int offset;
int jaddr=0;
int memtarget=0,c=0;
+ int fastload_reg_override=0;
u_int hr,reglist=0;
th=get_reg(i_regs->regmap,rt1[i]|64);
tl=get_reg(i_regs->regmap,rt1[i]);
if(sp_in_mirror&&rs1[i]==29) {
emit_andimm(addr,~0x00e00000,HOST_TEMPREG);
emit_cmpimm(HOST_TEMPREG,RAM_SIZE);
+ fastload_reg_override=HOST_TEMPREG;
}
else
#endif
#else
if(!c) a=addr;
#endif
-#ifdef PCSX
- if(sp_in_mirror&&rs1[i]==29) a=HOST_TEMPREG;
-#endif
+ if(fastload_reg_override) a=fastload_reg_override;
+
emit_movsbl_indexed_tlb(x,a,map,tl);
}
}
#else
if(!c) a=addr;
#endif
-#ifdef PCSX
- if(sp_in_mirror&&rs1[i]==29) a=HOST_TEMPREG;
-#endif
+ if(fastload_reg_override) a=fastload_reg_override;
//#ifdef
//emit_movswl_indexed_tlb(x,tl,map,tl);
//else
if(!c||memtarget) {
if(!dummy) {
int a=addr;
-#ifdef PCSX
- if(sp_in_mirror&&rs1[i]==29) a=HOST_TEMPREG;
-#endif
+ if(fastload_reg_override) a=fastload_reg_override;
//emit_readword_indexed((int)rdram-0x80000000,addr,tl);
#ifdef HOST_IMM_ADDR32
if(c)
#else
if(!c) a=addr;
#endif
-#ifdef PCSX
- if(sp_in_mirror&&rs1[i]==29) a=HOST_TEMPREG;
-#endif
+ if(fastload_reg_override) a=fastload_reg_override;
+
emit_movzbl_indexed_tlb(x,a,map,tl);
}
}
#else
if(!c) a=addr;
#endif
-#ifdef PCSX
- if(sp_in_mirror&&rs1[i]==29) a=HOST_TEMPREG;
-#endif
+ if(fastload_reg_override) a=fastload_reg_override;
//#ifdef
//emit_movzwl_indexed_tlb(x,tl,map,tl);
//#else
if(!c||memtarget) {
if(!dummy) {
int a=addr;
-#ifdef PCSX
- if(sp_in_mirror&&rs1[i]==29) a=HOST_TEMPREG;
-#endif
+ if(fastload_reg_override) a=fastload_reg_override;
//emit_readword_indexed((int)rdram-0x80000000,addr,tl);
#ifdef HOST_IMM_ADDR32
if(c)
if(!c||memtarget) {
if(!dummy) {
int a=addr;
-#ifdef PCSX
- if(sp_in_mirror&&rs1[i]==29) a=HOST_TEMPREG;
-#endif
+ if(fastload_reg_override) a=fastload_reg_override;
//gen_tlb_addr_r(tl,map);
//if(th>=0) emit_readword_indexed((int)rdram-0x80000000,addr,th);
//emit_readword_indexed((int)rdram-0x7FFFFFFC,addr,tl);
int jaddr=0,jaddr2,type;
int memtarget=0,c=0;
int agr=AGEN1+(i&1);
+ int faststore_reg_override=0;
u_int hr,reglist=0;
th=get_reg(i_regs->regmap,rs2[i]|64);
tl=get_reg(i_regs->regmap,rs2[i]);
if(sp_in_mirror&&rs1[i]==29) {
emit_andimm(addr,~0x00e00000,HOST_TEMPREG);
emit_cmpimm(HOST_TEMPREG,RAM_SIZE);
+ faststore_reg_override=HOST_TEMPREG;
}
else
#endif
#else
if(!c) a=addr;
#endif
-#ifdef PCSX
- if(sp_in_mirror&&rs1[i]==29) a=HOST_TEMPREG;
-#endif
+ if(faststore_reg_override) a=faststore_reg_override;
//gen_tlb_addr_w(temp,map);
//emit_writebyte_indexed(tl,(int)rdram-0x80000000,temp);
emit_writebyte_indexed_tlb(tl,x,a,map,a);
#else
if(!c) a=addr;
#endif
-#ifdef PCSX
- if(sp_in_mirror&&rs1[i]==29) a=HOST_TEMPREG;
-#endif
+ if(faststore_reg_override) a=faststore_reg_override;
//#ifdef
//emit_writehword_indexed_tlb(tl,x,temp,map,temp);
//#else
if (opcode[i]==0x2B) { // SW
if(!c||memtarget) {
int a=addr;
-#ifdef PCSX
- if(sp_in_mirror&&rs1[i]==29) a=HOST_TEMPREG;
-#endif
+ if(faststore_reg_override) a=faststore_reg_override;
//emit_writeword_indexed(tl,(int)rdram-0x80000000,addr);
emit_writeword_indexed_tlb(tl,0,a,map,temp);
}
if (opcode[i]==0x3F) { // SD
if(!c||memtarget) {
int a=addr;
-#ifdef PCSX
- if(sp_in_mirror&&rs1[i]==29) a=HOST_TEMPREG;
-#endif
+ if(faststore_reg_override) a=faststore_reg_override;
if(rs2[i]) {
assert(th>=0);
//emit_writeword_indexed(th,(int)rdram-0x80000000,addr);
//if(opcode[i]==0x2B)
/*if(opcode[i]==0x2B || opcode[i]==0x28 || opcode[i]==0x29 || opcode[i]==0x3F)
{
- //emit_pusha();
+ #ifdef __i386__
+ emit_pusha();
+ #endif
+ #ifdef __arm__
save_regs(0x100f);
+ #endif
emit_readword((int)&last_count,ECX);
#ifdef __i386__
if(get_reg(i_regs->regmap,CCREG)<0)
emit_writeword(0,(int)&Count);
#endif
emit_call((int)memdebug);
- //emit_popa();
+ #ifdef __i386__
+ emit_popa();
+ #endif
+ #ifdef __arm__
restore_regs(0x100f);
+ #endif
}/**/
}
linkcount++;
}
+static void ujump_assemble_write_ra(int i)
+{
+ int rt;
+ unsigned int return_address;
+ rt=get_reg(branch_regs[i].regmap,31);
+ assem_debug("branch(%d): eax=%d ecx=%d edx=%d ebx=%d ebp=%d esi=%d edi=%d\n",i,branch_regs[i].regmap[0],branch_regs[i].regmap[1],branch_regs[i].regmap[2],branch_regs[i].regmap[3],branch_regs[i].regmap[5],branch_regs[i].regmap[6],branch_regs[i].regmap[7]);
+ //assert(rt>=0);
+ return_address=start+i*4+8;
+ if(rt>=0) {
+ #ifdef USE_MINI_HT
+ if(internal_branch(branch_regs[i].is32,return_address)&&rt1[i+1]!=31) {
+ int temp=-1; // note: must be ds-safe
+ #ifdef HOST_TEMPREG
+ temp=HOST_TEMPREG;
+ #endif
+ if(temp>=0) do_miniht_insert(return_address,rt,temp);
+ else emit_movimm(return_address,rt);
+ }
+ else
+ #endif
+ {
+ #ifdef REG_PREFETCH
+ if(temp>=0)
+ {
+ if(i_regmap[temp]!=PTEMP) emit_movimm((int)hash_table[((return_address>>16)^return_address)&0xFFFF],temp);
+ }
+ #endif
+ emit_movimm(return_address,rt); // PC into link register
+ #ifdef IMM_PREFETCH
+ emit_prefetch(hash_table[((return_address>>16)^return_address)&0xFFFF]);
+ #endif
+ }
+ }
+}
+
void ujump_assemble(int i,struct regstat *i_regs)
{
signed char *i_regmap=i_regs->regmap;
+ int ra_done=0;
if(i==(ba[i]-start)>>2) assem_debug("idle loop\n");
address_generation(i+1,i_regs,regs[i].regmap_entry);
#ifdef REG_PREFETCH
if(i_regmap[temp]==PTEMP) emit_movimm((int)hash_table[((return_address>>16)^return_address)&0xFFFF],temp);
}
#endif
- if(rt1[i]==31) {
- int rt;
- unsigned int return_address;
- rt=get_reg(branch_regs[i].regmap,31);
- assem_debug("branch(%d): eax=%d ecx=%d edx=%d ebx=%d ebp=%d esi=%d edi=%d\n",i,branch_regs[i].regmap[0],branch_regs[i].regmap[1],branch_regs[i].regmap[2],branch_regs[i].regmap[3],branch_regs[i].regmap[5],branch_regs[i].regmap[6],branch_regs[i].regmap[7]);
- //assert(rt>=0);
- return_address=start+i*4+8;
- if(rt>=0) {
- #ifdef USE_MINI_HT
- if(internal_branch(branch_regs[i].is32,return_address)&&rt1[i+1]!=31) {
- int temp=-1; // note: must be ds-safe
- #ifdef HOST_TEMPREG
- temp=HOST_TEMPREG;
- #endif
- if(temp>=0) do_miniht_insert(return_address,rt,temp);
- else emit_movimm(return_address,rt);
- }
- else
- #endif
- {
- #ifdef REG_PREFETCH
- if(temp>=0)
- {
- if(i_regmap[temp]!=PTEMP) emit_movimm((int)hash_table[((return_address>>16)^return_address)&0xFFFF],temp);
- }
- #endif
- emit_movimm(return_address,rt); // PC into link register
- #ifdef IMM_PREFETCH
- emit_prefetch(hash_table[((return_address>>16)^return_address)&0xFFFF]);
- #endif
- }
- }
+ if(rt1[i]==31&&(rt1[i]==rs1[i+1]||rt1[i]==rs2[i+1])) {
+ ujump_assemble_write_ra(i); // writeback ra for DS
+ ra_done=1;
}
ds_assemble(i+1,i_regs);
uint64_t bc_unneeded=branch_regs[i].u;
wb_invalidate(regs[i].regmap,branch_regs[i].regmap,regs[i].dirty,regs[i].is32,
bc_unneeded,bc_unneeded_upper);
load_regs(regs[i].regmap,branch_regs[i].regmap,regs[i].was32,CCREG,CCREG);
+ if(!ra_done&&rt1[i]==31)
+ ujump_assemble_write_ra(i);
int cc,adj;
cc=get_reg(branch_regs[i].regmap,CCREG);
assert(cc==HOST_CCREG);
}
}
+static void rjump_assemble_write_ra(int i)
+{
+ int rt,return_address;
+ assert(rt1[i+1]!=rt1[i]);
+ assert(rt2[i+1]!=rt1[i]);
+ rt=get_reg(branch_regs[i].regmap,rt1[i]);
+ assem_debug("branch(%d): eax=%d ecx=%d edx=%d ebx=%d ebp=%d esi=%d edi=%d\n",i,branch_regs[i].regmap[0],branch_regs[i].regmap[1],branch_regs[i].regmap[2],branch_regs[i].regmap[3],branch_regs[i].regmap[5],branch_regs[i].regmap[6],branch_regs[i].regmap[7]);
+ assert(rt>=0);
+ return_address=start+i*4+8;
+ #ifdef REG_PREFETCH
+ if(temp>=0)
+ {
+ if(i_regmap[temp]!=PTEMP) emit_movimm((int)hash_table[((return_address>>16)^return_address)&0xFFFF],temp);
+ }
+ #endif
+ emit_movimm(return_address,rt); // PC into link register
+ #ifdef IMM_PREFETCH
+ emit_prefetch(hash_table[((return_address>>16)^return_address)&0xFFFF]);
+ #endif
+}
+
void rjump_assemble(int i,struct regstat *i_regs)
{
signed char *i_regmap=i_regs->regmap;
int temp;
int rs,cc,adj;
+ int ra_done=0;
rs=get_reg(branch_regs[i].regmap,rs1[i]);
assert(rs>=0);
if(rs1[i]==rt1[i+1]||rs1[i]==rt2[i+1]) {
if(rh>=0) do_preload_rhash(rh);
}
#endif
+ if(rt1[i]!=0&&(rt1[i]==rs1[i+1]||rt1[i]==rs2[i+1])) {
+ rjump_assemble_write_ra(i);
+ ra_done=1;
+ }
ds_assemble(i+1,i_regs);
uint64_t bc_unneeded=branch_regs[i].u;
uint64_t bc_unneeded_upper=branch_regs[i].uu;
wb_invalidate(regs[i].regmap,branch_regs[i].regmap,regs[i].dirty,regs[i].is32,
bc_unneeded,bc_unneeded_upper);
load_regs(regs[i].regmap,branch_regs[i].regmap,regs[i].was32,rs1[i],CCREG);
- if(rt1[i]!=0) {
- int rt,return_address;
- assert(rt1[i+1]!=rt1[i]);
- assert(rt2[i+1]!=rt1[i]);
- rt=get_reg(branch_regs[i].regmap,rt1[i]);
- assem_debug("branch(%d): eax=%d ecx=%d edx=%d ebx=%d ebp=%d esi=%d edi=%d\n",i,branch_regs[i].regmap[0],branch_regs[i].regmap[1],branch_regs[i].regmap[2],branch_regs[i].regmap[3],branch_regs[i].regmap[5],branch_regs[i].regmap[6],branch_regs[i].regmap[7]);
- assert(rt>=0);
- return_address=start+i*4+8;
- #ifdef REG_PREFETCH
- if(temp>=0)
- {
- if(i_regmap[temp]!=PTEMP) emit_movimm((int)hash_table[((return_address>>16)^return_address)&0xFFFF],temp);
- }
- #endif
- emit_movimm(return_address,rt); // PC into link register
- #ifdef IMM_PREFETCH
- emit_prefetch(hash_table[((return_address>>16)^return_address)&0xFFFF]);
- #endif
- }
+ if(!ra_done&&rt1[i]!=0)
+ rjump_assemble_write_ra(i);
cc=get_reg(branch_regs[i].regmap,CCREG);
assert(cc==HOST_CCREG);
#ifdef USE_MINI_HT
case 0x24: strcpy(insn[i],"LBU"); type=LOAD; break;
case 0x25: strcpy(insn[i],"LHU"); type=LOAD; break;
case 0x26: strcpy(insn[i],"LWR"); type=LOADLR; break;
+#ifndef FORCE32
case 0x27: strcpy(insn[i],"LWU"); type=LOAD; break;
+#endif
case 0x28: strcpy(insn[i],"SB"); type=STORE; break;
case 0x29: strcpy(insn[i],"SH"); type=STORE; break;
case 0x2A: strcpy(insn[i],"SWL"); type=STORELR; break;
}
if(temp_is32!=current.is32) {
//printf("dumping 32-bit regs (%x)\n",start+i*4);
- #ifdef DESTRUCTIVE_WRITEBACK
+ #ifndef DESTRUCTIVE_WRITEBACK
+ if(ds)
+ #endif
for(hr=0;hr<HOST_REGS;hr++)
{
int r=current.regmap[hr];
}
}
}
- #endif
current.is32=temp_is32;
}
}
clear_const(¤t,rt1[i]);
alloc_cc(¤t,i);
dirty_reg(¤t,CCREG);
- ooo[i]=1;
- delayslot_alloc(¤t,i+1);
if (rt1[i]==31) {
alloc_reg(¤t,i,31);
dirty_reg(¤t,31);
#endif
//current.is32|=1LL<<rt1[i];
}
+ ooo[i]=1;
+ delayslot_alloc(¤t,i+1);
//current.isconst=0; // DEBUG
ds=1;
//printf("i=%d, isconst=%x\n",i,current.isconst);
// If a register is allocated during a loop, try to allocate it for the
// entire loop, if possible. This avoids loading/storing registers
// inside of the loop.
-
+
signed char f_regmap[HOST_REGS];
clear_all_regs(f_regmap);
for(i=0;i<slen-1;i++)
{
int t=(ba[i]-start)>>2;
if(t>0&&(itype[t-1]!=UJUMP&&itype[t-1]!=RJUMP&&itype[t-1]!=CJUMP&&itype[t-1]!=SJUMP&&itype[t-1]!=FJUMP)) // loop_preload can't handle jumps into delay slots
- if(t<2||(itype[t-2]!=UJUMP)) // call/ret assumes no registers allocated
+ if(t<2||(itype[t-2]!=UJUMP&&itype[t-2]!=RJUMP)||rt1[t-2]!=31) // call/ret assumes no registers allocated
for(hr=0;hr<HOST_REGS;hr++)
{
if(regs[i].regmap[hr]>64) {
// a mov, which is of negligible benefit. So such cases are
// skipped below.
if(f_regmap[hr]>0) {
- if(regs[t].regmap_entry[hr]<0&&get_reg(regmap_pre[t],f_regmap[hr])<0) {
+ if(regs[t].regmap[hr]==f_regmap[hr]||(regs[t].regmap_entry[hr]<0&&get_reg(regmap_pre[t],f_regmap[hr])<0)) {
int r=f_regmap[hr];
for(j=t;j<=i;j++)
{
break;
}
// call/ret fast path assumes no registers allocated
- if(k>2&&(itype[k-3]==UJUMP||itype[k-3]==RJUMP)) {
+ if(k>2&&(itype[k-3]==UJUMP||itype[k-3]==RJUMP)&&rt1[k-3]==31) {
break;
}
if(r>63) {
}
}
}else{
- int count=0;
+ // Non branch or undetermined branch target
for(hr=0;hr<HOST_REGS;hr++)
{
if(hr!=EXCLUDE_REG) {
f_regmap[hr]=regs[i].regmap[hr];
}
}
- else if(regs[i].regmap[hr]<0) count++;
}
}
// Try to restore cycle count at branch targets
loop_start[hr]=MAXBLOCK;
}
}
+ }else{
+ if(count_free_regs(regs[i].regmap)<=minimum_free_regs[i+1]) {
+ for(hr=0;hr<HOST_REGS;hr++) {
+ score[hr]=0;earliest_available[hr]=i+1;
+ loop_start[hr]=MAXBLOCK;
+ }
+ }
}
}
// Mark unavailable registers
if(itype[j]==UJUMP||itype[j]==RJUMP||itype[j]==CJUMP||itype[j]==SJUMP||itype[j]==FJUMP) {
int t=(ba[j]-start)>>2;
if(t<j&&t>=earliest_available[hr]) {
- // Score a point for hoisting loop invariant
- if(t<loop_start[hr]) loop_start[hr]=t;
- //printf("set loop_start: i=%x j=%x (%x)\n",start+i*4,start+j*4,start+t*4);
- score[hr]++;
- end[hr]=j;
+ if(t==1||(t>1&&itype[t-2]!=UJUMP&&itype[t-2]!=RJUMP)||(t>1&&rt1[t-2]!=31)) { // call/ret assumes no registers allocated
+ // Score a point for hoisting loop invariant
+ if(t<loop_start[hr]) loop_start[hr]=t;
+ //printf("set loop_start: i=%x j=%x (%x)\n",start+i*4,start+j*4,start+t*4);
+ score[hr]++;
+ end[hr]=j;
+ }
}
else if(t<j) {
if(regs[t].regmap[hr]==reg) {
}
// loop optimization (loop_preload)
int t=(ba[j]-start)>>2;
- if(t==loop_start[maxscore]) regs[t].regmap_entry[maxscore]=reg;
+ if(t==loop_start[maxscore]) {
+ if(t==1||(t>1&&itype[t-2]!=UJUMP&&itype[t-2]!=RJUMP)||(t>1&&rt1[t-2]!=31)) // call/ret assumes no registers allocated
+ regs[t].regmap_entry[maxscore]=reg;
+ }
}
else
{
}
}
}
+ // Preload target address for load instruction (non-constant)
if(itype[i+1]==LOAD&&rs1[i+1]&&get_reg(regs[i+1].regmap,rs1[i+1])<0) {
if((hr=get_reg(regs[i+1].regmap,rt1[i+1]))>=0)
{
}
}
}
+ // Load source into target register
if(lt1[i+1]&&get_reg(regs[i+1].regmap,rs1[i+1])<0) {
if((hr=get_reg(regs[i+1].regmap,rt1[i+1]))>=0)
{
}
}
}
+ // Preload map address
#ifndef HOST_IMM_ADDR32
if(itype[i+1]==LOAD||itype[i+1]==LOADLR||itype[i+1]==STORE||itype[i+1]==STORELR||itype[i+1]==C1LS||itype[i+1]==C2LS) {
hr=get_reg(regs[i+1].regmap,TLREG);
}
}
#endif
+ // Address for store instruction (non-constant)
if(itype[i+1]==STORE||itype[i+1]==STORELR
||(opcode[i+1]&0x3b)==0x39||(opcode[i+1]&0x3b)==0x3a) { // SB/SH/SW/SD/SWC1/SDC1/SWC2/SDC2
if(get_reg(regs[i+1].regmap,rs1[i+1])<0) {
#ifdef PCSX
if (start == 0x80030000) {
// nasty hack for fastbios thing
+ // override block entry to this code
instr_addr0_override=(u_int)out;
emit_movimm(start,0);
- emit_readword((int)&pcaddr,1);
+ // abuse io address var as a flag that we
+ // have already returned here once
+ emit_readword((int)&address,1);
emit_writeword(0,(int)&pcaddr);
+ emit_writeword(0,(int)&address);
emit_cmp(0,1);
emit_jne((int)new_dyna_leave);
}