1 /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
2 * Mupen64plus - assem_arm.c *
3 * Copyright (C) 2009-2010 Ari64 *
5 * This program is free software; you can redistribute it and/or modify *
6 * it under the terms of the GNU General Public License as published by *
7 * the Free Software Foundation; either version 2 of the License, or *
8 * (at your option) any later version. *
10 * This program is distributed in the hope that it will be useful, *
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of *
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
13 * GNU General Public License for more details. *
15 * You should have received a copy of the GNU General Public License *
16 * along with this program; if not, write to the *
17 * Free Software Foundation, Inc., *
18 * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. *
19 * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
21 extern int cycle_count;
22 extern int last_count;
24 extern int pending_exception;
25 extern int branch_target;
26 extern uint64_t readmem_dword;
28 extern precomp_instr fake_pc;
30 extern void *dynarec_local;
31 extern u_int memory_map[1048576];
32 extern u_int mini_ht[32][2];
33 extern u_int rounding_modes[4];
35 void indirect_jump_indexed();
48 void jump_vaddr_r10();
49 void jump_vaddr_r12();
51 const u_int jump_vaddr_reg[16] = {
73 void set_jump_target(int addr,u_int target)
75 u_char *ptr=(u_char *)addr;
76 u_int *ptr2=(u_int *)ptr;
78 assert((target-(u_int)ptr2-8)<1024);
80 assert((target&3)==0);
81 *ptr2=(*ptr2&0xFFFFF000)|((target-(u_int)ptr2-8)>>2)|0xF00;
82 //printf("target=%x addr=%x insn=%x\n",target,addr,*ptr2);
84 else if(ptr[3]==0x72) {
85 // generated by emit_jno_unlikely
86 if((target-(u_int)ptr2-8)<1024) {
88 assert((target&3)==0);
89 *ptr2=(*ptr2&0xFFFFF000)|((target-(u_int)ptr2-8)>>2)|0xF00;
91 else if((target-(u_int)ptr2-8)<4096&&!((target-(u_int)ptr2-8)&15)) {
93 assert((target&3)==0);
94 *ptr2=(*ptr2&0xFFFFF000)|((target-(u_int)ptr2-8)>>4)|0xE00;
96 else *ptr2=(0x7A000000)|(((target-(u_int)ptr2-8)<<6)>>8);
99 assert((ptr[3]&0x0e)==0xa);
100 *ptr2=(*ptr2&0xFF000000)|(((target-(u_int)ptr2-8)<<6)>>8);
104 // This optionally copies the instruction from the target of the branch into
105 // the space before the branch. Works, but the difference in speed is
106 // usually insignificant.
107 void set_jump_target_fillslot(int addr,u_int target,int copy)
109 u_char *ptr=(u_char *)addr;
110 u_int *ptr2=(u_int *)ptr;
111 assert(!copy||ptr2[-1]==0xe28dd000);
114 assert((target-(u_int)ptr2-8)<4096);
115 *ptr2=(*ptr2&0xFFFFF000)|(target-(u_int)ptr2-8);
118 assert((ptr[3]&0x0e)==0xa);
119 u_int target_insn=*(u_int *)target;
120 if((target_insn&0x0e100000)==0) { // ALU, no immediate, no flags
123 if((target_insn&0x0c100000)==0x04100000) { // Load
126 if(target_insn&0x08000000) {
130 ptr2[-1]=target_insn;
133 *ptr2=(*ptr2&0xFF000000)|(((target-(u_int)ptr2-8)<<6)>>8);
138 add_literal(int addr,int val)
140 literals[literalcount][0]=addr;
141 literals[literalcount][1]=val;
145 void *kill_pointer(void *stub)
147 int *ptr=(int *)(stub+4);
148 assert((*ptr&0x0ff00000)==0x05900000);
149 u_int offset=*ptr&0xfff;
150 int **l_ptr=(void *)ptr+offset+8;
152 set_jump_target((int)i_ptr,(int)stub);
156 int get_pointer(void *stub)
158 //printf("get_pointer(%x)\n",(int)stub);
159 int *ptr=(int *)(stub+4);
160 assert((*ptr&0x0ff00000)==0x05900000);
161 u_int offset=*ptr&0xfff;
162 int **l_ptr=(void *)ptr+offset+8;
164 assert((*i_ptr&0x0f000000)==0x0a000000);
165 return (int)i_ptr+((*i_ptr<<8)>>6)+8;
168 // Find the "clean" entry point from a "dirty" entry point
169 // by skipping past the call to verify_code
170 u_int get_clean_addr(int addr)
172 int *ptr=(int *)addr;
178 if((*ptr&0xFF000000)!=0xeb000000) ptr++;
179 assert((*ptr&0xFF000000)==0xeb000000); // bl instruction
181 if((*ptr&0xFF000000)==0xea000000) {
182 return (int)ptr+((*ptr<<8)>>6)+8; // follow jump
187 int verify_dirty(int addr)
189 u_int *ptr=(u_int *)addr;
191 // get from literal pool
192 assert((*ptr&0xFFF00000)==0xe5900000);
193 u_int offset=*ptr&0xfff;
194 u_int *l_ptr=(void *)ptr+offset+8;
195 u_int source=l_ptr[0];
201 assert((*ptr&0xFFF00000)==0xe3000000);
202 u_int source=(ptr[0]&0xFFF)+((ptr[0]>>4)&0xF000)+((ptr[2]<<16)&0xFFF0000)+((ptr[2]<<12)&0xF0000000);
203 u_int copy=(ptr[1]&0xFFF)+((ptr[1]>>4)&0xF000)+((ptr[3]<<16)&0xFFF0000)+((ptr[3]<<12)&0xF0000000);
204 u_int len=(ptr[4]&0xFFF)+((ptr[4]>>4)&0xF000);
207 if((*ptr&0xFF000000)!=0xeb000000) ptr++;
208 assert((*ptr&0xFF000000)==0xeb000000); // bl instruction
209 u_int verifier=(int)ptr+((signed int)(*ptr<<8)>>6)+8; // get target of bl
210 if(verifier==(u_int)verify_code_vm||verifier==(u_int)verify_code_ds) {
211 unsigned int page=source>>12;
212 unsigned int map_value=memory_map[page];
213 if(map_value>=0x80000000) return 0;
214 while(page<((source+len-1)>>12)) {
215 if((memory_map[++page]<<2)!=(map_value<<2)) return 0;
217 source = source+(map_value<<2);
219 //printf("verify_dirty: %x %x %x\n",source,copy,len);
220 return !memcmp((void *)source,(void *)copy,len);
223 // This doesn't necessarily find all clean entry points, just
224 // guarantees that it's not dirty
225 int isclean(int addr)
228 int *ptr=((u_int *)addr)+4;
230 int *ptr=((u_int *)addr)+6;
232 if((*ptr&0xFF000000)!=0xeb000000) ptr++;
233 if((*ptr&0xFF000000)!=0xeb000000) return 1; // bl instruction
234 if((int)ptr+((*ptr<<8)>>6)+8==(int)verify_code) return 0;
235 if((int)ptr+((*ptr<<8)>>6)+8==(int)verify_code_vm) return 0;
236 if((int)ptr+((*ptr<<8)>>6)+8==(int)verify_code_ds) return 0;
240 void get_bounds(int addr,u_int *start,u_int *end)
242 u_int *ptr=(u_int *)addr;
244 // get from literal pool
245 assert((*ptr&0xFFF00000)==0xe5900000);
246 u_int offset=*ptr&0xfff;
247 u_int *l_ptr=(void *)ptr+offset+8;
248 u_int source=l_ptr[0];
249 //u_int copy=l_ptr[1];
254 assert((*ptr&0xFFF00000)==0xe3000000);
255 u_int source=(ptr[0]&0xFFF)+((ptr[0]>>4)&0xF000)+((ptr[2]<<16)&0xFFF0000)+((ptr[2]<<12)&0xF0000000);
256 //u_int copy=(ptr[1]&0xFFF)+((ptr[1]>>4)&0xF000)+((ptr[3]<<16)&0xFFF0000)+((ptr[3]<<12)&0xF0000000);
257 u_int len=(ptr[4]&0xFFF)+((ptr[4]>>4)&0xF000);
260 if((*ptr&0xFF000000)!=0xeb000000) ptr++;
261 assert((*ptr&0xFF000000)==0xeb000000); // bl instruction
262 u_int verifier=(int)ptr+((signed int)(*ptr<<8)>>6)+8; // get target of bl
263 if(verifier==(u_int)verify_code_vm||verifier==(u_int)verify_code_ds) {
264 if(memory_map[source>>12]>=0x80000000) source = 0;
265 else source = source+(memory_map[source>>12]<<2);
271 /* Register allocation */
273 // Note: registers are allocated clean (unmodified state)
274 // if you intend to modify the register, you must call dirty_reg().
275 void alloc_reg(struct regstat *cur,int i,signed char reg)
278 int preferred_reg = (reg&7);
279 if(reg==CCREG) preferred_reg=HOST_CCREG;
280 if(reg==PTEMP||reg==FTEMP) preferred_reg=12;
282 // Don't allocate unused registers
283 if((cur->u>>reg)&1) return;
285 // see if it's already allocated
286 for(hr=0;hr<HOST_REGS;hr++)
288 if(cur->regmap[hr]==reg) return;
291 // Keep the same mapping if the register was already allocated in a loop
292 preferred_reg = loop_reg(i,reg,preferred_reg);
294 // Try to allocate the preferred register
295 if(cur->regmap[preferred_reg]==-1) {
296 cur->regmap[preferred_reg]=reg;
297 cur->dirty&=~(1<<preferred_reg);
298 cur->isconst&=~(1<<preferred_reg);
301 r=cur->regmap[preferred_reg];
302 if(r<64&&((cur->u>>r)&1)) {
303 cur->regmap[preferred_reg]=reg;
304 cur->dirty&=~(1<<preferred_reg);
305 cur->isconst&=~(1<<preferred_reg);
308 if(r>=64&&((cur->uu>>(r&63))&1)) {
309 cur->regmap[preferred_reg]=reg;
310 cur->dirty&=~(1<<preferred_reg);
311 cur->isconst&=~(1<<preferred_reg);
315 // Clear any unneeded registers
316 // We try to keep the mapping consistent, if possible, because it
317 // makes branches easier (especially loops). So we try to allocate
318 // first (see above) before removing old mappings. If this is not
319 // possible then go ahead and clear out the registers that are no
321 for(hr=0;hr<HOST_REGS;hr++)
326 if((cur->u>>r)&1) {cur->regmap[hr]=-1;break;}
330 if((cur->uu>>(r&63))&1) {cur->regmap[hr]=-1;break;}
334 // Try to allocate any available register, but prefer
335 // registers that have not been used recently.
337 for(hr=0;hr<HOST_REGS;hr++) {
338 if(hr!=EXCLUDE_REG&&cur->regmap[hr]==-1) {
339 if(regs[i-1].regmap[hr]!=rs1[i-1]&®s[i-1].regmap[hr]!=rs2[i-1]&®s[i-1].regmap[hr]!=rt1[i-1]&®s[i-1].regmap[hr]!=rt2[i-1]) {
341 cur->dirty&=~(1<<hr);
342 cur->isconst&=~(1<<hr);
348 // Try to allocate any available register
349 for(hr=0;hr<HOST_REGS;hr++) {
350 if(hr!=EXCLUDE_REG&&cur->regmap[hr]==-1) {
352 cur->dirty&=~(1<<hr);
353 cur->isconst&=~(1<<hr);
358 // Ok, now we have to evict someone
359 // Pick a register we hopefully won't need soon
360 u_char hsn[MAXREG+1];
361 memset(hsn,10,sizeof(hsn));
363 lsn(hsn,i,&preferred_reg);
364 //printf("eax=%d ecx=%d edx=%d ebx=%d ebp=%d esi=%d edi=%d\n",cur->regmap[0],cur->regmap[1],cur->regmap[2],cur->regmap[3],cur->regmap[5],cur->regmap[6],cur->regmap[7]);
365 //printf("hsn(%x): %d %d %d %d %d %d %d\n",start+i*4,hsn[cur->regmap[0]&63],hsn[cur->regmap[1]&63],hsn[cur->regmap[2]&63],hsn[cur->regmap[3]&63],hsn[cur->regmap[5]&63],hsn[cur->regmap[6]&63],hsn[cur->regmap[7]&63]);
367 // Don't evict the cycle count at entry points, otherwise the entry
368 // stub will have to write it.
369 if(bt[i]&&hsn[CCREG]>2) hsn[CCREG]=2;
370 if(i>1&&hsn[CCREG]>2&&(itype[i-2]==RJUMP||itype[i-2]==UJUMP||itype[i-2]==CJUMP||itype[i-2]==SJUMP||itype[i-2]==FJUMP)) hsn[CCREG]=2;
373 // Alloc preferred register if available
374 if(hsn[r=cur->regmap[preferred_reg]&63]==j) {
375 for(hr=0;hr<HOST_REGS;hr++) {
376 // Evict both parts of a 64-bit register
377 if((cur->regmap[hr]&63)==r) {
379 cur->dirty&=~(1<<hr);
380 cur->isconst&=~(1<<hr);
383 cur->regmap[preferred_reg]=reg;
386 for(r=1;r<=MAXREG;r++)
388 if(hsn[r]==j&&r!=rs1[i-1]&&r!=rs2[i-1]&&r!=rt1[i-1]&&r!=rt2[i-1]) {
389 for(hr=0;hr<HOST_REGS;hr++) {
390 if(hr!=HOST_CCREG||j<hsn[CCREG]) {
391 if(cur->regmap[hr]==r+64) {
393 cur->dirty&=~(1<<hr);
394 cur->isconst&=~(1<<hr);
399 for(hr=0;hr<HOST_REGS;hr++) {
400 if(hr!=HOST_CCREG||j<hsn[CCREG]) {
401 if(cur->regmap[hr]==r) {
403 cur->dirty&=~(1<<hr);
404 cur->isconst&=~(1<<hr);
415 for(r=1;r<=MAXREG;r++)
418 for(hr=0;hr<HOST_REGS;hr++) {
419 if(cur->regmap[hr]==r+64) {
421 cur->dirty&=~(1<<hr);
422 cur->isconst&=~(1<<hr);
426 for(hr=0;hr<HOST_REGS;hr++) {
427 if(cur->regmap[hr]==r) {
429 cur->dirty&=~(1<<hr);
430 cur->isconst&=~(1<<hr);
437 printf("This shouldn't happen (alloc_reg)");exit(1);
440 void alloc_reg64(struct regstat *cur,int i,signed char reg)
442 int preferred_reg = 8+(reg&1);
445 // allocate the lower 32 bits
446 alloc_reg(cur,i,reg);
448 // Don't allocate unused registers
449 if((cur->uu>>reg)&1) return;
451 // see if the upper half is already allocated
452 for(hr=0;hr<HOST_REGS;hr++)
454 if(cur->regmap[hr]==reg+64) return;
457 // Keep the same mapping if the register was already allocated in a loop
458 preferred_reg = loop_reg(i,reg,preferred_reg);
460 // Try to allocate the preferred register
461 if(cur->regmap[preferred_reg]==-1) {
462 cur->regmap[preferred_reg]=reg|64;
463 cur->dirty&=~(1<<preferred_reg);
464 cur->isconst&=~(1<<preferred_reg);
467 r=cur->regmap[preferred_reg];
468 if(r<64&&((cur->u>>r)&1)) {
469 cur->regmap[preferred_reg]=reg|64;
470 cur->dirty&=~(1<<preferred_reg);
471 cur->isconst&=~(1<<preferred_reg);
474 if(r>=64&&((cur->uu>>(r&63))&1)) {
475 cur->regmap[preferred_reg]=reg|64;
476 cur->dirty&=~(1<<preferred_reg);
477 cur->isconst&=~(1<<preferred_reg);
481 // Clear any unneeded registers
482 // We try to keep the mapping consistent, if possible, because it
483 // makes branches easier (especially loops). So we try to allocate
484 // first (see above) before removing old mappings. If this is not
485 // possible then go ahead and clear out the registers that are no
487 for(hr=HOST_REGS-1;hr>=0;hr--)
492 if((cur->u>>r)&1) {cur->regmap[hr]=-1;break;}
496 if((cur->uu>>(r&63))&1) {cur->regmap[hr]=-1;break;}
500 // Try to allocate any available register, but prefer
501 // registers that have not been used recently.
503 for(hr=0;hr<HOST_REGS;hr++) {
504 if(hr!=EXCLUDE_REG&&cur->regmap[hr]==-1) {
505 if(regs[i-1].regmap[hr]!=rs1[i-1]&®s[i-1].regmap[hr]!=rs2[i-1]&®s[i-1].regmap[hr]!=rt1[i-1]&®s[i-1].regmap[hr]!=rt2[i-1]) {
506 cur->regmap[hr]=reg|64;
507 cur->dirty&=~(1<<hr);
508 cur->isconst&=~(1<<hr);
514 // Try to allocate any available register
515 for(hr=0;hr<HOST_REGS;hr++) {
516 if(hr!=EXCLUDE_REG&&cur->regmap[hr]==-1) {
517 cur->regmap[hr]=reg|64;
518 cur->dirty&=~(1<<hr);
519 cur->isconst&=~(1<<hr);
524 // Ok, now we have to evict someone
525 // Pick a register we hopefully won't need soon
526 u_char hsn[MAXREG+1];
527 memset(hsn,10,sizeof(hsn));
529 lsn(hsn,i,&preferred_reg);
530 //printf("eax=%d ecx=%d edx=%d ebx=%d ebp=%d esi=%d edi=%d\n",cur->regmap[0],cur->regmap[1],cur->regmap[2],cur->regmap[3],cur->regmap[5],cur->regmap[6],cur->regmap[7]);
531 //printf("hsn(%x): %d %d %d %d %d %d %d\n",start+i*4,hsn[cur->regmap[0]&63],hsn[cur->regmap[1]&63],hsn[cur->regmap[2]&63],hsn[cur->regmap[3]&63],hsn[cur->regmap[5]&63],hsn[cur->regmap[6]&63],hsn[cur->regmap[7]&63]);
533 // Don't evict the cycle count at entry points, otherwise the entry
534 // stub will have to write it.
535 if(bt[i]&&hsn[CCREG]>2) hsn[CCREG]=2;
536 if(i>1&&hsn[CCREG]>2&&(itype[i-2]==RJUMP||itype[i-2]==UJUMP||itype[i-2]==CJUMP||itype[i-2]==SJUMP||itype[i-2]==FJUMP)) hsn[CCREG]=2;
539 // Alloc preferred register if available
540 if(hsn[r=cur->regmap[preferred_reg]&63]==j) {
541 for(hr=0;hr<HOST_REGS;hr++) {
542 // Evict both parts of a 64-bit register
543 if((cur->regmap[hr]&63)==r) {
545 cur->dirty&=~(1<<hr);
546 cur->isconst&=~(1<<hr);
549 cur->regmap[preferred_reg]=reg|64;
552 for(r=1;r<=MAXREG;r++)
554 if(hsn[r]==j&&r!=rs1[i-1]&&r!=rs2[i-1]&&r!=rt1[i-1]&&r!=rt2[i-1]) {
555 for(hr=0;hr<HOST_REGS;hr++) {
556 if(hr!=HOST_CCREG||j<hsn[CCREG]) {
557 if(cur->regmap[hr]==r+64) {
558 cur->regmap[hr]=reg|64;
559 cur->dirty&=~(1<<hr);
560 cur->isconst&=~(1<<hr);
565 for(hr=0;hr<HOST_REGS;hr++) {
566 if(hr!=HOST_CCREG||j<hsn[CCREG]) {
567 if(cur->regmap[hr]==r) {
568 cur->regmap[hr]=reg|64;
569 cur->dirty&=~(1<<hr);
570 cur->isconst&=~(1<<hr);
581 for(r=1;r<=MAXREG;r++)
584 for(hr=0;hr<HOST_REGS;hr++) {
585 if(cur->regmap[hr]==r+64) {
586 cur->regmap[hr]=reg|64;
587 cur->dirty&=~(1<<hr);
588 cur->isconst&=~(1<<hr);
592 for(hr=0;hr<HOST_REGS;hr++) {
593 if(cur->regmap[hr]==r) {
594 cur->regmap[hr]=reg|64;
595 cur->dirty&=~(1<<hr);
596 cur->isconst&=~(1<<hr);
603 printf("This shouldn't happen");exit(1);
606 // Allocate a temporary register. This is done without regard to
607 // dirty status or whether the register we request is on the unneeded list
608 // Note: This will only allocate one register, even if called multiple times
609 void alloc_reg_temp(struct regstat *cur,int i,signed char reg)
612 int preferred_reg = -1;
614 // see if it's already allocated
615 for(hr=0;hr<HOST_REGS;hr++)
617 if(hr!=EXCLUDE_REG&&cur->regmap[hr]==reg) return;
620 // Try to allocate any available register
621 for(hr=HOST_REGS-1;hr>=0;hr--) {
622 if(hr!=EXCLUDE_REG&&cur->regmap[hr]==-1) {
624 cur->dirty&=~(1<<hr);
625 cur->isconst&=~(1<<hr);
630 // Find an unneeded register
631 for(hr=HOST_REGS-1;hr>=0;hr--)
637 if(i==0||((unneeded_reg[i-1]>>r)&1)) {
639 cur->dirty&=~(1<<hr);
640 cur->isconst&=~(1<<hr);
647 if((cur->uu>>(r&63))&1) {
648 if(i==0||((unneeded_reg_upper[i-1]>>(r&63))&1)) {
650 cur->dirty&=~(1<<hr);
651 cur->isconst&=~(1<<hr);
659 // Ok, now we have to evict someone
660 // Pick a register we hopefully won't need soon
661 // TODO: we might want to follow unconditional jumps here
662 // TODO: get rid of dupe code and make this into a function
663 u_char hsn[MAXREG+1];
664 memset(hsn,10,sizeof(hsn));
666 lsn(hsn,i,&preferred_reg);
667 //printf("hsn: %d %d %d %d %d %d %d\n",hsn[cur->regmap[0]&63],hsn[cur->regmap[1]&63],hsn[cur->regmap[2]&63],hsn[cur->regmap[3]&63],hsn[cur->regmap[5]&63],hsn[cur->regmap[6]&63],hsn[cur->regmap[7]&63]);
669 // Don't evict the cycle count at entry points, otherwise the entry
670 // stub will have to write it.
671 if(bt[i]&&hsn[CCREG]>2) hsn[CCREG]=2;
672 if(i>1&&hsn[CCREG]>2&&(itype[i-2]==RJUMP||itype[i-2]==UJUMP||itype[i-2]==CJUMP||itype[i-2]==SJUMP||itype[i-2]==FJUMP)) hsn[CCREG]=2;
675 for(r=1;r<=MAXREG;r++)
677 if(hsn[r]==j&&r!=rs1[i-1]&&r!=rs2[i-1]&&r!=rt1[i-1]&&r!=rt2[i-1]) {
678 for(hr=0;hr<HOST_REGS;hr++) {
679 if(hr!=HOST_CCREG||hsn[CCREG]>2) {
680 if(cur->regmap[hr]==r+64) {
682 cur->dirty&=~(1<<hr);
683 cur->isconst&=~(1<<hr);
688 for(hr=0;hr<HOST_REGS;hr++) {
689 if(hr!=HOST_CCREG||hsn[CCREG]>2) {
690 if(cur->regmap[hr]==r) {
692 cur->dirty&=~(1<<hr);
693 cur->isconst&=~(1<<hr);
704 for(r=1;r<=MAXREG;r++)
707 for(hr=0;hr<HOST_REGS;hr++) {
708 if(cur->regmap[hr]==r+64) {
710 cur->dirty&=~(1<<hr);
711 cur->isconst&=~(1<<hr);
715 for(hr=0;hr<HOST_REGS;hr++) {
716 if(cur->regmap[hr]==r) {
718 cur->dirty&=~(1<<hr);
719 cur->isconst&=~(1<<hr);
726 printf("This shouldn't happen");exit(1);
728 // Allocate a specific ARM register.
729 void alloc_arm_reg(struct regstat *cur,int i,signed char reg,char hr)
733 // see if it's already allocated (and dealloc it)
734 for(n=0;n<HOST_REGS;n++)
736 if(n!=EXCLUDE_REG&&cur->regmap[n]==reg) {cur->regmap[n]=-1;}
740 cur->dirty&=~(1<<hr);
741 cur->isconst&=~(1<<hr);
744 // Alloc cycle count into dedicated register
745 alloc_cc(struct regstat *cur,int i)
747 alloc_arm_reg(cur,i,CCREG,HOST_CCREG);
755 char regname[16][4] = {
773 void output_byte(u_char byte)
777 void output_modrm(u_char mod,u_char rm,u_char ext)
782 u_char byte=(mod<<6)|(ext<<3)|rm;
785 void output_sib(u_char scale,u_char index,u_char base)
790 u_char byte=(scale<<6)|(index<<3)|base;
793 void output_w32(u_int word)
795 *((u_int *)out)=word;
798 u_int rd_rn_rm(u_int rd, u_int rn, u_int rm)
803 return((rn<<16)|(rd<<12)|rm);
805 u_int rd_rn_imm_shift(u_int rd, u_int rn, u_int imm, u_int shift)
810 assert((shift&1)==0);
811 return((rn<<16)|(rd<<12)|(((32-shift)&30)<<7)|imm);
813 u_int genimm(u_int imm,u_int *encoded)
815 if(imm==0) {*encoded=0;return 1;}
820 *encoded=((i&30)<<7)|imm;
823 imm=(imm>>2)|(imm<<30);i-=2;
827 void genimm_checked(u_int imm,u_int *encoded)
829 u_int ret=genimm(imm,encoded);
832 u_int genjmp(u_int addr)
834 int offset=addr-(int)out-8;
835 if(offset<-33554432||offset>=33554432) {
837 printf("genjmp: out of range: %08x\n", offset);
842 return ((u_int)offset>>2)&0xffffff;
845 void emit_mov(int rs,int rt)
847 assem_debug("mov %s,%s\n",regname[rt],regname[rs]);
848 output_w32(0xe1a00000|rd_rn_rm(rt,0,rs));
851 void emit_movs(int rs,int rt)
853 assem_debug("movs %s,%s\n",regname[rt],regname[rs]);
854 output_w32(0xe1b00000|rd_rn_rm(rt,0,rs));
857 void emit_add(int rs1,int rs2,int rt)
859 assem_debug("add %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
860 output_w32(0xe0800000|rd_rn_rm(rt,rs1,rs2));
863 void emit_adds(int rs1,int rs2,int rt)
865 assem_debug("adds %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
866 output_w32(0xe0900000|rd_rn_rm(rt,rs1,rs2));
869 void emit_adcs(int rs1,int rs2,int rt)
871 assem_debug("adcs %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
872 output_w32(0xe0b00000|rd_rn_rm(rt,rs1,rs2));
875 void emit_sbc(int rs1,int rs2,int rt)
877 assem_debug("sbc %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
878 output_w32(0xe0c00000|rd_rn_rm(rt,rs1,rs2));
881 void emit_sbcs(int rs1,int rs2,int rt)
883 assem_debug("sbcs %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
884 output_w32(0xe0d00000|rd_rn_rm(rt,rs1,rs2));
887 void emit_neg(int rs, int rt)
889 assem_debug("rsb %s,%s,#0\n",regname[rt],regname[rs]);
890 output_w32(0xe2600000|rd_rn_rm(rt,rs,0));
893 void emit_negs(int rs, int rt)
895 assem_debug("rsbs %s,%s,#0\n",regname[rt],regname[rs]);
896 output_w32(0xe2700000|rd_rn_rm(rt,rs,0));
899 void emit_sub(int rs1,int rs2,int rt)
901 assem_debug("sub %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
902 output_w32(0xe0400000|rd_rn_rm(rt,rs1,rs2));
905 void emit_subs(int rs1,int rs2,int rt)
907 assem_debug("subs %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
908 output_w32(0xe0500000|rd_rn_rm(rt,rs1,rs2));
911 void emit_zeroreg(int rt)
913 assem_debug("mov %s,#0\n",regname[rt]);
914 output_w32(0xe3a00000|rd_rn_rm(rt,0,0));
917 void emit_loadreg(int r, int hr)
921 printf("64bit load in 32bit mode!\n");
928 int addr=((int)reg)+((r&63)<<REG_SHIFT)+((r&64)>>4);
929 if((r&63)==HIREG) addr=(int)&hi+((r&64)>>4);
930 if((r&63)==LOREG) addr=(int)&lo+((r&64)>>4);
931 if(r==CCREG) addr=(int)&cycle_count;
932 if(r==CSREG) addr=(int)&Status;
933 if(r==FSREG) addr=(int)&FCR31;
934 if(r==INVCP) addr=(int)&invc_ptr;
935 u_int offset = addr-(u_int)&dynarec_local;
937 assem_debug("ldr %s,fp+%d\n",regname[hr],offset);
938 output_w32(0xe5900000|rd_rn_rm(hr,FP,0)|offset);
941 void emit_storereg(int r, int hr)
945 printf("64bit store in 32bit mode!\n");
949 int addr=((int)reg)+((r&63)<<REG_SHIFT)+((r&64)>>4);
950 if((r&63)==HIREG) addr=(int)&hi+((r&64)>>4);
951 if((r&63)==LOREG) addr=(int)&lo+((r&64)>>4);
952 if(r==CCREG) addr=(int)&cycle_count;
953 if(r==FSREG) addr=(int)&FCR31;
954 u_int offset = addr-(u_int)&dynarec_local;
956 assem_debug("str %s,fp+%d\n",regname[hr],offset);
957 output_w32(0xe5800000|rd_rn_rm(hr,FP,0)|offset);
960 void emit_test(int rs, int rt)
962 assem_debug("tst %s,%s\n",regname[rs],regname[rt]);
963 output_w32(0xe1100000|rd_rn_rm(0,rs,rt));
966 void emit_testimm(int rs,int imm)
969 assem_debug("tst %s,$%d\n",regname[rs],imm);
970 genimm_checked(imm,&armval);
971 output_w32(0xe3100000|rd_rn_rm(0,rs,0)|armval);
974 void emit_testeqimm(int rs,int imm)
977 assem_debug("tsteq %s,$%d\n",regname[rs],imm);
978 genimm_checked(imm,&armval);
979 output_w32(0x03100000|rd_rn_rm(0,rs,0)|armval);
982 void emit_not(int rs,int rt)
984 assem_debug("mvn %s,%s\n",regname[rt],regname[rs]);
985 output_w32(0xe1e00000|rd_rn_rm(rt,0,rs));
988 void emit_mvnmi(int rs,int rt)
990 assem_debug("mvnmi %s,%s\n",regname[rt],regname[rs]);
991 output_w32(0x41e00000|rd_rn_rm(rt,0,rs));
994 void emit_and(u_int rs1,u_int rs2,u_int rt)
996 assem_debug("and %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
997 output_w32(0xe0000000|rd_rn_rm(rt,rs1,rs2));
1000 void emit_or(u_int rs1,u_int rs2,u_int rt)
1002 assem_debug("orr %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
1003 output_w32(0xe1800000|rd_rn_rm(rt,rs1,rs2));
1005 void emit_or_and_set_flags(int rs1,int rs2,int rt)
1007 assem_debug("orrs %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
1008 output_w32(0xe1900000|rd_rn_rm(rt,rs1,rs2));
1011 void emit_orrshl_imm(u_int rs,u_int imm,u_int rt)
1016 assem_debug("orr %s,%s,%s,lsl #%d\n",regname[rt],regname[rt],regname[rs],imm);
1017 output_w32(0xe1800000|rd_rn_rm(rt,rt,rs)|(imm<<7));
1020 void emit_orrshr_imm(u_int rs,u_int imm,u_int rt)
1025 assem_debug("orr %s,%s,%s,lsr #%d\n",regname[rt],regname[rt],regname[rs],imm);
1026 output_w32(0xe1800020|rd_rn_rm(rt,rt,rs)|(imm<<7));
1029 void emit_xor(u_int rs1,u_int rs2,u_int rt)
1031 assem_debug("eor %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
1032 output_w32(0xe0200000|rd_rn_rm(rt,rs1,rs2));
1035 void emit_loadlp(u_int imm,u_int rt)
1037 add_literal((int)out,imm);
1038 assem_debug("ldr %s,pc+? [=%x]\n",regname[rt],imm);
1039 output_w32(0xe5900000|rd_rn_rm(rt,15,0));
1041 void emit_movw(u_int imm,u_int rt)
1044 assem_debug("movw %s,#%d (0x%x)\n",regname[rt],imm,imm);
1045 output_w32(0xe3000000|rd_rn_rm(rt,0,0)|(imm&0xfff)|((imm<<4)&0xf0000));
1047 void emit_movt(u_int imm,u_int rt)
1049 assem_debug("movt %s,#%d (0x%x)\n",regname[rt],imm&0xffff0000,imm&0xffff0000);
1050 output_w32(0xe3400000|rd_rn_rm(rt,0,0)|((imm>>16)&0xfff)|((imm>>12)&0xf0000));
1052 void emit_movimm(u_int imm,u_int rt)
1055 if(genimm(imm,&armval)) {
1056 assem_debug("mov %s,#%d\n",regname[rt],imm);
1057 output_w32(0xe3a00000|rd_rn_rm(rt,0,0)|armval);
1058 }else if(genimm(~imm,&armval)) {
1059 assem_debug("mvn %s,#%d\n",regname[rt],imm);
1060 output_w32(0xe3e00000|rd_rn_rm(rt,0,0)|armval);
1061 }else if(imm<65536) {
1063 assem_debug("mov %s,#%d\n",regname[rt],imm&0xFF00);
1064 output_w32(0xe3a00000|rd_rn_imm_shift(rt,0,imm>>8,8));
1065 assem_debug("add %s,%s,#%d\n",regname[rt],regname[rt],imm&0xFF);
1066 output_w32(0xe2800000|rd_rn_imm_shift(rt,rt,imm&0xff,0));
1072 emit_loadlp(imm,rt);
1074 emit_movw(imm&0x0000FFFF,rt);
1075 emit_movt(imm&0xFFFF0000,rt);
1079 void emit_pcreladdr(u_int rt)
1081 assem_debug("add %s,pc,#?\n",regname[rt]);
1082 output_w32(0xe2800000|rd_rn_rm(rt,15,0));
1085 void emit_addimm(u_int rs,int imm,u_int rt)
1090 assert(imm>-65536&&imm<65536);
1092 if(genimm(imm,&armval)) {
1093 assem_debug("add %s,%s,#%d\n",regname[rt],regname[rs],imm);
1094 output_w32(0xe2800000|rd_rn_rm(rt,rs,0)|armval);
1095 }else if(genimm(-imm,&armval)) {
1096 assem_debug("sub %s,%s,#%d\n",regname[rt],regname[rs],imm);
1097 output_w32(0xe2400000|rd_rn_rm(rt,rs,0)|armval);
1099 assem_debug("sub %s,%s,#%d\n",regname[rt],regname[rs],(-imm)&0xFF00);
1100 assem_debug("sub %s,%s,#%d\n",regname[rt],regname[rt],(-imm)&0xFF);
1101 output_w32(0xe2400000|rd_rn_imm_shift(rt,rs,(-imm)>>8,8));
1102 output_w32(0xe2400000|rd_rn_imm_shift(rt,rt,(-imm)&0xff,0));
1104 assem_debug("add %s,%s,#%d\n",regname[rt],regname[rs],imm&0xFF00);
1105 assem_debug("add %s,%s,#%d\n",regname[rt],regname[rt],imm&0xFF);
1106 output_w32(0xe2800000|rd_rn_imm_shift(rt,rs,imm>>8,8));
1107 output_w32(0xe2800000|rd_rn_imm_shift(rt,rt,imm&0xff,0));
1110 else if(rs!=rt) emit_mov(rs,rt);
1113 void emit_addimm_and_set_flags(int imm,int rt)
1115 assert(imm>-65536&&imm<65536);
1117 if(genimm(imm,&armval)) {
1118 assem_debug("adds %s,%s,#%d\n",regname[rt],regname[rt],imm);
1119 output_w32(0xe2900000|rd_rn_rm(rt,rt,0)|armval);
1120 }else if(genimm(-imm,&armval)) {
1121 assem_debug("subs %s,%s,#%d\n",regname[rt],regname[rt],imm);
1122 output_w32(0xe2500000|rd_rn_rm(rt,rt,0)|armval);
1124 assem_debug("sub %s,%s,#%d\n",regname[rt],regname[rt],(-imm)&0xFF00);
1125 assem_debug("subs %s,%s,#%d\n",regname[rt],regname[rt],(-imm)&0xFF);
1126 output_w32(0xe2400000|rd_rn_imm_shift(rt,rt,(-imm)>>8,8));
1127 output_w32(0xe2500000|rd_rn_imm_shift(rt,rt,(-imm)&0xff,0));
1129 assem_debug("add %s,%s,#%d\n",regname[rt],regname[rt],imm&0xFF00);
1130 assem_debug("adds %s,%s,#%d\n",regname[rt],regname[rt],imm&0xFF);
1131 output_w32(0xe2800000|rd_rn_imm_shift(rt,rt,imm>>8,8));
1132 output_w32(0xe2900000|rd_rn_imm_shift(rt,rt,imm&0xff,0));
1135 void emit_addimm_no_flags(u_int imm,u_int rt)
1137 emit_addimm(rt,imm,rt);
1140 void emit_addnop(u_int r)
1143 assem_debug("add %s,%s,#0 (nop)\n",regname[r],regname[r]);
1144 output_w32(0xe2800000|rd_rn_rm(r,r,0));
1147 void emit_adcimm(u_int rs,int imm,u_int rt)
1150 genimm_checked(imm,&armval);
1151 assem_debug("adc %s,%s,#%d\n",regname[rt],regname[rs],imm);
1152 output_w32(0xe2a00000|rd_rn_rm(rt,rs,0)|armval);
1154 /*void emit_sbcimm(int imm,u_int rt)
1157 genimm_checked(imm,&armval);
1158 assem_debug("sbc %s,%s,#%d\n",regname[rt],regname[rt],imm);
1159 output_w32(0xe2c00000|rd_rn_rm(rt,rt,0)|armval);
1161 void emit_sbbimm(int imm,u_int rt)
1163 assem_debug("sbb $%d,%%%s\n",imm,regname[rt]);
1165 if(imm<128&&imm>=-128) {
1167 output_modrm(3,rt,3);
1173 output_modrm(3,rt,3);
1177 void emit_rscimm(int rs,int imm,u_int rt)
1181 genimm_checked(imm,&armval);
1182 assem_debug("rsc %s,%s,#%d\n",regname[rt],regname[rs],imm);
1183 output_w32(0xe2e00000|rd_rn_rm(rt,rs,0)|armval);
1186 void emit_addimm64_32(int rsh,int rsl,int imm,int rth,int rtl)
1188 // TODO: if(genimm(imm,&armval)) ...
1190 emit_movimm(imm,HOST_TEMPREG);
1191 emit_adds(HOST_TEMPREG,rsl,rtl);
1192 emit_adcimm(rsh,0,rth);
1195 void emit_sbb(int rs1,int rs2)
1197 assem_debug("sbb %%%s,%%%s\n",regname[rs2],regname[rs1]);
1199 output_modrm(3,rs1,rs2);
1202 void emit_andimm(int rs,int imm,int rt)
1205 if(genimm(imm,&armval)) {
1206 assem_debug("and %s,%s,#%d\n",regname[rt],regname[rs],imm);
1207 output_w32(0xe2000000|rd_rn_rm(rt,rs,0)|armval);
1208 }else if(genimm(~imm,&armval)) {
1209 assem_debug("bic %s,%s,#%d\n",regname[rt],regname[rs],imm);
1210 output_w32(0xe3c00000|rd_rn_rm(rt,rs,0)|armval);
1211 }else if(imm==65535) {
1213 assem_debug("bic %s,%s,#FF000000\n",regname[rt],regname[rs]);
1214 output_w32(0xe3c00000|rd_rn_rm(rt,rs,0)|0x4FF);
1215 assem_debug("bic %s,%s,#00FF0000\n",regname[rt],regname[rt]);
1216 output_w32(0xe3c00000|rd_rn_rm(rt,rt,0)|0x8FF);
1218 assem_debug("uxth %s,%s\n",regname[rt],regname[rs]);
1219 output_w32(0xe6ff0070|rd_rn_rm(rt,0,rs));
1222 assert(imm>0&&imm<65535);
1224 assem_debug("mov r14,#%d\n",imm&0xFF00);
1225 output_w32(0xe3a00000|rd_rn_imm_shift(HOST_TEMPREG,0,imm>>8,8));
1226 assem_debug("add r14,r14,#%d\n",imm&0xFF);
1227 output_w32(0xe2800000|rd_rn_imm_shift(HOST_TEMPREG,HOST_TEMPREG,imm&0xff,0));
1229 emit_movw(imm,HOST_TEMPREG);
1231 assem_debug("and %s,%s,r14\n",regname[rt],regname[rs]);
1232 output_w32(0xe0000000|rd_rn_rm(rt,rs,HOST_TEMPREG));
1236 void emit_orimm(int rs,int imm,int rt)
1239 if(genimm(imm,&armval)) {
1240 assem_debug("orr %s,%s,#%d\n",regname[rt],regname[rs],imm);
1241 output_w32(0xe3800000|rd_rn_rm(rt,rs,0)|armval);
1243 assert(imm>0&&imm<65536);
1244 assem_debug("orr %s,%s,#%d\n",regname[rt],regname[rs],imm&0xFF00);
1245 assem_debug("orr %s,%s,#%d\n",regname[rt],regname[rs],imm&0xFF);
1246 output_w32(0xe3800000|rd_rn_imm_shift(rt,rs,imm>>8,8));
1247 output_w32(0xe3800000|rd_rn_imm_shift(rt,rt,imm&0xff,0));
1251 void emit_xorimm(int rs,int imm,int rt)
1254 if(genimm(imm,&armval)) {
1255 assem_debug("eor %s,%s,#%d\n",regname[rt],regname[rs],imm);
1256 output_w32(0xe2200000|rd_rn_rm(rt,rs,0)|armval);
1258 assert(imm>0&&imm<65536);
1259 assem_debug("eor %s,%s,#%d\n",regname[rt],regname[rs],imm&0xFF00);
1260 assem_debug("eor %s,%s,#%d\n",regname[rt],regname[rs],imm&0xFF);
1261 output_w32(0xe2200000|rd_rn_imm_shift(rt,rs,imm>>8,8));
1262 output_w32(0xe2200000|rd_rn_imm_shift(rt,rt,imm&0xff,0));
1266 void emit_shlimm(int rs,u_int imm,int rt)
1271 assem_debug("lsl %s,%s,#%d\n",regname[rt],regname[rs],imm);
1272 output_w32(0xe1a00000|rd_rn_rm(rt,0,rs)|(imm<<7));
1275 void emit_shrimm(int rs,u_int imm,int rt)
1279 assem_debug("lsr %s,%s,#%d\n",regname[rt],regname[rs],imm);
1280 output_w32(0xe1a00000|rd_rn_rm(rt,0,rs)|0x20|(imm<<7));
1283 void emit_sarimm(int rs,u_int imm,int rt)
1287 assem_debug("asr %s,%s,#%d\n",regname[rt],regname[rs],imm);
1288 output_w32(0xe1a00000|rd_rn_rm(rt,0,rs)|0x40|(imm<<7));
1291 void emit_rorimm(int rs,u_int imm,int rt)
1295 assem_debug("ror %s,%s,#%d\n",regname[rt],regname[rs],imm);
1296 output_w32(0xe1a00000|rd_rn_rm(rt,0,rs)|0x60|(imm<<7));
1299 void emit_shldimm(int rs,int rs2,u_int imm,int rt)
1301 assem_debug("shld %%%s,%%%s,%d\n",regname[rt],regname[rs2],imm);
1305 assem_debug("lsl %s,%s,#%d\n",regname[rt],regname[rs],imm);
1306 output_w32(0xe1a00000|rd_rn_rm(rt,0,rs)|(imm<<7));
1307 assem_debug("orr %s,%s,%s,lsr #%d\n",regname[rt],regname[rt],regname[rs2],32-imm);
1308 output_w32(0xe1800020|rd_rn_rm(rt,rt,rs2)|((32-imm)<<7));
1311 void emit_shrdimm(int rs,int rs2,u_int imm,int rt)
1313 assem_debug("shrd %%%s,%%%s,%d\n",regname[rt],regname[rs2],imm);
1317 assem_debug("lsr %s,%s,#%d\n",regname[rt],regname[rs],imm);
1318 output_w32(0xe1a00020|rd_rn_rm(rt,0,rs)|(imm<<7));
1319 assem_debug("orr %s,%s,%s,lsl #%d\n",regname[rt],regname[rt],regname[rs2],32-imm);
1320 output_w32(0xe1800000|rd_rn_rm(rt,rt,rs2)|((32-imm)<<7));
1323 void emit_signextend16(int rs,int rt)
1326 emit_shlimm(rs,16,rt);
1327 emit_sarimm(rt,16,rt);
1329 assem_debug("sxth %s,%s\n",regname[rt],regname[rs]);
1330 output_w32(0xe6bf0070|rd_rn_rm(rt,0,rs));
1334 void emit_shl(u_int rs,u_int shift,u_int rt)
1340 assem_debug("lsl %s,%s,%s\n",regname[rt],regname[rs],regname[shift]);
1341 output_w32(0xe1a00000|rd_rn_rm(rt,0,rs)|0x10|(shift<<8));
1343 void emit_shr(u_int rs,u_int shift,u_int rt)
1348 assem_debug("lsr %s,%s,%s\n",regname[rt],regname[rs],regname[shift]);
1349 output_w32(0xe1a00000|rd_rn_rm(rt,0,rs)|0x30|(shift<<8));
1351 void emit_sar(u_int rs,u_int shift,u_int rt)
1356 assem_debug("asr %s,%s,%s\n",regname[rt],regname[rs],regname[shift]);
1357 output_w32(0xe1a00000|rd_rn_rm(rt,0,rs)|0x50|(shift<<8));
1359 void emit_shlcl(int r)
1361 assem_debug("shl %%%s,%%cl\n",regname[r]);
1364 void emit_shrcl(int r)
1366 assem_debug("shr %%%s,%%cl\n",regname[r]);
1369 void emit_sarcl(int r)
1371 assem_debug("sar %%%s,%%cl\n",regname[r]);
1375 void emit_shldcl(int r1,int r2)
1377 assem_debug("shld %%%s,%%%s,%%cl\n",regname[r1],regname[r2]);
1380 void emit_shrdcl(int r1,int r2)
1382 assem_debug("shrd %%%s,%%%s,%%cl\n",regname[r1],regname[r2]);
1385 void emit_orrshl(u_int rs,u_int shift,u_int rt)
1390 assem_debug("orr %s,%s,%s,lsl %s\n",regname[rt],regname[rt],regname[rs],regname[shift]);
1391 output_w32(0xe1800000|rd_rn_rm(rt,rt,rs)|0x10|(shift<<8));
1393 void emit_orrshr(u_int rs,u_int shift,u_int rt)
1398 assem_debug("orr %s,%s,%s,lsr %s\n",regname[rt],regname[rt],regname[rs],regname[shift]);
1399 output_w32(0xe1800000|rd_rn_rm(rt,rt,rs)|0x30|(shift<<8));
1402 void emit_cmpimm(int rs,int imm)
1405 if(genimm(imm,&armval)) {
1406 assem_debug("cmp %s,$%d\n",regname[rs],imm);
1407 output_w32(0xe3500000|rd_rn_rm(0,rs,0)|armval);
1408 }else if(genimm(-imm,&armval)) {
1409 assem_debug("cmn %s,$%d\n",regname[rs],imm);
1410 output_w32(0xe3700000|rd_rn_rm(0,rs,0)|armval);
1414 emit_movimm(imm,HOST_TEMPREG);
1416 emit_movw(imm,HOST_TEMPREG);
1418 assem_debug("cmp %s,r14\n",regname[rs]);
1419 output_w32(0xe1500000|rd_rn_rm(0,rs,HOST_TEMPREG));
1423 emit_movimm(-imm,HOST_TEMPREG);
1425 emit_movw(-imm,HOST_TEMPREG);
1427 assem_debug("cmn %s,r14\n",regname[rs]);
1428 output_w32(0xe1700000|rd_rn_rm(0,rs,HOST_TEMPREG));
1432 void emit_cmovne(u_int *addr,int rt)
1434 assem_debug("cmovne %x,%%%s",(int)addr,regname[rt]);
1437 void emit_cmovl(u_int *addr,int rt)
1439 assem_debug("cmovl %x,%%%s",(int)addr,regname[rt]);
1442 void emit_cmovs(u_int *addr,int rt)
1444 assem_debug("cmovs %x,%%%s",(int)addr,regname[rt]);
1447 void emit_cmovne_imm(int imm,int rt)
1449 assem_debug("movne %s,#%d\n",regname[rt],imm);
1451 genimm_checked(imm,&armval);
1452 output_w32(0x13a00000|rd_rn_rm(rt,0,0)|armval);
1454 void emit_cmovl_imm(int imm,int rt)
1456 assem_debug("movlt %s,#%d\n",regname[rt],imm);
1458 genimm_checked(imm,&armval);
1459 output_w32(0xb3a00000|rd_rn_rm(rt,0,0)|armval);
1461 void emit_cmovb_imm(int imm,int rt)
1463 assem_debug("movcc %s,#%d\n",regname[rt],imm);
1465 genimm_checked(imm,&armval);
1466 output_w32(0x33a00000|rd_rn_rm(rt,0,0)|armval);
1468 void emit_cmovs_imm(int imm,int rt)
1470 assem_debug("movmi %s,#%d\n",regname[rt],imm);
1472 genimm_checked(imm,&armval);
1473 output_w32(0x43a00000|rd_rn_rm(rt,0,0)|armval);
1475 void emit_cmove_reg(int rs,int rt)
1477 assem_debug("moveq %s,%s\n",regname[rt],regname[rs]);
1478 output_w32(0x01a00000|rd_rn_rm(rt,0,rs));
1480 void emit_cmovne_reg(int rs,int rt)
1482 assem_debug("movne %s,%s\n",regname[rt],regname[rs]);
1483 output_w32(0x11a00000|rd_rn_rm(rt,0,rs));
1485 void emit_cmovl_reg(int rs,int rt)
1487 assem_debug("movlt %s,%s\n",regname[rt],regname[rs]);
1488 output_w32(0xb1a00000|rd_rn_rm(rt,0,rs));
1490 void emit_cmovs_reg(int rs,int rt)
1492 assem_debug("movmi %s,%s\n",regname[rt],regname[rs]);
1493 output_w32(0x41a00000|rd_rn_rm(rt,0,rs));
1496 void emit_slti32(int rs,int imm,int rt)
1498 if(rs!=rt) emit_zeroreg(rt);
1499 emit_cmpimm(rs,imm);
1500 if(rs==rt) emit_movimm(0,rt);
1501 emit_cmovl_imm(1,rt);
1503 void emit_sltiu32(int rs,int imm,int rt)
1505 if(rs!=rt) emit_zeroreg(rt);
1506 emit_cmpimm(rs,imm);
1507 if(rs==rt) emit_movimm(0,rt);
1508 emit_cmovb_imm(1,rt);
1510 void emit_slti64_32(int rsh,int rsl,int imm,int rt)
1513 emit_slti32(rsl,imm,rt);
1517 emit_cmovne_imm(0,rt);
1518 emit_cmovs_imm(1,rt);
1522 emit_cmpimm(rsh,-1);
1523 emit_cmovne_imm(0,rt);
1524 emit_cmovl_imm(1,rt);
1527 void emit_sltiu64_32(int rsh,int rsl,int imm,int rt)
1530 emit_sltiu32(rsl,imm,rt);
1534 emit_cmovne_imm(0,rt);
1538 emit_cmpimm(rsh,-1);
1539 emit_cmovne_imm(1,rt);
1543 void emit_cmp(int rs,int rt)
1545 assem_debug("cmp %s,%s\n",regname[rs],regname[rt]);
1546 output_w32(0xe1500000|rd_rn_rm(0,rs,rt));
1548 void emit_set_gz32(int rs, int rt)
1550 //assem_debug("set_gz32\n");
1553 emit_cmovl_imm(0,rt);
1555 void emit_set_nz32(int rs, int rt)
1557 //assem_debug("set_nz32\n");
1558 if(rs!=rt) emit_movs(rs,rt);
1559 else emit_test(rs,rs);
1560 emit_cmovne_imm(1,rt);
1562 void emit_set_gz64_32(int rsh, int rsl, int rt)
1564 //assem_debug("set_gz64\n");
1565 emit_set_gz32(rsl,rt);
1567 emit_cmovne_imm(1,rt);
1568 emit_cmovs_imm(0,rt);
1570 void emit_set_nz64_32(int rsh, int rsl, int rt)
1572 //assem_debug("set_nz64\n");
1573 emit_or_and_set_flags(rsh,rsl,rt);
1574 emit_cmovne_imm(1,rt);
1576 void emit_set_if_less32(int rs1, int rs2, int rt)
1578 //assem_debug("set if less (%%%s,%%%s),%%%s\n",regname[rs1],regname[rs2],regname[rt]);
1579 if(rs1!=rt&&rs2!=rt) emit_zeroreg(rt);
1581 if(rs1==rt||rs2==rt) emit_movimm(0,rt);
1582 emit_cmovl_imm(1,rt);
1584 void emit_set_if_carry32(int rs1, int rs2, int rt)
1586 //assem_debug("set if carry (%%%s,%%%s),%%%s\n",regname[rs1],regname[rs2],regname[rt]);
1587 if(rs1!=rt&&rs2!=rt) emit_zeroreg(rt);
1589 if(rs1==rt||rs2==rt) emit_movimm(0,rt);
1590 emit_cmovb_imm(1,rt);
1592 void emit_set_if_less64_32(int u1, int l1, int u2, int l2, int rt)
1594 //assem_debug("set if less64 (%%%s,%%%s,%%%s,%%%s),%%%s\n",regname[u1],regname[l1],regname[u2],regname[l2],regname[rt]);
1599 emit_sbcs(u1,u2,HOST_TEMPREG);
1600 emit_cmovl_imm(1,rt);
1602 void emit_set_if_carry64_32(int u1, int l1, int u2, int l2, int rt)
1604 //assem_debug("set if carry64 (%%%s,%%%s,%%%s,%%%s),%%%s\n",regname[u1],regname[l1],regname[u2],regname[l2],regname[rt]);
1609 emit_sbcs(u1,u2,HOST_TEMPREG);
1610 emit_cmovb_imm(1,rt);
1613 void emit_call(int a)
1615 assem_debug("bl %x (%x+%x)\n",a,(int)out,a-(int)out-8);
1616 u_int offset=genjmp(a);
1617 output_w32(0xeb000000|offset);
1619 void emit_jmp(int a)
1621 assem_debug("b %x (%x+%x)\n",a,(int)out,a-(int)out-8);
1622 u_int offset=genjmp(a);
1623 output_w32(0xea000000|offset);
1625 void emit_jne(int a)
1627 assem_debug("bne %x\n",a);
1628 u_int offset=genjmp(a);
1629 output_w32(0x1a000000|offset);
1631 void emit_jeq(int a)
1633 assem_debug("beq %x\n",a);
1634 u_int offset=genjmp(a);
1635 output_w32(0x0a000000|offset);
1639 assem_debug("bmi %x\n",a);
1640 u_int offset=genjmp(a);
1641 output_w32(0x4a000000|offset);
1643 void emit_jns(int a)
1645 assem_debug("bpl %x\n",a);
1646 u_int offset=genjmp(a);
1647 output_w32(0x5a000000|offset);
1651 assem_debug("blt %x\n",a);
1652 u_int offset=genjmp(a);
1653 output_w32(0xba000000|offset);
1655 void emit_jge(int a)
1657 assem_debug("bge %x\n",a);
1658 u_int offset=genjmp(a);
1659 output_w32(0xaa000000|offset);
1661 void emit_jno(int a)
1663 assem_debug("bvc %x\n",a);
1664 u_int offset=genjmp(a);
1665 output_w32(0x7a000000|offset);
1669 assem_debug("bcs %x\n",a);
1670 u_int offset=genjmp(a);
1671 output_w32(0x2a000000|offset);
1673 void emit_jcc(int a)
1675 assem_debug("bcc %x\n",a);
1676 u_int offset=genjmp(a);
1677 output_w32(0x3a000000|offset);
1680 void emit_pushimm(int imm)
1682 assem_debug("push $%x\n",imm);
1687 assem_debug("pusha\n");
1692 assem_debug("popa\n");
1695 void emit_pushreg(u_int r)
1697 assem_debug("push %%%s\n",regname[r]);
1700 void emit_popreg(u_int r)
1702 assem_debug("pop %%%s\n",regname[r]);
1705 void emit_callreg(u_int r)
1707 assem_debug("call *%%%s\n",regname[r]);
1710 void emit_jmpreg(u_int r)
1712 assem_debug("mov pc,%s\n",regname[r]);
1713 output_w32(0xe1a00000|rd_rn_rm(15,0,r));
1716 void emit_readword_indexed(int offset, int rs, int rt)
1718 assert(offset>-4096&&offset<4096);
1719 assem_debug("ldr %s,%s+%d\n",regname[rt],regname[rs],offset);
1721 output_w32(0xe5900000|rd_rn_rm(rt,rs,0)|offset);
1723 output_w32(0xe5100000|rd_rn_rm(rt,rs,0)|(-offset));
1726 void emit_readword_dualindexedx4(int rs1, int rs2, int rt)
1728 assem_debug("ldr %s,%s,%s lsl #2\n",regname[rt],regname[rs1],regname[rs2]);
1729 output_w32(0xe7900000|rd_rn_rm(rt,rs1,rs2)|0x100);
1731 void emit_readword_indexed_tlb(int addr, int rs, int map, int rt)
1733 if(map<0) emit_readword_indexed(addr, rs, rt);
1736 emit_readword_dualindexedx4(rs, map, rt);
1739 void emit_readdword_indexed_tlb(int addr, int rs, int map, int rh, int rl)
1742 if(rh>=0) emit_readword_indexed(addr, rs, rh);
1743 emit_readword_indexed(addr+4, rs, rl);
1746 if(rh>=0) emit_readword_indexed_tlb(addr, rs, map, rh);
1747 emit_addimm(map,1,map);
1748 emit_readword_indexed_tlb(addr, rs, map, rl);
1751 void emit_movsbl_indexed(int offset, int rs, int rt)
1753 assert(offset>-256&&offset<256);
1754 assem_debug("ldrsb %s,%s+%d\n",regname[rt],regname[rs],offset);
1756 output_w32(0xe1d000d0|rd_rn_rm(rt,rs,0)|((offset<<4)&0xf00)|(offset&0xf));
1758 output_w32(0xe15000d0|rd_rn_rm(rt,rs,0)|(((-offset)<<4)&0xf00)|((-offset)&0xf));
1761 void emit_movsbl_indexed_tlb(int addr, int rs, int map, int rt)
1763 if(map<0) emit_movsbl_indexed(addr, rs, rt);
1766 emit_shlimm(map,2,map);
1767 assem_debug("ldrsb %s,%s+%s\n",regname[rt],regname[rs],regname[map]);
1768 output_w32(0xe19000d0|rd_rn_rm(rt,rs,map));
1770 assert(addr>-256&&addr<256);
1771 assem_debug("add %s,%s,%s,lsl #2\n",regname[rt],regname[rs],regname[map]);
1772 output_w32(0xe0800000|rd_rn_rm(rt,rs,map)|(2<<7));
1773 emit_movsbl_indexed(addr, rt, rt);
1777 void emit_movswl_indexed(int offset, int rs, int rt)
1779 assert(offset>-256&&offset<256);
1780 assem_debug("ldrsh %s,%s+%d\n",regname[rt],regname[rs],offset);
1782 output_w32(0xe1d000f0|rd_rn_rm(rt,rs,0)|((offset<<4)&0xf00)|(offset&0xf));
1784 output_w32(0xe15000f0|rd_rn_rm(rt,rs,0)|(((-offset)<<4)&0xf00)|((-offset)&0xf));
1787 void emit_movzbl_indexed(int offset, int rs, int rt)
1789 assert(offset>-4096&&offset<4096);
1790 assem_debug("ldrb %s,%s+%d\n",regname[rt],regname[rs],offset);
1792 output_w32(0xe5d00000|rd_rn_rm(rt,rs,0)|offset);
1794 output_w32(0xe5500000|rd_rn_rm(rt,rs,0)|(-offset));
1797 void emit_movzbl_dualindexedx4(int rs1, int rs2, int rt)
1799 assem_debug("ldrb %s,%s,%s lsl #2\n",regname[rt],regname[rs1],regname[rs2]);
1800 output_w32(0xe7d00000|rd_rn_rm(rt,rs1,rs2)|0x100);
1802 void emit_movzbl_indexed_tlb(int addr, int rs, int map, int rt)
1804 if(map<0) emit_movzbl_indexed(addr, rs, rt);
1807 emit_movzbl_dualindexedx4(rs, map, rt);
1809 emit_addimm(rs,addr,rt);
1810 emit_movzbl_dualindexedx4(rt, map, rt);
1814 void emit_movzwl_indexed(int offset, int rs, int rt)
1816 assert(offset>-256&&offset<256);
1817 assem_debug("ldrh %s,%s+%d\n",regname[rt],regname[rs],offset);
1819 output_w32(0xe1d000b0|rd_rn_rm(rt,rs,0)|((offset<<4)&0xf00)|(offset&0xf));
1821 output_w32(0xe15000b0|rd_rn_rm(rt,rs,0)|(((-offset)<<4)&0xf00)|((-offset)&0xf));
1824 void emit_readword(int addr, int rt)
1826 u_int offset = addr-(u_int)&dynarec_local;
1827 assert(offset<4096);
1828 assem_debug("ldr %s,fp+%d\n",regname[rt],offset);
1829 output_w32(0xe5900000|rd_rn_rm(rt,FP,0)|offset);
1831 void emit_movsbl(int addr, int rt)
1833 u_int offset = addr-(u_int)&dynarec_local;
1835 assem_debug("ldrsb %s,fp+%d\n",regname[rt],offset);
1836 output_w32(0xe1d000d0|rd_rn_rm(rt,FP,0)|((offset<<4)&0xf00)|(offset&0xf));
1838 void emit_movswl(int addr, int rt)
1840 u_int offset = addr-(u_int)&dynarec_local;
1842 assem_debug("ldrsh %s,fp+%d\n",regname[rt],offset);
1843 output_w32(0xe1d000f0|rd_rn_rm(rt,FP,0)|((offset<<4)&0xf00)|(offset&0xf));
1845 void emit_movzbl(int addr, int rt)
1847 u_int offset = addr-(u_int)&dynarec_local;
1848 assert(offset<4096);
1849 assem_debug("ldrb %s,fp+%d\n",regname[rt],offset);
1850 output_w32(0xe5d00000|rd_rn_rm(rt,FP,0)|offset);
1852 void emit_movzwl(int addr, int rt)
1854 u_int offset = addr-(u_int)&dynarec_local;
1856 assem_debug("ldrh %s,fp+%d\n",regname[rt],offset);
1857 output_w32(0xe1d000b0|rd_rn_rm(rt,FP,0)|((offset<<4)&0xf00)|(offset&0xf));
1859 void emit_movzwl_reg(int rs, int rt)
1861 assem_debug("movzwl %%%s,%%%s\n",regname[rs]+1,regname[rt]);
1865 void emit_xchg(int rs, int rt)
1867 assem_debug("xchg %%%s,%%%s\n",regname[rs],regname[rt]);
1870 void emit_writeword_indexed(int rt, int offset, int rs)
1872 assert(offset>-4096&&offset<4096);
1873 assem_debug("str %s,%s+%d\n",regname[rt],regname[rs],offset);
1875 output_w32(0xe5800000|rd_rn_rm(rt,rs,0)|offset);
1877 output_w32(0xe5000000|rd_rn_rm(rt,rs,0)|(-offset));
1880 void emit_writeword_dualindexedx4(int rt, int rs1, int rs2)
1882 assem_debug("str %s,%s,%s lsl #2\n",regname[rt],regname[rs1],regname[rs2]);
1883 output_w32(0xe7800000|rd_rn_rm(rt,rs1,rs2)|0x100);
1885 void emit_writeword_indexed_tlb(int rt, int addr, int rs, int map, int temp)
1887 if(map<0) emit_writeword_indexed(rt, addr, rs);
1890 emit_writeword_dualindexedx4(rt, rs, map);
1893 void emit_writedword_indexed_tlb(int rh, int rl, int addr, int rs, int map, int temp)
1896 if(rh>=0) emit_writeword_indexed(rh, addr, rs);
1897 emit_writeword_indexed(rl, addr+4, rs);
1900 if(temp!=rs) emit_addimm(map,1,temp);
1901 emit_writeword_indexed_tlb(rh, addr, rs, map, temp);
1902 if(temp!=rs) emit_writeword_indexed_tlb(rl, addr, rs, temp, temp);
1904 emit_addimm(rs,4,rs);
1905 emit_writeword_indexed_tlb(rl, addr, rs, map, temp);
1909 void emit_writehword_indexed(int rt, int offset, int rs)
1911 assert(offset>-256&&offset<256);
1912 assem_debug("strh %s,%s+%d\n",regname[rt],regname[rs],offset);
1914 output_w32(0xe1c000b0|rd_rn_rm(rt,rs,0)|((offset<<4)&0xf00)|(offset&0xf));
1916 output_w32(0xe14000b0|rd_rn_rm(rt,rs,0)|(((-offset)<<4)&0xf00)|((-offset)&0xf));
1919 void emit_writebyte_indexed(int rt, int offset, int rs)
1921 assert(offset>-4096&&offset<4096);
1922 assem_debug("strb %s,%s+%d\n",regname[rt],regname[rs],offset);
1924 output_w32(0xe5c00000|rd_rn_rm(rt,rs,0)|offset);
1926 output_w32(0xe5400000|rd_rn_rm(rt,rs,0)|(-offset));
1929 void emit_writebyte_dualindexedx4(int rt, int rs1, int rs2)
1931 assem_debug("strb %s,%s,%s lsl #2\n",regname[rt],regname[rs1],regname[rs2]);
1932 output_w32(0xe7c00000|rd_rn_rm(rt,rs1,rs2)|0x100);
1934 void emit_writebyte_indexed_tlb(int rt, int addr, int rs, int map, int temp)
1936 if(map<0) emit_writebyte_indexed(rt, addr, rs);
1939 emit_writebyte_dualindexedx4(rt, rs, map);
1941 emit_addimm(rs,addr,temp);
1942 emit_writebyte_dualindexedx4(rt, temp, map);
1946 void emit_writeword(int rt, int addr)
1948 u_int offset = addr-(u_int)&dynarec_local;
1949 assert(offset<4096);
1950 assem_debug("str %s,fp+%d\n",regname[rt],offset);
1951 output_w32(0xe5800000|rd_rn_rm(rt,FP,0)|offset);
1953 void emit_writehword(int rt, int addr)
1955 u_int offset = addr-(u_int)&dynarec_local;
1957 assem_debug("strh %s,fp+%d\n",regname[rt],offset);
1958 output_w32(0xe1c000b0|rd_rn_rm(rt,FP,0)|((offset<<4)&0xf00)|(offset&0xf));
1960 void emit_writebyte(int rt, int addr)
1962 u_int offset = addr-(u_int)&dynarec_local;
1963 assert(offset<4096);
1964 assem_debug("strb %s,fp+%d\n",regname[rt],offset);
1965 output_w32(0xe5c00000|rd_rn_rm(rt,FP,0)|offset);
1967 void emit_writeword_imm(int imm, int addr)
1969 assem_debug("movl $%x,%x\n",imm,addr);
1972 void emit_writebyte_imm(int imm, int addr)
1974 assem_debug("movb $%x,%x\n",imm,addr);
1978 void emit_mul(int rs)
1980 assem_debug("mul %%%s\n",regname[rs]);
1983 void emit_imul(int rs)
1985 assem_debug("imul %%%s\n",regname[rs]);
1988 void emit_umull(u_int rs1, u_int rs2, u_int hi, u_int lo)
1990 assem_debug("umull %s, %s, %s, %s\n",regname[lo],regname[hi],regname[rs1],regname[rs2]);
1995 output_w32(0xe0800090|(hi<<16)|(lo<<12)|(rs2<<8)|rs1);
1997 void emit_smull(u_int rs1, u_int rs2, u_int hi, u_int lo)
1999 assem_debug("smull %s, %s, %s, %s\n",regname[lo],regname[hi],regname[rs1],regname[rs2]);
2004 output_w32(0xe0c00090|(hi<<16)|(lo<<12)|(rs2<<8)|rs1);
2007 void emit_div(int rs)
2009 assem_debug("div %%%s\n",regname[rs]);
2012 void emit_idiv(int rs)
2014 assem_debug("idiv %%%s\n",regname[rs]);
2019 assem_debug("cdq\n");
2023 void emit_clz(int rs,int rt)
2025 assem_debug("clz %s,%s\n",regname[rt],regname[rs]);
2026 output_w32(0xe16f0f10|rd_rn_rm(rt,0,rs));
2029 void emit_subcs(int rs1,int rs2,int rt)
2031 assem_debug("subcs %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
2032 output_w32(0x20400000|rd_rn_rm(rt,rs1,rs2));
2035 void emit_shrcc_imm(int rs,u_int imm,int rt)
2039 assem_debug("lsrcc %s,%s,#%d\n",regname[rt],regname[rs],imm);
2040 output_w32(0x31a00000|rd_rn_rm(rt,0,rs)|0x20|(imm<<7));
2043 void emit_negmi(int rs, int rt)
2045 assem_debug("rsbmi %s,%s,#0\n",regname[rt],regname[rs]);
2046 output_w32(0x42600000|rd_rn_rm(rt,rs,0));
2049 void emit_negsmi(int rs, int rt)
2051 assem_debug("rsbsmi %s,%s,#0\n",regname[rt],regname[rs]);
2052 output_w32(0x42700000|rd_rn_rm(rt,rs,0));
2055 void emit_orreq(u_int rs1,u_int rs2,u_int rt)
2057 assem_debug("orreq %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
2058 output_w32(0x01800000|rd_rn_rm(rt,rs1,rs2));
2061 void emit_orrne(u_int rs1,u_int rs2,u_int rt)
2063 assem_debug("orrne %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
2064 output_w32(0x11800000|rd_rn_rm(rt,rs1,rs2));
2067 void emit_bic_lsl(u_int rs1,u_int rs2,u_int shift,u_int rt)
2069 assem_debug("bic %s,%s,%s lsl %s\n",regname[rt],regname[rs1],regname[rs2],regname[shift]);
2070 output_w32(0xe1C00000|rd_rn_rm(rt,rs1,rs2)|0x10|(shift<<8));
2073 void emit_biceq_lsl(u_int rs1,u_int rs2,u_int shift,u_int rt)
2075 assem_debug("biceq %s,%s,%s lsl %s\n",regname[rt],regname[rs1],regname[rs2],regname[shift]);
2076 output_w32(0x01C00000|rd_rn_rm(rt,rs1,rs2)|0x10|(shift<<8));
2079 void emit_bicne_lsl(u_int rs1,u_int rs2,u_int shift,u_int rt)
2081 assem_debug("bicne %s,%s,%s lsl %s\n",regname[rt],regname[rs1],regname[rs2],regname[shift]);
2082 output_w32(0x11C00000|rd_rn_rm(rt,rs1,rs2)|0x10|(shift<<8));
2085 void emit_bic_lsr(u_int rs1,u_int rs2,u_int shift,u_int rt)
2087 assem_debug("bic %s,%s,%s lsr %s\n",regname[rt],regname[rs1],regname[rs2],regname[shift]);
2088 output_w32(0xe1C00000|rd_rn_rm(rt,rs1,rs2)|0x30|(shift<<8));
2091 void emit_biceq_lsr(u_int rs1,u_int rs2,u_int shift,u_int rt)
2093 assem_debug("biceq %s,%s,%s lsr %s\n",regname[rt],regname[rs1],regname[rs2],regname[shift]);
2094 output_w32(0x01C00000|rd_rn_rm(rt,rs1,rs2)|0x30|(shift<<8));
2097 void emit_bicne_lsr(u_int rs1,u_int rs2,u_int shift,u_int rt)
2099 assem_debug("bicne %s,%s,%s lsr %s\n",regname[rt],regname[rs1],regname[rs2],regname[shift]);
2100 output_w32(0x11C00000|rd_rn_rm(rt,rs1,rs2)|0x30|(shift<<8));
2103 void emit_teq(int rs, int rt)
2105 assem_debug("teq %s,%s\n",regname[rs],regname[rt]);
2106 output_w32(0xe1300000|rd_rn_rm(0,rs,rt));
2109 void emit_rsbimm(int rs, int imm, int rt)
2112 genimm_checked(imm,&armval);
2113 assem_debug("rsb %s,%s,#%d\n",regname[rt],regname[rs],imm);
2114 output_w32(0xe2600000|rd_rn_rm(rt,rs,0)|armval);
2117 // Load 2 immediates optimizing for small code size
2118 void emit_mov2imm_compact(int imm1,u_int rt1,int imm2,u_int rt2)
2120 emit_movimm(imm1,rt1);
2122 if(genimm(imm2-imm1,&armval)) {
2123 assem_debug("add %s,%s,#%d\n",regname[rt2],regname[rt1],imm2-imm1);
2124 output_w32(0xe2800000|rd_rn_rm(rt2,rt1,0)|armval);
2125 }else if(genimm(imm1-imm2,&armval)) {
2126 assem_debug("sub %s,%s,#%d\n",regname[rt2],regname[rt1],imm1-imm2);
2127 output_w32(0xe2400000|rd_rn_rm(rt2,rt1,0)|armval);
2129 else emit_movimm(imm2,rt2);
2132 // Conditionally select one of two immediates, optimizing for small code size
2133 // This will only be called if HAVE_CMOV_IMM is defined
2134 void emit_cmov2imm_e_ne_compact(int imm1,int imm2,u_int rt)
2137 if(genimm(imm2-imm1,&armval)) {
2138 emit_movimm(imm1,rt);
2139 assem_debug("addne %s,%s,#%d\n",regname[rt],regname[rt],imm2-imm1);
2140 output_w32(0x12800000|rd_rn_rm(rt,rt,0)|armval);
2141 }else if(genimm(imm1-imm2,&armval)) {
2142 emit_movimm(imm1,rt);
2143 assem_debug("subne %s,%s,#%d\n",regname[rt],regname[rt],imm1-imm2);
2144 output_w32(0x12400000|rd_rn_rm(rt,rt,0)|armval);
2148 emit_movimm(imm1,rt);
2149 add_literal((int)out,imm2);
2150 assem_debug("ldrne %s,pc+? [=%x]\n",regname[rt],imm2);
2151 output_w32(0x15900000|rd_rn_rm(rt,15,0));
2153 emit_movw(imm1&0x0000FFFF,rt);
2154 if((imm1&0xFFFF)!=(imm2&0xFFFF)) {
2155 assem_debug("movwne %s,#%d (0x%x)\n",regname[rt],imm2&0xFFFF,imm2&0xFFFF);
2156 output_w32(0x13000000|rd_rn_rm(rt,0,0)|(imm2&0xfff)|((imm2<<4)&0xf0000));
2158 emit_movt(imm1&0xFFFF0000,rt);
2159 if((imm1&0xFFFF0000)!=(imm2&0xFFFF0000)) {
2160 assem_debug("movtne %s,#%d (0x%x)\n",regname[rt],imm2&0xffff0000,imm2&0xffff0000);
2161 output_w32(0x13400000|rd_rn_rm(rt,0,0)|((imm2>>16)&0xfff)|((imm2>>12)&0xf0000));
2167 // special case for checking invalid_code
2168 void emit_cmpmem_indexedsr12_imm(int addr,int r,int imm)
2173 // special case for checking invalid_code
2174 void emit_cmpmem_indexedsr12_reg(int base,int r,int imm)
2176 assert(imm<128&&imm>=0);
2178 assem_debug("ldrb lr,%s,%s lsr #12\n",regname[base],regname[r]);
2179 output_w32(0xe7d00000|rd_rn_rm(HOST_TEMPREG,base,r)|0x620);
2180 emit_cmpimm(HOST_TEMPREG,imm);
2183 // special case for tlb mapping
2184 void emit_addsr12(int rs1,int rs2,int rt)
2186 assem_debug("add %s,%s,%s lsr #12\n",regname[rt],regname[rs1],regname[rs2]);
2187 output_w32(0xe0800620|rd_rn_rm(rt,rs1,rs2));
2190 // Used to preload hash table entries
2191 void emit_prefetch(void *addr)
2193 assem_debug("prefetch %x\n",(int)addr);
2196 output_modrm(0,5,1);
2197 output_w32((int)addr);
2199 void emit_prefetchreg(int r)
2201 assem_debug("pld %s\n",regname[r]);
2202 output_w32(0xf5d0f000|rd_rn_rm(0,r,0));
2205 // Special case for mini_ht
2206 void emit_ldreq_indexed(int rs, u_int offset, int rt)
2208 assert(offset<4096);
2209 assem_debug("ldreq %s,[%s, #%d]\n",regname[rt],regname[rs],offset);
2210 output_w32(0x05900000|rd_rn_rm(rt,rs,0)|offset);
2213 void emit_flds(int r,int sr)
2215 assem_debug("flds s%d,[%s]\n",sr,regname[r]);
2216 output_w32(0xed900a00|((sr&14)<<11)|((sr&1)<<22)|(r<<16));
2219 void emit_vldr(int r,int vr)
2221 assem_debug("vldr d%d,[%s]\n",vr,regname[r]);
2222 output_w32(0xed900b00|(vr<<12)|(r<<16));
2225 void emit_fsts(int sr,int r)
2227 assem_debug("fsts s%d,[%s]\n",sr,regname[r]);
2228 output_w32(0xed800a00|((sr&14)<<11)|((sr&1)<<22)|(r<<16));
2231 void emit_vstr(int vr,int r)
2233 assem_debug("vstr d%d,[%s]\n",vr,regname[r]);
2234 output_w32(0xed800b00|(vr<<12)|(r<<16));
2237 void emit_ftosizs(int s,int d)
2239 assem_debug("ftosizs s%d,s%d\n",d,s);
2240 output_w32(0xeebd0ac0|((d&14)<<11)|((d&1)<<22)|((s&14)>>1)|((s&1)<<5));
2243 void emit_ftosizd(int s,int d)
2245 assem_debug("ftosizd s%d,d%d\n",d,s);
2246 output_w32(0xeebd0bc0|((d&14)<<11)|((d&1)<<22)|(s&7));
2249 void emit_fsitos(int s,int d)
2251 assem_debug("fsitos s%d,s%d\n",d,s);
2252 output_w32(0xeeb80ac0|((d&14)<<11)|((d&1)<<22)|((s&14)>>1)|((s&1)<<5));
2255 void emit_fsitod(int s,int d)
2257 assem_debug("fsitod d%d,s%d\n",d,s);
2258 output_w32(0xeeb80bc0|((d&7)<<12)|((s&14)>>1)|((s&1)<<5));
2261 void emit_fcvtds(int s,int d)
2263 assem_debug("fcvtds d%d,s%d\n",d,s);
2264 output_w32(0xeeb70ac0|((d&7)<<12)|((s&14)>>1)|((s&1)<<5));
2267 void emit_fcvtsd(int s,int d)
2269 assem_debug("fcvtsd s%d,d%d\n",d,s);
2270 output_w32(0xeeb70bc0|((d&14)<<11)|((d&1)<<22)|(s&7));
2273 void emit_fsqrts(int s,int d)
2275 assem_debug("fsqrts d%d,s%d\n",d,s);
2276 output_w32(0xeeb10ac0|((d&14)<<11)|((d&1)<<22)|((s&14)>>1)|((s&1)<<5));
2279 void emit_fsqrtd(int s,int d)
2281 assem_debug("fsqrtd s%d,d%d\n",d,s);
2282 output_w32(0xeeb10bc0|((d&7)<<12)|(s&7));
2285 void emit_fabss(int s,int d)
2287 assem_debug("fabss d%d,s%d\n",d,s);
2288 output_w32(0xeeb00ac0|((d&14)<<11)|((d&1)<<22)|((s&14)>>1)|((s&1)<<5));
2291 void emit_fabsd(int s,int d)
2293 assem_debug("fabsd s%d,d%d\n",d,s);
2294 output_w32(0xeeb00bc0|((d&7)<<12)|(s&7));
2297 void emit_fnegs(int s,int d)
2299 assem_debug("fnegs d%d,s%d\n",d,s);
2300 output_w32(0xeeb10a40|((d&14)<<11)|((d&1)<<22)|((s&14)>>1)|((s&1)<<5));
2303 void emit_fnegd(int s,int d)
2305 assem_debug("fnegd s%d,d%d\n",d,s);
2306 output_w32(0xeeb10b40|((d&7)<<12)|(s&7));
2309 void emit_fadds(int s1,int s2,int d)
2311 assem_debug("fadds s%d,s%d,s%d\n",d,s1,s2);
2312 output_w32(0xee300a00|((d&14)<<11)|((d&1)<<22)|((s1&14)<<15)|((s1&1)<<7)|((s2&14)>>1)|((s2&1)<<5));
2315 void emit_faddd(int s1,int s2,int d)
2317 assem_debug("faddd d%d,d%d,d%d\n",d,s1,s2);
2318 output_w32(0xee300b00|((d&7)<<12)|((s1&7)<<16)|(s2&7));
2321 void emit_fsubs(int s1,int s2,int d)
2323 assem_debug("fsubs s%d,s%d,s%d\n",d,s1,s2);
2324 output_w32(0xee300a40|((d&14)<<11)|((d&1)<<22)|((s1&14)<<15)|((s1&1)<<7)|((s2&14)>>1)|((s2&1)<<5));
2327 void emit_fsubd(int s1,int s2,int d)
2329 assem_debug("fsubd d%d,d%d,d%d\n",d,s1,s2);
2330 output_w32(0xee300b40|((d&7)<<12)|((s1&7)<<16)|(s2&7));
2333 void emit_fmuls(int s1,int s2,int d)
2335 assem_debug("fmuls s%d,s%d,s%d\n",d,s1,s2);
2336 output_w32(0xee200a00|((d&14)<<11)|((d&1)<<22)|((s1&14)<<15)|((s1&1)<<7)|((s2&14)>>1)|((s2&1)<<5));
2339 void emit_fmuld(int s1,int s2,int d)
2341 assem_debug("fmuld d%d,d%d,d%d\n",d,s1,s2);
2342 output_w32(0xee200b00|((d&7)<<12)|((s1&7)<<16)|(s2&7));
2345 void emit_fdivs(int s1,int s2,int d)
2347 assem_debug("fdivs s%d,s%d,s%d\n",d,s1,s2);
2348 output_w32(0xee800a00|((d&14)<<11)|((d&1)<<22)|((s1&14)<<15)|((s1&1)<<7)|((s2&14)>>1)|((s2&1)<<5));
2351 void emit_fdivd(int s1,int s2,int d)
2353 assem_debug("fdivd d%d,d%d,d%d\n",d,s1,s2);
2354 output_w32(0xee800b00|((d&7)<<12)|((s1&7)<<16)|(s2&7));
2357 void emit_fcmps(int x,int y)
2359 assem_debug("fcmps s14, s15\n");
2360 output_w32(0xeeb47a67);
2363 void emit_fcmpd(int x,int y)
2365 assem_debug("fcmpd d6, d7\n");
2366 output_w32(0xeeb46b47);
2371 assem_debug("fmstat\n");
2372 output_w32(0xeef1fa10);
2375 void emit_bicne_imm(int rs,int imm,int rt)
2378 genimm_checked(imm,&armval);
2379 assem_debug("bicne %s,%s,#%d\n",regname[rt],regname[rs],imm);
2380 output_w32(0x13c00000|rd_rn_rm(rt,rs,0)|armval);
2383 void emit_biccs_imm(int rs,int imm,int rt)
2386 genimm_checked(imm,&armval);
2387 assem_debug("biccs %s,%s,#%d\n",regname[rt],regname[rs],imm);
2388 output_w32(0x23c00000|rd_rn_rm(rt,rs,0)|armval);
2391 void emit_bicvc_imm(int rs,int imm,int rt)
2394 genimm_checked(imm,&armval);
2395 assem_debug("bicvc %s,%s,#%d\n",regname[rt],regname[rs],imm);
2396 output_w32(0x73c00000|rd_rn_rm(rt,rs,0)|armval);
2399 void emit_bichi_imm(int rs,int imm,int rt)
2402 genimm_checked(imm,&armval);
2403 assem_debug("bichi %s,%s,#%d\n",regname[rt],regname[rs],imm);
2404 output_w32(0x83c00000|rd_rn_rm(rt,rs,0)|armval);
2407 void emit_orrvs_imm(int rs,int imm,int rt)
2410 genimm_checked(imm,&armval);
2411 assem_debug("orrvs %s,%s,#%d\n",regname[rt],regname[rs],imm);
2412 output_w32(0x63800000|rd_rn_rm(rt,rs,0)|armval);
2415 void emit_orrne_imm(int rs,int imm,int rt)
2418 genimm_checked(imm,&armval);
2419 assem_debug("orrne %s,%s,#%d\n",regname[rt],regname[rs],imm);
2420 output_w32(0x13800000|rd_rn_rm(rt,rs,0)|armval);
2423 void emit_andne_imm(int rs,int imm,int rt)
2426 genimm_checked(imm,&armval);
2427 assem_debug("andne %s,%s,#%d\n",regname[rt],regname[rs],imm);
2428 output_w32(0x12000000|rd_rn_rm(rt,rs,0)|armval);
2431 void emit_jno_unlikely(int a)
2434 assem_debug("addvc pc,pc,#? (%x)\n",/*a-(int)out-8,*/a);
2435 output_w32(0x72800000|rd_rn_rm(15,15,0));
2438 // Save registers before function call
2439 void save_regs(u_int reglist)
2441 reglist&=0x100f; // only save the caller-save registers, r0-r3, r12
2442 if(!reglist) return;
2443 assem_debug("stmia fp,{");
2444 if(reglist&1) assem_debug("r0, ");
2445 if(reglist&2) assem_debug("r1, ");
2446 if(reglist&4) assem_debug("r2, ");
2447 if(reglist&8) assem_debug("r3, ");
2448 if(reglist&0x1000) assem_debug("r12");
2450 output_w32(0xe88b0000|reglist);
2452 // Restore registers after function call
2453 void restore_regs(u_int reglist)
2455 reglist&=0x100f; // only restore the caller-save registers, r0-r3, r12
2456 if(!reglist) return;
2457 assem_debug("ldmia fp,{");
2458 if(reglist&1) assem_debug("r0, ");
2459 if(reglist&2) assem_debug("r1, ");
2460 if(reglist&4) assem_debug("r2, ");
2461 if(reglist&8) assem_debug("r3, ");
2462 if(reglist&0x1000) assem_debug("r12");
2464 output_w32(0xe89b0000|reglist);
2467 // Write back consts using r14 so we don't disturb the other registers
2468 void wb_consts(signed char i_regmap[],uint64_t i_is32,u_int i_dirty,int i)
2471 for(hr=0;hr<HOST_REGS;hr++) {
2472 if(hr!=EXCLUDE_REG&&i_regmap[hr]>=0&&((i_dirty>>hr)&1)) {
2473 if(((regs[i].isconst>>hr)&1)&&i_regmap[hr]>0) {
2474 if(i_regmap[hr]<64 || !((i_is32>>(i_regmap[hr]&63))&1) ) {
2475 int value=constmap[i][hr];
2477 emit_zeroreg(HOST_TEMPREG);
2480 emit_movimm(value,HOST_TEMPREG);
2482 emit_storereg(i_regmap[hr],HOST_TEMPREG);
2484 if((i_is32>>i_regmap[hr])&1) {
2485 if(value!=-1&&value!=0) emit_sarimm(HOST_TEMPREG,31,HOST_TEMPREG);
2486 emit_storereg(i_regmap[hr]|64,HOST_TEMPREG);
2495 /* Stubs/epilogue */
2497 void literal_pool(int n)
2499 if(!literalcount) return;
2501 if((int)out-literals[0][0]<4096-n) return;
2505 for(i=0;i<literalcount;i++)
2507 ptr=(u_int *)literals[i][0];
2508 u_int offset=(u_int)out-(u_int)ptr-8;
2509 assert(offset<4096);
2510 assert(!(offset&3));
2512 output_w32(literals[i][1]);
2517 void literal_pool_jumpover(int n)
2519 if(!literalcount) return;
2521 if((int)out-literals[0][0]<4096-n) return;
2526 set_jump_target(jaddr,(int)out);
2529 emit_extjump2(int addr, int target, int linker)
2531 u_char *ptr=(u_char *)addr;
2532 assert((ptr[3]&0x0e)==0xa);
2533 emit_loadlp(target,0);
2534 emit_loadlp(addr,1);
2535 assert(addr>=BASE_ADDR&&addr<(BASE_ADDR+(1<<TARGET_SIZE_2)));
2536 //assert((target>=0x80000000&&target<0x80800000)||(target>0xA4000000&&target<0xA4001000));
2538 #ifdef DEBUG_CYCLE_COUNT
2539 emit_readword((int)&last_count,ECX);
2540 emit_add(HOST_CCREG,ECX,HOST_CCREG);
2541 emit_readword((int)&next_interupt,ECX);
2542 emit_writeword(HOST_CCREG,(int)&Count);
2543 emit_sub(HOST_CCREG,ECX,HOST_CCREG);
2544 emit_writeword(ECX,(int)&last_count);
2550 emit_extjump(int addr, int target)
2552 emit_extjump2(addr, target, (int)dyna_linker);
2554 emit_extjump_ds(int addr, int target)
2556 emit_extjump2(addr, target, (int)dyna_linker_ds);
2561 assem_debug("do_readstub %x\n",start+stubs[n][3]*4);
2563 set_jump_target(stubs[n][1],(int)out);
2564 int type=stubs[n][0];
2567 struct regstat *i_regs=(struct regstat *)stubs[n][5];
2568 u_int reglist=stubs[n][7];
2569 signed char *i_regmap=i_regs->regmap;
2570 int addr=get_reg(i_regmap,AGEN1+(i&1));
2573 if(itype[i]==C1LS||itype[i]==C2LS||itype[i]==LOADLR) {
2574 rth=get_reg(i_regmap,FTEMP|64);
2575 rt=get_reg(i_regmap,FTEMP);
2577 rth=get_reg(i_regmap,rt1[i]|64);
2578 rt=get_reg(i_regmap,rt1[i]);
2583 // assume dummy read, no alloced reg
2584 addr=get_reg(i_regmap,-1);
2587 if(type==LOADB_STUB||type==LOADBU_STUB)
2588 ftable=(int)readmemb;
2589 if(type==LOADH_STUB||type==LOADHU_STUB)
2590 ftable=(int)readmemh;
2591 if(type==LOADW_STUB)
2592 ftable=(int)readmem;
2594 if(type==LOADD_STUB)
2595 ftable=(int)readmemd;
2598 emit_writeword(rs,(int)&address);
2601 ds=i_regs!=®s[i];
2602 int real_rs=(itype[i]==LOADLR)?-1:get_reg(i_regmap,rs1[i]);
2603 u_int cmask=ds?-1:(0x100f|~i_regs->wasconst);
2604 if(!ds) load_all_consts(regs[i].regmap_entry,regs[i].was32,regs[i].wasdirty&~(1<<addr)&(real_rs<0?-1:~(1<<real_rs))&0x100f,i);
2605 wb_dirtys(i_regs->regmap_entry,i_regs->was32,i_regs->wasdirty&cmask&~(1<<addr)&(real_rs<0?-1:~(1<<real_rs)));
2606 if(!ds) wb_consts(regs[i].regmap_entry,regs[i].was32,regs[i].wasdirty&~(1<<addr)&(real_rs<0?-1:~(1<<real_rs))&~0x100f,i);
2607 emit_shrimm(rs,16,1);
2608 int cc=get_reg(i_regmap,CCREG);
2610 emit_loadreg(CCREG,2);
2612 emit_movimm(ftable,0);
2613 emit_addimm(cc<0?2:cc,2*stubs[n][6]+2,2);
2614 emit_movimm(start+stubs[n][3]*4+(((regs[i].was32>>rs1[i])&1)<<1)+ds,3);
2615 //emit_readword((int)&last_count,temp);
2616 //emit_add(cc,temp,cc);
2617 //emit_writeword(cc,(int)&Count);
2619 emit_call((int)&indirect_jump_indexed);
2621 //emit_readword_dualindexedx4(rs,HOST_TEMPREG,15);
2622 // We really shouldn't need to update the count here,
2623 // but not doing so causes random crashes...
2624 emit_readword((int)&Count,HOST_TEMPREG);
2625 emit_readword((int)&next_interupt,2);
2626 emit_addimm(HOST_TEMPREG,-2*stubs[n][6]-2,HOST_TEMPREG);
2627 emit_writeword(2,(int)&last_count);
2628 emit_sub(HOST_TEMPREG,2,cc<0?HOST_TEMPREG:cc);
2630 emit_storereg(CCREG,HOST_TEMPREG);
2633 restore_regs(reglist);
2634 //if((cc=get_reg(regmap,CCREG))>=0) {
2635 // emit_loadreg(CCREG,cc);
2637 if(itype[i]==C1LS||itype[i]==C2LS||(rt>=0&&rt1[i]!=0)) {
2639 if(type==LOADB_STUB)
2640 emit_movsbl((int)&readmem_dword,rt);
2641 if(type==LOADBU_STUB)
2642 emit_movzbl((int)&readmem_dword,rt);
2643 if(type==LOADH_STUB)
2644 emit_movswl((int)&readmem_dword,rt);
2645 if(type==LOADHU_STUB)
2646 emit_movzwl((int)&readmem_dword,rt);
2647 if(type==LOADW_STUB)
2648 emit_readword((int)&readmem_dword,rt);
2649 if(type==LOADD_STUB) {
2650 emit_readword((int)&readmem_dword,rt);
2651 if(rth>=0) emit_readword(((int)&readmem_dword)+4,rth);
2654 emit_jmp(stubs[n][2]); // return address
2657 inline_readstub(int type, int i, u_int addr, signed char regmap[], int target, int adj, u_int reglist)
2659 int rs=get_reg(regmap,target);
2660 int rth=get_reg(regmap,target|64);
2661 int rt=get_reg(regmap,target);
2665 if(type==LOADB_STUB||type==LOADBU_STUB)
2666 ftable=(int)readmemb;
2667 if(type==LOADH_STUB||type==LOADHU_STUB)
2668 ftable=(int)readmemh;
2669 if(type==LOADW_STUB)
2670 ftable=(int)readmem;
2672 if(type==LOADD_STUB)
2673 ftable=(int)readmemd;
2676 emit_writeword(rs,(int)&address);
2679 //emit_shrimm(rs,16,1);
2680 int cc=get_reg(regmap,CCREG);
2682 emit_loadreg(CCREG,2);
2684 //emit_movimm(ftable,0);
2685 emit_movimm(((u_int *)ftable)[addr>>16],0);
2686 //emit_readword((int)&last_count,12);
2687 emit_addimm(cc<0?2:cc,CLOCK_DIVIDER*(adj+1),2);
2688 if((signed int)addr>=(signed int)0xC0000000) {
2689 // Pagefault address
2690 int ds=regmap!=regs[i].regmap;
2691 emit_movimm(start+i*4+(((regs[i].was32>>rs1[i])&1)<<1)+ds,3);
2694 //emit_writeword(2,(int)&Count);
2695 //emit_call(((u_int *)ftable)[addr>>16]);
2696 emit_call((int)&indirect_jump);
2697 // We really shouldn't need to update the count here,
2698 // but not doing so causes random crashes...
2699 emit_readword((int)&Count,HOST_TEMPREG);
2700 emit_readword((int)&next_interupt,2);
2701 emit_addimm(HOST_TEMPREG,-CLOCK_DIVIDER*(adj+1),HOST_TEMPREG);
2702 emit_writeword(2,(int)&last_count);
2703 emit_sub(HOST_TEMPREG,2,cc<0?HOST_TEMPREG:cc);
2705 emit_storereg(CCREG,HOST_TEMPREG);
2708 restore_regs(reglist);
2709 if(type==LOADB_STUB)
2710 emit_movsbl((int)&readmem_dword,rt);
2711 if(type==LOADBU_STUB)
2712 emit_movzbl((int)&readmem_dword,rt);
2713 if(type==LOADH_STUB)
2714 emit_movswl((int)&readmem_dword,rt);
2715 if(type==LOADHU_STUB)
2716 emit_movzwl((int)&readmem_dword,rt);
2717 if(type==LOADW_STUB)
2718 emit_readword((int)&readmem_dword,rt);
2719 if(type==LOADD_STUB) {
2720 emit_readword((int)&readmem_dword,rt);
2721 if(rth>=0) emit_readword(((int)&readmem_dword)+4,rth);
2727 assem_debug("do_writestub %x\n",start+stubs[n][3]*4);
2729 set_jump_target(stubs[n][1],(int)out);
2730 int type=stubs[n][0];
2733 struct regstat *i_regs=(struct regstat *)stubs[n][5];
2734 u_int reglist=stubs[n][7];
2735 signed char *i_regmap=i_regs->regmap;
2736 int addr=get_reg(i_regmap,AGEN1+(i&1));
2739 if(itype[i]==C1LS||itype[i]==C2LS) {
2740 rth=get_reg(i_regmap,FTEMP|64);
2741 rt=get_reg(i_regmap,r=FTEMP);
2743 rth=get_reg(i_regmap,rs2[i]|64);
2744 rt=get_reg(i_regmap,r=rs2[i]);
2748 if(addr<0) addr=get_reg(i_regmap,-1);
2751 if(type==STOREB_STUB)
2752 ftable=(int)writememb;
2753 if(type==STOREH_STUB)
2754 ftable=(int)writememh;
2755 if(type==STOREW_STUB)
2756 ftable=(int)writemem;
2758 if(type==STORED_STUB)
2759 ftable=(int)writememd;
2762 emit_writeword(rs,(int)&address);
2763 //emit_shrimm(rs,16,rs);
2764 //emit_movmem_indexedx4(ftable,rs,rs);
2765 if(type==STOREB_STUB)
2766 emit_writebyte(rt,(int)&byte);
2767 if(type==STOREH_STUB)
2768 emit_writehword(rt,(int)&hword);
2769 if(type==STOREW_STUB)
2770 emit_writeword(rt,(int)&word);
2771 if(type==STORED_STUB) {
2773 emit_writeword(rt,(int)&dword);
2774 emit_writeword(r?rth:rt,(int)&dword+4);
2776 printf("STORED_STUB\n");
2781 ds=i_regs!=®s[i];
2782 int real_rs=get_reg(i_regmap,rs1[i]);
2783 u_int cmask=ds?-1:(0x100f|~i_regs->wasconst);
2784 if(!ds) load_all_consts(regs[i].regmap_entry,regs[i].was32,regs[i].wasdirty&~(1<<addr)&(real_rs<0?-1:~(1<<real_rs))&0x100f,i);
2785 wb_dirtys(i_regs->regmap_entry,i_regs->was32,i_regs->wasdirty&cmask&~(1<<addr)&(real_rs<0?-1:~(1<<real_rs)));
2786 if(!ds) wb_consts(regs[i].regmap_entry,regs[i].was32,regs[i].wasdirty&~(1<<addr)&(real_rs<0?-1:~(1<<real_rs))&~0x100f,i);
2787 emit_shrimm(rs,16,1);
2788 int cc=get_reg(i_regmap,CCREG);
2790 emit_loadreg(CCREG,2);
2792 emit_movimm(ftable,0);
2793 emit_addimm(cc<0?2:cc,2*stubs[n][6]+2,2);
2794 emit_movimm(start+stubs[n][3]*4+(((regs[i].was32>>rs1[i])&1)<<1)+ds,3);
2795 //emit_readword((int)&last_count,temp);
2796 //emit_addimm(cc,2*stubs[n][5]+2,cc);
2797 //emit_add(cc,temp,cc);
2798 //emit_writeword(cc,(int)&Count);
2799 emit_call((int)&indirect_jump_indexed);
2801 emit_readword((int)&Count,HOST_TEMPREG);
2802 emit_readword((int)&next_interupt,2);
2803 emit_addimm(HOST_TEMPREG,-2*stubs[n][6]-2,HOST_TEMPREG);
2804 emit_writeword(2,(int)&last_count);
2805 emit_sub(HOST_TEMPREG,2,cc<0?HOST_TEMPREG:cc);
2807 emit_storereg(CCREG,HOST_TEMPREG);
2810 restore_regs(reglist);
2811 //if((cc=get_reg(regmap,CCREG))>=0) {
2812 // emit_loadreg(CCREG,cc);
2814 emit_jmp(stubs[n][2]); // return address
2817 inline_writestub(int type, int i, u_int addr, signed char regmap[], int target, int adj, u_int reglist)
2819 int rs=get_reg(regmap,-1);
2820 int rth=get_reg(regmap,target|64);
2821 int rt=get_reg(regmap,target);
2825 if(type==STOREB_STUB)
2826 ftable=(int)writememb;
2827 if(type==STOREH_STUB)
2828 ftable=(int)writememh;
2829 if(type==STOREW_STUB)
2830 ftable=(int)writemem;
2832 if(type==STORED_STUB)
2833 ftable=(int)writememd;
2836 emit_writeword(rs,(int)&address);
2837 //emit_shrimm(rs,16,rs);
2838 //emit_movmem_indexedx4(ftable,rs,rs);
2839 if(type==STOREB_STUB)
2840 emit_writebyte(rt,(int)&byte);
2841 if(type==STOREH_STUB)
2842 emit_writehword(rt,(int)&hword);
2843 if(type==STOREW_STUB)
2844 emit_writeword(rt,(int)&word);
2845 if(type==STORED_STUB) {
2847 emit_writeword(rt,(int)&dword);
2848 emit_writeword(target?rth:rt,(int)&dword+4);
2850 printf("STORED_STUB\n");
2855 //emit_shrimm(rs,16,1);
2856 int cc=get_reg(regmap,CCREG);
2858 emit_loadreg(CCREG,2);
2860 //emit_movimm(ftable,0);
2861 emit_movimm(((u_int *)ftable)[addr>>16],0);
2862 //emit_readword((int)&last_count,12);
2863 emit_addimm(cc<0?2:cc,CLOCK_DIVIDER*(adj+1),2);
2864 if((signed int)addr>=(signed int)0xC0000000) {
2865 // Pagefault address
2866 int ds=regmap!=regs[i].regmap;
2867 emit_movimm(start+i*4+(((regs[i].was32>>rs1[i])&1)<<1)+ds,3);
2870 //emit_writeword(2,(int)&Count);
2871 //emit_call(((u_int *)ftable)[addr>>16]);
2872 emit_call((int)&indirect_jump);
2873 emit_readword((int)&Count,HOST_TEMPREG);
2874 emit_readword((int)&next_interupt,2);
2875 emit_addimm(HOST_TEMPREG,-CLOCK_DIVIDER*(adj+1),HOST_TEMPREG);
2876 emit_writeword(2,(int)&last_count);
2877 emit_sub(HOST_TEMPREG,2,cc<0?HOST_TEMPREG:cc);
2879 emit_storereg(CCREG,HOST_TEMPREG);
2882 restore_regs(reglist);
2885 do_unalignedwritestub(int n)
2887 assem_debug("do_unalignedwritestub %x\n",start+stubs[n][3]*4);
2889 set_jump_target(stubs[n][1],(int)out);
2892 struct regstat *i_regs=(struct regstat *)stubs[n][4];
2893 int addr=stubs[n][5];
2894 u_int reglist=stubs[n][7];
2895 signed char *i_regmap=i_regs->regmap;
2896 int temp2=get_reg(i_regmap,FTEMP);
2899 rt=get_reg(i_regmap,rs2[i]);
2902 assert(opcode[i]==0x2a||opcode[i]==0x2e); // SWL/SWR only implemented
2904 reglist&=~(1<<temp2);
2906 emit_andimm(addr,0xfffffffc,temp2);
2907 emit_writeword(temp2,(int)&address);
2910 ds=i_regs!=®s[i];
2911 real_rs=get_reg(i_regmap,rs1[i]);
2912 u_int cmask=ds?-1:(0x100f|~i_regs->wasconst);
2913 if(!ds) load_all_consts(regs[i].regmap_entry,regs[i].was32,regs[i].wasdirty&~(1<<addr)&(real_rs<0?-1:~(1<<real_rs))&0x100f,i);
2914 wb_dirtys(i_regs->regmap_entry,i_regs->was32,i_regs->wasdirty&cmask&~(1<<addr)&(real_rs<0?-1:~(1<<real_rs)));
2915 if(!ds) wb_consts(regs[i].regmap_entry,regs[i].was32,regs[i].wasdirty&~(1<<addr)&(real_rs<0?-1:~(1<<real_rs))&~0x100f,i);
2916 emit_shrimm(addr,16,1);
2917 int cc=get_reg(i_regmap,CCREG);
2919 emit_loadreg(CCREG,2);
2921 emit_movimm((u_int)readmem,0);
2922 emit_addimm(cc<0?2:cc,2*stubs[n][6]+2,2);
2923 emit_movimm(start+stubs[n][3]*4+(((regs[i].was32>>rs1[i])&1)<<1)+ds,3); // XXX: can be rm'd?
2924 emit_call((int)&indirect_jump_indexed);
2925 restore_regs(reglist);
2927 emit_readword((int)&readmem_dword,temp2);
2928 int temp=addr; //hmh
2929 emit_shlimm(addr,3,temp);
2930 emit_andimm(temp,24,temp);
2931 #ifdef BIG_ENDIAN_MIPS
2932 if (opcode[i]==0x2e) // SWR
2934 if (opcode[i]==0x2a) // SWL
2936 emit_xorimm(temp,24,temp);
2937 emit_movimm(-1,HOST_TEMPREG);
2938 if (opcode[i]==0x2a) { // SWL
2939 emit_bic_lsr(temp2,HOST_TEMPREG,temp,temp2);
2940 emit_orrshr(rt,temp,temp2);
2942 emit_bic_lsl(temp2,HOST_TEMPREG,temp,temp2);
2943 emit_orrshl(rt,temp,temp2);
2945 emit_readword((int)&address,addr);
2946 emit_writeword(temp2,(int)&word);
2947 //save_regs(reglist); // don't need to, no state changes
2948 emit_shrimm(addr,16,1);
2949 emit_movimm((u_int)writemem,0);
2950 //emit_call((int)&indirect_jump_indexed);
2952 emit_readword_dualindexedx4(0,1,15);
2953 emit_readword((int)&Count,HOST_TEMPREG);
2954 emit_readword((int)&next_interupt,2);
2955 emit_addimm(HOST_TEMPREG,-2*stubs[n][6]-2,HOST_TEMPREG);
2956 emit_writeword(2,(int)&last_count);
2957 emit_sub(HOST_TEMPREG,2,cc<0?HOST_TEMPREG:cc);
2959 emit_storereg(CCREG,HOST_TEMPREG);
2961 restore_regs(reglist);
2962 emit_jmp(stubs[n][2]); // return address
2965 void printregs(int edi,int esi,int ebp,int esp,int b,int d,int c,int a)
2967 printf("regs: %x %x %x %x %x %x %x (%x)\n",a,b,c,d,ebp,esi,edi,(&edi)[-1]);
2973 u_int reglist=stubs[n][3];
2974 set_jump_target(stubs[n][1],(int)out);
2976 if(stubs[n][4]!=0) emit_mov(stubs[n][4],0);
2977 emit_call((int)&invalidate_addr);
2978 restore_regs(reglist);
2979 emit_jmp(stubs[n][2]); // return address
2982 int do_dirty_stub(int i)
2984 assem_debug("do_dirty_stub %x\n",start+i*4);
2985 u_int addr=(int)start<(int)0xC0000000?(u_int)source:(u_int)start;
2989 // Careful about the code output here, verify_dirty needs to parse it.
2991 emit_loadlp(addr,1);
2992 emit_loadlp((int)copy,2);
2993 emit_loadlp(slen*4,3);
2995 emit_movw(addr&0x0000FFFF,1);
2996 emit_movw(((u_int)copy)&0x0000FFFF,2);
2997 emit_movt(addr&0xFFFF0000,1);
2998 emit_movt(((u_int)copy)&0xFFFF0000,2);
2999 emit_movw(slen*4,3);
3001 emit_movimm(start+i*4,0);
3002 emit_call((int)start<(int)0xC0000000?(int)&verify_code:(int)&verify_code_vm);
3005 if(entry==(int)out) entry=instr_addr[i];
3006 emit_jmp(instr_addr[i]);
3010 void do_dirty_stub_ds()
3012 // Careful about the code output here, verify_dirty needs to parse it.
3014 emit_loadlp((int)start<(int)0xC0000000?(int)source:(int)start,1);
3015 emit_loadlp((int)copy,2);
3016 emit_loadlp(slen*4,3);
3018 emit_movw(((int)start<(int)0xC0000000?(u_int)source:(u_int)start)&0x0000FFFF,1);
3019 emit_movw(((u_int)copy)&0x0000FFFF,2);
3020 emit_movt(((int)start<(int)0xC0000000?(u_int)source:(u_int)start)&0xFFFF0000,1);
3021 emit_movt(((u_int)copy)&0xFFFF0000,2);
3022 emit_movw(slen*4,3);
3024 emit_movimm(start+1,0);
3025 emit_call((int)&verify_code_ds);
3031 assem_debug("do_cop1stub %x\n",start+stubs[n][3]*4);
3032 set_jump_target(stubs[n][1],(int)out);
3034 // int rs=stubs[n][4];
3035 struct regstat *i_regs=(struct regstat *)stubs[n][5];
3038 load_all_consts(regs[i].regmap_entry,regs[i].was32,regs[i].wasdirty,i);
3039 //if(i_regs!=®s[i]) printf("oops: regs[i]=%x i_regs=%x",(int)®s[i],(int)i_regs);
3041 //else {printf("fp exception in delay slot\n");}
3042 wb_dirtys(i_regs->regmap_entry,i_regs->was32,i_regs->wasdirty);
3043 if(regs[i].regmap_entry[HOST_CCREG]!=CCREG) emit_loadreg(CCREG,HOST_CCREG);
3044 emit_movimm(start+(i-ds)*4,EAX); // Get PC
3045 emit_addimm(HOST_CCREG,CLOCK_DIVIDER*ccadj[i],HOST_CCREG); // CHECK: is this right? There should probably be an extra cycle...
3046 emit_jmp(ds?(int)fp_exception_ds:(int)fp_exception);
3051 int do_tlb_r(int s,int ar,int map,int x,int a,int shift,int c,u_int addr)
3054 if((signed int)addr>=(signed int)0xC0000000) {
3055 // address_generation already loaded the const
3056 emit_readword_dualindexedx4(FP,map,map);
3059 return -1; // No mapping
3063 emit_movimm(((int)memory_map-(int)&dynarec_local)>>2,map);
3064 emit_addsr12(map,s,map);
3065 // Schedule this while we wait on the load
3066 //if(x) emit_xorimm(s,x,ar);
3067 if(shift>=0) emit_shlimm(s,3,shift);
3068 if(~a) emit_andimm(s,a,ar);
3069 emit_readword_dualindexedx4(FP,map,map);
3073 int do_tlb_r_branch(int map, int c, u_int addr, int *jaddr)
3075 if(!c||(signed int)addr>=(signed int)0xC0000000) {
3083 int gen_tlb_addr_r(int ar, int map) {
3085 assem_debug("add %s,%s,%s lsl #2\n",regname[ar],regname[ar],regname[map]);
3086 output_w32(0xe0800100|rd_rn_rm(ar,ar,map));
3090 int do_tlb_w(int s,int ar,int map,int x,int c,u_int addr)
3093 if(addr<0x80800000||addr>=0xC0000000) {
3094 // address_generation already loaded the const
3095 emit_readword_dualindexedx4(FP,map,map);
3098 return -1; // No mapping
3102 emit_movimm(((int)memory_map-(int)&dynarec_local)>>2,map);
3103 emit_addsr12(map,s,map);
3104 // Schedule this while we wait on the load
3105 //if(x) emit_xorimm(s,x,ar);
3106 emit_readword_dualindexedx4(FP,map,map);
3110 int do_tlb_w_branch(int map, int c, u_int addr, int *jaddr)
3112 if(!c||addr<0x80800000||addr>=0xC0000000) {
3113 emit_testimm(map,0x40000000);
3119 int gen_tlb_addr_w(int ar, int map) {
3121 assem_debug("add %s,%s,%s lsl #2\n",regname[ar],regname[ar],regname[map]);
3122 output_w32(0xe0800100|rd_rn_rm(ar,ar,map));
3126 // Generate the address of the memory_map entry, relative to dynarec_local
3127 generate_map_const(u_int addr,int reg) {
3128 //printf("generate_map_const(%x,%s)\n",addr,regname[reg]);
3129 emit_movimm((addr>>12)+(((u_int)memory_map-(u_int)&dynarec_local)>>2),reg);
3134 void shift_assemble_arm(int i,struct regstat *i_regs)
3137 if(opcode2[i]<=0x07) // SLLV/SRLV/SRAV
3139 signed char s,t,shift;
3140 t=get_reg(i_regs->regmap,rt1[i]);
3141 s=get_reg(i_regs->regmap,rs1[i]);
3142 shift=get_reg(i_regs->regmap,rs2[i]);
3151 if(s!=t) emit_mov(s,t);
3155 emit_andimm(shift,31,HOST_TEMPREG);
3156 if(opcode2[i]==4) // SLLV
3158 emit_shl(s,HOST_TEMPREG,t);
3160 if(opcode2[i]==6) // SRLV
3162 emit_shr(s,HOST_TEMPREG,t);
3164 if(opcode2[i]==7) // SRAV
3166 emit_sar(s,HOST_TEMPREG,t);
3170 } else { // DSLLV/DSRLV/DSRAV
3171 signed char sh,sl,th,tl,shift;
3172 th=get_reg(i_regs->regmap,rt1[i]|64);
3173 tl=get_reg(i_regs->regmap,rt1[i]);
3174 sh=get_reg(i_regs->regmap,rs1[i]|64);
3175 sl=get_reg(i_regs->regmap,rs1[i]);
3176 shift=get_reg(i_regs->regmap,rs2[i]);
3181 if(th>=0) emit_zeroreg(th);
3186 if(sl!=tl) emit_mov(sl,tl);
3187 if(th>=0&&sh!=th) emit_mov(sh,th);
3191 // FIXME: What if shift==tl ?
3193 int temp=get_reg(i_regs->regmap,-1);
3195 if(th<0&&opcode2[i]!=0x14) {th=temp;} // DSLLV doesn't need a temporary register
3198 emit_andimm(shift,31,HOST_TEMPREG);
3199 if(opcode2[i]==0x14) // DSLLV
3201 if(th>=0) emit_shl(sh,HOST_TEMPREG,th);
3202 emit_rsbimm(HOST_TEMPREG,32,HOST_TEMPREG);
3203 emit_orrshr(sl,HOST_TEMPREG,th);
3204 emit_andimm(shift,31,HOST_TEMPREG);
3205 emit_testimm(shift,32);
3206 emit_shl(sl,HOST_TEMPREG,tl);
3207 if(th>=0) emit_cmovne_reg(tl,th);
3208 emit_cmovne_imm(0,tl);
3210 if(opcode2[i]==0x16) // DSRLV
3213 emit_shr(sl,HOST_TEMPREG,tl);
3214 emit_rsbimm(HOST_TEMPREG,32,HOST_TEMPREG);
3215 emit_orrshl(sh,HOST_TEMPREG,tl);
3216 emit_andimm(shift,31,HOST_TEMPREG);
3217 emit_testimm(shift,32);
3218 emit_shr(sh,HOST_TEMPREG,th);
3219 emit_cmovne_reg(th,tl);
3220 if(real_th>=0) emit_cmovne_imm(0,th);
3222 if(opcode2[i]==0x17) // DSRAV
3225 emit_shr(sl,HOST_TEMPREG,tl);
3226 emit_rsbimm(HOST_TEMPREG,32,HOST_TEMPREG);
3229 emit_sarimm(th,31,temp);
3231 emit_orrshl(sh,HOST_TEMPREG,tl);
3232 emit_andimm(shift,31,HOST_TEMPREG);
3233 emit_testimm(shift,32);
3234 emit_sar(sh,HOST_TEMPREG,th);
3235 emit_cmovne_reg(th,tl);
3236 if(real_th>=0) emit_cmovne_reg(temp,th);
3243 #define shift_assemble shift_assemble_arm
3245 void loadlr_assemble_arm(int i,struct regstat *i_regs)
3247 int s,th,tl,temp,temp2,addr,map=-1;
3252 th=get_reg(i_regs->regmap,rt1[i]|64);
3253 tl=get_reg(i_regs->regmap,rt1[i]);
3254 s=get_reg(i_regs->regmap,rs1[i]);
3255 temp=get_reg(i_regs->regmap,-1);
3256 temp2=get_reg(i_regs->regmap,FTEMP);
3257 addr=get_reg(i_regs->regmap,AGEN1+(i&1));
3260 for(hr=0;hr<HOST_REGS;hr++) {
3261 if(i_regs->regmap[hr]>=0) reglist|=1<<hr;
3264 if(offset||s<0||c) addr=temp2;
3267 c=(i_regs->wasconst>>s)&1;
3268 memtarget=((signed int)(constmap[i][s]+offset))<(signed int)0x80000000+RAM_SIZE;
3269 if(using_tlb&&((signed int)(constmap[i][s]+offset))>=(signed int)0xC0000000) memtarget=1;
3276 emit_shlimm(addr,3,temp);
3277 if (opcode[i]==0x22||opcode[i]==0x26) {
3278 emit_andimm(addr,0xFFFFFFFC,temp2); // LWL/LWR
3280 emit_andimm(addr,0xFFFFFFF8,temp2); // LDL/LDR
3282 emit_cmpimm(addr,RAM_SIZE);
3287 if (opcode[i]==0x22||opcode[i]==0x26) {
3288 emit_movimm(((constmap[i][s]+offset)<<3)&24,temp); // LWL/LWR
3290 emit_movimm(((constmap[i][s]+offset)<<3)&56,temp); // LDL/LDR
3297 }else if (opcode[i]==0x22||opcode[i]==0x26) {
3298 a=0xFFFFFFFC; // LWL/LWR
3300 a=0xFFFFFFF8; // LDL/LDR
3302 map=get_reg(i_regs->regmap,TLREG);
3304 map=do_tlb_r(addr,temp2,map,0,a,c?-1:temp,c,constmap[i][s]+offset);
3306 if (opcode[i]==0x22||opcode[i]==0x26) {
3307 emit_movimm(((constmap[i][s]+offset)<<3)&24,temp); // LWL/LWR
3309 emit_movimm(((constmap[i][s]+offset)<<3)&56,temp); // LDL/LDR
3312 do_tlb_r_branch(map,c,constmap[i][s]+offset,&jaddr);
3314 if (opcode[i]==0x22||opcode[i]==0x26) { // LWL/LWR
3316 //emit_readword_indexed((int)rdram-0x80000000,temp2,temp2);
3317 emit_readword_indexed_tlb((int)rdram-0x80000000,temp2,map,temp2);
3318 if(jaddr) add_stub(LOADW_STUB,jaddr,(int)out,i,temp2,(int)i_regs,ccadj[i],reglist);
3321 inline_readstub(LOADW_STUB,i,(constmap[i][s]+offset)&0xFFFFFFFC,i_regs->regmap,FTEMP,ccadj[i],reglist);
3322 emit_andimm(temp,24,temp);
3323 #ifdef BIG_ENDIAN_MIPS
3324 if (opcode[i]==0x26) // LWR
3326 if (opcode[i]==0x22) // LWL
3328 emit_xorimm(temp,24,temp);
3329 emit_movimm(-1,HOST_TEMPREG);
3330 if (opcode[i]==0x26) {
3331 emit_shr(temp2,temp,temp2);
3332 emit_bic_lsr(tl,HOST_TEMPREG,temp,tl);
3334 emit_shl(temp2,temp,temp2);
3335 emit_bic_lsl(tl,HOST_TEMPREG,temp,tl);
3337 emit_or(temp2,tl,tl);
3338 //emit_storereg(rt1[i],tl); // DEBUG
3340 if (opcode[i]==0x1A||opcode[i]==0x1B) { // LDL/LDR
3341 // FIXME: little endian
3342 int temp2h=get_reg(i_regs->regmap,FTEMP|64);
3344 //if(th>=0) emit_readword_indexed((int)rdram-0x80000000,temp2,temp2h);
3345 //emit_readword_indexed((int)rdram-0x7FFFFFFC,temp2,temp2);
3346 emit_readdword_indexed_tlb((int)rdram-0x80000000,temp2,map,temp2h,temp2);
3347 if(jaddr) add_stub(LOADD_STUB,jaddr,(int)out,i,temp2,(int)i_regs,ccadj[i],reglist);
3350 inline_readstub(LOADD_STUB,i,(constmap[i][s]+offset)&0xFFFFFFF8,i_regs->regmap,FTEMP,ccadj[i],reglist);
3351 emit_testimm(temp,32);
3352 emit_andimm(temp,24,temp);
3353 if (opcode[i]==0x1A) { // LDL
3354 emit_rsbimm(temp,32,HOST_TEMPREG);
3355 emit_shl(temp2h,temp,temp2h);
3356 emit_orrshr(temp2,HOST_TEMPREG,temp2h);
3357 emit_movimm(-1,HOST_TEMPREG);
3358 emit_shl(temp2,temp,temp2);
3359 emit_cmove_reg(temp2h,th);
3360 emit_biceq_lsl(tl,HOST_TEMPREG,temp,tl);
3361 emit_bicne_lsl(th,HOST_TEMPREG,temp,th);
3362 emit_orreq(temp2,tl,tl);
3363 emit_orrne(temp2,th,th);
3365 if (opcode[i]==0x1B) { // LDR
3366 emit_xorimm(temp,24,temp);
3367 emit_rsbimm(temp,32,HOST_TEMPREG);
3368 emit_shr(temp2,temp,temp2);
3369 emit_orrshl(temp2h,HOST_TEMPREG,temp2);
3370 emit_movimm(-1,HOST_TEMPREG);
3371 emit_shr(temp2h,temp,temp2h);
3372 emit_cmovne_reg(temp2,tl);
3373 emit_bicne_lsr(th,HOST_TEMPREG,temp,th);
3374 emit_biceq_lsr(tl,HOST_TEMPREG,temp,tl);
3375 emit_orrne(temp2h,th,th);
3376 emit_orreq(temp2h,tl,tl);
3381 #define loadlr_assemble loadlr_assemble_arm
3383 void cop0_assemble(int i,struct regstat *i_regs)
3385 if(opcode2[i]==0) // MFC0
3387 signed char t=get_reg(i_regs->regmap,rt1[i]);
3388 char copr=(source[i]>>11)&0x1f;
3389 //assert(t>=0); // Why does this happen? OOT is weird
3390 if(t>=0&&rt1[i]!=0) {
3392 emit_addimm(FP,(int)&fake_pc-(int)&dynarec_local,0);
3393 emit_movimm((source[i]>>11)&0x1f,1);
3394 emit_writeword(0,(int)&PC);
3395 emit_writebyte(1,(int)&(fake_pc.f.r.nrd));
3397 emit_readword((int)&last_count,ECX);
3398 emit_loadreg(CCREG,HOST_CCREG); // TODO: do proper reg alloc
3399 emit_add(HOST_CCREG,ECX,HOST_CCREG);
3400 emit_addimm(HOST_CCREG,CLOCK_DIVIDER*ccadj[i],HOST_CCREG);
3401 emit_writeword(HOST_CCREG,(int)&Count);
3403 emit_call((int)MFC0);
3404 emit_readword((int)&readmem_dword,t);
3406 emit_readword((int)®_cop0+copr*4,t);
3410 else if(opcode2[i]==4) // MTC0
3412 signed char s=get_reg(i_regs->regmap,rs1[i]);
3413 char copr=(source[i]>>11)&0x1f;
3415 emit_writeword(s,(int)&readmem_dword);
3416 wb_register(rs1[i],i_regs->regmap,i_regs->dirty,i_regs->is32);
3418 emit_addimm(FP,(int)&fake_pc-(int)&dynarec_local,0);
3419 emit_movimm((source[i]>>11)&0x1f,1);
3420 emit_writeword(0,(int)&PC);
3421 emit_writebyte(1,(int)&(fake_pc.f.r.nrd));
3423 if(copr==9||copr==11||copr==12||copr==13) {
3424 emit_readword((int)&last_count,ECX);
3425 emit_loadreg(CCREG,HOST_CCREG); // TODO: do proper reg alloc
3426 emit_add(HOST_CCREG,ECX,HOST_CCREG);
3427 emit_addimm(HOST_CCREG,CLOCK_DIVIDER*ccadj[i],HOST_CCREG);
3428 emit_writeword(HOST_CCREG,(int)&Count);
3430 // What a mess. The status register (12) can enable interrupts,
3431 // so needs a special case to handle a pending interrupt.
3432 // The interrupt must be taken immediately, because a subsequent
3433 // instruction might disable interrupts again.
3434 if(copr==12||copr==13) {
3437 // burn cycles to cause cc_interrupt, which will
3438 // reschedule next_interupt. Relies on CCREG from above.
3439 assem_debug("MTC0 DS %d\n", copr);
3440 emit_writeword(HOST_CCREG,(int)&last_count);
3441 emit_movimm(0,HOST_CCREG);
3442 emit_storereg(CCREG,HOST_CCREG);
3443 emit_movimm(copr,0);
3444 emit_call((int)pcsx_mtc0_ds);
3448 emit_movimm(start+i*4+4,0);
3450 emit_writeword(0,(int)&pcaddr);
3451 emit_writeword(1,(int)&pending_exception);
3453 //else if(copr==12&&is_delayslot) emit_call((int)MTC0_R12);
3456 emit_movimm(copr,0);
3457 emit_call((int)pcsx_mtc0);
3459 emit_call((int)MTC0);
3461 if(copr==9||copr==11||copr==12||copr==13) {
3462 emit_readword((int)&Count,HOST_CCREG);
3463 emit_readword((int)&next_interupt,ECX);
3464 emit_addimm(HOST_CCREG,-CLOCK_DIVIDER*ccadj[i],HOST_CCREG);
3465 emit_sub(HOST_CCREG,ECX,HOST_CCREG);
3466 emit_writeword(ECX,(int)&last_count);
3467 emit_storereg(CCREG,HOST_CCREG);
3469 if(copr==12||copr==13) {
3470 assert(!is_delayslot);
3471 emit_readword((int)&pending_exception,14);
3473 emit_loadreg(rs1[i],s);
3474 if(get_reg(i_regs->regmap,rs1[i]|64)>=0)
3475 emit_loadreg(rs1[i]|64,get_reg(i_regs->regmap,rs1[i]|64));
3476 if(copr==12||copr==13) {
3478 emit_jne((int)&do_interrupt);
3484 assert(opcode2[i]==0x10);
3486 if((source[i]&0x3f)==0x01) // TLBR
3487 emit_call((int)TLBR);
3488 if((source[i]&0x3f)==0x02) // TLBWI
3489 emit_call((int)TLBWI_new);
3490 if((source[i]&0x3f)==0x06) { // TLBWR
3491 // The TLB entry written by TLBWR is dependent on the count,
3492 // so update the cycle count
3493 emit_readword((int)&last_count,ECX);
3494 if(i_regs->regmap[HOST_CCREG]!=CCREG) emit_loadreg(CCREG,HOST_CCREG);
3495 emit_add(HOST_CCREG,ECX,HOST_CCREG);
3496 emit_addimm(HOST_CCREG,CLOCK_DIVIDER*ccadj[i],HOST_CCREG);
3497 emit_writeword(HOST_CCREG,(int)&Count);
3498 emit_call((int)TLBWR_new);
3500 if((source[i]&0x3f)==0x08) // TLBP
3501 emit_call((int)TLBP);
3504 if((source[i]&0x3f)==0x10) // RFE
3506 emit_readword((int)&Status,0);
3507 emit_andimm(0,0x3c,1);
3508 emit_andimm(0,~0xf,0);
3509 emit_orrshr_imm(1,2,0);
3510 emit_writeword(0,(int)&Status);
3513 if((source[i]&0x3f)==0x18) // ERET
3516 if(i_regs->regmap[HOST_CCREG]!=CCREG) emit_loadreg(CCREG,HOST_CCREG);
3517 emit_addimm(HOST_CCREG,CLOCK_DIVIDER*count,HOST_CCREG); // TODO: Should there be an extra cycle here?
3518 emit_jmp((int)jump_eret);
3524 static void cop2_get_dreg(u_int copr,signed char tl,signed char temp)
3534 emit_readword((int)®_cop2d[copr],tl);
3535 emit_signextend16(tl,tl);
3536 emit_writeword(tl,(int)®_cop2d[copr]); // hmh
3543 emit_readword((int)®_cop2d[copr],tl);
3544 emit_andimm(tl,0xffff,tl);
3545 emit_writeword(tl,(int)®_cop2d[copr]);
3548 emit_readword((int)®_cop2d[14],tl); // SXY2
3549 emit_writeword(tl,(int)®_cop2d[copr]);
3556 emit_readword((int)®_cop2d[9],temp);
3557 emit_testimm(temp,0x8000); // do we need this?
3558 emit_andimm(temp,0xf80,temp);
3559 emit_andne_imm(temp,0,temp);
3560 emit_shrimm(temp,7,tl);
3561 emit_readword((int)®_cop2d[10],temp);
3562 emit_testimm(temp,0x8000);
3563 emit_andimm(temp,0xf80,temp);
3564 emit_andne_imm(temp,0,temp);
3565 emit_orrshr_imm(temp,2,tl);
3566 emit_readword((int)®_cop2d[11],temp);
3567 emit_testimm(temp,0x8000);
3568 emit_andimm(temp,0xf80,temp);
3569 emit_andne_imm(temp,0,temp);
3570 emit_orrshl_imm(temp,3,tl);
3571 emit_writeword(tl,(int)®_cop2d[copr]);
3574 emit_readword((int)®_cop2d[copr],tl);
3579 static void cop2_put_dreg(u_int copr,signed char sl,signed char temp)
3583 emit_readword((int)®_cop2d[13],temp); // SXY1
3584 emit_writeword(sl,(int)®_cop2d[copr]);
3585 emit_writeword(temp,(int)®_cop2d[12]); // SXY0
3586 emit_readword((int)®_cop2d[14],temp); // SXY2
3587 emit_writeword(sl,(int)®_cop2d[14]);
3588 emit_writeword(temp,(int)®_cop2d[13]); // SXY1
3591 emit_andimm(sl,0x001f,temp);
3592 emit_shlimm(temp,7,temp);
3593 emit_writeword(temp,(int)®_cop2d[9]);
3594 emit_andimm(sl,0x03e0,temp);
3595 emit_shlimm(temp,2,temp);
3596 emit_writeword(temp,(int)®_cop2d[10]);
3597 emit_andimm(sl,0x7c00,temp);
3598 emit_shrimm(temp,3,temp);
3599 emit_writeword(temp,(int)®_cop2d[11]);
3600 emit_writeword(sl,(int)®_cop2d[28]);
3604 emit_mvnmi(temp,temp);
3605 emit_clz(temp,temp);
3606 emit_writeword(sl,(int)®_cop2d[30]);
3607 emit_writeword(temp,(int)®_cop2d[31]);
3614 emit_writeword(sl,(int)®_cop2d[copr]);
3619 void cop2_assemble(int i,struct regstat *i_regs)
3621 u_int copr=(source[i]>>11)&0x1f;
3622 signed char temp=get_reg(i_regs->regmap,-1);
3623 if (opcode2[i]==0) { // MFC2
3624 signed char tl=get_reg(i_regs->regmap,rt1[i]);
3625 if(tl>=0&&rt1[i]!=0)
3626 cop2_get_dreg(copr,tl,temp);
3628 else if (opcode2[i]==4) { // MTC2
3629 signed char sl=get_reg(i_regs->regmap,rs1[i]);
3630 cop2_put_dreg(copr,sl,temp);
3632 else if (opcode2[i]==2) // CFC2
3634 signed char tl=get_reg(i_regs->regmap,rt1[i]);
3635 if(tl>=0&&rt1[i]!=0)
3636 emit_readword((int)®_cop2c[copr],tl);
3638 else if (opcode2[i]==6) // CTC2
3640 signed char sl=get_reg(i_regs->regmap,rs1[i]);
3649 emit_signextend16(sl,temp);
3652 //value = value & 0x7ffff000;
3653 //if (value & 0x7f87e000) value |= 0x80000000;
3654 emit_shrimm(sl,12,temp);
3655 emit_shlimm(temp,12,temp);
3656 emit_testimm(temp,0x7f000000);
3657 emit_testeqimm(temp,0x00870000);
3658 emit_testeqimm(temp,0x0000e000);
3659 emit_orrne_imm(temp,0x80000000,temp);
3665 emit_writeword(temp,(int)®_cop2c[copr]);
3670 void c2op_assemble(int i,struct regstat *i_regs)
3672 signed char temp=get_reg(i_regs->regmap,-1);
3673 u_int c2op=source[i]&0x3f;
3675 for(hr=0;hr<HOST_REGS;hr++) {
3676 if(i_regs->regmap[hr]>=0) reglist|=1<<hr;
3678 if(i==0||itype[i-1]!=C2OP)
3681 if (gte_handlers[c2op]!=NULL) {
3682 int cc=get_reg(i_regs->regmap,CCREG);
3683 emit_movimm(source[i],temp); // opcode
3684 if (cc>=0&>e_cycletab[c2op])
3685 emit_addimm(cc,gte_cycletab[c2op]/2,cc); // XXX: cound just adjust ccadj?
3686 emit_writeword(temp,(int)&psxRegs.code);
3687 emit_call((int)gte_handlers[c2op]);
3690 if(i>=slen-1||itype[i+1]!=C2OP)
3691 restore_regs(reglist);
3694 void cop1_unusable(int i,struct regstat *i_regs)
3696 // XXX: should just just do the exception instead
3700 add_stub(FP_STUB,jaddr,(int)out,i,0,(int)i_regs,is_delayslot,0);
3705 void cop1_assemble(int i,struct regstat *i_regs)
3707 #ifndef DISABLE_COP1
3708 // Check cop1 unusable
3710 signed char rs=get_reg(i_regs->regmap,CSREG);
3712 emit_testimm(rs,0x20000000);
3715 add_stub(FP_STUB,jaddr,(int)out,i,rs,(int)i_regs,is_delayslot,0);
3718 if (opcode2[i]==0) { // MFC1
3719 signed char tl=get_reg(i_regs->regmap,rt1[i]);
3721 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],tl);
3722 emit_readword_indexed(0,tl,tl);
3725 else if (opcode2[i]==1) { // DMFC1
3726 signed char tl=get_reg(i_regs->regmap,rt1[i]);
3727 signed char th=get_reg(i_regs->regmap,rt1[i]|64);
3729 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],tl);
3730 if(th>=0) emit_readword_indexed(4,tl,th);
3731 emit_readword_indexed(0,tl,tl);
3734 else if (opcode2[i]==4) { // MTC1
3735 signed char sl=get_reg(i_regs->regmap,rs1[i]);
3736 signed char temp=get_reg(i_regs->regmap,-1);
3737 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp);
3738 emit_writeword_indexed(sl,0,temp);
3740 else if (opcode2[i]==5) { // DMTC1
3741 signed char sl=get_reg(i_regs->regmap,rs1[i]);
3742 signed char sh=rs1[i]>0?get_reg(i_regs->regmap,rs1[i]|64):sl;
3743 signed char temp=get_reg(i_regs->regmap,-1);
3744 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],temp);
3745 emit_writeword_indexed(sh,4,temp);
3746 emit_writeword_indexed(sl,0,temp);
3748 else if (opcode2[i]==2) // CFC1
3750 signed char tl=get_reg(i_regs->regmap,rt1[i]);
3752 u_int copr=(source[i]>>11)&0x1f;
3753 if(copr==0) emit_readword((int)&FCR0,tl);
3754 if(copr==31) emit_readword((int)&FCR31,tl);
3757 else if (opcode2[i]==6) // CTC1
3759 signed char sl=get_reg(i_regs->regmap,rs1[i]);
3760 u_int copr=(source[i]>>11)&0x1f;
3764 emit_writeword(sl,(int)&FCR31);
3765 // Set the rounding mode
3767 //char temp=get_reg(i_regs->regmap,-1);
3768 //emit_andimm(sl,3,temp);
3769 //emit_fldcw_indexed((int)&rounding_modes,temp);
3773 cop1_unusable(i, i_regs);
3777 void fconv_assemble_arm(int i,struct regstat *i_regs)
3779 #ifndef DISABLE_COP1
3780 signed char temp=get_reg(i_regs->regmap,-1);
3782 // Check cop1 unusable
3784 signed char rs=get_reg(i_regs->regmap,CSREG);
3786 emit_testimm(rs,0x20000000);
3789 add_stub(FP_STUB,jaddr,(int)out,i,rs,(int)i_regs,is_delayslot,0);
3793 #if(defined(__VFP_FP__) && !defined(__SOFTFP__))
3794 if(opcode2[i]==0x10&&(source[i]&0x3f)==0x0d) { // trunc_w_s
3795 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp);
3797 emit_ftosizs(15,15); // float->int, truncate
3798 if(((source[i]>>11)&0x1f)!=((source[i]>>6)&0x1f))
3799 emit_readword((int)®_cop1_simple[(source[i]>>6)&0x1f],temp);
3803 if(opcode2[i]==0x11&&(source[i]&0x3f)==0x0d) { // trunc_w_d
3804 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],temp);
3806 emit_ftosizd(7,13); // double->int, truncate
3807 emit_readword((int)®_cop1_simple[(source[i]>>6)&0x1f],temp);
3812 if(opcode2[i]==0x14&&(source[i]&0x3f)==0x20) { // cvt_s_w
3813 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp);
3815 if(((source[i]>>11)&0x1f)!=((source[i]>>6)&0x1f))
3816 emit_readword((int)®_cop1_simple[(source[i]>>6)&0x1f],temp);
3821 if(opcode2[i]==0x14&&(source[i]&0x3f)==0x21) { // cvt_d_w
3822 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp);
3824 emit_readword((int)®_cop1_double[(source[i]>>6)&0x1f],temp);
3830 if(opcode2[i]==0x10&&(source[i]&0x3f)==0x21) { // cvt_d_s
3831 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp);
3833 emit_readword((int)®_cop1_double[(source[i]>>6)&0x1f],temp);
3838 if(opcode2[i]==0x11&&(source[i]&0x3f)==0x20) { // cvt_s_d
3839 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],temp);
3841 emit_readword((int)®_cop1_simple[(source[i]>>6)&0x1f],temp);
3851 for(hr=0;hr<HOST_REGS;hr++) {
3852 if(i_regs->regmap[hr]>=0) reglist|=1<<hr;
3856 if(opcode2[i]==0x14&&(source[i]&0x3f)==0x20) {
3857 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],ARG1_REG);
3858 emit_readword((int)®_cop1_simple[(source[i]>> 6)&0x1f],ARG2_REG);
3859 emit_call((int)cvt_s_w);
3861 if(opcode2[i]==0x14&&(source[i]&0x3f)==0x21) {
3862 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],ARG1_REG);
3863 emit_readword((int)®_cop1_double[(source[i]>> 6)&0x1f],ARG2_REG);
3864 emit_call((int)cvt_d_w);
3866 if(opcode2[i]==0x15&&(source[i]&0x3f)==0x20) {
3867 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],ARG1_REG);
3868 emit_readword((int)®_cop1_simple[(source[i]>> 6)&0x1f],ARG2_REG);
3869 emit_call((int)cvt_s_l);
3871 if(opcode2[i]==0x15&&(source[i]&0x3f)==0x21) {
3872 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],ARG1_REG);
3873 emit_readword((int)®_cop1_double[(source[i]>> 6)&0x1f],ARG2_REG);
3874 emit_call((int)cvt_d_l);
3877 if(opcode2[i]==0x10&&(source[i]&0x3f)==0x21) {
3878 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],ARG1_REG);
3879 emit_readword((int)®_cop1_double[(source[i]>> 6)&0x1f],ARG2_REG);
3880 emit_call((int)cvt_d_s);
3882 if(opcode2[i]==0x10&&(source[i]&0x3f)==0x24) {
3883 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],ARG1_REG);
3884 emit_readword((int)®_cop1_simple[(source[i]>> 6)&0x1f],ARG2_REG);
3885 emit_call((int)cvt_w_s);
3887 if(opcode2[i]==0x10&&(source[i]&0x3f)==0x25) {
3888 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],ARG1_REG);
3889 emit_readword((int)®_cop1_double[(source[i]>> 6)&0x1f],ARG2_REG);
3890 emit_call((int)cvt_l_s);
3893 if(opcode2[i]==0x11&&(source[i]&0x3f)==0x20) {
3894 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],ARG1_REG);
3895 emit_readword((int)®_cop1_simple[(source[i]>> 6)&0x1f],ARG2_REG);
3896 emit_call((int)cvt_s_d);
3898 if(opcode2[i]==0x11&&(source[i]&0x3f)==0x24) {
3899 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],ARG1_REG);
3900 emit_readword((int)®_cop1_simple[(source[i]>> 6)&0x1f],ARG2_REG);
3901 emit_call((int)cvt_w_d);
3903 if(opcode2[i]==0x11&&(source[i]&0x3f)==0x25) {
3904 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],ARG1_REG);
3905 emit_readword((int)®_cop1_double[(source[i]>> 6)&0x1f],ARG2_REG);
3906 emit_call((int)cvt_l_d);
3909 if(opcode2[i]==0x10&&(source[i]&0x3f)==0x08) {
3910 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],ARG1_REG);
3911 emit_readword((int)®_cop1_double[(source[i]>> 6)&0x1f],ARG2_REG);
3912 emit_call((int)round_l_s);
3914 if(opcode2[i]==0x10&&(source[i]&0x3f)==0x09) {
3915 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],ARG1_REG);
3916 emit_readword((int)®_cop1_double[(source[i]>> 6)&0x1f],ARG2_REG);
3917 emit_call((int)trunc_l_s);
3919 if(opcode2[i]==0x10&&(source[i]&0x3f)==0x0a) {
3920 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],ARG1_REG);
3921 emit_readword((int)®_cop1_double[(source[i]>> 6)&0x1f],ARG2_REG);
3922 emit_call((int)ceil_l_s);
3924 if(opcode2[i]==0x10&&(source[i]&0x3f)==0x0b) {
3925 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],ARG1_REG);
3926 emit_readword((int)®_cop1_double[(source[i]>> 6)&0x1f],ARG2_REG);
3927 emit_call((int)floor_l_s);
3929 if(opcode2[i]==0x10&&(source[i]&0x3f)==0x0c) {
3930 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],ARG1_REG);
3931 emit_readword((int)®_cop1_simple[(source[i]>> 6)&0x1f],ARG2_REG);
3932 emit_call((int)round_w_s);
3934 if(opcode2[i]==0x10&&(source[i]&0x3f)==0x0d) {
3935 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],ARG1_REG);
3936 emit_readword((int)®_cop1_simple[(source[i]>> 6)&0x1f],ARG2_REG);
3937 emit_call((int)trunc_w_s);
3939 if(opcode2[i]==0x10&&(source[i]&0x3f)==0x0e) {
3940 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],ARG1_REG);
3941 emit_readword((int)®_cop1_simple[(source[i]>> 6)&0x1f],ARG2_REG);
3942 emit_call((int)ceil_w_s);
3944 if(opcode2[i]==0x10&&(source[i]&0x3f)==0x0f) {
3945 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],ARG1_REG);
3946 emit_readword((int)®_cop1_simple[(source[i]>> 6)&0x1f],ARG2_REG);
3947 emit_call((int)floor_w_s);
3950 if(opcode2[i]==0x11&&(source[i]&0x3f)==0x08) {
3951 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],ARG1_REG);
3952 emit_readword((int)®_cop1_double[(source[i]>> 6)&0x1f],ARG2_REG);
3953 emit_call((int)round_l_d);
3955 if(opcode2[i]==0x11&&(source[i]&0x3f)==0x09) {
3956 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],ARG1_REG);
3957 emit_readword((int)®_cop1_double[(source[i]>> 6)&0x1f],ARG2_REG);
3958 emit_call((int)trunc_l_d);
3960 if(opcode2[i]==0x11&&(source[i]&0x3f)==0x0a) {
3961 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],ARG1_REG);
3962 emit_readword((int)®_cop1_double[(source[i]>> 6)&0x1f],ARG2_REG);
3963 emit_call((int)ceil_l_d);
3965 if(opcode2[i]==0x11&&(source[i]&0x3f)==0x0b) {
3966 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],ARG1_REG);
3967 emit_readword((int)®_cop1_double[(source[i]>> 6)&0x1f],ARG2_REG);
3968 emit_call((int)floor_l_d);
3970 if(opcode2[i]==0x11&&(source[i]&0x3f)==0x0c) {
3971 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],ARG1_REG);
3972 emit_readword((int)®_cop1_simple[(source[i]>> 6)&0x1f],ARG2_REG);
3973 emit_call((int)round_w_d);
3975 if(opcode2[i]==0x11&&(source[i]&0x3f)==0x0d) {
3976 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],ARG1_REG);
3977 emit_readword((int)®_cop1_simple[(source[i]>> 6)&0x1f],ARG2_REG);
3978 emit_call((int)trunc_w_d);
3980 if(opcode2[i]==0x11&&(source[i]&0x3f)==0x0e) {
3981 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],ARG1_REG);
3982 emit_readword((int)®_cop1_simple[(source[i]>> 6)&0x1f],ARG2_REG);
3983 emit_call((int)ceil_w_d);
3985 if(opcode2[i]==0x11&&(source[i]&0x3f)==0x0f) {
3986 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],ARG1_REG);
3987 emit_readword((int)®_cop1_simple[(source[i]>> 6)&0x1f],ARG2_REG);
3988 emit_call((int)floor_w_d);
3991 restore_regs(reglist);
3993 cop1_unusable(i, i_regs);
3996 #define fconv_assemble fconv_assemble_arm
3998 void fcomp_assemble(int i,struct regstat *i_regs)
4000 #ifndef DISABLE_COP1
4001 signed char fs=get_reg(i_regs->regmap,FSREG);
4002 signed char temp=get_reg(i_regs->regmap,-1);
4004 // Check cop1 unusable
4006 signed char cs=get_reg(i_regs->regmap,CSREG);
4008 emit_testimm(cs,0x20000000);
4011 add_stub(FP_STUB,jaddr,(int)out,i,cs,(int)i_regs,is_delayslot,0);
4015 if((source[i]&0x3f)==0x30) {
4016 emit_andimm(fs,~0x800000,fs);
4020 if((source[i]&0x3e)==0x38) {
4021 // sf/ngle - these should throw exceptions for NaNs
4022 emit_andimm(fs,~0x800000,fs);
4026 #if(defined(__VFP_FP__) && !defined(__SOFTFP__))
4027 if(opcode2[i]==0x10) {
4028 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp);
4029 emit_readword((int)®_cop1_simple[(source[i]>>16)&0x1f],HOST_TEMPREG);
4030 emit_orimm(fs,0x800000,fs);
4032 emit_flds(HOST_TEMPREG,15);
4035 if((source[i]&0x3f)==0x31) emit_bicvc_imm(fs,0x800000,fs); // c_un_s
4036 if((source[i]&0x3f)==0x32) emit_bicne_imm(fs,0x800000,fs); // c_eq_s
4037 if((source[i]&0x3f)==0x33) {emit_bicne_imm(fs,0x800000,fs);emit_orrvs_imm(fs,0x800000,fs);} // c_ueq_s
4038 if((source[i]&0x3f)==0x34) emit_biccs_imm(fs,0x800000,fs); // c_olt_s
4039 if((source[i]&0x3f)==0x35) {emit_biccs_imm(fs,0x800000,fs);emit_orrvs_imm(fs,0x800000,fs);} // c_ult_s
4040 if((source[i]&0x3f)==0x36) emit_bichi_imm(fs,0x800000,fs); // c_ole_s
4041 if((source[i]&0x3f)==0x37) {emit_bichi_imm(fs,0x800000,fs);emit_orrvs_imm(fs,0x800000,fs);} // c_ule_s
4042 if((source[i]&0x3f)==0x3a) emit_bicne_imm(fs,0x800000,fs); // c_seq_s
4043 if((source[i]&0x3f)==0x3b) emit_bicne_imm(fs,0x800000,fs); // c_ngl_s
4044 if((source[i]&0x3f)==0x3c) emit_biccs_imm(fs,0x800000,fs); // c_lt_s
4045 if((source[i]&0x3f)==0x3d) emit_biccs_imm(fs,0x800000,fs); // c_nge_s
4046 if((source[i]&0x3f)==0x3e) emit_bichi_imm(fs,0x800000,fs); // c_le_s
4047 if((source[i]&0x3f)==0x3f) emit_bichi_imm(fs,0x800000,fs); // c_ngt_s
4050 if(opcode2[i]==0x11) {
4051 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],temp);
4052 emit_readword((int)®_cop1_double[(source[i]>>16)&0x1f],HOST_TEMPREG);
4053 emit_orimm(fs,0x800000,fs);
4055 emit_vldr(HOST_TEMPREG,7);
4058 if((source[i]&0x3f)==0x31) emit_bicvc_imm(fs,0x800000,fs); // c_un_d
4059 if((source[i]&0x3f)==0x32) emit_bicne_imm(fs,0x800000,fs); // c_eq_d
4060 if((source[i]&0x3f)==0x33) {emit_bicne_imm(fs,0x800000,fs);emit_orrvs_imm(fs,0x800000,fs);} // c_ueq_d
4061 if((source[i]&0x3f)==0x34) emit_biccs_imm(fs,0x800000,fs); // c_olt_d
4062 if((source[i]&0x3f)==0x35) {emit_biccs_imm(fs,0x800000,fs);emit_orrvs_imm(fs,0x800000,fs);} // c_ult_d
4063 if((source[i]&0x3f)==0x36) emit_bichi_imm(fs,0x800000,fs); // c_ole_d
4064 if((source[i]&0x3f)==0x37) {emit_bichi_imm(fs,0x800000,fs);emit_orrvs_imm(fs,0x800000,fs);} // c_ule_d
4065 if((source[i]&0x3f)==0x3a) emit_bicne_imm(fs,0x800000,fs); // c_seq_d
4066 if((source[i]&0x3f)==0x3b) emit_bicne_imm(fs,0x800000,fs); // c_ngl_d
4067 if((source[i]&0x3f)==0x3c) emit_biccs_imm(fs,0x800000,fs); // c_lt_d
4068 if((source[i]&0x3f)==0x3d) emit_biccs_imm(fs,0x800000,fs); // c_nge_d
4069 if((source[i]&0x3f)==0x3e) emit_bichi_imm(fs,0x800000,fs); // c_le_d
4070 if((source[i]&0x3f)==0x3f) emit_bichi_imm(fs,0x800000,fs); // c_ngt_d
4078 for(hr=0;hr<HOST_REGS;hr++) {
4079 if(i_regs->regmap[hr]>=0) reglist|=1<<hr;
4083 if(opcode2[i]==0x10) {
4084 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],ARG1_REG);
4085 emit_readword((int)®_cop1_simple[(source[i]>>16)&0x1f],ARG2_REG);
4086 if((source[i]&0x3f)==0x30) emit_call((int)c_f_s);
4087 if((source[i]&0x3f)==0x31) emit_call((int)c_un_s);
4088 if((source[i]&0x3f)==0x32) emit_call((int)c_eq_s);
4089 if((source[i]&0x3f)==0x33) emit_call((int)c_ueq_s);
4090 if((source[i]&0x3f)==0x34) emit_call((int)c_olt_s);
4091 if((source[i]&0x3f)==0x35) emit_call((int)c_ult_s);
4092 if((source[i]&0x3f)==0x36) emit_call((int)c_ole_s);
4093 if((source[i]&0x3f)==0x37) emit_call((int)c_ule_s);
4094 if((source[i]&0x3f)==0x38) emit_call((int)c_sf_s);
4095 if((source[i]&0x3f)==0x39) emit_call((int)c_ngle_s);
4096 if((source[i]&0x3f)==0x3a) emit_call((int)c_seq_s);
4097 if((source[i]&0x3f)==0x3b) emit_call((int)c_ngl_s);
4098 if((source[i]&0x3f)==0x3c) emit_call((int)c_lt_s);
4099 if((source[i]&0x3f)==0x3d) emit_call((int)c_nge_s);
4100 if((source[i]&0x3f)==0x3e) emit_call((int)c_le_s);
4101 if((source[i]&0x3f)==0x3f) emit_call((int)c_ngt_s);
4103 if(opcode2[i]==0x11) {
4104 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],ARG1_REG);
4105 emit_readword((int)®_cop1_double[(source[i]>>16)&0x1f],ARG2_REG);
4106 if((source[i]&0x3f)==0x30) emit_call((int)c_f_d);
4107 if((source[i]&0x3f)==0x31) emit_call((int)c_un_d);
4108 if((source[i]&0x3f)==0x32) emit_call((int)c_eq_d);
4109 if((source[i]&0x3f)==0x33) emit_call((int)c_ueq_d);
4110 if((source[i]&0x3f)==0x34) emit_call((int)c_olt_d);
4111 if((source[i]&0x3f)==0x35) emit_call((int)c_ult_d);
4112 if((source[i]&0x3f)==0x36) emit_call((int)c_ole_d);
4113 if((source[i]&0x3f)==0x37) emit_call((int)c_ule_d);
4114 if((source[i]&0x3f)==0x38) emit_call((int)c_sf_d);
4115 if((source[i]&0x3f)==0x39) emit_call((int)c_ngle_d);
4116 if((source[i]&0x3f)==0x3a) emit_call((int)c_seq_d);
4117 if((source[i]&0x3f)==0x3b) emit_call((int)c_ngl_d);
4118 if((source[i]&0x3f)==0x3c) emit_call((int)c_lt_d);
4119 if((source[i]&0x3f)==0x3d) emit_call((int)c_nge_d);
4120 if((source[i]&0x3f)==0x3e) emit_call((int)c_le_d);
4121 if((source[i]&0x3f)==0x3f) emit_call((int)c_ngt_d);
4123 restore_regs(reglist);
4124 emit_loadreg(FSREG,fs);
4126 cop1_unusable(i, i_regs);
4130 void float_assemble(int i,struct regstat *i_regs)
4132 #ifndef DISABLE_COP1
4133 signed char temp=get_reg(i_regs->regmap,-1);
4135 // Check cop1 unusable
4137 signed char cs=get_reg(i_regs->regmap,CSREG);
4139 emit_testimm(cs,0x20000000);
4142 add_stub(FP_STUB,jaddr,(int)out,i,cs,(int)i_regs,is_delayslot,0);
4146 #if(defined(__VFP_FP__) && !defined(__SOFTFP__))
4147 if((source[i]&0x3f)==6) // mov
4149 if(((source[i]>>11)&0x1f)!=((source[i]>>6)&0x1f)) {
4150 if(opcode2[i]==0x10) {
4151 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp);
4152 emit_readword((int)®_cop1_simple[(source[i]>>6)&0x1f],HOST_TEMPREG);
4153 emit_readword_indexed(0,temp,temp);
4154 emit_writeword_indexed(temp,0,HOST_TEMPREG);
4156 if(opcode2[i]==0x11) {
4157 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],temp);
4158 emit_readword((int)®_cop1_double[(source[i]>>6)&0x1f],HOST_TEMPREG);
4160 emit_vstr(7,HOST_TEMPREG);
4166 if((source[i]&0x3f)>3)
4168 if(opcode2[i]==0x10) {
4169 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp);
4171 if(((source[i]>>11)&0x1f)!=((source[i]>>6)&0x1f)) {
4172 emit_readword((int)®_cop1_simple[(source[i]>>6)&0x1f],temp);
4174 if((source[i]&0x3f)==4) // sqrt
4176 if((source[i]&0x3f)==5) // abs
4178 if((source[i]&0x3f)==7) // neg
4182 if(opcode2[i]==0x11) {
4183 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],temp);
4185 if(((source[i]>>11)&0x1f)!=((source[i]>>6)&0x1f)) {
4186 emit_readword((int)®_cop1_double[(source[i]>>6)&0x1f],temp);
4188 if((source[i]&0x3f)==4) // sqrt
4190 if((source[i]&0x3f)==5) // abs
4192 if((source[i]&0x3f)==7) // neg
4198 if((source[i]&0x3f)<4)
4200 if(opcode2[i]==0x10) {
4201 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp);
4203 if(opcode2[i]==0x11) {
4204 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],temp);
4206 if(((source[i]>>11)&0x1f)!=((source[i]>>16)&0x1f)) {
4207 if(opcode2[i]==0x10) {
4208 emit_readword((int)®_cop1_simple[(source[i]>>16)&0x1f],HOST_TEMPREG);
4210 emit_flds(HOST_TEMPREG,13);
4211 if(((source[i]>>11)&0x1f)!=((source[i]>>6)&0x1f)) {
4212 if(((source[i]>>16)&0x1f)!=((source[i]>>6)&0x1f)) {
4213 emit_readword((int)®_cop1_simple[(source[i]>>6)&0x1f],temp);
4216 if((source[i]&0x3f)==0) emit_fadds(15,13,15);
4217 if((source[i]&0x3f)==1) emit_fsubs(15,13,15);
4218 if((source[i]&0x3f)==2) emit_fmuls(15,13,15);
4219 if((source[i]&0x3f)==3) emit_fdivs(15,13,15);
4220 if(((source[i]>>16)&0x1f)==((source[i]>>6)&0x1f)) {
4221 emit_fsts(15,HOST_TEMPREG);
4226 else if(opcode2[i]==0x11) {
4227 emit_readword((int)®_cop1_double[(source[i]>>16)&0x1f],HOST_TEMPREG);
4229 emit_vldr(HOST_TEMPREG,6);
4230 if(((source[i]>>11)&0x1f)!=((source[i]>>6)&0x1f)) {
4231 if(((source[i]>>16)&0x1f)!=((source[i]>>6)&0x1f)) {
4232 emit_readword((int)®_cop1_double[(source[i]>>6)&0x1f],temp);
4235 if((source[i]&0x3f)==0) emit_faddd(7,6,7);
4236 if((source[i]&0x3f)==1) emit_fsubd(7,6,7);
4237 if((source[i]&0x3f)==2) emit_fmuld(7,6,7);
4238 if((source[i]&0x3f)==3) emit_fdivd(7,6,7);
4239 if(((source[i]>>16)&0x1f)==((source[i]>>6)&0x1f)) {
4240 emit_vstr(7,HOST_TEMPREG);
4247 if(opcode2[i]==0x10) {
4249 if(((source[i]>>11)&0x1f)!=((source[i]>>6)&0x1f)) {
4250 emit_readword((int)®_cop1_simple[(source[i]>>6)&0x1f],temp);
4252 if((source[i]&0x3f)==0) emit_fadds(15,15,15);
4253 if((source[i]&0x3f)==1) emit_fsubs(15,15,15);
4254 if((source[i]&0x3f)==2) emit_fmuls(15,15,15);
4255 if((source[i]&0x3f)==3) emit_fdivs(15,15,15);
4258 else if(opcode2[i]==0x11) {
4260 if(((source[i]>>11)&0x1f)!=((source[i]>>6)&0x1f)) {
4261 emit_readword((int)®_cop1_double[(source[i]>>6)&0x1f],temp);
4263 if((source[i]&0x3f)==0) emit_faddd(7,7,7);
4264 if((source[i]&0x3f)==1) emit_fsubd(7,7,7);
4265 if((source[i]&0x3f)==2) emit_fmuld(7,7,7);
4266 if((source[i]&0x3f)==3) emit_fdivd(7,7,7);
4275 for(hr=0;hr<HOST_REGS;hr++) {
4276 if(i_regs->regmap[hr]>=0) reglist|=1<<hr;
4278 if(opcode2[i]==0x10) { // Single precision
4280 emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],ARG1_REG);
4281 if((source[i]&0x3f)<4) {
4282 emit_readword((int)®_cop1_simple[(source[i]>>16)&0x1f],ARG2_REG);
4283 emit_readword((int)®_cop1_simple[(source[i]>> 6)&0x1f],ARG3_REG);
4285 emit_readword((int)®_cop1_simple[(source[i]>> 6)&0x1f],ARG2_REG);
4287 switch(source[i]&0x3f)
4289 case 0x00: emit_call((int)add_s);break;
4290 case 0x01: emit_call((int)sub_s);break;
4291 case 0x02: emit_call((int)mul_s);break;
4292 case 0x03: emit_call((int)div_s);break;
4293 case 0x04: emit_call((int)sqrt_s);break;
4294 case 0x05: emit_call((int)abs_s);break;
4295 case 0x06: emit_call((int)mov_s);break;
4296 case 0x07: emit_call((int)neg_s);break;
4298 restore_regs(reglist);
4300 if(opcode2[i]==0x11) { // Double precision
4302 emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],ARG1_REG);
4303 if((source[i]&0x3f)<4) {
4304 emit_readword((int)®_cop1_double[(source[i]>>16)&0x1f],ARG2_REG);
4305 emit_readword((int)®_cop1_double[(source[i]>> 6)&0x1f],ARG3_REG);
4307 emit_readword((int)®_cop1_double[(source[i]>> 6)&0x1f],ARG2_REG);
4309 switch(source[i]&0x3f)
4311 case 0x00: emit_call((int)add_d);break;
4312 case 0x01: emit_call((int)sub_d);break;
4313 case 0x02: emit_call((int)mul_d);break;
4314 case 0x03: emit_call((int)div_d);break;
4315 case 0x04: emit_call((int)sqrt_d);break;
4316 case 0x05: emit_call((int)abs_d);break;
4317 case 0x06: emit_call((int)mov_d);break;
4318 case 0x07: emit_call((int)neg_d);break;
4320 restore_regs(reglist);
4323 cop1_unusable(i, i_regs);
4327 void multdiv_assemble_arm(int i,struct regstat *i_regs)
4334 // case 0x1D: DMULTU
4339 if((opcode2[i]&4)==0) // 32-bit
4341 if(opcode2[i]==0x18) // MULT
4343 signed char m1=get_reg(i_regs->regmap,rs1[i]);
4344 signed char m2=get_reg(i_regs->regmap,rs2[i]);
4345 signed char hi=get_reg(i_regs->regmap,HIREG);
4346 signed char lo=get_reg(i_regs->regmap,LOREG);
4351 emit_smull(m1,m2,hi,lo);
4353 if(opcode2[i]==0x19) // MULTU
4355 signed char m1=get_reg(i_regs->regmap,rs1[i]);
4356 signed char m2=get_reg(i_regs->regmap,rs2[i]);
4357 signed char hi=get_reg(i_regs->regmap,HIREG);
4358 signed char lo=get_reg(i_regs->regmap,LOREG);
4363 emit_umull(m1,m2,hi,lo);
4365 if(opcode2[i]==0x1A) // DIV
4367 signed char d1=get_reg(i_regs->regmap,rs1[i]);
4368 signed char d2=get_reg(i_regs->regmap,rs2[i]);
4371 signed char quotient=get_reg(i_regs->regmap,LOREG);
4372 signed char remainder=get_reg(i_regs->regmap,HIREG);
4373 assert(quotient>=0);
4374 assert(remainder>=0);
4375 emit_movs(d1,remainder);
4376 emit_negmi(remainder,remainder);
4377 emit_movs(d2,HOST_TEMPREG);
4378 emit_jeq((int)out+52); // Division by zero
4379 emit_negmi(HOST_TEMPREG,HOST_TEMPREG);
4380 emit_clz(HOST_TEMPREG,quotient);
4381 emit_shl(HOST_TEMPREG,quotient,HOST_TEMPREG);
4382 emit_orimm(quotient,1<<31,quotient);
4383 emit_shr(quotient,quotient,quotient);
4384 emit_cmp(remainder,HOST_TEMPREG);
4385 emit_subcs(remainder,HOST_TEMPREG,remainder);
4386 emit_adcs(quotient,quotient,quotient);
4387 emit_shrimm(HOST_TEMPREG,1,HOST_TEMPREG);
4388 emit_jcc((int)out-16); // -4
4390 emit_negmi(quotient,quotient);
4392 emit_negmi(remainder,remainder);
4394 if(opcode2[i]==0x1B) // DIVU
4396 signed char d1=get_reg(i_regs->regmap,rs1[i]); // dividend
4397 signed char d2=get_reg(i_regs->regmap,rs2[i]); // divisor
4400 signed char quotient=get_reg(i_regs->regmap,LOREG);
4401 signed char remainder=get_reg(i_regs->regmap,HIREG);
4402 assert(quotient>=0);
4403 assert(remainder>=0);
4405 emit_jeq((int)out+44); // Division by zero
4406 emit_clz(d2,HOST_TEMPREG);
4407 emit_movimm(1<<31,quotient);
4408 emit_shl(d2,HOST_TEMPREG,d2);
4409 emit_mov(d1,remainder);
4410 emit_shr(quotient,HOST_TEMPREG,quotient);
4411 emit_cmp(remainder,d2);
4412 emit_subcs(remainder,d2,remainder);
4413 emit_adcs(quotient,quotient,quotient);
4414 emit_shrcc_imm(d2,1,d2);
4415 emit_jcc((int)out-16); // -4
4420 if(opcode2[i]==0x1C) // DMULT
4422 assert(opcode2[i]!=0x1C);
4423 signed char m1h=get_reg(i_regs->regmap,rs1[i]|64);
4424 signed char m1l=get_reg(i_regs->regmap,rs1[i]);
4425 signed char m2h=get_reg(i_regs->regmap,rs2[i]|64);
4426 signed char m2l=get_reg(i_regs->regmap,rs2[i]);
4435 emit_call((int)&mult64);
4440 signed char hih=get_reg(i_regs->regmap,HIREG|64);
4441 signed char hil=get_reg(i_regs->regmap,HIREG);
4442 if(hih>=0) emit_loadreg(HIREG|64,hih);
4443 if(hil>=0) emit_loadreg(HIREG,hil);
4444 signed char loh=get_reg(i_regs->regmap,LOREG|64);
4445 signed char lol=get_reg(i_regs->regmap,LOREG);
4446 if(loh>=0) emit_loadreg(LOREG|64,loh);
4447 if(lol>=0) emit_loadreg(LOREG,lol);
4449 if(opcode2[i]==0x1D) // DMULTU
4451 signed char m1h=get_reg(i_regs->regmap,rs1[i]|64);
4452 signed char m1l=get_reg(i_regs->regmap,rs1[i]);
4453 signed char m2h=get_reg(i_regs->regmap,rs2[i]|64);
4454 signed char m2l=get_reg(i_regs->regmap,rs2[i]);
4460 if(m1l!=0) emit_mov(m1l,0);
4461 if(m1h==0) emit_readword((int)&dynarec_local,1);
4462 else if(m1h>1) emit_mov(m1h,1);
4463 if(m2l<2) emit_readword((int)&dynarec_local+m2l*4,2);
4464 else if(m2l>2) emit_mov(m2l,2);
4465 if(m2h<3) emit_readword((int)&dynarec_local+m2h*4,3);
4466 else if(m2h>3) emit_mov(m2h,3);
4467 emit_call((int)&multu64);
4468 restore_regs(0x100f);
4469 signed char hih=get_reg(i_regs->regmap,HIREG|64);
4470 signed char hil=get_reg(i_regs->regmap,HIREG);
4471 signed char loh=get_reg(i_regs->regmap,LOREG|64);
4472 signed char lol=get_reg(i_regs->regmap,LOREG);
4473 /*signed char temp=get_reg(i_regs->regmap,-1);
4474 signed char rh=get_reg(i_regs->regmap,HIREG|64);
4475 signed char rl=get_reg(i_regs->regmap,HIREG);
4481 //emit_mov(m1l,EAX);
4483 emit_umull(rl,rh,m1l,m2l);
4484 emit_storereg(LOREG,rl);
4486 //emit_mov(m1h,EAX);
4488 emit_umull(rl,rh,m1h,m2l);
4489 emit_adds(rl,temp,temp);
4490 emit_adcimm(rh,0,rh);
4491 emit_storereg(HIREG,rh);
4492 //emit_mov(m2h,EAX);
4494 emit_umull(rl,rh,m1l,m2h);
4495 emit_adds(rl,temp,temp);
4496 emit_adcimm(rh,0,rh);
4497 emit_storereg(LOREG|64,temp);
4499 //emit_mov(m2h,EAX);
4501 emit_umull(rl,rh,m1h,m2h);
4502 emit_adds(rl,temp,rl);
4503 emit_loadreg(HIREG,temp);
4504 emit_adcimm(rh,0,rh);
4505 emit_adds(rl,temp,rl);
4506 emit_adcimm(rh,0,rh);
4513 emit_call((int)&multu64);
4518 signed char hih=get_reg(i_regs->regmap,HIREG|64);
4519 signed char hil=get_reg(i_regs->regmap,HIREG);
4520 if(hih>=0) emit_loadreg(HIREG|64,hih); // DEBUG
4521 if(hil>=0) emit_loadreg(HIREG,hil); // DEBUG
4523 // Shouldn't be necessary
4524 //char loh=get_reg(i_regs->regmap,LOREG|64);
4525 //char lol=get_reg(i_regs->regmap,LOREG);
4526 //if(loh>=0) emit_loadreg(LOREG|64,loh);
4527 //if(lol>=0) emit_loadreg(LOREG,lol);
4529 if(opcode2[i]==0x1E) // DDIV
4531 signed char d1h=get_reg(i_regs->regmap,rs1[i]|64);
4532 signed char d1l=get_reg(i_regs->regmap,rs1[i]);
4533 signed char d2h=get_reg(i_regs->regmap,rs2[i]|64);
4534 signed char d2l=get_reg(i_regs->regmap,rs2[i]);
4540 if(d1l!=0) emit_mov(d1l,0);
4541 if(d1h==0) emit_readword((int)&dynarec_local,1);
4542 else if(d1h>1) emit_mov(d1h,1);
4543 if(d2l<2) emit_readword((int)&dynarec_local+d2l*4,2);
4544 else if(d2l>2) emit_mov(d2l,2);
4545 if(d2h<3) emit_readword((int)&dynarec_local+d2h*4,3);
4546 else if(d2h>3) emit_mov(d2h,3);
4547 emit_call((int)&div64);
4548 restore_regs(0x100f);
4549 signed char hih=get_reg(i_regs->regmap,HIREG|64);
4550 signed char hil=get_reg(i_regs->regmap,HIREG);
4551 signed char loh=get_reg(i_regs->regmap,LOREG|64);
4552 signed char lol=get_reg(i_regs->regmap,LOREG);
4553 if(hih>=0) emit_loadreg(HIREG|64,hih);
4554 if(hil>=0) emit_loadreg(HIREG,hil);
4555 if(loh>=0) emit_loadreg(LOREG|64,loh);
4556 if(lol>=0) emit_loadreg(LOREG,lol);
4558 if(opcode2[i]==0x1F) // DDIVU
4560 //u_int hr,reglist=0;
4561 //for(hr=0;hr<HOST_REGS;hr++) {
4562 // if(i_regs->regmap[hr]>=0 && (i_regs->regmap[hr]&62)!=HIREG) reglist|=1<<hr;
4564 signed char d1h=get_reg(i_regs->regmap,rs1[i]|64);
4565 signed char d1l=get_reg(i_regs->regmap,rs1[i]);
4566 signed char d2h=get_reg(i_regs->regmap,rs2[i]|64);
4567 signed char d2l=get_reg(i_regs->regmap,rs2[i]);
4573 if(d1l!=0) emit_mov(d1l,0);
4574 if(d1h==0) emit_readword((int)&dynarec_local,1);
4575 else if(d1h>1) emit_mov(d1h,1);
4576 if(d2l<2) emit_readword((int)&dynarec_local+d2l*4,2);
4577 else if(d2l>2) emit_mov(d2l,2);
4578 if(d2h<3) emit_readword((int)&dynarec_local+d2h*4,3);
4579 else if(d2h>3) emit_mov(d2h,3);
4580 emit_call((int)&divu64);
4581 restore_regs(0x100f);
4582 signed char hih=get_reg(i_regs->regmap,HIREG|64);
4583 signed char hil=get_reg(i_regs->regmap,HIREG);
4584 signed char loh=get_reg(i_regs->regmap,LOREG|64);
4585 signed char lol=get_reg(i_regs->regmap,LOREG);
4586 if(hih>=0) emit_loadreg(HIREG|64,hih);
4587 if(hil>=0) emit_loadreg(HIREG,hil);
4588 if(loh>=0) emit_loadreg(LOREG|64,loh);
4589 if(lol>=0) emit_loadreg(LOREG,lol);
4595 // Multiply by zero is zero.
4596 // MIPS does not have a divide by zero exception.
4597 // The result is undefined, we return zero.
4598 signed char hr=get_reg(i_regs->regmap,HIREG);
4599 signed char lr=get_reg(i_regs->regmap,LOREG);
4600 if(hr>=0) emit_zeroreg(hr);
4601 if(lr>=0) emit_zeroreg(lr);
4604 #define multdiv_assemble multdiv_assemble_arm
4606 void do_preload_rhash(int r) {
4607 // Don't need this for ARM. On x86, this puts the value 0xf8 into the
4608 // register. On ARM the hash can be done with a single instruction (below)
4611 void do_preload_rhtbl(int ht) {
4612 emit_addimm(FP,(int)&mini_ht-(int)&dynarec_local,ht);
4615 void do_rhash(int rs,int rh) {
4616 emit_andimm(rs,0xf8,rh);
4619 void do_miniht_load(int ht,int rh) {
4620 assem_debug("ldr %s,[%s,%s]!\n",regname[rh],regname[ht],regname[rh]);
4621 output_w32(0xe7b00000|rd_rn_rm(rh,ht,rh));
4624 void do_miniht_jump(int rs,int rh,int ht) {
4626 emit_ldreq_indexed(ht,4,15);
4627 #ifdef CORTEX_A8_BRANCH_PREDICTION_HACK
4629 emit_jmp(jump_vaddr_reg[7]);
4631 emit_jmp(jump_vaddr_reg[rs]);
4635 void do_miniht_insert(u_int return_address,int rt,int temp) {
4637 emit_movimm(return_address,rt); // PC into link register
4638 add_to_linker((int)out,return_address,1);
4639 emit_pcreladdr(temp);
4640 emit_writeword(rt,(int)&mini_ht[(return_address&0xFF)>>3][0]);
4641 emit_writeword(temp,(int)&mini_ht[(return_address&0xFF)>>3][1]);
4643 emit_movw(return_address&0x0000FFFF,rt);
4644 add_to_linker((int)out,return_address,1);
4645 emit_pcreladdr(temp);
4646 emit_writeword(temp,(int)&mini_ht[(return_address&0xFF)>>3][1]);
4647 emit_movt(return_address&0xFFFF0000,rt);
4648 emit_writeword(rt,(int)&mini_ht[(return_address&0xFF)>>3][0]);
4652 // Sign-extend to 64 bits and write out upper half of a register
4653 // This is useful where we have a 32-bit value in a register, and want to
4654 // keep it in a 32-bit register, but can't guarantee that it won't be read
4655 // as a 64-bit value later.
4656 void wb_sx(signed char pre[],signed char entry[],uint64_t dirty,uint64_t is32_pre,uint64_t is32,uint64_t u,uint64_t uu)
4659 if(is32_pre==is32) return;
4661 for(hr=0;hr<HOST_REGS;hr++) {
4662 if(hr!=EXCLUDE_REG) {
4663 //if(pre[hr]==entry[hr]) {
4664 if((reg=pre[hr])>=0) {
4666 if( ((is32_pre&~is32&~uu)>>reg)&1 ) {
4667 emit_sarimm(hr,31,HOST_TEMPREG);
4668 emit_storereg(reg|64,HOST_TEMPREG);
4678 void wb_valid(signed char pre[],signed char entry[],u_int dirty_pre,u_int dirty,uint64_t is32_pre,uint64_t u,uint64_t uu)
4680 //if(dirty_pre==dirty) return;
4682 for(hr=0;hr<HOST_REGS;hr++) {
4683 if(hr!=EXCLUDE_REG) {
4685 if(((~u)>>(reg&63))&1) {
4686 if(reg==entry[hr]||(reg>0&&entry[hr]<0)) {
4687 if(((dirty_pre&~dirty)>>hr)&1) {
4689 emit_storereg(reg,hr);
4690 if( ((is32_pre&~uu)>>reg)&1 ) {
4691 emit_sarimm(hr,31,HOST_TEMPREG);
4692 emit_storereg(reg|64,HOST_TEMPREG);
4696 emit_storereg(reg,hr);
4700 else // Check if register moved to a different register
4701 if((new_hr=get_reg(entry,reg))>=0) {
4702 if((dirty_pre>>hr)&(~dirty>>new_hr)&1) {
4704 emit_storereg(reg,hr);
4705 if( ((is32_pre&~uu)>>reg)&1 ) {
4706 emit_sarimm(hr,31,HOST_TEMPREG);
4707 emit_storereg(reg|64,HOST_TEMPREG);
4711 emit_storereg(reg,hr);
4721 /* using strd could possibly help but you'd have to allocate registers in pairs
4722 void wb_invalidate_arm(signed char pre[],signed char entry[],uint64_t dirty,uint64_t is32,uint64_t u,uint64_t uu)
4726 for(hr=HOST_REGS-1;hr>=0;hr--) {
4727 if(hr!=EXCLUDE_REG) {
4728 if(pre[hr]!=entry[hr]) {
4731 if(get_reg(entry,pre[hr])<0) {
4733 if(!((u>>pre[hr])&1)) {
4734 if(hr<10&&(~hr&1)&&(pre[hr+1]<0||wrote==hr+1)) {
4735 if( ((is32>>pre[hr])&1) && !((uu>>pre[hr])&1) ) {
4736 emit_sarimm(hr,31,hr+1);
4737 emit_strdreg(pre[hr],hr);
4740 emit_storereg(pre[hr],hr);
4742 emit_storereg(pre[hr],hr);
4743 if( ((is32>>pre[hr])&1) && !((uu>>pre[hr])&1) ) {
4744 emit_sarimm(hr,31,hr);
4745 emit_storereg(pre[hr]|64,hr);
4750 if(!((uu>>(pre[hr]&63))&1) && !((is32>>(pre[hr]&63))&1)) {
4751 emit_storereg(pre[hr],hr);
4761 for(hr=0;hr<HOST_REGS;hr++) {
4762 if(hr!=EXCLUDE_REG) {
4763 if(pre[hr]!=entry[hr]) {
4766 if((nr=get_reg(entry,pre[hr]))>=0) {
4774 #define wb_invalidate wb_invalidate_arm
4777 // CPU-architecture-specific initialization
4779 #ifndef DISABLE_COP1
4780 rounding_modes[0]=0x0<<22; // round
4781 rounding_modes[1]=0x3<<22; // trunc
4782 rounding_modes[2]=0x1<<22; // ceil
4783 rounding_modes[3]=0x2<<22; // floor
4787 // vim:shiftwidth=2:expandtab