static struct regstat regs[MAXBLOCK];
static struct regstat branch_regs[MAXBLOCK];
static signed char minimum_free_regs[MAXBLOCK];
- static u_int needed_reg[MAXBLOCK];
- static u_int wont_dirty[MAXBLOCK];
- static u_int will_dirty[MAXBLOCK];
static int ccadj[MAXBLOCK];
static int slen;
static void *instr_addr[MAXBLOCK];
memset(regmap, -1, sizeof(regmap[0]) * HOST_REGS);
}
+// get_reg: get allocated host reg from mips reg
+// returns -1 if no such mips reg was allocated
#if defined(__arm__) && defined(HAVE_ARMV6) && HOST_REGS == 13 && EXCLUDE_REG == 11
extern signed char get_reg(const signed char regmap[], signed char r);
#endif
+// get reg as mask bit (1 << hr)
+static u_int get_regm(const signed char regmap[], signed char r)
+{
+ return (1u << (get_reg(regmap, r) & 31)) & ~(1u << 31);
+}
+
static signed char get_reg_temp(const signed char regmap[])
{
int hr;
if (reg == CCREG) preferred_reg = HOST_CCREG;
if (reg == PTEMP || reg == FTEMP) preferred_reg = 12;
assert(PREFERRED_REG_FIRST != EXCLUDE_REG && EXCLUDE_REG != HOST_REGS);
+ assert(reg >= 0);
// Don't allocate unused registers
if((cur->u>>reg)&1) return;
// see if it's already allocated
- for(hr=0;hr<HOST_REGS;hr++)
- {
- if(cur->regmap[hr]==reg) return;
- }
+ if (get_reg(cur->regmap, reg) >= 0)
+ return;
// Keep the same mapping if the register was already allocated in a loop
preferred_reg = loop_reg(i,reg,preferred_reg);
static void wb_valid(signed char pre[],signed char entry[],u_int dirty_pre,u_int dirty,uint64_t u)
{
//if(dirty_pre==dirty) return;
- int hr,reg;
- for(hr=0;hr<HOST_REGS;hr++) {
- if(hr!=EXCLUDE_REG) {
- reg=pre[hr];
- if(((~u)>>reg)&1) {
- if(reg>0) {
- if(((dirty_pre&~dirty)>>hr)&1) {
- if(reg>0&®<34) {
- emit_storereg(reg,hr);
- }
- else if(reg>=64) {
- assert(0);
- }
- }
- }
- }
- }
+ int hr, r;
+ for (hr = 0; hr < HOST_REGS; hr++) {
+ r = pre[hr];
+ if (r < 1 || r > 33 || ((u >> r) & 1))
+ continue;
+ if (((dirty_pre & ~dirty) >> hr) & 1)
+ emit_storereg(r, hr);
}
}
// Load the specified registers
// This only loads the registers given as arguments because
// we don't want to load things that will be overwritten
-static void load_regs(signed char entry[],signed char regmap[],int rs1,int rs2)
+static inline void load_reg(signed char entry[], signed char regmap[], int rs)
{
- int hr;
- // Load 32-bit regs
- for(hr=0;hr<HOST_REGS;hr++) {
- if(hr!=EXCLUDE_REG&®map[hr]>=0) {
- if(entry[hr]!=regmap[hr]) {
- if(regmap[hr]==rs1||regmap[hr]==rs2)
- {
- if(regmap[hr]==0) {
- emit_zeroreg(hr);
- }
- else
- {
- emit_loadreg(regmap[hr],hr);
- }
- }
- }
- }
- }
+ int hr = get_reg(regmap, rs);
+ if (hr >= 0 && entry[hr] != regmap[hr])
+ emit_loadreg(regmap[hr], hr);
+}
+
+static void load_regs(signed char entry[], signed char regmap[], int rs1, int rs2)
+{
+ load_reg(entry, regmap, rs1);
+ if (rs1 != rs2)
+ load_reg(entry, regmap, rs2);
}
// Load registers prior to the start of a loop
static void loop_preload(signed char pre[],signed char entry[])
{
int hr;
- for(hr=0;hr<HOST_REGS;hr++) {
- if(hr!=EXCLUDE_REG) {
- if(pre[hr]!=entry[hr]) {
- if(entry[hr]>=0) {
- if(get_reg(pre,entry[hr])<0) {
- assem_debug("loop preload:\n");
- //printf("loop preload: %d\n",hr);
- if(entry[hr]==0) {
- emit_zeroreg(hr);
- }
- else if(entry[hr]<TEMPREG)
- {
- emit_loadreg(entry[hr],hr);
- }
- else if(entry[hr]-64<TEMPREG)
- {
- emit_loadreg(entry[hr],hr);
- }
- }
- }
- }
+ for (hr = 0; hr < HOST_REGS; hr++) {
+ int r = entry[hr];
+ if (r >= 0 && pre[hr] != r && get_reg(pre, r) < 0) {
+ assem_debug("loop preload:\n");
+ if (r < TEMPREG)
+ emit_loadreg(r, hr);
}
}
}
load_regs(regs[t].regmap_entry,regs[t].regmap,dops[t].rs1,dops[t].rs2);
address_generation(t,®s[t],regs[t].regmap_entry);
if (ram_offset && (dops[t].is_load || dops[t].is_store))
- load_regs(regs[t].regmap_entry,regs[t].regmap,ROREG,ROREG);
+ load_reg(regs[t].regmap_entry,regs[t].regmap,ROREG);
if (dops[t].is_store)
- load_regs(regs[t].regmap_entry,regs[t].regmap,INVCP,INVCP);
+ load_reg(regs[t].regmap_entry,regs[t].regmap,INVCP);
is_delayslot=0;
switch (dops[t].itype) {
case SYSCALL:
uint64_t bc_unneeded=branch_regs[i].u;
bc_unneeded|=1|(1LL<<dops[i].rt1);
wb_invalidate(regs[i].regmap,branch_regs[i].regmap,regs[i].dirty,bc_unneeded);
- load_regs(regs[i].regmap,branch_regs[i].regmap,CCREG,CCREG);
+ load_reg(regs[i].regmap,branch_regs[i].regmap,CCREG);
if(!ra_done&&dops[i].rt1==31)
ujump_assemble_write_ra(i);
int cc,adj;
bc_unneeded|=1;
wb_invalidate(regs[i].regmap,branch_regs[i].regmap,regs[i].dirty,bc_unneeded);
load_regs(regs[i].regmap,branch_regs[i].regmap,dops[i].rs1,dops[i].rs2);
- load_regs(regs[i].regmap,branch_regs[i].regmap,CCREG,CCREG);
+ load_reg(regs[i].regmap,branch_regs[i].regmap,CCREG);
cc=get_reg(branch_regs[i].regmap,CCREG);
assert(cc==HOST_CCREG);
if(unconditional)
load_regs(regs[i].regmap,branch_regs[i].regmap,dops[i+1].rs1,dops[i+1].rs2);
address_generation(i+1,&branch_regs[i],0);
if (ram_offset)
- load_regs(regs[i].regmap,branch_regs[i].regmap,ROREG,ROREG);
+ load_reg(regs[i].regmap,branch_regs[i].regmap,ROREG);
load_regs(regs[i].regmap,branch_regs[i].regmap,CCREG,INVCP);
ds_assemble(i+1,&branch_regs[i]);
cc=get_reg(branch_regs[i].regmap,CCREG);
load_regs(regs[i].regmap,branch_regs[i].regmap,dops[i+1].rs1,dops[i+1].rs2);
address_generation(i+1,&branch_regs[i],0);
if (ram_offset)
- load_regs(regs[i].regmap,branch_regs[i].regmap,ROREG,ROREG);
+ load_reg(regs[i].regmap,branch_regs[i].regmap,ROREG);
load_regs(regs[i].regmap,branch_regs[i].regmap,CCREG,INVCP);
ds_assemble(i+1,&branch_regs[i]);
cc=get_reg(branch_regs[i].regmap,CCREG);
bc_unneeded|=1;
wb_invalidate(regs[i].regmap,branch_regs[i].regmap,regs[i].dirty,bc_unneeded);
load_regs(regs[i].regmap,branch_regs[i].regmap,dops[i].rs1,dops[i].rs1);
- load_regs(regs[i].regmap,branch_regs[i].regmap,CCREG,CCREG);
+ load_reg(regs[i].regmap,branch_regs[i].regmap,CCREG);
if(dops[i].rt1==31) {
int rt,return_address;
rt=get_reg(branch_regs[i].regmap,31);
load_regs(regs[i].regmap,branch_regs[i].regmap,dops[i+1].rs1,dops[i+1].rs2);
address_generation(i+1,&branch_regs[i],0);
if (ram_offset)
- load_regs(regs[i].regmap,branch_regs[i].regmap,ROREG,ROREG);
+ load_reg(regs[i].regmap,branch_regs[i].regmap,ROREG);
load_regs(regs[i].regmap,branch_regs[i].regmap,CCREG,INVCP);
ds_assemble(i+1,&branch_regs[i]);
cc=get_reg(branch_regs[i].regmap,CCREG);
load_regs(regs[i].regmap,branch_regs[i].regmap,dops[i+1].rs1,dops[i+1].rs2);
address_generation(i+1,&branch_regs[i],0);
if (ram_offset)
- load_regs(regs[i].regmap,branch_regs[i].regmap,ROREG,ROREG);
+ load_reg(regs[i].regmap,branch_regs[i].regmap,ROREG);
load_regs(regs[i].regmap,branch_regs[i].regmap,CCREG,INVCP);
ds_assemble(i+1,&branch_regs[i]);
cc=get_reg(branch_regs[i].regmap,CCREG);
}
assert(hr<HOST_REGS);
if((dops[i].opcode&0x2e)==4||dops[i].opcode==0x11) { // BEQ/BNE/BEQL/BNEL/BC1
- load_regs(regs[i].regmap_entry,regs[i].regmap,CCREG,CCREG);
+ load_reg(regs[i].regmap_entry,regs[i].regmap,CCREG);
}
emit_addimm(HOST_CCREG, ccadj[i] + CLOCK_ADJUST(2), HOST_CCREG);
if(dops[i].opcode==2) // J
load_regs(regs[0].regmap_entry,regs[0].regmap,dops[0].rs1,dops[0].rs2);
address_generation(0,®s[0],regs[0].regmap_entry);
if (ram_offset && (dops[0].is_load || dops[0].is_store))
- load_regs(regs[0].regmap_entry,regs[0].regmap,ROREG,ROREG);
+ load_reg(regs[0].regmap_entry,regs[0].regmap,ROREG);
if (dops[0].is_store)
- load_regs(regs[0].regmap_entry,regs[0].regmap,INVCP,INVCP);
+ load_reg(regs[0].regmap_entry,regs[0].regmap,INVCP);
is_delayslot=0;
switch (dops[0].itype) {
case SYSCALL:
static noinline void pass4_cull_unused_regs(void)
{
+ u_int last_needed_regs[4] = {0,0,0,0};
u_int nr=0;
int i;
for (i=slen-1;i>=0;i--)
{
int hr;
+ __builtin_prefetch(regs[i-2].regmap);
if(dops[i].is_jump)
{
if(ba[i]<start || ba[i]>=(start+slen*4))
if (!dops[i].is_ujump)
{
if(i<slen-2) {
- nr|=needed_reg[i+2];
+ nr |= last_needed_regs[(i+2) & 3];
for(hr=0;hr<HOST_REGS;hr++)
{
if(regmap_pre[i+2][hr]>=0&&get_reg(regs[i+2].regmap_entry,regmap_pre[i+2][hr])<0) nr&=~(1<<hr);
//if(regs[i].regmap[hr]!=regmap_pre[i][hr]) nr&=~(1<<hr);
//if(regs[i].regmap[hr]<0) nr&=~(1<<hr);
// Merge in delay slot
- for(hr=0;hr<HOST_REGS;hr++)
- {
- if(dops[i+1].rt1&&dops[i+1].rt1==regs[i].regmap[hr]) nr&=~(1<<hr);
- if(dops[i+1].rt2&&dops[i+1].rt2==regs[i].regmap[hr]) nr&=~(1<<hr);
- if(dops[i+1].rs1==regmap_pre[i][hr]) nr|=1<<hr;
- if(dops[i+1].rs2==regmap_pre[i][hr]) nr|=1<<hr;
- if(dops[i+1].rs1==regs[i].regmap_entry[hr]) nr|=1<<hr;
- if(dops[i+1].rs2==regs[i].regmap_entry[hr]) nr|=1<<hr;
- if(ram_offset && (dops[i+1].is_load || dops[i+1].is_store)) {
- if(regmap_pre[i][hr]==ROREG) nr|=1<<hr;
- if(regs[i].regmap_entry[hr]==ROREG) nr|=1<<hr;
- }
- if(dops[i+1].is_store) {
- if(regmap_pre[i][hr]==INVCP) nr|=1<<hr;
- if(regs[i].regmap_entry[hr]==INVCP) nr|=1<<hr;
- }
+ if (dops[i+1].rt1) nr &= ~get_regm(regs[i].regmap, dops[i+1].rt1);
+ if (dops[i+1].rt2) nr &= ~get_regm(regs[i].regmap, dops[i+1].rt2);
+ nr |= get_regm(regmap_pre[i], dops[i+1].rs1);
+ nr |= get_regm(regmap_pre[i], dops[i+1].rs2);
+ nr |= get_regm(regs[i].regmap_entry, dops[i+1].rs1);
+ nr |= get_regm(regs[i].regmap_entry, dops[i+1].rs2);
+ if (ram_offset && (dops[i+1].is_load || dops[i+1].is_store)) {
+ nr |= get_regm(regmap_pre[i], ROREG);
+ nr |= get_regm(regs[i].regmap_entry, ROREG);
+ }
+ if (dops[i+1].is_store) {
+ nr |= get_regm(regmap_pre[i], INVCP);
+ nr |= get_regm(regs[i].regmap_entry, INVCP);
}
}
else if(dops[i].itype==SYSCALL||dops[i].itype==HLECALL||dops[i].itype==INTCALL)
}
}
}
+ // Overwritten registers are not needed
+ if (dops[i].rt1) nr &= ~get_regm(regs[i].regmap, dops[i].rt1);
+ if (dops[i].rt2) nr &= ~get_regm(regs[i].regmap, dops[i].rt2);
+ nr &= ~get_regm(regs[i].regmap, FTEMP);
+ // Source registers are needed
+ nr |= get_regm(regmap_pre[i], dops[i].rs1);
+ nr |= get_regm(regmap_pre[i], dops[i].rs2);
+ nr |= get_regm(regs[i].regmap_entry, dops[i].rs1);
+ nr |= get_regm(regs[i].regmap_entry, dops[i].rs2);
+ if (ram_offset && (dops[i].is_load || dops[i].is_store)) {
+ nr |= get_regm(regmap_pre[i], ROREG);
+ nr |= get_regm(regs[i].regmap_entry, ROREG);
+ }
+ if (dops[i].is_store) {
+ nr |= get_regm(regmap_pre[i], INVCP);
+ nr |= get_regm(regs[i].regmap_entry, INVCP);
+ }
+
+ if (i > 0 && !dops[i].bt && regs[i].wasdirty)
for(hr=0;hr<HOST_REGS;hr++)
{
- // Overwritten registers are not needed
- if(dops[i].rt1&&dops[i].rt1==regs[i].regmap[hr]) nr&=~(1<<hr);
- if(dops[i].rt2&&dops[i].rt2==regs[i].regmap[hr]) nr&=~(1<<hr);
- if(FTEMP==regs[i].regmap[hr]) nr&=~(1<<hr);
- // Source registers are needed
- if(dops[i].rs1==regmap_pre[i][hr]) nr|=1<<hr;
- if(dops[i].rs2==regmap_pre[i][hr]) nr|=1<<hr;
- if(dops[i].rs1==regs[i].regmap_entry[hr]) nr|=1<<hr;
- if(dops[i].rs2==regs[i].regmap_entry[hr]) nr|=1<<hr;
- if(ram_offset && (dops[i].is_load || dops[i].is_store)) {
- if(regmap_pre[i][hr]==ROREG) nr|=1<<hr;
- if(regs[i].regmap_entry[hr]==ROREG) nr|=1<<hr;
- }
- if(dops[i].is_store) {
- if(regmap_pre[i][hr]==INVCP) nr|=1<<hr;
- if(regs[i].regmap_entry[hr]==INVCP) nr|=1<<hr;
- }
// Don't store a register immediately after writing it,
// may prevent dual-issue.
// But do so if this is a branch target, otherwise we
// might have to load the register before the branch.
- if(i>0&&!dops[i].bt&&((regs[i].wasdirty>>hr)&1)) {
+ if((regs[i].wasdirty>>hr)&1) {
if((regmap_pre[i][hr]>0&&!((unneeded_reg[i]>>regmap_pre[i][hr])&1))) {
if(dops[i-1].rt1==regmap_pre[i][hr]) nr|=1<<hr;
if(dops[i-1].rt2==regmap_pre[i][hr]) nr|=1<<hr;
if(regs[i].regmap_entry[HOST_CCREG]==CCREG) nr|=1<<HOST_CCREG;
}
// Save it
- needed_reg[i]=nr;
+ last_needed_regs[i & 3] = nr;
// Deallocate unneeded registers
for(hr=0;hr<HOST_REGS;hr++)
// so that we don't end up with lots of writes at the branches.
static noinline void pass6_clean_registers(int istart, int iend, int wr)
{
+ static u_int wont_dirty[MAXBLOCK];
+ static u_int will_dirty[MAXBLOCK];
int i;
int r;
u_int will_dirty_i,will_dirty_next,temp_will_dirty;
if(dops[i+1].rs2!=dops[i+1].rs1&&dops[i+1].rs2!=dops[i].rs1&&dops[i+1].rs2!=dops[i].rs2&&(dops[i+1].rs2!=dops[i].rt1||dops[i].rt1==0))
load_regs(regs[i].regmap_entry,regs[i].regmap,dops[i+1].rs2,dops[i+1].rs2);
if (ram_offset && (dops[i+1].is_load || dops[i+1].is_store))
- load_regs(regs[i].regmap_entry,regs[i].regmap,ROREG,ROREG);
+ load_reg(regs[i].regmap_entry,regs[i].regmap,ROREG);
if (dops[i+1].is_store)
- load_regs(regs[i].regmap_entry,regs[i].regmap,INVCP,INVCP);
+ load_reg(regs[i].regmap_entry,regs[i].regmap,INVCP);
}
else if(i+1<slen)
{
}
// TODO: if(is_ooo(i)) address_generation(i+1);
if (!dops[i].is_jump || dops[i].itype == CJUMP)
- load_regs(regs[i].regmap_entry,regs[i].regmap,CCREG,CCREG);
+ load_reg(regs[i].regmap_entry,regs[i].regmap,CCREG);
if (ram_offset && (dops[i].is_load || dops[i].is_store))
- load_regs(regs[i].regmap_entry,regs[i].regmap,ROREG,ROREG);
+ load_reg(regs[i].regmap_entry,regs[i].regmap,ROREG);
if (dops[i].is_store)
- load_regs(regs[i].regmap_entry,regs[i].regmap,INVCP,INVCP);
+ load_reg(regs[i].regmap_entry,regs[i].regmap,INVCP);
ds = assemble(i, ®s[i], ccadj[i]);
notaz.gp2x.de / pcsx_rearmed.git / commitdiff