Merge remote-tracking branch 'remotes/armbru/tags/pull-error-2015-02-18' into staging
[qemu-kvm.git] / target-mips / dsp_helper.c
blob349f2a00330744bf1a550d508b0938f2b8b10748
1 /*
2 * MIPS ASE DSP Instruction emulation helpers for QEMU.
4 * Copyright (c) 2012 Jia Liu <proljc@gmail.com>
5 * Dongxue Zhang <elta.era@gmail.com>
6 * This library is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU Lesser General Public
8 * License as published by the Free Software Foundation; either
9 * version 2 of the License, or (at your option) any later version.
11 * This library is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 * Lesser General Public License for more details.
16 * You should have received a copy of the GNU Lesser General Public
17 * License along with this library; if not, see <http://www.gnu.org/licenses/>.
20 #include "cpu.h"
21 #include "exec/helper-proto.h"
22 #include "qemu/bitops.h"
24 /* As the byte ordering doesn't matter, i.e. all columns are treated
25 identically, these unions can be used directly. */
26 typedef union {
27 uint8_t ub[4];
28 int8_t sb[4];
29 uint16_t uh[2];
30 int16_t sh[2];
31 uint32_t uw[1];
32 int32_t sw[1];
33 } DSP32Value;
35 typedef union {
36 uint8_t ub[8];
37 int8_t sb[8];
38 uint16_t uh[4];
39 int16_t sh[4];
40 uint32_t uw[2];
41 int32_t sw[2];
42 uint64_t ul[1];
43 int64_t sl[1];
44 } DSP64Value;
46 /*** MIPS DSP internal functions begin ***/
47 #define MIPSDSP_ABS(x) (((x) >= 0) ? x : -x)
48 #define MIPSDSP_OVERFLOW_ADD(a, b, c, d) (~(a ^ b) & (a ^ c) & d)
49 #define MIPSDSP_OVERFLOW_SUB(a, b, c, d) ((a ^ b) & (a ^ c) & d)
51 static inline void set_DSPControl_overflow_flag(uint32_t flag, int position,
52 CPUMIPSState *env)
54 env->active_tc.DSPControl |= (target_ulong)flag << position;
57 static inline void set_DSPControl_carryflag(bool flag, CPUMIPSState *env)
59 env->active_tc.DSPControl &= ~(1 << 13);
60 env->active_tc.DSPControl |= flag << 13;
63 static inline uint32_t get_DSPControl_carryflag(CPUMIPSState *env)
65 return (env->active_tc.DSPControl >> 13) & 0x01;
68 static inline void set_DSPControl_24(uint32_t flag, int len, CPUMIPSState *env)
70 uint32_t filter;
72 filter = ((0x01 << len) - 1) << 24;
73 filter = ~filter;
75 env->active_tc.DSPControl &= filter;
76 env->active_tc.DSPControl |= (target_ulong)flag << 24;
79 static inline void set_DSPControl_pos(uint32_t pos, CPUMIPSState *env)
81 target_ulong dspc;
83 dspc = env->active_tc.DSPControl;
84 #ifndef TARGET_MIPS64
85 dspc = dspc & 0xFFFFFFC0;
86 dspc |= (pos & 0x3F);
87 #else
88 dspc = dspc & 0xFFFFFF80;
89 dspc |= (pos & 0x7F);
90 #endif
91 env->active_tc.DSPControl = dspc;
94 static inline uint32_t get_DSPControl_pos(CPUMIPSState *env)
96 target_ulong dspc;
97 uint32_t pos;
99 dspc = env->active_tc.DSPControl;
101 #ifndef TARGET_MIPS64
102 pos = dspc & 0x3F;
103 #else
104 pos = dspc & 0x7F;
105 #endif
107 return pos;
110 static inline void set_DSPControl_efi(uint32_t flag, CPUMIPSState *env)
112 env->active_tc.DSPControl &= 0xFFFFBFFF;
113 env->active_tc.DSPControl |= (target_ulong)flag << 14;
116 #define DO_MIPS_SAT_ABS(size) \
117 static inline int##size##_t mipsdsp_sat_abs##size(int##size##_t a, \
118 CPUMIPSState *env) \
120 if (a == INT##size##_MIN) { \
121 set_DSPControl_overflow_flag(1, 20, env); \
122 return INT##size##_MAX; \
123 } else { \
124 return MIPSDSP_ABS(a); \
127 DO_MIPS_SAT_ABS(8)
128 DO_MIPS_SAT_ABS(16)
129 DO_MIPS_SAT_ABS(32)
130 #undef DO_MIPS_SAT_ABS
132 /* get sum value */
133 static inline int16_t mipsdsp_add_i16(int16_t a, int16_t b, CPUMIPSState *env)
135 int16_t tempI;
137 tempI = a + b;
139 if (MIPSDSP_OVERFLOW_ADD(a, b, tempI, 0x8000)) {
140 set_DSPControl_overflow_flag(1, 20, env);
143 return tempI;
146 static inline int16_t mipsdsp_sat_add_i16(int16_t a, int16_t b,
147 CPUMIPSState *env)
149 int16_t tempS;
151 tempS = a + b;
153 if (MIPSDSP_OVERFLOW_ADD(a, b, tempS, 0x8000)) {
154 if (a > 0) {
155 tempS = 0x7FFF;
156 } else {
157 tempS = 0x8000;
159 set_DSPControl_overflow_flag(1, 20, env);
162 return tempS;
165 static inline int32_t mipsdsp_sat_add_i32(int32_t a, int32_t b,
166 CPUMIPSState *env)
168 int32_t tempI;
170 tempI = a + b;
172 if (MIPSDSP_OVERFLOW_ADD(a, b, tempI, 0x80000000)) {
173 if (a > 0) {
174 tempI = 0x7FFFFFFF;
175 } else {
176 tempI = 0x80000000;
178 set_DSPControl_overflow_flag(1, 20, env);
181 return tempI;
184 static inline uint8_t mipsdsp_add_u8(uint8_t a, uint8_t b, CPUMIPSState *env)
186 uint16_t temp;
188 temp = (uint16_t)a + (uint16_t)b;
190 if (temp & 0x0100) {
191 set_DSPControl_overflow_flag(1, 20, env);
194 return temp & 0xFF;
197 static inline uint16_t mipsdsp_add_u16(uint16_t a, uint16_t b,
198 CPUMIPSState *env)
200 uint32_t temp;
202 temp = (uint32_t)a + (uint32_t)b;
204 if (temp & 0x00010000) {
205 set_DSPControl_overflow_flag(1, 20, env);
208 return temp & 0xFFFF;
211 static inline uint8_t mipsdsp_sat_add_u8(uint8_t a, uint8_t b,
212 CPUMIPSState *env)
214 uint8_t result;
215 uint16_t temp;
217 temp = (uint16_t)a + (uint16_t)b;
218 result = temp & 0xFF;
220 if (0x0100 & temp) {
221 result = 0xFF;
222 set_DSPControl_overflow_flag(1, 20, env);
225 return result;
228 static inline uint16_t mipsdsp_sat_add_u16(uint16_t a, uint16_t b,
229 CPUMIPSState *env)
231 uint16_t result;
232 uint32_t temp;
234 temp = (uint32_t)a + (uint32_t)b;
235 result = temp & 0xFFFF;
237 if (0x00010000 & temp) {
238 result = 0xFFFF;
239 set_DSPControl_overflow_flag(1, 20, env);
242 return result;
245 static inline int32_t mipsdsp_sat32_acc_q31(int32_t acc, int32_t a,
246 CPUMIPSState *env)
248 int64_t temp;
249 int32_t temp32, temp31, result;
250 int64_t temp_sum;
252 #ifndef TARGET_MIPS64
253 temp = ((uint64_t)env->active_tc.HI[acc] << 32) |
254 (uint64_t)env->active_tc.LO[acc];
255 #else
256 temp = (uint64_t)env->active_tc.LO[acc];
257 #endif
259 temp_sum = (int64_t)a + temp;
261 temp32 = (temp_sum >> 32) & 0x01;
262 temp31 = (temp_sum >> 31) & 0x01;
263 result = temp_sum & 0xFFFFFFFF;
265 if (temp32 != temp31) {
266 if (temp32 == 0) {
267 result = 0x7FFFFFFF;
268 } else {
269 result = 0x80000000;
271 set_DSPControl_overflow_flag(1, 16 + acc, env);
274 return result;
277 #ifdef TARGET_MIPS64
278 /* a[0] is LO, a[1] is HI. */
279 static inline void mipsdsp_sat64_acc_add_q63(int64_t *ret,
280 int32_t ac,
281 int64_t *a,
282 CPUMIPSState *env)
284 bool temp64;
286 ret[0] = env->active_tc.LO[ac] + a[0];
287 ret[1] = env->active_tc.HI[ac] + a[1];
289 if (((uint64_t)ret[0] < (uint64_t)env->active_tc.LO[ac]) &&
290 ((uint64_t)ret[0] < (uint64_t)a[0])) {
291 ret[1] += 1;
293 temp64 = ret[1] & 1;
294 if (temp64 != ((ret[0] >> 63) & 0x01)) {
295 if (temp64) {
296 ret[0] = (0x01ull << 63);
297 ret[1] = ~0ull;
298 } else {
299 ret[0] = (0x01ull << 63) - 1;
300 ret[1] = 0x00;
302 set_DSPControl_overflow_flag(1, 16 + ac, env);
306 static inline void mipsdsp_sat64_acc_sub_q63(int64_t *ret,
307 int32_t ac,
308 int64_t *a,
309 CPUMIPSState *env)
311 bool temp64;
313 ret[0] = env->active_tc.LO[ac] - a[0];
314 ret[1] = env->active_tc.HI[ac] - a[1];
316 if ((uint64_t)ret[0] > (uint64_t)env->active_tc.LO[ac]) {
317 ret[1] -= 1;
319 temp64 = ret[1] & 1;
320 if (temp64 != ((ret[0] >> 63) & 0x01)) {
321 if (temp64) {
322 ret[0] = (0x01ull << 63);
323 ret[1] = ~0ull;
324 } else {
325 ret[0] = (0x01ull << 63) - 1;
326 ret[1] = 0x00;
328 set_DSPControl_overflow_flag(1, 16 + ac, env);
331 #endif
333 static inline int32_t mipsdsp_mul_i16_i16(int16_t a, int16_t b,
334 CPUMIPSState *env)
336 int32_t temp;
338 temp = (int32_t)a * (int32_t)b;
340 if ((temp > (int)0x7FFF) || (temp < (int)0xFFFF8000)) {
341 set_DSPControl_overflow_flag(1, 21, env);
343 temp &= 0x0000FFFF;
345 return temp;
348 static inline int32_t mipsdsp_mul_u16_u16(int32_t a, int32_t b)
350 return a * b;
353 #ifdef TARGET_MIPS64
354 static inline int32_t mipsdsp_mul_i32_i32(int32_t a, int32_t b)
356 return a * b;
358 #endif
360 static inline int32_t mipsdsp_sat16_mul_i16_i16(int16_t a, int16_t b,
361 CPUMIPSState *env)
363 int32_t temp;
365 temp = (int32_t)a * (int32_t)b;
367 if (temp > (int)0x7FFF) {
368 temp = 0x00007FFF;
369 set_DSPControl_overflow_flag(1, 21, env);
370 } else if (temp < (int)0xffff8000) {
371 temp = 0xFFFF8000;
372 set_DSPControl_overflow_flag(1, 21, env);
374 temp &= 0x0000FFFF;
376 return temp;
379 static inline int32_t mipsdsp_mul_q15_q15_overflowflag21(uint16_t a, uint16_t b,
380 CPUMIPSState *env)
382 int32_t temp;
384 if ((a == 0x8000) && (b == 0x8000)) {
385 temp = 0x7FFFFFFF;
386 set_DSPControl_overflow_flag(1, 21, env);
387 } else {
388 temp = ((int16_t)a * (int16_t)b) << 1;
391 return temp;
394 /* right shift */
395 static inline uint8_t mipsdsp_rshift_u8(uint8_t a, target_ulong mov)
397 return a >> mov;
400 static inline uint16_t mipsdsp_rshift_u16(uint16_t a, target_ulong mov)
402 return a >> mov;
405 static inline int8_t mipsdsp_rashift8(int8_t a, target_ulong mov)
407 return a >> mov;
410 static inline int16_t mipsdsp_rashift16(int16_t a, target_ulong mov)
412 return a >> mov;
415 #ifdef TARGET_MIPS64
416 static inline int32_t mipsdsp_rashift32(int32_t a, target_ulong mov)
418 return a >> mov;
420 #endif
422 static inline int16_t mipsdsp_rshift1_add_q16(int16_t a, int16_t b)
424 int32_t temp;
426 temp = (int32_t)a + (int32_t)b;
428 return (temp >> 1) & 0xFFFF;
431 /* round right shift */
432 static inline int16_t mipsdsp_rrshift1_add_q16(int16_t a, int16_t b)
434 int32_t temp;
436 temp = (int32_t)a + (int32_t)b;
437 temp += 1;
439 return (temp >> 1) & 0xFFFF;
442 static inline int32_t mipsdsp_rshift1_add_q32(int32_t a, int32_t b)
444 int64_t temp;
446 temp = (int64_t)a + (int64_t)b;
448 return (temp >> 1) & 0xFFFFFFFF;
451 static inline int32_t mipsdsp_rrshift1_add_q32(int32_t a, int32_t b)
453 int64_t temp;
455 temp = (int64_t)a + (int64_t)b;
456 temp += 1;
458 return (temp >> 1) & 0xFFFFFFFF;
461 static inline uint8_t mipsdsp_rshift1_add_u8(uint8_t a, uint8_t b)
463 uint16_t temp;
465 temp = (uint16_t)a + (uint16_t)b;
467 return (temp >> 1) & 0x00FF;
470 static inline uint8_t mipsdsp_rrshift1_add_u8(uint8_t a, uint8_t b)
472 uint16_t temp;
474 temp = (uint16_t)a + (uint16_t)b + 1;
476 return (temp >> 1) & 0x00FF;
479 #ifdef TARGET_MIPS64
480 static inline uint8_t mipsdsp_rshift1_sub_u8(uint8_t a, uint8_t b)
482 uint16_t temp;
484 temp = (uint16_t)a - (uint16_t)b;
486 return (temp >> 1) & 0x00FF;
489 static inline uint8_t mipsdsp_rrshift1_sub_u8(uint8_t a, uint8_t b)
491 uint16_t temp;
493 temp = (uint16_t)a - (uint16_t)b + 1;
495 return (temp >> 1) & 0x00FF;
497 #endif
499 /* 128 bits long. p[0] is LO, p[1] is HI. */
500 static inline void mipsdsp_rndrashift_short_acc(int64_t *p,
501 int32_t ac,
502 int32_t shift,
503 CPUMIPSState *env)
505 int64_t acc;
507 acc = ((int64_t)env->active_tc.HI[ac] << 32) |
508 ((int64_t)env->active_tc.LO[ac] & 0xFFFFFFFF);
509 p[0] = (shift == 0) ? (acc << 1) : (acc >> (shift - 1));
510 p[1] = (acc >> 63) & 0x01;
513 #ifdef TARGET_MIPS64
514 /* 128 bits long. p[0] is LO, p[1] is HI */
515 static inline void mipsdsp_rashift_acc(uint64_t *p,
516 uint32_t ac,
517 uint32_t shift,
518 CPUMIPSState *env)
520 uint64_t tempB, tempA;
522 tempB = env->active_tc.HI[ac];
523 tempA = env->active_tc.LO[ac];
524 shift = shift & 0x1F;
526 if (shift == 0) {
527 p[1] = tempB;
528 p[0] = tempA;
529 } else {
530 p[0] = (tempB << (64 - shift)) | (tempA >> shift);
531 p[1] = (int64_t)tempB >> shift;
535 /* 128 bits long. p[0] is LO, p[1] is HI , p[2] is sign of HI.*/
536 static inline void mipsdsp_rndrashift_acc(uint64_t *p,
537 uint32_t ac,
538 uint32_t shift,
539 CPUMIPSState *env)
541 int64_t tempB, tempA;
543 tempB = env->active_tc.HI[ac];
544 tempA = env->active_tc.LO[ac];
545 shift = shift & 0x3F;
547 if (shift == 0) {
548 p[2] = tempB >> 63;
549 p[1] = (tempB << 1) | (tempA >> 63);
550 p[0] = tempA << 1;
551 } else {
552 p[0] = (tempB << (65 - shift)) | (tempA >> (shift - 1));
553 p[1] = (int64_t)tempB >> (shift - 1);
554 if (tempB >= 0) {
555 p[2] = 0x0;
556 } else {
557 p[2] = ~0ull;
561 #endif
563 static inline int32_t mipsdsp_mul_q15_q15(int32_t ac, uint16_t a, uint16_t b,
564 CPUMIPSState *env)
566 int32_t temp;
568 if ((a == 0x8000) && (b == 0x8000)) {
569 temp = 0x7FFFFFFF;
570 set_DSPControl_overflow_flag(1, 16 + ac, env);
571 } else {
572 temp = ((int16_t)a * (int16_t)b) << 1;
575 return temp;
578 static inline int64_t mipsdsp_mul_q31_q31(int32_t ac, uint32_t a, uint32_t b,
579 CPUMIPSState *env)
581 uint64_t temp;
583 if ((a == 0x80000000) && (b == 0x80000000)) {
584 temp = (0x01ull << 63) - 1;
585 set_DSPControl_overflow_flag(1, 16 + ac, env);
586 } else {
587 temp = ((int64_t)(int32_t)a * (int32_t)b) << 1;
590 return temp;
593 static inline uint16_t mipsdsp_mul_u8_u8(uint8_t a, uint8_t b)
595 return (uint16_t)a * (uint16_t)b;
598 static inline uint16_t mipsdsp_mul_u8_u16(uint8_t a, uint16_t b,
599 CPUMIPSState *env)
601 uint32_t tempI;
603 tempI = (uint32_t)a * (uint32_t)b;
604 if (tempI > 0x0000FFFF) {
605 tempI = 0x0000FFFF;
606 set_DSPControl_overflow_flag(1, 21, env);
609 return tempI & 0x0000FFFF;
612 #ifdef TARGET_MIPS64
613 static inline uint64_t mipsdsp_mul_u32_u32(uint32_t a, uint32_t b)
615 return (uint64_t)a * (uint64_t)b;
617 #endif
619 static inline int16_t mipsdsp_rndq15_mul_q15_q15(uint16_t a, uint16_t b,
620 CPUMIPSState *env)
622 uint32_t temp;
624 if ((a == 0x8000) && (b == 0x8000)) {
625 temp = 0x7FFF0000;
626 set_DSPControl_overflow_flag(1, 21, env);
627 } else {
628 temp = ((int16_t)a * (int16_t)b) << 1;
629 temp = temp + 0x00008000;
632 return (temp & 0xFFFF0000) >> 16;
635 static inline int32_t mipsdsp_sat16_mul_q15_q15(uint16_t a, uint16_t b,
636 CPUMIPSState *env)
638 int32_t temp;
640 if ((a == 0x8000) && (b == 0x8000)) {
641 temp = 0x7FFF0000;
642 set_DSPControl_overflow_flag(1, 21, env);
643 } else {
644 temp = (int16_t)a * (int16_t)b;
645 temp = temp << 1;
648 return (temp >> 16) & 0x0000FFFF;
651 static inline uint16_t mipsdsp_trunc16_sat16_round(int32_t a,
652 CPUMIPSState *env)
654 uint16_t temp;
658 * The value 0x00008000 will be added to the input Q31 value, and the code
659 * needs to check if the addition causes an overflow. Since a positive value
660 * is added, overflow can happen in one direction only.
662 if (a > 0x7FFF7FFF) {
663 temp = 0x7FFF;
664 set_DSPControl_overflow_flag(1, 22, env);
665 } else {
666 temp = ((a + 0x8000) >> 16) & 0xFFFF;
669 return temp;
672 static inline uint8_t mipsdsp_sat8_reduce_precision(uint16_t a,
673 CPUMIPSState *env)
675 uint16_t mag;
676 uint32_t sign;
678 sign = (a >> 15) & 0x01;
679 mag = a & 0x7FFF;
681 if (sign == 0) {
682 if (mag > 0x7F80) {
683 set_DSPControl_overflow_flag(1, 22, env);
684 return 0xFF;
685 } else {
686 return (mag >> 7) & 0xFFFF;
688 } else {
689 set_DSPControl_overflow_flag(1, 22, env);
690 return 0x00;
694 static inline uint8_t mipsdsp_lshift8(uint8_t a, uint8_t s, CPUMIPSState *env)
696 uint8_t discard;
698 if (s != 0) {
699 discard = a >> (8 - s);
701 if (discard != 0x00) {
702 set_DSPControl_overflow_flag(1, 22, env);
705 return a << s;
708 static inline uint16_t mipsdsp_lshift16(uint16_t a, uint8_t s,
709 CPUMIPSState *env)
711 uint16_t discard;
713 if (s != 0) {
714 discard = (int16_t)a >> (15 - s);
716 if ((discard != 0x0000) && (discard != 0xFFFF)) {
717 set_DSPControl_overflow_flag(1, 22, env);
720 return a << s;
723 #ifdef TARGET_MIPS64
724 static inline uint32_t mipsdsp_lshift32(uint32_t a, uint8_t s,
725 CPUMIPSState *env)
727 uint32_t discard;
729 if (s == 0) {
730 return a;
731 } else {
732 discard = (int32_t)a >> (31 - (s - 1));
734 if ((discard != 0x00000000) && (discard != 0xFFFFFFFF)) {
735 set_DSPControl_overflow_flag(1, 22, env);
737 return a << s;
740 #endif
742 static inline uint16_t mipsdsp_sat16_lshift(uint16_t a, uint8_t s,
743 CPUMIPSState *env)
745 uint8_t sign;
746 uint16_t discard;
748 if (s == 0) {
749 return a;
750 } else {
751 sign = (a >> 15) & 0x01;
752 if (sign != 0) {
753 discard = (((0x01 << (16 - s)) - 1) << s) |
754 ((a >> (14 - (s - 1))) & ((0x01 << s) - 1));
755 } else {
756 discard = a >> (14 - (s - 1));
759 if ((discard != 0x0000) && (discard != 0xFFFF)) {
760 set_DSPControl_overflow_flag(1, 22, env);
761 return (sign == 0) ? 0x7FFF : 0x8000;
762 } else {
763 return a << s;
768 static inline uint32_t mipsdsp_sat32_lshift(uint32_t a, uint8_t s,
769 CPUMIPSState *env)
771 uint8_t sign;
772 uint32_t discard;
774 if (s == 0) {
775 return a;
776 } else {
777 sign = (a >> 31) & 0x01;
778 if (sign != 0) {
779 discard = (((0x01 << (32 - s)) - 1) << s) |
780 ((a >> (30 - (s - 1))) & ((0x01 << s) - 1));
781 } else {
782 discard = a >> (30 - (s - 1));
785 if ((discard != 0x00000000) && (discard != 0xFFFFFFFF)) {
786 set_DSPControl_overflow_flag(1, 22, env);
787 return (sign == 0) ? 0x7FFFFFFF : 0x80000000;
788 } else {
789 return a << s;
794 static inline uint8_t mipsdsp_rnd8_rashift(uint8_t a, uint8_t s)
796 uint32_t temp;
798 if (s == 0) {
799 temp = (uint32_t)a << 1;
800 } else {
801 temp = (int32_t)(int8_t)a >> (s - 1);
804 return (temp + 1) >> 1;
807 static inline uint16_t mipsdsp_rnd16_rashift(uint16_t a, uint8_t s)
809 uint32_t temp;
811 if (s == 0) {
812 temp = (uint32_t)a << 1;
813 } else {
814 temp = (int32_t)(int16_t)a >> (s - 1);
817 return (temp + 1) >> 1;
820 static inline uint32_t mipsdsp_rnd32_rashift(uint32_t a, uint8_t s)
822 int64_t temp;
824 if (s == 0) {
825 temp = (uint64_t)a << 1;
826 } else {
827 temp = (int64_t)(int32_t)a >> (s - 1);
829 temp += 1;
831 return (temp >> 1) & 0xFFFFFFFFull;
834 static inline uint16_t mipsdsp_sub_i16(int16_t a, int16_t b, CPUMIPSState *env)
836 int16_t temp;
838 temp = a - b;
839 if (MIPSDSP_OVERFLOW_SUB(a, b, temp, 0x8000)) {
840 set_DSPControl_overflow_flag(1, 20, env);
843 return temp;
846 static inline uint16_t mipsdsp_sat16_sub(int16_t a, int16_t b,
847 CPUMIPSState *env)
849 int16_t temp;
851 temp = a - b;
852 if (MIPSDSP_OVERFLOW_SUB(a, b, temp, 0x8000)) {
853 if (a >= 0) {
854 temp = 0x7FFF;
855 } else {
856 temp = 0x8000;
858 set_DSPControl_overflow_flag(1, 20, env);
861 return temp;
864 static inline uint32_t mipsdsp_sat32_sub(int32_t a, int32_t b,
865 CPUMIPSState *env)
867 int32_t temp;
869 temp = a - b;
870 if (MIPSDSP_OVERFLOW_SUB(a, b, temp, 0x80000000)) {
871 if (a >= 0) {
872 temp = 0x7FFFFFFF;
873 } else {
874 temp = 0x80000000;
876 set_DSPControl_overflow_flag(1, 20, env);
879 return temp & 0xFFFFFFFFull;
882 static inline uint16_t mipsdsp_rshift1_sub_q16(int16_t a, int16_t b)
884 int32_t temp;
886 temp = (int32_t)a - (int32_t)b;
888 return (temp >> 1) & 0x0000FFFF;
891 static inline uint16_t mipsdsp_rrshift1_sub_q16(int16_t a, int16_t b)
893 int32_t temp;
895 temp = (int32_t)a - (int32_t)b;
896 temp += 1;
898 return (temp >> 1) & 0x0000FFFF;
901 static inline uint32_t mipsdsp_rshift1_sub_q32(int32_t a, int32_t b)
903 int64_t temp;
905 temp = (int64_t)a - (int64_t)b;
907 return (temp >> 1) & 0xFFFFFFFFull;
910 static inline uint32_t mipsdsp_rrshift1_sub_q32(int32_t a, int32_t b)
912 int64_t temp;
914 temp = (int64_t)a - (int64_t)b;
915 temp += 1;
917 return (temp >> 1) & 0xFFFFFFFFull;
920 static inline uint16_t mipsdsp_sub_u16_u16(uint16_t a, uint16_t b,
921 CPUMIPSState *env)
923 uint8_t temp16;
924 uint32_t temp;
926 temp = (uint32_t)a - (uint32_t)b;
927 temp16 = (temp >> 16) & 0x01;
928 if (temp16 == 1) {
929 set_DSPControl_overflow_flag(1, 20, env);
931 return temp & 0x0000FFFF;
934 static inline uint16_t mipsdsp_satu16_sub_u16_u16(uint16_t a, uint16_t b,
935 CPUMIPSState *env)
937 uint8_t temp16;
938 uint32_t temp;
940 temp = (uint32_t)a - (uint32_t)b;
941 temp16 = (temp >> 16) & 0x01;
943 if (temp16 == 1) {
944 temp = 0x0000;
945 set_DSPControl_overflow_flag(1, 20, env);
948 return temp & 0x0000FFFF;
951 static inline uint8_t mipsdsp_sub_u8(uint8_t a, uint8_t b, CPUMIPSState *env)
953 uint8_t temp8;
954 uint16_t temp;
956 temp = (uint16_t)a - (uint16_t)b;
957 temp8 = (temp >> 8) & 0x01;
958 if (temp8 == 1) {
959 set_DSPControl_overflow_flag(1, 20, env);
962 return temp & 0x00FF;
965 static inline uint8_t mipsdsp_satu8_sub(uint8_t a, uint8_t b, CPUMIPSState *env)
967 uint8_t temp8;
968 uint16_t temp;
970 temp = (uint16_t)a - (uint16_t)b;
971 temp8 = (temp >> 8) & 0x01;
972 if (temp8 == 1) {
973 temp = 0x00;
974 set_DSPControl_overflow_flag(1, 20, env);
977 return temp & 0x00FF;
980 #ifdef TARGET_MIPS64
981 static inline uint32_t mipsdsp_sub32(int32_t a, int32_t b, CPUMIPSState *env)
983 int32_t temp;
985 temp = a - b;
986 if (MIPSDSP_OVERFLOW_SUB(a, b, temp, 0x80000000)) {
987 set_DSPControl_overflow_flag(1, 20, env);
990 return temp;
993 static inline int32_t mipsdsp_add_i32(int32_t a, int32_t b, CPUMIPSState *env)
995 int32_t temp;
997 temp = a + b;
999 if (MIPSDSP_OVERFLOW_ADD(a, b, temp, 0x80000000)) {
1000 set_DSPControl_overflow_flag(1, 20, env);
1003 return temp;
1005 #endif
1007 static inline int32_t mipsdsp_cmp_eq(int32_t a, int32_t b)
1009 return a == b;
1012 static inline int32_t mipsdsp_cmp_le(int32_t a, int32_t b)
1014 return a <= b;
1017 static inline int32_t mipsdsp_cmp_lt(int32_t a, int32_t b)
1019 return a < b;
1022 static inline int32_t mipsdsp_cmpu_eq(uint32_t a, uint32_t b)
1024 return a == b;
1027 static inline int32_t mipsdsp_cmpu_le(uint32_t a, uint32_t b)
1029 return a <= b;
1032 static inline int32_t mipsdsp_cmpu_lt(uint32_t a, uint32_t b)
1034 return a < b;
1036 /*** MIPS DSP internal functions end ***/
1038 #define MIPSDSP_LHI 0xFFFFFFFF00000000ull
1039 #define MIPSDSP_LLO 0x00000000FFFFFFFFull
1040 #define MIPSDSP_HI 0xFFFF0000
1041 #define MIPSDSP_LO 0x0000FFFF
1042 #define MIPSDSP_Q3 0xFF000000
1043 #define MIPSDSP_Q2 0x00FF0000
1044 #define MIPSDSP_Q1 0x0000FF00
1045 #define MIPSDSP_Q0 0x000000FF
1047 #define MIPSDSP_SPLIT32_8(num, a, b, c, d) \
1048 do { \
1049 a = (num >> 24) & MIPSDSP_Q0; \
1050 b = (num >> 16) & MIPSDSP_Q0; \
1051 c = (num >> 8) & MIPSDSP_Q0; \
1052 d = num & MIPSDSP_Q0; \
1053 } while (0)
1055 #define MIPSDSP_SPLIT32_16(num, a, b) \
1056 do { \
1057 a = (num >> 16) & MIPSDSP_LO; \
1058 b = num & MIPSDSP_LO; \
1059 } while (0)
1061 #define MIPSDSP_RETURN32_8(a, b, c, d) ((target_long)(int32_t) \
1062 (((uint32_t)a << 24) | \
1063 (((uint32_t)b << 16) | \
1064 (((uint32_t)c << 8) | \
1065 ((uint32_t)d & 0xFF)))))
1066 #define MIPSDSP_RETURN32_16(a, b) ((target_long)(int32_t) \
1067 (((uint32_t)a << 16) | \
1068 ((uint32_t)b & 0xFFFF)))
1070 #ifdef TARGET_MIPS64
1071 #define MIPSDSP_SPLIT64_16(num, a, b, c, d) \
1072 do { \
1073 a = (num >> 48) & MIPSDSP_LO; \
1074 b = (num >> 32) & MIPSDSP_LO; \
1075 c = (num >> 16) & MIPSDSP_LO; \
1076 d = num & MIPSDSP_LO; \
1077 } while (0)
1079 #define MIPSDSP_SPLIT64_32(num, a, b) \
1080 do { \
1081 a = (num >> 32) & MIPSDSP_LLO; \
1082 b = num & MIPSDSP_LLO; \
1083 } while (0)
1085 #define MIPSDSP_RETURN64_16(a, b, c, d) (((uint64_t)a << 48) | \
1086 ((uint64_t)b << 32) | \
1087 ((uint64_t)c << 16) | \
1088 (uint64_t)d)
1089 #define MIPSDSP_RETURN64_32(a, b) (((uint64_t)a << 32) | (uint64_t)b)
1090 #endif
1092 /** DSP Arithmetic Sub-class insns **/
1093 #define MIPSDSP32_UNOP_ENV(name, func, element) \
1094 target_ulong helper_##name(target_ulong rt, CPUMIPSState *env) \
1096 DSP32Value dt; \
1097 unsigned int i; \
1099 dt.sw[0] = rt; \
1101 for (i = 0; i < ARRAY_SIZE(dt.element); i++) { \
1102 dt.element[i] = mipsdsp_##func(dt.element[i], env); \
1105 return (target_long)dt.sw[0]; \
1107 MIPSDSP32_UNOP_ENV(absq_s_ph, sat_abs16, sh)
1108 MIPSDSP32_UNOP_ENV(absq_s_qb, sat_abs8, sb)
1109 MIPSDSP32_UNOP_ENV(absq_s_w, sat_abs32, sw)
1110 #undef MIPSDSP32_UNOP_ENV
1112 #if defined(TARGET_MIPS64)
1113 #define MIPSDSP64_UNOP_ENV(name, func, element) \
1114 target_ulong helper_##name(target_ulong rt, CPUMIPSState *env) \
1116 DSP64Value dt; \
1117 unsigned int i; \
1119 dt.sl[0] = rt; \
1121 for (i = 0; i < ARRAY_SIZE(dt.element); i++) { \
1122 dt.element[i] = mipsdsp_##func(dt.element[i], env); \
1125 return dt.sl[0]; \
1127 MIPSDSP64_UNOP_ENV(absq_s_ob, sat_abs8, sb)
1128 MIPSDSP64_UNOP_ENV(absq_s_qh, sat_abs16, sh)
1129 MIPSDSP64_UNOP_ENV(absq_s_pw, sat_abs32, sw)
1130 #undef MIPSDSP64_UNOP_ENV
1131 #endif
1133 #define MIPSDSP32_BINOP(name, func, element) \
1134 target_ulong helper_##name(target_ulong rs, target_ulong rt) \
1136 DSP32Value ds, dt; \
1137 unsigned int i; \
1139 ds.sw[0] = rs; \
1140 dt.sw[0] = rt; \
1142 for (i = 0; i < ARRAY_SIZE(ds.element); i++) { \
1143 ds.element[i] = mipsdsp_##func(ds.element[i], dt.element[i]); \
1146 return (target_long)ds.sw[0]; \
1148 MIPSDSP32_BINOP(addqh_ph, rshift1_add_q16, sh);
1149 MIPSDSP32_BINOP(addqh_r_ph, rrshift1_add_q16, sh);
1150 MIPSDSP32_BINOP(addqh_r_w, rrshift1_add_q32, sw);
1151 MIPSDSP32_BINOP(addqh_w, rshift1_add_q32, sw);
1152 MIPSDSP32_BINOP(adduh_qb, rshift1_add_u8, ub);
1153 MIPSDSP32_BINOP(adduh_r_qb, rrshift1_add_u8, ub);
1154 MIPSDSP32_BINOP(subqh_ph, rshift1_sub_q16, sh);
1155 MIPSDSP32_BINOP(subqh_r_ph, rrshift1_sub_q16, sh);
1156 MIPSDSP32_BINOP(subqh_r_w, rrshift1_sub_q32, sw);
1157 MIPSDSP32_BINOP(subqh_w, rshift1_sub_q32, sw);
1158 #undef MIPSDSP32_BINOP
1160 #define MIPSDSP32_BINOP_ENV(name, func, element) \
1161 target_ulong helper_##name(target_ulong rs, target_ulong rt, \
1162 CPUMIPSState *env) \
1164 DSP32Value ds, dt; \
1165 unsigned int i; \
1167 ds.sw[0] = rs; \
1168 dt.sw[0] = rt; \
1170 for (i = 0 ; i < ARRAY_SIZE(ds.element); i++) { \
1171 ds.element[i] = mipsdsp_##func(ds.element[i], dt.element[i], env); \
1174 return (target_long)ds.sw[0]; \
1176 MIPSDSP32_BINOP_ENV(addq_ph, add_i16, sh)
1177 MIPSDSP32_BINOP_ENV(addq_s_ph, sat_add_i16, sh)
1178 MIPSDSP32_BINOP_ENV(addq_s_w, sat_add_i32, sw);
1179 MIPSDSP32_BINOP_ENV(addu_ph, add_u16, sh)
1180 MIPSDSP32_BINOP_ENV(addu_qb, add_u8, ub);
1181 MIPSDSP32_BINOP_ENV(addu_s_ph, sat_add_u16, sh)
1182 MIPSDSP32_BINOP_ENV(addu_s_qb, sat_add_u8, ub);
1183 MIPSDSP32_BINOP_ENV(subq_ph, sub_i16, sh);
1184 MIPSDSP32_BINOP_ENV(subq_s_ph, sat16_sub, sh);
1185 MIPSDSP32_BINOP_ENV(subq_s_w, sat32_sub, sw);
1186 MIPSDSP32_BINOP_ENV(subu_ph, sub_u16_u16, sh);
1187 MIPSDSP32_BINOP_ENV(subu_qb, sub_u8, ub);
1188 MIPSDSP32_BINOP_ENV(subu_s_ph, satu16_sub_u16_u16, sh);
1189 MIPSDSP32_BINOP_ENV(subu_s_qb, satu8_sub, ub);
1190 #undef MIPSDSP32_BINOP_ENV
1192 #ifdef TARGET_MIPS64
1193 #define MIPSDSP64_BINOP(name, func, element) \
1194 target_ulong helper_##name(target_ulong rs, target_ulong rt) \
1196 DSP64Value ds, dt; \
1197 unsigned int i; \
1199 ds.sl[0] = rs; \
1200 dt.sl[0] = rt; \
1202 for (i = 0 ; i < ARRAY_SIZE(ds.element); i++) { \
1203 ds.element[i] = mipsdsp_##func(ds.element[i], dt.element[i]); \
1206 return ds.sl[0]; \
1208 MIPSDSP64_BINOP(adduh_ob, rshift1_add_u8, ub);
1209 MIPSDSP64_BINOP(adduh_r_ob, rrshift1_add_u8, ub);
1210 MIPSDSP64_BINOP(subuh_ob, rshift1_sub_u8, ub);
1211 MIPSDSP64_BINOP(subuh_r_ob, rrshift1_sub_u8, ub);
1212 #undef MIPSDSP64_BINOP
1214 #define MIPSDSP64_BINOP_ENV(name, func, element) \
1215 target_ulong helper_##name(target_ulong rs, target_ulong rt, \
1216 CPUMIPSState *env) \
1218 DSP64Value ds, dt; \
1219 unsigned int i; \
1221 ds.sl[0] = rs; \
1222 dt.sl[0] = rt; \
1224 for (i = 0 ; i < ARRAY_SIZE(ds.element); i++) { \
1225 ds.element[i] = mipsdsp_##func(ds.element[i], dt.element[i], env); \
1228 return ds.sl[0]; \
1230 MIPSDSP64_BINOP_ENV(addq_pw, add_i32, sw);
1231 MIPSDSP64_BINOP_ENV(addq_qh, add_i16, sh);
1232 MIPSDSP64_BINOP_ENV(addq_s_pw, sat_add_i32, sw);
1233 MIPSDSP64_BINOP_ENV(addq_s_qh, sat_add_i16, sh);
1234 MIPSDSP64_BINOP_ENV(addu_ob, add_u8, uh);
1235 MIPSDSP64_BINOP_ENV(addu_qh, add_u16, uh);
1236 MIPSDSP64_BINOP_ENV(addu_s_ob, sat_add_u8, uh);
1237 MIPSDSP64_BINOP_ENV(addu_s_qh, sat_add_u16, uh);
1238 MIPSDSP64_BINOP_ENV(subq_pw, sub32, sw);
1239 MIPSDSP64_BINOP_ENV(subq_qh, sub_i16, sh);
1240 MIPSDSP64_BINOP_ENV(subq_s_pw, sat32_sub, sw);
1241 MIPSDSP64_BINOP_ENV(subq_s_qh, sat16_sub, sh);
1242 MIPSDSP64_BINOP_ENV(subu_ob, sub_u8, uh);
1243 MIPSDSP64_BINOP_ENV(subu_qh, sub_u16_u16, uh);
1244 MIPSDSP64_BINOP_ENV(subu_s_ob, satu8_sub, uh);
1245 MIPSDSP64_BINOP_ENV(subu_s_qh, satu16_sub_u16_u16, uh);
1246 #undef MIPSDSP64_BINOP_ENV
1248 #endif
1250 #define SUBUH_QB(name, var) \
1251 target_ulong helper_##name##_qb(target_ulong rs, target_ulong rt) \
1253 uint8_t rs3, rs2, rs1, rs0; \
1254 uint8_t rt3, rt2, rt1, rt0; \
1255 uint8_t tempD, tempC, tempB, tempA; \
1257 MIPSDSP_SPLIT32_8(rs, rs3, rs2, rs1, rs0); \
1258 MIPSDSP_SPLIT32_8(rt, rt3, rt2, rt1, rt0); \
1260 tempD = ((uint16_t)rs3 - (uint16_t)rt3 + var) >> 1; \
1261 tempC = ((uint16_t)rs2 - (uint16_t)rt2 + var) >> 1; \
1262 tempB = ((uint16_t)rs1 - (uint16_t)rt1 + var) >> 1; \
1263 tempA = ((uint16_t)rs0 - (uint16_t)rt0 + var) >> 1; \
1265 return ((uint32_t)tempD << 24) | ((uint32_t)tempC << 16) | \
1266 ((uint32_t)tempB << 8) | ((uint32_t)tempA); \
1269 SUBUH_QB(subuh, 0);
1270 SUBUH_QB(subuh_r, 1);
1272 #undef SUBUH_QB
1274 target_ulong helper_addsc(target_ulong rs, target_ulong rt, CPUMIPSState *env)
1276 uint64_t temp, tempRs, tempRt;
1277 bool flag;
1279 tempRs = (uint64_t)rs & MIPSDSP_LLO;
1280 tempRt = (uint64_t)rt & MIPSDSP_LLO;
1282 temp = tempRs + tempRt;
1283 flag = (temp & 0x0100000000ull) >> 32;
1284 set_DSPControl_carryflag(flag, env);
1286 return (target_long)(int32_t)(temp & MIPSDSP_LLO);
1289 target_ulong helper_addwc(target_ulong rs, target_ulong rt, CPUMIPSState *env)
1291 uint32_t rd;
1292 int32_t temp32, temp31;
1293 int64_t tempL;
1295 tempL = (int64_t)(int32_t)rs + (int64_t)(int32_t)rt +
1296 get_DSPControl_carryflag(env);
1297 temp31 = (tempL >> 31) & 0x01;
1298 temp32 = (tempL >> 32) & 0x01;
1300 if (temp31 != temp32) {
1301 set_DSPControl_overflow_flag(1, 20, env);
1304 rd = tempL & MIPSDSP_LLO;
1306 return (target_long)(int32_t)rd;
1309 target_ulong helper_modsub(target_ulong rs, target_ulong rt)
1311 int32_t decr;
1312 uint16_t lastindex;
1313 target_ulong rd;
1315 decr = rt & MIPSDSP_Q0;
1316 lastindex = (rt >> 8) & MIPSDSP_LO;
1318 if ((rs & MIPSDSP_LLO) == 0x00000000) {
1319 rd = (target_ulong)lastindex;
1320 } else {
1321 rd = rs - decr;
1324 return rd;
1327 target_ulong helper_raddu_w_qb(target_ulong rs)
1329 target_ulong ret = 0;
1330 DSP32Value ds;
1331 unsigned int i;
1333 ds.uw[0] = rs;
1334 for (i = 0; i < 4; i++) {
1335 ret += ds.ub[i];
1337 return ret;
1340 #if defined(TARGET_MIPS64)
1341 target_ulong helper_raddu_l_ob(target_ulong rs)
1343 target_ulong ret = 0;
1344 DSP64Value ds;
1345 unsigned int i;
1347 ds.ul[0] = rs;
1348 for (i = 0; i < 8; i++) {
1349 ret += ds.ub[i];
1351 return ret;
1353 #endif
1355 #define PRECR_QB_PH(name, a, b)\
1356 target_ulong helper_##name##_qb_ph(target_ulong rs, target_ulong rt) \
1358 uint8_t tempD, tempC, tempB, tempA; \
1360 tempD = (rs >> a) & MIPSDSP_Q0; \
1361 tempC = (rs >> b) & MIPSDSP_Q0; \
1362 tempB = (rt >> a) & MIPSDSP_Q0; \
1363 tempA = (rt >> b) & MIPSDSP_Q0; \
1365 return MIPSDSP_RETURN32_8(tempD, tempC, tempB, tempA); \
1368 PRECR_QB_PH(precr, 16, 0);
1369 PRECR_QB_PH(precrq, 24, 8);
1371 #undef PRECR_QB_OH
1373 target_ulong helper_precr_sra_ph_w(uint32_t sa, target_ulong rs,
1374 target_ulong rt)
1376 uint16_t tempB, tempA;
1378 tempB = ((int32_t)rt >> sa) & MIPSDSP_LO;
1379 tempA = ((int32_t)rs >> sa) & MIPSDSP_LO;
1381 return MIPSDSP_RETURN32_16(tempB, tempA);
1384 target_ulong helper_precr_sra_r_ph_w(uint32_t sa,
1385 target_ulong rs, target_ulong rt)
1387 uint64_t tempB, tempA;
1389 /* If sa = 0, then (sa - 1) = -1 will case shift error, so we need else. */
1390 if (sa == 0) {
1391 tempB = (rt & MIPSDSP_LO) << 1;
1392 tempA = (rs & MIPSDSP_LO) << 1;
1393 } else {
1394 tempB = ((int32_t)rt >> (sa - 1)) + 1;
1395 tempA = ((int32_t)rs >> (sa - 1)) + 1;
1397 rt = (((tempB >> 1) & MIPSDSP_LO) << 16) | ((tempA >> 1) & MIPSDSP_LO);
1399 return (target_long)(int32_t)rt;
1402 target_ulong helper_precrq_ph_w(target_ulong rs, target_ulong rt)
1404 uint16_t tempB, tempA;
1406 tempB = (rs & MIPSDSP_HI) >> 16;
1407 tempA = (rt & MIPSDSP_HI) >> 16;
1409 return MIPSDSP_RETURN32_16(tempB, tempA);
1412 target_ulong helper_precrq_rs_ph_w(target_ulong rs, target_ulong rt,
1413 CPUMIPSState *env)
1415 uint16_t tempB, tempA;
1417 tempB = mipsdsp_trunc16_sat16_round(rs, env);
1418 tempA = mipsdsp_trunc16_sat16_round(rt, env);
1420 return MIPSDSP_RETURN32_16(tempB, tempA);
1423 #if defined(TARGET_MIPS64)
1424 target_ulong helper_precr_ob_qh(target_ulong rs, target_ulong rt)
1426 uint8_t rs6, rs4, rs2, rs0;
1427 uint8_t rt6, rt4, rt2, rt0;
1428 uint64_t temp;
1430 rs6 = (rs >> 48) & MIPSDSP_Q0;
1431 rs4 = (rs >> 32) & MIPSDSP_Q0;
1432 rs2 = (rs >> 16) & MIPSDSP_Q0;
1433 rs0 = rs & MIPSDSP_Q0;
1434 rt6 = (rt >> 48) & MIPSDSP_Q0;
1435 rt4 = (rt >> 32) & MIPSDSP_Q0;
1436 rt2 = (rt >> 16) & MIPSDSP_Q0;
1437 rt0 = rt & MIPSDSP_Q0;
1439 temp = ((uint64_t)rs6 << 56) | ((uint64_t)rs4 << 48) |
1440 ((uint64_t)rs2 << 40) | ((uint64_t)rs0 << 32) |
1441 ((uint64_t)rt6 << 24) | ((uint64_t)rt4 << 16) |
1442 ((uint64_t)rt2 << 8) | (uint64_t)rt0;
1444 return temp;
1447 #define PRECR_QH_PW(name, var) \
1448 target_ulong helper_precr_##name##_qh_pw(target_ulong rs, target_ulong rt, \
1449 uint32_t sa) \
1451 uint16_t rs3, rs2, rs1, rs0; \
1452 uint16_t rt3, rt2, rt1, rt0; \
1453 uint16_t tempD, tempC, tempB, tempA; \
1455 MIPSDSP_SPLIT64_16(rs, rs3, rs2, rs1, rs0); \
1456 MIPSDSP_SPLIT64_16(rt, rt3, rt2, rt1, rt0); \
1458 /* When sa = 0, we use rt2, rt0, rs2, rs0; \
1459 * when sa != 0, we use rt3, rt1, rs3, rs1. */ \
1460 if (sa == 0) { \
1461 tempD = rt2 << var; \
1462 tempC = rt0 << var; \
1463 tempB = rs2 << var; \
1464 tempA = rs0 << var; \
1465 } else { \
1466 tempD = (((int16_t)rt3 >> sa) + var) >> var; \
1467 tempC = (((int16_t)rt1 >> sa) + var) >> var; \
1468 tempB = (((int16_t)rs3 >> sa) + var) >> var; \
1469 tempA = (((int16_t)rs1 >> sa) + var) >> var; \
1472 return MIPSDSP_RETURN64_16(tempD, tempC, tempB, tempA); \
1475 PRECR_QH_PW(sra, 0);
1476 PRECR_QH_PW(sra_r, 1);
1478 #undef PRECR_QH_PW
1480 target_ulong helper_precrq_ob_qh(target_ulong rs, target_ulong rt)
1482 uint8_t rs6, rs4, rs2, rs0;
1483 uint8_t rt6, rt4, rt2, rt0;
1484 uint64_t temp;
1486 rs6 = (rs >> 56) & MIPSDSP_Q0;
1487 rs4 = (rs >> 40) & MIPSDSP_Q0;
1488 rs2 = (rs >> 24) & MIPSDSP_Q0;
1489 rs0 = (rs >> 8) & MIPSDSP_Q0;
1490 rt6 = (rt >> 56) & MIPSDSP_Q0;
1491 rt4 = (rt >> 40) & MIPSDSP_Q0;
1492 rt2 = (rt >> 24) & MIPSDSP_Q0;
1493 rt0 = (rt >> 8) & MIPSDSP_Q0;
1495 temp = ((uint64_t)rs6 << 56) | ((uint64_t)rs4 << 48) |
1496 ((uint64_t)rs2 << 40) | ((uint64_t)rs0 << 32) |
1497 ((uint64_t)rt6 << 24) | ((uint64_t)rt4 << 16) |
1498 ((uint64_t)rt2 << 8) | (uint64_t)rt0;
1500 return temp;
1503 target_ulong helper_precrq_qh_pw(target_ulong rs, target_ulong rt)
1505 uint16_t tempD, tempC, tempB, tempA;
1507 tempD = (rs >> 48) & MIPSDSP_LO;
1508 tempC = (rs >> 16) & MIPSDSP_LO;
1509 tempB = (rt >> 48) & MIPSDSP_LO;
1510 tempA = (rt >> 16) & MIPSDSP_LO;
1512 return MIPSDSP_RETURN64_16(tempD, tempC, tempB, tempA);
1515 target_ulong helper_precrq_rs_qh_pw(target_ulong rs, target_ulong rt,
1516 CPUMIPSState *env)
1518 uint32_t rs2, rs0;
1519 uint32_t rt2, rt0;
1520 uint16_t tempD, tempC, tempB, tempA;
1522 rs2 = (rs >> 32) & MIPSDSP_LLO;
1523 rs0 = rs & MIPSDSP_LLO;
1524 rt2 = (rt >> 32) & MIPSDSP_LLO;
1525 rt0 = rt & MIPSDSP_LLO;
1527 tempD = mipsdsp_trunc16_sat16_round(rs2, env);
1528 tempC = mipsdsp_trunc16_sat16_round(rs0, env);
1529 tempB = mipsdsp_trunc16_sat16_round(rt2, env);
1530 tempA = mipsdsp_trunc16_sat16_round(rt0, env);
1532 return MIPSDSP_RETURN64_16(tempD, tempC, tempB, tempA);
1535 target_ulong helper_precrq_pw_l(target_ulong rs, target_ulong rt)
1537 uint32_t tempB, tempA;
1539 tempB = (rs >> 32) & MIPSDSP_LLO;
1540 tempA = (rt >> 32) & MIPSDSP_LLO;
1542 return MIPSDSP_RETURN64_32(tempB, tempA);
1544 #endif
1546 target_ulong helper_precrqu_s_qb_ph(target_ulong rs, target_ulong rt,
1547 CPUMIPSState *env)
1549 uint8_t tempD, tempC, tempB, tempA;
1550 uint16_t rsh, rsl, rth, rtl;
1552 rsh = (rs & MIPSDSP_HI) >> 16;
1553 rsl = rs & MIPSDSP_LO;
1554 rth = (rt & MIPSDSP_HI) >> 16;
1555 rtl = rt & MIPSDSP_LO;
1557 tempD = mipsdsp_sat8_reduce_precision(rsh, env);
1558 tempC = mipsdsp_sat8_reduce_precision(rsl, env);
1559 tempB = mipsdsp_sat8_reduce_precision(rth, env);
1560 tempA = mipsdsp_sat8_reduce_precision(rtl, env);
1562 return MIPSDSP_RETURN32_8(tempD, tempC, tempB, tempA);
1565 #if defined(TARGET_MIPS64)
1566 target_ulong helper_precrqu_s_ob_qh(target_ulong rs, target_ulong rt,
1567 CPUMIPSState *env)
1569 int i;
1570 uint16_t rs3, rs2, rs1, rs0;
1571 uint16_t rt3, rt2, rt1, rt0;
1572 uint8_t temp[8];
1573 uint64_t result;
1575 result = 0;
1577 MIPSDSP_SPLIT64_16(rs, rs3, rs2, rs1, rs0);
1578 MIPSDSP_SPLIT64_16(rt, rt3, rt2, rt1, rt0);
1580 temp[7] = mipsdsp_sat8_reduce_precision(rs3, env);
1581 temp[6] = mipsdsp_sat8_reduce_precision(rs2, env);
1582 temp[5] = mipsdsp_sat8_reduce_precision(rs1, env);
1583 temp[4] = mipsdsp_sat8_reduce_precision(rs0, env);
1584 temp[3] = mipsdsp_sat8_reduce_precision(rt3, env);
1585 temp[2] = mipsdsp_sat8_reduce_precision(rt2, env);
1586 temp[1] = mipsdsp_sat8_reduce_precision(rt1, env);
1587 temp[0] = mipsdsp_sat8_reduce_precision(rt0, env);
1589 for (i = 0; i < 8; i++) {
1590 result |= (uint64_t)temp[i] << (8 * i);
1593 return result;
1596 #define PRECEQ_PW(name, a, b) \
1597 target_ulong helper_preceq_pw_##name(target_ulong rt) \
1599 uint16_t tempB, tempA; \
1600 uint32_t tempBI, tempAI; \
1602 tempB = (rt >> a) & MIPSDSP_LO; \
1603 tempA = (rt >> b) & MIPSDSP_LO; \
1605 tempBI = (uint32_t)tempB << 16; \
1606 tempAI = (uint32_t)tempA << 16; \
1608 return MIPSDSP_RETURN64_32(tempBI, tempAI); \
1611 PRECEQ_PW(qhl, 48, 32);
1612 PRECEQ_PW(qhr, 16, 0);
1613 PRECEQ_PW(qhla, 48, 16);
1614 PRECEQ_PW(qhra, 32, 0);
1616 #undef PRECEQ_PW
1618 #endif
1620 #define PRECEQU_PH(name, a, b) \
1621 target_ulong helper_precequ_ph_##name(target_ulong rt) \
1623 uint16_t tempB, tempA; \
1625 tempB = (rt >> a) & MIPSDSP_Q0; \
1626 tempA = (rt >> b) & MIPSDSP_Q0; \
1628 tempB = tempB << 7; \
1629 tempA = tempA << 7; \
1631 return MIPSDSP_RETURN32_16(tempB, tempA); \
1634 PRECEQU_PH(qbl, 24, 16);
1635 PRECEQU_PH(qbr, 8, 0);
1636 PRECEQU_PH(qbla, 24, 8);
1637 PRECEQU_PH(qbra, 16, 0);
1639 #undef PRECEQU_PH
1641 #if defined(TARGET_MIPS64)
1642 #define PRECEQU_QH(name, a, b, c, d) \
1643 target_ulong helper_precequ_qh_##name(target_ulong rt) \
1645 uint16_t tempD, tempC, tempB, tempA; \
1647 tempD = (rt >> a) & MIPSDSP_Q0; \
1648 tempC = (rt >> b) & MIPSDSP_Q0; \
1649 tempB = (rt >> c) & MIPSDSP_Q0; \
1650 tempA = (rt >> d) & MIPSDSP_Q0; \
1652 tempD = tempD << 7; \
1653 tempC = tempC << 7; \
1654 tempB = tempB << 7; \
1655 tempA = tempA << 7; \
1657 return MIPSDSP_RETURN64_16(tempD, tempC, tempB, tempA); \
1660 PRECEQU_QH(obl, 56, 48, 40, 32);
1661 PRECEQU_QH(obr, 24, 16, 8, 0);
1662 PRECEQU_QH(obla, 56, 40, 24, 8);
1663 PRECEQU_QH(obra, 48, 32, 16, 0);
1665 #undef PRECEQU_QH
1667 #endif
1669 #define PRECEU_PH(name, a, b) \
1670 target_ulong helper_preceu_ph_##name(target_ulong rt) \
1672 uint16_t tempB, tempA; \
1674 tempB = (rt >> a) & MIPSDSP_Q0; \
1675 tempA = (rt >> b) & MIPSDSP_Q0; \
1677 return MIPSDSP_RETURN32_16(tempB, tempA); \
1680 PRECEU_PH(qbl, 24, 16);
1681 PRECEU_PH(qbr, 8, 0);
1682 PRECEU_PH(qbla, 24, 8);
1683 PRECEU_PH(qbra, 16, 0);
1685 #undef PRECEU_PH
1687 #if defined(TARGET_MIPS64)
1688 #define PRECEU_QH(name, a, b, c, d) \
1689 target_ulong helper_preceu_qh_##name(target_ulong rt) \
1691 uint16_t tempD, tempC, tempB, tempA; \
1693 tempD = (rt >> a) & MIPSDSP_Q0; \
1694 tempC = (rt >> b) & MIPSDSP_Q0; \
1695 tempB = (rt >> c) & MIPSDSP_Q0; \
1696 tempA = (rt >> d) & MIPSDSP_Q0; \
1698 return MIPSDSP_RETURN64_16(tempD, tempC, tempB, tempA); \
1701 PRECEU_QH(obl, 56, 48, 40, 32);
1702 PRECEU_QH(obr, 24, 16, 8, 0);
1703 PRECEU_QH(obla, 56, 40, 24, 8);
1704 PRECEU_QH(obra, 48, 32, 16, 0);
1706 #undef PRECEU_QH
1708 #endif
1710 /** DSP GPR-Based Shift Sub-class insns **/
1711 #define SHIFT_QB(name, func) \
1712 target_ulong helper_##name##_qb(target_ulong sa, target_ulong rt) \
1714 uint8_t rt3, rt2, rt1, rt0; \
1716 sa = sa & 0x07; \
1718 MIPSDSP_SPLIT32_8(rt, rt3, rt2, rt1, rt0); \
1720 rt3 = mipsdsp_##func(rt3, sa); \
1721 rt2 = mipsdsp_##func(rt2, sa); \
1722 rt1 = mipsdsp_##func(rt1, sa); \
1723 rt0 = mipsdsp_##func(rt0, sa); \
1725 return MIPSDSP_RETURN32_8(rt3, rt2, rt1, rt0); \
1728 #define SHIFT_QB_ENV(name, func) \
1729 target_ulong helper_##name##_qb(target_ulong sa, target_ulong rt,\
1730 CPUMIPSState *env) \
1732 uint8_t rt3, rt2, rt1, rt0; \
1734 sa = sa & 0x07; \
1736 MIPSDSP_SPLIT32_8(rt, rt3, rt2, rt1, rt0); \
1738 rt3 = mipsdsp_##func(rt3, sa, env); \
1739 rt2 = mipsdsp_##func(rt2, sa, env); \
1740 rt1 = mipsdsp_##func(rt1, sa, env); \
1741 rt0 = mipsdsp_##func(rt0, sa, env); \
1743 return MIPSDSP_RETURN32_8(rt3, rt2, rt1, rt0); \
1746 SHIFT_QB_ENV(shll, lshift8);
1747 SHIFT_QB(shrl, rshift_u8);
1749 SHIFT_QB(shra, rashift8);
1750 SHIFT_QB(shra_r, rnd8_rashift);
1752 #undef SHIFT_QB
1753 #undef SHIFT_QB_ENV
1755 #if defined(TARGET_MIPS64)
1756 #define SHIFT_OB(name, func) \
1757 target_ulong helper_##name##_ob(target_ulong rt, target_ulong sa) \
1759 int i; \
1760 uint8_t rt_t[8]; \
1761 uint64_t temp; \
1763 sa = sa & 0x07; \
1764 temp = 0; \
1766 for (i = 0; i < 8; i++) { \
1767 rt_t[i] = (rt >> (8 * i)) & MIPSDSP_Q0; \
1768 rt_t[i] = mipsdsp_##func(rt_t[i], sa); \
1769 temp |= (uint64_t)rt_t[i] << (8 * i); \
1772 return temp; \
1775 #define SHIFT_OB_ENV(name, func) \
1776 target_ulong helper_##name##_ob(target_ulong rt, target_ulong sa, \
1777 CPUMIPSState *env) \
1779 int i; \
1780 uint8_t rt_t[8]; \
1781 uint64_t temp; \
1783 sa = sa & 0x07; \
1784 temp = 0; \
1786 for (i = 0; i < 8; i++) { \
1787 rt_t[i] = (rt >> (8 * i)) & MIPSDSP_Q0; \
1788 rt_t[i] = mipsdsp_##func(rt_t[i], sa, env); \
1789 temp |= (uint64_t)rt_t[i] << (8 * i); \
1792 return temp; \
1795 SHIFT_OB_ENV(shll, lshift8);
1796 SHIFT_OB(shrl, rshift_u8);
1798 SHIFT_OB(shra, rashift8);
1799 SHIFT_OB(shra_r, rnd8_rashift);
1801 #undef SHIFT_OB
1802 #undef SHIFT_OB_ENV
1804 #endif
1806 #define SHIFT_PH(name, func) \
1807 target_ulong helper_##name##_ph(target_ulong sa, target_ulong rt, \
1808 CPUMIPSState *env) \
1810 uint16_t rth, rtl; \
1812 sa = sa & 0x0F; \
1814 MIPSDSP_SPLIT32_16(rt, rth, rtl); \
1816 rth = mipsdsp_##func(rth, sa, env); \
1817 rtl = mipsdsp_##func(rtl, sa, env); \
1819 return MIPSDSP_RETURN32_16(rth, rtl); \
1822 SHIFT_PH(shll, lshift16);
1823 SHIFT_PH(shll_s, sat16_lshift);
1825 #undef SHIFT_PH
1827 #if defined(TARGET_MIPS64)
1828 #define SHIFT_QH(name, func) \
1829 target_ulong helper_##name##_qh(target_ulong rt, target_ulong sa) \
1831 uint16_t rt3, rt2, rt1, rt0; \
1833 sa = sa & 0x0F; \
1835 MIPSDSP_SPLIT64_16(rt, rt3, rt2, rt1, rt0); \
1837 rt3 = mipsdsp_##func(rt3, sa); \
1838 rt2 = mipsdsp_##func(rt2, sa); \
1839 rt1 = mipsdsp_##func(rt1, sa); \
1840 rt0 = mipsdsp_##func(rt0, sa); \
1842 return MIPSDSP_RETURN64_16(rt3, rt2, rt1, rt0); \
1845 #define SHIFT_QH_ENV(name, func) \
1846 target_ulong helper_##name##_qh(target_ulong rt, target_ulong sa, \
1847 CPUMIPSState *env) \
1849 uint16_t rt3, rt2, rt1, rt0; \
1851 sa = sa & 0x0F; \
1853 MIPSDSP_SPLIT64_16(rt, rt3, rt2, rt1, rt0); \
1855 rt3 = mipsdsp_##func(rt3, sa, env); \
1856 rt2 = mipsdsp_##func(rt2, sa, env); \
1857 rt1 = mipsdsp_##func(rt1, sa, env); \
1858 rt0 = mipsdsp_##func(rt0, sa, env); \
1860 return MIPSDSP_RETURN64_16(rt3, rt2, rt1, rt0); \
1863 SHIFT_QH_ENV(shll, lshift16);
1864 SHIFT_QH_ENV(shll_s, sat16_lshift);
1866 SHIFT_QH(shrl, rshift_u16);
1867 SHIFT_QH(shra, rashift16);
1868 SHIFT_QH(shra_r, rnd16_rashift);
1870 #undef SHIFT_QH
1871 #undef SHIFT_QH_ENV
1873 #endif
1875 #define SHIFT_W(name, func) \
1876 target_ulong helper_##name##_w(target_ulong sa, target_ulong rt) \
1878 uint32_t temp; \
1880 sa = sa & 0x1F; \
1881 temp = mipsdsp_##func(rt, sa); \
1883 return (target_long)(int32_t)temp; \
1886 #define SHIFT_W_ENV(name, func) \
1887 target_ulong helper_##name##_w(target_ulong sa, target_ulong rt, \
1888 CPUMIPSState *env) \
1890 uint32_t temp; \
1892 sa = sa & 0x1F; \
1893 temp = mipsdsp_##func(rt, sa, env); \
1895 return (target_long)(int32_t)temp; \
1898 SHIFT_W_ENV(shll_s, sat32_lshift);
1899 SHIFT_W(shra_r, rnd32_rashift);
1901 #undef SHIFT_W
1902 #undef SHIFT_W_ENV
1904 #if defined(TARGET_MIPS64)
1905 #define SHIFT_PW(name, func) \
1906 target_ulong helper_##name##_pw(target_ulong rt, target_ulong sa) \
1908 uint32_t rt1, rt0; \
1910 sa = sa & 0x1F; \
1911 MIPSDSP_SPLIT64_32(rt, rt1, rt0); \
1913 rt1 = mipsdsp_##func(rt1, sa); \
1914 rt0 = mipsdsp_##func(rt0, sa); \
1916 return MIPSDSP_RETURN64_32(rt1, rt0); \
1919 #define SHIFT_PW_ENV(name, func) \
1920 target_ulong helper_##name##_pw(target_ulong rt, target_ulong sa, \
1921 CPUMIPSState *env) \
1923 uint32_t rt1, rt0; \
1925 sa = sa & 0x1F; \
1926 MIPSDSP_SPLIT64_32(rt, rt1, rt0); \
1928 rt1 = mipsdsp_##func(rt1, sa, env); \
1929 rt0 = mipsdsp_##func(rt0, sa, env); \
1931 return MIPSDSP_RETURN64_32(rt1, rt0); \
1934 SHIFT_PW_ENV(shll, lshift32);
1935 SHIFT_PW_ENV(shll_s, sat32_lshift);
1937 SHIFT_PW(shra, rashift32);
1938 SHIFT_PW(shra_r, rnd32_rashift);
1940 #undef SHIFT_PW
1941 #undef SHIFT_PW_ENV
1943 #endif
1945 #define SHIFT_PH(name, func) \
1946 target_ulong helper_##name##_ph(target_ulong sa, target_ulong rt) \
1948 uint16_t rth, rtl; \
1950 sa = sa & 0x0F; \
1952 MIPSDSP_SPLIT32_16(rt, rth, rtl); \
1954 rth = mipsdsp_##func(rth, sa); \
1955 rtl = mipsdsp_##func(rtl, sa); \
1957 return MIPSDSP_RETURN32_16(rth, rtl); \
1960 SHIFT_PH(shrl, rshift_u16);
1961 SHIFT_PH(shra, rashift16);
1962 SHIFT_PH(shra_r, rnd16_rashift);
1964 #undef SHIFT_PH
1966 /** DSP Multiply Sub-class insns **/
1967 /* Return value made up by two 16bits value.
1968 * FIXME give the macro a better name.
1970 #define MUL_RETURN32_16_PH(name, func, \
1971 rsmov1, rsmov2, rsfilter, \
1972 rtmov1, rtmov2, rtfilter) \
1973 target_ulong helper_##name(target_ulong rs, target_ulong rt, \
1974 CPUMIPSState *env) \
1976 uint16_t rsB, rsA, rtB, rtA; \
1978 rsB = (rs >> rsmov1) & rsfilter; \
1979 rsA = (rs >> rsmov2) & rsfilter; \
1980 rtB = (rt >> rtmov1) & rtfilter; \
1981 rtA = (rt >> rtmov2) & rtfilter; \
1983 rsB = mipsdsp_##func(rsB, rtB, env); \
1984 rsA = mipsdsp_##func(rsA, rtA, env); \
1986 return MIPSDSP_RETURN32_16(rsB, rsA); \
1989 MUL_RETURN32_16_PH(muleu_s_ph_qbl, mul_u8_u16, \
1990 24, 16, MIPSDSP_Q0, \
1991 16, 0, MIPSDSP_LO);
1992 MUL_RETURN32_16_PH(muleu_s_ph_qbr, mul_u8_u16, \
1993 8, 0, MIPSDSP_Q0, \
1994 16, 0, MIPSDSP_LO);
1995 MUL_RETURN32_16_PH(mulq_rs_ph, rndq15_mul_q15_q15, \
1996 16, 0, MIPSDSP_LO, \
1997 16, 0, MIPSDSP_LO);
1998 MUL_RETURN32_16_PH(mul_ph, mul_i16_i16, \
1999 16, 0, MIPSDSP_LO, \
2000 16, 0, MIPSDSP_LO);
2001 MUL_RETURN32_16_PH(mul_s_ph, sat16_mul_i16_i16, \
2002 16, 0, MIPSDSP_LO, \
2003 16, 0, MIPSDSP_LO);
2004 MUL_RETURN32_16_PH(mulq_s_ph, sat16_mul_q15_q15, \
2005 16, 0, MIPSDSP_LO, \
2006 16, 0, MIPSDSP_LO);
2008 #undef MUL_RETURN32_16_PH
2010 #define MUL_RETURN32_32_ph(name, func, movbits) \
2011 target_ulong helper_##name(target_ulong rs, target_ulong rt, \
2012 CPUMIPSState *env) \
2014 int16_t rsh, rth; \
2015 int32_t temp; \
2017 rsh = (rs >> movbits) & MIPSDSP_LO; \
2018 rth = (rt >> movbits) & MIPSDSP_LO; \
2019 temp = mipsdsp_##func(rsh, rth, env); \
2021 return (target_long)(int32_t)temp; \
2024 MUL_RETURN32_32_ph(muleq_s_w_phl, mul_q15_q15_overflowflag21, 16);
2025 MUL_RETURN32_32_ph(muleq_s_w_phr, mul_q15_q15_overflowflag21, 0);
2027 #undef MUL_RETURN32_32_ph
2029 #define MUL_VOID_PH(name, use_ac_env) \
2030 void helper_##name(uint32_t ac, target_ulong rs, target_ulong rt, \
2031 CPUMIPSState *env) \
2033 int16_t rsh, rsl, rth, rtl; \
2034 int32_t tempB, tempA; \
2035 int64_t acc, dotp; \
2037 MIPSDSP_SPLIT32_16(rs, rsh, rsl); \
2038 MIPSDSP_SPLIT32_16(rt, rth, rtl); \
2040 if (use_ac_env == 1) { \
2041 tempB = mipsdsp_mul_q15_q15(ac, rsh, rth, env); \
2042 tempA = mipsdsp_mul_q15_q15(ac, rsl, rtl, env); \
2043 } else { \
2044 tempB = mipsdsp_mul_u16_u16(rsh, rth); \
2045 tempA = mipsdsp_mul_u16_u16(rsl, rtl); \
2048 dotp = (int64_t)tempB - (int64_t)tempA; \
2049 acc = ((uint64_t)env->active_tc.HI[ac] << 32) | \
2050 ((uint64_t)env->active_tc.LO[ac] & MIPSDSP_LLO); \
2051 dotp = dotp + acc; \
2052 env->active_tc.HI[ac] = (target_long)(int32_t) \
2053 ((dotp & MIPSDSP_LHI) >> 32); \
2054 env->active_tc.LO[ac] = (target_long)(int32_t)(dotp & MIPSDSP_LLO); \
2057 MUL_VOID_PH(mulsaq_s_w_ph, 1);
2058 MUL_VOID_PH(mulsa_w_ph, 0);
2060 #undef MUL_VOID_PH
2062 #if defined(TARGET_MIPS64)
2063 #define MUL_RETURN64_16_QH(name, func, \
2064 rsmov1, rsmov2, rsmov3, rsmov4, rsfilter, \
2065 rtmov1, rtmov2, rtmov3, rtmov4, rtfilter) \
2066 target_ulong helper_##name(target_ulong rs, target_ulong rt, \
2067 CPUMIPSState *env) \
2069 uint16_t rs3, rs2, rs1, rs0; \
2070 uint16_t rt3, rt2, rt1, rt0; \
2071 uint16_t tempD, tempC, tempB, tempA; \
2073 rs3 = (rs >> rsmov1) & rsfilter; \
2074 rs2 = (rs >> rsmov2) & rsfilter; \
2075 rs1 = (rs >> rsmov3) & rsfilter; \
2076 rs0 = (rs >> rsmov4) & rsfilter; \
2077 rt3 = (rt >> rtmov1) & rtfilter; \
2078 rt2 = (rt >> rtmov2) & rtfilter; \
2079 rt1 = (rt >> rtmov3) & rtfilter; \
2080 rt0 = (rt >> rtmov4) & rtfilter; \
2082 tempD = mipsdsp_##func(rs3, rt3, env); \
2083 tempC = mipsdsp_##func(rs2, rt2, env); \
2084 tempB = mipsdsp_##func(rs1, rt1, env); \
2085 tempA = mipsdsp_##func(rs0, rt0, env); \
2087 return MIPSDSP_RETURN64_16(tempD, tempC, tempB, tempA); \
2090 MUL_RETURN64_16_QH(muleu_s_qh_obl, mul_u8_u16, \
2091 56, 48, 40, 32, MIPSDSP_Q0, \
2092 48, 32, 16, 0, MIPSDSP_LO);
2093 MUL_RETURN64_16_QH(muleu_s_qh_obr, mul_u8_u16, \
2094 24, 16, 8, 0, MIPSDSP_Q0, \
2095 48, 32, 16, 0, MIPSDSP_LO);
2096 MUL_RETURN64_16_QH(mulq_rs_qh, rndq15_mul_q15_q15, \
2097 48, 32, 16, 0, MIPSDSP_LO, \
2098 48, 32, 16, 0, MIPSDSP_LO);
2100 #undef MUL_RETURN64_16_QH
2102 #define MUL_RETURN64_32_QH(name, \
2103 rsmov1, rsmov2, \
2104 rtmov1, rtmov2) \
2105 target_ulong helper_##name(target_ulong rs, target_ulong rt, \
2106 CPUMIPSState *env) \
2108 uint16_t rsB, rsA; \
2109 uint16_t rtB, rtA; \
2110 uint32_t tempB, tempA; \
2112 rsB = (rs >> rsmov1) & MIPSDSP_LO; \
2113 rsA = (rs >> rsmov2) & MIPSDSP_LO; \
2114 rtB = (rt >> rtmov1) & MIPSDSP_LO; \
2115 rtA = (rt >> rtmov2) & MIPSDSP_LO; \
2117 tempB = mipsdsp_mul_q15_q15(5, rsB, rtB, env); \
2118 tempA = mipsdsp_mul_q15_q15(5, rsA, rtA, env); \
2120 return ((uint64_t)tempB << 32) | (uint64_t)tempA; \
2123 MUL_RETURN64_32_QH(muleq_s_pw_qhl, 48, 32, 48, 32);
2124 MUL_RETURN64_32_QH(muleq_s_pw_qhr, 16, 0, 16, 0);
2126 #undef MUL_RETURN64_32_QH
2128 void helper_mulsaq_s_w_qh(target_ulong rs, target_ulong rt, uint32_t ac,
2129 CPUMIPSState *env)
2131 int16_t rs3, rs2, rs1, rs0;
2132 int16_t rt3, rt2, rt1, rt0;
2133 int32_t tempD, tempC, tempB, tempA;
2134 int64_t acc[2];
2135 int64_t temp[2];
2136 int64_t temp_sum;
2138 MIPSDSP_SPLIT64_16(rs, rs3, rs2, rs1, rs0);
2139 MIPSDSP_SPLIT64_16(rt, rt3, rt2, rt1, rt0);
2141 tempD = mipsdsp_mul_q15_q15(ac, rs3, rt3, env);
2142 tempC = mipsdsp_mul_q15_q15(ac, rs2, rt2, env);
2143 tempB = mipsdsp_mul_q15_q15(ac, rs1, rt1, env);
2144 tempA = mipsdsp_mul_q15_q15(ac, rs0, rt0, env);
2146 temp[0] = ((int32_t)tempD - (int32_t)tempC) +
2147 ((int32_t)tempB - (int32_t)tempA);
2148 temp[0] = (int64_t)(temp[0] << 30) >> 30;
2149 if (((temp[0] >> 33) & 0x01) == 0) {
2150 temp[1] = 0x00;
2151 } else {
2152 temp[1] = ~0ull;
2155 acc[0] = env->active_tc.LO[ac];
2156 acc[1] = env->active_tc.HI[ac];
2158 temp_sum = acc[0] + temp[0];
2159 if (((uint64_t)temp_sum < (uint64_t)acc[0]) &&
2160 ((uint64_t)temp_sum < (uint64_t)temp[0])) {
2161 acc[1] += 1;
2163 acc[0] = temp_sum;
2164 acc[1] += temp[1];
2166 env->active_tc.HI[ac] = acc[1];
2167 env->active_tc.LO[ac] = acc[0];
2169 #endif
2171 #define DP_QB(name, func, is_add, rsmov1, rsmov2, rtmov1, rtmov2) \
2172 void helper_##name(uint32_t ac, target_ulong rs, target_ulong rt, \
2173 CPUMIPSState *env) \
2175 uint8_t rs3, rs2; \
2176 uint8_t rt3, rt2; \
2177 uint16_t tempB, tempA; \
2178 uint64_t tempC, dotp; \
2180 rs3 = (rs >> rsmov1) & MIPSDSP_Q0; \
2181 rs2 = (rs >> rsmov2) & MIPSDSP_Q0; \
2182 rt3 = (rt >> rtmov1) & MIPSDSP_Q0; \
2183 rt2 = (rt >> rtmov2) & MIPSDSP_Q0; \
2184 tempB = mipsdsp_##func(rs3, rt3); \
2185 tempA = mipsdsp_##func(rs2, rt2); \
2186 dotp = (int64_t)tempB + (int64_t)tempA; \
2187 if (is_add) { \
2188 tempC = (((uint64_t)env->active_tc.HI[ac] << 32) | \
2189 ((uint64_t)env->active_tc.LO[ac] & MIPSDSP_LLO)) \
2190 + dotp; \
2191 } else { \
2192 tempC = (((uint64_t)env->active_tc.HI[ac] << 32) | \
2193 ((uint64_t)env->active_tc.LO[ac] & MIPSDSP_LLO)) \
2194 - dotp; \
2197 env->active_tc.HI[ac] = (target_long)(int32_t) \
2198 ((tempC & MIPSDSP_LHI) >> 32); \
2199 env->active_tc.LO[ac] = (target_long)(int32_t)(tempC & MIPSDSP_LLO); \
2202 DP_QB(dpau_h_qbl, mul_u8_u8, 1, 24, 16, 24, 16);
2203 DP_QB(dpau_h_qbr, mul_u8_u8, 1, 8, 0, 8, 0);
2204 DP_QB(dpsu_h_qbl, mul_u8_u8, 0, 24, 16, 24, 16);
2205 DP_QB(dpsu_h_qbr, mul_u8_u8, 0, 8, 0, 8, 0);
2207 #undef DP_QB
2209 #if defined(TARGET_MIPS64)
2210 #define DP_OB(name, add_sub, \
2211 rsmov1, rsmov2, rsmov3, rsmov4, \
2212 rtmov1, rtmov2, rtmov3, rtmov4) \
2213 void helper_##name(target_ulong rs, target_ulong rt, uint32_t ac, \
2214 CPUMIPSState *env) \
2216 uint8_t rsD, rsC, rsB, rsA; \
2217 uint8_t rtD, rtC, rtB, rtA; \
2218 uint16_t tempD, tempC, tempB, tempA; \
2219 uint64_t temp[2]; \
2220 uint64_t acc[2]; \
2221 uint64_t temp_sum; \
2223 temp[0] = 0; \
2224 temp[1] = 0; \
2226 rsD = (rs >> rsmov1) & MIPSDSP_Q0; \
2227 rsC = (rs >> rsmov2) & MIPSDSP_Q0; \
2228 rsB = (rs >> rsmov3) & MIPSDSP_Q0; \
2229 rsA = (rs >> rsmov4) & MIPSDSP_Q0; \
2230 rtD = (rt >> rtmov1) & MIPSDSP_Q0; \
2231 rtC = (rt >> rtmov2) & MIPSDSP_Q0; \
2232 rtB = (rt >> rtmov3) & MIPSDSP_Q0; \
2233 rtA = (rt >> rtmov4) & MIPSDSP_Q0; \
2235 tempD = mipsdsp_mul_u8_u8(rsD, rtD); \
2236 tempC = mipsdsp_mul_u8_u8(rsC, rtC); \
2237 tempB = mipsdsp_mul_u8_u8(rsB, rtB); \
2238 tempA = mipsdsp_mul_u8_u8(rsA, rtA); \
2240 temp[0] = (uint64_t)tempD + (uint64_t)tempC + \
2241 (uint64_t)tempB + (uint64_t)tempA; \
2243 acc[0] = env->active_tc.LO[ac]; \
2244 acc[1] = env->active_tc.HI[ac]; \
2246 if (add_sub) { \
2247 temp_sum = acc[0] + temp[0]; \
2248 if (((uint64_t)temp_sum < (uint64_t)acc[0]) && \
2249 ((uint64_t)temp_sum < (uint64_t)temp[0])) { \
2250 acc[1] += 1; \
2252 temp[0] = temp_sum; \
2253 temp[1] = acc[1] + temp[1]; \
2254 } else { \
2255 temp_sum = acc[0] - temp[0]; \
2256 if ((uint64_t)temp_sum > (uint64_t)acc[0]) { \
2257 acc[1] -= 1; \
2259 temp[0] = temp_sum; \
2260 temp[1] = acc[1] - temp[1]; \
2263 env->active_tc.HI[ac] = temp[1]; \
2264 env->active_tc.LO[ac] = temp[0]; \
2267 DP_OB(dpau_h_obl, 1, 56, 48, 40, 32, 56, 48, 40, 32);
2268 DP_OB(dpau_h_obr, 1, 24, 16, 8, 0, 24, 16, 8, 0);
2269 DP_OB(dpsu_h_obl, 0, 56, 48, 40, 32, 56, 48, 40, 32);
2270 DP_OB(dpsu_h_obr, 0, 24, 16, 8, 0, 24, 16, 8, 0);
2272 #undef DP_OB
2273 #endif
2275 #define DP_NOFUNC_PH(name, is_add, rsmov1, rsmov2, rtmov1, rtmov2) \
2276 void helper_##name(uint32_t ac, target_ulong rs, target_ulong rt, \
2277 CPUMIPSState *env) \
2279 int16_t rsB, rsA, rtB, rtA; \
2280 int32_t tempA, tempB; \
2281 int64_t acc; \
2283 rsB = (rs >> rsmov1) & MIPSDSP_LO; \
2284 rsA = (rs >> rsmov2) & MIPSDSP_LO; \
2285 rtB = (rt >> rtmov1) & MIPSDSP_LO; \
2286 rtA = (rt >> rtmov2) & MIPSDSP_LO; \
2288 tempB = (int32_t)rsB * (int32_t)rtB; \
2289 tempA = (int32_t)rsA * (int32_t)rtA; \
2291 acc = ((uint64_t)env->active_tc.HI[ac] << 32) | \
2292 ((uint64_t)env->active_tc.LO[ac] & MIPSDSP_LLO); \
2294 if (is_add) { \
2295 acc = acc + ((int64_t)tempB + (int64_t)tempA); \
2296 } else { \
2297 acc = acc - ((int64_t)tempB + (int64_t)tempA); \
2300 env->active_tc.HI[ac] = (target_long)(int32_t)((acc & MIPSDSP_LHI) >> 32); \
2301 env->active_tc.LO[ac] = (target_long)(int32_t)(acc & MIPSDSP_LLO); \
2304 DP_NOFUNC_PH(dpa_w_ph, 1, 16, 0, 16, 0);
2305 DP_NOFUNC_PH(dpax_w_ph, 1, 16, 0, 0, 16);
2306 DP_NOFUNC_PH(dps_w_ph, 0, 16, 0, 16, 0);
2307 DP_NOFUNC_PH(dpsx_w_ph, 0, 16, 0, 0, 16);
2308 #undef DP_NOFUNC_PH
2310 #define DP_HASFUNC_PH(name, is_add, rsmov1, rsmov2, rtmov1, rtmov2) \
2311 void helper_##name(uint32_t ac, target_ulong rs, target_ulong rt, \
2312 CPUMIPSState *env) \
2314 int16_t rsB, rsA, rtB, rtA; \
2315 int32_t tempB, tempA; \
2316 int64_t acc, dotp; \
2318 rsB = (rs >> rsmov1) & MIPSDSP_LO; \
2319 rsA = (rs >> rsmov2) & MIPSDSP_LO; \
2320 rtB = (rt >> rtmov1) & MIPSDSP_LO; \
2321 rtA = (rt >> rtmov2) & MIPSDSP_LO; \
2323 tempB = mipsdsp_mul_q15_q15(ac, rsB, rtB, env); \
2324 tempA = mipsdsp_mul_q15_q15(ac, rsA, rtA, env); \
2326 dotp = (int64_t)tempB + (int64_t)tempA; \
2327 acc = ((uint64_t)env->active_tc.HI[ac] << 32) | \
2328 ((uint64_t)env->active_tc.LO[ac] & MIPSDSP_LLO); \
2330 if (is_add) { \
2331 acc = acc + dotp; \
2332 } else { \
2333 acc = acc - dotp; \
2336 env->active_tc.HI[ac] = (target_long)(int32_t) \
2337 ((acc & MIPSDSP_LHI) >> 32); \
2338 env->active_tc.LO[ac] = (target_long)(int32_t) \
2339 (acc & MIPSDSP_LLO); \
2342 DP_HASFUNC_PH(dpaq_s_w_ph, 1, 16, 0, 16, 0);
2343 DP_HASFUNC_PH(dpaqx_s_w_ph, 1, 16, 0, 0, 16);
2344 DP_HASFUNC_PH(dpsq_s_w_ph, 0, 16, 0, 16, 0);
2345 DP_HASFUNC_PH(dpsqx_s_w_ph, 0, 16, 0, 0, 16);
2347 #undef DP_HASFUNC_PH
2349 #define DP_128OPERATION_PH(name, is_add) \
2350 void helper_##name(uint32_t ac, target_ulong rs, target_ulong rt, \
2351 CPUMIPSState *env) \
2353 int16_t rsh, rsl, rth, rtl; \
2354 int32_t tempB, tempA, tempC62_31, tempC63; \
2355 int64_t acc, dotp, tempC; \
2357 MIPSDSP_SPLIT32_16(rs, rsh, rsl); \
2358 MIPSDSP_SPLIT32_16(rt, rth, rtl); \
2360 tempB = mipsdsp_mul_q15_q15(ac, rsh, rtl, env); \
2361 tempA = mipsdsp_mul_q15_q15(ac, rsl, rth, env); \
2363 dotp = (int64_t)tempB + (int64_t)tempA; \
2364 acc = ((uint64_t)env->active_tc.HI[ac] << 32) | \
2365 ((uint64_t)env->active_tc.LO[ac] & MIPSDSP_LLO); \
2366 if (is_add) { \
2367 tempC = acc + dotp; \
2368 } else { \
2369 tempC = acc - dotp; \
2371 tempC63 = (tempC >> 63) & 0x01; \
2372 tempC62_31 = (tempC >> 31) & 0xFFFFFFFF; \
2374 if ((tempC63 == 0) && (tempC62_31 != 0x00000000)) { \
2375 tempC = 0x7FFFFFFF; \
2376 set_DSPControl_overflow_flag(1, 16 + ac, env); \
2379 if ((tempC63 == 1) && (tempC62_31 != 0xFFFFFFFF)) { \
2380 tempC = (int64_t)(int32_t)0x80000000; \
2381 set_DSPControl_overflow_flag(1, 16 + ac, env); \
2384 env->active_tc.HI[ac] = (target_long)(int32_t) \
2385 ((tempC & MIPSDSP_LHI) >> 32); \
2386 env->active_tc.LO[ac] = (target_long)(int32_t) \
2387 (tempC & MIPSDSP_LLO); \
2390 DP_128OPERATION_PH(dpaqx_sa_w_ph, 1);
2391 DP_128OPERATION_PH(dpsqx_sa_w_ph, 0);
2393 #undef DP_128OPERATION_HP
2395 #if defined(TARGET_MIPS64)
2396 #define DP_QH(name, is_add, use_ac_env) \
2397 void helper_##name(target_ulong rs, target_ulong rt, uint32_t ac, \
2398 CPUMIPSState *env) \
2400 int32_t rs3, rs2, rs1, rs0; \
2401 int32_t rt3, rt2, rt1, rt0; \
2402 int32_t tempD, tempC, tempB, tempA; \
2403 int64_t acc[2]; \
2404 int64_t temp[2]; \
2405 int64_t temp_sum; \
2407 MIPSDSP_SPLIT64_16(rs, rs3, rs2, rs1, rs0); \
2408 MIPSDSP_SPLIT64_16(rt, rt3, rt2, rt1, rt0); \
2410 if (use_ac_env) { \
2411 tempD = mipsdsp_mul_q15_q15(ac, rs3, rt3, env); \
2412 tempC = mipsdsp_mul_q15_q15(ac, rs2, rt2, env); \
2413 tempB = mipsdsp_mul_q15_q15(ac, rs1, rt1, env); \
2414 tempA = mipsdsp_mul_q15_q15(ac, rs0, rt0, env); \
2415 } else { \
2416 tempD = mipsdsp_mul_u16_u16(rs3, rt3); \
2417 tempC = mipsdsp_mul_u16_u16(rs2, rt2); \
2418 tempB = mipsdsp_mul_u16_u16(rs1, rt1); \
2419 tempA = mipsdsp_mul_u16_u16(rs0, rt0); \
2422 temp[0] = (int64_t)tempD + (int64_t)tempC + \
2423 (int64_t)tempB + (int64_t)tempA; \
2425 if (temp[0] >= 0) { \
2426 temp[1] = 0; \
2427 } else { \
2428 temp[1] = ~0ull; \
2431 acc[1] = env->active_tc.HI[ac]; \
2432 acc[0] = env->active_tc.LO[ac]; \
2434 if (is_add) { \
2435 temp_sum = acc[0] + temp[0]; \
2436 if (((uint64_t)temp_sum < (uint64_t)acc[0]) && \
2437 ((uint64_t)temp_sum < (uint64_t)temp[0])) { \
2438 acc[1] = acc[1] + 1; \
2440 temp[0] = temp_sum; \
2441 temp[1] = acc[1] + temp[1]; \
2442 } else { \
2443 temp_sum = acc[0] - temp[0]; \
2444 if ((uint64_t)temp_sum > (uint64_t)acc[0]) { \
2445 acc[1] = acc[1] - 1; \
2447 temp[0] = temp_sum; \
2448 temp[1] = acc[1] - temp[1]; \
2451 env->active_tc.HI[ac] = temp[1]; \
2452 env->active_tc.LO[ac] = temp[0]; \
2455 DP_QH(dpa_w_qh, 1, 0);
2456 DP_QH(dpaq_s_w_qh, 1, 1);
2457 DP_QH(dps_w_qh, 0, 0);
2458 DP_QH(dpsq_s_w_qh, 0, 1);
2460 #undef DP_QH
2462 #endif
2464 #define DP_L_W(name, is_add) \
2465 void helper_##name(uint32_t ac, target_ulong rs, target_ulong rt, \
2466 CPUMIPSState *env) \
2468 int32_t temp63; \
2469 int64_t dotp, acc; \
2470 uint64_t temp; \
2471 bool overflow; \
2473 dotp = mipsdsp_mul_q31_q31(ac, rs, rt, env); \
2474 acc = ((uint64_t)env->active_tc.HI[ac] << 32) | \
2475 ((uint64_t)env->active_tc.LO[ac] & MIPSDSP_LLO); \
2476 if (is_add) { \
2477 temp = acc + dotp; \
2478 overflow = MIPSDSP_OVERFLOW_ADD((uint64_t)acc, (uint64_t)dotp, \
2479 temp, (0x01ull << 63)); \
2480 } else { \
2481 temp = acc - dotp; \
2482 overflow = MIPSDSP_OVERFLOW_SUB((uint64_t)acc, (uint64_t)dotp, \
2483 temp, (0x01ull << 63)); \
2486 if (overflow) { \
2487 temp63 = (temp >> 63) & 0x01; \
2488 if (temp63 == 1) { \
2489 temp = (0x01ull << 63) - 1; \
2490 } else { \
2491 temp = 0x01ull << 63; \
2494 set_DSPControl_overflow_flag(1, 16 + ac, env); \
2497 env->active_tc.HI[ac] = (target_long)(int32_t) \
2498 ((temp & MIPSDSP_LHI) >> 32); \
2499 env->active_tc.LO[ac] = (target_long)(int32_t) \
2500 (temp & MIPSDSP_LLO); \
2503 DP_L_W(dpaq_sa_l_w, 1);
2504 DP_L_W(dpsq_sa_l_w, 0);
2506 #undef DP_L_W
2508 #if defined(TARGET_MIPS64)
2509 #define DP_L_PW(name, func) \
2510 void helper_##name(target_ulong rs, target_ulong rt, uint32_t ac, \
2511 CPUMIPSState *env) \
2513 int32_t rs1, rs0; \
2514 int32_t rt1, rt0; \
2515 int64_t tempB[2], tempA[2]; \
2516 int64_t temp[2]; \
2517 int64_t acc[2]; \
2518 int64_t temp_sum; \
2520 temp[0] = 0; \
2521 temp[1] = 0; \
2523 MIPSDSP_SPLIT64_32(rs, rs1, rs0); \
2524 MIPSDSP_SPLIT64_32(rt, rt1, rt0); \
2526 tempB[0] = mipsdsp_mul_q31_q31(ac, rs1, rt1, env); \
2527 tempA[0] = mipsdsp_mul_q31_q31(ac, rs0, rt0, env); \
2529 if (tempB[0] >= 0) { \
2530 tempB[1] = 0x00; \
2531 } else { \
2532 tempB[1] = ~0ull; \
2535 if (tempA[0] >= 0) { \
2536 tempA[1] = 0x00; \
2537 } else { \
2538 tempA[1] = ~0ull; \
2541 temp_sum = tempB[0] + tempA[0]; \
2542 if (((uint64_t)temp_sum < (uint64_t)tempB[0]) && \
2543 ((uint64_t)temp_sum < (uint64_t)tempA[0])) { \
2544 temp[1] += 1; \
2546 temp[0] = temp_sum; \
2547 temp[1] += tempB[1] + tempA[1]; \
2549 mipsdsp_##func(acc, ac, temp, env); \
2551 env->active_tc.HI[ac] = acc[1]; \
2552 env->active_tc.LO[ac] = acc[0]; \
2555 DP_L_PW(dpaq_sa_l_pw, sat64_acc_add_q63);
2556 DP_L_PW(dpsq_sa_l_pw, sat64_acc_sub_q63);
2558 #undef DP_L_PW
2560 void helper_mulsaq_s_l_pw(target_ulong rs, target_ulong rt, uint32_t ac,
2561 CPUMIPSState *env)
2563 int32_t rs1, rs0;
2564 int32_t rt1, rt0;
2565 int64_t tempB[2], tempA[2];
2566 int64_t temp[2];
2567 int64_t acc[2];
2568 int64_t temp_sum;
2570 rs1 = (rs >> 32) & MIPSDSP_LLO;
2571 rs0 = rs & MIPSDSP_LLO;
2572 rt1 = (rt >> 32) & MIPSDSP_LLO;
2573 rt0 = rt & MIPSDSP_LLO;
2575 tempB[0] = mipsdsp_mul_q31_q31(ac, rs1, rt1, env);
2576 tempA[0] = mipsdsp_mul_q31_q31(ac, rs0, rt0, env);
2578 if (tempB[0] >= 0) {
2579 tempB[1] = 0x00;
2580 } else {
2581 tempB[1] = ~0ull;
2584 if (tempA[0] >= 0) {
2585 tempA[1] = 0x00;
2586 } else {
2587 tempA[1] = ~0ull;
2590 acc[0] = env->active_tc.LO[ac];
2591 acc[1] = env->active_tc.HI[ac];
2593 temp_sum = tempB[0] - tempA[0];
2594 if ((uint64_t)temp_sum > (uint64_t)tempB[0]) {
2595 tempB[1] -= 1;
2597 temp[0] = temp_sum;
2598 temp[1] = tempB[1] - tempA[1];
2600 if ((temp[1] & 0x01) == 0) {
2601 temp[1] = 0x00;
2602 } else {
2603 temp[1] = ~0ull;
2606 temp_sum = acc[0] + temp[0];
2607 if (((uint64_t)temp_sum < (uint64_t)acc[0]) &&
2608 ((uint64_t)temp_sum < (uint64_t)temp[0])) {
2609 acc[1] += 1;
2611 acc[0] = temp_sum;
2612 acc[1] += temp[1];
2614 env->active_tc.HI[ac] = acc[1];
2615 env->active_tc.LO[ac] = acc[0];
2617 #endif
2619 #define MAQ_S_W(name, mov) \
2620 void helper_##name(uint32_t ac, target_ulong rs, target_ulong rt, \
2621 CPUMIPSState *env) \
2623 int16_t rsh, rth; \
2624 int32_t tempA; \
2625 int64_t tempL, acc; \
2627 rsh = (rs >> mov) & MIPSDSP_LO; \
2628 rth = (rt >> mov) & MIPSDSP_LO; \
2629 tempA = mipsdsp_mul_q15_q15(ac, rsh, rth, env); \
2630 acc = ((uint64_t)env->active_tc.HI[ac] << 32) | \
2631 ((uint64_t)env->active_tc.LO[ac] & MIPSDSP_LLO); \
2632 tempL = (int64_t)tempA + acc; \
2633 env->active_tc.HI[ac] = (target_long)(int32_t) \
2634 ((tempL & MIPSDSP_LHI) >> 32); \
2635 env->active_tc.LO[ac] = (target_long)(int32_t) \
2636 (tempL & MIPSDSP_LLO); \
2639 MAQ_S_W(maq_s_w_phl, 16);
2640 MAQ_S_W(maq_s_w_phr, 0);
2642 #undef MAQ_S_W
2644 #define MAQ_SA_W(name, mov) \
2645 void helper_##name(uint32_t ac, target_ulong rs, target_ulong rt, \
2646 CPUMIPSState *env) \
2648 int16_t rsh, rth; \
2649 int32_t tempA; \
2651 rsh = (rs >> mov) & MIPSDSP_LO; \
2652 rth = (rt >> mov) & MIPSDSP_LO; \
2653 tempA = mipsdsp_mul_q15_q15(ac, rsh, rth, env); \
2654 tempA = mipsdsp_sat32_acc_q31(ac, tempA, env); \
2656 env->active_tc.HI[ac] = (target_long)(int32_t)(((int64_t)tempA & \
2657 MIPSDSP_LHI) >> 32); \
2658 env->active_tc.LO[ac] = (target_long)(int32_t)((int64_t)tempA & \
2659 MIPSDSP_LLO); \
2662 MAQ_SA_W(maq_sa_w_phl, 16);
2663 MAQ_SA_W(maq_sa_w_phr, 0);
2665 #undef MAQ_SA_W
2667 #define MULQ_W(name, addvar) \
2668 target_ulong helper_##name(target_ulong rs, target_ulong rt, \
2669 CPUMIPSState *env) \
2671 int32_t rs_t, rt_t; \
2672 int32_t tempI; \
2673 int64_t tempL; \
2675 rs_t = rs & MIPSDSP_LLO; \
2676 rt_t = rt & MIPSDSP_LLO; \
2678 if ((rs_t == 0x80000000) && (rt_t == 0x80000000)) { \
2679 tempL = 0x7FFFFFFF00000000ull; \
2680 set_DSPControl_overflow_flag(1, 21, env); \
2681 } else { \
2682 tempL = ((int64_t)rs_t * (int64_t)rt_t) << 1; \
2683 tempL += addvar; \
2685 tempI = (tempL & MIPSDSP_LHI) >> 32; \
2687 return (target_long)(int32_t)tempI; \
2690 MULQ_W(mulq_s_w, 0);
2691 MULQ_W(mulq_rs_w, 0x80000000ull);
2693 #undef MULQ_W
2695 #if defined(TARGET_MIPS64)
2697 #define MAQ_S_W_QH(name, mov) \
2698 void helper_##name(target_ulong rs, target_ulong rt, uint32_t ac, \
2699 CPUMIPSState *env) \
2701 int16_t rs_t, rt_t; \
2702 int32_t temp_mul; \
2703 int64_t temp[2]; \
2704 int64_t acc[2]; \
2705 int64_t temp_sum; \
2707 temp[0] = 0; \
2708 temp[1] = 0; \
2710 rs_t = (rs >> mov) & MIPSDSP_LO; \
2711 rt_t = (rt >> mov) & MIPSDSP_LO; \
2712 temp_mul = mipsdsp_mul_q15_q15(ac, rs_t, rt_t, env); \
2714 temp[0] = (int64_t)temp_mul; \
2715 if (temp[0] >= 0) { \
2716 temp[1] = 0x00; \
2717 } else { \
2718 temp[1] = ~0ull; \
2721 acc[0] = env->active_tc.LO[ac]; \
2722 acc[1] = env->active_tc.HI[ac]; \
2724 temp_sum = acc[0] + temp[0]; \
2725 if (((uint64_t)temp_sum < (uint64_t)acc[0]) && \
2726 ((uint64_t)temp_sum < (uint64_t)temp[0])) { \
2727 acc[1] += 1; \
2729 acc[0] = temp_sum; \
2730 acc[1] += temp[1]; \
2732 env->active_tc.HI[ac] = acc[1]; \
2733 env->active_tc.LO[ac] = acc[0]; \
2736 MAQ_S_W_QH(maq_s_w_qhll, 48);
2737 MAQ_S_W_QH(maq_s_w_qhlr, 32);
2738 MAQ_S_W_QH(maq_s_w_qhrl, 16);
2739 MAQ_S_W_QH(maq_s_w_qhrr, 0);
2741 #undef MAQ_S_W_QH
2743 #define MAQ_SA_W(name, mov) \
2744 void helper_##name(target_ulong rs, target_ulong rt, uint32_t ac, \
2745 CPUMIPSState *env) \
2747 int16_t rs_t, rt_t; \
2748 int32_t temp; \
2749 int64_t acc[2]; \
2751 rs_t = (rs >> mov) & MIPSDSP_LO; \
2752 rt_t = (rt >> mov) & MIPSDSP_LO; \
2753 temp = mipsdsp_mul_q15_q15(ac, rs_t, rt_t, env); \
2754 temp = mipsdsp_sat32_acc_q31(ac, temp, env); \
2756 acc[0] = (int64_t)(int32_t)temp; \
2757 if (acc[0] >= 0) { \
2758 acc[1] = 0x00; \
2759 } else { \
2760 acc[1] = ~0ull; \
2763 env->active_tc.HI[ac] = acc[1]; \
2764 env->active_tc.LO[ac] = acc[0]; \
2767 MAQ_SA_W(maq_sa_w_qhll, 48);
2768 MAQ_SA_W(maq_sa_w_qhlr, 32);
2769 MAQ_SA_W(maq_sa_w_qhrl, 16);
2770 MAQ_SA_W(maq_sa_w_qhrr, 0);
2772 #undef MAQ_SA_W
2774 #define MAQ_S_L_PW(name, mov) \
2775 void helper_##name(target_ulong rs, target_ulong rt, uint32_t ac, \
2776 CPUMIPSState *env) \
2778 int32_t rs_t, rt_t; \
2779 int64_t temp[2]; \
2780 int64_t acc[2]; \
2781 int64_t temp_sum; \
2783 temp[0] = 0; \
2784 temp[1] = 0; \
2786 rs_t = (rs >> mov) & MIPSDSP_LLO; \
2787 rt_t = (rt >> mov) & MIPSDSP_LLO; \
2789 temp[0] = mipsdsp_mul_q31_q31(ac, rs_t, rt_t, env); \
2790 if (temp[0] >= 0) { \
2791 temp[1] = 0x00; \
2792 } else { \
2793 temp[1] = ~0ull; \
2796 acc[0] = env->active_tc.LO[ac]; \
2797 acc[1] = env->active_tc.HI[ac]; \
2799 temp_sum = acc[0] + temp[0]; \
2800 if (((uint64_t)temp_sum < (uint64_t)acc[0]) && \
2801 ((uint64_t)temp_sum < (uint64_t)temp[0])) { \
2802 acc[1] += 1; \
2804 acc[0] = temp_sum; \
2805 acc[1] += temp[1]; \
2807 env->active_tc.HI[ac] = acc[1]; \
2808 env->active_tc.LO[ac] = acc[0]; \
2811 MAQ_S_L_PW(maq_s_l_pwl, 32);
2812 MAQ_S_L_PW(maq_s_l_pwr, 0);
2814 #undef MAQ_S_L_PW
2816 #define DM_OPERATE(name, func, is_add, sigext) \
2817 void helper_##name(target_ulong rs, target_ulong rt, uint32_t ac, \
2818 CPUMIPSState *env) \
2820 int32_t rs1, rs0; \
2821 int32_t rt1, rt0; \
2822 int64_t tempBL[2], tempAL[2]; \
2823 int64_t acc[2]; \
2824 int64_t temp[2]; \
2825 int64_t temp_sum; \
2827 temp[0] = 0x00; \
2828 temp[1] = 0x00; \
2830 MIPSDSP_SPLIT64_32(rs, rs1, rs0); \
2831 MIPSDSP_SPLIT64_32(rt, rt1, rt0); \
2833 if (sigext) { \
2834 tempBL[0] = (int64_t)mipsdsp_##func(rs1, rt1); \
2835 tempAL[0] = (int64_t)mipsdsp_##func(rs0, rt0); \
2837 if (tempBL[0] >= 0) { \
2838 tempBL[1] = 0x0; \
2839 } else { \
2840 tempBL[1] = ~0ull; \
2843 if (tempAL[0] >= 0) { \
2844 tempAL[1] = 0x0; \
2845 } else { \
2846 tempAL[1] = ~0ull; \
2848 } else { \
2849 tempBL[0] = mipsdsp_##func(rs1, rt1); \
2850 tempAL[0] = mipsdsp_##func(rs0, rt0); \
2851 tempBL[1] = 0; \
2852 tempAL[1] = 0; \
2855 acc[1] = env->active_tc.HI[ac]; \
2856 acc[0] = env->active_tc.LO[ac]; \
2858 temp_sum = tempBL[0] + tempAL[0]; \
2859 if (((uint64_t)temp_sum < (uint64_t)tempBL[0]) && \
2860 ((uint64_t)temp_sum < (uint64_t)tempAL[0])) { \
2861 temp[1] += 1; \
2863 temp[0] = temp_sum; \
2864 temp[1] += tempBL[1] + tempAL[1]; \
2866 if (is_add) { \
2867 temp_sum = acc[0] + temp[0]; \
2868 if (((uint64_t)temp_sum < (uint64_t)acc[0]) && \
2869 ((uint64_t)temp_sum < (uint64_t)temp[0])) { \
2870 acc[1] += 1; \
2872 temp[0] = temp_sum; \
2873 temp[1] = acc[1] + temp[1]; \
2874 } else { \
2875 temp_sum = acc[0] - temp[0]; \
2876 if ((uint64_t)temp_sum > (uint64_t)acc[0]) { \
2877 acc[1] -= 1; \
2879 temp[0] = temp_sum; \
2880 temp[1] = acc[1] - temp[1]; \
2883 env->active_tc.HI[ac] = temp[1]; \
2884 env->active_tc.LO[ac] = temp[0]; \
2887 DM_OPERATE(dmadd, mul_i32_i32, 1, 1);
2888 DM_OPERATE(dmaddu, mul_u32_u32, 1, 0);
2889 DM_OPERATE(dmsub, mul_i32_i32, 0, 1);
2890 DM_OPERATE(dmsubu, mul_u32_u32, 0, 0);
2891 #undef DM_OPERATE
2892 #endif
2894 /** DSP Bit/Manipulation Sub-class insns **/
2895 target_ulong helper_bitrev(target_ulong rt)
2897 int32_t temp;
2898 uint32_t rd;
2899 int i;
2901 temp = rt & MIPSDSP_LO;
2902 rd = 0;
2903 for (i = 0; i < 16; i++) {
2904 rd = (rd << 1) | (temp & 1);
2905 temp = temp >> 1;
2908 return (target_ulong)rd;
2911 #define BIT_INSV(name, posfilter, ret_type) \
2912 target_ulong helper_##name(CPUMIPSState *env, target_ulong rs, \
2913 target_ulong rt) \
2915 uint32_t pos, size, msb, lsb; \
2916 uint32_t const sizefilter = 0x3F; \
2917 target_ulong temp; \
2918 target_ulong dspc; \
2920 dspc = env->active_tc.DSPControl; \
2922 pos = dspc & posfilter; \
2923 size = (dspc >> 7) & sizefilter; \
2925 msb = pos + size - 1; \
2926 lsb = pos; \
2928 if (lsb > msb || (msb > TARGET_LONG_BITS)) { \
2929 return rt; \
2932 temp = deposit64(rt, pos, size, rs); \
2934 return (target_long)(ret_type)temp; \
2937 BIT_INSV(insv, 0x1F, int32_t);
2938 #ifdef TARGET_MIPS64
2939 BIT_INSV(dinsv, 0x7F, target_long);
2940 #endif
2942 #undef BIT_INSV
2945 /** DSP Compare-Pick Sub-class insns **/
2946 #define CMP_HAS_RET(name, func, split_num, filter, bit_size) \
2947 target_ulong helper_##name(target_ulong rs, target_ulong rt) \
2949 uint32_t rs_t, rt_t; \
2950 uint8_t cc; \
2951 uint32_t temp = 0; \
2952 int i; \
2954 for (i = 0; i < split_num; i++) { \
2955 rs_t = (rs >> (bit_size * i)) & filter; \
2956 rt_t = (rt >> (bit_size * i)) & filter; \
2957 cc = mipsdsp_##func(rs_t, rt_t); \
2958 temp |= cc << i; \
2961 return (target_ulong)temp; \
2964 CMP_HAS_RET(cmpgu_eq_qb, cmpu_eq, 4, MIPSDSP_Q0, 8);
2965 CMP_HAS_RET(cmpgu_lt_qb, cmpu_lt, 4, MIPSDSP_Q0, 8);
2966 CMP_HAS_RET(cmpgu_le_qb, cmpu_le, 4, MIPSDSP_Q0, 8);
2968 #ifdef TARGET_MIPS64
2969 CMP_HAS_RET(cmpgu_eq_ob, cmpu_eq, 8, MIPSDSP_Q0, 8);
2970 CMP_HAS_RET(cmpgu_lt_ob, cmpu_lt, 8, MIPSDSP_Q0, 8);
2971 CMP_HAS_RET(cmpgu_le_ob, cmpu_le, 8, MIPSDSP_Q0, 8);
2972 #endif
2974 #undef CMP_HAS_RET
2977 #define CMP_NO_RET(name, func, split_num, filter, bit_size) \
2978 void helper_##name(target_ulong rs, target_ulong rt, \
2979 CPUMIPSState *env) \
2981 int##bit_size##_t rs_t, rt_t; \
2982 int##bit_size##_t flag = 0; \
2983 int##bit_size##_t cc; \
2984 int i; \
2986 for (i = 0; i < split_num; i++) { \
2987 rs_t = (rs >> (bit_size * i)) & filter; \
2988 rt_t = (rt >> (bit_size * i)) & filter; \
2990 cc = mipsdsp_##func((int32_t)rs_t, (int32_t)rt_t); \
2991 flag |= cc << i; \
2994 set_DSPControl_24(flag, split_num, env); \
2997 CMP_NO_RET(cmpu_eq_qb, cmpu_eq, 4, MIPSDSP_Q0, 8);
2998 CMP_NO_RET(cmpu_lt_qb, cmpu_lt, 4, MIPSDSP_Q0, 8);
2999 CMP_NO_RET(cmpu_le_qb, cmpu_le, 4, MIPSDSP_Q0, 8);
3001 CMP_NO_RET(cmp_eq_ph, cmp_eq, 2, MIPSDSP_LO, 16);
3002 CMP_NO_RET(cmp_lt_ph, cmp_lt, 2, MIPSDSP_LO, 16);
3003 CMP_NO_RET(cmp_le_ph, cmp_le, 2, MIPSDSP_LO, 16);
3005 #ifdef TARGET_MIPS64
3006 CMP_NO_RET(cmpu_eq_ob, cmpu_eq, 8, MIPSDSP_Q0, 8);
3007 CMP_NO_RET(cmpu_lt_ob, cmpu_lt, 8, MIPSDSP_Q0, 8);
3008 CMP_NO_RET(cmpu_le_ob, cmpu_le, 8, MIPSDSP_Q0, 8);
3010 CMP_NO_RET(cmp_eq_qh, cmp_eq, 4, MIPSDSP_LO, 16);
3011 CMP_NO_RET(cmp_lt_qh, cmp_lt, 4, MIPSDSP_LO, 16);
3012 CMP_NO_RET(cmp_le_qh, cmp_le, 4, MIPSDSP_LO, 16);
3014 CMP_NO_RET(cmp_eq_pw, cmp_eq, 2, MIPSDSP_LLO, 32);
3015 CMP_NO_RET(cmp_lt_pw, cmp_lt, 2, MIPSDSP_LLO, 32);
3016 CMP_NO_RET(cmp_le_pw, cmp_le, 2, MIPSDSP_LLO, 32);
3017 #endif
3018 #undef CMP_NO_RET
3020 #if defined(TARGET_MIPS64)
3022 #define CMPGDU_OB(name) \
3023 target_ulong helper_cmpgdu_##name##_ob(target_ulong rs, target_ulong rt, \
3024 CPUMIPSState *env) \
3026 int i; \
3027 uint8_t rs_t, rt_t; \
3028 uint32_t cond; \
3030 cond = 0; \
3032 for (i = 0; i < 8; i++) { \
3033 rs_t = (rs >> (8 * i)) & MIPSDSP_Q0; \
3034 rt_t = (rt >> (8 * i)) & MIPSDSP_Q0; \
3036 if (mipsdsp_cmpu_##name(rs_t, rt_t)) { \
3037 cond |= 0x01 << i; \
3041 set_DSPControl_24(cond, 8, env); \
3043 return (uint64_t)cond; \
3046 CMPGDU_OB(eq)
3047 CMPGDU_OB(lt)
3048 CMPGDU_OB(le)
3049 #undef CMPGDU_OB
3050 #endif
3052 #define PICK_INSN(name, split_num, filter, bit_size, ret32bit) \
3053 target_ulong helper_##name(target_ulong rs, target_ulong rt, \
3054 CPUMIPSState *env) \
3056 uint32_t rs_t, rt_t; \
3057 uint32_t cc; \
3058 target_ulong dsp; \
3059 int i; \
3060 target_ulong result = 0; \
3062 dsp = env->active_tc.DSPControl; \
3063 for (i = 0; i < split_num; i++) { \
3064 rs_t = (rs >> (bit_size * i)) & filter; \
3065 rt_t = (rt >> (bit_size * i)) & filter; \
3066 cc = (dsp >> (24 + i)) & 0x01; \
3067 cc = cc == 1 ? rs_t : rt_t; \
3069 result |= (target_ulong)cc << (bit_size * i); \
3072 if (ret32bit) { \
3073 result = (target_long)(int32_t)(result & MIPSDSP_LLO); \
3076 return result; \
3079 PICK_INSN(pick_qb, 4, MIPSDSP_Q0, 8, 1);
3080 PICK_INSN(pick_ph, 2, MIPSDSP_LO, 16, 1);
3082 #ifdef TARGET_MIPS64
3083 PICK_INSN(pick_ob, 8, MIPSDSP_Q0, 8, 0);
3084 PICK_INSN(pick_qh, 4, MIPSDSP_LO, 16, 0);
3085 PICK_INSN(pick_pw, 2, MIPSDSP_LLO, 32, 0);
3086 #endif
3087 #undef PICK_INSN
3089 target_ulong helper_packrl_ph(target_ulong rs, target_ulong rt)
3091 uint32_t rsl, rth;
3093 rsl = rs & MIPSDSP_LO;
3094 rth = (rt & MIPSDSP_HI) >> 16;
3096 return (target_long)(int32_t)((rsl << 16) | rth);
3099 #if defined(TARGET_MIPS64)
3100 target_ulong helper_packrl_pw(target_ulong rs, target_ulong rt)
3102 uint32_t rs0, rt1;
3104 rs0 = rs & MIPSDSP_LLO;
3105 rt1 = (rt >> 32) & MIPSDSP_LLO;
3107 return ((uint64_t)rs0 << 32) | (uint64_t)rt1;
3109 #endif
3111 /** DSP Accumulator and DSPControl Access Sub-class insns **/
3112 target_ulong helper_extr_w(target_ulong ac, target_ulong shift,
3113 CPUMIPSState *env)
3115 int32_t tempI;
3116 int64_t tempDL[2];
3118 shift = shift & 0x1F;
3120 mipsdsp_rndrashift_short_acc(tempDL, ac, shift, env);
3121 if ((tempDL[1] != 0 || (tempDL[0] & MIPSDSP_LHI) != 0) &&
3122 (tempDL[1] != 1 || (tempDL[0] & MIPSDSP_LHI) != MIPSDSP_LHI)) {
3123 set_DSPControl_overflow_flag(1, 23, env);
3126 tempI = (tempDL[0] >> 1) & MIPSDSP_LLO;
3128 tempDL[0] += 1;
3129 if (tempDL[0] == 0) {
3130 tempDL[1] += 1;
3133 if (((tempDL[1] & 0x01) != 0 || (tempDL[0] & MIPSDSP_LHI) != 0) &&
3134 ((tempDL[1] & 0x01) != 1 || (tempDL[0] & MIPSDSP_LHI) != MIPSDSP_LHI)) {
3135 set_DSPControl_overflow_flag(1, 23, env);
3138 return (target_long)tempI;
3141 target_ulong helper_extr_r_w(target_ulong ac, target_ulong shift,
3142 CPUMIPSState *env)
3144 int64_t tempDL[2];
3146 shift = shift & 0x1F;
3148 mipsdsp_rndrashift_short_acc(tempDL, ac, shift, env);
3149 if ((tempDL[1] != 0 || (tempDL[0] & MIPSDSP_LHI) != 0) &&
3150 (tempDL[1] != 1 || (tempDL[0] & MIPSDSP_LHI) != MIPSDSP_LHI)) {
3151 set_DSPControl_overflow_flag(1, 23, env);
3154 tempDL[0] += 1;
3155 if (tempDL[0] == 0) {
3156 tempDL[1] += 1;
3159 if (((tempDL[1] & 0x01) != 0 || (tempDL[0] & MIPSDSP_LHI) != 0) &&
3160 ((tempDL[1] & 0x01) != 1 || (tempDL[0] & MIPSDSP_LHI) != MIPSDSP_LHI)) {
3161 set_DSPControl_overflow_flag(1, 23, env);
3164 return (target_long)(int32_t)(tempDL[0] >> 1);
3167 target_ulong helper_extr_rs_w(target_ulong ac, target_ulong shift,
3168 CPUMIPSState *env)
3170 int32_t tempI, temp64;
3171 int64_t tempDL[2];
3173 shift = shift & 0x1F;
3175 mipsdsp_rndrashift_short_acc(tempDL, ac, shift, env);
3176 if ((tempDL[1] != 0 || (tempDL[0] & MIPSDSP_LHI) != 0) &&
3177 (tempDL[1] != 1 || (tempDL[0] & MIPSDSP_LHI) != MIPSDSP_LHI)) {
3178 set_DSPControl_overflow_flag(1, 23, env);
3180 tempDL[0] += 1;
3181 if (tempDL[0] == 0) {
3182 tempDL[1] += 1;
3184 tempI = tempDL[0] >> 1;
3186 if (((tempDL[1] & 0x01) != 0 || (tempDL[0] & MIPSDSP_LHI) != 0) &&
3187 ((tempDL[1] & 0x01) != 1 || (tempDL[0] & MIPSDSP_LHI) != MIPSDSP_LHI)) {
3188 temp64 = tempDL[1] & 0x01;
3189 if (temp64 == 0) {
3190 tempI = 0x7FFFFFFF;
3191 } else {
3192 tempI = 0x80000000;
3194 set_DSPControl_overflow_flag(1, 23, env);
3197 return (target_long)tempI;
3200 #if defined(TARGET_MIPS64)
3201 target_ulong helper_dextr_w(target_ulong ac, target_ulong shift,
3202 CPUMIPSState *env)
3204 uint64_t temp[3];
3206 shift = shift & 0x3F;
3208 mipsdsp_rndrashift_acc(temp, ac, shift, env);
3210 return (int64_t)(int32_t)(temp[0] >> 1);
3213 target_ulong helper_dextr_r_w(target_ulong ac, target_ulong shift,
3214 CPUMIPSState *env)
3216 uint64_t temp[3];
3217 uint32_t temp128;
3219 shift = shift & 0x3F;
3220 mipsdsp_rndrashift_acc(temp, ac, shift, env);
3222 temp[0] += 1;
3223 if (temp[0] == 0) {
3224 temp[1] += 1;
3225 if (temp[1] == 0) {
3226 temp[2] += 1;
3230 temp128 = temp[2] & 0x01;
3232 if ((temp128 != 0 || temp[1] != 0) &&
3233 (temp128 != 1 || temp[1] != ~0ull)) {
3234 set_DSPControl_overflow_flag(1, 23, env);
3237 return (int64_t)(int32_t)(temp[0] >> 1);
3240 target_ulong helper_dextr_rs_w(target_ulong ac, target_ulong shift,
3241 CPUMIPSState *env)
3243 uint64_t temp[3];
3244 uint32_t temp128;
3246 shift = shift & 0x3F;
3247 mipsdsp_rndrashift_acc(temp, ac, shift, env);
3249 temp[0] += 1;
3250 if (temp[0] == 0) {
3251 temp[1] += 1;
3252 if (temp[1] == 0) {
3253 temp[2] += 1;
3257 temp128 = temp[2] & 0x01;
3259 if ((temp128 != 0 || temp[1] != 0) &&
3260 (temp128 != 1 || temp[1] != ~0ull)) {
3261 if (temp128 == 0) {
3262 temp[0] = 0x0FFFFFFFF;
3263 } else {
3264 temp[0] = 0x0100000000ULL;
3266 set_DSPControl_overflow_flag(1, 23, env);
3269 return (int64_t)(int32_t)(temp[0] >> 1);
3272 target_ulong helper_dextr_l(target_ulong ac, target_ulong shift,
3273 CPUMIPSState *env)
3275 uint64_t temp[3];
3276 target_ulong result;
3278 shift = shift & 0x3F;
3280 mipsdsp_rndrashift_acc(temp, ac, shift, env);
3281 result = (temp[1] << 63) | (temp[0] >> 1);
3283 return result;
3286 target_ulong helper_dextr_r_l(target_ulong ac, target_ulong shift,
3287 CPUMIPSState *env)
3289 uint64_t temp[3];
3290 uint32_t temp128;
3291 target_ulong result;
3293 shift = shift & 0x3F;
3294 mipsdsp_rndrashift_acc(temp, ac, shift, env);
3296 temp[0] += 1;
3297 if (temp[0] == 0) {
3298 temp[1] += 1;
3299 if (temp[1] == 0) {
3300 temp[2] += 1;
3304 temp128 = temp[2] & 0x01;
3306 if ((temp128 != 0 || temp[1] != 0) &&
3307 (temp128 != 1 || temp[1] != ~0ull)) {
3308 set_DSPControl_overflow_flag(1, 23, env);
3311 result = (temp[1] << 63) | (temp[0] >> 1);
3313 return result;
3316 target_ulong helper_dextr_rs_l(target_ulong ac, target_ulong shift,
3317 CPUMIPSState *env)
3319 uint64_t temp[3];
3320 uint32_t temp128;
3321 target_ulong result;
3323 shift = shift & 0x3F;
3324 mipsdsp_rndrashift_acc(temp, ac, shift, env);
3326 temp[0] += 1;
3327 if (temp[0] == 0) {
3328 temp[1] += 1;
3329 if (temp[1] == 0) {
3330 temp[2] += 1;
3334 temp128 = temp[2] & 0x01;
3336 if ((temp128 != 0 || temp[1] != 0) &&
3337 (temp128 != 1 || temp[1] != ~0ull)) {
3338 if (temp128 == 0) {
3339 temp[1] &= ~0x00ull - 1;
3340 temp[0] |= ~0x00ull - 1;
3341 } else {
3342 temp[1] |= 0x01;
3343 temp[0] &= 0x01;
3345 set_DSPControl_overflow_flag(1, 23, env);
3347 result = (temp[1] << 63) | (temp[0] >> 1);
3349 return result;
3351 #endif
3353 target_ulong helper_extr_s_h(target_ulong ac, target_ulong shift,
3354 CPUMIPSState *env)
3356 int64_t temp, acc;
3358 shift = shift & 0x1F;
3360 acc = ((int64_t)env->active_tc.HI[ac] << 32) |
3361 ((int64_t)env->active_tc.LO[ac] & 0xFFFFFFFF);
3363 temp = acc >> shift;
3365 if (temp > (int64_t)0x7FFF) {
3366 temp = 0x00007FFF;
3367 set_DSPControl_overflow_flag(1, 23, env);
3368 } else if (temp < (int64_t)0xFFFFFFFFFFFF8000ULL) {
3369 temp = 0xFFFF8000;
3370 set_DSPControl_overflow_flag(1, 23, env);
3373 return (target_long)(int32_t)(temp & 0xFFFFFFFF);
3377 #if defined(TARGET_MIPS64)
3378 target_ulong helper_dextr_s_h(target_ulong ac, target_ulong shift,
3379 CPUMIPSState *env)
3381 int64_t temp[2];
3382 uint32_t temp127;
3384 shift = shift & 0x1F;
3386 mipsdsp_rashift_acc((uint64_t *)temp, ac, shift, env);
3388 temp127 = (temp[1] >> 63) & 0x01;
3390 if ((temp127 == 0) && (temp[1] > 0 || temp[0] > 32767)) {
3391 temp[0] &= 0xFFFF0000;
3392 temp[0] |= 0x00007FFF;
3393 set_DSPControl_overflow_flag(1, 23, env);
3394 } else if ((temp127 == 1) &&
3395 (temp[1] < 0xFFFFFFFFFFFFFFFFll
3396 || temp[0] < 0xFFFFFFFFFFFF1000ll)) {
3397 temp[0] &= 0xFFFF0000;
3398 temp[0] |= 0x00008000;
3399 set_DSPControl_overflow_flag(1, 23, env);
3402 return (int64_t)(int16_t)(temp[0] & MIPSDSP_LO);
3405 #endif
3407 target_ulong helper_extp(target_ulong ac, target_ulong size, CPUMIPSState *env)
3409 int32_t start_pos;
3410 int sub;
3411 uint32_t temp;
3412 uint64_t acc;
3414 size = size & 0x1F;
3416 temp = 0;
3417 start_pos = get_DSPControl_pos(env);
3418 sub = start_pos - (size + 1);
3419 if (sub >= -1) {
3420 acc = ((uint64_t)env->active_tc.HI[ac] << 32) |
3421 ((uint64_t)env->active_tc.LO[ac] & MIPSDSP_LLO);
3422 temp = (acc >> (start_pos - size)) & (~0U >> (31 - size));
3423 set_DSPControl_efi(0, env);
3424 } else {
3425 set_DSPControl_efi(1, env);
3428 return (target_ulong)temp;
3431 target_ulong helper_extpdp(target_ulong ac, target_ulong size,
3432 CPUMIPSState *env)
3434 int32_t start_pos;
3435 int sub;
3436 uint32_t temp;
3437 uint64_t acc;
3439 size = size & 0x1F;
3440 temp = 0;
3441 start_pos = get_DSPControl_pos(env);
3442 sub = start_pos - (size + 1);
3443 if (sub >= -1) {
3444 acc = ((uint64_t)env->active_tc.HI[ac] << 32) |
3445 ((uint64_t)env->active_tc.LO[ac] & MIPSDSP_LLO);
3446 temp = extract64(acc, start_pos - size, size + 1);
3448 set_DSPControl_pos(sub, env);
3449 set_DSPControl_efi(0, env);
3450 } else {
3451 set_DSPControl_efi(1, env);
3454 return (target_ulong)temp;
3458 #if defined(TARGET_MIPS64)
3459 target_ulong helper_dextp(target_ulong ac, target_ulong size, CPUMIPSState *env)
3461 int start_pos;
3462 int len;
3463 int sub;
3464 uint64_t tempB, tempA;
3465 uint64_t temp;
3467 temp = 0;
3469 size = size & 0x3F;
3470 start_pos = get_DSPControl_pos(env);
3471 len = start_pos - size;
3472 tempB = env->active_tc.HI[ac];
3473 tempA = env->active_tc.LO[ac];
3475 sub = start_pos - (size + 1);
3477 if (sub >= -1) {
3478 temp = (tempB << (64 - len)) | (tempA >> len);
3479 temp = temp & ((0x01 << (size + 1)) - 1);
3480 set_DSPControl_efi(0, env);
3481 } else {
3482 set_DSPControl_efi(1, env);
3485 return temp;
3488 target_ulong helper_dextpdp(target_ulong ac, target_ulong size,
3489 CPUMIPSState *env)
3491 int start_pos;
3492 int len;
3493 int sub;
3494 uint64_t tempB, tempA;
3495 uint64_t temp;
3497 temp = 0;
3498 size = size & 0x3F;
3499 start_pos = get_DSPControl_pos(env);
3500 len = start_pos - size;
3501 tempB = env->active_tc.HI[ac];
3502 tempA = env->active_tc.LO[ac];
3504 sub = start_pos - (size + 1);
3506 if (sub >= -1) {
3507 temp = (tempB << (64 - len)) | (tempA >> len);
3508 temp = temp & ((0x01 << (size + 1)) - 1);
3509 set_DSPControl_pos(sub, env);
3510 set_DSPControl_efi(0, env);
3511 } else {
3512 set_DSPControl_efi(1, env);
3515 return temp;
3518 #endif
3520 void helper_shilo(target_ulong ac, target_ulong rs, CPUMIPSState *env)
3522 int8_t rs5_0;
3523 uint64_t temp, acc;
3525 rs5_0 = rs & 0x3F;
3526 rs5_0 = (int8_t)(rs5_0 << 2) >> 2;
3528 if (unlikely(rs5_0 == 0)) {
3529 return;
3532 acc = (((uint64_t)env->active_tc.HI[ac] << 32) & MIPSDSP_LHI) |
3533 ((uint64_t)env->active_tc.LO[ac] & MIPSDSP_LLO);
3535 if (rs5_0 > 0) {
3536 temp = acc >> rs5_0;
3537 } else {
3538 temp = acc << -rs5_0;
3541 env->active_tc.HI[ac] = (target_ulong)(int32_t)((temp & MIPSDSP_LHI) >> 32);
3542 env->active_tc.LO[ac] = (target_ulong)(int32_t)(temp & MIPSDSP_LLO);
3545 #if defined(TARGET_MIPS64)
3546 void helper_dshilo(target_ulong shift, target_ulong ac, CPUMIPSState *env)
3548 int8_t shift_t;
3549 uint64_t tempB, tempA;
3551 shift_t = (int8_t)(shift << 1) >> 1;
3553 tempB = env->active_tc.HI[ac];
3554 tempA = env->active_tc.LO[ac];
3556 if (shift_t != 0) {
3557 if (shift_t >= 0) {
3558 tempA = (tempB << (64 - shift_t)) | (tempA >> shift_t);
3559 tempB = tempB >> shift_t;
3560 } else {
3561 shift_t = -shift_t;
3562 tempB = (tempB << shift_t) | (tempA >> (64 - shift_t));
3563 tempA = tempA << shift_t;
3567 env->active_tc.HI[ac] = tempB;
3568 env->active_tc.LO[ac] = tempA;
3571 #endif
3572 void helper_mthlip(target_ulong ac, target_ulong rs, CPUMIPSState *env)
3574 int32_t tempA, tempB, pos;
3576 tempA = rs;
3577 tempB = env->active_tc.LO[ac];
3578 env->active_tc.HI[ac] = (target_long)tempB;
3579 env->active_tc.LO[ac] = (target_long)tempA;
3580 pos = get_DSPControl_pos(env);
3582 if (pos > 32) {
3583 return;
3584 } else {
3585 set_DSPControl_pos(pos + 32, env);
3589 #if defined(TARGET_MIPS64)
3590 void helper_dmthlip(target_ulong rs, target_ulong ac, CPUMIPSState *env)
3592 uint8_t ac_t;
3593 uint8_t pos;
3594 uint64_t tempB, tempA;
3596 ac_t = ac & 0x3;
3598 tempA = rs;
3599 tempB = env->active_tc.LO[ac_t];
3601 env->active_tc.HI[ac_t] = tempB;
3602 env->active_tc.LO[ac_t] = tempA;
3604 pos = get_DSPControl_pos(env);
3606 if (pos <= 64) {
3607 pos = pos + 64;
3608 set_DSPControl_pos(pos, env);
3611 #endif
3613 void cpu_wrdsp(uint32_t rs, uint32_t mask_num, CPUMIPSState *env)
3615 uint8_t mask[6];
3616 uint8_t i;
3617 uint32_t newbits, overwrite;
3618 target_ulong dsp;
3620 newbits = 0x00;
3621 overwrite = 0xFFFFFFFF;
3622 dsp = env->active_tc.DSPControl;
3624 for (i = 0; i < 6; i++) {
3625 mask[i] = (mask_num >> i) & 0x01;
3628 if (mask[0] == 1) {
3629 #if defined(TARGET_MIPS64)
3630 overwrite &= 0xFFFFFF80;
3631 newbits &= 0xFFFFFF80;
3632 newbits |= 0x0000007F & rs;
3633 #else
3634 overwrite &= 0xFFFFFFC0;
3635 newbits &= 0xFFFFFFC0;
3636 newbits |= 0x0000003F & rs;
3637 #endif
3640 if (mask[1] == 1) {
3641 overwrite &= 0xFFFFE07F;
3642 newbits &= 0xFFFFE07F;
3643 newbits |= 0x00001F80 & rs;
3646 if (mask[2] == 1) {
3647 overwrite &= 0xFFFFDFFF;
3648 newbits &= 0xFFFFDFFF;
3649 newbits |= 0x00002000 & rs;
3652 if (mask[3] == 1) {
3653 overwrite &= 0xFF00FFFF;
3654 newbits &= 0xFF00FFFF;
3655 newbits |= 0x00FF0000 & rs;
3658 if (mask[4] == 1) {
3659 overwrite &= 0x00FFFFFF;
3660 newbits &= 0x00FFFFFF;
3661 #if defined(TARGET_MIPS64)
3662 newbits |= 0xFF000000 & rs;
3663 #else
3664 newbits |= 0x0F000000 & rs;
3665 #endif
3668 if (mask[5] == 1) {
3669 overwrite &= 0xFFFFBFFF;
3670 newbits &= 0xFFFFBFFF;
3671 newbits |= 0x00004000 & rs;
3674 dsp = dsp & overwrite;
3675 dsp = dsp | newbits;
3676 env->active_tc.DSPControl = dsp;
3679 void helper_wrdsp(target_ulong rs, target_ulong mask_num, CPUMIPSState *env)
3681 return cpu_wrdsp(rs, mask_num, env);
3684 uint32_t cpu_rddsp(uint32_t mask_num, CPUMIPSState *env)
3686 uint8_t mask[6];
3687 uint32_t ruler, i;
3688 target_ulong temp;
3689 target_ulong dsp;
3691 ruler = 0x01;
3692 for (i = 0; i < 6; i++) {
3693 mask[i] = (mask_num & ruler) >> i ;
3694 ruler = ruler << 1;
3697 temp = 0x00;
3698 dsp = env->active_tc.DSPControl;
3700 if (mask[0] == 1) {
3701 #if defined(TARGET_MIPS64)
3702 temp |= dsp & 0x7F;
3703 #else
3704 temp |= dsp & 0x3F;
3705 #endif
3708 if (mask[1] == 1) {
3709 temp |= dsp & 0x1F80;
3712 if (mask[2] == 1) {
3713 temp |= dsp & 0x2000;
3716 if (mask[3] == 1) {
3717 temp |= dsp & 0x00FF0000;
3720 if (mask[4] == 1) {
3721 #if defined(TARGET_MIPS64)
3722 temp |= dsp & 0xFF000000;
3723 #else
3724 temp |= dsp & 0x0F000000;
3725 #endif
3728 if (mask[5] == 1) {
3729 temp |= dsp & 0x4000;
3732 return temp;
3735 target_ulong helper_rddsp(target_ulong mask_num, CPUMIPSState *env)
3737 return cpu_rddsp(mask_num, env);
3741 #undef MIPSDSP_LHI
3742 #undef MIPSDSP_LLO
3743 #undef MIPSDSP_HI
3744 #undef MIPSDSP_LO
3745 #undef MIPSDSP_Q3
3746 #undef MIPSDSP_Q2
3747 #undef MIPSDSP_Q1
3748 #undef MIPSDSP_Q0
3750 #undef MIPSDSP_SPLIT32_8
3751 #undef MIPSDSP_SPLIT32_16
3753 #undef MIPSDSP_RETURN32_8
3754 #undef MIPSDSP_RETURN32_16
3756 #ifdef TARGET_MIPS64
3757 #undef MIPSDSP_SPLIT64_16
3758 #undef MIPSDSP_SPLIT64_32
3759 #undef MIPSDSP_RETURN64_16
3760 #undef MIPSDSP_RETURN64_32
3761 #endif