From: notaz Date: Sun, 6 Feb 2022 20:38:54 +0000 (+0200) Subject: drc: put passes in their own functions X-Git-Tag: r23~20 X-Git-Url: https://notaz.gp2x.de/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=4149788d40b6d55eb0d612f7068d2904ad3e5aa3;p=pcsx_rearmed.git drc: put passes in their own functions mostly for profiling --- diff --git a/libpcsxcore/new_dynarec/new_dynarec.c b/libpcsxcore/new_dynarec/new_dynarec.c index a8a750e4..9913b116 100644 --- a/libpcsxcore/new_dynarec/new_dynarec.c +++ b/libpcsxcore/new_dynarec/new_dynarec.c @@ -50,7 +50,6 @@ //#define DISASM //#define ASSEM_PRINT -//#define REG_ALLOC_PRINT #ifdef ASSEM_PRINT #define assem_debug printf @@ -340,6 +339,8 @@ void jump_break (u_int u0, u_int u1, u_int pc); void jump_break_ds(u_int u0, u_int u1, u_int pc); void jump_to_new_pc(); void call_gteStall(); +void clean_blocks(u_int page); +void add_jump_out(u_int vaddr, void *src); void new_dyna_leave(); // Needed by assembler @@ -745,7 +746,7 @@ static uint32_t get_const(const struct regstat *cur, signed char reg) // Least soon needed registers // Look at the next ten instructions and see which registers // will be used. Try not to reallocate these. -void lsn(u_char hsn[], int i, int *preferred_reg) +static void lsn(u_char hsn[], int i, int *preferred_reg) { int j; int b=-1; @@ -833,7 +834,7 @@ void lsn(u_char hsn[], int i, int *preferred_reg) } // We only want to allocate registers if we're going to use them again soon -int needed_again(int r, int i) +static int needed_again(int r, int i) { int j; int b=-1; @@ -878,7 +879,7 @@ int needed_again(int r, int i) // Try to match register allocations at the end of a loop with those // at the beginning -int loop_reg(int i, int r, int hr) +static int loop_reg(int i, int r, int hr) { int j,k; for(j=0;j<9;j++) @@ -920,7 +921,7 @@ int loop_reg(int i, int r, int hr) // Allocate every register, preserving source/target regs -void alloc_all(struct regstat *cur,int i) +static void alloc_all(struct regstat *cur,int i) { int hr; @@ -985,6 +986,7 @@ static const struct { FUNCNAME(jump_syscall), FUNCNAME(jump_syscall_ds), FUNCNAME(call_gteStall), + FUNCNAME(clean_blocks), FUNCNAME(new_dyna_leave), FUNCNAME(pcsx_mtc0), FUNCNAME(pcsx_mtc0_ds), @@ -1064,7 +1066,7 @@ static void emit_far_call(const void *f) } // Add virtual address mapping to linked list -void ll_add(struct ll_entry **head,int vaddr,void *addr) +static void ll_add(struct ll_entry **head,int vaddr,void *addr) { struct ll_entry *new_entry; new_entry=malloc(sizeof(struct ll_entry)); @@ -1076,7 +1078,7 @@ void ll_add(struct ll_entry **head,int vaddr,void *addr) *head=new_entry; } -void ll_add_flags(struct ll_entry **head,int vaddr,u_int reg_sv_flags,void *addr) +static void ll_add_flags(struct ll_entry **head,int vaddr,u_int reg_sv_flags,void *addr) { ll_add(head,vaddr,addr); (*head)->reg_sv_flags=reg_sv_flags; @@ -1084,7 +1086,7 @@ void ll_add_flags(struct ll_entry **head,int vaddr,u_int reg_sv_flags,void *addr // Check if an address is already compiled // but don't return addresses which are about to expire from the cache -void *check_addr(u_int vaddr) +static void *check_addr(u_int vaddr) { struct ht_entry *ht_bin = hash_table_get(vaddr); size_t i; @@ -1167,7 +1169,7 @@ static void ll_remove_matching_addrs(struct ll_entry **head, } // Remove all entries from linked list -void ll_clear(struct ll_entry **head) +static void ll_clear(struct ll_entry **head) { struct ll_entry *cur; struct ll_entry *next; @@ -1888,7 +1890,7 @@ static void load_alloc(struct regstat *current,int i) } } -void store_alloc(struct regstat *current,int i) +static void store_alloc(struct regstat *current,int i) { clear_const(current,dops[i].rs2); if(!(dops[i].rs2)) current->u&=~1LL; // Allow allocating r0 if necessary @@ -1911,13 +1913,13 @@ void store_alloc(struct regstat *current,int i) minimum_free_regs[i]=1; } -void c1ls_alloc(struct regstat *current,int i) +static void c1ls_alloc(struct regstat *current,int i) { clear_const(current,dops[i].rt1); alloc_reg(current,i,CSREG); // Status } -void c2ls_alloc(struct regstat *current,int i) +static void c2ls_alloc(struct regstat *current,int i) { clear_const(current,dops[i].rt1); if(needed_again(dops[i].rs1,i)) alloc_reg(current,i,dops[i].rs1); @@ -1935,7 +1937,7 @@ void c2ls_alloc(struct regstat *current,int i) } #ifndef multdiv_alloc -void multdiv_alloc(struct regstat *current,int i) +static void multdiv_alloc(struct regstat *current,int i) { // case 0x18: MULT // case 0x19: MULTU @@ -1979,7 +1981,7 @@ void multdiv_alloc(struct regstat *current,int i) } #endif -void cop0_alloc(struct regstat *current,int i) +static void cop0_alloc(struct regstat *current,int i) { if(dops[i].opcode2==0) // MFC0 { @@ -2039,14 +2041,14 @@ static void cop2_alloc(struct regstat *current,int i) minimum_free_regs[i]=1; } -void c2op_alloc(struct regstat *current,int i) +static void c2op_alloc(struct regstat *current,int i) { alloc_cc(current,i); // for stalls dirty_reg(current,CCREG); alloc_reg_temp(current,i,-1); } -void syscall_alloc(struct regstat *current,int i) +static void syscall_alloc(struct regstat *current,int i) { alloc_cc(current,i); dirty_reg(current,CCREG); @@ -2055,7 +2057,7 @@ void syscall_alloc(struct regstat *current,int i) current->isconst=0; } -void delayslot_alloc(struct regstat *current,int i) +static void delayslot_alloc(struct regstat *current,int i) { switch(dops[i].itype) { case UJUMP: @@ -4331,7 +4333,7 @@ static void loop_preload(signed char pre[],signed char entry[]) // Generate address for load/store instruction // goes to AGEN for writes, FTEMP for LOADLR and cop1/2 loads -void address_generation(int i, const struct regstat *i_regs, signed char entry[]) +static void address_generation(int i, const struct regstat *i_regs, signed char entry[]) { if (dops[i].is_load || dops[i].is_store) { int ra=-1; @@ -4652,7 +4654,7 @@ static void load_regs_entry(int t) } // Store dirty registers prior to branch -void store_regs_bt(signed char i_regmap[],uint64_t i_dirty,int addr) +static void store_regs_bt(signed char i_regmap[],uint64_t i_dirty,int addr) { if(internal_branch(addr)) { @@ -6204,515 +6206,6 @@ static void check_regmap(signed char *regmap) #endif } -// Basic liveness analysis for MIPS registers -static void unneeded_registers(int istart,int iend,int r) -{ - int i; - uint64_t u,gte_u,b,gte_b; - uint64_t temp_u,temp_gte_u=0; - uint64_t gte_u_unknown=0; - if (HACK_ENABLED(NDHACK_GTE_UNNEEDED)) - gte_u_unknown=~0ll; - if(iend==slen-1) { - u=1; - gte_u=gte_u_unknown; - }else{ - //u=unneeded_reg[iend+1]; - u=1; - gte_u=gte_unneeded[iend+1]; - } - - for (i=iend;i>=istart;i--) - { - //printf("unneeded registers i=%d (%d,%d) r=%d\n",i,istart,iend,r); - if(dops[i].is_jump) - { - // If subroutine call, flag return address as a possible branch target - if(dops[i].rt1==31 && i=(start+slen*4)) - { - // Branch out of this block, flush all regs - u=1; - gte_u=gte_u_unknown; - branch_unneeded_reg[i]=u; - // Merge in delay slot - u|=(1LL<>2].bt=1; - if(ba[i]<=start+i*4) { - // Backward branch - if(dops[i].is_ujump) - { - // Unconditional branch - temp_u=1; - temp_gte_u=0; - } else { - // Conditional branch (not taken case) - temp_u=unneeded_reg[i+2]; - temp_gte_u&=gte_unneeded[i+2]; - } - // Merge in delay slot - temp_u|=(1LL<>2,i-1,r+1); - }else{ - unneeded_reg[(ba[i]-start)>>2]=1; - gte_unneeded[(ba[i]-start)>>2]=gte_u_unknown; - } - } /*else*/ if(1) { - if (dops[i].is_ujump) - { - // Unconditional branch - u=unneeded_reg[(ba[i]-start)>>2]; - gte_u=gte_unneeded[(ba[i]-start)>>2]; - branch_unneeded_reg[i]=u; - // Merge in delay slot - u|=(1LL<>2]; - gte_b=gte_unneeded[(ba[i]-start)>>2]; - branch_unneeded_reg[i]=b; - // Branch delay slot - b|=(1LL<>r)&1) { - if(r==HIREG) printf(" HI"); - else if(r==LOREG) printf(" LO"); - else printf(" r%d",r); - } - } - printf("\n"); - */ - } -} - -// Write back dirty registers as soon as we will no longer modify them, -// so that we don't end up with lots of writes at the branches. -static void clean_registers(int istart, int iend, int wr) -{ - int i; - int r; - u_int will_dirty_i,will_dirty_next,temp_will_dirty; - u_int wont_dirty_i,wont_dirty_next,temp_wont_dirty; - if(iend==slen-1) { - will_dirty_i=will_dirty_next=0; - wont_dirty_i=wont_dirty_next=0; - }else{ - will_dirty_i=will_dirty_next=will_dirty[iend+1]; - wont_dirty_i=wont_dirty_next=wont_dirty[iend+1]; - } - for (i=iend;i>=istart;i--) - { - signed char rregmap_i[RRMAP_SIZE]; - u_int hr_candirty = 0; - assert(HOST_REGS < 32); - make_rregs(regs[i].regmap, rregmap_i, &hr_candirty); - __builtin_prefetch(regs[i-1].regmap); - if(dops[i].is_jump) - { - signed char branch_rregmap_i[RRMAP_SIZE]; - u_int branch_hr_candirty = 0; - make_rregs(branch_regs[i].regmap, branch_rregmap_i, &branch_hr_candirty); - if(ba[i]=(start+slen*4)) - { - // Branch out of this block, flush all regs - will_dirty_i = 0; - will_dirty_i |= 1u << (get_rreg(branch_rregmap_i, dops[i].rt1) & 31); - will_dirty_i |= 1u << (get_rreg(branch_rregmap_i, dops[i].rt2) & 31); - will_dirty_i |= 1u << (get_rreg(branch_rregmap_i, dops[i+1].rt1) & 31); - will_dirty_i |= 1u << (get_rreg(branch_rregmap_i, dops[i+1].rt2) & 31); - will_dirty_i |= 1u << (get_rreg(branch_rregmap_i, CCREG) & 31); - will_dirty_i &= branch_hr_candirty; - if (dops[i].is_ujump) - { - // Unconditional branch - wont_dirty_i = 0; - // Merge in delay slot (will dirty) - will_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i].rt1) & 31); - will_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i].rt2) & 31); - will_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i+1].rt1) & 31); - will_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i+1].rt2) & 31); - will_dirty_i |= 1u << (get_rreg(rregmap_i, CCREG) & 31); - will_dirty_i &= hr_candirty; - } - else - { - // Conditional branch - wont_dirty_i = wont_dirty_next; - // Merge in delay slot (will dirty) - // (the original code had no explanation why these 2 are commented out) - //will_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i].rt1) & 31); - //will_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i].rt2) & 31); - will_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i+1].rt1) & 31); - will_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i+1].rt2) & 31); - will_dirty_i |= 1u << (get_rreg(rregmap_i, CCREG) & 31); - will_dirty_i &= hr_candirty; - } - // Merge in delay slot (wont dirty) - wont_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i].rt1) & 31); - wont_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i].rt2) & 31); - wont_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i+1].rt1) & 31); - wont_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i+1].rt2) & 31); - wont_dirty_i |= 1u << (get_rreg(rregmap_i, CCREG) & 31); - wont_dirty_i |= 1u << (get_rreg(branch_rregmap_i, dops[i].rt1) & 31); - wont_dirty_i |= 1u << (get_rreg(branch_rregmap_i, dops[i].rt2) & 31); - wont_dirty_i |= 1u << (get_rreg(branch_rregmap_i, dops[i+1].rt1) & 31); - wont_dirty_i |= 1u << (get_rreg(branch_rregmap_i, dops[i+1].rt2) & 31); - wont_dirty_i |= 1u << (get_rreg(branch_rregmap_i, CCREG) & 31); - wont_dirty_i &= ~(1u << 31); - if(wr) { - #ifndef DESTRUCTIVE_WRITEBACK - branch_regs[i].dirty&=wont_dirty_i; - #endif - branch_regs[i].dirty|=will_dirty_i; - } - } - else - { - // Internal branch - if(ba[i]<=start+i*4) { - // Backward branch - if (dops[i].is_ujump) - { - // Unconditional branch - temp_will_dirty=0; - temp_wont_dirty=0; - // Merge in delay slot (will dirty) - temp_will_dirty |= 1u << (get_rreg(branch_rregmap_i, dops[i].rt1) & 31); - temp_will_dirty |= 1u << (get_rreg(branch_rregmap_i, dops[i].rt2) & 31); - temp_will_dirty |= 1u << (get_rreg(branch_rregmap_i, dops[i+1].rt1) & 31); - temp_will_dirty |= 1u << (get_rreg(branch_rregmap_i, dops[i+1].rt2) & 31); - temp_will_dirty |= 1u << (get_rreg(branch_rregmap_i, CCREG) & 31); - temp_will_dirty &= branch_hr_candirty; - temp_will_dirty |= 1u << (get_rreg(rregmap_i, dops[i].rt1) & 31); - temp_will_dirty |= 1u << (get_rreg(rregmap_i, dops[i].rt2) & 31); - temp_will_dirty |= 1u << (get_rreg(rregmap_i, dops[i+1].rt1) & 31); - temp_will_dirty |= 1u << (get_rreg(rregmap_i, dops[i+1].rt2) & 31); - temp_will_dirty |= 1u << (get_rreg(rregmap_i, CCREG) & 31); - temp_will_dirty &= hr_candirty; - } else { - // Conditional branch (not taken case) - temp_will_dirty=will_dirty_next; - temp_wont_dirty=wont_dirty_next; - // Merge in delay slot (will dirty) - temp_will_dirty |= 1u << (get_rreg(branch_rregmap_i, dops[i].rt1) & 31); - temp_will_dirty |= 1u << (get_rreg(branch_rregmap_i, dops[i].rt2) & 31); - temp_will_dirty |= 1u << (get_rreg(branch_rregmap_i, dops[i+1].rt1) & 31); - temp_will_dirty |= 1u << (get_rreg(branch_rregmap_i, dops[i+1].rt2) & 31); - temp_will_dirty |= 1u << (get_rreg(branch_rregmap_i, CCREG) & 31); - temp_will_dirty &= branch_hr_candirty; - //temp_will_dirty |= 1u << (get_rreg(rregmap_i, dops[i].rt1) & 31); - //temp_will_dirty |= 1u << (get_rreg(rregmap_i, dops[i].rt2) & 31); - temp_will_dirty |= 1u << (get_rreg(rregmap_i, dops[i+1].rt1) & 31); - temp_will_dirty |= 1u << (get_rreg(rregmap_i, dops[i+1].rt2) & 31); - temp_will_dirty |= 1u << (get_rreg(rregmap_i, CCREG) & 31); - temp_will_dirty &= hr_candirty; - } - // Merge in delay slot (wont dirty) - temp_wont_dirty |= 1u << (get_rreg(rregmap_i, dops[i].rt1) & 31); - temp_wont_dirty |= 1u << (get_rreg(rregmap_i, dops[i].rt2) & 31); - temp_wont_dirty |= 1u << (get_rreg(rregmap_i, dops[i+1].rt1) & 31); - temp_wont_dirty |= 1u << (get_rreg(rregmap_i, dops[i+1].rt2) & 31); - temp_wont_dirty |= 1u << (get_rreg(rregmap_i, CCREG) & 31); - temp_wont_dirty |= 1u << (get_rreg(branch_rregmap_i, dops[i].rt1) & 31); - temp_wont_dirty |= 1u << (get_rreg(branch_rregmap_i, dops[i].rt2) & 31); - temp_wont_dirty |= 1u << (get_rreg(branch_rregmap_i, dops[i+1].rt1) & 31); - temp_wont_dirty |= 1u << (get_rreg(branch_rregmap_i, dops[i+1].rt2) & 31); - temp_wont_dirty |= 1u << (get_rreg(branch_rregmap_i, CCREG) & 31); - temp_wont_dirty &= ~(1u << 31); - // Deal with changed mappings - if(i0 && regmap_pre[i][r]<34) { - temp_will_dirty|=((unneeded_reg[i]>>regmap_pre[i][r])&1)<>regmap_pre[i][r])&1)<>2,i-1,0); - }else{ - // Limit recursion. It can take an excessive amount - // of time if there are a lot of nested loops. - will_dirty[(ba[i]-start)>>2]=0; - wont_dirty[(ba[i]-start)>>2]=-1; - } - } - /*else*/ if(1) - { - if (dops[i].is_ujump) - { - // Unconditional branch - will_dirty_i=0; - wont_dirty_i=0; - //if(ba[i]>start+i*4) { // Disable recursion (for debugging) - for(r=0;r>2].regmap_entry[r]) { - will_dirty_i|=will_dirty[(ba[i]-start)>>2]&(1<>2]&(1<=0) { - will_dirty_i|=((unneeded_reg[(ba[i]-start)>>2]>>branch_regs[i].regmap[r])&1)<>2]>>branch_regs[i].regmap[r])&1)<start+i*4) // Disable recursion (for debugging) - for(r=0;r>2].regmap_entry[r]) { - will_dirty_i&=will_dirty[(ba[i]-start)>>2]&(1<>2]&(1<=0) { - will_dirty_i&=((unneeded_reg[(ba[i]-start)>>2]>>target_reg)&1)<>2]>>target_reg)&1)< istart && !dops[i].is_jump) { - // Don't store a register immediately after writing it, - // may prevent dual-issue. - wont_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i-1].rt1) & 31); - wont_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i-1].rt2) & 31); - } - // Save it - will_dirty[i]=will_dirty_i; - wont_dirty[i]=wont_dirty_i; - // Mark registers that won't be dirtied as not dirty - if(wr) { - regs[i].dirty|=will_dirty_i; - #ifndef DESTRUCTIVE_WRITEBACK - regs[i].dirty&=wont_dirty_i; - if(dops[i].is_jump) - { - if (i < iend-1 && !dops[i].is_ujump) { - for(r=0;r>r)&1));*/} - } - } - } - } - else - { - if(i>r)&1));*/} - } - } - } - } - #endif - } - // Deal with changed mappings - temp_will_dirty=will_dirty_i; - temp_wont_dirty=wont_dirty_i; - for(r=0;r=0&&(nr=get_rreg(rregmap_i,regmap_pre[i][r]))>=0) { - // Register moved to a different register - will_dirty_i&=~(1<>nr)&1)<>nr)&1)<0 && regmap_pre[i][r]<34) { - will_dirty_i|=((unneeded_reg[i]>>regmap_pre[i][r])&1)<>regmap_pre[i][r])&1)<>r)&1));*/ - } - } - } - } - } -} - #ifdef DISASM #include static char insn[MAXBLOCK][10]; @@ -7145,96 +6638,11 @@ static int apply_hacks(void) return 0; } -int new_recompile_block(u_int addr) +static noinline void pass1_disassemble(u_int pagelimit) { - u_int pagelimit = 0; - u_int state_rflags = 0; - int i; - - assem_debug("NOTCOMPILED: addr = %x -> %p\n", addr, out); - //printf("TRACE: count=%d next=%d (compile %x)\n",Count,next_interupt,addr); - //if(debug) - //printf("fpu mapping=%x enabled=%x\n",(Status & 0x04000000)>>26,(Status & 0x20000000)>>29); - - // this is just for speculation - for (i = 1; i < 32; i++) { - if ((psxRegs.GPR.r[i] & 0xffff0000) == 0x1f800000) - state_rflags |= 1 << i; - } - - start = (u_int)addr&~3; - //assert(((u_int)addr&1)==0); // start-in-delay-slot flag - new_dynarec_did_compile=1; - if (Config.HLE && start == 0x80001000) // hlecall - { - // XXX: is this enough? Maybe check hleSoftCall? - void *beginning=start_block(); - u_int page=get_page(start); - - invalid_code[start>>12]=0; - emit_movimm(start,0); - emit_writeword(0,&pcaddr); - emit_far_jump(new_dyna_leave); - literal_pool(0); - end_block(beginning); - ll_add_flags(jump_in+page,start,state_rflags,(void *)beginning); - return 0; - } - else if (f1_hack && hack_addr == 0) { - void *beginning = start_block(); - u_int page = get_page(start); - emit_movimm(start, 0); - emit_writeword(0, &hack_addr); - emit_readword(&psxRegs.GPR.n.sp, 0); - emit_readptr(&mem_rtab, 1); - emit_shrimm(0, 12, 2); - emit_readptr_dualindexedx_ptrlen(1, 2, 1); - emit_addimm(0, 0x18, 0); - emit_adds_ptr(1, 1, 1); - emit_ldr_dualindexed(1, 0, 0); - emit_writeword(0, &psxRegs.GPR.r[26]); // lw k0, 0x18(sp) - emit_far_call(get_addr_ht); - emit_jmpreg(0); // jr k0 - literal_pool(0); - end_block(beginning); - - ll_add_flags(jump_in + page, start, state_rflags, beginning); - SysPrintf("F1 hack to %08x\n", start); - return 0; - } - - cycle_multiplier_active = cycle_multiplier_override && cycle_multiplier == CYCLE_MULT_DEFAULT - ? cycle_multiplier_override : cycle_multiplier; - - source = get_source_start(start, &pagelimit); - if (source == NULL) { - if (addr != hack_addr) { - SysPrintf("Compile at bogus memory address: %08x\n", addr); - hack_addr = addr; - } - //abort(); - return -1; - } - - /* Pass 1: disassemble */ - /* Pass 2: register dependencies, branch targets */ - /* Pass 3: register allocation */ - /* Pass 4: branch dependencies */ - /* Pass 5: pre-alloc */ - /* Pass 6: optimize clean/dirty state */ - /* Pass 7: flag 32-bit registers */ - /* Pass 8: assembly */ - /* Pass 9: linker */ - /* Pass 10: garbage collection / free memory */ - - int j; - int done = 0, ni_count = 0; + int i, j, done = 0, ni_count = 0; unsigned int type,op,op2; - //printf("addr = %x source = %x %x\n", addr,source,source[0]); - - /* Pass 1 disassembly */ - for (i = 0; !done; i++) { memset(&dops[i], 0, sizeof(dops[i])); @@ -7421,7 +6829,7 @@ int new_recompile_block(u_int addr) case 0x3A: set_mnemonic(i, "SWC2"); type=C2LS; break; case 0x3B: set_mnemonic(i, "HLECALL"); type=HLECALL; break; default: set_mnemonic(i, "???"); type=NI; - SysPrintf("NI %08x @%08x (%08x)\n", source[i], addr + i*4, addr); + SysPrintf("NI %08x @%08x (%08x)\n", source[i], start + i*4, start); break; } dops[i].itype=type; @@ -7660,7 +7068,7 @@ int new_recompile_block(u_int addr) // branch in delay slot? if (dops[i].is_jump) { // don't handle first branch and call interpreter if it's hit - SysPrintf("branch in delay slot @%08x (%08x)\n", addr + i*4, addr); + SysPrintf("branch in delay slot @%08x (%08x)\n", start + i*4, start); do_in_intrp=1; } // basic load delay detection @@ -7668,14 +7076,14 @@ int new_recompile_block(u_int addr) int t=(ba[i-1]-start)/4; if(0 <= t && t < i &&(dops[i].rt1==dops[t].rs1||dops[i].rt1==dops[t].rs2)&&dops[t].itype!=CJUMP&&dops[t].itype!=SJUMP) { // jump target wants DS result - potential load delay effect - SysPrintf("load delay @%08x (%08x)\n", addr + i*4, addr); + SysPrintf("load delay @%08x (%08x)\n", start + i*4, start); do_in_intrp=1; dops[t+1].bt=1; // expected return from interpreter } else if(i>=2&&dops[i-2].rt1==2&&dops[i].rt1==2&&dops[i].rs1!=2&&dops[i].rs2!=2&&dops[i-1].rs1!=2&&dops[i-1].rs2!=2&& !(i>=3&&dops[i-3].is_jump)) { // v0 overwrite like this is a sign of trouble, bail out - SysPrintf("v0 overwrite @%08x (%08x)\n", addr + i*4, addr); + SysPrintf("v0 overwrite @%08x (%08x)\n", start + i*4, start); do_in_intrp=1; } } @@ -7731,16 +7139,165 @@ int new_recompile_block(u_int addr) dops[i-1].itype=SPAN; } } - assert(slen>0); - - int clear_hack_addr = apply_hacks(); - - /* Pass 2 - Register dependencies and branch targets */ - - unneeded_registers(0,slen-1,0); - - /* Pass 3 - Register allocation */ + assert(slen>0); +} + +// Basic liveness analysis for MIPS registers +static noinline void pass2_unneeded_regs(int istart,int iend,int r) +{ + int i; + uint64_t u,gte_u,b,gte_b; + uint64_t temp_u,temp_gte_u=0; + uint64_t gte_u_unknown=0; + if (HACK_ENABLED(NDHACK_GTE_UNNEEDED)) + gte_u_unknown=~0ll; + if(iend==slen-1) { + u=1; + gte_u=gte_u_unknown; + }else{ + //u=unneeded_reg[iend+1]; + u=1; + gte_u=gte_unneeded[iend+1]; + } + + for (i=iend;i>=istart;i--) + { + //printf("unneeded registers i=%d (%d,%d) r=%d\n",i,istart,iend,r); + if(dops[i].is_jump) + { + // If subroutine call, flag return address as a possible branch target + if(dops[i].rt1==31 && i=(start+slen*4)) + { + // Branch out of this block, flush all regs + u=1; + gte_u=gte_u_unknown; + branch_unneeded_reg[i]=u; + // Merge in delay slot + u|=(1LL<>2].bt=1; + if(ba[i]<=start+i*4) { + // Backward branch + if(dops[i].is_ujump) + { + // Unconditional branch + temp_u=1; + temp_gte_u=0; + } else { + // Conditional branch (not taken case) + temp_u=unneeded_reg[i+2]; + temp_gte_u&=gte_unneeded[i+2]; + } + // Merge in delay slot + temp_u|=(1LL<>2,i-1,r+1); + }else{ + unneeded_reg[(ba[i]-start)>>2]=1; + gte_unneeded[(ba[i]-start)>>2]=gte_u_unknown; + } + } /*else*/ if(1) { + if (dops[i].is_ujump) + { + // Unconditional branch + u=unneeded_reg[(ba[i]-start)>>2]; + gte_u=gte_unneeded[(ba[i]-start)>>2]; + branch_unneeded_reg[i]=u; + // Merge in delay slot + u|=(1LL<>2]; + gte_b=gte_unneeded[(ba[i]-start)>>2]; + branch_unneeded_reg[i]=b; + // Branch delay slot + b|=(1LL<>r)&1) { + if(r==HIREG) printf(" HI"); + else if(r==LOREG) printf(" LO"); + else printf(" r%d",r); + } + } + printf("\n"); + */ + } +} +static noinline void pass3_register_alloc(u_int addr) +{ struct regstat current; // Current register allocations/status clear_all_regs(current.regmap_entry); clear_all_regs(current.regmap); @@ -7754,9 +7311,10 @@ int new_recompile_block(u_int addr) current.waswritten = 0; int ds=0; int cc=0; - int hr=-1; + int hr; + int i, j; - if((u_int)addr&1) { + if (addr & 1) { // First instruction is delay slot cc=-1; dops[1].bt=1; @@ -7769,7 +7327,6 @@ int new_recompile_block(u_int addr) { if(dops[i].bt) { - int hr; for(hr=0;hr=0;i--) { @@ -8610,13 +8169,14 @@ int new_recompile_block(u_int addr) } // if needed } // for hr } +} - /* Pass 5 - Pre-allocate registers */ - - // 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. - +// 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. +static noinline void pass5a_preallocate1(void) +{ + int i, j, hr; signed char f_regmap[HOST_REGS]; clear_all_regs(f_regmap); for(i=0;i %x\n",start+k*4,start+j*4); + while(ki&&f_regmap[HOST_CCREG]==CCREG) + { + //printf("Extend backwards\n"); + int k; + k=i; + while(regs[k-1].regmap[HOST_CCREG]==-1) { + if(count_free_regs(regs[k-1].regmap)<=minimum_free_regs[k-1]) { + //printf("no free regs for store %x\n",start+(k-1)*4); + break; + } + k--; + } + if(regs[k-1].regmap[HOST_CCREG]==CCREG) { + //printf("Extend CC, %x ->\n",start+k*4); + while(k<=i) { + regs[k].regmap_entry[HOST_CCREG]=CCREG; + regs[k].regmap[HOST_CCREG]=CCREG; + regmap_pre[k+1][HOST_CCREG]=CCREG; + regs[k+1].wasdirty|=1<\n",start+k*4); + } + } + } + if(dops[i].itype!=STORE&&dops[i].itype!=STORELR&&dops[i].itype!=C1LS&&dops[i].itype!=SHIFT&& + dops[i].itype!=NOP&&dops[i].itype!=MOV&&dops[i].itype!=ALU&&dops[i].itype!=SHIFTIMM&& + dops[i].itype!=IMM16&&dops[i].itype!=LOAD&&dops[i].itype!=COP1) + { + memcpy(f_regmap,regs[i].regmap,sizeof(f_regmap)); + } + } + } +} + +// This allocates registers (if possible) one instruction prior +// to use, which can avoid a load-use penalty on certain CPUs. +static noinline void pass5b_preallocate2(void) +{ + int i, hr; + for(i=0;i=0) + { + if(regs[i].regmap[hr]<0&®s[i+1].regmap_entry[hr]<0) + { + regs[i].regmap[hr]=regs[i+1].regmap[hr]; + regmap_pre[i+1][hr]=regs[i+1].regmap[hr]; + regs[i+1].regmap_entry[hr]=regs[i+1].regmap[hr]; + regs[i].isconst&=~(1<=0) + { + if(regs[i].regmap[hr]<0&®s[i+1].regmap_entry[hr]<0) + { + regs[i].regmap[hr]=regs[i+1].regmap[hr]; + regmap_pre[i+1][hr]=regs[i+1].regmap[hr]; + regs[i+1].regmap_entry[hr]=regs[i+1].regmap[hr]; + regs[i].isconst&=~(1<=0) + { + if(regs[i].regmap[hr]<0&®s[i+1].regmap_entry[hr]<0) + { + regs[i].regmap[hr]=dops[i+1].rs1; + regmap_pre[i+1][hr]=dops[i+1].rs1; + regs[i+1].regmap_entry[hr]=dops[i+1].rs1; + regs[i].isconst&=~(1<=0) + { + if(regs[i].regmap[hr]<0&®s[i+1].regmap_entry[hr]<0) + { + regs[i].regmap[hr]=dops[i+1].rs1; + regmap_pre[i+1][hr]=dops[i+1].rs1; + regs[i+1].regmap_entry[hr]=dops[i+1].rs1; + regs[i].isconst&=~(1<=0); + if(regs[i].regmap[hr]<0&®s[i+1].regmap_entry[hr]<0) + { + regs[i].regmap[hr]=dops[i+1].rs1; + regmap_pre[i+1][hr]=dops[i+1].rs1; + regs[i+1].regmap_entry[hr]=dops[i+1].rs1; + regs[i].isconst&=~(1<=0); + if(regs[i].regmap[hr]<0&®s[i+1].regmap_entry[hr]<0) + { + regs[i].regmap[hr]=dops[i+1].rs1; + regmap_pre[i+1][hr]=dops[i+1].rs1; + regs[i+1].regmap_entry[hr]=dops[i+1].rs1; + regs[i].isconst&=~(1<=0) + { + // move it to another register + regs[i+1].regmap[hr]=-1; + regmap_pre[i+2][hr]=-1; + regs[i+1].regmap[nr]=FTEMP; + regmap_pre[i+2][nr]=FTEMP; + regs[i].regmap[nr]=dops[i+1].rs1; + regmap_pre[i+1][nr]=dops[i+1].rs1; + regs[i+1].regmap_entry[nr]=dops[i+1].rs1; + regs[i].isconst&=~(1<=0&®s[i].regmap[hr]<0) { + int rs=get_reg(regs[i+1].regmap,dops[i+1].rs1); + if(rs>=0&&((regs[i+1].wasconst>>rs)&1)) { + regs[i].regmap[hr]=AGEN1+((i+1)&1); + regmap_pre[i+1][hr]=AGEN1+((i+1)&1); + regs[i+1].regmap_entry[hr]=AGEN1+((i+1)&1); + regs[i].isconst&=~(1<=istart;i--) + { + signed char rregmap_i[RRMAP_SIZE]; + u_int hr_candirty = 0; + assert(HOST_REGS < 32); + make_rregs(regs[i].regmap, rregmap_i, &hr_candirty); + __builtin_prefetch(regs[i-1].regmap); + if(dops[i].is_jump) + { + signed char branch_rregmap_i[RRMAP_SIZE]; + u_int branch_hr_candirty = 0; + make_rregs(branch_regs[i].regmap, branch_rregmap_i, &branch_hr_candirty); + if(ba[i]=(start+slen*4)) + { + // Branch out of this block, flush all regs + will_dirty_i = 0; + will_dirty_i |= 1u << (get_rreg(branch_rregmap_i, dops[i].rt1) & 31); + will_dirty_i |= 1u << (get_rreg(branch_rregmap_i, dops[i].rt2) & 31); + will_dirty_i |= 1u << (get_rreg(branch_rregmap_i, dops[i+1].rt1) & 31); + will_dirty_i |= 1u << (get_rreg(branch_rregmap_i, dops[i+1].rt2) & 31); + will_dirty_i |= 1u << (get_rreg(branch_rregmap_i, CCREG) & 31); + will_dirty_i &= branch_hr_candirty; + if (dops[i].is_ujump) + { + // Unconditional branch + wont_dirty_i = 0; + // Merge in delay slot (will dirty) + will_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i].rt1) & 31); + will_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i].rt2) & 31); + will_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i+1].rt1) & 31); + will_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i+1].rt2) & 31); + will_dirty_i |= 1u << (get_rreg(rregmap_i, CCREG) & 31); + will_dirty_i &= hr_candirty; } - if(regs[j].regmap[HOST_CCREG]==CCREG) { - int k=i; - //printf("Extend CC, %x -> %x\n",start+k*4,start+j*4); - while(k0 && regmap_pre[i][r]<34) { + temp_will_dirty|=((unneeded_reg[i]>>regmap_pre[i][r])&1)<>regmap_pre[i][r])&1)<>2,i-1,0); + }else{ + // Limit recursion. It can take an excessive amount + // of time if there are a lot of nested loops. + will_dirty[(ba[i]-start)>>2]=0; + wont_dirty[(ba[i]-start)>>2]=-1; } - regs[j].regmap_entry[HOST_CCREG]=CCREG; } - // Work backwards from the branch target - if(j>i&&f_regmap[HOST_CCREG]==CCREG) + /*else*/ if(1) { - //printf("Extend backwards\n"); - int k; - k=i; - while(regs[k-1].regmap[HOST_CCREG]==-1) { - if(count_free_regs(regs[k-1].regmap)<=minimum_free_regs[k-1]) { - //printf("no free regs for store %x\n",start+(k-1)*4); - break; + if (dops[i].is_ujump) + { + // Unconditional branch + will_dirty_i=0; + wont_dirty_i=0; + //if(ba[i]>start+i*4) { // Disable recursion (for debugging) + for(r=0;r>2].regmap_entry[r]) { + will_dirty_i|=will_dirty[(ba[i]-start)>>2]&(1<>2]&(1<=0) { + will_dirty_i|=((unneeded_reg[(ba[i]-start)>>2]>>branch_regs[i].regmap[r])&1)<>2]>>branch_regs[i].regmap[r])&1)<\n",start+k*4); - while(k<=i) { - regs[k].regmap_entry[HOST_CCREG]=CCREG; - regs[k].regmap[HOST_CCREG]=CCREG; - regmap_pre[k+1][HOST_CCREG]=CCREG; - regs[k+1].wasdirty|=1<start+i*4) // Disable recursion (for debugging) + for(r=0;r>2].regmap_entry[r]) { + will_dirty_i&=will_dirty[(ba[i]-start)>>2]&(1<>2]&(1<=0) { + will_dirty_i&=((unneeded_reg[(ba[i]-start)>>2]>>target_reg)&1)<>2]>>target_reg)&1)<\n",start+k*4); + // Merge in delay slot (won't dirty) + wont_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i].rt1) & 31); + wont_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i].rt2) & 31); + wont_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i+1].rt1) & 31); + wont_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i+1].rt2) & 31); + wont_dirty_i |= 1u << (get_rreg(rregmap_i, CCREG) & 31); + wont_dirty_i |= 1u << (get_rreg(branch_rregmap_i, dops[i].rt1) & 31); + wont_dirty_i |= 1u << (get_rreg(branch_rregmap_i, dops[i].rt2) & 31); + wont_dirty_i |= 1u << (get_rreg(branch_rregmap_i, dops[i+1].rt1) & 31); + wont_dirty_i |= 1u << (get_rreg(branch_rregmap_i, dops[i+1].rt2) & 31); + wont_dirty_i |= 1u << (get_rreg(branch_rregmap_i, CCREG) & 31); + wont_dirty_i &= ~(1u << 31); + if(wr) { + #ifndef DESTRUCTIVE_WRITEBACK + branch_regs[i].dirty&=wont_dirty_i; + #endif + branch_regs[i].dirty|=will_dirty_i; } } } - if(dops[i].itype!=STORE&&dops[i].itype!=STORELR&&dops[i].itype!=C1LS&&dops[i].itype!=SHIFT&& - dops[i].itype!=NOP&&dops[i].itype!=MOV&&dops[i].itype!=ALU&&dops[i].itype!=SHIFTIMM&& - dops[i].itype!=IMM16&&dops[i].itype!=LOAD&&dops[i].itype!=COP1) - { - memcpy(f_regmap,regs[i].regmap,sizeof(f_regmap)); - } } - } - - // This allocates registers (if possible) one instruction prior - // to use, which can avoid a load-use penalty on certain CPUs. - for(i=0;i istart && !dops[i].is_jump) { + // Don't store a register immediately after writing it, + // may prevent dual-issue. + wont_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i-1].rt1) & 31); + wont_dirty_i |= 1u << (get_rreg(rregmap_i, dops[i-1].rt2) & 31); + } + // Save it + will_dirty[i]=will_dirty_i; + wont_dirty[i]=wont_dirty_i; + // Mark registers that won't be dirtied as not dirty + if(wr) { + regs[i].dirty|=will_dirty_i; + #ifndef DESTRUCTIVE_WRITEBACK + regs[i].dirty&=wont_dirty_i; + if(dops[i].is_jump) { - if(dops[i+1].rs1) { - if((hr=get_reg(regs[i+1].regmap,dops[i+1].rs1))>=0) - { - if(regs[i].regmap[hr]<0&®s[i+1].regmap_entry[hr]<0) - { - regs[i].regmap[hr]=regs[i+1].regmap[hr]; - regmap_pre[i+1][hr]=regs[i+1].regmap[hr]; - regs[i+1].regmap_entry[hr]=regs[i+1].regmap[hr]; - regs[i].isconst&=~(1<=0) - { - if(regs[i].regmap[hr]<0&®s[i+1].regmap_entry[hr]<0) - { - regs[i].regmap[hr]=regs[i+1].regmap[hr]; - regmap_pre[i+1][hr]=regs[i+1].regmap[hr]; - regs[i+1].regmap_entry[hr]=regs[i+1].regmap[hr]; - regs[i].isconst&=~(1<=0) - { - if(regs[i].regmap[hr]<0&®s[i+1].regmap_entry[hr]<0) - { - regs[i].regmap[hr]=dops[i+1].rs1; - regmap_pre[i+1][hr]=dops[i+1].rs1; - regs[i+1].regmap_entry[hr]=dops[i+1].rs1; - regs[i].isconst&=~(1<=0) - { - if(regs[i].regmap[hr]<0&®s[i+1].regmap_entry[hr]<0) - { - regs[i].regmap[hr]=dops[i+1].rs1; - regmap_pre[i+1][hr]=dops[i+1].rs1; - regs[i+1].regmap_entry[hr]=dops[i+1].rs1; - regs[i].isconst&=~(1<>r)&1));*/} } } } - // Address for store instruction (non-constant) - if(dops[i+1].itype==STORE||dops[i+1].itype==STORELR - ||(dops[i+1].opcode&0x3b)==0x39||(dops[i+1].opcode&0x3b)==0x3a) { // SB/SH/SW/SD/SWC1/SDC1/SWC2/SDC2 - if(get_reg(regs[i+1].regmap,dops[i+1].rs1)<0) { - hr=get_reg2(regs[i].regmap,regs[i+1].regmap,-1); - if(hr<0) hr=get_reg_temp(regs[i+1].regmap); - else { - regs[i+1].regmap[hr]=AGEN1+((i+1)&1); - regs[i+1].isconst&=~(1<=0); - if(regs[i].regmap[hr]<0&®s[i+1].regmap_entry[hr]<0) - { - regs[i].regmap[hr]=dops[i+1].rs1; - regmap_pre[i+1][hr]=dops[i+1].rs1; - regs[i+1].regmap_entry[hr]=dops[i+1].rs1; - regs[i].isconst&=~(1<>r)&1));*/} } } } - if(dops[i+1].itype==LOADLR||(dops[i+1].opcode&0x3b)==0x31||(dops[i+1].opcode&0x3b)==0x32) { // LWC1/LDC1, LWC2/LDC2 - if(get_reg(regs[i+1].regmap,dops[i+1].rs1)<0) { - int nr; - hr=get_reg(regs[i+1].regmap,FTEMP); - assert(hr>=0); - if(regs[i].regmap[hr]<0&®s[i+1].regmap_entry[hr]<0) - { - regs[i].regmap[hr]=dops[i+1].rs1; - regmap_pre[i+1][hr]=dops[i+1].rs1; - regs[i+1].regmap_entry[hr]=dops[i+1].rs1; - regs[i].isconst&=~(1<=0) - { - // move it to another register - regs[i+1].regmap[hr]=-1; - regmap_pre[i+2][hr]=-1; - regs[i+1].regmap[nr]=FTEMP; - regmap_pre[i+2][nr]=FTEMP; - regs[i].regmap[nr]=dops[i+1].rs1; - regmap_pre[i+1][nr]=dops[i+1].rs1; - regs[i+1].regmap_entry[nr]=dops[i+1].rs1; - regs[i].isconst&=~(1<=0&®s[i].regmap[hr]<0) { - int rs=get_reg(regs[i+1].regmap,dops[i+1].rs1); - if(rs>=0&&((regs[i+1].wasconst>>rs)&1)) { - regs[i].regmap[hr]=AGEN1+((i+1)&1); - regmap_pre[i+1][hr]=AGEN1+((i+1)&1); - regs[i+1].regmap_entry[hr]=AGEN1+((i+1)&1); - regs[i].isconst&=~(1<=0&&(nr=get_rreg(rregmap_i,regmap_pre[i][r]))>=0) { + // Register moved to a different register + will_dirty_i&=~(1<>nr)&1)<>nr)&1)<0 && regmap_pre[i][r]<34) { + will_dirty_i|=((unneeded_reg[i]>>regmap_pre[i][r])&1)<>regmap_pre[i][r])&1)<>r)&1));*/ } } } } } +} + +static noinline void pass10_expire_blocks(void) +{ + int i, end; + end = (((out-ndrc->translation_cache)>>(TARGET_SIZE_2-16)) + 16384) & 65535; + while (expirep != end) + { + int shift=TARGET_SIZE_2-3; // Divide into 8 blocks + uintptr_t base_offs = ((uintptr_t)(expirep >> 13) << shift); // Base offset of this block + uintptr_t base_offs_s = base_offs >> shift; + inv_debug("EXP: Phase %d\n",expirep); + switch((expirep>>11)&3) + { + case 0: + // Clear jump_in and jump_dirty + ll_remove_matching_addrs(jump_in+(expirep&2047),base_offs_s,shift); + ll_remove_matching_addrs(jump_dirty+(expirep&2047),base_offs_s,shift); + ll_remove_matching_addrs(jump_in+2048+(expirep&2047),base_offs_s,shift); + ll_remove_matching_addrs(jump_dirty+2048+(expirep&2047),base_offs_s,shift); + break; + case 1: + // Clear pointers + ll_kill_pointers(jump_out[expirep&2047],base_offs_s,shift); + ll_kill_pointers(jump_out[(expirep&2047)+2048],base_offs_s,shift); + break; + case 2: + // Clear hash table + for(i=0;i<32;i++) { + struct ht_entry *ht_bin = &hash_table[((expirep&2047)<<5)+i]; + uintptr_t o1 = (u_char *)ht_bin->tcaddr[1] - ndrc->translation_cache; + uintptr_t o2 = o1 - MAX_OUTPUT_BLOCK_SIZE; + if ((o1 >> shift) == base_offs_s || (o2 >> shift) == base_offs_s) { + inv_debug("EXP: Remove hash %x -> %p\n",ht_bin->vaddr[1],ht_bin->tcaddr[1]); + ht_bin->vaddr[1] = -1; + ht_bin->tcaddr[1] = NULL; + } + o1 = (u_char *)ht_bin->tcaddr[0] - ndrc->translation_cache; + o2 = o1 - MAX_OUTPUT_BLOCK_SIZE; + if ((o1 >> shift) == base_offs_s || (o2 >> shift) == base_offs_s) { + inv_debug("EXP: Remove hash %x -> %p\n",ht_bin->vaddr[0],ht_bin->tcaddr[0]); + ht_bin->vaddr[0] = ht_bin->vaddr[1]; + ht_bin->tcaddr[0] = ht_bin->tcaddr[1]; + ht_bin->vaddr[1] = -1; + ht_bin->tcaddr[1] = NULL; + } + } + break; + case 3: + // Clear jump_out + if((expirep&2047)==0) + do_clear_cache(); + ll_remove_matching_addrs(jump_out+(expirep&2047),base_offs_s,shift); + ll_remove_matching_addrs(jump_out+2048+(expirep&2047),base_offs_s,shift); + break; + } + expirep=(expirep+1)&65535; + } +} + +int new_recompile_block(u_int addr) +{ + u_int pagelimit = 0; + u_int state_rflags = 0; + int i; + + assem_debug("NOTCOMPILED: addr = %x -> %p\n", addr, out); + + // this is just for speculation + for (i = 1; i < 32; i++) { + if ((psxRegs.GPR.r[i] & 0xffff0000) == 0x1f800000) + state_rflags |= 1 << i; + } + + start = (u_int)addr&~3; + //assert(((u_int)addr&1)==0); // start-in-delay-slot flag + new_dynarec_did_compile=1; + if (Config.HLE && start == 0x80001000) // hlecall + { + // XXX: is this enough? Maybe check hleSoftCall? + void *beginning=start_block(); + u_int page=get_page(start); + + invalid_code[start>>12]=0; + emit_movimm(start,0); + emit_writeword(0,&pcaddr); + emit_far_jump(new_dyna_leave); + literal_pool(0); + end_block(beginning); + ll_add_flags(jump_in+page,start,state_rflags,(void *)beginning); + return 0; + } + else if (f1_hack && hack_addr == 0) { + void *beginning = start_block(); + u_int page = get_page(start); + emit_movimm(start, 0); + emit_writeword(0, &hack_addr); + emit_readword(&psxRegs.GPR.n.sp, 0); + emit_readptr(&mem_rtab, 1); + emit_shrimm(0, 12, 2); + emit_readptr_dualindexedx_ptrlen(1, 2, 1); + emit_addimm(0, 0x18, 0); + emit_adds_ptr(1, 1, 1); + emit_ldr_dualindexed(1, 0, 0); + emit_writeword(0, &psxRegs.GPR.r[26]); // lw k0, 0x18(sp) + emit_far_call(get_addr_ht); + emit_jmpreg(0); // jr k0 + literal_pool(0); + end_block(beginning); + + ll_add_flags(jump_in + page, start, state_rflags, beginning); + SysPrintf("F1 hack to %08x\n", start); + return 0; + } + + cycle_multiplier_active = cycle_multiplier_override && cycle_multiplier == CYCLE_MULT_DEFAULT + ? cycle_multiplier_override : cycle_multiplier; + + source = get_source_start(start, &pagelimit); + if (source == NULL) { + if (addr != hack_addr) { + SysPrintf("Compile at bogus memory address: %08x\n", addr); + hack_addr = addr; + } + //abort(); + return -1; + } + + /* Pass 1: disassemble */ + /* Pass 2: register dependencies, branch targets */ + /* Pass 3: register allocation */ + /* Pass 4: branch dependencies */ + /* Pass 5: pre-alloc */ + /* Pass 6: optimize clean/dirty state */ + /* Pass 7: flag 32-bit registers */ + /* Pass 8: assembly */ + /* Pass 9: linker */ + /* Pass 10: garbage collection / free memory */ + + /* Pass 1 disassembly */ + + pass1_disassemble(pagelimit); + + int clear_hack_addr = apply_hacks(); + + /* Pass 2 - Register dependencies and branch targets */ + + pass2_unneeded_regs(0,slen-1,0); + + /* Pass 3 - Register allocation */ + + pass3_register_alloc(addr); + + /* Pass 4 - Cull unused host registers */ + + pass4_cull_unused_regs(); + + /* Pass 5 - Pre-allocate registers */ + + pass5a_preallocate1(); + pass5b_preallocate2(); /* Pass 6 - Optimize clean/dirty state */ - clean_registers(0,slen-1,1); + pass6_clean_registers(0, slen-1, 1); /* Pass 7 - Identify 32-bit registers */ for (i=slen-1;i>=0;i--) @@ -9087,145 +9168,12 @@ int new_recompile_block(u_int addr) dops[slen-1].bt=1; // Mark as a branch target so instruction can restart after exception } -#ifdef REG_ALLOC_PRINT - /* Debug/disassembly */ - for(i=0;i>r)&1) { - if(r==HIREG) printf(" HI"); - else if(r==LOREG) printf(" LO"); - else printf(" r%d",r); - } - } - printf("\n"); - #if defined(__i386__) || defined(__x86_64__) - printf("pre: eax=%d ecx=%d edx=%d ebx=%d ebp=%d esi=%d edi=%d\n",regmap_pre[i][0],regmap_pre[i][1],regmap_pre[i][2],regmap_pre[i][3],regmap_pre[i][5],regmap_pre[i][6],regmap_pre[i][7]); - #endif - #ifdef __arm__ - printf("pre: r0=%d r1=%d r2=%d r3=%d r4=%d r5=%d r6=%d r7=%d r8=%d r9=%d r10=%d r12=%d\n",regmap_pre[i][0],regmap_pre[i][1],regmap_pre[i][2],regmap_pre[i][3],regmap_pre[i][4],regmap_pre[i][5],regmap_pre[i][6],regmap_pre[i][7],regmap_pre[i][8],regmap_pre[i][9],regmap_pre[i][10],regmap_pre[i][12]); - #endif - #if defined(__i386__) || defined(__x86_64__) - printf("needs: "); - if(needed_reg[i]&1) printf("eax "); - if((needed_reg[i]>>1)&1) printf("ecx "); - if((needed_reg[i]>>2)&1) printf("edx "); - if((needed_reg[i]>>3)&1) printf("ebx "); - if((needed_reg[i]>>5)&1) printf("ebp "); - if((needed_reg[i]>>6)&1) printf("esi "); - if((needed_reg[i]>>7)&1) printf("edi "); - printf("\n"); - printf("entry: eax=%d ecx=%d edx=%d ebx=%d ebp=%d esi=%d edi=%d\n",regs[i].regmap_entry[0],regs[i].regmap_entry[1],regs[i].regmap_entry[2],regs[i].regmap_entry[3],regs[i].regmap_entry[5],regs[i].regmap_entry[6],regs[i].regmap_entry[7]); - printf("dirty: "); - if(regs[i].wasdirty&1) printf("eax "); - if((regs[i].wasdirty>>1)&1) printf("ecx "); - if((regs[i].wasdirty>>2)&1) printf("edx "); - if((regs[i].wasdirty>>3)&1) printf("ebx "); - if((regs[i].wasdirty>>5)&1) printf("ebp "); - if((regs[i].wasdirty>>6)&1) printf("esi "); - if((regs[i].wasdirty>>7)&1) printf("edi "); - #endif - #ifdef __arm__ - printf("entry: r0=%d r1=%d r2=%d r3=%d r4=%d r5=%d r6=%d r7=%d r8=%d r9=%d r10=%d r12=%d\n",regs[i].regmap_entry[0],regs[i].regmap_entry[1],regs[i].regmap_entry[2],regs[i].regmap_entry[3],regs[i].regmap_entry[4],regs[i].regmap_entry[5],regs[i].regmap_entry[6],regs[i].regmap_entry[7],regs[i].regmap_entry[8],regs[i].regmap_entry[9],regs[i].regmap_entry[10],regs[i].regmap_entry[12]); - printf("dirty: "); - if(regs[i].wasdirty&1) printf("r0 "); - if((regs[i].wasdirty>>1)&1) printf("r1 "); - if((regs[i].wasdirty>>2)&1) printf("r2 "); - if((regs[i].wasdirty>>3)&1) printf("r3 "); - if((regs[i].wasdirty>>4)&1) printf("r4 "); - if((regs[i].wasdirty>>5)&1) printf("r5 "); - if((regs[i].wasdirty>>6)&1) printf("r6 "); - if((regs[i].wasdirty>>7)&1) printf("r7 "); - if((regs[i].wasdirty>>8)&1) printf("r8 "); - if((regs[i].wasdirty>>9)&1) printf("r9 "); - if((regs[i].wasdirty>>10)&1) printf("r10 "); - if((regs[i].wasdirty>>12)&1) printf("r12 "); - #endif - printf("\n"); - disassemble_inst(i); - //printf ("ccadj[%d] = %d\n",i,ccadj[i]); - #if defined(__i386__) || defined(__x86_64__) - printf("eax=%d ecx=%d edx=%d ebx=%d ebp=%d esi=%d edi=%d dirty: ",regs[i].regmap[0],regs[i].regmap[1],regs[i].regmap[2],regs[i].regmap[3],regs[i].regmap[5],regs[i].regmap[6],regs[i].regmap[7]); - if(regs[i].dirty&1) printf("eax "); - if((regs[i].dirty>>1)&1) printf("ecx "); - if((regs[i].dirty>>2)&1) printf("edx "); - if((regs[i].dirty>>3)&1) printf("ebx "); - if((regs[i].dirty>>5)&1) printf("ebp "); - if((regs[i].dirty>>6)&1) printf("esi "); - if((regs[i].dirty>>7)&1) printf("edi "); - #endif - #ifdef __arm__ - printf("r0=%d r1=%d r2=%d r3=%d r4=%d r5=%d r6=%d r7=%d r8=%d r9=%d r10=%d r12=%d dirty: ",regs[i].regmap[0],regs[i].regmap[1],regs[i].regmap[2],regs[i].regmap[3],regs[i].regmap[4],regs[i].regmap[5],regs[i].regmap[6],regs[i].regmap[7],regs[i].regmap[8],regs[i].regmap[9],regs[i].regmap[10],regs[i].regmap[12]); - if(regs[i].dirty&1) printf("r0 "); - if((regs[i].dirty>>1)&1) printf("r1 "); - if((regs[i].dirty>>2)&1) printf("r2 "); - if((regs[i].dirty>>3)&1) printf("r3 "); - if((regs[i].dirty>>4)&1) printf("r4 "); - if((regs[i].dirty>>5)&1) printf("r5 "); - if((regs[i].dirty>>6)&1) printf("r6 "); - if((regs[i].dirty>>7)&1) printf("r7 "); - if((regs[i].dirty>>8)&1) printf("r8 "); - if((regs[i].dirty>>9)&1) printf("r9 "); - if((regs[i].dirty>>10)&1) printf("r10 "); - if((regs[i].dirty>>12)&1) printf("r12 "); - #endif - printf("\n"); - if(regs[i].isconst) { - printf("constants: "); - #if defined(__i386__) || defined(__x86_64__) - if(regs[i].isconst&1) printf("eax=%x ",(u_int)constmap[i][0]); - if((regs[i].isconst>>1)&1) printf("ecx=%x ",(u_int)constmap[i][1]); - if((regs[i].isconst>>2)&1) printf("edx=%x ",(u_int)constmap[i][2]); - if((regs[i].isconst>>3)&1) printf("ebx=%x ",(u_int)constmap[i][3]); - if((regs[i].isconst>>5)&1) printf("ebp=%x ",(u_int)constmap[i][5]); - if((regs[i].isconst>>6)&1) printf("esi=%x ",(u_int)constmap[i][6]); - if((regs[i].isconst>>7)&1) printf("edi=%x ",(u_int)constmap[i][7]); - #endif - #if defined(__arm__) || defined(__aarch64__) - int r; - for (r = 0; r < ARRAY_SIZE(constmap[i]); r++) - if ((regs[i].isconst >> r) & 1) - printf(" r%d=%x", r, (u_int)constmap[i][r]); - #endif - printf("\n"); - } - if(dops[i].is_jump) { - #if defined(__i386__) || defined(__x86_64__) - printf("branch(%d): eax=%d ecx=%d edx=%d ebx=%d ebp=%d esi=%d edi=%d dirty: ",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]); - if(branch_regs[i].dirty&1) printf("eax "); - if((branch_regs[i].dirty>>1)&1) printf("ecx "); - if((branch_regs[i].dirty>>2)&1) printf("edx "); - if((branch_regs[i].dirty>>3)&1) printf("ebx "); - if((branch_regs[i].dirty>>5)&1) printf("ebp "); - if((branch_regs[i].dirty>>6)&1) printf("esi "); - if((branch_regs[i].dirty>>7)&1) printf("edi "); - #endif - #ifdef __arm__ - printf("branch(%d): r0=%d r1=%d r2=%d r3=%d r4=%d r5=%d r6=%d r7=%d r8=%d r9=%d r10=%d r12=%d dirty: ",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[4],branch_regs[i].regmap[5],branch_regs[i].regmap[6],branch_regs[i].regmap[7],branch_regs[i].regmap[8],branch_regs[i].regmap[9],branch_regs[i].regmap[10],branch_regs[i].regmap[12]); - if(branch_regs[i].dirty&1) printf("r0 "); - if((branch_regs[i].dirty>>1)&1) printf("r1 "); - if((branch_regs[i].dirty>>2)&1) printf("r2 "); - if((branch_regs[i].dirty>>3)&1) printf("r3 "); - if((branch_regs[i].dirty>>4)&1) printf("r4 "); - if((branch_regs[i].dirty>>5)&1) printf("r5 "); - if((branch_regs[i].dirty>>6)&1) printf("r6 "); - if((branch_regs[i].dirty>>7)&1) printf("r7 "); - if((branch_regs[i].dirty>>8)&1) printf("r8 "); - if((branch_regs[i].dirty>>9)&1) printf("r9 "); - if((branch_regs[i].dirty>>10)&1) printf("r10 "); - if((branch_regs[i].dirty>>12)&1) printf("r12 "); - #endif - } - } -#endif // REG_ALLOC_PRINT - /* Pass 8 - Assembly */ linkcount=0;stubcount=0; - ds=0;is_delayslot=0; + is_delayslot=0; u_int dirty_pre=0; void *beginning=start_block(); + int ds = 0; if((u_int)addr&1) { ds=1; pagespan_ds(); @@ -9508,59 +9456,8 @@ int new_recompile_block(u_int addr) /* Pass 10 - Free memory by expiring oldest blocks */ - int end=(((out-ndrc->translation_cache)>>(TARGET_SIZE_2-16))+16384)&65535; - while(expirep!=end) - { - int shift=TARGET_SIZE_2-3; // Divide into 8 blocks - uintptr_t base_offs = ((uintptr_t)(expirep >> 13) << shift); // Base offset of this block - uintptr_t base_offs_s = base_offs >> shift; - inv_debug("EXP: Phase %d\n",expirep); - switch((expirep>>11)&3) - { - case 0: - // Clear jump_in and jump_dirty - ll_remove_matching_addrs(jump_in+(expirep&2047),base_offs_s,shift); - ll_remove_matching_addrs(jump_dirty+(expirep&2047),base_offs_s,shift); - ll_remove_matching_addrs(jump_in+2048+(expirep&2047),base_offs_s,shift); - ll_remove_matching_addrs(jump_dirty+2048+(expirep&2047),base_offs_s,shift); - break; - case 1: - // Clear pointers - ll_kill_pointers(jump_out[expirep&2047],base_offs_s,shift); - ll_kill_pointers(jump_out[(expirep&2047)+2048],base_offs_s,shift); - break; - case 2: - // Clear hash table - for(i=0;i<32;i++) { - struct ht_entry *ht_bin = &hash_table[((expirep&2047)<<5)+i]; - uintptr_t o1 = (u_char *)ht_bin->tcaddr[1] - ndrc->translation_cache; - uintptr_t o2 = o1 - MAX_OUTPUT_BLOCK_SIZE; - if ((o1 >> shift) == base_offs_s || (o2 >> shift) == base_offs_s) { - inv_debug("EXP: Remove hash %x -> %p\n",ht_bin->vaddr[1],ht_bin->tcaddr[1]); - ht_bin->vaddr[1] = -1; - ht_bin->tcaddr[1] = NULL; - } - o1 = (u_char *)ht_bin->tcaddr[0] - ndrc->translation_cache; - o2 = o1 - MAX_OUTPUT_BLOCK_SIZE; - if ((o1 >> shift) == base_offs_s || (o2 >> shift) == base_offs_s) { - inv_debug("EXP: Remove hash %x -> %p\n",ht_bin->vaddr[0],ht_bin->tcaddr[0]); - ht_bin->vaddr[0] = ht_bin->vaddr[1]; - ht_bin->tcaddr[0] = ht_bin->tcaddr[1]; - ht_bin->vaddr[1] = -1; - ht_bin->tcaddr[1] = NULL; - } - } - break; - case 3: - // Clear jump_out - if((expirep&2047)==0) - do_clear_cache(); - ll_remove_matching_addrs(jump_out+(expirep&2047),base_offs_s,shift); - ll_remove_matching_addrs(jump_out+2048+(expirep&2047),base_offs_s,shift); - break; - } - expirep=(expirep+1)&65535; - } + pass10_expire_blocks(); + #ifdef ASSEM_PRINT fflush(stdout); #endif