror ("Dregs expected or const value error");
2881 | REG _GREATER_GREATER_GREATER_THAN_ASSIGN expr
2883 if
(IS_DREG
($1) && IS_UIMM
($3, 5))
2885 notethat
("LOGI2op: dregs >>>= uimm5\n");
2886 $$
= LOGI2OP
($1, uimm5
($3), 5);
2889 return
yyerror ("Dregs expected");
2892 /* Cache Control. */
2894 | FLUSH LBRACK REG RBRACK
2896 notethat
("CaCTRL: FLUSH [ pregs ]\n");
2898 $$
= CACTRL
(&$3, 0, 2);
2900 return
yyerror ("Bad register(s) for FLUSH");
2903 | FLUSH reg_with_postinc
2907 notethat
("CaCTRL: FLUSH [ pregs ++ ]\n");
2908 $$
= CACTRL
(&$2, 1, 2);
2911 return
yyerror ("Bad register(s) for FLUSH");
2914 | FLUSHINV LBRACK REG RBRACK
2918 notethat
("CaCTRL: FLUSHINV [ pregs ]\n");
2919 $$
= CACTRL
(&$3, 0, 1);
2922 return
yyerror ("Bad register(s) for FLUSH");
2925 | FLUSHINV reg_with_postinc
2929 notethat
("CaCTRL: FLUSHINV [ pregs ++ ]\n");
2930 $$
= CACTRL
(&$2, 1, 1);
2933 return
yyerror ("Bad register(s) for FLUSH");
2936 /* CaCTRL: IFLUSH [pregs]. */
2937 | IFLUSH LBRACK REG RBRACK
2941 notethat
("CaCTRL: IFLUSH [ pregs ]\n");
2942 $$
= CACTRL
(&$3, 0, 3);
2945 return
yyerror ("Bad register(s) for FLUSH");
2948 | IFLUSH reg_with_postinc
2952 notethat
("CaCTRL: IFLUSH [ pregs ++ ]\n");
2953 $$
= CACTRL
(&$2, 1, 3);
2956 return
yyerror ("Bad register(s) for FLUSH");
2959 | PREFETCH LBRACK REG RBRACK
2963 notethat
("CaCTRL: PREFETCH [ pregs ]\n");
2964 $$
= CACTRL
(&$3, 0, 0);
2967 return
yyerror ("Bad register(s) for PREFETCH");
2970 | PREFETCH reg_with_postinc
2974 notethat
("CaCTRL: PREFETCH [ pregs ++ ]\n");
2975 $$
= CACTRL
(&$2, 1, 0);
2978 return
yyerror ("Bad register(s) for PREFETCH");
2982 /* LDST: B [ pregs <post_op> ] = dregs. */
2984 | B LBRACK REG post_op RBRACK ASSIGN REG
2987 return
yyerror ("Dreg expected for source operand");
2989 return
yyerror ("Preg expected in address");
2991 notethat
("LDST: B [ pregs <post_op> ] = dregs\n");
2992 $$
= LDST
(&$3, &$7, $4.x0
, 2, 0, 1);
2995 /* LDSTidxI: B [ pregs + imm16 ] = dregs. */
2996 | B LBRACK REG plus_minus expr RBRACK ASSIGN REG
2998 Expr_Node
*tmp
= $5;
3001 return
yyerror ("Dreg expected for source operand");
3003 return
yyerror ("Preg expected in address");
3006 return
yyerror ("Plain symbol used as offset");
3009 tmp
= unary
(Expr_Op_Type_NEG
, tmp
);
3011 if
(in_range_p
(tmp
, -32768, 32767, 0))
3013 notethat
("LDST: B [ pregs + imm16 ] = dregs\n");
3014 $$
= LDSTIDXI
(&$3, &$8, 1, 2, 0, $5);
3017 return
yyerror ("Displacement out of range");
3021 /* LDSTii: W [ pregs + uimm4s2 ] = dregs. */
3022 | W LBRACK REG plus_minus expr RBRACK ASSIGN REG
3024 Expr_Node
*tmp
= $5;
3027 return
yyerror ("Dreg expected for source operand");
3029 return
yyerror ("Preg expected in address");
3032 tmp
= unary
(Expr_Op_Type_NEG
, tmp
);
3035 return
yyerror ("Plain symbol used as offset");
3037 if
(in_range_p
(tmp
, 0, 30, 1))
3039 notethat
("LDSTii: W [ pregs +- uimm5m2 ] = dregs\n");
3040 $$
= LDSTII
(&$3, &$8, tmp
, 1, 1);
3042 else if
(in_range_p
(tmp
, -65536, 65535, 1))
3044 notethat
("LDSTidxI: W [ pregs + imm17m2 ] = dregs\n");
3045 $$
= LDSTIDXI
(&$3, &$8, 1, 1, 0, tmp
);
3048 return
yyerror ("Displacement out of range");
3051 /* LDST: W [ pregs <post_op> ] = dregs. */
3052 | W LBRACK REG post_op RBRACK ASSIGN REG
3055 return
yyerror ("Dreg expected for source operand");
3057 return
yyerror ("Preg expected in address");
3059 notethat
("LDST: W [ pregs <post_op> ] = dregs\n");
3060 $$
= LDST
(&$3, &$7, $4.x0
, 1, 0, 1);
3063 | W LBRACK REG post_op RBRACK ASSIGN HALF_REG
3066 return
yyerror ("Dreg expected for source operand");
3069 if
(!IS_IREG
($3) && !IS_PREG
($3))
3070 return
yyerror ("Ireg or Preg expected in address");
3072 else if
(!IS_IREG
($3))
3073 return
yyerror ("Ireg expected in address");
3077 notethat
("dspLDST: W [ iregs <post_op> ] = dregs_half\n");
3078 $$
= DSPLDST
(&$3, 1 + IS_H
($7), &$7, $4.x0
, 1);
3082 notethat
("LDSTpmod: W [ pregs ] = dregs_half\n");
3083 $$
= LDSTPMOD
(&$3, &$7, &$3, 1 + IS_H
($7), 1);
3087 /* LDSTiiFP: [ FP - const ] = dpregs. */
3088 | LBRACK REG plus_minus expr RBRACK ASSIGN REG
3090 Expr_Node
*tmp
= $4;
3091 int ispreg
= IS_PREG
($7);
3094 return
yyerror ("Preg expected in address");
3096 if
(!IS_DREG
($7) && !ispreg
)
3097 return
yyerror ("Preg expected for source operand");
3100 tmp
= unary
(Expr_Op_Type_NEG
, tmp
);
3103 return
yyerror ("Plain symbol used as offset");
3105 if
(in_range_p
(tmp
, 0, 63, 3))
3107 notethat
("LDSTii: dpregs = [ pregs + uimm6m4 ]\n");
3108 $$
= LDSTII
(&$2, &$7, tmp
, 1, ispreg ?
3 : 0);
3110 else if
($2.regno
== REG_FP
&& in_range_p
(tmp
, -128, 0, 3))
3112 notethat
("LDSTiiFP: dpregs = [ FP - uimm7m4 ]\n");
3113 tmp
= unary
(Expr_Op_Type_NEG
, tmp
);
3114 $$
= LDSTIIFP
(tmp
, &$7, 1);
3116 else if
(in_range_p
(tmp
, -131072, 131071, 3))
3118 notethat
("LDSTidxI: [ pregs + imm18m4 ] = dpregs\n");
3119 $$
= LDSTIDXI
(&$2, &$7, 1, 0, ispreg ?
1 : 0, tmp
);
3122 return
yyerror ("Displacement out of range");
3125 | REG ASSIGN W LBRACK REG plus_minus expr RBRACK xpmod
3127 Expr_Node
*tmp
= $7;
3129 return
yyerror ("Dreg expected for destination operand");
3131 return
yyerror ("Preg expected in address");
3134 tmp
= unary
(Expr_Op_Type_NEG
, tmp
);
3137 return
yyerror ("Plain symbol used as offset");
3139 if
(in_range_p
(tmp
, 0, 30, 1))
3141 notethat
("LDSTii: dregs = W [ pregs + uimm5m2 ] (.)\n");
3142 $$
= LDSTII
(&$5, &$1, tmp
, 0, 1 << $9.r0
);
3144 else if
(in_range_p
(tmp
, -65536, 65535, 1))
3146 notethat
("LDSTidxI: dregs = W [ pregs + imm17m2 ] (.)\n");
3147 $$
= LDSTIDXI
(&$5, &$1, 0, 1, $9.r0
, tmp
);
3150 return
yyerror ("Displacement out of range");
3153 | HALF_REG ASSIGN W LBRACK REG post_op RBRACK
3156 return
yyerror ("Dreg expected for source operand");
3159 if
(!IS_IREG
($5) && !IS_PREG
($5))
3160 return
yyerror ("Ireg or Preg expected in address");
3162 else if
(!IS_IREG
($5))
3163 return
yyerror ("Ireg expected in address");
3167 notethat
("dspLDST: dregs_half = W [ iregs <post_op> ]\n");
3168 $$
= DSPLDST
(&$5, 1 + IS_H
($1), &$1, $6.x0
, 0);
3172 notethat
("LDSTpmod: dregs_half = W [ pregs <post_op> ]\n");
3173 $$
= LDSTPMOD
(&$5, &$1, &$5, 1 + IS_H
($1), 0);
3178 | REG ASSIGN W LBRACK REG post_op RBRACK xpmod
3181 return
yyerror ("Dreg expected for destination operand");
3183 return
yyerror ("Preg expected in address");
3185 notethat
("LDST: dregs = W [ pregs <post_op> ] (.)\n");
3186 $$
= LDST
(&$5, &$1, $6.x0
, 1, $8.r0
, 0);
3189 | REG ASSIGN W LBRACK REG _PLUS_PLUS REG RBRACK xpmod
3192 return
yyerror ("Dreg expected for destination operand");
3193 if
(!IS_PREG
($5) ||
!IS_PREG
($7))
3194 return
yyerror ("Preg expected in address");
3196 notethat
("LDSTpmod: dregs = W [ pregs ++ pregs ] (.)\n");
3197 $$
= LDSTPMOD
(&$5, &$1, &$7, 3, $9.r0
);
3200 | HALF_REG ASSIGN W LBRACK REG _PLUS_PLUS REG RBRACK
3203 return
yyerror ("Dreg expected for destination operand");
3204 if
(!IS_PREG
($5) ||
!IS_PREG
($7))
3205 return
yyerror ("Preg expected in address");
3207 notethat
("LDSTpmod: dregs_half = W [ pregs ++ pregs ]\n");
3208 $$
= LDSTPMOD
(&$5, &$1, &$7, 1 + IS_H
($1), 0);
3211 | LBRACK REG post_op RBRACK ASSIGN REG
3213 if
(!IS_IREG
($2) && !IS_PREG
($2))
3214 return
yyerror ("Ireg or Preg expected in address");
3215 else if
(IS_IREG
($2) && !IS_DREG
($6))
3216 return
yyerror ("Dreg expected for source operand");
3217 else if
(IS_PREG
($2) && !IS_DREG
($6) && !IS_PREG
($6))
3218 return
yyerror ("Dreg or Preg expected for source operand");
3222 notethat
("dspLDST: [ iregs <post_op> ] = dregs\n");
3223 $$
= DSPLDST
(&$2, 0, &$6, $3.x0
, 1);
3225 else if
(IS_DREG
($6))
3227 notethat
("LDST: [ pregs <post_op> ] = dregs\n");
3228 $$
= LDST
(&$2, &$6, $3.x0
, 0, 0, 1);
3232 notethat
("LDST: [ pregs <post_op> ] = pregs\n");
3233 $$
= LDST
(&$2, &$6, $3.x0
, 0, 1, 1);
3237 | LBRACK REG _PLUS_PLUS REG RBRACK ASSIGN REG
3240 return
yyerror ("Dreg expected for source operand");
3242 if
(IS_IREG
($2) && IS_MREG
($4))
3244 notethat
("dspLDST: [ iregs ++ mregs ] = dregs\n");
3245 $$
= DSPLDST
(&$2, $4.regno
& CODE_MASK
, &$7, 3, 1);
3247 else if
(IS_PREG
($2) && IS_PREG
($4))
3249 notethat
("LDSTpmod: [ pregs ++ pregs ] = dregs\n");
3250 $$
= LDSTPMOD
(&$2, &$7, &$4, 0, 1);
3253 return
yyerror ("Preg ++ Preg or Ireg ++ Mreg expected in address");
3256 | W LBRACK REG _PLUS_PLUS REG RBRACK ASSIGN HALF_REG
3259 return
yyerror ("Dreg expected for source operand");
3261 if
(IS_PREG
($3) && IS_PREG
($5))
3263 notethat
("LDSTpmod: W [ pregs ++ pregs ] = dregs_half\n");
3264 $$
= LDSTPMOD
(&$3, &$8, &$5, 1 + IS_H
($8), 1);
3267 return
yyerror ("Preg ++ Preg expected in address");
3270 | REG ASSIGN B LBRACK REG plus_minus expr RBRACK xpmod
3272 Expr_Node
*tmp
= $7;
3274 return
yyerror ("Dreg expected for destination operand");
3276 return
yyerror ("Preg expected in address");
3279 tmp
= unary
(Expr_Op_Type_NEG
, tmp
);
3282 return
yyerror ("Plain symbol used as offset");
3284 if
(in_range_p
(tmp
, -32768, 32767, 0))
3286 notethat
("LDSTidxI: dregs = B [ pregs + imm16 ] (%c)\n",
3288 $$
= LDSTIDXI
(&$5, &$1, 0, 2, $9.r0
, tmp
);
3291 return
yyerror ("Displacement out of range");
3294 | REG ASSIGN B LBRACK REG post_op RBRACK xpmod
3297 return
yyerror ("Dreg expected for destination operand");
3299 return
yyerror ("Preg expected in address");
3301 notethat
("LDST: dregs = B [ pregs <post_op> ] (%c)\n",
3303 $$
= LDST
(&$5, &$1, $6.x0
, 2, $8.r0
, 0);
3306 | REG ASSIGN LBRACK REG _PLUS_PLUS REG RBRACK
3309 return
yyerror ("Dreg expected for destination operand");
3311 if
(IS_IREG
($4) && IS_MREG
($6))
3313 notethat
("dspLDST: dregs = [ iregs ++ mregs ]\n");
3314 $$
= DSPLDST
(&$4, $6.regno
& CODE_MASK
, &$1, 3, 0);
3316 else if
(IS_PREG
($4) && IS_PREG
($6))
3318 notethat
("LDSTpmod: dregs = [ pregs ++ pregs ]\n");
3319 $$
= LDSTPMOD
(&$4, &$1, &$6, 0, 0);
3322 return
yyerror ("Preg ++ Preg or Ireg ++ Mreg expected in address");
3325 | REG ASSIGN LBRACK REG plus_minus got_or_expr RBRACK
3327 Expr_Node
*tmp
= $6;
3328 int ispreg
= IS_PREG
($1);
3329 int isgot
= IS_RELOC
($6);
3332 return
yyerror ("Preg expected in address");
3334 if
(!IS_DREG
($1) && !ispreg
)
3335 return
yyerror ("Dreg or Preg expected for destination operand");
3337 if
(tmp
->type
== Expr_Node_Reloc
3338 && strcmp
(tmp
->value.s_value
,
3339 "_current_shared_library_p5_offset_") != 0)
3340 return
yyerror ("Plain symbol used as offset");
3343 tmp
= unary
(Expr_Op_Type_NEG
, tmp
);
3347 notethat
("LDSTidxI: dpregs = [ pregs + sym@got ]\n");
3348 $$
= LDSTIDXI
(&$4, &$1, 0, 0, ispreg ?
1 : 0, tmp
);
3350 else if
(in_range_p
(tmp
, 0, 63, 3))
3352 notethat
("LDSTii: dpregs = [ pregs + uimm7m4 ]\n");
3353 $$
= LDSTII
(&$4, &$1, tmp
, 0, ispreg ?
3 : 0);
3355 else if
($4.regno
== REG_FP
&& in_range_p
(tmp
, -128, 0, 3))
3357 notethat
("LDSTiiFP: dpregs = [ FP - uimm7m4 ]\n");
3358 tmp
= unary
(Expr_Op_Type_NEG
, tmp
);
3359 $$
= LDSTIIFP
(tmp
, &$1, 0);
3361 else if
(in_range_p
(tmp
, -131072, 131071, 3))
3363 notethat
("LDSTidxI: dpregs = [ pregs + imm18m4 ]\n");
3364 $$
= LDSTIDXI
(&$4, &$1, 0, 0, ispreg ?
1 : 0, tmp
);
3368 return
yyerror ("Displacement out of range");
3371 | REG ASSIGN LBRACK REG post_op RBRACK
3373 if
(!IS_IREG
($4) && !IS_PREG
($4))
3374 return
yyerror ("Ireg or Preg expected in address");
3375 else if
(IS_IREG
($4) && !IS_DREG
($1))
3376 return
yyerror ("Dreg expected in destination operand");
3377 else if
(IS_PREG
($4) && !IS_DREG
($1) && !IS_PREG
($1)
3378 && ($4.regno
!= REG_SP ||
!IS_ALLREG
($1) ||
$5.x0
!= 0))
3379 return
yyerror ("Dreg or Preg expected in destination operand");
3383 notethat
("dspLDST: dregs = [ iregs <post_op> ]\n");
3384 $$
= DSPLDST
(&$4, 0, &$1, $5.x0
, 0);
3386 else if
(IS_DREG
($1))
3388 notethat
("LDST: dregs = [ pregs <post_op> ]\n");
3389 $$
= LDST
(&$4, &$1, $5.x0
, 0, 0, 0);
3391 else if
(IS_PREG
($1))
3393 if
(REG_SAME
($1, $4) && $5.x0
!= 2)
3394 return
yyerror ("Pregs can't be same");
3396 notethat
("LDST: pregs = [ pregs <post_op> ]\n");
3397 $$
= LDST
(&$4, &$1, $5.x0
, 0, 1, 0);
3401 notethat
("PushPopReg: allregs = [ SP ++ ]\n");
3402 $$
= PUSHPOPREG
(&$1, 0);
3407 /* PushPopMultiple. */
3408 | reg_with_predec ASSIGN LPAREN REG COLON expr COMMA REG COLON expr RPAREN
3410 if
($1.regno
!= REG_SP
)
3411 yyerror ("Stack Pointer expected");
3412 if
($4.regno
== REG_R7
3413 && IN_RANGE
($6, 0, 7)
3414 && $8.regno
== REG_P5
3415 && IN_RANGE
($10, 0, 5))
3417 notethat
("PushPopMultiple: [ -- SP ] = (R7 : reglim , P5 : reglim )\n");
3418 $$
= PUSHPOPMULTIPLE
(imm5
($6), imm5
($10), 1, 1, 1);
3421 return
yyerror ("Bad register for PushPopMultiple");
3424 | reg_with_predec ASSIGN LPAREN REG COLON expr RPAREN
3426 if
($1.regno
!= REG_SP
)
3427 yyerror ("Stack Pointer expected");
3429 if
($4.regno
== REG_R7
&& IN_RANGE
($6, 0, 7))
3431 notethat
("PushPopMultiple: [ -- SP ] = (R7 : reglim )\n");
3432 $$
= PUSHPOPMULTIPLE
(imm5
($6), 0, 1, 0, 1);
3434 else if
($4.regno
== REG_P5
&& IN_RANGE
($6, 0, 6))
3436 notethat
("PushPopMultiple: [ -- SP ] = (P5 : reglim )\n");
3437 $$
= PUSHPOPMULTIPLE
(0, imm5
($6), 0, 1, 1);
3440 return
yyerror ("Bad register for PushPopMultiple");
3443 | LPAREN REG COLON expr COMMA REG COLON expr RPAREN ASSIGN reg_with_postinc
3445 if
($11.regno
!= REG_SP
)
3446 yyerror ("Stack Pointer expected");
3447 if
($2.regno
== REG_R7
&& (IN_RANGE
($4, 0, 7))
3448 && $6.regno
== REG_P5
&& (IN_RANGE
($8, 0, 6)))
3450 notethat
("PushPopMultiple: (R7 : reglim , P5 : reglim ) = [ SP ++ ]\n");
3451 $$
= PUSHPOPMULTIPLE
(imm5
($4), imm5
($8), 1, 1, 0);
3454 return
yyerror ("Bad register range for PushPopMultiple");
3457 | LPAREN REG COLON expr RPAREN ASSIGN reg_with_postinc
3459 if
($7.regno
!= REG_SP
)
3460 yyerror ("Stack Pointer expected");
3462 if
($2.regno
== REG_R7
&& IN_RANGE
($4, 0, 7))
3464 notethat
("PushPopMultiple: (R7 : reglim ) = [ SP ++ ]\n");
3465 $$
= PUSHPOPMULTIPLE
(imm5
($4), 0, 1, 0, 0);
3467 else if
($2.regno
== REG_P5
&& IN_RANGE
($4, 0, 6))
3469 notethat
("PushPopMultiple: (P5 : reglim ) = [ SP ++ ]\n");
3470 $$
= PUSHPOPMULTIPLE
(0, imm5
($4), 0, 1, 0);
3473 return
yyerror ("Bad register range for PushPopMultiple");
3476 | reg_with_predec ASSIGN REG
3478 if
($1.regno
!= REG_SP
)
3479 yyerror ("Stack Pointer expected");
3483 notethat
("PushPopReg: [ -- SP ] = allregs\n");
3484 $$
= PUSHPOPREG
(&$3, 1);
3487 return
yyerror ("Bad register for PushPopReg");
3494 if
(IS_URANGE
(16, $2, 0, 4))
3495 $$
= LINKAGE
(0, uimm16s4
($2));
3497 return
yyerror ("Bad constant for LINK");
3502 notethat
("linkage: UNLINK\n");
3503 $$
= LINKAGE
(1, 0);
3509 | LSETUP LPAREN expr COMMA expr RPAREN REG
3511 if
(IS_PCREL4
($3) && IS_LPPCREL10
($5) && IS_CREG
($7))
3513 notethat
("LoopSetup: LSETUP (pcrel4 , lppcrel10 ) counters\n");
3514 $$
= LOOPSETUP
($3, &$7, 0, $5, 0);
3517 return
yyerror ("Bad register or values for LSETUP");
3520 | LSETUP LPAREN expr COMMA expr RPAREN REG ASSIGN REG
3522 if
(IS_PCREL4
($3) && IS_LPPCREL10
($5)
3523 && IS_PREG
($9) && IS_CREG
($7))
3525 notethat
("LoopSetup: LSETUP (pcrel4 , lppcrel10 ) counters = pregs\n");
3526 $$
= LOOPSETUP
($3, &$7, 1, $5, &$9);
3529 return
yyerror ("Bad register or values for LSETUP");
3532 | LSETUP LPAREN expr COMMA expr RPAREN REG ASSIGN REG GREATER_GREATER expr
3534 if
(IS_PCREL4
($3) && IS_LPPCREL10
($5)
3535 && IS_PREG
($9) && IS_CREG
($7)
3536 && EXPR_VALUE
($11) == 1)
3538 notethat
("LoopSetup: LSETUP (pcrel4 , lppcrel10 ) counters = pregs >> 1\n");
3539 $$
= LOOPSETUP
($3, &$7, 3, $5, &$9);
3542 return
yyerror ("Bad register or values for LSETUP");
3549 return
yyerror ("Invalid expression in loop statement");
3551 return
yyerror ("Invalid loop counter register");
3552 $$
= bfin_gen_loop
($2, &$3, 0, 0);
3554 | LOOP expr REG ASSIGN REG
3556 if
(IS_RELOC
($2) && IS_PREG
($5) && IS_CREG
($3))
3558 notethat
("Loop: LOOP expr counters = pregs\n");
3559 $$
= bfin_gen_loop
($2, &$3, 1, &$5);
3562 return
yyerror ("Bad register or values for LOOP");
3564 | LOOP expr REG ASSIGN REG GREATER_GREATER expr
3566 if
(IS_RELOC
($2) && IS_PREG
($5) && IS_CREG
($3) && EXPR_VALUE
($7) == 1)
3568 notethat
("Loop: LOOP expr counters = pregs >> 1\n");
3569 $$
= bfin_gen_loop
($2, &$3, 3, &$5);
3572 return
yyerror ("Bad register or values for LOOP");
3578 Expr_Node_Value val
;
3580 Expr_Node
*tmp
= Expr_Node_Create
(Expr_Node_Constant
, val
, NULL
, NULL
);
3581 bfin_loop_attempt_create_label
(tmp
, 1);
3582 if
(!IS_RELOC
(tmp
))
3583 return
yyerror ("Invalid expression in LOOP_BEGIN statement");
3584 bfin_loop_beginend
(tmp
, 1);
3590 return
yyerror ("Invalid expression in LOOP_BEGIN statement");
3592 bfin_loop_beginend
($2, 1);
3599 Expr_Node_Value val
;
3601 Expr_Node
*tmp
= Expr_Node_Create
(Expr_Node_Constant
, val
, NULL
, NULL
);
3602 bfin_loop_attempt_create_label
(tmp
, 1);
3603 if
(!IS_RELOC
(tmp
))
3604 return
yyerror ("Invalid expression in LOOP_END statement");
3605 bfin_loop_beginend
(tmp
, 0);
3611 return
yyerror ("Invalid expression in LOOP_END statement");
3613 bfin_loop_beginend
($2, 0);
3621 notethat
("psedoDEBUG: ABORT\n");
3622 $$
= bfin_gen_pseudodbg
(3, 3, 0);
3627 notethat
("pseudoDEBUG: DBG\n");
3628 $$
= bfin_gen_pseudodbg
(3, 7, 0);
3632 notethat
("pseudoDEBUG: DBG REG_A\n");
3633 $$
= bfin_gen_pseudodbg
(3, IS_A1
($2), 0);
3637 notethat
("pseudoDEBUG: DBG allregs\n");
3638 $$
= bfin_gen_pseudodbg
(0, $2.regno
& CODE_MASK
, ($2.regno
& CLASS_MASK
) >> 4);
3641 | DBGCMPLX LPAREN REG RPAREN
3644 return
yyerror ("Dregs expected");
3645 notethat
("pseudoDEBUG: DBGCMPLX (dregs )\n");
3646 $$
= bfin_gen_pseudodbg
(3, 6, ($3.regno
& CODE_MASK
) >> 4);
3651 notethat
("psedoDEBUG: DBGHALT\n");
3652 $$
= bfin_gen_pseudodbg
(3, 5, 0);
3657 notethat
("psedoDEBUG: HLT\n");
3658 $$
= bfin_gen_pseudodbg
(3, 4, 0);
3661 | DBGA LPAREN HALF_REG COMMA expr RPAREN
3663 notethat
("pseudodbg_assert: DBGA (regs_lo/hi , uimm16 )\n");
3664 $$
= bfin_gen_pseudodbg_assert
(IS_H
($3), &$3, uimm16
($5));
3667 | DBGAH LPAREN REG COMMA expr RPAREN
3669 notethat
("pseudodbg_assert: DBGAH (regs , uimm16 )\n");
3670 $$
= bfin_gen_pseudodbg_assert
(3, &$3, uimm16
($5));
3673 | DBGAL LPAREN REG COMMA expr RPAREN
3675 notethat
("psedodbg_assert: DBGAL (regs , uimm16 )\n");
3676 $$
= bfin_gen_pseudodbg_assert
(2, &$3, uimm16
($5));
3681 if
(!IS_UIMM
($2, 8))
3682 return
yyerror ("Constant out of range");
3683 notethat
("psedodbg_assert: OUTC uimm8\n");
3684 $$
= bfin_gen_pseudochr
(uimm8
($2));
3690 return
yyerror ("Dregs expected");
3691 notethat
("psedodbg_assert: OUTC dreg\n");
3692 $$
= bfin_gen_pseudodbg
(2, $2.regno
& CODE_MASK
, 0);
3699 /* Register rules. */
3701 REG_A: REG_A_DOUBLE_ZERO
3719 | LPAREN M COMMA MMOD RPAREN
3724 | LPAREN MMOD COMMA M RPAREN
3729 | LPAREN MMOD RPAREN
3741 asr_asl: LPAREN ASL RPAREN
3822 | LPAREN asr_asl_0 RPAREN
3834 | LPAREN asr_asl_0 COMMA sco RPAREN
3840 | LPAREN sco COMMA asr_asl_0 RPAREN
3900 | LPAREN V COMMA S RPAREN
3905 | LPAREN S COMMA V RPAREN
3967 | LPAREN MMOD RPAREN
3970 return
yyerror ("Bad modifier");
3974 | LPAREN MMOD COMMA R RPAREN
3977 return
yyerror ("Bad modifier");
3981 | LPAREN R COMMA MMOD RPAREN
3984 return
yyerror ("Bad modifier");
4011 | LPAREN MMOD RPAREN
4016 return
yyerror ("Only (W32) allowed");
4024 | LPAREN MMOD RPAREN
4029 return
yyerror ("(IU) expected");
4033 reg_with_predec: LBRACK _MINUS_MINUS REG RBRACK
4039 reg_with_postinc: LBRACK REG _PLUS_PLUS RBRACK
4091 $$.r0
= 1; /* HL. */
4094 $$.aop
= 0; /* aop. */
4099 $$.r0
= 1; /* HL. */
4102 $$.aop
= 1; /* aop. */
4105 | LPAREN RNDL RPAREN
4107 $$.r0
= 0; /* HL. */
4110 $$.aop
= 0; /* aop. */
4115 $$.r0
= 0; /* HL. */
4121 | LPAREN RNDH COMMA R RPAREN
4123 $$.r0
= 1; /* HL. */
4126 $$.aop
= 0; /* aop. */
4128 | LPAREN TH COMMA R RPAREN
4130 $$.r0
= 1; /* HL. */
4133 $$.aop
= 1; /* aop. */
4135 | LPAREN RNDL COMMA R RPAREN
4137 $$.r0
= 0; /* HL. */
4140 $$.aop
= 0; /* aop. */
4143 | LPAREN TL COMMA R RPAREN
4145 $$.r0
= 0; /* HL. */
4148 $$.aop
= 1; /* aop. */
4156 $$.x0
= 0; /* HL. */
4161 $$.x0
= 1; /* HL. */
4163 | LPAREN LO COMMA R RPAREN
4166 $$.x0
= 0; /* HL. */
4168 | LPAREN HI COMMA R RPAREN
4171 $$.x0
= 1; /* HL. */
4189 /* Assignments, Macfuncs. */
4215 if
(IS_A1
($3) && IS_EVEN
($1))
4216 return
yyerror ("Cannot move A1 to even register");
4217 else if
(!IS_A1
($3) && !IS_EVEN
($1))
4218 return
yyerror ("Cannot move A0 to odd register");
4234 | REG ASSIGN LPAREN a_macfunc RPAREN
4236 if
($4.n
&& IS_EVEN
($1))
4237 return
yyerror ("Cannot move A1 to even register");
4238 else if
(!$4.n
&& !IS_EVEN
($1))
4239 return
yyerror ("Cannot move A0 to odd register");
4247 | HALF_REG ASSIGN LPAREN a_macfunc RPAREN
4249 if
($4.n
&& !IS_H
($1))
4250 return
yyerror ("Cannot move A1 to low half of register");
4251 else if
(!$4.n
&& IS_H
($1))
4252 return
yyerror ("Cannot move A0 to high half of register");
4260 | HALF_REG ASSIGN REG_A
4262 if
(IS_A1
($3) && !IS_H
($1))
4263 return
yyerror ("Cannot move A1 to low half of register");
4264 else if
(!IS_A1
($3) && IS_H
($1))
4265 return
yyerror ("Cannot move A0 to high half of register");
4278 a_assign multiply_halfregs
4285 | a_plusassign multiply_halfregs
4292 | a_minusassign multiply_halfregs
4302 HALF_REG STAR HALF_REG
4304 if
(IS_DREG
($1) && IS_DREG
($3))
4310 return
yyerror ("Dregs expected");
4334 CCREG cc_op STATUS_REG
4346 | STATUS_REG cc_op CCREG
4360 /* Expressions and Symbols. */
4364 Expr_Node_Value val
;
4365 val.s_value
= S_GET_NAME
($1);
4366 $$
= Expr_Node_Create
(Expr_Node_Reloc
, val
, NULL
, NULL
);
4372 { $$
= BFD_RELOC_BFIN_GOT
; }
4374 { $$
= BFD_RELOC_BFIN_GOT17M4
; }
4376 { $$
= BFD_RELOC_BFIN_FUNCDESC_GOT17M4
; }
4379 got: symbol AT any_gotrel
4381 Expr_Node_Value val
;
4383 $$
= Expr_Node_Create
(Expr_Node_GOT_Reloc
, val
, $1, NULL
);
4406 Expr_Node_Value val
;
4408 $$
= Expr_Node_Create
(Expr_Node_Constant
, val
, NULL
, NULL
);
4414 | LPAREN expr_1 RPAREN
4420 $$
= unary
(Expr_Op_Type_COMP
, $2);
4422 | MINUS expr_1 %prec TILDA
4424 $$
= unary
(Expr_Op_Type_NEG
, $2);
4434 expr_1: expr_1 STAR expr_1
4436 $$
= binary
(Expr_Op_Type_Mult
, $1, $3);
4438 | expr_1 SLASH expr_1
4440 $$
= binary
(Expr_Op_Type_Div
, $1, $3);
4442 | expr_1 PERCENT expr_1
4444 $$
= binary
(Expr_Op_Type_Mod
, $1, $3);
4446 | expr_1 PLUS expr_1
4448 $$
= binary
(Expr_Op_Type_Add
, $1, $3);
4450 | expr_1 MINUS expr_1
4452 $$
= binary
(Expr_Op_Type_Sub
, $1, $3);
4454 | expr_1 LESS_LESS expr_1
4456 $$
= binary
(Expr_Op_Type_Lshift
, $1, $3);
4458 | expr_1 GREATER_GREATER expr_1
4460 $$
= binary
(Expr_Op_Type_Rshift
, $1, $3);
4462 | expr_1 AMPERSAND expr_1
4464 $$
= binary
(Expr_Op_Type_BAND
, $1, $3);
4466 | expr_1 CARET expr_1
4468 $$
= binary
(Expr_Op_Type_LOR
, $1, $3);
4472 $$
= binary
(Expr_Op_Type_BOR
, $1, $3);
4484 mkexpr
(int x
, SYMBOL_T s
)
4486 EXPR_T e
= (EXPR_T
) ALLOCATE
(sizeof
(struct expression_cell
));
4493 value_match
(Expr_Node
*exp
, int sz
, int sign
, int mul
, int issigned
)
4495 int umax
= (1 << sz
) - 1;
4496 int min
= -1 << (sz
- 1);
4497 int max
= (1 << (sz
- 1)) - 1;
4499 int v
= (EXPR_VALUE
(exp
)) & 0xffffffff;
4503 error ("%s:%d: Value Error -- Must align to %d\n", __FILE__
, __LINE__
, mul
);
4514 if
(v
>= min
&& v
<= max
) return
1;
4517 fprintf
(stderr
, "signed value %lx out of range\n", v
* mul
);
4521 if
(v
<= umax
&& v
>= 0)
4524 fprintf
(stderr
, "unsigned value %lx out of range\n", v
* mul
);
4529 /* Return the expression structure that allows symbol operations.
4530 If the left and right children are constants, do the operation. */
4532 binary
(Expr_Op_Type op
, Expr_Node
*x
, Expr_Node
*y
)
4534 Expr_Node_Value val
;
4536 if
(x
->type
== Expr_Node_Constant
&& y
->type
== Expr_Node_Constant
)
4540 case Expr_Op_Type_Add
:
4541 x
->value.i_value
+= y
->value.i_value
;
4543 case Expr_Op_Type_Sub
:
4544 x
->value.i_value
-= y
->value.i_value
;
4546 case Expr_Op_Type_Mult
:
4547 x
->value.i_value
*= y
->value.i_value
;
4549 case Expr_Op_Type_Div
:
4550 if
(y
->value.i_value
== 0)
4551 error ("Illegal Expression: Division by zero.");
4553 x
->value.i_value
/= y
->value.i_value
;
4555 case Expr_Op_Type_Mod
:
4556 x
->value.i_value %
= y
->value.i_value
;
4558 case Expr_Op_Type_Lshift
:
4559 x
->value.i_value
<<= y
->value.i_value
;
4561 case Expr_Op_Type_Rshift
:
4562 x
->value.i_value
>>= y
->value.i_value
;
4564 case Expr_Op_Type_BAND
:
4565 x
->value.i_value
&= y
->value.i_value
;
4567 case Expr_Op_Type_BOR
:
4568 x
->value.i_value |
= y
->value.i_value
;
4570 case Expr_Op_Type_BXOR
:
4571 x
->value.i_value ^
= y
->value.i_value
;
4573 case Expr_Op_Type_LAND
:
4574 x
->value.i_value
= x
->value.i_value
&& y
->value.i_value
;
4576 case Expr_Op_Type_LOR
:
4577 x
->value.i_value
= x
->value.i_value || y
->value.i_value
;
4581 error ("%s:%d: Internal assembler error\n", __FILE__
, __LINE__
);
4585 /* Canonicalize order to EXPR OP CONSTANT. */
4586 if
(x
->type
== Expr_Node_Constant
)
4592 /* Canonicalize subtraction of const to addition of negated const. */
4593 if
(op
== Expr_Op_Type_Sub
&& y
->type
== Expr_Node_Constant
)
4595 op
= Expr_Op_Type_Add
;
4596 y
->value.i_value
= -y
->value.i_value
;
4598 if
(y
->type
== Expr_Node_Constant
&& x
->type
== Expr_Node_Binop
4599 && x
->Right_Child
->type
== Expr_Node_Constant
)
4601 if
(op
== x
->value.op_value
&& x
->value.op_value
== Expr_Op_Type_Add
)
4603 x
->Right_Child
->value.i_value
+= y
->value.i_value
;
4608 /* Create a new expression structure. */
4610 return Expr_Node_Create
(Expr_Node_Binop
, val
, x
, y
);
4614 unary
(Expr_Op_Type op
, Expr_Node
*x
)
4616 if
(x
->type
== Expr_Node_Constant
)
4620 case Expr_Op_Type_NEG
:
4621 x
->value.i_value
= -x
->value.i_value
;
4623 case Expr_Op_Type_COMP
:
4624 x
->value.i_value
= ~x
->value.i_value
;
4627 error ("%s:%d: Internal assembler error\n", __FILE__
, __LINE__
);
4633 /* Create a new expression structure. */
4634 Expr_Node_Value val
;
4636 return Expr_Node_Create
(Expr_Node_Unop
, val
, x
, NULL
);
4640 int debug_codeselection
= 0;
4642 notethat
(char *format
, ...
)
4645 va_start
(ap
, format
);
4646 if
(debug_codeselection
)
4648 vfprintf
(errorf
, format
, ap
);
4654 main
(int argc
, char **argv
)