X-Git-Url: https://notaz.gp2x.de/cgi-bin/gitweb.cgi?a=blobdiff_plain;f=libpcsxcore%2Fnew_dynarec%2Fassem_x64.c;fp=libpcsxcore%2Fnew_dynarec%2Fassem_x64.c;h=bd1f8f856f7a3a7d76eed042ea651d426c6815fa;hb=57871462a0b157066bbc4a763c59b61085436609;hp=0000000000000000000000000000000000000000;hpb=14dffdb7a0457fc647103deafa5f1cac12e888fb;p=pcsx_rearmed.git diff --git a/libpcsxcore/new_dynarec/assem_x64.c b/libpcsxcore/new_dynarec/assem_x64.c new file mode 100644 index 00000000..bd1f8f85 --- /dev/null +++ b/libpcsxcore/new_dynarec/assem_x64.c @@ -0,0 +1,4287 @@ +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * + * Mupen64plus - assem_x64.c * + * Copyright (C) 2009-2010 Ari64 * + * * + * This program is free software; you can redistribute it and/or modify * + * it under the terms of the GNU General Public License as published by * + * the Free Software Foundation; either version 2 of the License, or * + * (at your option) any later version. * + * * + * This program is distributed in the hope that it will be useful, * + * but WITHOUT ANY WARRANTY; without even the implied warranty of * + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * + * GNU General Public License for more details. * + * * + * You should have received a copy of the GNU General Public License * + * along with this program; if not, write to the * + * Free Software Foundation, Inc., * + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * + * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +int cycle_count; +int last_count; +int pcaddr; +int pending_exception; +int branch_target; +uint64_t readmem_dword; +precomp_instr fake_pc; +u_int memory_map[1048576]; +u_int mini_ht[32][2] __attribute__((aligned(8))); +u_char restore_candidate[512] __attribute__((aligned(4))); + +void do_interrupt(); +void jump_vaddr_eax(); +void jump_vaddr_ecx(); +void jump_vaddr_edx(); +void jump_vaddr_ebx(); +void jump_vaddr_ebp(); +void jump_vaddr_edi(); + +const void * jump_vaddr_reg[8] = { + jump_vaddr_eax, + jump_vaddr_ecx, + jump_vaddr_edx, + jump_vaddr_ebx, + 0, + jump_vaddr_ebp, + 0, + jump_vaddr_edi }; + +const u_short rounding_modes[4] = { + 0x33F, // round + 0xF3F, // trunc + 0xB3F, // ceil + 0x73F};// floor + +#include "fpu.h" + +// We need these for cmovcc instructions on x86 +u_int const_zero=0; +u_int const_one=1; + +/* Linker */ + +void set_jump_target(int addr,int target) +{ + u_char *ptr=(u_char *)addr; + if(*ptr==0x0f) + { + assert(ptr[1]>=0x80&&ptr[1]<=0x8f); + u_int *ptr2=(u_int *)(ptr+2); + *ptr2=target-(int)ptr2-4; + } + else if(*ptr==0xe8||*ptr==0xe9) { + u_int *ptr2=(u_int *)(ptr+1); + *ptr2=target-(int)ptr2-4; + } + else + { + assert(*ptr==0xc7); /* mov immediate (store address) */ + u_int *ptr2=(u_int *)(ptr+6); + *ptr2=target; + } +} + +void kill_pointer(void *stub) +{ + int i_ptr=*((int *)(stub+6)); + *((int *)i_ptr)=(int)stub-(int)i_ptr-4; +} +int get_pointer(void *stub) +{ + int i_ptr=*((int *)(stub+6)); + return *((int *)i_ptr)+(int)i_ptr+4; +} + +// Find the "clean" entry point from a "dirty" entry point +// by skipping past the call to verify_code +u_int get_clean_addr(int addr) +{ + u_char *ptr=(u_char *)addr; + assert(ptr[21]==0xE8); // call instruction + if(ptr[26]==0xE9) return *(u_int *)(ptr+27)+addr+31; // follow jmp + else return(addr+26); +} + +int verify_dirty(int addr) +{ + u_char *ptr=(u_char *)addr; + assert(ptr[0]==0xB8); + u_int source=*(u_int *)(ptr+1); + u_int copy=*(u_int *)(ptr+6); + u_int len=*(u_int *)(ptr+11); + //printf("source=%x source-rdram=%x\n",source,source-(int)rdram); + assert(ptr[21]==0xE8); // call instruction + u_int verifier=*(u_int *)(ptr+22)+(u_int)ptr+26; + if(verifier==(u_int)verify_code_vm||verifier==(u_int)verify_code_ds) { + unsigned int page=source>>12; + unsigned int map_value=memory_map[page]; + if(map_value>=0x80000000) return 0; + while(page<((source+len-1)>>12)) { + if((memory_map[++page]<<2)!=(map_value<<2)) return 0; + } + source = source+(map_value<<2); + } + //printf("verify_dirty: %x %x %x\n",source,copy,len); + return !memcmp((void *)source,(void *)copy,len); +} + +// This doesn't necessarily find all clean entry points, just +// guarantees that it's not dirty +int isclean(int addr) +{ + u_char *ptr=(u_char *)addr; + if(ptr[0]!=0xB8) return 1; // mov imm,%eax + if(ptr[5]!=0xBB) return 1; // mov imm,%ebx + if(ptr[10]!=0xB9) return 1; // mov imm,%ecx + if(ptr[15]!=0x41) return 1; // rex prefix + if(ptr[16]!=0xBC) return 1; // mov imm,%r12d + if(ptr[21]!=0xE8) return 1; // call instruction + return 0; +} + +void get_bounds(int addr,u_int *start,u_int *end) +{ + u_char *ptr=(u_char *)addr; + assert(ptr[0]==0xB8); + u_int source=*(u_int *)(ptr+1); + //u_int copy=*(u_int *)(ptr+6); + u_int len=*(u_int *)(ptr+11); + assert(ptr[21]==0xE8); // call instruction + u_int verifier=*(u_int *)(ptr+22)+(u_int)ptr+26; + if(verifier==(u_int)verify_code_vm||verifier==(u_int)verify_code_ds) { + if(memory_map[source>>12]>=0x80000000) source = 0; + else source = source+(memory_map[source>>12]<<2); + } + *start=source; + *end=source+len; +} + +/* Register allocation */ + +// Note: registers are allocated clean (unmodified state) +// if you intend to modify the register, you must call dirty_reg(). +void alloc_reg(struct regstat *cur,int i,signed char reg) +{ + int r,hr; + int preferred_reg = (reg&3)+(reg>28)*4-(reg==32)+2*(reg==36)-(reg==40); + + // Don't allocate unused registers + if((cur->u>>reg)&1) return; + + // see if it's already allocated + for(hr=0;hrregmap[hr]==reg) return; + } + + // Keep the same mapping if the register was already allocated in a loop + preferred_reg = loop_reg(i,reg,preferred_reg); + + // Try to allocate the preferred register + if(cur->regmap[preferred_reg]==-1) { + cur->regmap[preferred_reg]=reg; + cur->dirty&=~(1<isconst&=~(1<regmap[preferred_reg]; + if(r<64&&((cur->u>>r)&1)) { + cur->regmap[preferred_reg]=reg; + cur->dirty&=~(1<isconst&=~(1<=64&&((cur->uu>>(r&63))&1)) { + cur->regmap[preferred_reg]=reg; + cur->dirty&=~(1<isconst&=~(1<regmap[hr]==-1) { + cur->regmap[hr]=reg; + cur->dirty&=~(1<isconst&=~(1<regmap[hr]; + if(r>=0) { + if(r<64) { + if((cur->u>>r)&1) + if(i==0||(unneeded_reg[i-1]>>r)&1) {cur->regmap[hr]=-1;break;} + } + else + { + if((cur->uu>>(r&63))&1) + if(i==0||(unneeded_reg_upper[i-1]>>(r&63))&1) {cur->regmap[hr]=-1;break;} + } + } + } + // Try to allocate any available register, but prefer + // registers that have not been used recently. + if(i>0) { + for(hr=0;hrregmap[hr]==-1) { + 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]) { + cur->regmap[hr]=reg; + cur->dirty&=~(1<isconst&=~(1<regmap[hr]==-1) { + cur->regmap[hr]=reg; + cur->dirty&=~(1<isconst&=~(1<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]); + if(i>0) { + // Don't evict the cycle count at entry points, otherwise the entry + // stub will have to write it. + if(bt[i]&&hsn[CCREG]>2) hsn[CCREG]=2; + 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; + for(j=10;j>=3;j--) + { + // Alloc preferred register if available + if(hsn[r=cur->regmap[preferred_reg]&63]==j) { + for(hr=0;hrregmap[hr]&63)==r) { + cur->regmap[hr]=-1; + cur->dirty&=~(1<isconst&=~(1<regmap[preferred_reg]=reg; + return; + } + for(r=1;r<=MAXREG;r++) + { + if(hsn[r]==j&&r!=rs1[i-1]&&r!=rs2[i-1]&&r!=rt1[i-1]&&r!=rt2[i-1]) { + for(hr=0;hrregmap[hr]==r+64) { + cur->regmap[hr]=reg; + cur->dirty&=~(1<isconst&=~(1<regmap[hr]==r) { + cur->regmap[hr]=reg; + cur->dirty&=~(1<isconst&=~(1<=0;j--) + { + for(r=1;r<=MAXREG;r++) + { + if(hsn[r]==j) { + for(hr=0;hrregmap[hr]==r+64) { + cur->regmap[hr]=reg; + cur->dirty&=~(1<isconst&=~(1<regmap[hr]==r) { + cur->regmap[hr]=reg; + cur->dirty&=~(1<isconst&=~(1<uu>>reg)&1) return; + + // see if the upper half is already allocated + for(hr=0;hrregmap[hr]==reg+64) return; + } + + // Keep the same mapping if the register was already allocated in a loop + preferred_reg = loop_reg(i,reg,preferred_reg); + + // Try to allocate the preferred register + if(cur->regmap[preferred_reg]==-1) { + cur->regmap[preferred_reg]=reg|64; + cur->dirty&=~(1<isconst&=~(1<regmap[preferred_reg]; + if(r<64&&((cur->u>>r)&1)) { + cur->regmap[preferred_reg]=reg|64; + cur->dirty&=~(1<isconst&=~(1<=64&&((cur->uu>>(r&63))&1)) { + cur->regmap[preferred_reg]=reg|64; + cur->dirty&=~(1<isconst&=~(1<regmap[hr]==-1) { + cur->regmap[hr]=reg|64; + cur->dirty&=~(1<isconst&=~(1<=0;hr--) + { + r=cur->regmap[hr]; + if(r>=0) { + if(r<64) { + if((cur->u>>r)&1) {cur->regmap[hr]=-1;break;} + } + else + { + if((cur->uu>>(r&63))&1) {cur->regmap[hr]=-1;break;} + } + } + } + // Try to allocate any available register, but prefer + // registers that have not been used recently. + if(i>0) { + for(hr=0;hrregmap[hr]==-1) { + 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]) { + cur->regmap[hr]=reg|64; + cur->dirty&=~(1<isconst&=~(1<regmap[hr]==-1) { + cur->regmap[hr]=reg|64; + cur->dirty&=~(1<isconst&=~(1<regmap[0],cur->regmap[1],cur->regmap[2],cur->regmap[3],cur->regmap[5],cur->regmap[6],cur->regmap[7]); + //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]); + if(i>0) { + // Don't evict the cycle count at entry points, otherwise the entry + // stub will have to write it. + if(bt[i]&&hsn[CCREG]>2) hsn[CCREG]=2; + 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; + for(j=10;j>=3;j--) + { + // Alloc preferred register if available + if(hsn[r=cur->regmap[preferred_reg]&63]==j) { + for(hr=0;hrregmap[hr]&63)==r) { + cur->regmap[hr]=-1; + cur->dirty&=~(1<isconst&=~(1<regmap[preferred_reg]=reg|64; + return; + } + for(r=1;r<=MAXREG;r++) + { + if(hsn[r]==j&&r!=rs1[i-1]&&r!=rs2[i-1]&&r!=rt1[i-1]&&r!=rt2[i-1]) { + for(hr=0;hrregmap[hr]==r+64) { + cur->regmap[hr]=reg|64; + cur->dirty&=~(1<isconst&=~(1<regmap[hr]==r) { + cur->regmap[hr]=reg|64; + cur->dirty&=~(1<isconst&=~(1<=0;j--) + { + for(r=1;r<=MAXREG;r++) + { + if(hsn[r]==j) { + for(hr=0;hrregmap[hr]==r+64) { + cur->regmap[hr]=reg|64; + cur->dirty&=~(1<isconst&=~(1<regmap[hr]==r) { + cur->regmap[hr]=reg|64; + cur->dirty&=~(1<isconst&=~(1<regmap[hr]==reg) return; + } + + // Try to allocate any available register, starting with EDI, ESI, EBP... + // We prefer EDI, ESI, EBP since the others are used for byte/halfword stores + for(hr=HOST_REGS-1;hr>=0;hr--) { + if(hr!=EXCLUDE_REG&&cur->regmap[hr]==-1) { + cur->regmap[hr]=reg; + cur->dirty&=~(1<isconst&=~(1<=0;hr--) + { + r=cur->regmap[hr]; + if(r>=0) { + if(r<64) { + if((cur->u>>r)&1) { + if(i==0||((unneeded_reg[i-1]>>r)&1)) { + cur->regmap[hr]=reg; + cur->dirty&=~(1<isconst&=~(1<uu>>(r&63))&1) { + if(i==0||((unneeded_reg_upper[i-1]>>(r&63))&1)) { + cur->regmap[hr]=reg; + cur->dirty&=~(1<isconst&=~(1<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]); + if(i>0) { + // Don't evict the cycle count at entry points, otherwise the entry + // stub will have to write it. + if(bt[i]&&hsn[CCREG]>2) hsn[CCREG]=2; + 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; + for(j=10;j>=3;j--) + { + for(r=1;r<=MAXREG;r++) + { + if(hsn[r]==j&&r!=rs1[i-1]&&r!=rs2[i-1]&&r!=rt1[i-1]&&r!=rt2[i-1]) { + for(hr=0;hr2) { + if(cur->regmap[hr]==r+64) { + cur->regmap[hr]=reg; + cur->dirty&=~(1<isconst&=~(1<2) { + if(cur->regmap[hr]==r) { + cur->regmap[hr]=reg; + cur->dirty&=~(1<isconst&=~(1<=0;j--) + { + for(r=1;r<=MAXREG;r++) + { + if(hsn[r]==j) { + for(hr=0;hrregmap[hr]==r+64) { + cur->regmap[hr]=reg; + cur->dirty&=~(1<isconst&=~(1<regmap[hr]==r) { + cur->regmap[hr]=reg; + cur->dirty&=~(1<isconst&=~(1<regmap[n]==reg) {cur->regmap[n]=-1;} + } + + cur->regmap[hr]=reg; + cur->dirty&=~(1<isconst&=~(1<u&=~(1LL<u&=~(1LL<is32|=1LL<is32|=1LL<is32&=~(1LL<is32&=~(1LL<is32|=1LL<is32|=1LL<>3); + output_byte(0x89); + output_modrm(3,rt,rs); +} + +void emit_add(int rs1,int rs2,int rt) +{ + if(rs1==rt) { + assem_debug("add %%%s,%%%s\n",regname[rs2],regname[rs1]); + output_byte(0x01); + output_modrm(3,rs1,rs2); + }else if(rs2==rt) { + assem_debug("add %%%s,%%%s\n",regname[rs1],regname[rs2]); + output_byte(0x01); + output_modrm(3,rs2,rs1); + }else { + assem_debug("lea (%%%s,%%%s),%%%s\n",regname[rs1],regname[rs2],regname[rt]); + output_byte(0x8D); + if(rs1!=EBP) { + output_modrm(0,4,rt); + output_sib(0,rs2,rs1); + }else if(rs2!=EBP) { + output_modrm(0,4,rt); + output_sib(0,rs1,rs2); + }else /* lea 0(,%ebp,2) */{ + output_modrm(0,4,rt); + output_sib(1,EBP,5); + output_w32(0); + } + } +} + +void emit_adds(int rs1,int rs2,int rt) +{ + emit_add(rs1,rs2,rt); +} + +void emit_lea8(int rs1,int rt) +{ + assem_debug("lea 0(%%%s,8),%%%s\n",regname[rs1],regname[rt]); + output_byte(0x8D); + output_modrm(0,4,rt); + output_sib(3,rs1,5); + output_w32(0); +} +void emit_leairrx1(int imm,int rs1,int rs2,int rt) +{ + assem_debug("lea %x(%%%s,%%%s,1),%%%s\n",imm,regname[rs1],regname[rs2],regname[rt]); + output_byte(0x8D); + if(imm!=0||rs1==EBP) { + output_modrm(2,4,rt); + output_sib(0,rs2,rs1); + output_w32(imm); + }else{ + output_modrm(0,4,rt); + output_sib(0,rs2,rs1); + } +} +void emit_leairrx4(int imm,int rs1,int rs2,int rt) +{ + assem_debug("lea %x(%%%s,%%%s,4),%%%s\n",imm,regname[rs1],regname[rs2],regname[rt]); + output_byte(0x8D); + if(imm!=0||rs1==EBP) { + output_modrm(2,4,rt); + output_sib(2,rs2,rs1); + output_w32(imm); + }else{ + output_modrm(0,4,rt); + output_sib(2,rs2,rs1); + } +} + +void emit_neg(int rs, int rt) +{ + if(rs!=rt) emit_mov(rs,rt); + assem_debug("neg %%%s\n",regname[rt]); + output_byte(0xF7); + output_modrm(3,rt,3); +} + +void emit_negs(int rs, int rt) +{ + emit_neg(rs,rt); +} + +void emit_sub(int rs1,int rs2,int rt) +{ + if(rs1==rt) { + assem_debug("sub %%%s,%%%s\n",regname[rs2],regname[rs1]); + output_byte(0x29); + output_modrm(3,rs1,rs2); + } else if(rs2==rt) { + emit_neg(rs2,rs2); + emit_add(rs2,rs1,rs2); + } else { + emit_mov(rs1,rt); + emit_sub(rt,rs2,rt); + } +} + +void emit_subs(int rs1,int rs2,int rt) +{ + emit_sub(rs1,rs2,rt); +} + +void emit_zeroreg(int rt) +{ + output_byte(0x31); + output_modrm(3,rt,rt); + assem_debug("xor %%%s,%%%s\n",regname[rt],regname[rt]); +} + +void emit_loadreg(int r, int hr) +{ + if((r&63)==0) + emit_zeroreg(hr); + else { + int addr=((int)reg)+((r&63)<<3)+((r&64)>>4); + if((r&63)==HIREG) addr=(int)&hi+((r&64)>>4); + if((r&63)==LOREG) addr=(int)&lo+((r&64)>>4); + if(r==CCREG) addr=(int)&cycle_count; + if(r==CSREG) addr=(int)&Status; + if(r==FSREG) addr=(int)&FCR31; + assem_debug("mov %x+%d,%%%s\n",addr,r,regname[hr]); + output_byte(0x8B); + output_modrm(0,5,hr); + output_w32(addr-(int)out-4); // Note: rip-relative in 64-bit mode + } +} +void emit_storereg(int r, int hr) +{ + int addr=((int)reg)+((r&63)<<3)+((r&64)>>4); + if((r&63)==HIREG) addr=(int)&hi+((r&64)>>4); + if((r&63)==LOREG) addr=(int)&lo+((r&64)>>4); + if(r==CCREG) addr=(int)&cycle_count; + if(r==FSREG) addr=(int)&FCR31; + assem_debug("mov %%%s,%x+%d\n",regname[hr],addr,r); + output_byte(0x89); + output_modrm(0,5,hr); + output_w32(addr-(int)out-4); // Note: rip-relative in 64-bit mode +} + +void emit_test(int rs, int rt) +{ + assem_debug("test %%%s,%%%s\n",regname[rs],regname[rt]); + output_byte(0x85); + output_modrm(3,rs,rt); +} + +void emit_testimm(int rs,int imm) +{ + assem_debug("test $0x%x,%%%s\n",imm,regname[rs]); + if(imm<128&&imm>=-128&&rs<4) { + output_byte(0xF6); + output_modrm(3,rs,0); + output_byte(imm); + } + else + { + output_byte(0xF7); + output_modrm(3,rs,0); + output_w32(imm); + } +} + +void emit_not(int rs,int rt) +{ + if(rs!=rt) emit_mov(rs,rt); + assem_debug("not %%%s\n",regname[rt]); + output_byte(0xF7); + output_modrm(3,rt,2); +} + +void emit_and(u_int rs1,u_int rs2,u_int rt) +{ + assert(rs1<8); + assert(rs2<8); + assert(rt<8); + if(rs1==rt) { + assem_debug("and %%%s,%%%s\n",regname[rs2],regname[rt]); + output_byte(0x21); + output_modrm(3,rs1,rs2); + } + else + if(rs2==rt) { + assem_debug("and %%%s,%%%s\n",regname[rs1],regname[rt]); + output_byte(0x21); + output_modrm(3,rs2,rs1); + } + else { + emit_mov(rs1,rt); + emit_and(rt,rs2,rt); + } +} + +void emit_or(u_int rs1,u_int rs2,u_int rt) +{ + assert(rs1<8); + assert(rs2<8); + assert(rt<8); + if(rs1==rt) { + assem_debug("or %%%s,%%%s\n",regname[rs2],regname[rt]); + output_byte(0x09); + output_modrm(3,rs1,rs2); + } + else + if(rs2==rt) { + assem_debug("or %%%s,%%%s\n",regname[rs1],regname[rt]); + output_byte(0x09); + output_modrm(3,rs2,rs1); + } + else { + emit_mov(rs1,rt); + emit_or(rt,rs2,rt); + } +} +void emit_or_and_set_flags(int rs1,int rs2,int rt) +{ + emit_or(rs1,rs2,rt); +} + +void emit_xor(u_int rs1,u_int rs2,u_int rt) +{ + assert(rs1<8); + assert(rs2<8); + assert(rt<8); + if(rs1==rt) { + assem_debug("xor %%%s,%%%s\n",regname[rs2],regname[rt]); + output_byte(0x31); + output_modrm(3,rs1,rs2); + } + else + if(rs2==rt) { + assem_debug("xor %%%s,%%%s\n",regname[rs1],regname[rt]); + output_byte(0x31); + output_modrm(3,rs2,rs1); + } + else { + emit_mov(rs1,rt); + emit_xor(rt,rs2,rt); + } +} + +void emit_movimm(int imm,u_int rt) +{ + assem_debug("mov $%d,%%%s\n",imm,regname[rt]); + assert(rt<16); + if(rt>=8) output_rex(0,0,0,1); + output_byte(0xB8+(rt&7)); + output_w32(imm); +} + +void emit_addimm(int rs,int imm,int rt) +{ + if(rs==rt) { + if(imm!=0) { + assem_debug("add $%d,%%%s\n",imm,regname[rt]); + if(imm<128&&imm>=-128) { + output_byte(0x83); + output_modrm(3,rt,0); + output_byte(imm); + } + else + { + output_byte(0x81); + output_modrm(3,rt,0); + output_w32(imm); + } + } + } + else { + if(imm!=0) { + assem_debug("lea %d(%%%s),%%%s\n",imm,regname[rs],regname[rt]); + output_byte(0x8D); + if(imm<128&&imm>=-128) { + output_modrm(1,rs,rt); + output_byte(imm); + }else{ + output_modrm(2,rs,rt); + output_w32(imm); + } + }else{ + emit_mov(rs,rt); + } + } +} + +void emit_addimm64(int rs,int imm,int rt) +{ + if(rs==rt) { + if(imm!=0) { + assem_debug("add $%d,%%%s\n",imm,regname[rt]); + if(imm<128&&imm>=-128) { + output_rex(1,0,0,rt>>3); + output_byte(0x83); + output_modrm(3,rt&7,0); + output_byte(imm); + } + else + { + output_rex(1,0,0,rt>>3); + output_byte(0x81); + output_modrm(3,rt&7,0); + output_w32(imm); + } + } + } + else { + if(imm!=0) { + assem_debug("lea %d(%%%s),%%%s\n",imm,regname[rs],regname[rt]); + output_rex(1,rt>>3,0,rs>>3); + output_byte(0x8D); + if(imm<128&&imm>=-128) { + output_modrm(1,rs&7,rt&7); + output_byte(imm); + }else{ + output_modrm(2,rs&7,rt&7); + output_w32(imm); + } + }else{ + emit_mov(rs,rt); + } + } +} + +void emit_addimm_and_set_flags(int imm,int rt) +{ + assem_debug("add $%d,%%%s\n",imm,regname[rt]); + if(imm<128&&imm>=-128) { + output_byte(0x83); + output_modrm(3,rt,0); + output_byte(imm); + } + else + { + output_byte(0x81); + output_modrm(3,rt,0); + output_w32(imm); + } +} +void emit_addimm_no_flags(int imm,int rt) +{ + if(imm!=0) { + assem_debug("lea %d(%%%s),%%%s\n",imm,regname[rt],regname[rt]); + output_byte(0x8D); + if(imm<128&&imm>=-128) { + output_modrm(1,rt,rt); + output_byte(imm); + }else{ + output_modrm(2,rt,rt); + output_w32(imm); + } + } +} + +void emit_adcimm(int imm,u_int rt) +{ + assem_debug("adc $%d,%%%s\n",imm,regname[rt]); + assert(rt<8); + if(imm<128&&imm>=-128) { + output_byte(0x83); + output_modrm(3,rt,2); + output_byte(imm); + } + else + { + output_byte(0x81); + output_modrm(3,rt,2); + output_w32(imm); + } +} +void emit_sbbimm(int imm,u_int rt) +{ + assem_debug("sbb $%d,%%%s\n",imm,regname[rt]); + assert(rt<8); + if(imm<128&&imm>=-128) { + output_byte(0x83); + output_modrm(3,rt,3); + output_byte(imm); + } + else + { + output_byte(0x81); + output_modrm(3,rt,3); + output_w32(imm); + } +} + +void emit_addimm64_32(int rsh,int rsl,int imm,int rth,int rtl) +{ + if(rsh==rth&&rsl==rtl) { + assem_debug("add $%d,%%%s\n",imm,regname[rtl]); + if(imm<128&&imm>=-128) { + output_byte(0x83); + output_modrm(3,rtl,0); + output_byte(imm); + } + else + { + output_byte(0x81); + output_modrm(3,rtl,0); + output_w32(imm); + } + assem_debug("adc $%d,%%%s\n",imm>>31,regname[rth]); + output_byte(0x83); + output_modrm(3,rth,2); + output_byte(imm>>31); + } + else { + emit_mov(rsh,rth); + emit_mov(rsl,rtl); + emit_addimm64_32(rth,rtl,imm,rth,rtl); + } +} + +void emit_sbb(int rs1,int rs2) +{ + assem_debug("sbb %%%s,%%%s\n",regname[rs2],regname[rs1]); + output_byte(0x19); + output_modrm(3,rs1,rs2); +} + +void emit_andimm(int rs,int imm,int rt) +{ + if(rs==rt) { + assem_debug("and $%d,%%%s\n",imm,regname[rt]); + if(imm<128&&imm>=-128) { + output_byte(0x83); + output_modrm(3,rt,4); + output_byte(imm); + } + else + { + output_byte(0x81); + output_modrm(3,rt,4); + output_w32(imm); + } + } + else { + emit_mov(rs,rt); + emit_andimm(rt,imm,rt); + } +} + +void emit_orimm(int rs,int imm,int rt) +{ + if(rs==rt) { + assem_debug("or $%d,%%%s\n",imm,regname[rt]); + if(imm<128&&imm>=-128) { + output_byte(0x83); + output_modrm(3,rt,1); + output_byte(imm); + } + else + { + output_byte(0x81); + output_modrm(3,rt,1); + output_w32(imm); + } + } + else { + emit_mov(rs,rt); + emit_orimm(rt,imm,rt); + } +} + +void emit_xorimm(int rs,int imm,int rt) +{ + if(rs==rt) { + assem_debug("xor $%d,%%%s\n",imm,regname[rt]); + if(imm<128&&imm>=-128) { + output_byte(0x83); + output_modrm(3,rt,6); + output_byte(imm); + } + else + { + output_byte(0x81); + output_modrm(3,rt,6); + output_w32(imm); + } + } + else { + emit_mov(rs,rt); + emit_xorimm(rt,imm,rt); + } +} + +void emit_shlimm(int rs,u_int imm,int rt) +{ + if(rs==rt) { + assem_debug("shl %%%s,%d\n",regname[rt],imm); + assert(imm>0); + if(imm==1) output_byte(0xD1); + else output_byte(0xC1); + output_modrm(3,rt,4); + if(imm>1) output_byte(imm); + } + else { + emit_mov(rs,rt); + emit_shlimm(rt,imm,rt); + } +} + +void emit_shrimm(int rs,u_int imm,int rt) +{ + if(rs==rt) { + assem_debug("shr %%%s,%d\n",regname[rt],imm); + assert(imm>0); + if(imm==1) output_byte(0xD1); + else output_byte(0xC1); + output_modrm(3,rt,5); + if(imm>1) output_byte(imm); + } + else { + emit_mov(rs,rt); + emit_shrimm(rt,imm,rt); + } +} + +void emit_shrimm64(int rs,u_int imm,int rt) +{ + assert(rs==rt); + if(rs==rt) { + assem_debug("shr %%%s,%d\n",regname[rt],imm); + assert(imm>0); + output_rex(1,0,0,rt>>3); + if(imm==1) output_byte(0xD1); + else output_byte(0xC1); + output_modrm(3,rt,5); + if(imm>1) output_byte(imm); + } + else { + emit_mov(rs,rt); + emit_shrimm(rt,imm,rt); + } +} + +void emit_sarimm(int rs,u_int imm,int rt) +{ + if(rs==rt) { + assem_debug("sar %%%s,%d\n",regname[rt],imm); + assert(imm>0); + if(imm==1) output_byte(0xD1); + else output_byte(0xC1); + output_modrm(3,rt,7); + if(imm>1) output_byte(imm); + } + else { + emit_mov(rs,rt); + emit_sarimm(rt,imm,rt); + } +} + +void emit_rorimm(int rs,u_int imm,int rt) +{ + if(rs==rt) { + assem_debug("ror %%%s,%d\n",regname[rt],imm); + assert(imm>0); + if(imm==1) output_byte(0xD1); + else output_byte(0xC1); + output_modrm(3,rt,1); + if(imm>1) output_byte(imm); + } + else { + emit_mov(rs,rt); + emit_sarimm(rt,imm,rt); + } +} + +void emit_shldimm(int rs,int rs2,u_int imm,int rt) +{ + if(rs==rt) { + assem_debug("shld %%%s,%%%s,%d\n",regname[rt],regname[rs2],imm); + assert(imm>0); + output_byte(0x0F); + output_byte(0xA4); + output_modrm(3,rt,rs2); + output_byte(imm); + } + else { + emit_mov(rs,rt); + emit_shldimm(rt,rs2,imm,rt); + } +} + +void emit_shrdimm(int rs,int rs2,u_int imm,int rt) +{ + if(rs==rt) { + assem_debug("shrd %%%s,%%%s,%d\n",regname[rt],regname[rs2],imm); + assert(imm>0); + output_byte(0x0F); + output_byte(0xAC); + output_modrm(3,rt,rs2); + output_byte(imm); + } + else { + emit_mov(rs,rt); + emit_shrdimm(rt,rs2,imm,rt); + } +} + +void emit_shlcl(int r) +{ + assem_debug("shl %%%s,%%cl\n",regname[r]); + output_byte(0xD3); + output_modrm(3,r,4); +} +void emit_shrcl(int r) +{ + assem_debug("shr %%%s,%%cl\n",regname[r]); + output_byte(0xD3); + output_modrm(3,r,5); +} +void emit_sarcl(int r) +{ + assem_debug("sar %%%s,%%cl\n",regname[r]); + output_byte(0xD3); + output_modrm(3,r,7); +} + +void emit_shldcl(int r1,int r2) +{ + assem_debug("shld %%%s,%%%s,%%cl\n",regname[r1],regname[r2]); + output_byte(0x0F); + output_byte(0xA5); + output_modrm(3,r1,r2); +} +void emit_shrdcl(int r1,int r2) +{ + assem_debug("shrd %%%s,%%%s,%%cl\n",regname[r1],regname[r2]); + output_byte(0x0F); + output_byte(0xAD); + output_modrm(3,r1,r2); +} + +void emit_cmpimm(int rs,int imm) +{ + assem_debug("cmp $%d,%%%s\n",imm,regname[rs]); + if(imm<128&&imm>=-128) { + output_byte(0x83); + output_modrm(3,rs,7); + output_byte(imm); + } + else + { + output_byte(0x81); + output_modrm(3,rs,7); + output_w32(imm); + } +} + +void emit_cmovne(u_int *addr,int rt) +{ + assem_debug("cmovne %x,%%%s",(int)addr,regname[rt]); + if(addr==&const_zero) assem_debug(" [zero]\n"); + else if(addr==&const_one) assem_debug(" [one]\n"); + else assem_debug("\n"); + output_byte(0x0F); + output_byte(0x45); + output_modrm(0,5,rt); + output_w32((int)addr-(int)out-4); // Note: rip-relative in 64-bit mode +} +void emit_cmovl(u_int *addr,int rt) +{ + assem_debug("cmovl %x,%%%s",(int)addr,regname[rt]); + if(addr==&const_zero) assem_debug(" [zero]\n"); + else if(addr==&const_one) assem_debug(" [one]\n"); + else assem_debug("\n"); + output_byte(0x0F); + output_byte(0x4C); + output_modrm(0,5,rt); + output_w32((int)addr-(int)out-4); // Note: rip-relative in 64-bit mode +} +void emit_cmovs(u_int *addr,int rt) +{ + assem_debug("cmovs %x,%%%s",(int)addr,regname[rt]); + if(addr==&const_zero) assem_debug(" [zero]\n"); + else if(addr==&const_one) assem_debug(" [one]\n"); + else assem_debug("\n"); + output_byte(0x0F); + output_byte(0x48); + output_modrm(0,5,rt); + output_w32((int)addr-(int)out-4); // Note: rip-relative in 64-bit mode +} +void emit_cmovne_reg(int rs,int rt) +{ + assem_debug("cmovne %%%s,%%%s\n",regname[rs],regname[rt]); + output_byte(0x0F); + output_byte(0x45); + output_modrm(3,rs,rt); +} +void emit_cmovl_reg(int rs,int rt) +{ + assem_debug("cmovl %%%s,%%%s\n",regname[rs],regname[rt]); + output_byte(0x0F); + output_byte(0x4C); + output_modrm(3,rs,rt); +} +void emit_cmovs_reg(int rs,int rt) +{ + assem_debug("cmovs %%%s,%%%s\n",regname[rs],regname[rt]); + output_byte(0x0F); + output_byte(0x48); + output_modrm(3,rs,rt); +} +void emit_cmovnc_reg(int rs,int rt) +{ + assem_debug("cmovae %%%s,%%%s\n",regname[rs],regname[rt]); + output_byte(0x0F); + output_byte(0x43); + output_modrm(3,rs,rt); +} +void emit_cmova_reg(int rs,int rt) +{ + assem_debug("cmova %%%s,%%%s\n",regname[rs],regname[rt]); + output_byte(0x0F); + output_byte(0x47); + output_modrm(3,rs,rt); +} +void emit_cmovp_reg(int rs,int rt) +{ + assem_debug("cmovp %%%s,%%%s\n",regname[rs],regname[rt]); + output_byte(0x0F); + output_byte(0x4A); + output_modrm(3,rs,rt); +} +void emit_cmovnp_reg(int rs,int rt) +{ + assem_debug("cmovnp %%%s,%%%s\n",regname[rs],regname[rt]); + output_byte(0x0F); + output_byte(0x4B); + output_modrm(3,rs,rt); +} +void emit_setl(int rt) +{ + assem_debug("setl %%%s\n",regname[rt]); + output_byte(0x0F); + output_byte(0x9C); + output_modrm(3,rt,2); +} +void emit_movzbl_reg(int rs, int rt) +{ + assem_debug("movzbl %%%s,%%%s\n",regname[rs]+1,regname[rt]); + output_byte(0x0F); + output_byte(0xB6); + output_modrm(3,rs,rt); +} + +void emit_slti32(int rs,int imm,int rt) +{ + if(rs!=rt) emit_zeroreg(rt); + emit_cmpimm(rs,imm); + if(rt<4) { + emit_setl(rt); + if(rs==rt) emit_movzbl_reg(rt,rt); + } + else + { + if(rs==rt) emit_movimm(0,rt); + emit_cmovl(&const_one,rt); + } +} +void emit_sltiu32(int rs,int imm,int rt) +{ + if(rs!=rt) emit_zeroreg(rt); + emit_cmpimm(rs,imm); + if(rs==rt) emit_movimm(0,rt); + emit_adcimm(0,rt); +} +void emit_slti64_32(int rsh,int rsl,int imm,int rt) +{ + assert(rsh!=rt); + emit_slti32(rsl,imm,rt); + if(imm>=0) + { + emit_test(rsh,rsh); + emit_cmovne(&const_zero,rt); + emit_cmovs(&const_one,rt); + } + else + { + emit_cmpimm(rsh,-1); + emit_cmovne(&const_zero,rt); + emit_cmovl(&const_one,rt); + } +} +void emit_sltiu64_32(int rsh,int rsl,int imm,int rt) +{ + assert(rsh!=rt); + emit_sltiu32(rsl,imm,rt); + if(imm>=0) + { + emit_test(rsh,rsh); + emit_cmovne(&const_zero,rt); + } + else + { + emit_cmpimm(rsh,-1); + emit_cmovne(&const_one,rt); + } +} + +void emit_cmp(int rs,int rt) +{ + assem_debug("cmp %%%s,%%%s\n",regname[rt],regname[rs]); + output_byte(0x39); + output_modrm(3,rs,rt); +} +void emit_set_gz32(int rs, int rt) +{ + //assem_debug("set_gz32\n"); + emit_cmpimm(rs,1); + emit_movimm(1,rt); + emit_cmovl(&const_zero,rt); +} +void emit_set_nz32(int rs, int rt) +{ + //assem_debug("set_nz32\n"); + emit_cmpimm(rs,1); + emit_movimm(1,rt); + emit_sbbimm(0,rt); +} +void emit_set_gz64_32(int rsh, int rsl, int rt) +{ + //assem_debug("set_gz64\n"); + emit_set_gz32(rsl,rt); + emit_test(rsh,rsh); + emit_cmovne(&const_one,rt); + emit_cmovs(&const_zero,rt); +} +void emit_set_nz64_32(int rsh, int rsl, int rt) +{ + //assem_debug("set_nz64\n"); + emit_or_and_set_flags(rsh,rsl,rt); + emit_cmovne(&const_one,rt); +} +void emit_set_if_less32(int rs1, int rs2, int rt) +{ + //assem_debug("set if less (%%%s,%%%s),%%%s\n",regname[rs1],regname[rs2],regname[rt]); + if(rs1!=rt&&rs2!=rt) emit_zeroreg(rt); + emit_cmp(rs1,rs2); + if(rs1==rt||rs2==rt) emit_movimm(0,rt); + emit_cmovl(&const_one,rt); +} +void emit_set_if_carry32(int rs1, int rs2, int rt) +{ + //assem_debug("set if carry (%%%s,%%%s),%%%s\n",regname[rs1],regname[rs2],regname[rt]); + if(rs1!=rt&&rs2!=rt) emit_zeroreg(rt); + emit_cmp(rs1,rs2); + if(rs1==rt||rs2==rt) emit_movimm(0,rt); + emit_adcimm(0,rt); +} +void emit_set_if_less64_32(int u1, int l1, int u2, int l2, int rt) +{ + //assem_debug("set if less64 (%%%s,%%%s,%%%s,%%%s),%%%s\n",regname[u1],regname[l1],regname[u2],regname[l2],regname[rt]); + assert(u1!=rt); + assert(u2!=rt); + emit_cmp(l1,l2); + emit_mov(u1,rt); + emit_sbb(rt,u2); + emit_movimm(0,rt); + emit_cmovl(&const_one,rt); +} +void emit_set_if_carry64_32(int u1, int l1, int u2, int l2, int rt) +{ + //assem_debug("set if carry64 (%%%s,%%%s,%%%s,%%%s),%%%s\n",regname[u1],regname[l1],regname[u2],regname[l2],regname[rt]); + assert(u1!=rt); + assert(u2!=rt); + emit_cmp(l1,l2); + emit_mov(u1,rt); + emit_sbb(rt,u2); + emit_movimm(0,rt); + emit_adcimm(0,rt); +} + +void emit_call(int a) +{ + assem_debug("call %x (%x+%x)\n",a,(int)out+5,a-(int)out-5); + output_byte(0xe8); + output_w32(a-(int)out-4); +} +void emit_jmp(int a) +{ + assem_debug("jmp %x (%x+%x)\n",a,(int)out+5,a-(int)out-5); + output_byte(0xe9); + output_w32(a-(int)out-4); +} +void emit_jne(int a) +{ + assem_debug("jne %x\n",a); + output_byte(0x0f); + output_byte(0x85); + output_w32(a-(int)out-4); +} +void emit_jeq(int a) +{ + assem_debug("jeq %x\n",a); + output_byte(0x0f); + output_byte(0x84); + output_w32(a-(int)out-4); +} +void emit_js(int a) +{ + assem_debug("js %x\n",a); + output_byte(0x0f); + output_byte(0x88); + output_w32(a-(int)out-4); +} +void emit_jns(int a) +{ + assem_debug("jns %x\n",a); + output_byte(0x0f); + output_byte(0x89); + output_w32(a-(int)out-4); +} +void emit_jl(int a) +{ + assem_debug("jl %x\n",a); + output_byte(0x0f); + output_byte(0x8c); + output_w32(a-(int)out-4); +} +void emit_jge(int a) +{ + assem_debug("jge %x\n",a); + output_byte(0x0f); + output_byte(0x8d); + output_w32(a-(int)out-4); +} +void emit_jno(int a) +{ + assem_debug("jno %x\n",a); + output_byte(0x0f); + output_byte(0x81); + output_w32(a-(int)out-4); +} +void emit_jc(int a) +{ + assem_debug("jc %x\n",a); + output_byte(0x0f); + output_byte(0x82); + output_w32(a-(int)out-4); +} + +void emit_pushimm(int imm) +{ + assem_debug("push $%x\n",imm); + output_byte(0x68); + output_w32(imm); +} +//void emit_pusha() +//{ +// assem_debug("pusha\n"); +// output_byte(0x60); +//} +//void emit_popa() +//{ +// assem_debug("popa\n"); +// output_byte(0x61); +//} +void emit_pushreg(u_int r) +{ + assem_debug("push %%%s\n",regname[r]); + assert(r<8); + output_byte(0x50+r); +} +void emit_popreg(u_int r) +{ + assem_debug("pop %%%s\n",regname[r]); + assert(r<8); + output_byte(0x58+r); +} +void emit_callreg(u_int r) +{ + assem_debug("call *%%%s\n",regname[r]); + assert(r<8); + output_byte(0xFF); + output_modrm(3,r,2); +} +void emit_jmpreg(u_int r) +{ + assem_debug("jmp *%%%s\n",regname[r]); + assert(r<8); + output_byte(0xFF); + output_modrm(3,r,4); +} +void emit_jmpmem_indexed(u_int addr,u_int r) +{ + assem_debug("jmp *%x(%%%s)\n",addr,regname[r]); + assert(r<8); + output_byte(0xFF); + output_modrm(2,r,4); + output_w32(addr); +} + +void emit_readword(int addr, int rt) +{ + assem_debug("mov %x,%%%s\n",addr,regname[rt]); + output_byte(0x8B); + output_modrm(0,5,rt); + output_w32(addr-(int)out-4); // Note: rip-relative in 64-bit mode +} +void emit_readword_indexed(int addr, int rs, int rt) +{ + assem_debug("mov %x+%%%s,%%%s\n",addr,regname[rs],regname[rt]); + output_byte(0x8B); + if(addr<128&&addr>=-128) { + output_modrm(1,rs,rt); + if(rs==ESP) output_sib(0,4,4); + output_byte(addr); + } + else + { + output_modrm(2,rs,rt); + if(rs==ESP) output_sib(0,4,4); + output_w32(addr); + } +} +void emit_readword_tlb(int addr, int map, int rt) +{ + if(map<0) emit_readword(addr+(int)rdram-0x80000000, rt); + else + { + assem_debug("addr32 mov %x(,%%%s,4),%%%s\n",addr,regname[map],regname[rt]); + output_byte(0x67); + output_byte(0x8B); + output_modrm(0,4,rt); + output_sib(2,map,5); + output_w32(addr); + } +} +void emit_readword_indexed_tlb(int addr, int rs, int map, int rt) +{ + if(map<0) emit_readword_indexed(addr+(int)rdram-0x80000000, rs, rt); + else { + assem_debug("addr32 mov %x(%%%s,%%%s,4),%%%s\n",addr,regname[rs],regname[map],regname[rt]); + assert(rs!=ESP); + output_byte(0x67); + output_byte(0x8B); + if(addr==0&&rs!=EBP) { + output_modrm(0,4,rt); + output_sib(2,map,rs); + } + else if(addr<128&&addr>=-128) { + output_modrm(1,4,rt); + output_sib(2,map,rs); + output_byte(addr); + } + else + { + output_modrm(2,4,rt); + output_sib(2,map,rs); + output_w32(addr); + } + } +} +void emit_movmem_indexedx4(int addr, int rs, int rt) +{ + assem_debug("mov (%x,%%%s,4),%%%s\n",addr,regname[rs],regname[rt]); + output_byte(0x8B); + output_modrm(0,4,rt); + output_sib(2,rs,5); + output_w32(addr); +} +void emit_movmem_indexedx4_addr32(int addr, int rs, int rt) +{ + assem_debug("addr32 mov (%x,%%%s,4),%%%s\n",addr,regname[rs],regname[rt]); + output_byte(0x67); + output_byte(0x8B); + output_modrm(0,4,rt); + output_sib(2,rs,5); + output_w32(addr); +} +void emit_movmem_indexedx8(int addr, int rs, int rt) +{ + assem_debug("mov (%x,%%%s,8),%%%s\n",addr,regname[rs],regname[rt]); + output_byte(0x8B); + output_modrm(0,4,rt); + output_sib(3,rs,5); + output_w32(addr); +} +void emit_readdword_tlb(int addr, int map, int rh, int rl) +{ + if(map<0) { + if(rh>=0) emit_readword(addr+(int)rdram-0x80000000, rh); + emit_readword(addr+(int)rdram-0x7FFFFFFC, rl); + } + else { + if(rh>=0) emit_movmem_indexedx4_addr32(addr, map, rh); + emit_movmem_indexedx4_addr32(addr+4, map, rl); + } +} +void emit_readdword_indexed(int addr, int rs, int rt) +{ + assem_debug("mov %x+%%%s,%%%s\n",addr,regname[rs],regname[rt]); + output_rex(1,rt>>3,0,rs>>3); + output_byte(0x8B); + if(addr<128&&addr>=-128) { + output_modrm(1,rs&7,rt&7); + if(rs==ESP) output_sib(0,4,4); + output_byte(addr); + } + else + { + output_modrm(2,rs&7,rt&7); + if(rs==ESP) output_sib(0,4,4); + output_w32(addr); + } +} +void emit_readdword_indexed_tlb(int addr, int rs, int map, int rh, int rl) +{ + assert(rh!=rs); + if(rh>=0) emit_readword_indexed_tlb(addr, rs, map, rh); + emit_readword_indexed_tlb(addr+4, rs, map, rl); +} +void emit_movsbl(int addr, int rt) +{ + assem_debug("movsbl %x,%%%s\n",addr,regname[rt]); + output_byte(0x0F); + output_byte(0xBE); + output_modrm(0,5,rt); + output_w32(addr-(int)out-4); // Note: rip-relative in 64-bit mode +} +void emit_movsbl_indexed(int addr, int rs, int rt) +{ + assem_debug("movsbl %x+%%%s,%%%s\n",addr,regname[rs],regname[rt]); + output_byte(0x0F); + output_byte(0xBE); + output_modrm(2,rs,rt); + output_w32(addr); +} +void emit_movsbl_tlb(int addr, int map, int rt) +{ + if(map<0) emit_movsbl(addr+(int)rdram-0x80000000, rt); + else + { + assem_debug("addr32 movsbl %x(,%%%s,4),%%%s\n",addr,regname[map],regname[rt]); + output_byte(0x67); + output_byte(0x0F); + output_byte(0xBE); + output_modrm(0,4,rt); + output_sib(2,map,5); + output_w32(addr); + } +} +void emit_movsbl_indexed_tlb(int addr, int rs, int map, int rt) +{ + if(map<0) emit_movsbl_indexed(addr+(int)rdram-0x80000000, rs, rt); + else { + assem_debug("addr32 movsbl %x(%%%s,%%%s,4),%%%s\n",addr,regname[rs],regname[map],regname[rt]); + assert(rs!=ESP); + output_byte(0x67); + output_byte(0x0F); + output_byte(0xBE); + if(addr==0&&rs!=EBP) { + output_modrm(0,4,rt); + output_sib(2,map,rs); + } + else if(addr<128&&addr>=-128) { + output_modrm(1,4,rt); + output_sib(2,map,rs); + output_byte(addr); + } + else + { + output_modrm(2,4,rt); + output_sib(2,map,rs); + output_w32(addr); + } + } +} +void emit_movswl(int addr, int rt) +{ + assem_debug("movswl %x,%%%s\n",addr,regname[rt]); + output_byte(0x0F); + output_byte(0xBF); + output_modrm(0,5,rt); + output_w32(addr-(int)out-4); // Note: rip-relative in 64-bit mode +} +void emit_movswl_indexed(int addr, int rs, int rt) +{ + assem_debug("movswl %x+%%%s,%%%s\n",addr,regname[rs],regname[rt]); + output_byte(0x0F); + output_byte(0xBF); + output_modrm(2,rs,rt); + output_w32(addr); +} +void emit_movswl_tlb(int addr, int map, int rt) +{ + if(map<0) emit_movswl(addr+(int)rdram-0x80000000, rt); + else + { + assem_debug("addr32 movswl %x(,%%%s,4),%%%s\n",addr,regname[map],regname[rt]); + output_byte(0x67); + output_byte(0x0F); + output_byte(0xBF); + output_modrm(0,4,rt); + output_sib(2,map,5); + output_w32(addr); + } +} +void emit_movzbl(int addr, int rt) +{ + assem_debug("movzbl %x,%%%s\n",addr,regname[rt]); + output_byte(0x0F); + output_byte(0xB6); + output_modrm(0,5,rt); + output_w32(addr-(int)out-4); // Note: rip-relative in 64-bit mode +} +void emit_movzbl_indexed(int addr, int rs, int rt) +{ + assem_debug("movzbl %x+%%%s,%%%s\n",addr,regname[rs],regname[rt]); + output_byte(0x0F); + output_byte(0xB6); + output_modrm(2,rs,rt); + output_w32(addr); +} +void emit_movzbl_tlb(int addr, int map, int rt) +{ + if(map<0) emit_movzbl(addr+(int)rdram-0x80000000, rt); + else + { + assem_debug("addr32 movzbl %x(,%%%s,4),%%%s\n",addr,regname[map],regname[rt]); + output_byte(0x67); + output_byte(0x0F); + output_byte(0xB6); + output_modrm(0,4,rt); + output_sib(2,map,5); + output_w32(addr); + } +} +void emit_movzbl_indexed_tlb(int addr, int rs, int map, int rt) +{ + if(map<0) emit_movzbl_indexed(addr+(int)rdram-0x80000000, rs, rt); + else { + assem_debug("addr32 movzbl %x(%%%s,%%%s,4),%%%s\n",addr,regname[rs],regname[map],regname[rt]); + assert(rs!=ESP); + output_byte(0x67); + output_byte(0x0F); + output_byte(0xB6); + if(addr==0&&rs!=EBP) { + output_modrm(0,4,rt); + output_sib(2,map,rs); + } + else if(addr<128&&addr>=-128) { + output_modrm(1,4,rt); + output_sib(2,map,rs); + output_byte(addr); + } + else + { + output_modrm(2,4,rt); + output_sib(2,map,rs); + output_w32(addr); + } + } +} +void emit_movzwl(int addr, int rt) +{ + assem_debug("movzwl %x,%%%s\n",addr,regname[rt]); + output_byte(0x0F); + output_byte(0xB7); + output_modrm(0,5,rt); + output_w32(addr-(int)out-4); // Note: rip-relative in 64-bit mode +} +void emit_movzwl_indexed(int addr, int rs, int rt) +{ + assem_debug("movzwl %x+%%%s,%%%s\n",addr,regname[rs],regname[rt]); + output_byte(0x0F); + output_byte(0xB7); + output_modrm(2,rs,rt); + output_w32(addr); +} +void emit_movzwl_tlb(int addr, int map, int rt) +{ + if(map<0) emit_movzwl(addr+(int)rdram-0x80000000, rt); + else + { + assem_debug("addr32 movzwl %x(,%%%s,4),%%%s\n",addr,regname[map],regname[rt]); + output_byte(0x67); + output_byte(0x0F); + output_byte(0xB7); + output_modrm(0,4,rt); + output_sib(2,map,5); + output_w32(addr); + } +} +void emit_movzwl_reg(int rs, int rt) +{ + assem_debug("movzwl %%%s,%%%s\n",regname[rs]+1,regname[rt]); + output_byte(0x0F); + output_byte(0xB7); + output_modrm(3,rs,rt); +} + +void emit_xchg(int rs, int rt) +{ + assem_debug("xchg %%%s,%%%s\n",regname[rs],regname[rt]); + if(rs==EAX) { + output_byte(0x90+rt); + } + else + { + output_byte(0x87); + output_modrm(3,rs,rt); + } +} +void emit_writeword(int rt, int addr) +{ + assem_debug("movl %%%s,%x\n",regname[rt],addr); + output_byte(0x89); + output_modrm(0,5,rt); + output_w32(addr-(int)out-4); // Note: rip-relative in 64-bit mode +} +void emit_writeword_indexed(int rt, int addr, int rs) +{ + assem_debug("mov %%%s,%x+%%%s\n",regname[rt],addr,regname[rs]); + output_byte(0x89); + if(addr<128&&addr>=-128) { + output_modrm(1,rs,rt); + if(rs==ESP) output_sib(0,4,4); + output_byte(addr); + } + else + { + output_modrm(2,rs,rt); + if(rs==ESP) output_sib(0,4,4); + output_w32(addr); + } +} +void emit_writeword_tlb(int rt, int addr, int map) +{ + if(map<0) { + emit_writeword(rt, addr+(int)rdram-0x80000000); + } else { + emit_writeword_indexed(rt, addr, map); + } +} +void emit_writeword_indexed_tlb(int rt, int addr, int rs, int map, int temp) +{ + if(map<0) emit_writeword_indexed(rt, addr+(int)rdram-0x80000000, rs); + else { + assem_debug("addr32 mov %%%s,%x(%%%s,%%%s,1)\n",regname[rt],addr,regname[rs],regname[map]); + assert(rs!=ESP); + output_byte(0x67); + output_byte(0x89); + if(addr==0&&rs!=EBP) { + output_modrm(0,4,rt); + output_sib(0,map,rs); + } + else if(addr<128&&addr>=-128) { + output_modrm(1,4,rt); + output_sib(0,map,rs); + output_byte(addr); + } + else + { + output_modrm(2,4,rt); + output_sib(0,map,rs); + output_w32(addr); + } + } +} +void emit_writedword_tlb(int rh, int rl, int addr, int map) +{ + assert(rh>=0); + if(map<0) { + emit_writeword(rh, addr+(int)rdram-0x80000000); + emit_writeword(rl, addr+(int)rdram-0x7FFFFFFC); + } + else { + emit_writeword_indexed(rh, addr, map); + emit_writeword_indexed(rl, addr+4, map); + } +} +void emit_writedword_indexed_tlb(int rh, int rl, int addr, int rs, int map, int temp) +{ + assert(rh>=0); + emit_writeword_indexed_tlb(rh, addr, rs, map, temp); + emit_writeword_indexed_tlb(rl, addr+4, rs, map, temp); +} +void emit_writehword(int rt, int addr) +{ + assem_debug("movw %%%s,%x\n",regname[rt]+1,addr); + output_byte(0x66); + output_byte(0x89); + output_modrm(0,5,rt); + output_w32(addr-(int)out-4); // Note: rip-relative in 64-bit mode +} +void emit_writehword_indexed(int rt, int addr, int rs) +{ + assem_debug("movw %%%s,%x+%%%s\n",regname[rt]+1,addr,regname[rs]); + output_byte(0x66); + output_byte(0x89); + if(addr<128&&addr>=-128) { + output_modrm(1,rs,rt); + output_byte(addr); + } + else + { + output_modrm(2,rs,rt); + output_w32(addr); + } +} +void emit_writehword_tlb(int rt, int addr, int map) +{ + if(map<0) { + emit_writehword(rt, addr+(int)rdram-0x80000000); + } else { + emit_writehword_indexed(rt, addr, map); + } +} +void emit_writebyte(int rt, int addr) +{ + if(rt<4) { + assem_debug("movb %%%cl,%x\n",regname[rt][1],addr); + output_byte(0x88); + output_modrm(0,5,rt); + output_w32(addr-(int)out-4); // Note: rip-relative in 64-bit mode + } + else + { + emit_xchg(EAX,rt); + emit_writebyte(EAX,addr); + emit_xchg(EAX,rt); + } +} +void emit_writebyte_indexed(int rt, int addr, int rs) +{ + if(rt<4) { + assem_debug("movb %%%cl,%x+%%%s\n",regname[rt][1],addr,regname[rs]); + output_byte(0x88); + if(addr<128&&addr>=-128) { + output_modrm(1,rs,rt); + output_byte(addr); + } + else + { + output_modrm(2,rs,rt); + output_w32(addr); + } + } + else + { + emit_xchg(EAX,rt); + emit_writebyte_indexed(EAX,addr,rs==EAX?rt:rs); + emit_xchg(EAX,rt); + } +} +void emit_writebyte_tlb(int rt, int addr, int map) +{ + if(map<0) { + emit_writebyte(rt, addr+(int)rdram-0x80000000); + } else { + emit_writebyte_indexed(rt, addr, map); + } +} +void emit_writebyte_indexed_tlb(int rt, int addr, int rs, int map, int temp) +{ + if(map<0) emit_writebyte_indexed(rt, addr+(int)rdram-0x80000000, rs); + else + if(rt<4) { + assem_debug("addr32 movb %%%cl,%x(%%%s,%%%s,1)\n",regname[rt][1],addr,regname[rs],regname[map]); + assert(rs!=ESP); + output_byte(0x67); + output_byte(0x88); + if(addr==0&&rs!=EBP) { + output_modrm(0,4,rt); + output_sib(0,map,rs); + } + else if(addr<128&&addr>=-128) { + output_modrm(1,4,rt); + output_sib(0,map,rs); + output_byte(addr); + } + else + { + output_modrm(2,4,rt); + output_sib(0,map,rs); + output_w32(addr); + } + } + else + { + emit_xchg(EAX,rt); + emit_writebyte_indexed_tlb(EAX,addr,rs==EAX?rt:rs,map==EAX?rt:map,temp); + emit_xchg(EAX,rt); + } +} +void emit_writeword_imm(int imm, int addr) +{ + assem_debug("movl $%x,%x\n",imm,addr); + output_byte(0xC7); + output_modrm(0,5,0); + output_w32(addr-(int)out-8); // Note: rip-relative in 64-bit mode + output_w32(imm); +} +void emit_writeword_imm_esp(int imm, int addr) +{ + assem_debug("mov $%x,%x(%%esp)\n",imm,addr); + assert(addr>=-128&&addr<128); + output_byte(0xC7); + output_modrm(!!addr,4,0); + output_sib(0,4,4); + if(addr) output_byte(addr); + output_w32(imm); +} +void emit_writedword_imm32(int imm, int addr) +{ + assem_debug("movq $%x,%x\n",imm,addr); + output_rex(1,0,0,0); + output_byte(0xC7); + output_modrm(0,5,0); + output_w32(addr-(int)out-8); // Note: rip-relative in 64-bit mode + output_w32(imm); // Note: This 32-bit value will be sign extended +} +void emit_writebyte_imm(int imm, int addr) +{ + assem_debug("movb $%x,%x\n",imm,addr); + assert(imm>=-128&&imm<128); + output_byte(0xC6); + output_modrm(0,5,0); + output_w32(addr-(int)out-5); // Note: rip-relative in 64-bit mode + output_byte(imm); +} + +void emit_mul(int rs) +{ + assem_debug("mul %%%s\n",regname[rs]); + output_byte(0xF7); + output_modrm(3,rs,4); +} +void emit_imul(int rs) +{ + assem_debug("imul %%%s\n",regname[rs]); + output_byte(0xF7); + output_modrm(3,rs,5); +} +void emit_div(int rs) +{ + assem_debug("div %%%s\n",regname[rs]); + output_byte(0xF7); + output_modrm(3,rs,6); +} +void emit_idiv(int rs) +{ + assem_debug("idiv %%%s\n",regname[rs]); + output_byte(0xF7); + output_modrm(3,rs,7); +} +void emit_cdq() +{ + assem_debug("cdq\n"); + output_byte(0x99); +} + +// Load 2 immediates optimizing for small code size +void emit_mov2imm_compact(int imm1,u_int rt1,int imm2,u_int rt2) +{ + emit_movimm(imm1,rt1); + if(imm2-imm1<128&&imm2-imm1>=-128) emit_addimm(rt1,imm2-imm1,rt2); + else emit_movimm(imm2,rt2); +} + +// special case for checking pending_exception +void emit_cmpmem_imm_byte(int addr,int imm) +{ + assert(imm<128&&imm>=-127); + assem_debug("cmpb $%d,%x\n",imm,addr); + output_byte(0x80); + output_modrm(0,5,7); + output_w32(addr-(int)out-5); // Note: rip-relative in 64-bit mode + output_byte(imm); +} + +// special case for checking invalid_code +void emit_cmpmem_indexedsr12_imm(int addr,int r,int imm) +{ + assert(imm<128&&imm>=-127); + assert(r>=0&&r<8); + emit_shrimm(r,12,r); + assem_debug("cmp $%d,%x+%%%s\n",imm,addr,regname[r]); + output_byte(0x80); + output_modrm(2,r,7); + output_w32(addr); + output_byte(imm); +} + +// special case for checking hash_table +void emit_cmpmem_indexed(int addr,int rs,int rt) +{ + assert(rs>=0&&rs<8); + assert(rt>=0&&rt<8); + assem_debug("cmp %x+%%%s,%%%s\n",addr,regname[rs],regname[rt]); + output_byte(0x39); + output_modrm(2,rs,rt); + output_w32(addr); +} + +// special case for checking memory_map in verify_mapping +void emit_cmpmem(int addr,int rt) +{ + assert(rt>=0&&rt<8); + assem_debug("cmp %x,%%%s\n",addr,regname[rt]); + output_byte(0x39); + output_modrm(0,5,rt); + output_w32((int)addr-(int)out-4); // Note: rip-relative in 64-bit mode +} + +// Used to preload hash table entries +void emit_prefetch(void *addr) +{ + assem_debug("prefetch %x\n",(int)addr); + output_byte(0x0F); + output_byte(0x18); + output_modrm(0,5,1); + output_w32((int)addr-(int)out-4); // Note: rip-relative in 64-bit mode +} + +/*void emit_submem(int r,int addr) +{ + assert(r>=0&&r<8); + assem_debug("sub %x,%%%s\n",addr,regname[r]); + output_byte(0x2B); + output_modrm(0,5,r); + output_w32((int)addr); +}*/ + +void emit_flds(int r) +{ + assem_debug("flds (%%%s)\n",regname[r]); + output_byte(0xd9); + if(r!=EBP) output_modrm(0,r,0); + else {output_modrm(1,EBP,0);output_byte(0);} +} +void emit_fldl(int r) +{ + assem_debug("fldl (%%%s)\n",regname[r]); + output_byte(0xdd); + if(r!=EBP) output_modrm(0,r,0); + else {output_modrm(1,EBP,0);output_byte(0);} +} +void emit_fucomip(u_int r) +{ + assem_debug("fucomip %d\n",r); + assert(r<8); + output_byte(0xdf); + output_byte(0xe8+r); +} +void emit_fchs() +{ + assem_debug("fchs\n"); + output_byte(0xd9); + output_byte(0xe0); +} +void emit_fabs() +{ + assem_debug("fabs\n"); + output_byte(0xd9); + output_byte(0xe1); +} +void emit_fsqrt() +{ + assem_debug("fsqrt\n"); + output_byte(0xd9); + output_byte(0xfa); +} +void emit_fadds(int r) +{ + assem_debug("fadds (%%%s)\n",regname[r]); + output_byte(0xd8); + if(r!=EBP) output_modrm(0,r,0); + else {output_modrm(1,EBP,0);output_byte(0);} +} +void emit_faddl(int r) +{ + assem_debug("faddl (%%%s)\n",regname[r]); + output_byte(0xdc); + if(r!=EBP) output_modrm(0,r,0); + else {output_modrm(1,EBP,0);output_byte(0);} +} +void emit_fadd(int r) +{ + assem_debug("fadd st%d\n",r); + output_byte(0xd8); + output_byte(0xc0+r); +} +void emit_fsubs(int r) +{ + assem_debug("fsubs (%%%s)\n",regname[r]); + output_byte(0xd8); + if(r!=EBP) output_modrm(0,r,4); + else {output_modrm(1,EBP,4);output_byte(0);} +} +void emit_fsubl(int r) +{ + assem_debug("fsubl (%%%s)\n",regname[r]); + output_byte(0xdc); + if(r!=EBP) output_modrm(0,r,4); + else {output_modrm(1,EBP,4);output_byte(0);} +} +void emit_fsub(int r) +{ + assem_debug("fsub st%d\n",r); + output_byte(0xd8); + output_byte(0xe0+r); +} +void emit_fmuls(int r) +{ + assem_debug("fmuls (%%%s)\n",regname[r]); + output_byte(0xd8); + if(r!=EBP) output_modrm(0,r,1); + else {output_modrm(1,EBP,1);output_byte(0);} +} +void emit_fmull(int r) +{ + assem_debug("fmull (%%%s)\n",regname[r]); + output_byte(0xdc); + if(r!=EBP) output_modrm(0,r,1); + else {output_modrm(1,EBP,1);output_byte(0);} +} +void emit_fmul(int r) +{ + assem_debug("fmul st%d\n",r); + output_byte(0xd8); + output_byte(0xc8+r); +} +void emit_fdivs(int r) +{ + assem_debug("fdivs (%%%s)\n",regname[r]); + output_byte(0xd8); + if(r!=EBP) output_modrm(0,r,6); + else {output_modrm(1,EBP,6);output_byte(0);} +} +void emit_fdivl(int r) +{ + assem_debug("fdivl (%%%s)\n",regname[r]); + output_byte(0xdc); + if(r!=EBP) output_modrm(0,r,6); + else {output_modrm(1,EBP,6);output_byte(0);} +} +void emit_fdiv(int r) +{ + assem_debug("fdiv st%d\n",r); + output_byte(0xd8); + output_byte(0xf0+r); +} +void emit_fpop() +{ + // fstp st(0) + assem_debug("fpop\n"); + output_byte(0xdd); + output_byte(0xd8); +} +void emit_fildl(int r) +{ + assem_debug("fildl (%%%s)\n",regname[r]); + output_byte(0xdb); + if(r!=EBP) output_modrm(0,r,0); + else {output_modrm(1,EBP,0);output_byte(0);} +} +void emit_fildll(int r) +{ + assem_debug("fildll (%%%s)\n",regname[r]); + output_byte(0xdf); + if(r!=EBP) output_modrm(0,r,5); + else {output_modrm(1,EBP,5);output_byte(0);} +} +void emit_fistpl(int r) +{ + assem_debug("fistpl (%%%s)\n",regname[r]); + output_byte(0xdb); + if(r!=EBP) output_modrm(0,r,3); + else {output_modrm(1,EBP,3);output_byte(0);} +} +void emit_fistpll(int r) +{ + assem_debug("fistpll (%%%s)\n",regname[r]); + output_byte(0xdf); + if(r!=EBP) output_modrm(0,r,7); + else {output_modrm(1,EBP,7);output_byte(0);} +} +void emit_fstps(int r) +{ + assem_debug("fstps (%%%s)\n",regname[r]); + output_byte(0xd9); + if(r!=EBP) output_modrm(0,r,3); + else {output_modrm(1,EBP,3);output_byte(0);} +} +void emit_fstpl(int r) +{ + assem_debug("fstpl (%%%s)\n",regname[r]); + output_byte(0xdd); + if(r!=EBP) output_modrm(0,r,3); + else {output_modrm(1,EBP,3);output_byte(0);} +} +void emit_fnstcw_stack() +{ + assem_debug("fnstcw (%%esp)\n"); + output_byte(0xd9); + output_modrm(0,4,7); + output_sib(0,4,4); +} +void emit_fldcw_stack() +{ + assem_debug("fldcw (%%esp)\n"); + output_byte(0xd9); + output_modrm(0,4,5); + output_sib(0,4,4); +} +void emit_fldcw_indexed(int addr,int r) +{ + assem_debug("fldcw %x(%%%s)\n",addr,regname[r]); + output_byte(0xd9); + output_modrm(0,4,5); + output_sib(1,r,5); + output_w32(addr); +} +void emit_fldcw(int addr) +{ + assem_debug("fldcw %x\n",addr); + output_byte(0xd9); + output_modrm(0,5,5); + output_w32(addr-(int)out-4); // Note: rip-relative in 64-bit mode +} +void emit_movss_load(u_int addr,u_int ssereg) +{ + assem_debug("movss (%%%s),xmm%d\n",regname[addr],ssereg); + assert(ssereg<8); + output_byte(0xf3); + output_byte(0x0f); + output_byte(0x10); + if(addr!=EBP) output_modrm(0,addr,ssereg); + else {output_modrm(1,EBP,ssereg);output_byte(0);} +} +void emit_movsd_load(u_int addr,u_int ssereg) +{ + assem_debug("movsd (%%%s),xmm%d\n",regname[addr],ssereg); + assert(ssereg<8); + output_byte(0xf2); + output_byte(0x0f); + output_byte(0x10); + if(addr!=EBP) output_modrm(0,addr,ssereg); + else {output_modrm(1,EBP,ssereg);output_byte(0);} +} +void emit_movd_store(u_int ssereg,u_int addr) +{ + assem_debug("movd xmm%d,(%%%s)\n",ssereg,regname[addr]); + assert(ssereg<8); + output_byte(0x66); + output_byte(0x0f); + output_byte(0x7e); + if(addr!=EBP) output_modrm(0,addr,ssereg); + else {output_modrm(1,EBP,ssereg);output_byte(0);} +} +void emit_cvttps2dq(u_int ssereg1,u_int ssereg2) +{ + assem_debug("cvttps2dq xmm%d,xmm%d\n",ssereg1,ssereg2); + assert(ssereg1<8); + assert(ssereg2<8); + output_byte(0xf3); + output_byte(0x0f); + output_byte(0x5b); + output_modrm(3,ssereg1,ssereg2); +} +void emit_cvttpd2dq(u_int ssereg1,u_int ssereg2) +{ + assem_debug("cvttpd2dq xmm%d,xmm%d\n",ssereg1,ssereg2); + assert(ssereg1<8); + assert(ssereg2<8); + output_byte(0x66); + output_byte(0x0f); + output_byte(0xe6); + output_modrm(3,ssereg1,ssereg2); +} + +unsigned int count_bits(u_int reglist) +{ + int count=0; + while(reglist) + { + count+=reglist&1; + reglist>>=1; + } + return count; +} + +// Save registers before function call +// This code is executed infrequently so we try to minimize code size +// by pushing registers onto the stack instead of writing them to their +// usual locations +void save_regs(u_int reglist) +{ + int hr; + int count=count_bits(reglist); + if(count) { + for(hr=0;hr>hr)&1) { + emit_pushreg(hr); + } + } + } + } + emit_addimm(ESP,-(8-count)*8,ESP); +} +// Restore registers after function call +void restore_regs(u_int reglist) +{ + int hr; + int count=count_bits(reglist); + emit_addimm(ESP,(8-count)*8,ESP); + if(count) { + for(hr=HOST_REGS-1;hr>=0;hr--) { + if(hr!=EXCLUDE_REG) { + if((reglist>>hr)&1) { + emit_popreg(hr); + } + } + } + } +} + +/* Stubs/epilogue */ + +emit_extjump2(int addr, int target, int linker) +{ + u_char *ptr=(u_char *)addr; + if(*ptr==0x0f) + { + assert(ptr[1]>=0x80&&ptr[1]<=0x8f); + addr+=2; + } + else + { + assert(*ptr==0xe8||*ptr==0xe9); + addr++; + } + emit_movimm(target,EAX); + emit_movimm(addr,EBX); + //assert(addr>=0x7000000&&addr<0x7FFFFFF); + //assert((target>=0x80000000&&target<0x80800000)||(target>0xA4000000&&target<0xA4001000)); +//DEBUG > +#ifdef DEBUG_CYCLE_COUNT + emit_readword((int)&last_count,ECX); + emit_add(HOST_CCREG,ECX,HOST_CCREG); + emit_readword((int)&next_interupt,ECX); + emit_writeword(HOST_CCREG,(int)&Count); + emit_sub(HOST_CCREG,ECX,HOST_CCREG); + emit_writeword(ECX,(int)&last_count); +#endif +//DEBUG < + emit_jmp(linker); +} + +emit_extjump(int addr, int target) +{ + emit_extjump2(addr, target, (int)dyna_linker); +} +emit_extjump_ds(int addr, int target) +{ + emit_extjump2(addr, target, (int)dyna_linker_ds); +} + +do_readstub(int n) +{ + assem_debug("do_readstub %x\n",start+stubs[n][3]*4); + set_jump_target(stubs[n][1],(int)out); + int type=stubs[n][0]; + int i=stubs[n][3]; + int rs=stubs[n][4]; + struct regstat *i_regs=(struct regstat *)stubs[n][5]; + u_int reglist=stubs[n][7]; + signed char *i_regmap=i_regs->regmap; + int addr=get_reg(i_regmap,AGEN1+(i&1)); + int rth,rt; + int ds; + if(itype[i]==C1LS||itype[i]==LOADLR) { + rth=get_reg(i_regmap,FTEMP|64); + rt=get_reg(i_regmap,FTEMP); + }else{ + rth=get_reg(i_regmap,rt1[i]|64); + rt=get_reg(i_regmap,rt1[i]); + } + assert(rs>=0); + assert(rt>=0); + if(addr<0) addr=rt; + assert(addr>=0); + int ftable=0; + if(type==LOADB_STUB||type==LOADBU_STUB) + ftable=(int)readmemb; + if(type==LOADH_STUB||type==LOADHU_STUB) + ftable=(int)readmemh; + if(type==LOADW_STUB) + ftable=(int)readmem; + if(type==LOADD_STUB) + ftable=(int)readmemd; + emit_writeword(rs,(int)&address); + emit_shrimm(rs,16,addr); + emit_movmem_indexedx8(ftable,addr,addr); + save_regs(reglist); + ds=i_regs!=®s[i]; + int real_rs=(itype[i]==LOADLR)?-1:get_reg(i_regmap,rs1[i]); + if(!ds) load_all_consts(regs[i].regmap_entry,regs[i].was32,regs[i].wasdirty&~(1<regmap_entry,i_regs->was32,i_regs->wasdirty&~(1<>rs1[i])&1)<<1)+ds,0); + emit_add(cc,temp,cc); + emit_writeword(cc,(int)&Count); + emit_callreg(addr); + // We really shouldn't need to update the count here, + // but not doing so causes random crashes... + emit_readword((int)&Count,HOST_CCREG); + emit_readword((int)&next_interupt,ECX); + emit_addimm(HOST_CCREG,-CLOCK_DIVIDER*(stubs[n][6]+1),HOST_CCREG); + emit_sub(HOST_CCREG,ECX,HOST_CCREG); + emit_writeword(ECX,(int)&last_count); + emit_storereg(CCREG,HOST_CCREG); + restore_regs(reglist); + if((cc=get_reg(i_regmap,CCREG))>=0) { + emit_loadreg(CCREG,cc); + } + if(type==LOADB_STUB) + emit_movsbl((int)&readmem_dword,rt); + if(type==LOADBU_STUB) + emit_movzbl((int)&readmem_dword,rt); + if(type==LOADH_STUB) + emit_movswl((int)&readmem_dword,rt); + if(type==LOADHU_STUB) + emit_movzwl((int)&readmem_dword,rt); + if(type==LOADW_STUB) + emit_readword((int)&readmem_dword,rt); + if(type==LOADD_STUB) { + emit_readword((int)&readmem_dword,rt); + if(rth>=0) emit_readword(((int)&readmem_dword)+4,rth); + } + emit_jmp(stubs[n][2]); // return address +} + +inline_readstub(int type, int i, u_int addr, signed char regmap[], int target, int adj, u_int reglist) +{ + assem_debug("inline_readstub\n"); + int rs=get_reg(regmap,target); + int rth=get_reg(regmap,target|64); + int rt=get_reg(regmap,target); + assert(rs>=0); + assert(rt>=0); + int ftable=0; + if(type==LOADB_STUB||type==LOADBU_STUB) + ftable=(int)readmemb; + if(type==LOADH_STUB||type==LOADHU_STUB) + ftable=(int)readmemh; + if(type==LOADW_STUB) + ftable=(int)readmem; + if(type==LOADD_STUB) + ftable=(int)readmemd; + #ifdef HOST_IMM_ADDR32 + emit_writeword_imm(addr,(int)&address); + #else + emit_writeword(rs,(int)&address); + #endif + save_regs(reglist); + int cc=get_reg(regmap,CCREG); + int temp; + if(cc<0) { + if(rs==HOST_CCREG) + { + cc=0;temp=1; + assert(cc!=HOST_CCREG); + assert(temp!=HOST_CCREG); + emit_loadreg(CCREG,cc); + } + else + { + cc=HOST_CCREG; + emit_loadreg(CCREG,cc); + temp=!rs; + } + } + else + { + temp=!rs; + } + emit_readword((int)&last_count,temp); + emit_addimm(cc,CLOCK_DIVIDER*(adj+1),cc); + emit_add(cc,temp,cc); + emit_writeword(cc,(int)&Count); + if((signed int)addr>=(signed int)0xC0000000) { + // Pagefault address + int ds=regmap!=regs[i].regmap; + emit_writeword_imm_esp(start+i*4+(((regs[i].was32>>rs1[i])&1)<<1)+ds,0); + } + emit_call(((uint64_t *)ftable)[addr>>16]); + // We really shouldn't need to update the count here, + // but not doing so causes random crashes... + emit_readword((int)&Count,HOST_CCREG); + emit_readword((int)&next_interupt,ECX); + emit_addimm(HOST_CCREG,-CLOCK_DIVIDER*(adj+1),HOST_CCREG); + emit_sub(HOST_CCREG,ECX,HOST_CCREG); + emit_writeword(ECX,(int)&last_count); + emit_storereg(CCREG,HOST_CCREG); + restore_regs(reglist); + if((cc=get_reg(regmap,CCREG))>=0) { + emit_loadreg(CCREG,cc); + } + if(type==LOADB_STUB) + emit_movsbl((int)&readmem_dword,rt); + if(type==LOADBU_STUB) + emit_movzbl((int)&readmem_dword,rt); + if(type==LOADH_STUB) + emit_movswl((int)&readmem_dword,rt); + if(type==LOADHU_STUB) + emit_movzwl((int)&readmem_dword,rt); + if(type==LOADW_STUB) + emit_readword((int)&readmem_dword,rt); + if(type==LOADD_STUB) { + emit_readword((int)&readmem_dword,rt); + if(rth>=0) emit_readword(((int)&readmem_dword)+4,rth); + } +} + +do_writestub(int n) +{ + assem_debug("do_writestub %x\n",start+stubs[n][3]*4); + set_jump_target(stubs[n][1],(int)out); + int type=stubs[n][0]; + int i=stubs[n][3]; + int rs=stubs[n][4]; + struct regstat *i_regs=(struct regstat *)stubs[n][5]; + u_int reglist=stubs[n][7]; + signed char *i_regmap=i_regs->regmap; + int addr=get_reg(i_regmap,AGEN1+(i&1)); + int rth,rt,r; + int ds; + if(itype[i]==C1LS) { + rth=get_reg(i_regmap,FTEMP|64); + rt=get_reg(i_regmap,r=FTEMP); + }else{ + rth=get_reg(i_regmap,rs2[i]|64); + rt=get_reg(i_regmap,r=rs2[i]); + } + assert(rs>=0); + assert(rt>=0); + if(addr<0) addr=get_reg(i_regmap,-1); + assert(addr>=0); + int ftable=0; + if(type==STOREB_STUB) + ftable=(int)writememb; + if(type==STOREH_STUB) + ftable=(int)writememh; + if(type==STOREW_STUB) + ftable=(int)writemem; + if(type==STORED_STUB) + ftable=(int)writememd; + emit_writeword(rs,(int)&address); + emit_shrimm(rs,16,addr); + emit_movmem_indexedx8(ftable,addr,addr); + if(type==STOREB_STUB) + emit_writebyte(rt,(int)&byte); + if(type==STOREH_STUB) + emit_writehword(rt,(int)&hword); + if(type==STOREW_STUB) + emit_writeword(rt,(int)&word); + if(type==STORED_STUB) { + emit_writeword(rt,(int)&dword); + emit_writeword(r?rth:rt,(int)&dword+4); + } + save_regs(reglist); + ds=i_regs!=®s[i]; + int real_rs=get_reg(i_regmap,rs1[i]); + if(!ds) load_all_consts(regs[i].regmap_entry,regs[i].was32,regs[i].wasdirty&~(1<regmap_entry,i_regs->was32,i_regs->wasdirty&~(1<>rs1[i])&1)<<1)+ds,0); + emit_add(cc,temp,cc); + emit_writeword(cc,(int)&Count); + emit_callreg(addr); + emit_readword((int)&Count,HOST_CCREG); + emit_readword((int)&next_interupt,ECX); + emit_addimm(HOST_CCREG,-CLOCK_DIVIDER*(stubs[n][6]+1),HOST_CCREG); + emit_sub(HOST_CCREG,ECX,HOST_CCREG); + emit_writeword(ECX,(int)&last_count); + emit_storereg(CCREG,HOST_CCREG); + restore_regs(reglist); + if((cc=get_reg(i_regmap,CCREG))>=0) { + emit_loadreg(CCREG,cc); + } + emit_jmp(stubs[n][2]); // return address +} + +inline_writestub(int type, int i, u_int addr, signed char regmap[], int target, int adj, u_int reglist) +{ + assem_debug("inline_writestub\n"); + int rs=get_reg(regmap,-1); + int rth=get_reg(regmap,target|64); + int rt=get_reg(regmap,target); + assert(rs>=0); + assert(rt>=0); + int ftable=0; + if(type==STOREB_STUB) + ftable=(int)writememb; + if(type==STOREH_STUB) + ftable=(int)writememh; + if(type==STOREW_STUB) + ftable=(int)writemem; + if(type==STORED_STUB) + ftable=(int)writememd; + emit_writeword(rs,(int)&address); + if(type==STOREB_STUB) + emit_writebyte(rt,(int)&byte); + if(type==STOREH_STUB) + emit_writehword(rt,(int)&hword); + if(type==STOREW_STUB) + emit_writeword(rt,(int)&word); + if(type==STORED_STUB) { + emit_writeword(rt,(int)&dword); + emit_writeword(target?rth:rt,(int)&dword+4); + } + save_regs(reglist); + int cc=get_reg(regmap,CCREG); + int temp; + if(cc<0) { + if(rs==HOST_CCREG) + { + cc=0;temp=1; + assert(cc!=HOST_CCREG); + assert(temp!=HOST_CCREG); + emit_loadreg(CCREG,cc); + } + else + { + cc=HOST_CCREG; + emit_loadreg(CCREG,cc); + temp=!rs; + } + } + else + { + temp=!rs; + } + emit_readword((int)&last_count,temp); + emit_addimm(cc,CLOCK_DIVIDER*(adj+1),cc); + emit_add(cc,temp,cc); + emit_writeword(cc,(int)&Count); + if((signed int)addr>=(signed int)0xC0000000) { + // Pagefault address + int ds=regmap!=regs[i].regmap; + emit_writeword_imm_esp(start+i*4+(((regs[i].was32>>rs1[i])&1)<<1)+ds,0); + } + emit_call(((uint64_t *)ftable)[addr>>16]); + emit_readword((int)&Count,HOST_CCREG); + emit_readword((int)&next_interupt,ECX); + emit_addimm(HOST_CCREG,-CLOCK_DIVIDER*(adj+1),HOST_CCREG); + emit_sub(HOST_CCREG,ECX,HOST_CCREG); + emit_writeword(ECX,(int)&last_count); + emit_storereg(CCREG,HOST_CCREG); + restore_regs(reglist); + if((cc=get_reg(regmap,CCREG))>=0) { + emit_loadreg(CCREG,cc); + } +} + +do_unalignedwritestub(int n) +{ + set_jump_target(stubs[n][1],(int)out); + output_byte(0xCC); + emit_jmp(stubs[n][2]); // return address +} + +void printregs(int edi,int esi,int ebp,int esp,int b,int d,int c,int a) +{ + printf("regs: %x %x %x %x %x %x %x (%x)\n",a,b,c,d,ebp,esi,edi,(&edi)[-1]); +} + +do_invstub(int n) +{ + u_int reglist=stubs[n][3]; + set_jump_target(stubs[n][1],(int)out); + save_regs(reglist); + if(stubs[n][4]!=EDI) emit_mov(stubs[n][4],EDI); + emit_call((int)&invalidate_block); + restore_regs(reglist); + emit_jmp(stubs[n][2]); // return address +} + +int do_dirty_stub(int i) +{ + assem_debug("do_dirty_stub %x\n",start+i*4); + emit_movimm((int)start<(int)0xC0000000?(int)source:(int)start,EAX); + emit_movimm((int)copy,EBX); + emit_movimm(slen*4,ECX); + emit_movimm(start+i*4,12); + emit_call((int)start<(int)0xC0000000?(int)&verify_code:(int)&verify_code_vm); + int entry=(int)out; + load_regs_entry(i); + if(entry==(int)out) entry=instr_addr[i]; + emit_jmp(instr_addr[i]); + return entry; +} + +void do_dirty_stub_ds() +{ + emit_movimm((int)start<(int)0xC0000000?(int)source:(int)start,EAX); + emit_movimm((int)copy,EBX); + emit_movimm(slen*4,ECX); + emit_movimm(start+1,12); + emit_call((int)&verify_code_ds); +} + +do_cop1stub(int n) +{ + assem_debug("do_cop1stub %x\n",start+stubs[n][3]*4); + set_jump_target(stubs[n][1],(int)out); + int i=stubs[n][3]; + int rs=stubs[n][4]; + struct regstat *i_regs=(struct regstat *)stubs[n][5]; + int ds=stubs[n][6]; + if(!ds) { + load_all_consts(regs[i].regmap_entry,regs[i].was32,regs[i].wasdirty,i); + //if(i_regs!=®s[i]) printf("oops: regs[i]=%x i_regs=%x",(int)®s[i],(int)i_regs); + } + //else {printf("fp exception in delay slot\n");} + wb_dirtys(i_regs->regmap_entry,i_regs->was32,i_regs->wasdirty); + if(regs[i].regmap_entry[HOST_CCREG]!=CCREG) emit_loadreg(CCREG,HOST_CCREG); + emit_movimm(start+(i-ds)*4,EAX); // Get PC + emit_addimm(HOST_CCREG,CLOCK_DIVIDER*ccadj[i],HOST_CCREG); // CHECK: is this right? There should probably be an extra cycle... + emit_jmp(ds?(int)fp_exception_ds:(int)fp_exception); +} + +/* TLB */ + +int do_tlb_r(int s,int ar,int map,int x,int a,int shift,int c,u_int addr) +{ + if(c) { + if((signed int)addr>=(signed int)0xC0000000) { + emit_readword((int)(memory_map+(addr>>12)),map); + } + else + return -1; // No mapping + } + else { + if(s!=map) emit_mov(s,map); + emit_shrimm(map,12,map); + // Schedule this while we wait on the load + //if(x) emit_xorimm(addr,x,addr); + if(shift>=0) emit_lea8(s,shift); + if(~a) emit_andimm(s,a,ar); + emit_movmem_indexedx4((int)memory_map,map,map); + } + return map; +} +int do_tlb_r_branch(int map, int c, u_int addr, int *jaddr) +{ + if(!c||(signed int)addr>=(signed int)0xC0000000) { + emit_test(map,map); + *jaddr=(int)out; + emit_js(0); + } + return map; +} + +int gen_tlb_addr_r(int ar, int map) { + if(map>=0) { + emit_leairrx4(0,ar,map,ar); + } +} + +int do_tlb_w(int s,int ar,int map,int x,int c,u_int addr) +{ + if(c) { + if(addr<0x80800000||addr>=0xC0000000) { + emit_readword((int)(memory_map+(addr>>12)),map); + } + else + return -1; // No mapping + } + else { + if(s!=map) emit_mov(s,map); + //if(s!=ar) emit_mov(s,ar); + emit_shrimm(map,12,map); + // Schedule this while we wait on the load + //if(x) emit_xorimm(s,x,addr); + emit_movmem_indexedx4((int)memory_map,map,map); + } + emit_shlimm(map,2,map); + return map; +} +int do_tlb_w_branch(int map, int c, u_int addr, int *jaddr) +{ + if(!c||addr<0x80800000||addr>=0xC0000000) { + *jaddr=(int)out; + emit_jc(0); + } +} + +int gen_tlb_addr_w(int ar, int map) { + if(map>=0) { + emit_leairrx1(0,ar,map,ar); + } +} + +// We don't need this for x86 +generate_map_const(u_int addr,int reg) { + // void *mapaddr=memory_map+(addr>>12); +} + +/* Special assem */ + +void shift_assemble_x86(int i,struct regstat *i_regs) +{ + if(rt1[i]) { + if(opcode2[i]<=0x07) // SLLV/SRLV/SRAV + { + char s,t,shift; + t=get_reg(i_regs->regmap,rt1[i]); + s=get_reg(i_regs->regmap,rs1[i]); + shift=get_reg(i_regs->regmap,rs2[i]); + if(t>=0){ + if(rs1[i]==0) + { + emit_zeroreg(t); + } + else if(rs2[i]==0) + { + assert(s>=0); + if(s!=t) emit_mov(s,t); + } + else + { + char temp=get_reg(i_regs->regmap,-1); + assert(s>=0); + if(t==ECX&&s!=ECX) { + if(shift!=ECX) emit_mov(shift,ECX); + if(rt1[i]==rs2[i]) {shift=temp;} + if(s!=shift) emit_mov(s,shift); + } + else + { + if(rt1[i]==rs2[i]) {emit_mov(shift,temp);shift=temp;} + if(s!=t) emit_mov(s,t); + if(shift!=ECX) { + if(i_regs->regmap[ECX]<0) + emit_mov(shift,ECX); + else + emit_xchg(shift,ECX); + } + } + if(opcode2[i]==4) // SLLV + { + emit_shlcl(t==ECX?shift:t); + } + if(opcode2[i]==6) // SRLV + { + emit_shrcl(t==ECX?shift:t); + } + if(opcode2[i]==7) // SRAV + { + emit_sarcl(t==ECX?shift:t); + } + if(shift!=ECX&&i_regs->regmap[ECX]>=0) emit_xchg(shift,ECX); + } + } + } else { // DSLLV/DSRLV/DSRAV + char sh,sl,th,tl,shift; + th=get_reg(i_regs->regmap,rt1[i]|64); + tl=get_reg(i_regs->regmap,rt1[i]); + sh=get_reg(i_regs->regmap,rs1[i]|64); + sl=get_reg(i_regs->regmap,rs1[i]); + shift=get_reg(i_regs->regmap,rs2[i]); + if(tl>=0){ + if(rs1[i]==0) + { + emit_zeroreg(tl); + if(th>=0) emit_zeroreg(th); + } + else if(rs2[i]==0) + { + assert(sl>=0); + if(sl!=tl) emit_mov(sl,tl); + if(th>=0&&sh!=th) emit_mov(sh,th); + } + else + { + // FIXME: What if shift==tl ? + assert(shift!=tl); + int temp=get_reg(i_regs->regmap,-1); + int real_th=th; + if(th<0&&opcode2[i]!=0x14) {th=temp;} // DSLLV doesn't need a temporary register + assert(sl>=0); + assert(sh>=0); + if(tl==ECX&&sl!=ECX) { + if(shift!=ECX) emit_mov(shift,ECX); + if(sl!=shift) emit_mov(sl,shift); + if(th>=0 && sh!=th) emit_mov(sh,th); + } + else if(th==ECX&&sh!=ECX) { + if(shift!=ECX) emit_mov(shift,ECX); + if(sh!=shift) emit_mov(sh,shift); + if(sl!=tl) emit_mov(sl,tl); + } + else + { + if(sl!=tl) emit_mov(sl,tl); + if(th>=0 && sh!=th) emit_mov(sh,th); + if(shift!=ECX) { + if(i_regs->regmap[ECX]<0) + emit_mov(shift,ECX); + else + emit_xchg(shift,ECX); + } + } + if(opcode2[i]==0x14) // DSLLV + { + if(th>=0) emit_shldcl(th==ECX?shift:th,tl==ECX?shift:tl); + emit_shlcl(tl==ECX?shift:tl); + emit_testimm(ECX,32); + if(th>=0) emit_cmovne_reg(tl==ECX?shift:tl,th==ECX?shift:th); + emit_cmovne(&const_zero,tl==ECX?shift:tl); + } + if(opcode2[i]==0x16) // DSRLV + { + assert(th>=0); + emit_shrdcl(tl==ECX?shift:tl,th==ECX?shift:th); + emit_shrcl(th==ECX?shift:th); + emit_testimm(ECX,32); + emit_cmovne_reg(th==ECX?shift:th,tl==ECX?shift:tl); + if(real_th>=0) emit_cmovne(&const_zero,th==ECX?shift:th); + } + if(opcode2[i]==0x17) // DSRAV + { + assert(th>=0); + emit_shrdcl(tl==ECX?shift:tl,th==ECX?shift:th); + if(real_th>=0) { + assert(temp>=0); + emit_mov(th==ECX?shift:th,temp==ECX?shift:temp); + } + emit_sarcl(th==ECX?shift:th); + if(real_th>=0) emit_sarimm(temp==ECX?shift:temp,31,temp==ECX?shift:temp); + emit_testimm(ECX,32); + emit_cmovne_reg(th==ECX?shift:th,tl==ECX?shift:tl); + if(real_th>=0) emit_cmovne_reg(temp==ECX?shift:temp,th==ECX?shift:th); + } + if(shift!=ECX&&(i_regs->regmap[ECX]>=0||temp==ECX)) emit_xchg(shift,ECX); + } + } + } + } +} +#define shift_assemble shift_assemble_x86 + +void loadlr_assemble_x86(int i,struct regstat *i_regs) +{ + int s,th,tl,temp,temp2,addr,map=-1; + int offset; + int jaddr=0; + int memtarget,c=0; + u_int hr,reglist=0; + th=get_reg(i_regs->regmap,rt1[i]|64); + tl=get_reg(i_regs->regmap,rt1[i]); + s=get_reg(i_regs->regmap,rs1[i]); + temp=get_reg(i_regs->regmap,-1); + temp2=get_reg(i_regs->regmap,FTEMP); + addr=get_reg(i_regs->regmap,AGEN1+(i&1)); + assert(addr<0); + offset=imm[i]; + for(hr=0;hrregmap[hr]>=0) reglist|=1<=0) { + c=(i_regs->wasconst>>s)&1; + memtarget=((signed int)(constmap[i][s]+offset))<(signed int)0x80800000; + if(using_tlb&&((signed int)(constmap[i][s]+offset))>=(signed int)0xC0000000) memtarget=1; + } + if(tl>=0) { + //assert(tl>=0); + //assert(rt1[i]); + if(!using_tlb) { + if(!c) { + emit_lea8(addr,temp); + if (opcode[i]==0x22||opcode[i]==0x26) { + emit_andimm(addr,0xFFFFFFFC,temp2); // LWL/LWR + }else{ + emit_andimm(addr,0xFFFFFFF8,temp2); // LDL/LDR + } + emit_cmpimm(addr,0x800000); + jaddr=(int)out; + emit_jno(0); + } + else { + if (opcode[i]==0x22||opcode[i]==0x26) { + emit_movimm(((constmap[i][s]+offset)<<3)&24,temp); // LWL/LWR + }else{ + emit_movimm(((constmap[i][s]+offset)<<3)&56,temp); // LDL/LDR + } + } + }else{ // using tlb + int a; + if(c) { + a=-1; + }else if (opcode[i]==0x22||opcode[i]==0x26) { + a=0xFFFFFFFC; // LWL/LWR + }else{ + a=0xFFFFFFF8; // LDL/LDR + } + map=get_reg(i_regs->regmap,TLREG); + assert(map>=0); + map=do_tlb_r(addr,temp2,map,0,a,c?-1:temp,c,constmap[i][s]+offset); + if(c) { + if (opcode[i]==0x22||opcode[i]==0x26) { + emit_movimm(((constmap[i][s]+offset)<<3)&24,temp); // LWL/LWR + }else{ + emit_movimm(((constmap[i][s]+offset)<<3)&56,temp); // LDL/LDR + } + } + do_tlb_r_branch(map,c,constmap[i][s]+offset,&jaddr); + } + if (opcode[i]==0x22||opcode[i]==0x26) { // LWL/LWR + if(!c||memtarget) { + //emit_readword_indexed((int)rdram-0x80000000,temp2,temp2); + emit_readword_indexed_tlb(0,temp2,map,temp2); + if(jaddr) add_stub(LOADW_STUB,jaddr,(int)out,i,temp2,(int)i_regs,ccadj[i],reglist); + } + else + inline_readstub(LOADW_STUB,i,(constmap[i][s]+offset)&0xFFFFFFFC,i_regs->regmap,FTEMP,ccadj[i],reglist); + emit_andimm(temp,24,temp); + if (opcode[i]==0x26) emit_xorimm(temp,24,temp); // LWR + if(temp==ECX) + { + int temp3=EDX; + if(temp3==temp2) temp3++; + emit_pushreg(temp3); + emit_movimm(-1,temp3); + if (opcode[i]==0x26) { + emit_shrcl(temp3); + emit_shrcl(temp2); + }else{ + emit_shlcl(temp3); + emit_shlcl(temp2); + } + emit_mov(temp3,ECX); + emit_not(ECX,ECX); + emit_popreg(temp3); + } + else + { + int temp3=EBP; + if(temp3==temp) temp3++; + if(temp3==temp2) temp3++; + if(temp3==temp) temp3++; + emit_xchg(ECX,temp); + emit_pushreg(temp3); + emit_movimm(-1,temp3); + if (opcode[i]==0x26) { + emit_shrcl(temp3); + emit_shrcl(temp2==ECX?temp:temp2); + }else{ + emit_shlcl(temp3); + emit_shlcl(temp2==ECX?temp:temp2); + } + emit_not(temp3,temp3); + emit_mov(temp,ECX); + emit_mov(temp3,temp); + emit_popreg(temp3); + } + emit_and(temp,tl,tl); + emit_or(temp2,tl,tl); + //emit_storereg(rt1[i],tl); // DEBUG + } + if (opcode[i]==0x1A||opcode[i]==0x1B) { // LDL/LDR + if(s>=0) + if((i_regs->wasdirty>>s)&1) + emit_storereg(rs1[i],s); + if(get_reg(i_regs->regmap,rs1[i]|64)>=0) + if((i_regs->wasdirty>>get_reg(i_regs->regmap,rs1[i]|64))&1) + emit_storereg(rs1[i]|64,get_reg(i_regs->regmap,rs1[i]|64)); + int temp2h=get_reg(i_regs->regmap,FTEMP|64); + if(!c||memtarget) { + //if(th>=0) emit_readword_indexed((int)rdram-0x80000000,temp2,temp2h); + //emit_readword_indexed((int)rdram-0x7FFFFFFC,temp2,temp2); + emit_readdword_indexed_tlb(0,temp2,map,temp2h,temp2); + if(jaddr) add_stub(LOADD_STUB,jaddr,(int)out,i,temp2,(int)i_regs,ccadj[i],reglist); + } + else + inline_readstub(LOADD_STUB,i,(constmap[i][s]+offset)&0xFFFFFFF8,i_regs->regmap,FTEMP,ccadj[i],reglist); + emit_andimm(temp,56,temp); + //output_byte(0xCC); + //emit_pushreg(temp); + //emit_pushreg(temp2h); + //emit_pushreg(temp2); + //emit_pushreg(th); + //emit_pushreg(tl); + emit_addimm64(ESP,-20,ESP); + emit_writeword_indexed(temp,16,ESP); + emit_writeword_indexed(temp2h,12,ESP); + emit_writeword_indexed(temp2,8,ESP); + emit_writeword_indexed(th,4,ESP); + emit_writeword_indexed(tl,0,ESP); + emit_mov(temp,EDX); + emit_readdword_indexed(0,ESP,ARG1_REG); + emit_readdword_indexed(8,ESP,ARG2_REG); + if(opcode[i]==0x1A) emit_call((int)ldl_merge); + if(opcode[i]==0x1B) emit_call((int)ldr_merge); + emit_addimm64(ESP,20,ESP); + if(th!=EAX) { + emit_mov64(EAX,th); + } + emit_mov(EAX,tl); + emit_shrimm64(th,32,th); + if(s>=0) emit_loadreg(rs1[i],s); + if(get_reg(i_regs->regmap,rs1[i]|64)>=0) + emit_loadreg(rs1[i]|64,get_reg(i_regs->regmap,rs1[i]|64)); + } + } +} +#define loadlr_assemble loadlr_assemble_x86 + +void cop0_assemble(int i,struct regstat *i_regs) +{ + if(opcode2[i]==0) // MFC0 + { + signed char t=get_reg(i_regs->regmap,rt1[i]); + char copr=(source[i]>>11)&0x1f; + //assert(t>=0); // Why does this happen? OOT is weird + if(t>=0) { + emit_writedword_imm32((int)&fake_pc,(int)&PC); + emit_writebyte_imm((source[i]>>11)&0x1f,(int)&(fake_pc.f.r.nrd)); + if(copr==9) { + emit_readword((int)&last_count,ECX); + emit_loadreg(CCREG,HOST_CCREG); // TODO: do proper reg alloc + emit_add(HOST_CCREG,ECX,HOST_CCREG); + emit_addimm(HOST_CCREG,CLOCK_DIVIDER*ccadj[i],HOST_CCREG); + emit_writeword(HOST_CCREG,(int)&Count); + } + emit_call((int)MFC0); + emit_readword((int)&readmem_dword,t); + } + } + else if(opcode2[i]==4) // MTC0 + { + signed char s=get_reg(i_regs->regmap,rs1[i]); + char copr=(source[i]>>11)&0x1f; + assert(s>=0); + emit_writeword(s,(int)&readmem_dword); + wb_register(rs1[i],i_regs->regmap,i_regs->dirty,i_regs->was32); // FIXME + emit_writedword_imm32((int)&fake_pc,(int)&PC); + emit_writebyte_imm((source[i]>>11)&0x1f,(int)&(fake_pc.f.r.nrd)); + if(copr==9||copr==11||copr==12) { + emit_readword((int)&last_count,ECX); + emit_loadreg(CCREG,HOST_CCREG); // TODO: do proper reg alloc + emit_add(HOST_CCREG,ECX,HOST_CCREG); + emit_addimm(HOST_CCREG,CLOCK_DIVIDER*ccadj[i],HOST_CCREG); + emit_writeword(HOST_CCREG,(int)&Count); + } + // What a mess. The status register (12) can enable interrupts, + // so needs a special case to handle a pending interrupt. + // The interrupt must be taken immediately, because a subsequent + // instruction might disable interrupts again. + if(copr==12&&!is_delayslot) { + emit_writeword_imm(start+i*4+4,(int)&pcaddr); + emit_writebyte_imm(0,(int)&pending_exception); + } + //else if(copr==12&&is_delayslot) emit_call((int)MTC0_R12); + //else + emit_call((int)MTC0); + if(copr==9||copr==11||copr==12) { + emit_readword((int)&Count,HOST_CCREG); + emit_readword((int)&next_interupt,ECX); + emit_addimm(HOST_CCREG,-CLOCK_DIVIDER*ccadj[i],HOST_CCREG); + emit_sub(HOST_CCREG,ECX,HOST_CCREG); + emit_writeword(ECX,(int)&last_count); + emit_storereg(CCREG,HOST_CCREG); + } + emit_loadreg(rs1[i],s); + if(copr==12) { + assert(!is_delayslot); + //if(is_delayslot) output_byte(0xcc); + emit_cmpmem_imm_byte((int)&pending_exception,0); + emit_jne((int)&do_interrupt); + } + cop1_usable=0; + } + else + { + assert(opcode2[i]==0x10); + if((source[i]&0x3f)==0x01) // TLBR + emit_call((int)TLBR); + if((source[i]&0x3f)==0x02) // TLBWI + emit_call((int)TLBWI_new); + if((source[i]&0x3f)==0x06) { // TLBWR + // The TLB entry written by TLBWR is dependent on the count, + // so update the cycle count + emit_readword((int)&last_count,ECX); + if(i_regs->regmap[HOST_CCREG]!=CCREG) emit_loadreg(CCREG,HOST_CCREG); + emit_add(HOST_CCREG,ECX,HOST_CCREG); + emit_addimm(HOST_CCREG,CLOCK_DIVIDER*ccadj[i],HOST_CCREG); + emit_writeword(HOST_CCREG,(int)&Count); + emit_call((int)TLBWR_new); + } + if((source[i]&0x3f)==0x08) // TLBP + emit_call((int)TLBP); + if((source[i]&0x3f)==0x18) // ERET + { + int count=ccadj[i]; + if(i_regs->regmap[HOST_CCREG]!=CCREG) emit_loadreg(CCREG,HOST_CCREG); + emit_addimm_and_set_flags(CLOCK_DIVIDER*count,HOST_CCREG); // TODO: Should there be an extra cycle here? + emit_jmp((int)jump_eret); + } + } +} + +void cop1_assemble(int i,struct regstat *i_regs) +{ + // Check cop1 unusable + if(!cop1_usable) { + signed char rs=get_reg(i_regs->regmap,CSREG); + assert(rs>=0); + emit_testimm(rs,0x20000000); + int jaddr=(int)out; + emit_jeq(0); + add_stub(FP_STUB,jaddr,(int)out,i,rs,(int)i_regs,is_delayslot,0); + cop1_usable=1; + } + if (opcode2[i]==0) { // MFC1 + signed char tl=get_reg(i_regs->regmap,rt1[i]); + if(tl>=0) { + emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],tl); + emit_readword_indexed(0,tl,tl); + } + } + else if (opcode2[i]==1) { // DMFC1 + signed char tl=get_reg(i_regs->regmap,rt1[i]); + signed char th=get_reg(i_regs->regmap,rt1[i]|64); + if(tl>=0) { + emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],tl); + if(th>=0) emit_readword_indexed(4,tl,th); + emit_readword_indexed(0,tl,tl); + } + } + else if (opcode2[i]==4) { // MTC1 + signed char sl=get_reg(i_regs->regmap,rs1[i]); + signed char temp=get_reg(i_regs->regmap,-1); + emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp); + emit_writeword_indexed(sl,0,temp); + } + else if (opcode2[i]==5) { // DMTC1 + signed char sl=get_reg(i_regs->regmap,rs1[i]); + signed char sh=rs1[i]>0?get_reg(i_regs->regmap,rs1[i]|64):sl; + signed char temp=get_reg(i_regs->regmap,-1); + emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],temp); + emit_writeword_indexed(sh,4,temp); + emit_writeword_indexed(sl,0,temp); + } + else if (opcode2[i]==2) // CFC1 + { + signed char tl=get_reg(i_regs->regmap,rt1[i]); + if(tl>=0) { + u_int copr=(source[i]>>11)&0x1f; + if(copr==0) emit_readword((int)&FCR0,tl); + if(copr==31) emit_readword((int)&FCR31,tl); + } + } + else if (opcode2[i]==6) // CTC1 + { + signed char sl=get_reg(i_regs->regmap,rs1[i]); + u_int copr=(source[i]>>11)&0x1f; + assert(sl>=0); + if(copr==31) + { + emit_writeword(sl,(int)&FCR31); + // Set the rounding mode + char temp=get_reg(i_regs->regmap,-1); + emit_movimm(3,temp); + emit_and(sl,temp,temp); + emit_fldcw_indexed((int)&rounding_modes,temp); + } + } +} + +void fconv_assemble_x86(int i,struct regstat *i_regs) +{ + signed char temp=get_reg(i_regs->regmap,-1); + assert(temp>=0); + // Check cop1 unusable + if(!cop1_usable) { + signed char rs=get_reg(i_regs->regmap,CSREG); + assert(rs>=0); + emit_testimm(rs,0x20000000); + int jaddr=(int)out; + emit_jeq(0); + add_stub(FP_STUB,jaddr,(int)out,i,rs,(int)i_regs,is_delayslot,0); + cop1_usable=1; + } + if(opcode2[i]==0x10&&(source[i]&0x3f)==0x0d) { // trunc_w_s + emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp); + emit_movss_load(temp,0); + emit_cvttps2dq(0,0); // float->int, truncate + if(((source[i]>>11)&0x1f)!=((source[i]>>6)&0x1f)) + emit_readword((int)®_cop1_simple[(source[i]>>6)&0x1f],temp); + emit_movd_store(0,temp); + return; + } + if(opcode2[i]==0x11&&(source[i]&0x3f)==0x0d) { // trunc_w_d + emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],temp); + emit_movsd_load(temp,0); + emit_cvttpd2dq(0,0); // double->int, truncate + emit_readword((int)®_cop1_simple[(source[i]>>6)&0x1f],temp); + emit_movd_store(0,temp); + return; + } + + if(opcode2[i]==0x14&&(source[i]&0x3f)==0x20) { // cvt_s_w + emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp); + emit_fildl(temp); + if(((source[i]>>11)&0x1f)!=((source[i]>>6)&0x1f)) + emit_readword((int)®_cop1_simple[(source[i]>>6)&0x1f],temp); + emit_fstps(temp); + return; + } + if(opcode2[i]==0x14&&(source[i]&0x3f)==0x21) { // cvt_d_w + emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp); + emit_fildl(temp); + emit_readword((int)®_cop1_double[(source[i]>>6)&0x1f],temp); + emit_fstpl(temp); + return; + } + if(opcode2[i]==0x15&&(source[i]&0x3f)==0x20) { // cvt_s_l + emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],temp); + emit_fildll(temp); + emit_readword((int)®_cop1_simple[(source[i]>>6)&0x1f],temp); + emit_fstps(temp); + return; + } + if(opcode2[i]==0x15&&(source[i]&0x3f)==0x21) { // cvt_d_l + emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],temp); + emit_fildll(temp); + if(((source[i]>>11)&0x1f)!=((source[i]>>6)&0x1f)) + emit_readword((int)®_cop1_double[(source[i]>>6)&0x1f],temp); + emit_fstpl(temp); + return; + } + + if(opcode2[i]==0x10&&(source[i]&0x3f)==0x21) { // cvt_d_s + emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp); + emit_flds(temp); + emit_readword((int)®_cop1_double[(source[i]>>6)&0x1f],temp); + emit_fstpl(temp); + return; + } + if(opcode2[i]==0x11&&(source[i]&0x3f)==0x20) { // cvt_s_d + emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],temp); + emit_fldl(temp); + emit_readword((int)®_cop1_simple[(source[i]>>6)&0x1f],temp); + emit_fstps(temp); + return; + } + + if(opcode2[i]==0x10) { // cvt_*_s + emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp); + emit_flds(temp); + } + if(opcode2[i]==0x11) { // cvt_*_d + emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],temp); + emit_fldl(temp); + } + if((source[i]&0x3f)<0x10) { + emit_fnstcw_stack(); + if((source[i]&3)==0) emit_fldcw((int)&round_mode); //printf("round\n"); + if((source[i]&3)==1) emit_fldcw((int)&trunc_mode); //printf("trunc\n"); + if((source[i]&3)==2) emit_fldcw((int)&ceil_mode); //printf("ceil\n"); + if((source[i]&3)==3) emit_fldcw((int)&floor_mode); //printf("floor\n"); + } + if((source[i]&0x3f)==0x24||(source[i]&0x3c)==0x0c) { // cvt_w_* + if(opcode2[i]!=0x10||((source[i]>>11)&0x1f)!=((source[i]>>6)&0x1f)) + emit_readword((int)®_cop1_simple[(source[i]>>6)&0x1f],temp); + emit_fistpl(temp); + } + if((source[i]&0x3f)==0x25||(source[i]&0x3c)==0x08) { // cvt_l_* + if(opcode2[i]!=0x11||((source[i]>>11)&0x1f)!=((source[i]>>6)&0x1f)) + emit_readword((int)®_cop1_double[(source[i]>>6)&0x1f],temp); + emit_fistpll(temp); + } + if((source[i]&0x3f)<0x10) { + emit_fldcw_stack(); + } + return; +} +#define fconv_assemble fconv_assemble_x86 + +void fcomp_assemble(int i,struct regstat *i_regs) +{ + signed char fs=get_reg(i_regs->regmap,FSREG); + signed char temp=get_reg(i_regs->regmap,-1); + assert(temp>=0); + // Check cop1 unusable + if(!cop1_usable) { + signed char cs=get_reg(i_regs->regmap,CSREG); + assert(cs>=0); + emit_testimm(cs,0x20000000); + int jaddr=(int)out; + emit_jeq(0); + add_stub(FP_STUB,jaddr,(int)out,i,cs,(int)i_regs,is_delayslot,0); + cop1_usable=1; + } + + if((source[i]&0x3f)==0x30) { + emit_andimm(fs,~0x800000,fs); + return; + } + + if((source[i]&0x3e)==0x38) { + // sf/ngle - these should throw exceptions for NaNs + emit_andimm(fs,~0x800000,fs); + return; + } + + if(opcode2[i]==0x10) { + emit_readword((int)®_cop1_simple[(source[i]>>16)&0x1f],temp); + emit_flds(temp); + emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp); + emit_flds(temp); + emit_movimm(0x800000,temp); + emit_or(fs,temp,fs); + emit_xor(temp,fs,temp); + emit_fucomip(1); + emit_fpop(); + if((source[i]&0x3f)==0x31) emit_cmovnp_reg(temp,fs); // c_un_s + if((source[i]&0x3f)==0x32) {emit_cmovne_reg(temp,fs);emit_cmovp_reg(temp,fs);} // c_eq_s + if((source[i]&0x3f)==0x33) emit_cmovne_reg(temp,fs); // c_ueq_s + if((source[i]&0x3f)==0x34) {emit_cmovnc_reg(temp,fs);emit_cmovp_reg(temp,fs);} // c_olt_s + if((source[i]&0x3f)==0x35) emit_cmovnc_reg(temp,fs); // c_ult_s + if((source[i]&0x3f)==0x36) {emit_cmova_reg(temp,fs);emit_cmovp_reg(temp,fs);} // c_ole_s + if((source[i]&0x3f)==0x37) emit_cmova_reg(temp,fs); // c_ule_s + if((source[i]&0x3f)==0x3a) emit_cmovne_reg(temp,fs); // c_seq_s + if((source[i]&0x3f)==0x3b) emit_cmovne_reg(temp,fs); // c_ngl_s + if((source[i]&0x3f)==0x3c) emit_cmovnc_reg(temp,fs); // c_lt_s + if((source[i]&0x3f)==0x3d) emit_cmovnc_reg(temp,fs); // c_nge_s + if((source[i]&0x3f)==0x3e) emit_cmova_reg(temp,fs); // c_le_s + if((source[i]&0x3f)==0x3f) emit_cmova_reg(temp,fs); // c_ngt_s + return; + } + if(opcode2[i]==0x11) { + emit_readword((int)®_cop1_double[(source[i]>>16)&0x1f],temp); + emit_fldl(temp); + emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],temp); + emit_fldl(temp); + emit_movimm(0x800000,temp); + emit_or(fs,temp,fs); + emit_xor(temp,fs,temp); + emit_fucomip(1); + emit_fpop(); + if((source[i]&0x3f)==0x31) emit_cmovnp_reg(temp,fs); // c_un_d + if((source[i]&0x3f)==0x32) {emit_cmovne_reg(temp,fs);emit_cmovp_reg(temp,fs);} // c_eq_d + if((source[i]&0x3f)==0x33) emit_cmovne_reg(temp,fs); // c_ueq_d + if((source[i]&0x3f)==0x34) {emit_cmovnc_reg(temp,fs);emit_cmovp_reg(temp,fs);} // c_olt_d + if((source[i]&0x3f)==0x35) emit_cmovnc_reg(temp,fs); // c_ult_d + if((source[i]&0x3f)==0x36) {emit_cmova_reg(temp,fs);emit_cmovp_reg(temp,fs);} // c_ole_d + if((source[i]&0x3f)==0x37) emit_cmova_reg(temp,fs); // c_ule_d + if((source[i]&0x3f)==0x3a) emit_cmovne_reg(temp,fs); // c_seq_d + if((source[i]&0x3f)==0x3b) emit_cmovne_reg(temp,fs); // c_ngl_d + if((source[i]&0x3f)==0x3c) emit_cmovnc_reg(temp,fs); // c_lt_d + if((source[i]&0x3f)==0x3d) emit_cmovnc_reg(temp,fs); // c_nge_d + if((source[i]&0x3f)==0x3e) emit_cmova_reg(temp,fs); // c_le_d + if((source[i]&0x3f)==0x3f) emit_cmova_reg(temp,fs); // c_ngt_d + return; + } +} + +void float_assemble(int i,struct regstat *i_regs) +{ + signed char temp=get_reg(i_regs->regmap,-1); + assert(temp>=0); + // Check cop1 unusable + if(!cop1_usable) { + signed char cs=get_reg(i_regs->regmap,CSREG); + assert(cs>=0); + emit_testimm(cs,0x20000000); + int jaddr=(int)out; + emit_jeq(0); + add_stub(FP_STUB,jaddr,(int)out,i,cs,(int)i_regs,is_delayslot,0); + cop1_usable=1; + } + + if((source[i]&0x3f)==6) // mov + { + if(((source[i]>>11)&0x1f)!=((source[i]>>6)&0x1f)) { + if(opcode2[i]==0x10) { + emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp); + emit_flds(temp); + emit_readword((int)®_cop1_simple[(source[i]>>6)&0x1f],temp); + emit_fstps(temp); + } + if(opcode2[i]==0x11) { + emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],temp); + emit_fldl(temp); + emit_readword((int)®_cop1_double[(source[i]>>6)&0x1f],temp); + emit_fstpl(temp); + } + } + return; + } + + if((source[i]&0x3f)>3) + { + if(opcode2[i]==0x10) { + emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp); + emit_flds(temp); + if(((source[i]>>11)&0x1f)!=((source[i]>>6)&0x1f)) { + emit_readword((int)®_cop1_simple[(source[i]>>6)&0x1f],temp); + } + } + if(opcode2[i]==0x11) { + emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],temp); + emit_fldl(temp); + if(((source[i]>>11)&0x1f)!=((source[i]>>6)&0x1f)) { + emit_readword((int)®_cop1_double[(source[i]>>6)&0x1f],temp); + } + } + if((source[i]&0x3f)==4) // sqrt + emit_fsqrt(); + if((source[i]&0x3f)==5) // abs + emit_fabs(); + if((source[i]&0x3f)==7) // neg + emit_fchs(); + if(opcode2[i]==0x10) { + emit_fstps(temp); + } + if(opcode2[i]==0x11) { + emit_fstpl(temp); + } + return; + } + if((source[i]&0x3f)<4) + { + if(opcode2[i]==0x10) { + emit_readword((int)®_cop1_simple[(source[i]>>11)&0x1f],temp); + emit_flds(temp); + } + if(opcode2[i]==0x11) { + emit_readword((int)®_cop1_double[(source[i]>>11)&0x1f],temp); + emit_fldl(temp); + } + if(((source[i]>>11)&0x1f)!=((source[i]>>16)&0x1f)) { + if(opcode2[i]==0x10) { + emit_readword((int)®_cop1_simple[(source[i]>>16)&0x1f],temp); + if((source[i]&0x3f)==0) emit_fadds(temp); + if((source[i]&0x3f)==1) emit_fsubs(temp); + if((source[i]&0x3f)==2) emit_fmuls(temp); + if((source[i]&0x3f)==3) emit_fdivs(temp); + } + else if(opcode2[i]==0x11) { + emit_readword((int)®_cop1_double[(source[i]>>16)&0x1f],temp); + if((source[i]&0x3f)==0) emit_faddl(temp); + if((source[i]&0x3f)==1) emit_fsubl(temp); + if((source[i]&0x3f)==2) emit_fmull(temp); + if((source[i]&0x3f)==3) emit_fdivl(temp); + } + } + else { + if((source[i]&0x3f)==0) emit_fadd(0); + if((source[i]&0x3f)==1) emit_fsub(0); + if((source[i]&0x3f)==2) emit_fmul(0); + if((source[i]&0x3f)==3) emit_fdiv(0); + } + if(opcode2[i]==0x10) { + if(((source[i]>>16)&0x1f)!=((source[i]>>6)&0x1f)) { + emit_readword((int)®_cop1_simple[(source[i]>>6)&0x1f],temp); + } + emit_fstps(temp); + } + if(opcode2[i]==0x11) { + if(((source[i]>>16)&0x1f)!=((source[i]>>6)&0x1f)) { + emit_readword((int)®_cop1_double[(source[i]>>6)&0x1f],temp); + } + emit_fstpl(temp); + } + return; + } +} + +void multdiv_assemble_x86(int i,struct regstat *i_regs) +{ + // case 0x18: MULT + // case 0x19: MULTU + // case 0x1A: DIV + // case 0x1B: DIVU + // case 0x1C: DMULT + // case 0x1D: DMULTU + // case 0x1E: DDIV + // case 0x1F: DDIVU + if(rs1[i]&&rs2[i]) + { + if((opcode2[i]&4)==0) // 32-bit + { + if(opcode2[i]==0x18) // MULT + { + char m1=get_reg(i_regs->regmap,rs1[i]); + char m2=get_reg(i_regs->regmap,rs2[i]); + assert(m1>=0); + assert(m2>=0); + emit_mov(m1,EAX); + emit_imul(m2); + } + if(opcode2[i]==0x19) // MULTU + { + char m1=get_reg(i_regs->regmap,rs1[i]); + char m2=get_reg(i_regs->regmap,rs2[i]); + assert(m1>=0); + assert(m2>=0); + emit_mov(m1,EAX); + emit_mul(m2); + } + if(opcode2[i]==0x1A) // DIV + { + char d1=get_reg(i_regs->regmap,rs1[i]); + char d2=get_reg(i_regs->regmap,rs2[i]); + assert(d1>=0); + assert(d2>=0); + emit_mov(d1,EAX); + emit_cdq(); + emit_test(d2,d2); + emit_jeq((int)out+8); + emit_idiv(d2); + } + if(opcode2[i]==0x1B) // DIVU + { + char d1=get_reg(i_regs->regmap,rs1[i]); + char d2=get_reg(i_regs->regmap,rs2[i]); + assert(d1>=0); + assert(d2>=0); + emit_mov(d1,EAX); + emit_zeroreg(EDX); + emit_test(d2,d2); + emit_jeq((int)out+8); + emit_div(d2); + } + } + else // 64-bit + { + if(opcode2[i]==0x1C) // DMULT + { + char m1h=get_reg(i_regs->regmap,rs1[i]|64); + char m1l=get_reg(i_regs->regmap,rs1[i]); + char m2h=get_reg(i_regs->regmap,rs2[i]|64); + char m2l=get_reg(i_regs->regmap,rs2[i]); + assert(m1h>=0); + assert(m2h>=0); + assert(m1l>=0); + assert(m2l>=0); + output_byte(0xCC); + emit_pushreg(m2h); + emit_pushreg(m2l); + emit_pushreg(m1h); + emit_pushreg(m1l); + emit_call((int)&mult64); + emit_popreg(m1l); + emit_popreg(m1h); + emit_popreg(m2l); + emit_popreg(m2h); + char hih=get_reg(i_regs->regmap,HIREG|64); + char hil=get_reg(i_regs->regmap,HIREG); + if(hih>=0) emit_loadreg(HIREG|64,hih); + if(hil>=0) emit_loadreg(HIREG,hil); + char loh=get_reg(i_regs->regmap,LOREG|64); + char lol=get_reg(i_regs->regmap,LOREG); + if(loh>=0) emit_loadreg(LOREG|64,loh); + if(lol>=0) emit_loadreg(LOREG,lol); + } + if(opcode2[i]==0x1D) // DMULTU + { + char m1h=get_reg(i_regs->regmap,rs1[i]|64); + char m1l=get_reg(i_regs->regmap,rs1[i]); + char m2h=get_reg(i_regs->regmap,rs2[i]|64); + char m2l=get_reg(i_regs->regmap,rs2[i]); + char temp=get_reg(i_regs->regmap,-1); + assert(m1h>=0); + assert(m2h>=0); + assert(m1l>=0); + assert(m2l>=0); + assert(temp>=0); + emit_mov(m1l,EAX); + emit_mul(m2l); + emit_storereg(LOREG,EAX); + emit_mov(EDX,temp); + emit_mov(m1h,EAX); + emit_mul(m2l); + emit_add(EAX,temp,temp); + emit_adcimm(0,EDX); + emit_storereg(HIREG,EDX); + emit_mov(m2h,EAX); + emit_mul(m1l); + emit_add(EAX,temp,temp); + emit_adcimm(0,EDX); + emit_storereg(LOREG|64,temp); + emit_mov(EDX,temp); + emit_mov(m2h,EAX); + emit_mul(m1h); + emit_add(EAX,temp,EAX); + emit_loadreg(HIREG,temp); + emit_adcimm(0,EDX); + emit_add(EAX,temp,EAX); + emit_adcimm(0,EDX); + // DEBUG + /* + emit_pushreg(m2h); + emit_pushreg(m2l); + emit_pushreg(m1h); + emit_pushreg(m1l); + emit_call((int)&multu64); + emit_popreg(m1l); + emit_popreg(m1h); + emit_popreg(m2l); + emit_popreg(m2h); + char hih=get_reg(i_regs->regmap,HIREG|64); + char hil=get_reg(i_regs->regmap,HIREG); + if(hih>=0) emit_loadreg(HIREG|64,hih); // DEBUG + if(hil>=0) emit_loadreg(HIREG,hil); // DEBUG + */ + // Shouldn't be necessary + //char loh=get_reg(i_regs->regmap,LOREG|64); + //char lol=get_reg(i_regs->regmap,LOREG); + //if(loh>=0) emit_loadreg(LOREG|64,loh); + //if(lol>=0) emit_loadreg(LOREG,lol); + } + if(opcode2[i]==0x1E) // DDIV + { + char d1h=get_reg(i_regs->regmap,rs1[i]|64); + char d1l=get_reg(i_regs->regmap,rs1[i]); + char d2h=get_reg(i_regs->regmap,rs2[i]|64); + char d2l=get_reg(i_regs->regmap,rs2[i]); + assert(d1h>=0); + assert(d2h>=0); + assert(d1l>=0); + assert(d2l>=0); + //emit_pushreg(d2h); + //emit_pushreg(d2l); + //emit_pushreg(d1h); + //emit_pushreg(d1l); + emit_addimm64(ESP,-16,ESP); + emit_writeword_indexed(d2h,12,ESP); + emit_writeword_indexed(d2l,8,ESP); + emit_writeword_indexed(d1h,4,ESP); + emit_writeword_indexed(d1l,0,ESP); + emit_readdword_indexed(0,ESP,ARG1_REG); + emit_readdword_indexed(8,ESP,ARG2_REG); + emit_call((int)&div64); + //emit_popreg(d1l); + //emit_popreg(d1h); + //emit_popreg(d2l); + //emit_popreg(d2h); + emit_readword_indexed(0,ESP,d1l); + emit_readword_indexed(4,ESP,d1h); + emit_readword_indexed(8,ESP,d2l); + emit_readword_indexed(12,ESP,d2h); + emit_addimm64(ESP,16,ESP); + char hih=get_reg(i_regs->regmap,HIREG|64); + char hil=get_reg(i_regs->regmap,HIREG); + char loh=get_reg(i_regs->regmap,LOREG|64); + char lol=get_reg(i_regs->regmap,LOREG); + if(hih>=0) emit_loadreg(HIREG|64,hih); + if(hil>=0) emit_loadreg(HIREG,hil); + if(loh>=0) emit_loadreg(LOREG|64,loh); + if(lol>=0) emit_loadreg(LOREG,lol); + } + if(opcode2[i]==0x1F) // DDIVU + { + char d1h=get_reg(i_regs->regmap,rs1[i]|64); + char d1l=get_reg(i_regs->regmap,rs1[i]); + char d2h=get_reg(i_regs->regmap,rs2[i]|64); + char d2l=get_reg(i_regs->regmap,rs2[i]); + assert(d1h>=0); + assert(d2h>=0); + assert(d1l>=0); + assert(d2l>=0); + //emit_pushreg(d2h); + //emit_pushreg(d2l); + //emit_pushreg(d1h); + //emit_pushreg(d1l); + emit_addimm64(ESP,-16,ESP); + emit_writeword_indexed(d2h,12,ESP); + emit_writeword_indexed(d2l,8,ESP); + emit_writeword_indexed(d1h,4,ESP); + emit_writeword_indexed(d1l,0,ESP); + emit_readdword_indexed(0,ESP,ARG1_REG); + emit_readdword_indexed(8,ESP,ARG2_REG); + emit_call((int)&divu64); + //emit_popreg(d1l); + //emit_popreg(d1h); + //emit_popreg(d2l); + //emit_popreg(d2h); + emit_readword_indexed(0,ESP,d1l); + emit_readword_indexed(4,ESP,d1h); + emit_readword_indexed(8,ESP,d2l); + emit_readword_indexed(12,ESP,d2h); + emit_addimm64(ESP,16,ESP); + char hih=get_reg(i_regs->regmap,HIREG|64); + char hil=get_reg(i_regs->regmap,HIREG); + char loh=get_reg(i_regs->regmap,LOREG|64); + char lol=get_reg(i_regs->regmap,LOREG); + if(hih>=0) emit_loadreg(HIREG|64,hih); + if(hil>=0) emit_loadreg(HIREG,hil); + if(loh>=0) emit_loadreg(LOREG|64,loh); + if(lol>=0) emit_loadreg(LOREG,lol); + } + } + } + else + { + // Multiply by zero is zero. + // MIPS does not have a divide by zero exception. + // The result is undefined, we return zero. + char hr=get_reg(i_regs->regmap,HIREG); + char lr=get_reg(i_regs->regmap,LOREG); + if(hr>=0) emit_zeroreg(hr); + if(lr>=0) emit_zeroreg(lr); + } +} +#define multdiv_assemble multdiv_assemble_x86 + +void do_preload_rhash(int r) { + emit_movimm(0xf8,r); +} + +void do_preload_rhtbl(int r) { + // Don't need this for x86 +} + +void do_rhash(int rs,int rh) { + emit_and(rs,rh,rh); +} + +void do_miniht_load(int ht,int rh) { + // Don't need this for x86. The load and compare can be combined into + // a single instruction (below) +} + +void do_miniht_jump(int rs,int rh,int ht) { + emit_cmpmem_indexed((int)mini_ht,rh,rs); + emit_jne(jump_vaddr_reg[rs]); + emit_readword_indexed((int)mini_ht+4,rh,rh); + emit_jmpreg(rh); +} + +void do_miniht_insert(int return_address,int rt,int temp) { + emit_movimm(return_address,rt); // PC into link register + //emit_writeword_imm(return_address,(int)&mini_ht[(return_address&0xFF)>>8][0]); + emit_writeword(rt,(int)&mini_ht[(return_address&0xFF)>>3][0]); + add_to_linker((int)out,return_address,1); + emit_writeword_imm(0,(int)&mini_ht[(return_address&0xFF)>>3][1]); +} + +// We don't need this for x86 +void literal_pool(int n) {} +void literal_pool_jumpover(int n) {} + +// CPU-architecture-specific initialization, not needed for x86 +void arch_init() {}