X-Git-Url: https://notaz.gp2x.de/cgi-bin/gitweb.cgi?p=pcsx_rearmed.git;a=blobdiff_plain;f=libpcsxcore%2Fnew_dynarec%2Fnew_dynarec.c;h=e0cff62ca622b1b5b04dd942626a76e89d4ab5f0;hp=a64cec6f0a2de5dc0f5b41e85823f4e1f7770daf;hb=e3c6bdb5e46f72f063bb7f588da6588ac1893b17;hpb=1a4301c419a84729d34f8a2f96112097d80f716c diff --git a/libpcsxcore/new_dynarec/new_dynarec.c b/libpcsxcore/new_dynarec/new_dynarec.c index a64cec6f..e0cff62c 100644 --- a/libpcsxcore/new_dynarec/new_dynarec.c +++ b/libpcsxcore/new_dynarec/new_dynarec.c @@ -35,12 +35,18 @@ static int sceBlock; #endif #include "new_dynarec_config.h" -#include "../psxhle.h" //emulator interface -#include "emu_if.h" //emulator interface +#include "../psxhle.h" +#include "../psxinterpreter.h" +#include "../gte.h" +#include "emu_if.h" // emulator interface +#define noinline __attribute__((noinline,noclone)) #ifndef ARRAY_SIZE #define ARRAY_SIZE(x) (sizeof(x) / sizeof(x[0])) #endif +#ifndef min +#define min(a, b) ((b) < (a) ? (b) : (a)) +#endif //#define DISASM //#define assem_debug printf @@ -57,10 +63,31 @@ static int sceBlock; #ifdef __arm__ #include "assem_arm.h" #endif +#ifdef __aarch64__ +#include "assem_arm64.h" +#endif +#define RAM_SIZE 0x200000 #define MAXBLOCK 4096 #define MAX_OUTPUT_BLOCK_SIZE 262144 +struct ndrc_mem +{ + u_char translation_cache[1 << TARGET_SIZE_2]; + struct + { + struct tramp_insns ops[2048 / sizeof(struct tramp_insns)]; + const void *f[2048 / sizeof(void *)]; + } tramp; +}; + +#ifdef BASE_ADDR_DYNAMIC +static struct ndrc_mem *ndrc; +#else +static struct ndrc_mem ndrc_ __attribute__((aligned(4096))); +static struct ndrc_mem *ndrc = &ndrc_; +#endif + // stubs enum stub_type { CC_STUB = 1, @@ -83,12 +110,9 @@ struct regstat { signed char regmap_entry[HOST_REGS]; signed char regmap[HOST_REGS]; - uint64_t was32; - uint64_t is32; uint64_t wasdirty; uint64_t dirty; uint64_t u; - uint64_t uu; u_int wasconst; u_int isconst; u_int loadedconst; // host regs that have constants loaded @@ -122,6 +146,13 @@ struct code_stub u_int e; }; +struct link_entry +{ + void *addr; + u_int target; + u_int ext; +}; + // used by asm: u_char *out; struct ht_entry hash_table[65536] __attribute__((aligned(16))); @@ -140,8 +171,6 @@ struct code_stub static u_char rs2[MAXBLOCK]; static u_char rt1[MAXBLOCK]; static u_char rt2[MAXBLOCK]; - static u_char us1[MAXBLOCK]; - static u_char us2[MAXBLOCK]; static u_char dep1[MAXBLOCK]; static u_char dep2[MAXBLOCK]; static u_char lt1[MAXBLOCK]; @@ -159,12 +188,12 @@ struct code_stub static char is_ds[MAXBLOCK]; static char ooo[MAXBLOCK]; static uint64_t unneeded_reg[MAXBLOCK]; - static uint64_t unneeded_reg_upper[MAXBLOCK]; static uint64_t branch_unneeded_reg[MAXBLOCK]; - static uint64_t branch_unneeded_reg_upper[MAXBLOCK]; - static signed char regmap_pre[MAXBLOCK][HOST_REGS]; - static uint64_t current_constmap[HOST_REGS]; - static uint64_t constmap[MAXBLOCK][HOST_REGS]; + static signed char regmap_pre[MAXBLOCK][HOST_REGS]; // pre-instruction i? + // contains 'real' consts at [i] insn, but may differ from what's actually + // loaded in host reg as 'final' value is always loaded, see get_final_value() + static uint32_t current_constmap[HOST_REGS]; + static uint32_t constmap[MAXBLOCK][HOST_REGS]; static struct regstat regs[MAXBLOCK]; static struct regstat branch_regs[MAXBLOCK]; static signed char minimum_free_regs[MAXBLOCK]; @@ -174,39 +203,47 @@ struct code_stub static int ccadj[MAXBLOCK]; static int slen; static void *instr_addr[MAXBLOCK]; - static u_int link_addr[MAXBLOCK][3]; + static struct link_entry link_addr[MAXBLOCK]; static int linkcount; static struct code_stub stubs[MAXBLOCK*3]; static int stubcount; static u_int literals[1024][2]; static int literalcount; static int is_delayslot; - static int cop1_usable; static char shadow[1048576] __attribute__((aligned(16))); static void *copy; static int expirep; static u_int stop_after_jal; #ifndef RAM_FIXED - static u_int ram_offset; + static uintptr_t ram_offset; #else - static const u_int ram_offset=0; + static const uintptr_t ram_offset=0; #endif int new_dynarec_hacks; + int new_dynarec_hacks_pergame; int new_dynarec_did_compile; + + #define HACK_ENABLED(x) ((new_dynarec_hacks | new_dynarec_hacks_pergame) & (x)) + + extern int cycle_count; // ... until end of the timeslice, counts -N -> 0 + extern int last_count; // last absolute target, often = next_interupt + extern int pcaddr; + extern int pending_exception; + extern int branch_target; + extern uintptr_t mini_ht[32][2]; extern u_char restore_candidate[512]; - extern int cycle_count; /* registers that may be allocated */ /* 1-31 gpr */ -#define HIREG 32 // hi -#define LOREG 33 // lo -#define FSREG 34 // FPU status (FCSR) +#define LOREG 32 // lo +#define HIREG 33 // hi +//#define FSREG 34 // FPU status (FCSR) #define CSREG 35 // Coprocessor status #define CCREG 36 // Cycle count #define INVCP 37 // Pointer to invalid_code //#define MMREG 38 // Pointer to memory_map -#define ROREG 39 // ram offset (if rdram!=0x80000000) +//#define ROREG 39 // ram offset (if rdram!=0x80000000) #define TEMPREG 40 #define FTEMP 40 // FPU temporary register #define PTEMP 41 // Prefetch temporary register @@ -240,10 +277,10 @@ struct code_stub #define COP0 15 // Coprocessor 0 #define COP1 16 // Coprocessor 1 #define C1LS 17 // Coprocessor 1 load/store -#define FJUMP 18 // Conditional branch (floating point) -#define FLOAT 19 // Floating point unit -#define FCONV 20 // Convert integer to float -#define FCOMP 21 // Floating point compare (sets FSREG) +//#define FJUMP 18 // Conditional branch (floating point) +//#define FLOAT 19 // Floating point unit +//#define FCONV 20 // Convert integer to float +//#define FCOMP 21 // Floating point compare (sets FSREG) #define SYSCALL 22// SYSCALL #define OTHER 23 // Other #define SPAN 24 // Branch/delay slot spans 2 pages @@ -259,8 +296,11 @@ struct code_stub #define NOTTAKEN 2 #define NULLDS 3 +#define DJT_1 (void *)1l // no function, just a label in assem_debug log +#define DJT_2 (void *)2l + // asm linkage -int new_recompile_block(int addr); +int new_recompile_block(u_int addr); void *get_addr_ht(u_int vaddr); void invalidate_block(u_int block); void invalidate_addr(u_int addr); @@ -268,34 +308,38 @@ void remove_hash(int vaddr); void dyna_linker(); void dyna_linker_ds(); void verify_code(); -void verify_code_vm(); void verify_code_ds(); void cc_interrupt(); void fp_exception(); void fp_exception_ds(); -void jump_syscall_hle(); -void jump_hlecall(); -void jump_intcall(); +void jump_to_new_pc(); +void call_gteStall(); void new_dyna_leave(); // Needed by assembler -static void wb_register(signed char r,signed char regmap[],uint64_t dirty,uint64_t is32); -static void wb_dirtys(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty); -static void wb_needed_dirtys(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty,int addr); +static void wb_register(signed char r,signed char regmap[],uint64_t dirty); +static void wb_dirtys(signed char i_regmap[],uint64_t i_dirty); +static void wb_needed_dirtys(signed char i_regmap[],uint64_t i_dirty,int addr); static void load_all_regs(signed char i_regmap[]); static void load_needed_regs(signed char i_regmap[],signed char next_regmap[]); static void load_regs_entry(int t); -static void load_all_consts(signed char regmap[],int is32,u_int dirty,int i); +static void load_all_consts(signed char regmap[],u_int dirty,int i); +static u_int get_host_reglist(const signed char *regmap); -static int verify_dirty(u_int *ptr); +static int verify_dirty(const u_int *ptr); static int get_final_value(int hr, int i, int *value); static void add_stub(enum stub_type type, void *addr, void *retaddr, u_int a, uintptr_t b, uintptr_t c, u_int d, u_int e); static void add_stub_r(enum stub_type type, void *addr, void *retaddr, - int i, int addr_reg, struct regstat *i_regs, int ccadj, u_int reglist); -static void add_to_linker(int addr,int target,int ext); - -static int tracedebug=0; + int i, int addr_reg, const struct regstat *i_regs, int ccadj, u_int reglist); +static void add_to_linker(void *addr, u_int target, int ext); +static void *emit_fastpath_cmp_jump(int i,int addr,int *addr_reg_override); +static void *get_direct_memhandler(void *table, u_int addr, + enum stub_type type, uintptr_t *addr_host); +static void cop2_call_stall_check(u_int op, int i, const struct regstat *i_regs, u_int reglist); +static void pass_args(int a0, int a1); +static void emit_far_jump(const void *f); +static void emit_far_call(const void *f); static void mprotect_w_x(void *start, void *end, int is_x) { @@ -324,7 +368,7 @@ static void start_tcache_write(void *start, void *end) static void end_tcache_write(void *start, void *end) { -#ifdef __arm__ +#if defined(__arm__) || defined(__aarch64__) size_t len = (char *)end - (char *)start; #if defined(__BLACKBERRY_QNX__) msync(start, len, MS_SYNC | MS_CACHE_ONLY | MS_INVALIDATE_ICACHE); @@ -334,6 +378,10 @@ static void end_tcache_write(void *start, void *end) sceKernelSyncVMDomain(sceBlock, start, len); #elif defined(_3DS) ctr_flush_invalidate_cache(); + #elif defined(__aarch64__) + // as of 2021, __clear_cache() is still broken on arm64 + // so here is a custom one :( + clear_cache_arm64(start, end); #else __clear_cache(start, end); #endif @@ -346,8 +394,8 @@ static void end_tcache_write(void *start, void *end) static void *start_block(void) { u_char *end = out + MAX_OUTPUT_BLOCK_SIZE; - if (end > (u_char *)BASE_ADDR + (1< ndrc->translation_cache + sizeof(ndrc->translation_cache)) + end = ndrc->translation_cache + sizeof(ndrc->translation_cache); start_tcache_write(out, end); return out; } @@ -357,16 +405,74 @@ static void end_block(void *start) end_tcache_write(start, out); } +// also takes care of w^x mappings when patching code +static u_int needs_clear_cache[1<<(TARGET_SIZE_2-17)]; + +static void mark_clear_cache(void *target) +{ + uintptr_t offset = (u_char *)target - ndrc->translation_cache; + u_int mask = 1u << ((offset >> 12) & 31); + if (!(needs_clear_cache[offset >> 17] & mask)) { + char *start = (char *)((uintptr_t)target & ~4095l); + start_tcache_write(start, start + 4095); + needs_clear_cache[offset >> 17] |= mask; + } +} + +// Clearing the cache is rather slow on ARM Linux, so mark the areas +// that need to be cleared, and then only clear these areas once. +static void do_clear_cache(void) +{ + int i, j; + for (i = 0; i < (1<<(TARGET_SIZE_2-17)); i++) + { + u_int bitmap = needs_clear_cache[i]; + if (!bitmap) + continue; + for (j = 0; j < 32; j++) + { + u_char *start, *end; + if (!(bitmap & (1<translation_cache + i*131072 + j*4096; + end = start + 4095; + for (j++; j < 32; j++) { + if (!(bitmap & (1<>31)|1; - return (x * cycle_multiplier + s * 50) / 100; + return (x * m + s * 50) / 100; +} + +// is the op an unconditional jump? +static int is_ujump(int i) +{ + return itype[i] == UJUMP || itype[i] == RJUMP + || (source[i] >> 16) == 0x1000; // beq r0, r0, offset // b offset +} + +static int is_jump(int i) +{ + return itype[i] == RJUMP || itype[i] == UJUMP || itype[i] == CJUMP || itype[i] == SJUMP; } static u_int get_page(u_int vaddr) @@ -407,7 +513,7 @@ static int doesnt_expire_soon(void *tcaddr) // Get address from virtual address // This is called from the recompiled JR/JALR instructions -void *get_addr(u_int vaddr) +void noinline *get_addr(u_int vaddr) { u_int page=get_page(vaddr); u_int vpage=get_vpage(vaddr); @@ -416,7 +522,7 @@ void *get_addr(u_int vaddr) head=jump_in[page]; while(head!=NULL) { if(head->vaddr==vaddr) { - //printf("TRACE: count=%d next=%d (get_addr match %x: %x)\n",Count,next_interupt,vaddr,(int)head->addr); + //printf("TRACE: count=%d next=%d (get_addr match %x: %p)\n",Count,next_interupt,vaddr,head->addr); hash_table_add(hash_table_get(vaddr), vaddr, head->addr); return head->addr; } @@ -425,7 +531,7 @@ void *get_addr(u_int vaddr) head=jump_dirty[vpage]; while(head!=NULL) { if(head->vaddr==vaddr) { - //printf("TRACE: count=%d next=%d (get_addr match dirty %x: %x)\n",Count,next_interupt,vaddr,(int)head->addr); + //printf("TRACE: count=%d next=%d (get_addr match dirty %x: %p)\n",Count,next_interupt,vaddr,head->addr); // Don't restore blocks which are about to expire from the cache if (doesnt_expire_soon(head->addr)) if (verify_dirty(head->addr)) { @@ -475,7 +581,7 @@ void clear_all_regs(signed char regmap[]) for (hr=0;hrdirty>>hr)&1) { - reg=cur->regmap[hr]; - if(reg>=64) - if((cur->is32>>(reg&63))&1) cur->regmap[hr]=-1; - } - } -} - -void set_const(struct regstat *cur,signed char reg,uint64_t value) +static void set_const(struct regstat *cur, signed char reg, uint32_t value) { int hr; if(!reg) return; @@ -540,14 +629,10 @@ void set_const(struct regstat *cur,signed char reg,uint64_t value) cur->isconst|=1<regmap[hr]^64)==reg) { - cur->isconst|=1<>32; - } } } -void clear_const(struct regstat *cur,signed char reg) +static void clear_const(struct regstat *cur, signed char reg) { int hr; if(!reg) return; @@ -558,7 +643,7 @@ void clear_const(struct regstat *cur,signed char reg) } } -int is_const(struct regstat *cur,signed char reg) +static int is_const(struct regstat *cur, signed char reg) { int hr; if(reg<0) return 0; @@ -570,7 +655,8 @@ int is_const(struct regstat *cur,signed char reg) } return 0; } -uint64_t get_const(struct regstat *cur,signed char reg) + +static uint32_t get_const(struct regstat *cur, signed char reg) { int hr; if(!reg) return 0; @@ -580,7 +666,7 @@ uint64_t get_const(struct regstat *cur,signed char reg) } } SysPrintf("Unknown constant in r%d\n",reg); - exit(1); + abort(); } // Least soon needed registers @@ -596,7 +682,7 @@ void lsn(u_char hsn[], int i, int *preferred_reg) j=slen-i-1; break; } - if(itype[i+j]==UJUMP||itype[i+j]==RJUMP||(source[i+j]>>16)==0x1000) + if (is_ujump(i+j)) { // Don't go past an unconditonal jump j++; @@ -620,7 +706,7 @@ void lsn(u_char hsn[], int i, int *preferred_reg) hsn[INVCP]=j; } #endif - if(i+j>=0&&(itype[i+j]==UJUMP||itype[i+j]==CJUMP||itype[i+j]==SJUMP||itype[i+j]==FJUMP)) + if(i+j>=0&&(itype[i+j]==UJUMP||itype[i+j]==CJUMP||itype[i+j]==SJUMP)) { hsn[CCREG]=j; b=j; @@ -644,7 +730,7 @@ void lsn(u_char hsn[], int i, int *preferred_reg) // TODO: preferred register based on backward branch } // Delay slot should preferably not overwrite branch conditions or cycle count - if(i>0&&(itype[i-1]==RJUMP||itype[i-1]==UJUMP||itype[i-1]==CJUMP||itype[i-1]==SJUMP||itype[i-1]==FJUMP)) { + if (i > 0 && is_jump(i-1)) { if(rs1[i-1]) if(hsn[rs1[i-1]]>1) hsn[rs1[i-1]]=1; if(rs2[i-1]) if(hsn[rs2[i-1]]>1) hsn[rs2[i-1]]=1; hsn[CCREG]=1; @@ -679,7 +765,7 @@ int needed_again(int r, int i) int b=-1; int rn=10; - if(i>0&&(itype[i-1]==UJUMP||itype[i-1]==RJUMP||(source[i-1]>>16)==0x1000)) + if (i > 0 && is_ujump(i-1)) { if(ba[i-1]start+slen*4-4) return 0; // Don't need any registers if exiting the block @@ -690,7 +776,7 @@ int needed_again(int r, int i) j=slen-i-1; break; } - if(itype[i+j]==UJUMP||itype[i+j]==RJUMP||(source[i+j]>>16)==0x1000) + if (is_ujump(i+j)) { // Don't go past an unconditonal jump j++; @@ -706,7 +792,7 @@ int needed_again(int r, int i) if(rs1[i+j]==r) rn=j; if(rs2[i+j]==r) rn=j; if((unneeded_reg[i+j]>>r)&1) rn=10; - if(i+j>=0&&(itype[i+j]==UJUMP||itype[i+j]==CJUMP||itype[i+j]==SJUMP||itype[i+j]==FJUMP)) + if(i+j>=0&&(itype[i+j]==UJUMP||itype[i+j]==CJUMP||itype[i+j]==SJUMP)) { b=j; } @@ -746,7 +832,7 @@ int loop_reg(int i, int r, int hr) j=slen-i-1; break; } - if(itype[i+j]==UJUMP||itype[i+j]==RJUMP||(source[i+j]>>16)==0x1000) + if (is_ujump(i+j)) { // Don't go past an unconditonal jump j++; @@ -755,14 +841,14 @@ int loop_reg(int i, int r, int hr) } k=0; if(i>0){ - if(itype[i-1]==UJUMP||itype[i-1]==CJUMP||itype[i-1]==SJUMP||itype[i-1]==FJUMP) + if(itype[i-1]==UJUMP||itype[i-1]==CJUMP||itype[i-1]==SJUMP) k--; } for(;k>r)&1)) return hr; - if(r>64&&((unneeded_reg_upper[i+k]>>r)&1)) return hr; - if(i+k>=0&&(itype[i+k]==UJUMP||itype[i+k]==CJUMP||itype[i+k]==SJUMP||itype[i+k]==FJUMP)) + assert(r < 64); + if((unneeded_reg[i+k]>>r)&1) return hr; + if(i+k>=0&&(itype[i+k]==UJUMP||itype[i+k]==CJUMP||itype[i+k]==SJUMP)) { if(ba[i+k]>=start && ba[i+k]<(start+i*4)) { @@ -801,6 +887,66 @@ void alloc_all(struct regstat *cur,int i) } } +#ifndef NDEBUG +static int host_tempreg_in_use; + +static void host_tempreg_acquire(void) +{ + assert(!host_tempreg_in_use); + host_tempreg_in_use = 1; +} + +static void host_tempreg_release(void) +{ + host_tempreg_in_use = 0; +} +#else +static void host_tempreg_acquire(void) {} +static void host_tempreg_release(void) {} +#endif + +#ifdef DRC_DBG +extern void gen_interupt(); +extern void do_insn_cmp(); +#define FUNCNAME(f) { f, " " #f } +static const struct { + void *addr; + const char *name; +} function_names[] = { + FUNCNAME(cc_interrupt), + FUNCNAME(gen_interupt), + FUNCNAME(get_addr_ht), + FUNCNAME(get_addr), + FUNCNAME(jump_handler_read8), + FUNCNAME(jump_handler_read16), + FUNCNAME(jump_handler_read32), + FUNCNAME(jump_handler_write8), + FUNCNAME(jump_handler_write16), + FUNCNAME(jump_handler_write32), + FUNCNAME(invalidate_addr), + FUNCNAME(jump_to_new_pc), + FUNCNAME(call_gteStall), + FUNCNAME(new_dyna_leave), + FUNCNAME(pcsx_mtc0), + FUNCNAME(pcsx_mtc0_ds), + FUNCNAME(do_insn_cmp), +#ifdef __arm__ + FUNCNAME(verify_code), +#endif +}; + +static const char *func_name(const void *a) +{ + int i; + for (i = 0; i < sizeof(function_names)/sizeof(function_names[0]); i++) + if (function_names[i].addr == a) + return function_names[i].name; + return ""; +} +#else +#define func_name(x) "" +#endif + #ifdef __i386__ #include "assem_x86.c" #endif @@ -810,6 +956,51 @@ void alloc_all(struct regstat *cur,int i) #ifdef __arm__ #include "assem_arm.c" #endif +#ifdef __aarch64__ +#include "assem_arm64.c" +#endif + +static void *get_trampoline(const void *f) +{ + size_t i; + + for (i = 0; i < ARRAY_SIZE(ndrc->tramp.f); i++) { + if (ndrc->tramp.f[i] == f || ndrc->tramp.f[i] == NULL) + break; + } + if (i == ARRAY_SIZE(ndrc->tramp.f)) { + SysPrintf("trampoline table is full, last func %p\n", f); + abort(); + } + if (ndrc->tramp.f[i] == NULL) { + start_tcache_write(&ndrc->tramp.f[i], &ndrc->tramp.f[i + 1]); + ndrc->tramp.f[i] = f; + end_tcache_write(&ndrc->tramp.f[i], &ndrc->tramp.f[i + 1]); + } + return &ndrc->tramp.ops[i]; +} + +static void emit_far_jump(const void *f) +{ + if (can_jump_or_call(f)) { + emit_jmp(f); + return; + } + + f = get_trampoline(f); + emit_jmp(f); +} + +static void emit_far_call(const void *f) +{ + if (can_jump_or_call(f)) { + emit_call(f); + return; + } + + f = get_trampoline(f); + emit_call(f); +} // Add virtual address mapping to linked list void ll_add(struct ll_entry **head,int vaddr,void *addr) @@ -892,14 +1083,14 @@ void remove_hash(int vaddr) } } -void ll_remove_matching_addrs(struct ll_entry **head,int addr,int shift) +void ll_remove_matching_addrs(struct ll_entry **head,uintptr_t addr,int shift) { struct ll_entry *next; while(*head) { - if(((u_int)((*head)->addr)>>shift)==(addr>>shift) || - ((u_int)((*head)->addr-MAX_OUTPUT_BLOCK_SIZE)>>shift)==(addr>>shift)) + if(((uintptr_t)((*head)->addr)>>shift)==(addr>>shift) || + ((uintptr_t)((*head)->addr-MAX_OUTPUT_BLOCK_SIZE)>>shift)==(addr>>shift)) { - inv_debug("EXP: Remove pointer to %x (%x)\n",(int)(*head)->addr,(*head)->vaddr); + inv_debug("EXP: Remove pointer to %p (%x)\n",(*head)->addr,(*head)->vaddr); remove_hash((*head)->vaddr); next=(*head)->next; free(*head); @@ -928,19 +1119,17 @@ void ll_clear(struct ll_entry **head) } // Dereference the pointers and remove if it matches -static void ll_kill_pointers(struct ll_entry *head,int addr,int shift) +static void ll_kill_pointers(struct ll_entry *head,uintptr_t addr,int shift) { while(head) { - int ptr=get_pointer(head->addr); - inv_debug("EXP: Lookup pointer to %x at %x (%x)\n",(int)ptr,(int)head->addr,head->vaddr); + uintptr_t ptr = (uintptr_t)get_pointer(head->addr); + inv_debug("EXP: Lookup pointer to %lx at %p (%x)\n",(long)ptr,head->addr,head->vaddr); if(((ptr>>shift)==(addr>>shift)) || (((ptr-MAX_OUTPUT_BLOCK_SIZE)>>shift)==(addr>>shift))) { - inv_debug("EXP: Kill pointer at %x (%x)\n",(int)head->addr,head->vaddr); + inv_debug("EXP: Kill pointer at %p (%x)\n",head->addr,head->vaddr); void *host_addr=find_extjump_insn(head->addr); - #ifdef __arm__ - mark_clear_cache(host_addr); - #endif + mark_clear_cache(host_addr); set_jump_target(host_addr, head->addr); } head=head->next; @@ -948,7 +1137,7 @@ static void ll_kill_pointers(struct ll_entry *head,int addr,int shift) } // This is called when we write to a compiled block (see do_invstub) -void invalidate_page(u_int page) +static void invalidate_page(u_int page) { struct ll_entry *head; struct ll_entry *next; @@ -964,11 +1153,9 @@ void invalidate_page(u_int page) head=jump_out[page]; jump_out[page]=0; while(head!=NULL) { - inv_debug("INVALIDATE: kill pointer to %x (%x)\n",head->vaddr,(int)head->addr); + inv_debug("INVALIDATE: kill pointer to %x (%p)\n",head->vaddr,head->addr); void *host_addr=find_extjump_insn(head->addr); - #ifdef __arm__ - mark_clear_cache(host_addr); - #endif + mark_clear_cache(host_addr); set_jump_target(host_addr, head->addr); next=head->next; free(head); @@ -991,9 +1178,7 @@ static void invalidate_block_range(u_int block, u_int first, u_int last) for(first=page+1;first2047||(head->vaddr>>12)==block) { // Ignore vaddr hash collision - get_bounds((int)head->addr,&start,&end); - //printf("start: %x end: %x\n",start,end); - if(page<2048&&start>=(u_int)rdram&&end<(u_int)rdram+RAM_SIZE) { - if(((start-(u_int)rdram)>>12)<=page&&((end-1-(u_int)rdram)>>12)>=page) { - if((((start-(u_int)rdram)>>12)&2047)>12)&2047; - if((((end-1-(u_int)rdram)>>12)&2047)>last) last=((end-1-(u_int)rdram)>>12)&2047; + u_char *start, *end; + get_bounds(head->addr, &start, &end); + //printf("start: %p end: %p\n", start, end); + if (page < 2048 && start >= rdram && end < rdram+RAM_SIZE) { + if (((start-rdram)>>12) <= page && ((end-1-rdram)>>12) >= page) { + if ((((start-rdram)>>12)&2047) < first) first = ((start-rdram)>>12)&2047; + if ((((end-1-rdram)>>12)&2047) > last) last = ((end-1-rdram)>>12)&2047; } } } @@ -1053,12 +1238,11 @@ void invalidate_addr(u_int addr) } for(;pg1<=page;pg1++) { for(head=jump_dirty[pg1];head!=NULL;head=head->next) { - u_int start,end; - get_bounds((int)head->addr,&start,&end); - if(ram_offset) { - start-=ram_offset; - end-=ram_offset; - } + u_char *start_h, *end_h; + u_int start, end; + get_bounds(head->addr, &start_h, &end_h); + start = (uintptr_t)start_h - ram_offset; + end = (uintptr_t)end_h - ram_offset; if(start<=addr_main&&addr_mainaddr_max) addr_max=end; @@ -1091,7 +1275,7 @@ void invalidate_addr(u_int addr) // This is called when loading a save state. // Anything could have changed, so invalidate everything. -void invalidate_all_pages() +void invalidate_all_pages(void) { u_int page; for(page=0;page<4096;page++) @@ -1104,19 +1288,31 @@ void invalidate_all_pages() #ifdef USE_MINI_HT memset(mini_ht,-1,sizeof(mini_ht)); #endif + do_clear_cache(); +} + +static void do_invstub(int n) +{ + literal_pool(20); + u_int reglist=stubs[n].a; + set_jump_target(stubs[n].addr, out); + save_regs(reglist); + if(stubs[n].b!=0) emit_mov(stubs[n].b,0); + emit_far_call(invalidate_addr); + restore_regs(reglist); + emit_jmp(stubs[n].retaddr); // return address } // Add an entry to jump_out after making a link +// src should point to code by emit_extjump2() void add_link(u_int vaddr,void *src) { u_int page=get_page(vaddr); - inv_debug("add_link: %x -> %x (%d)\n",(int)src,vaddr,page); - int *ptr=(int *)(src+4); - assert((*ptr&0x0fff0000)==0x059f0000); - (void)ptr; + inv_debug("add_link: %p -> %x (%d)\n",src,vaddr,page); + check_extjump2(src); ll_add(jump_out+page,vaddr,src); - //int ptr=get_pointer(src); - //inv_debug("add_link: Pointer is to %x\n",(int)ptr); + //void *ptr=get_pointer(src); + //inv_debug("add_link: Pointer is to %p\n",ptr); } // If a code block was found to be unmodified (bit was set in @@ -1132,14 +1328,14 @@ void clean_blocks(u_int page) if(!invalid_code[head->vaddr>>12]) { // Don't restore blocks which are about to expire from the cache if (doesnt_expire_soon(head->addr)) { - u_int start,end; if(verify_dirty(head->addr)) { - //printf("Possibly Restore %x (%x)\n",head->vaddr, (int)head->addr); + u_char *start, *end; + //printf("Possibly Restore %x (%p)\n",head->vaddr, head->addr); u_int i; u_int inv=0; - get_bounds((int)head->addr,&start,&end); - if(start-(u_int)rdram>12;i<=(end-1-(u_int)rdram+0x80000000)>>12;i++) { + get_bounds(head->addr, &start, &end); + if (start - rdram < RAM_SIZE) { + for (i = (start-rdram+0x80000000)>>12; i <= (end-1-rdram+0x80000000)>>12; i++) { inv|=invalid_code[i]; } } @@ -1150,7 +1346,7 @@ void clean_blocks(u_int page) void *clean_addr = get_clean_addr(head->addr); if (doesnt_expire_soon(clean_addr)) { u_int ppage=page; - inv_debug("INV: Restored %x (%x/%x)\n",head->vaddr, (int)head->addr, (int)clean_addr); + inv_debug("INV: Restored %x (%p/%p)\n",head->vaddr, head->addr, clean_addr); //printf("page=%x, addr=%x\n",page,head->vaddr); //assert(head->vaddr>>12==(page|0x80000)); ll_add_flags(jump_in+ppage,head->vaddr,head->reg_sv_flags,clean_addr); @@ -1168,25 +1364,252 @@ void clean_blocks(u_int page) } } +/* Register allocation */ -void mov_alloc(struct regstat *current,int i) +// Note: registers are allocated clean (unmodified state) +// if you intend to modify the register, you must call dirty_reg(). +static void alloc_reg(struct regstat *cur,int i,signed char reg) { - // Note: Don't need to actually alloc the source registers - if((~current->is32>>rs1[i])&1) { - //alloc_reg64(current,i,rs1[i]); - alloc_reg64(current,i,rt1[i]); - current->is32&=~(1LL<is32|=(1LL<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]; + assert(r < 64); + if((cur->u>>r)&1) { + cur->regmap[preferred_reg]=reg; + cur->dirty&=~(1<isconst&=~(1<regmap[hr]; + if(r>=0) { + assert(r < 64); + if((cur->u>>r)&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],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)) 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) { + 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) { + cur->regmap[hr]=reg; + cur->dirty&=~(1<isconst&=~(1<regmap[hr]==reg) return; + } + + // Try to allocate any available register + 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) { + assert(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<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)) 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) { + 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) { + cur->regmap[hr]=reg; + cur->dirty&=~(1<isconst&=~(1<is32|=1LL<=0x38&&opcode2[i]<=0x3b) // DSLL/DSRL/DSRA { - if(rt1[i]) { - if(rs1[i]) alloc_reg64(current,i,rs1[i]); - alloc_reg64(current,i,rt1[i]); - current->is32&=~(1LL<is32&=~(1LL<is32&=~(1LL<is32|=1LL<is32|=1LL<is32|=1LL<is32&=~(1LL<=0x20&&opcode2[i]<=0x23) { // ADD/ADDU/SUB/SUBU if(rt1[i]) { @@ -1299,22 +1687,13 @@ void alu_alloc(struct regstat *current,int i) } alloc_reg(current,i,rt1[i]); } - current->is32|=1LL<is32>>rs1[i])&(current->is32>>rs2[i])&1)) - { - alloc_reg64(current,i,rs1[i]); - alloc_reg64(current,i,rs2[i]); - alloc_reg(current,i,rt1[i]); - } else { - alloc_reg(current,i,rs1[i]); - alloc_reg(current,i,rs2[i]); - alloc_reg(current,i,rt1[i]); - } + alloc_reg(current,i,rs1[i]); + alloc_reg(current,i,rs2[i]); + alloc_reg(current,i,rt1[i]); } - current->is32|=1LL<=0x24&&opcode2[i]<=0x27) { // AND/OR/XOR/NOR if(rt1[i]) { @@ -1328,78 +1707,10 @@ void alu_alloc(struct regstat *current,int i) if(rs2[i]&&needed_again(rs2[i],i)) alloc_reg(current,i,rs2[i]); } alloc_reg(current,i,rt1[i]); - if(!((current->is32>>rs1[i])&(current->is32>>rs2[i])&1)) - { - if(!((current->uu>>rt1[i])&1)) { - alloc_reg64(current,i,rt1[i]); - } - if(get_reg(current->regmap,rt1[i]|64)>=0) { - if(rs1[i]&&rs2[i]) { - alloc_reg64(current,i,rs1[i]); - alloc_reg64(current,i,rs2[i]); - } - else - { - // Is is really worth it to keep 64-bit values in registers? - #ifdef NATIVE_64BIT - if(rs1[i]&&needed_again(rs1[i],i)) alloc_reg64(current,i,rs1[i]); - if(rs2[i]&&needed_again(rs2[i],i)) alloc_reg64(current,i,rs2[i]); - #endif - } - } - current->is32&=~(1LL<is32|=1LL<=0x2c&&opcode2[i]<=0x2f) { // DADD/DADDU/DSUB/DSUBU - if(rt1[i]) { - if(rs1[i]&&rs2[i]) { - if(!((current->uu>>rt1[i])&1)||get_reg(current->regmap,rt1[i]|64)>=0) { - alloc_reg64(current,i,rs1[i]); - alloc_reg64(current,i,rs2[i]); - alloc_reg64(current,i,rt1[i]); - } else { - alloc_reg(current,i,rs1[i]); - alloc_reg(current,i,rs2[i]); - alloc_reg(current,i,rt1[i]); - } - } - else { - alloc_reg(current,i,rt1[i]); - if(!((current->uu>>rt1[i])&1)||get_reg(current->regmap,rt1[i]|64)>=0) { - // DADD used as move, or zeroing - // If we have a 64-bit source, then make the target 64 bits too - if(rs1[i]&&!((current->is32>>rs1[i])&1)) { - if(get_reg(current->regmap,rs1[i])>=0) alloc_reg64(current,i,rs1[i]); - alloc_reg64(current,i,rt1[i]); - } else if(rs2[i]&&!((current->is32>>rs2[i])&1)) { - if(get_reg(current->regmap,rs2[i])>=0) alloc_reg64(current,i,rs2[i]); - alloc_reg64(current,i,rt1[i]); - } - if(opcode2[i]>=0x2e&&rs2[i]) { - // DSUB used as negation - 64-bit result - // If we have a 32-bit register, extend it to 64 bits - if(get_reg(current->regmap,rs2[i])>=0) alloc_reg64(current,i,rs2[i]); - alloc_reg64(current,i,rt1[i]); - } - } - } - if(rs1[i]&&rs2[i]) { - current->is32&=~(1LL<is32&=~(1LL<is32>>rs1[i])&1) - current->is32|=1LL<is32&=~(1LL<is32>>rs2[i])&1) - current->is32|=1LL<is32|=1LL<is32&=~(1LL<uu>>rt1[i])&1)||get_reg(current->regmap,rt1[i]|64)>=0) { - // TODO: Could preserve the 32-bit flag if the immediate is zero - alloc_reg64(current,i,rt1[i]); - alloc_reg64(current,i,rs1[i]); - } - clear_const(current,rs1[i]); - clear_const(current,rt1[i]); + assert(0); } else if(opcode[i]==0x0a||opcode[i]==0x0b) { // SLTI/SLTIU - if((~current->is32>>rs1[i])&1) alloc_reg64(current,i,rs1[i]); - current->is32|=1LL<=0x0c&&opcode[i]<=0x0e) { // ANDI/ORI/XORI - if(((~current->is32>>rs1[i])&1)&&opcode[i]>0x0c) { - if(rs1[i]!=rt1[i]) { - if(needed_again(rs1[i],i)) alloc_reg64(current,i,rs1[i]); - alloc_reg64(current,i,rt1[i]); - current->is32&=~(1LL<is32|=1LL<is32|=1LL<is32|=1LL<regmap,rt1[i])>=0); if(opcode[i]==0x27||opcode[i]==0x37) // LWU/LD { - current->is32&=~(1LL<is32&=~(1LL<is32|=1LL<is32|=1LL<is32|=1LL<u&=~(1LL<u&=~(1LL<uu&=~(1LL<uu&=~(1LL<10) alloc_reg64(current,i,LOREG); - alloc_reg64(current,i,rs1[i]); - alloc_reg64(current,i,rs2[i]); - alloc_all(current,i); - current->is32&=~(1LL<is32&=~(1LL<is32|=1LL<is32|=1LL<is32|=1LL<is32&=~(1LL<is32|=1LL<3) // MTC1/DMTC1/CTC1 + else if (opcode2[i] > 3) // MTC2/CTC2 { if(rs1[i]){ clear_const(current,rs1[i]); - if(opcode2[i]==5) - alloc_reg64(current,i,rs1[i]); // DMTC1 - else - alloc_reg(current,i,rs1[i]); // MTC1/CTC1 - alloc_reg_temp(current,i,-1); + alloc_reg(current,i,rs1[i]); } else { current->u&=~1LL; alloc_reg(current,i,0); - alloc_reg_temp(current,i,-1); } } - minimum_free_regs[i]=1; -} -void fconv_alloc(struct regstat *current,int i) -{ - alloc_reg(current,i,CSREG); // Load status - alloc_reg_temp(current,i,-1); - minimum_free_regs[i]=1; -} -void float_alloc(struct regstat *current,int i) -{ - alloc_reg(current,i,CSREG); // Load status alloc_reg_temp(current,i,-1); minimum_free_regs[i]=1; } + 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 fcomp_alloc(struct regstat *current,int i) -{ - alloc_reg(current,i,CSREG); // Load status - alloc_reg(current,i,FSREG); // Load flags - dirty_reg(current,FSREG); // Flag will be modified - alloc_reg_temp(current,i,-1); - minimum_free_regs[i]=1; -} void syscall_alloc(struct regstat *current,int i) { @@ -1739,11 +1977,10 @@ void delayslot_alloc(struct regstat *current,int i) case CJUMP: case SJUMP: case RJUMP: - case FJUMP: case SYSCALL: case HLECALL: case SPAN: - assem_debug("jump in the delay slot. this shouldn't happen.\n");//exit(1); + assem_debug("jump in the delay slot. this shouldn't happen.\n");//abort(); SysPrintf("Disabled speculative precompilation\n"); stop_after_jal=1; break; @@ -1777,8 +2014,9 @@ void delayslot_alloc(struct regstat *current,int i) cop0_alloc(current,i); break; case COP1: + break; case COP2: - cop1_alloc(current,i); + cop2_alloc(current,i); break; case C1LS: c1ls_alloc(current,i); @@ -1786,15 +2024,6 @@ void delayslot_alloc(struct regstat *current,int i) case C2LS: c2ls_alloc(current,i); break; - case FCONV: - fconv_alloc(current,i); - break; - case FLOAT: - float_alloc(current,i); - break; - case FCOMP: - fcomp_alloc(current,i); - break; case C2OP: c2op_alloc(current,i); break; @@ -1828,26 +2057,11 @@ static void pagespan_alloc(struct regstat *current,int i) { if(rs1[i]) alloc_reg(current,i,rs1[i]); if(rs2[i]) alloc_reg(current,i,rs2[i]); - if(!((current->is32>>rs1[i])&(current->is32>>rs2[i])&1)) - { - if(rs1[i]) alloc_reg64(current,i,rs1[i]); - if(rs2[i]) alloc_reg64(current,i,rs2[i]); - } } else if((opcode[i]&0x2E)==6) // BLEZ/BGTZ/BLEZL/BGTZL { if(rs1[i]) alloc_reg(current,i,rs1[i]); - if(!((current->is32>>rs1[i])&1)) - { - if(rs1[i]) alloc_reg64(current,i,rs1[i]); - } - } - else - if(opcode[i]==0x11) // BC1 - { - alloc_reg(current,i,FSREG); - alloc_reg(current,i,CSREG); } //else ... } @@ -1855,7 +2069,7 @@ static void pagespan_alloc(struct regstat *current,int i) static void add_stub(enum stub_type type, void *addr, void *retaddr, u_int a, uintptr_t b, uintptr_t c, u_int d, u_int e) { - assert(a < ARRAY_SIZE(stubs)); + assert(stubcount < ARRAY_SIZE(stubs)); stubs[stubcount].type = type; stubs[stubcount].addr = addr; stubs[stubcount].retaddr = retaddr; @@ -1868,60 +2082,68 @@ static void add_stub(enum stub_type type, void *addr, void *retaddr, } static void add_stub_r(enum stub_type type, void *addr, void *retaddr, - int i, int addr_reg, struct regstat *i_regs, int ccadj, u_int reglist) + int i, int addr_reg, const struct regstat *i_regs, int ccadj, u_int reglist) { add_stub(type, addr, retaddr, i, addr_reg, (uintptr_t)i_regs, ccadj, reglist); } // Write out a single register -void wb_register(signed char r,signed char regmap[],uint64_t dirty,uint64_t is32) +static void wb_register(signed char r,signed char regmap[],uint64_t dirty) { int hr; for(hr=0;hr>hr)&1) { - if(regmap[hr]<64) { - emit_storereg(r,hr); - }else{ - emit_storereg(r|64,hr); - } + assert(regmap[hr]<64); + emit_storereg(r,hr); } } } } } -int mchecksum() +static void wb_valid(signed char pre[],signed char entry[],u_int dirty_pre,u_int dirty,uint64_t u) { - int i; - int sum=0; - for(i=0;i<2097152;i++) { - unsigned int temp=sum; - sum<<=1; - sum|=(~temp)>>31; - sum^=((u_int *)rdram)[i]; + //if(dirty_pre==dirty) return; + int hr,reg; + for(hr=0;hr>(reg&63))&1) { + if(reg>0) { + if(((dirty_pre&~dirty)>>hr)&1) { + if(reg>0&®<34) { + emit_storereg(reg,hr); + } + else if(reg>=64) { + assert(0); + } + } + } + } + } } - return sum; } -int rchecksum() -{ - int i; - int sum=0; - for(i=0;i<64;i++) - sum^=((u_int *)reg)[i]; - return sum; -} -void rlist() + +// trashes r2 +static void pass_args(int a0, int a1) { - int i; - printf("TRACE: "); - for(i=0;i<32;i++) - printf("r%d:%8x%8x ",i,((int *)(reg+i))[1],((int *)(reg+i))[0]); - printf("\n"); + if(a0==1&&a1==0) { + // must swap + emit_mov(a0,2); emit_mov(a1,1); emit_mov(2,0); + } + else if(a0!=0&&a1==0) { + emit_mov(a1,1); + if (a0>=0) emit_mov(a0,0); + } + else { + if(a0>=0&&a0!=0) emit_mov(a0,0); + if(a1>=0&&a1!=1) emit_mov(a1,1); + } } -void alu_assemble(int i,struct regstat *i_regs) +static void alu_assemble(int i,struct regstat *i_regs) { if(opcode2[i]>=0x20&&opcode2[i]<=0x23) { // ADD/ADDU/SUB/SUBU if(rt1[i]) { @@ -1955,113 +2177,12 @@ void alu_assemble(int i,struct regstat *i_regs) } } if(opcode2[i]>=0x2c&&opcode2[i]<=0x2f) { // DADD/DADDU/DSUB/DSUBU - if(rt1[i]) { - signed char s1l,s2l,s1h,s2h,tl,th; - tl=get_reg(i_regs->regmap,rt1[i]); - th=get_reg(i_regs->regmap,rt1[i]|64); - if(tl>=0) { - s1l=get_reg(i_regs->regmap,rs1[i]); - s2l=get_reg(i_regs->regmap,rs2[i]); - s1h=get_reg(i_regs->regmap,rs1[i]|64); - s2h=get_reg(i_regs->regmap,rs2[i]|64); - if(rs1[i]&&rs2[i]) { - assert(s1l>=0); - assert(s2l>=0); - if(opcode2[i]&2) emit_subs(s1l,s2l,tl); - else emit_adds(s1l,s2l,tl); - if(th>=0) { - #ifdef INVERTED_CARRY - if(opcode2[i]&2) {if(s1h!=th) emit_mov(s1h,th);emit_sbb(th,s2h);} - #else - if(opcode2[i]&2) emit_sbc(s1h,s2h,th); - #endif - else emit_add(s1h,s2h,th); - } - } - else if(rs1[i]) { - if(s1l>=0) emit_mov(s1l,tl); - else emit_loadreg(rs1[i],tl); - if(th>=0) { - if(s1h>=0) emit_mov(s1h,th); - else emit_loadreg(rs1[i]|64,th); - } - } - else if(rs2[i]) { - if(s2l>=0) { - if(opcode2[i]&2) emit_negs(s2l,tl); - else emit_mov(s2l,tl); - } - else { - emit_loadreg(rs2[i],tl); - if(opcode2[i]&2) emit_negs(tl,tl); - } - if(th>=0) { - #ifdef INVERTED_CARRY - if(s2h>=0) emit_mov(s2h,th); - else emit_loadreg(rs2[i]|64,th); - if(opcode2[i]&2) { - emit_adcimm(-1,th); // x86 has inverted carry flag - emit_not(th,th); - } - #else - if(opcode2[i]&2) { - if(s2h>=0) emit_rscimm(s2h,0,th); - else { - emit_loadreg(rs2[i]|64,th); - emit_rscimm(th,0,th); - } - }else{ - if(s2h>=0) emit_mov(s2h,th); - else emit_loadreg(rs2[i]|64,th); - } - #endif - } - } - else { - emit_zeroreg(tl); - if(th>=0) emit_zeroreg(th); - } - } - } + assert(0); } if(opcode2[i]==0x2a||opcode2[i]==0x2b) { // SLT/SLTU if(rt1[i]) { - signed char s1l,s1h,s2l,s2h,t; - if(!((i_regs->was32>>rs1[i])&(i_regs->was32>>rs2[i])&1)) + signed char s1l,s2l,t; { - t=get_reg(i_regs->regmap,rt1[i]); - //assert(t>=0); - if(t>=0) { - s1l=get_reg(i_regs->regmap,rs1[i]); - s1h=get_reg(i_regs->regmap,rs1[i]|64); - s2l=get_reg(i_regs->regmap,rs2[i]); - s2h=get_reg(i_regs->regmap,rs2[i]|64); - if(rs2[i]==0) // rx=0); - if(opcode2[i]==0x2a) // SLT - emit_shrimm(s1h,31,t); - else // SLTU (unsigned can not be less than zero) - emit_zeroreg(t); - } - else if(rs1[i]==0) // r0=0); - if(opcode2[i]==0x2a) // SLT - emit_set_gz64_32(s2h,s2l,t); - else // SLTU (set if not zero) - emit_set_nz64_32(s2h,s2l,t); - } - else { - assert(s1l>=0);assert(s1h>=0); - assert(s2l>=0);assert(s2h>=0); - if(opcode2[i]==0x2a) // SLT - emit_set_if_less64_32(s1h,s1l,s2h,s2l,t); - else // SLTU - emit_set_if_carry64_32(s1h,s1l,s2h,s2l,t); - } - } - } else { t=get_reg(i_regs->regmap,rt1[i]); //assert(t>=0); if(t>=0) { @@ -2069,10 +2190,11 @@ void alu_assemble(int i,struct regstat *i_regs) s2l=get_reg(i_regs->regmap,rs2[i]); if(rs2[i]==0) // rx=0); - if(opcode2[i]==0x2a) // SLT + if(opcode2[i]==0x2a&&rs1[i]!=0) { // SLT + assert(s1l>=0); emit_shrimm(s1l,31,t); - else // SLTU (unsigned can not be less than zero) + } + else // SLTU (unsigned can not be less than zero, 0<0) emit_zeroreg(t); } else if(rs1[i]==0) // r0=0x24&&opcode2[i]<=0x27) { // AND/OR/XOR/NOR if(rt1[i]) { - signed char s1l,s1h,s2l,s2h,th,tl; + signed char s1l,s2l,tl; tl=get_reg(i_regs->regmap,rt1[i]); - th=get_reg(i_regs->regmap,rt1[i]|64); - if(!((i_regs->was32>>rs1[i])&(i_regs->was32>>rs2[i])&1)&&th>=0) - { - assert(tl>=0); - if(tl>=0) { - s1l=get_reg(i_regs->regmap,rs1[i]); - s1h=get_reg(i_regs->regmap,rs1[i]|64); - s2l=get_reg(i_regs->regmap,rs2[i]); - s2h=get_reg(i_regs->regmap,rs2[i]|64); - if(rs1[i]&&rs2[i]) { - assert(s1l>=0);assert(s1h>=0); - assert(s2l>=0);assert(s2h>=0); - if(opcode2[i]==0x24) { // AND - emit_and(s1l,s2l,tl); - emit_and(s1h,s2h,th); - } else - if(opcode2[i]==0x25) { // OR - emit_or(s1l,s2l,tl); - emit_or(s1h,s2h,th); - } else - if(opcode2[i]==0x26) { // XOR - emit_xor(s1l,s2l,tl); - emit_xor(s1h,s2h,th); - } else - if(opcode2[i]==0x27) { // NOR - emit_or(s1l,s2l,tl); - emit_or(s1h,s2h,th); - emit_not(tl,tl); - emit_not(th,th); - } - } - else - { - if(opcode2[i]==0x24) { // AND - emit_zeroreg(tl); - emit_zeroreg(th); - } else - if(opcode2[i]==0x25||opcode2[i]==0x26) { // OR/XOR - if(rs1[i]){ - if(s1l>=0) emit_mov(s1l,tl); - else emit_loadreg(rs1[i],tl); - if(s1h>=0) emit_mov(s1h,th); - else emit_loadreg(rs1[i]|64,th); - } - else - if(rs2[i]){ - if(s2l>=0) emit_mov(s2l,tl); - else emit_loadreg(rs2[i],tl); - if(s2h>=0) emit_mov(s2h,th); - else emit_loadreg(rs2[i]|64,th); - } - else{ - emit_zeroreg(tl); - emit_zeroreg(th); - } - } else - if(opcode2[i]==0x27) { // NOR - if(rs1[i]){ - if(s1l>=0) emit_not(s1l,tl); - else{ - emit_loadreg(rs1[i],tl); - emit_not(tl,tl); - } - if(s1h>=0) emit_not(s1h,th); - else{ - emit_loadreg(rs1[i]|64,th); - emit_not(th,th); - } - } - else - if(rs2[i]){ - if(s2l>=0) emit_not(s2l,tl); - else{ - emit_loadreg(rs2[i],tl); - emit_not(tl,tl); - } - if(s2h>=0) emit_not(s2h,th); - else{ - emit_loadreg(rs2[i]|64,th); - emit_not(th,th); - } - } - else { - emit_movimm(-1,tl); - emit_movimm(-1,th); - } - } - } - } - } - else { - // 32 bit if(tl>=0) { s1l=get_reg(i_regs->regmap,rs1[i]); s2l=get_reg(i_regs->regmap,rs2[i]); @@ -2297,24 +2327,15 @@ void imm16_assemble(int i,struct regstat *i_regs) } if(opcode[i]==0x18||opcode[i]==0x19) { // DADDI/DADDIU if(rt1[i]) { - signed char sh,sl,th,tl; - th=get_reg(i_regs->regmap,rt1[i]|64); + signed char sl,tl; 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]); if(tl>=0) { if(rs1[i]) { - assert(sh>=0); assert(sl>=0); - if(th>=0) { - emit_addimm64_32(sh,sl,imm[i],th,tl); - } - else { - emit_addimm(sl,imm[i],tl); - } + emit_addimm(sl,imm[i],tl); } else { emit_movimm(imm[i],tl); - if(th>=0) emit_movimm(((signed int)imm[i])>>31,th); } } } @@ -2322,15 +2343,12 @@ void imm16_assemble(int i,struct regstat *i_regs) else if(opcode[i]==0x0a||opcode[i]==0x0b) { // SLTI/SLTIU if(rt1[i]) { //assert(rs1[i]!=0); // r0 might be valid, but it's probably a bug - signed char sh,sl,t; + signed char sl,t; t=get_reg(i_regs->regmap,rt1[i]); - sh=get_reg(i_regs->regmap,rs1[i]|64); sl=get_reg(i_regs->regmap,rs1[i]); //assert(t>=0); if(t>=0) { if(rs1[i]>0) { - if(sh<0) assert((i_regs->was32>>rs1[i])&1); - if(sh<0||((i_regs->was32>>rs1[i])&1)) { if(opcode[i]==0x0a) { // SLTI if(sl<0) { if(i_regs->regmap_entry[t]!=rs1[i]) emit_loadreg(rs1[i],t); @@ -2347,13 +2365,6 @@ void imm16_assemble(int i,struct regstat *i_regs) emit_sltiu32(sl,imm[i],t); } } - }else{ // 64-bit - assert(sl>=0); - if(opcode[i]==0x0a) // SLTI - emit_slti64_32(sh,sl,imm[i],t); - else // SLTIU - emit_sltiu64_32(sh,sl,imm[i],t); - } }else{ // SLTI(U) with r0 is just stupid, // nonetheless examples can be found @@ -2371,10 +2382,8 @@ void imm16_assemble(int i,struct regstat *i_regs) } else if(opcode[i]>=0x0c&&opcode[i]<=0x0e) { // ANDI/ORI/XORI if(rt1[i]) { - signed char sh,sl,th,tl; - th=get_reg(i_regs->regmap,rt1[i]|64); + signed char sl,tl; 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]); if(tl>=0 && !((i_regs->isconst>>tl)&1)) { if(opcode[i]==0x0c) //ANDI @@ -2392,7 +2401,6 @@ void imm16_assemble(int i,struct regstat *i_regs) } else emit_zeroreg(tl); - if(th>=0) emit_zeroreg(th); } else { @@ -2400,13 +2408,6 @@ void imm16_assemble(int i,struct regstat *i_regs) if(sl<0) { if(i_regs->regmap_entry[tl]!=rs1[i]) emit_loadreg(rs1[i],tl); } - if(th>=0) { - if(sh<0) { - emit_loadreg(rs1[i]|64,th); - }else{ - emit_mov(sh,th); - } - } if(opcode[i]==0x0d) { // ORI if(sl<0) { emit_orimm(tl,imm[i],tl); @@ -2430,7 +2431,6 @@ void imm16_assemble(int i,struct regstat *i_regs) } else { emit_movimm(imm[i],tl); - if(th>=0) emit_zeroreg(th); } } } @@ -2479,126 +2479,225 @@ void shiftimm_assemble(int i,struct regstat *i_regs) } if(opcode2[i]>=0x38&&opcode2[i]<=0x3b) // DSLL/DSRL/DSRA { - if(rt1[i]) { - signed char sh,sl,th,tl; - 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]); - if(tl>=0) { - if(rs1[i]==0) - { - emit_zeroreg(tl); - if(th>=0) emit_zeroreg(th); - } - else - { - assert(sl>=0); - assert(sh>=0); - if(imm[i]) { - if(opcode2[i]==0x38) // DSLL - { - if(th>=0) emit_shldimm(sh,sl,imm[i],th); - emit_shlimm(sl,imm[i],tl); - } - if(opcode2[i]==0x3a) // DSRL - { - emit_shrdimm(sl,sh,imm[i],tl); - if(th>=0) emit_shrimm(sh,imm[i],th); - } - if(opcode2[i]==0x3b) // DSRA - { - emit_shrdimm(sl,sh,imm[i],tl); - if(th>=0) emit_sarimm(sh,imm[i],th); - } - }else{ - // Shift by zero - if(sl!=tl) emit_mov(sl,tl); - if(th>=0&&sh!=th) emit_mov(sh,th); - } - } - } - } + assert(0); } if(opcode2[i]==0x3c) // DSLL32 { - if(rt1[i]) { - signed char sl,tl,th; - tl=get_reg(i_regs->regmap,rt1[i]); - th=get_reg(i_regs->regmap,rt1[i]|64); - sl=get_reg(i_regs->regmap,rs1[i]); - if(th>=0||tl>=0){ - assert(tl>=0); - assert(th>=0); - assert(sl>=0); - emit_mov(sl,th); - emit_zeroreg(tl); - if(imm[i]>32) - { - emit_shlimm(th,imm[i]&31,th); - } - } - } + assert(0); } if(opcode2[i]==0x3e) // DSRL32 { - if(rt1[i]) { - signed char sh,tl,th; - tl=get_reg(i_regs->regmap,rt1[i]); - th=get_reg(i_regs->regmap,rt1[i]|64); - sh=get_reg(i_regs->regmap,rs1[i]|64); - if(tl>=0){ - assert(sh>=0); - emit_mov(sh,tl); - if(th>=0) emit_zeroreg(th); - if(imm[i]>32) - { - emit_shrimm(tl,imm[i]&31,tl); - } - } - } + assert(0); } if(opcode2[i]==0x3f) // DSRA32 { - if(rt1[i]) { - signed char sh,tl; - tl=get_reg(i_regs->regmap,rt1[i]); - sh=get_reg(i_regs->regmap,rs1[i]|64); - if(tl>=0){ - assert(sh>=0); - emit_mov(sh,tl); - if(imm[i]>32) - { - emit_sarimm(tl,imm[i]&31,tl); - } - } - } + assert(0); } } #ifndef shift_assemble -void shift_assemble(int i,struct regstat *i_regs) -{ - printf("Need shift_assemble for this architecture.\n"); - exit(1); +static void shift_assemble(int i,struct regstat *i_regs) +{ + signed char s,t,shift; + if (rt1[i] == 0) + return; + assert(opcode2[i]<=0x07); // SLLV/SRLV/SRAV + 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) + return; + + if(rs1[i]==0) + emit_zeroreg(t); + else if(rs2[i]==0) { + assert(s>=0); + if(s!=t) emit_mov(s,t); + } + else { + host_tempreg_acquire(); + emit_andimm(shift,31,HOST_TEMPREG); + switch(opcode2[i]) { + case 4: // SLLV + emit_shl(s,HOST_TEMPREG,t); + break; + case 6: // SRLV + emit_shr(s,HOST_TEMPREG,t); + break; + case 7: // SRAV + emit_sar(s,HOST_TEMPREG,t); + break; + default: + assert(0); + } + host_tempreg_release(); + } } + #endif -void load_assemble(int i,struct regstat *i_regs) +enum { + MTYPE_8000 = 0, + MTYPE_8020, + MTYPE_0000, + MTYPE_A000, + MTYPE_1F80, +}; + +static int get_ptr_mem_type(u_int a) +{ + if(a < 0x00200000) { + if(a<0x1000&&((start>>20)==0xbfc||(start>>24)==0xa0)) + // return wrong, must use memhandler for BIOS self-test to pass + // 007 does similar stuff from a00 mirror, weird stuff + return MTYPE_8000; + return MTYPE_0000; + } + if(0x1f800000 <= a && a < 0x1f801000) + return MTYPE_1F80; + if(0x80200000 <= a && a < 0x80800000) + return MTYPE_8020; + if(0xa0000000 <= a && a < 0xa0200000) + return MTYPE_A000; + return MTYPE_8000; +} + +static void *emit_fastpath_cmp_jump(int i,int addr,int *addr_reg_override) +{ + void *jaddr = NULL; + int type=0; + int mr=rs1[i]; + if(((smrv_strong|smrv_weak)>>mr)&1) { + type=get_ptr_mem_type(smrv[mr]); + //printf("set %08x @%08x r%d %d\n", smrv[mr], start+i*4, mr, type); + } + else { + // use the mirror we are running on + type=get_ptr_mem_type(start); + //printf("set nospec @%08x r%d %d\n", start+i*4, mr, type); + } + + if(type==MTYPE_8020) { // RAM 80200000+ mirror + host_tempreg_acquire(); + emit_andimm(addr,~0x00e00000,HOST_TEMPREG); + addr=*addr_reg_override=HOST_TEMPREG; + type=0; + } + else if(type==MTYPE_0000) { // RAM 0 mirror + host_tempreg_acquire(); + emit_orimm(addr,0x80000000,HOST_TEMPREG); + addr=*addr_reg_override=HOST_TEMPREG; + type=0; + } + else if(type==MTYPE_A000) { // RAM A mirror + host_tempreg_acquire(); + emit_andimm(addr,~0x20000000,HOST_TEMPREG); + addr=*addr_reg_override=HOST_TEMPREG; + type=0; + } + else if(type==MTYPE_1F80) { // scratchpad + if (psxH == (void *)0x1f800000) { + host_tempreg_acquire(); + emit_xorimm(addr,0x1f800000,HOST_TEMPREG); + emit_cmpimm(HOST_TEMPREG,0x1000); + host_tempreg_release(); + jaddr=out; + emit_jc(0); + } + else { + // do the usual RAM check, jump will go to the right handler + type=0; + } + } + + if(type==0) + { + emit_cmpimm(addr,RAM_SIZE); + jaddr=out; + #ifdef CORTEX_A8_BRANCH_PREDICTION_HACK + // Hint to branch predictor that the branch is unlikely to be taken + if(rs1[i]>=28) + emit_jno_unlikely(0); + else + #endif + emit_jno(0); + if(ram_offset!=0) { + host_tempreg_acquire(); + emit_addimm(addr,ram_offset,HOST_TEMPREG); + addr=*addr_reg_override=HOST_TEMPREG; + } + } + + return jaddr; +} + +// return memhandler, or get directly accessable address and return 0 +static void *get_direct_memhandler(void *table, u_int addr, + enum stub_type type, uintptr_t *addr_host) +{ + uintptr_t l1, l2 = 0; + l1 = ((uintptr_t *)table)[addr>>12]; + if ((l1 & (1ul << (sizeof(l1)*8-1))) == 0) { + uintptr_t v = l1 << 1; + *addr_host = v + addr; + return NULL; + } + else { + l1 <<= 1; + if (type == LOADB_STUB || type == LOADBU_STUB || type == STOREB_STUB) + l2 = ((uintptr_t *)l1)[0x1000/4 + 0x1000/2 + (addr&0xfff)]; + else if (type == LOADH_STUB || type == LOADHU_STUB || type == STOREH_STUB) + l2=((uintptr_t *)l1)[0x1000/4 + (addr&0xfff)/2]; + else + l2=((uintptr_t *)l1)[(addr&0xfff)/4]; + if ((l2 & (1<<31)) == 0) { + uintptr_t v = l2 << 1; + *addr_host = v + (addr&0xfff); + return NULL; + } + return (void *)(l2 << 1); + } +} + +static u_int get_host_reglist(const signed char *regmap) +{ + u_int reglist = 0, hr; + for (hr = 0; hr < HOST_REGS; hr++) { + if (hr != EXCLUDE_REG && regmap[hr] >= 0) + reglist |= 1 << hr; + } + return reglist; +} + +static u_int reglist_exclude(u_int reglist, int r1, int r2) +{ + if (r1 >= 0) + reglist &= ~(1u << r1); + if (r2 >= 0) + reglist &= ~(1u << r2); + return reglist; +} + +// find a temp caller-saved register not in reglist (so assumed to be free) +static int reglist_find_free(u_int reglist) { - int s,th,tl,addr,map=-1; + u_int free_regs = ~reglist & CALLER_SAVE_REGS; + if (free_regs == 0) + return -1; + return __builtin_ctz(free_regs); +} + +static void load_assemble(int i, const struct regstat *i_regs) +{ + int s,tl,addr; int offset; void *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); + int fastio_reg_override=-1; + u_int reglist=get_host_reglist(i_regs->regmap); tl=get_reg(i_regs->regmap,rt1[i]); s=get_reg(i_regs->regmap,rs1[i]); offset=imm[i]; - for(hr=0;hrregmap[hr]>=0) reglist|=1<regmap[HOST_CCREG]==CCREG) reglist&=~(1<=0) { c=(i_regs->wasconst>>s)&1; @@ -2607,7 +2706,7 @@ void load_assemble(int i,struct regstat *i_regs) } } //printf("load_assemble: c=%d\n",c); - //if(c) printf("load_assemble: const=%x\n",(int)constmap[i][s]+offset); + //if(c) printf("load_assemble: const=%lx\n",(long)constmap[i][s]+offset); // FIXME: Even if the load is a NOP, we should check for pagefaults... if((tl<0&&(!c||(((u_int)constmap[i][s]+offset)>>16)==0x1f80)) ||rt1[i]==0) { @@ -2622,49 +2721,33 @@ void load_assemble(int i,struct regstat *i_regs) //if(tl<0) tl=get_reg(i_regs->regmap,-1); if(tl>=0) { //printf("load_assemble: c=%d\n",c); - //if(c) printf("load_assemble: const=%x\n",(int)constmap[i][s]+offset); + //if(c) printf("load_assemble: const=%lx\n",(long)constmap[i][s]+offset); assert(tl>=0); // Even if the load is a NOP, we must check for pagefaults and I/O reglist&=~(1<=0) reglist&=~(1<regmap,ROREG); - if(map<0) emit_loadreg(ROREG,map=HOST_TEMPREG); - #endif #ifdef R29_HACK // Strmnnrmn's speed hack if(rs1[i]!=29||start<0x80001000||start>=0x80000000+RAM_SIZE) #endif { - jaddr=emit_fastpath_cmp_jump(i,addr,&fastload_reg_override); + jaddr=emit_fastpath_cmp_jump(i,addr,&fastio_reg_override); } } else if(ram_offset&&memtarget) { + host_tempreg_acquire(); emit_addimm(addr,ram_offset,HOST_TEMPREG); - fastload_reg_override=HOST_TEMPREG; + fastio_reg_override=HOST_TEMPREG; } int dummy=(rt1[i]==0)||(tl!=get_reg(i_regs->regmap,rt1[i])); // ignore loads to r0 and unneeded reg if (opcode[i]==0x20) { // LB if(!c||memtarget) { if(!dummy) { - #ifdef HOST_IMM_ADDR32 - if(c) - emit_movsbl_tlb((constmap[i][s]+offset)^3,map,tl); - else - #endif { - //emit_xorimm(addr,3,tl); - //emit_movsbl_indexed((int)rdram-0x80000000,tl,tl); int x=0,a=tl; -#ifdef BIG_ENDIAN_MIPS - if(!c) emit_xorimm(addr,3,tl); - else x=((constmap[i][s]+offset)^3)-(constmap[i][s]+offset); -#else if(!c) a=addr; -#endif - if(fastload_reg_override) a=fastload_reg_override; + if(fastio_reg_override>=0) a=fastio_reg_override; - emit_movsbl_indexed_tlb(x,a,map,tl); + emit_movsbl_indexed(x,a,tl); } } if(jaddr) @@ -2676,33 +2759,10 @@ void load_assemble(int i,struct regstat *i_regs) if (opcode[i]==0x21) { // LH if(!c||memtarget) { if(!dummy) { - #ifdef HOST_IMM_ADDR32 - if(c) - emit_movswl_tlb((constmap[i][s]+offset)^2,map,tl); - else - #endif - { - int x=0,a=tl; -#ifdef BIG_ENDIAN_MIPS - if(!c) emit_xorimm(addr,2,tl); - else x=((constmap[i][s]+offset)^2)-(constmap[i][s]+offset); -#else - if(!c) a=addr; -#endif - if(fastload_reg_override) a=fastload_reg_override; - //#ifdef - //emit_movswl_indexed_tlb(x,tl,map,tl); - //else - if(map>=0) { - emit_movswl_indexed(x,a,tl); - }else{ - #if 1 //def RAM_OFFSET - emit_movswl_indexed(x,a,tl); - #else - emit_movswl_indexed((int)rdram-0x80000000+x,a,tl); - #endif - } - } + int x=0,a=tl; + if(!c) a=addr; + if(fastio_reg_override>=0) a=fastio_reg_override; + emit_movswl_indexed(x,a,tl); } if(jaddr) add_stub_r(LOADH_STUB,jaddr,out,i,addr,i_regs,ccadj[i],reglist); @@ -2714,14 +2774,8 @@ void load_assemble(int i,struct regstat *i_regs) if(!c||memtarget) { if(!dummy) { int a=addr; - if(fastload_reg_override) a=fastload_reg_override; - //emit_readword_indexed((int)rdram-0x80000000,addr,tl); - #ifdef HOST_IMM_ADDR32 - if(c) - emit_readword_tlb(constmap[i][s]+offset,map,tl); - else - #endif - emit_readword_indexed_tlb(0,a,map,tl); + if(fastio_reg_override>=0) a=fastio_reg_override; + emit_readword_indexed(0,a,tl); } if(jaddr) add_stub_r(LOADW_STUB,jaddr,out,i,addr,i_regs,ccadj[i],reglist); @@ -2732,25 +2786,11 @@ void load_assemble(int i,struct regstat *i_regs) if (opcode[i]==0x24) { // LBU if(!c||memtarget) { if(!dummy) { - #ifdef HOST_IMM_ADDR32 - if(c) - emit_movzbl_tlb((constmap[i][s]+offset)^3,map,tl); - else - #endif - { - //emit_xorimm(addr,3,tl); - //emit_movzbl_indexed((int)rdram-0x80000000,tl,tl); - int x=0,a=tl; -#ifdef BIG_ENDIAN_MIPS - if(!c) emit_xorimm(addr,3,tl); - else x=((constmap[i][s]+offset)^3)-(constmap[i][s]+offset); -#else - if(!c) a=addr; -#endif - if(fastload_reg_override) a=fastload_reg_override; + int x=0,a=tl; + if(!c) a=addr; + if(fastio_reg_override>=0) a=fastio_reg_override; - emit_movzbl_indexed_tlb(x,a,map,tl); - } + emit_movzbl_indexed(x,a,tl); } if(jaddr) add_stub_r(LOADBU_STUB,jaddr,out,i,addr,i_regs,ccadj[i],reglist); @@ -2761,33 +2801,10 @@ void load_assemble(int i,struct regstat *i_regs) if (opcode[i]==0x25) { // LHU if(!c||memtarget) { if(!dummy) { - #ifdef HOST_IMM_ADDR32 - if(c) - emit_movzwl_tlb((constmap[i][s]+offset)^2,map,tl); - else - #endif - { - int x=0,a=tl; -#ifdef BIG_ENDIAN_MIPS - if(!c) emit_xorimm(addr,2,tl); - else x=((constmap[i][s]+offset)^2)-(constmap[i][s]+offset); -#else - if(!c) a=addr; -#endif - if(fastload_reg_override) a=fastload_reg_override; - //#ifdef - //emit_movzwl_indexed_tlb(x,tl,map,tl); - //#else - if(map>=0) { - emit_movzwl_indexed(x,a,tl); - }else{ - #if 1 //def RAM_OFFSET - emit_movzwl_indexed(x,a,tl); - #else - emit_movzwl_indexed((int)rdram-0x80000000+x,a,tl); - #endif - } - } + int x=0,a=tl; + if(!c) a=addr; + if(fastio_reg_override>=0) a=fastio_reg_override; + emit_movzwl_indexed(x,a,tl); } if(jaddr) add_stub_r(LOADHU_STUB,jaddr,out,i,addr,i_regs,ccadj[i],reglist); @@ -2796,70 +2813,108 @@ void load_assemble(int i,struct regstat *i_regs) inline_readstub(LOADHU_STUB,i,constmap[i][s]+offset,i_regs->regmap,rt1[i],ccadj[i],reglist); } if (opcode[i]==0x27) { // LWU - assert(th>=0); - if(!c||memtarget) { - if(!dummy) { - int a=addr; - if(fastload_reg_override) a=fastload_reg_override; - //emit_readword_indexed((int)rdram-0x80000000,addr,tl); - #ifdef HOST_IMM_ADDR32 - if(c) - emit_readword_tlb(constmap[i][s]+offset,map,tl); - else - #endif - emit_readword_indexed_tlb(0,a,map,tl); - } - if(jaddr) - add_stub_r(LOADW_STUB,jaddr,out,i,addr,i_regs,ccadj[i],reglist); - } - else { - inline_readstub(LOADW_STUB,i,constmap[i][s]+offset,i_regs->regmap,rt1[i],ccadj[i],reglist); - } - emit_zeroreg(th); + assert(0); } if (opcode[i]==0x37) { // LD - if(!c||memtarget) { - if(!dummy) { - int a=addr; - if(fastload_reg_override) a=fastload_reg_override; - //if(th>=0) emit_readword_indexed((int)rdram-0x80000000,addr,th); - //emit_readword_indexed((int)rdram-0x7FFFFFFC,addr,tl); - #ifdef HOST_IMM_ADDR32 - if(c) - emit_readdword_tlb(constmap[i][s]+offset,map,th,tl); - else - #endif - emit_readdword_indexed_tlb(0,a,map,th,tl); - } - if(jaddr) - add_stub_r(LOADD_STUB,jaddr,out,i,addr,i_regs,ccadj[i],reglist); - } - else - inline_readstub(LOADD_STUB,i,constmap[i][s]+offset,i_regs->regmap,rt1[i],ccadj[i],reglist); + assert(0); } } + if (fastio_reg_override == HOST_TEMPREG) + host_tempreg_release(); } #ifndef loadlr_assemble -void loadlr_assemble(int i,struct regstat *i_regs) +static void loadlr_assemble(int i, const struct regstat *i_regs) { - printf("Need loadlr_assemble for this architecture.\n"); - exit(1); + int s,tl,temp,temp2,addr; + int offset; + void *jaddr=0; + int memtarget=0,c=0; + int fastio_reg_override=-1; + u_int reglist=get_host_reglist(i_regs->regmap); + 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]; + reglist|=1<=0) { + c=(i_regs->wasconst>>s)&1; + if(c) { + memtarget=((signed int)(constmap[i][s]+offset))<(signed int)0x80000000+RAM_SIZE; + } + } + if(!c) { + emit_shlimm(addr,3,temp); + if (opcode[i]==0x22||opcode[i]==0x26) { + emit_andimm(addr,0xFFFFFFFC,temp2); // LWL/LWR + }else{ + emit_andimm(addr,0xFFFFFFF8,temp2); // LDL/LDR + } + jaddr=emit_fastpath_cmp_jump(i,temp2,&fastio_reg_override); + } + else { + if(ram_offset&&memtarget) { + host_tempreg_acquire(); + emit_addimm(temp2,ram_offset,HOST_TEMPREG); + fastio_reg_override=HOST_TEMPREG; + } + 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 + } + } + if (opcode[i]==0x22||opcode[i]==0x26) { // LWL/LWR + if(!c||memtarget) { + int a=temp2; + if(fastio_reg_override>=0) a=fastio_reg_override; + emit_readword_indexed(0,a,temp2); + if(fastio_reg_override==HOST_TEMPREG) host_tempreg_release(); + if(jaddr) add_stub_r(LOADW_STUB,jaddr,out,i,temp2,i_regs,ccadj[i],reglist); + } + else + inline_readstub(LOADW_STUB,i,(constmap[i][s]+offset)&0xFFFFFFFC,i_regs->regmap,FTEMP,ccadj[i],reglist); + if(rt1[i]) { + assert(tl>=0); + emit_andimm(temp,24,temp); + if (opcode[i]==0x22) // LWL + emit_xorimm(temp,24,temp); + host_tempreg_acquire(); + emit_movimm(-1,HOST_TEMPREG); + if (opcode[i]==0x26) { + emit_shr(temp2,temp,temp2); + emit_bic_lsr(tl,HOST_TEMPREG,temp,tl); + }else{ + emit_shl(temp2,temp,temp2); + emit_bic_lsl(tl,HOST_TEMPREG,temp,tl); + } + host_tempreg_release(); + emit_or(temp2,tl,tl); + } + //emit_storereg(rt1[i],tl); // DEBUG + } + if (opcode[i]==0x1A||opcode[i]==0x1B) { // LDL/LDR + assert(0); + } } #endif -void store_assemble(int i,struct regstat *i_regs) +void store_assemble(int i, const struct regstat *i_regs) { - int s,th,tl,map=-1; + int s,tl; int addr,temp; int offset; void *jaddr=0; enum stub_type 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); + int fastio_reg_override=-1; + u_int reglist=get_host_reglist(i_regs->regmap); tl=get_reg(i_regs->regmap,rs2[i]); s=get_reg(i_regs->regmap,rs1[i]); temp=get_reg(i_regs->regmap,agr); @@ -2873,90 +2928,57 @@ void store_assemble(int i,struct regstat *i_regs) } assert(tl>=0); assert(temp>=0); - for(hr=0;hrregmap[hr]>=0) reglist|=1<regmap[HOST_CCREG]==CCREG) reglist&=~(1<=0) a=fastio_reg_override; + emit_writebyte_indexed(tl,x,a); } type=STOREB_STUB; } if (opcode[i]==0x29) { // SH if(!c||memtarget) { int x=0,a=temp; -#ifdef BIG_ENDIAN_MIPS - if(!c) emit_xorimm(addr,2,temp); - else x=((constmap[i][s]+offset)^2)-(constmap[i][s]+offset); -#else if(!c) a=addr; -#endif - if(faststore_reg_override) a=faststore_reg_override; - //#ifdef - //emit_writehword_indexed_tlb(tl,x,temp,map,temp); - //#else - if(map>=0) { - emit_writehword_indexed(tl,x,a); - }else - //emit_writehword_indexed(tl,(int)rdram-0x80000000+x,a); - emit_writehword_indexed(tl,x,a); + if(fastio_reg_override>=0) a=fastio_reg_override; + emit_writehword_indexed(tl,x,a); } type=STOREH_STUB; } if (opcode[i]==0x2B) { // SW if(!c||memtarget) { int a=addr; - 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(fastio_reg_override>=0) a=fastio_reg_override; + emit_writeword_indexed(tl,0,a); } type=STOREW_STUB; } if (opcode[i]==0x3F) { // SD - if(!c||memtarget) { - int a=addr; - if(faststore_reg_override) a=faststore_reg_override; - if(rs2[i]) { - assert(th>=0); - //emit_writeword_indexed(th,(int)rdram-0x80000000,addr); - //emit_writeword_indexed(tl,(int)rdram-0x7FFFFFFC,addr); - emit_writedword_indexed_tlb(th,tl,0,a,map,temp); - }else{ - // Store zero - //emit_writeword_indexed(tl,(int)rdram-0x80000000,temp); - //emit_writeword_indexed(tl,(int)rdram-0x7FFFFFFC,temp); - emit_writedword_indexed_tlb(tl,tl,0,a,map,temp); - } - } + assert(0); type=STORED_STUB; } + if(fastio_reg_override==HOST_TEMPREG) + host_tempreg_release(); if(jaddr) { // PCSX store handlers don't check invcode again reglist|=1<waswritten&(1<waswritten&(1<=0); emit_cmpmem_indexedsr12_reg(ir,addr,1); #else - emit_cmpmem_indexedsr12_imm((int)invalid_code,addr,1); + emit_cmpmem_indexedsr12_imm(invalid_code,addr,1); #endif #if defined(HAVE_CONDITIONAL_CALL) && !defined(DESTRUCTIVE_SHIFT) emit_callne(invalidate_addr_reg[addr]); @@ -2987,32 +3009,33 @@ void store_assemble(int i,struct regstat *i_regs) } // basic current block modification detection.. // not looking back as that should be in mips cache already + // (see Spyro2 title->attract mode) if(c&&start+i*4regmap==regs[i].regmap); // not delay slot if(i_regs->regmap==regs[i].regmap) { - load_all_consts(regs[i].regmap_entry,regs[i].was32,regs[i].wasdirty,i); - wb_dirtys(regs[i].regmap_entry,regs[i].was32,regs[i].wasdirty); + load_all_consts(regs[i].regmap_entry,regs[i].wasdirty,i); + wb_dirtys(regs[i].regmap_entry,regs[i].wasdirty); emit_movimm(start+i*4+4,0); - emit_writeword(0,(int)&pcaddr); - emit_jmp(do_interrupt); + emit_writeword(0,&pcaddr); + emit_addimm(HOST_CCREG,2,HOST_CCREG); + emit_far_call(get_addr_ht); + emit_jmpreg(0); } } } -void storelr_assemble(int i,struct regstat *i_regs) +static void storelr_assemble(int i, const struct regstat *i_regs) { - int s,th,tl; + int s,tl; int temp; - int temp2=-1; int offset; void *jaddr=0; void *case1, *case2, *case3; void *done0, *done1, *done2; int memtarget=0,c=0; int agr=AGEN1+(i&1); - u_int hr,reglist=0; - th=get_reg(i_regs->regmap,rs2[i]|64); + u_int reglist=get_host_reglist(i_regs->regmap); tl=get_reg(i_regs->regmap,rs2[i]); s=get_reg(i_regs->regmap,rs1[i]); temp=get_reg(i_regs->regmap,agr); @@ -3025,9 +3048,6 @@ void storelr_assemble(int i,struct regstat *i_regs) } } assert(tl>=0); - for(hr=0;hrregmap[hr]>=0) reglist|=1<=0); if(!c) { emit_cmpimm(s<0||offset?temp:s,RAM_SIZE); @@ -3042,22 +3062,14 @@ void storelr_assemble(int i,struct regstat *i_regs) emit_jmp(0); } } - #ifdef RAM_OFFSET - int map=get_reg(i_regs->regmap,ROREG); - if(map<0) emit_loadreg(ROREG,map=HOST_TEMPREG); - #else - if((u_int)rdram!=0x80000000) - emit_addimm_no_flags((u_int)rdram-(u_int)0x80000000,temp); - #endif + if(ram_offset) + emit_addimm_no_flags(ram_offset,temp); if (opcode[i]==0x2C||opcode[i]==0x2D) { // SDL/SDR - temp2=get_reg(i_regs->regmap,FTEMP); - if(!rs2[i]) temp2=th=tl; + assert(0); } -#ifndef BIG_ENDIAN_MIPS - emit_xorimm(temp,3,temp); -#endif + emit_xorimm(temp,3,temp); emit_testimm(temp,2); case2=out; emit_jne(0); @@ -3068,17 +3080,11 @@ void storelr_assemble(int i,struct regstat *i_regs) if (opcode[i]==0x2A) { // SWL emit_writeword_indexed(tl,0,temp); } - if (opcode[i]==0x2E) { // SWR - emit_writebyte_indexed(tl,3,temp); - } - if (opcode[i]==0x2C) { // SDL - emit_writeword_indexed(th,0,temp); - if(rs2[i]) emit_mov(tl,temp2); - } - if (opcode[i]==0x2D) { // SDR + else if (opcode[i]==0x2E) { // SWR emit_writebyte_indexed(tl,3,temp); - if(rs2[i]) emit_shldimm(th,tl,24,temp2); } + else + assert(0); done0=out; emit_jmp(0); // 1 @@ -3091,21 +3097,7 @@ void storelr_assemble(int i,struct regstat *i_regs) emit_writebyte_indexed(tl,1,temp); if(rs2[i]) emit_rorimm(tl,8,tl); } - if (opcode[i]==0x2E) { // SWR - // Write two lsb into two most significant bytes - emit_writehword_indexed(tl,1,temp); - } - if (opcode[i]==0x2C) { // SDL - if(rs2[i]) emit_shrdimm(tl,th,8,temp2); - // Write 3 msb into three least significant bytes - if(rs2[i]) emit_rorimm(th,8,th); - emit_writehword_indexed(th,-1,temp); - if(rs2[i]) emit_rorimm(th,16,th); - emit_writebyte_indexed(th,1,temp); - if(rs2[i]) emit_rorimm(th,8,th); - } - if (opcode[i]==0x2D) { // SDR - if(rs2[i]) emit_shldimm(th,tl,16,temp2); + else if (opcode[i]==0x2E) { // SWR // Write two lsb into two most significant bytes emit_writehword_indexed(tl,1,temp); } @@ -3122,22 +3114,7 @@ void storelr_assemble(int i,struct regstat *i_regs) emit_writehword_indexed(tl,-2,temp); if(rs2[i]) emit_rorimm(tl,16,tl); } - if (opcode[i]==0x2E) { // SWR - // Write 3 lsb into three most significant bytes - emit_writebyte_indexed(tl,-1,temp); - if(rs2[i]) emit_rorimm(tl,8,tl); - emit_writehword_indexed(tl,0,temp); - if(rs2[i]) emit_rorimm(tl,24,tl); - } - if (opcode[i]==0x2C) { // SDL - if(rs2[i]) emit_shrdimm(tl,th,16,temp2); - // Write two msb into two least significant bytes - if(rs2[i]) emit_rorimm(th,16,th); - emit_writehword_indexed(th,-2,temp); - if(rs2[i]) emit_rorimm(th,16,th); - } - if (opcode[i]==0x2D) { // SDR - if(rs2[i]) emit_shldimm(th,tl,8,temp2); + else if (opcode[i]==0x2E) { // SWR // Write 3 lsb into three most significant bytes emit_writebyte_indexed(tl,-1,temp); if(rs2[i]) emit_rorimm(tl,8,tl); @@ -3154,57 +3131,23 @@ void storelr_assemble(int i,struct regstat *i_regs) emit_writebyte_indexed(tl,-3,temp); if(rs2[i]) emit_rorimm(tl,8,tl); } - if (opcode[i]==0x2E) { // SWR - // Write entire word - emit_writeword_indexed(tl,-3,temp); - } - if (opcode[i]==0x2C) { // SDL - if(rs2[i]) emit_shrdimm(tl,th,24,temp2); - // Write msb into least significant byte - if(rs2[i]) emit_rorimm(th,24,th); - emit_writebyte_indexed(th,-3,temp); - if(rs2[i]) emit_rorimm(th,8,th); - } - if (opcode[i]==0x2D) { // SDR - if(rs2[i]) emit_mov(th,temp2); + else if (opcode[i]==0x2E) { // SWR // Write entire word emit_writeword_indexed(tl,-3,temp); } set_jump_target(done0, out); set_jump_target(done1, out); set_jump_target(done2, out); - if (opcode[i]==0x2C) { // SDL - emit_testimm(temp,4); - done0=out; - emit_jne(0); - emit_andimm(temp,~3,temp); - emit_writeword_indexed(temp2,4,temp); - set_jump_target(done0, out); - } - if (opcode[i]==0x2D) { // SDR - emit_testimm(temp,4); - done0=out; - emit_jeq(0); - emit_andimm(temp,~3,temp); - emit_writeword_indexed(temp2,-4,temp); - set_jump_target(done0, out); - } if(!c||!memtarget) add_stub_r(STORELR_STUB,jaddr,out,i,temp,i_regs,ccadj[i],reglist); - if(!(i_regs->waswritten&(1<regmap,ROREG); - if(map<0) map=HOST_TEMPREG; - gen_orig_addr_w(temp,map); - #else - emit_addimm_no_flags((u_int)0x80000000-(u_int)rdram,temp); - #endif + if(!(i_regs->waswritten&(1<regmap,INVCP); assert(ir>=0); emit_cmpmem_indexedsr12_reg(ir,temp,1); #else - emit_cmpmem_indexedsr12_imm((int)invalid_code,temp,1); + emit_cmpmem_indexedsr12_imm(invalid_code,temp,1); #endif #if defined(HAVE_CONDITIONAL_CALL) && !defined(DESTRUCTIVE_SHIFT) emit_callne(invalidate_addr_reg[temp]); @@ -3216,12 +3159,346 @@ void storelr_assemble(int i,struct regstat *i_regs) } } -void c1ls_assemble(int i,struct regstat *i_regs) -{ - cop1_unusable(i, i_regs); -} - -void c2ls_assemble(int i,struct regstat *i_regs) +static void cop0_assemble(int i,struct regstat *i_regs) +{ + if(opcode2[i]==0) // MFC0 + { + signed char t=get_reg(i_regs->regmap,rt1[i]); + u_int copr=(source[i]>>11)&0x1f; + //assert(t>=0); // Why does this happen? OOT is weird + if(t>=0&&rt1[i]!=0) { + emit_readword(®_cop0[copr],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); + wb_register(rs1[i],i_regs->regmap,i_regs->dirty); + if(copr==9||copr==11||copr==12||copr==13) { + emit_readword(&last_count,HOST_TEMPREG); + emit_loadreg(CCREG,HOST_CCREG); // TODO: do proper reg alloc + emit_add(HOST_CCREG,HOST_TEMPREG,HOST_CCREG); + emit_addimm(HOST_CCREG,CLOCK_ADJUST(ccadj[i]),HOST_CCREG); + emit_writeword(HOST_CCREG,&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||copr==13) { + if (is_delayslot) { + // burn cycles to cause cc_interrupt, which will + // reschedule next_interupt. Relies on CCREG from above. + assem_debug("MTC0 DS %d\n", copr); + emit_writeword(HOST_CCREG,&last_count); + emit_movimm(0,HOST_CCREG); + emit_storereg(CCREG,HOST_CCREG); + emit_loadreg(rs1[i],1); + emit_movimm(copr,0); + emit_far_call(pcsx_mtc0_ds); + emit_loadreg(rs1[i],s); + return; + } + emit_movimm(start+i*4+4,HOST_TEMPREG); + emit_writeword(HOST_TEMPREG,&pcaddr); + emit_movimm(0,HOST_TEMPREG); + emit_writeword(HOST_TEMPREG,&pending_exception); + } + if(s==HOST_CCREG) + emit_loadreg(rs1[i],1); + else if(s!=1) + emit_mov(s,1); + emit_movimm(copr,0); + emit_far_call(pcsx_mtc0); + if(copr==9||copr==11||copr==12||copr==13) { + emit_readword(&Count,HOST_CCREG); + emit_readword(&next_interupt,HOST_TEMPREG); + emit_addimm(HOST_CCREG,-CLOCK_ADJUST(ccadj[i]),HOST_CCREG); + emit_sub(HOST_CCREG,HOST_TEMPREG,HOST_CCREG); + emit_writeword(HOST_TEMPREG,&last_count); + emit_storereg(CCREG,HOST_CCREG); + } + if(copr==12||copr==13) { + assert(!is_delayslot); + emit_readword(&pending_exception,14); + emit_test(14,14); + void *jaddr = out; + emit_jeq(0); + emit_readword(&pcaddr, 0); + emit_addimm(HOST_CCREG,2,HOST_CCREG); + emit_far_call(get_addr_ht); + emit_jmpreg(0); + set_jump_target(jaddr, out); + } + emit_loadreg(rs1[i],s); + } + else + { + assert(opcode2[i]==0x10); + //if((source[i]&0x3f)==0x10) // RFE + { + emit_readword(&Status,0); + emit_andimm(0,0x3c,1); + emit_andimm(0,~0xf,0); + emit_orrshr_imm(1,2,0); + emit_writeword(0,&Status); + } + } +} + +static void cop1_unusable(int i,struct regstat *i_regs) +{ + // XXX: should just just do the exception instead + //if(!cop1_usable) + { + void *jaddr=out; + emit_jmp(0); + add_stub_r(FP_STUB,jaddr,out,i,0,i_regs,is_delayslot,0); + } +} + +static void cop1_assemble(int i,struct regstat *i_regs) +{ + cop1_unusable(i, i_regs); +} + +static void c1ls_assemble(int i,struct regstat *i_regs) +{ + cop1_unusable(i, i_regs); +} + +// FP_STUB +static void do_cop1stub(int n) +{ + literal_pool(256); + assem_debug("do_cop1stub %x\n",start+stubs[n].a*4); + set_jump_target(stubs[n].addr, out); + int i=stubs[n].a; +// int rs=stubs[n].b; + struct regstat *i_regs=(struct regstat *)stubs[n].c; + int ds=stubs[n].d; + if(!ds) { + load_all_consts(regs[i].regmap_entry,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->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_ADJUST(ccadj[i]),HOST_CCREG); // CHECK: is this right? There should probably be an extra cycle... + emit_far_jump(ds?fp_exception_ds:fp_exception); +} + +static int cop2_is_stalling_op(int i, int *cycles) +{ + if (opcode[i] == 0x3a) { // SWC2 + *cycles = 0; + return 1; + } + if (itype[i] == COP2 && (opcode2[i] == 0 || opcode2[i] == 2)) { // MFC2/CFC2 + *cycles = 0; + return 1; + } + if (itype[i] == C2OP) { + *cycles = gte_cycletab[source[i] & 0x3f]; + return 1; + } + // ... what about MTC2/CTC2/LWC2? + return 0; +} + +#if 0 +static void log_gte_stall(int stall, u_int cycle) +{ + if ((u_int)stall <= 44) + printf("x stall %2d %u\n", stall, cycle + last_count); + if (cycle + last_count > 1215348544) exit(1); +} + +static void emit_log_gte_stall(int i, int stall, u_int reglist) +{ + save_regs(reglist); + if (stall > 0) + emit_movimm(stall, 0); + else + emit_mov(HOST_TEMPREG, 0); + emit_addimm(HOST_CCREG, CLOCK_ADJUST(ccadj[i]), 1); + emit_far_call(log_gte_stall); + restore_regs(reglist); +} +#endif + +static void cop2_call_stall_check(u_int op, int i, const struct regstat *i_regs, u_int reglist) +{ + int j = i, other_gte_op_cycles = -1, stall = -MAXBLOCK, cycles_passed; + int rtmp = reglist_find_free(reglist); + + if (HACK_ENABLED(NDHACK_GTE_NO_STALL)) + return; + //assert(get_reg(i_regs->regmap, CCREG) == HOST_CCREG); + if (get_reg(i_regs->regmap, CCREG) != HOST_CCREG) { + // happens occasionally... cc evicted? Don't bother then + //printf("no cc %08x\n", start + i*4); + return; + } + if (!bt[i]) { + for (j = i - 1; j >= 0; j--) { + //if (is_ds[j]) break; + if (cop2_is_stalling_op(j, &other_gte_op_cycles) || bt[j]) + break; + } + } + cycles_passed = CLOCK_ADJUST(ccadj[i] - ccadj[j]); + if (other_gte_op_cycles >= 0) + stall = other_gte_op_cycles - cycles_passed; + else if (cycles_passed >= 44) + stall = 0; // can't stall + if (stall == -MAXBLOCK && rtmp >= 0) { + // unknown stall, do the expensive runtime check + assem_debug("; cop2_call_stall_check\n"); +#if 0 // too slow + save_regs(reglist); + emit_movimm(gte_cycletab[op], 0); + emit_addimm(HOST_CCREG, CLOCK_ADJUST(ccadj[i]), 1); + emit_far_call(call_gteStall); + restore_regs(reglist); +#else + host_tempreg_acquire(); + emit_readword(&psxRegs.gteBusyCycle, rtmp); + emit_addimm(rtmp, -CLOCK_ADJUST(ccadj[i]), rtmp); + emit_sub(rtmp, HOST_CCREG, HOST_TEMPREG); + emit_cmpimm(HOST_TEMPREG, 44); + emit_cmovb_reg(rtmp, HOST_CCREG); + //emit_log_gte_stall(i, 0, reglist); + host_tempreg_release(); +#endif + } + else if (stall > 0) { + //emit_log_gte_stall(i, stall, reglist); + emit_addimm(HOST_CCREG, stall, HOST_CCREG); + } + + // save gteBusyCycle, if needed + if (gte_cycletab[op] == 0) + return; + other_gte_op_cycles = -1; + for (j = i + 1; j < slen; j++) { + if (cop2_is_stalling_op(j, &other_gte_op_cycles)) + break; + if (is_jump(j)) { + // check ds + if (j + 1 < slen && cop2_is_stalling_op(j + 1, &other_gte_op_cycles)) + j++; + break; + } + } + if (other_gte_op_cycles >= 0) + // will handle stall when assembling that op + return; + cycles_passed = CLOCK_ADJUST(ccadj[min(j, slen -1)] - ccadj[i]); + if (cycles_passed >= 44) + return; + assem_debug("; save gteBusyCycle\n"); + host_tempreg_acquire(); +#if 0 + emit_readword(&last_count, HOST_TEMPREG); + emit_add(HOST_TEMPREG, HOST_CCREG, HOST_TEMPREG); + emit_addimm(HOST_TEMPREG, CLOCK_ADJUST(ccadj[i]), HOST_TEMPREG); + emit_addimm(HOST_TEMPREG, gte_cycletab[op]), HOST_TEMPREG); + emit_writeword(HOST_TEMPREG, &psxRegs.gteBusyCycle); +#else + emit_addimm(HOST_CCREG, CLOCK_ADJUST(ccadj[i]) + gte_cycletab[op], HOST_TEMPREG); + emit_writeword(HOST_TEMPREG, &psxRegs.gteBusyCycle); +#endif + host_tempreg_release(); +} + +static void cop2_get_dreg(u_int copr,signed char tl,signed char temp) +{ + switch (copr) { + case 1: + case 3: + case 5: + case 8: + case 9: + case 10: + case 11: + emit_readword(®_cop2d[copr],tl); + emit_signextend16(tl,tl); + emit_writeword(tl,®_cop2d[copr]); // hmh + break; + case 7: + case 16: + case 17: + case 18: + case 19: + emit_readword(®_cop2d[copr],tl); + emit_andimm(tl,0xffff,tl); + emit_writeword(tl,®_cop2d[copr]); + break; + case 15: + emit_readword(®_cop2d[14],tl); // SXY2 + emit_writeword(tl,®_cop2d[copr]); + break; + case 28: + case 29: + c2op_mfc2_29_assemble(tl,temp); + break; + default: + emit_readword(®_cop2d[copr],tl); + break; + } +} + +static void cop2_put_dreg(u_int copr,signed char sl,signed char temp) +{ + switch (copr) { + case 15: + emit_readword(®_cop2d[13],temp); // SXY1 + emit_writeword(sl,®_cop2d[copr]); + emit_writeword(temp,®_cop2d[12]); // SXY0 + emit_readword(®_cop2d[14],temp); // SXY2 + emit_writeword(sl,®_cop2d[14]); + emit_writeword(temp,®_cop2d[13]); // SXY1 + break; + case 28: + emit_andimm(sl,0x001f,temp); + emit_shlimm(temp,7,temp); + emit_writeword(temp,®_cop2d[9]); + emit_andimm(sl,0x03e0,temp); + emit_shlimm(temp,2,temp); + emit_writeword(temp,®_cop2d[10]); + emit_andimm(sl,0x7c00,temp); + emit_shrimm(temp,3,temp); + emit_writeword(temp,®_cop2d[11]); + emit_writeword(sl,®_cop2d[28]); + break; + case 30: + emit_xorsar_imm(sl,sl,31,temp); +#if defined(HAVE_ARMV5) || defined(__aarch64__) + emit_clz(temp,temp); +#else + emit_movs(temp,HOST_TEMPREG); + emit_movimm(0,temp); + emit_jeq((int)out+4*4); + emit_addpl_imm(temp,1,temp); + emit_lslpls_imm(HOST_TEMPREG,1,HOST_TEMPREG); + emit_jns((int)out-2*4); +#endif + emit_writeword(sl,®_cop2d[30]); + emit_writeword(temp,®_cop2d[31]); + break; + case 31: + break; + default: + emit_writeword(sl,®_cop2d[copr]); + break; + } +} + +static void c2ls_assemble(int i, const struct regstat *i_regs) { int s,tl; int ar; @@ -3230,8 +3507,8 @@ void c2ls_assemble(int i,struct regstat *i_regs) void *jaddr2=NULL; enum stub_type type; int agr=AGEN1+(i&1); - int fastio_reg_override=0; - u_int hr,reglist=0; + int fastio_reg_override=-1; + u_int reglist=get_host_reglist(i_regs->regmap); u_int copr=(source[i]>>16)&0x1f; s=get_reg(i_regs->regmap,rs1[i]); tl=get_reg(i_regs->regmap,FTEMP); @@ -3239,9 +3516,6 @@ void c2ls_assemble(int i,struct regstat *i_regs) assert(rs1[i]>0); assert(tl>=0); - for(hr=0;hrregmap[hr]>=0) reglist|=1<regmap[HOST_CCREG]==CCREG) reglist&=~(1<=0); if (opcode[i]==0x3a) { // SWC2 - cop2_get_dreg(copr,tl,HOST_TEMPREG); + cop2_call_stall_check(0, i, i_regs, reglist_exclude(reglist, tl, -1)); + cop2_get_dreg(copr,tl,-1); type=STOREW_STUB; } else @@ -3274,16 +3549,13 @@ void c2ls_assemble(int i,struct regstat *i_regs) jaddr2=emit_fastpath_cmp_jump(i,ar,&fastio_reg_override); } else if(ram_offset&&memtarget) { + host_tempreg_acquire(); emit_addimm(ar,ram_offset,HOST_TEMPREG); fastio_reg_override=HOST_TEMPREG; } if (opcode[i]==0x32) { // LWC2 - #ifdef HOST_IMM_ADDR32 - if(c) emit_readword_tlb(constmap[i][s]+offset,-1,tl); - else - #endif int a=ar; - if(fastio_reg_override) a=fastio_reg_override; + if(fastio_reg_override>=0) a=fastio_reg_override; emit_readword_indexed(0,a,tl); } if (opcode[i]==0x3a) { // SWC2 @@ -3291,20 +3563,22 @@ void c2ls_assemble(int i,struct regstat *i_regs) if(!offset&&!c&&s>=0) emit_mov(s,ar); #endif int a=ar; - if(fastio_reg_override) a=fastio_reg_override; + if(fastio_reg_override>=0) a=fastio_reg_override; emit_writeword_indexed(tl,0,a); } } + if(fastio_reg_override==HOST_TEMPREG) + host_tempreg_release(); if(jaddr2) add_stub_r(type,jaddr2,out,i,ar,i_regs,ccadj[i],reglist); if(opcode[i]==0x3a) // SWC2 - if(!(i_regs->waswritten&(1<waswritten&(1<regmap,INVCP); assert(ir>=0); emit_cmpmem_indexedsr12_reg(ir,ar,1); #else - emit_cmpmem_indexedsr12_imm((int)invalid_code,ar,1); + emit_cmpmem_indexedsr12_imm(invalid_code,ar,1); #endif #if defined(HAVE_CONDITIONAL_CALL) && !defined(DESTRUCTIVE_SHIFT) emit_callne(invalidate_addr_reg[ar]); @@ -3315,96 +3589,305 @@ void c2ls_assemble(int i,struct regstat *i_regs) #endif } if (opcode[i]==0x32) { // LWC2 + host_tempreg_acquire(); cop2_put_dreg(copr,tl,HOST_TEMPREG); + host_tempreg_release(); + } +} + +static void cop2_assemble(int i, const struct regstat *i_regs) +{ + u_int copr = (source[i]>>11) & 0x1f; + signed char temp = get_reg(i_regs->regmap, -1); + + if (opcode2[i] == 0 || opcode2[i] == 2) { // MFC2/CFC2 + if (!HACK_ENABLED(NDHACK_GTE_NO_STALL)) { + signed char tl = get_reg(i_regs->regmap, rt1[i]); + u_int reglist = reglist_exclude(get_host_reglist(i_regs->regmap), tl, temp); + cop2_call_stall_check(0, i, i_regs, reglist); + } + } + if (opcode2[i]==0) { // MFC2 + signed char tl=get_reg(i_regs->regmap,rt1[i]); + if(tl>=0&&rt1[i]!=0) + cop2_get_dreg(copr,tl,temp); + } + else if (opcode2[i]==4) { // MTC2 + signed char sl=get_reg(i_regs->regmap,rs1[i]); + cop2_put_dreg(copr,sl,temp); + } + else if (opcode2[i]==2) // CFC2 + { + signed char tl=get_reg(i_regs->regmap,rt1[i]); + if(tl>=0&&rt1[i]!=0) + emit_readword(®_cop2c[copr],tl); + } + else if (opcode2[i]==6) // CTC2 + { + signed char sl=get_reg(i_regs->regmap,rs1[i]); + switch(copr) { + case 4: + case 12: + case 20: + case 26: + case 27: + case 29: + case 30: + emit_signextend16(sl,temp); + break; + case 31: + c2op_ctc2_31_assemble(sl,temp); + break; + default: + temp=sl; + break; + } + emit_writeword(temp,®_cop2c[copr]); + assert(sl>=0); + } +} + +static void do_unalignedwritestub(int n) +{ + assem_debug("do_unalignedwritestub %x\n",start+stubs[n].a*4); + literal_pool(256); + set_jump_target(stubs[n].addr, out); + + int i=stubs[n].a; + struct regstat *i_regs=(struct regstat *)stubs[n].c; + int addr=stubs[n].b; + u_int reglist=stubs[n].e; + signed char *i_regmap=i_regs->regmap; + int temp2=get_reg(i_regmap,FTEMP); + int rt; + rt=get_reg(i_regmap,rs2[i]); + assert(rt>=0); + assert(addr>=0); + assert(opcode[i]==0x2a||opcode[i]==0x2e); // SWL/SWR only implemented + reglist|=(1<regmap,rt1[i]|64); + signed char sl,tl; tl=get_reg(i_regs->regmap,rt1[i]); //assert(tl>=0); if(tl>=0) { - sh=get_reg(i_regs->regmap,rs1[i]|64); sl=get_reg(i_regs->regmap,rs1[i]); if(sl>=0) emit_mov(sl,tl); else emit_loadreg(rs1[i],tl); - if(th>=0) { - if(sh>=0) emit_mov(sh,th); - else emit_loadreg(rs1[i]|64,th); - } } } } -#ifndef fconv_assemble -void fconv_assemble(int i,struct regstat *i_regs) +// call interpreter, exception handler, things that change pc/regs/cycles ... +static void call_c_cpu_handler(int i, const struct regstat *i_regs, u_int pc, void *func) { - printf("Need fconv_assemble for this architecture.\n"); - exit(1); + signed char ccreg=get_reg(i_regs->regmap,CCREG); + assert(ccreg==HOST_CCREG); + assert(!is_delayslot); + (void)ccreg; + + emit_movimm(pc,3); // Get PC + emit_readword(&last_count,2); + emit_writeword(3,&psxRegs.pc); + emit_addimm(HOST_CCREG,CLOCK_ADJUST(ccadj[i]),HOST_CCREG); // XXX + emit_add(2,HOST_CCREG,2); + emit_writeword(2,&psxRegs.cycle); + emit_far_call(func); + emit_far_jump(jump_to_new_pc); } -#endif -#if 0 -void float_assemble(int i,struct regstat *i_regs) +static void syscall_assemble(int i,struct regstat *i_regs) { - printf("Need float_assemble for this architecture.\n"); - exit(1); + emit_movimm(0x20,0); // cause code + emit_movimm(0,1); // not in delay slot + call_c_cpu_handler(i,i_regs,start+i*4,psxException); } -#endif -void syscall_assemble(int i,struct regstat *i_regs) +static void hlecall_assemble(int i,struct regstat *i_regs) { - signed char ccreg=get_reg(i_regs->regmap,CCREG); - assert(ccreg==HOST_CCREG); - assert(!is_delayslot); - (void)ccreg; - emit_movimm(start+i*4,EAX); // Get PC - emit_addimm(HOST_CCREG,CLOCK_ADJUST(ccadj[i]),HOST_CCREG); // CHECK: is this right? There should probably be an extra cycle... - emit_jmp(jump_syscall_hle); // XXX + void *hlefunc = psxNULL; + uint32_t hleCode = source[i] & 0x03ffffff; + if (hleCode < ARRAY_SIZE(psxHLEt)) + hlefunc = psxHLEt[hleCode]; + + call_c_cpu_handler(i,i_regs,start+i*4+4,hlefunc); } -void hlecall_assemble(int i,struct regstat *i_regs) +static void intcall_assemble(int i,struct regstat *i_regs) { - extern void psxNULL(); - signed char ccreg=get_reg(i_regs->regmap,CCREG); - assert(ccreg==HOST_CCREG); - assert(!is_delayslot); - (void)ccreg; - emit_movimm(start+i*4+4,0); // Get PC - uint32_t hleCode = source[i] & 0x03ffffff; - if (hleCode >= ARRAY_SIZE(psxHLEt)) - emit_movimm((int)psxNULL,1); - else - emit_movimm((int)psxHLEt[hleCode],1); - emit_addimm(HOST_CCREG,CLOCK_ADJUST(ccadj[i]),HOST_CCREG); // XXX - emit_jmp(jump_hlecall); + call_c_cpu_handler(i,i_regs,start+i*4,execI); } -void intcall_assemble(int i,struct regstat *i_regs) +static void speculate_mov(int rs,int rt) { - signed char ccreg=get_reg(i_regs->regmap,CCREG); - assert(ccreg==HOST_CCREG); - assert(!is_delayslot); - (void)ccreg; - emit_movimm(start+i*4,0); // Get PC - emit_addimm(HOST_CCREG,CLOCK_ADJUST(ccadj[i]),HOST_CCREG); - emit_jmp(jump_intcall); + if(rt!=0) { + smrv_strong_next|=1<>rs1[i])&1) speculate_mov(rs1[i],rt1[i]); + else if((smrv_strong>>rs2[i])&1) speculate_mov(rs2[i],rt1[i]); + else if((smrv_weak>>rs1[i])&1) speculate_mov_weak(rs1[i],rt1[i]); + else if((smrv_weak>>rs2[i])&1) speculate_mov_weak(rs2[i],rt1[i]); + else { + smrv_strong_next&=~(1<=0) { + if(get_final_value(hr,i,&value)) + smrv[rt1[i]]=value; + else smrv[rt1[i]]=constmap[i][hr]; + smrv_strong_next|=1<>rs1[i])&1) speculate_mov(rs1[i],rt1[i]); + else if((smrv_weak>>rs1[i])&1) speculate_mov_weak(rs1[i],rt1[i]); + } + break; + case LOAD: + if(start<0x2000&&(rt1[i]==26||(smrv[rt1[i]]>>24)==0xa0)) { + // special case for BIOS + smrv[rt1[i]]=0xa0000000; + smrv_strong_next|=1<>r)&1),(smrv_weak>>r)&1,regs[i].isconst,regs[i].wasconst); +#endif } -void ds_assemble(int i,struct regstat *i_regs) +static void ds_assemble(int i,struct regstat *i_regs) { speculate_register_values(i); is_delayslot=1; @@ -3437,12 +3920,6 @@ void ds_assemble(int i,struct regstat *i_regs) c2ls_assemble(i,i_regs);break; case C2OP: c2op_assemble(i,i_regs);break; - case FCONV: - fconv_assemble(i,i_regs);break; - case FLOAT: - float_assemble(i,i_regs);break; - case FCOMP: - fcomp_assemble(i,i_regs);break; case MULTDIV: multdiv_assemble(i,i_regs);break; case MOV: @@ -3455,36 +3932,23 @@ void ds_assemble(int i,struct regstat *i_regs) case RJUMP: case CJUMP: case SJUMP: - case FJUMP: SysPrintf("Jump in the delay slot. This is probably a bug.\n"); } is_delayslot=0; } // Is the branch target a valid internal jump? -int internal_branch(uint64_t i_is32,int addr) +static int internal_branch(int addr) { if(addr&1) return 0; // Indirect (register) jump if(addr>=start && addr>2; - // Delay slots are not valid branch targets - //if(t>0&&(itype[t-1]==RJUMP||itype[t-1]==UJUMP||itype[t-1]==CJUMP||itype[t-1]==SJUMP||itype[t-1]==FJUMP)) return 0; - // 64 -> 32 bit transition requires a recompile - /*if(is32[t]&~unneeded_reg_upper[t]&~i_is32) - { - if(requires_32bit[t]&~i_is32) printf("optimizable: no\n"); - else printf("optimizable: yes\n"); - }*/ - //if(is32[t]&~unneeded_reg_upper[t]&~i_is32) return 0; return 1; } return 0; } -#ifndef wb_invalidate -void wb_invalidate(signed char pre[],signed char entry[],uint64_t dirty,uint64_t is32, - uint64_t u,uint64_t uu) +static void wb_invalidate(signed char pre[],signed char entry[],uint64_t dirty,uint64_t u) { int hr; for(hr=0;hr=0) { if((dirty>>hr)&1) { if(get_reg(entry,pre[hr])<0) { - if(pre[hr]<64) { - if(!((u>>pre[hr])&1)) { - emit_storereg(pre[hr],hr); - if( ((is32>>pre[hr])&1) && !((uu>>pre[hr])&1) ) { - emit_sarimm(hr,31,hr); - emit_storereg(pre[hr]|64,hr); - } - } - }else{ - if(!((uu>>(pre[hr]&63))&1) && !((is32>>(pre[hr]&63))&1)) { - emit_storereg(pre[hr],hr); - } - } + assert(pre[hr]<64); + if(!((u>>pre[hr])&1)) + emit_storereg(pre[hr],hr); } } } @@ -3526,12 +3980,11 @@ void wb_invalidate(signed char pre[],signed char entry[],uint64_t dirty,uint64_t } } } -#endif // Load the specified registers // This only loads the registers given as arguments because // we don't want to load things that will be overwritten -void load_regs(signed char entry[],signed char regmap[],int is32,int rs1,int rs2) +static void load_regs(signed char entry[],signed char regmap[],int rs1,int rs2) { int hr; // Load 32-bit regs @@ -3551,28 +4004,6 @@ void load_regs(signed char entry[],signed char regmap[],int is32,int rs1,int rs2 } } } - //Load 64-bit regs - for(hr=0;hr=0) { - if(entry[hr]!=regmap[hr]) { - if(regmap[hr]-64==rs1||regmap[hr]-64==rs2) - { - assert(regmap[hr]!=64); - if((is32>>(regmap[hr]&63))&1) { - int lr=get_reg(regmap,regmap[hr]-64); - if(lr>=0) - emit_sarimm(lr,31,hr); - else - emit_loadreg(regmap[hr],hr); - } - else - { - emit_loadreg(regmap[hr],hr); - } - } - } - } - } } // Load registers prior to the start of a loop @@ -3662,9 +4093,6 @@ void address_generation(int i,struct regstat *i_regs,signed char entry[]) }else if (opcode[i]==0x1a||opcode[i]==0x1b) { emit_movimm((constmap[i][rs]+offset)&0xFFFFFFF8,ra); // LDL/LDR }else{ - #ifdef HOST_IMM_ADDR32 - if((itype[i]!=LOAD&&(opcode[i]&0x3b)!=0x31&&(opcode[i]&0x3b)!=0x32)) // LWC1/LDC1/LWC2/LDC2 - #endif emit_movimm(constmap[i][rs]+offset,ra); regs[i].loadedconst|=1<>reg)&1); - }else{ - return !((unneeded_reg_upper[i+1]>>reg)&1); - } + assert(reg < 64); + return !((unneeded_reg[i+1]>>reg)&1); } // Load registers with known constants -void load_consts(signed char pre[],signed char regmap[],int is32,int i) +static void load_consts(signed char pre[],signed char regmap[],int i) { int hr,hr2; // propagate loaded constant flags @@ -3781,7 +4203,8 @@ void load_consts(signed char pre[],signed char regmap[],int is32,int i) if(hr!=EXCLUDE_REG&®map[hr]>=0) { //if(entry[hr]!=regmap[hr]) { if(!((regs[i].loadedconst>>hr)&1)) { - if(((regs[i].isconst>>hr)&1)&®map[hr]<64&®map[hr]>0) { + assert(regmap[hr]<64); + if(((regs[i].isconst>>hr)&1)&®map[hr]>0) { int value,similar=0; if(get_final_value(hr,i,&value)) { // see if some other register has similar value @@ -3812,41 +4235,16 @@ void load_consts(signed char pre[],signed char regmap[],int is32,int i) } } } - // Load 64-bit regs - for(hr=0;hr=0) { - //if(entry[hr]!=regmap[hr]) { - if(i==0||!((regs[i-1].isconst>>hr)&1)||pre[hr]!=regmap[hr]||bt[i]) { - if(((regs[i].isconst>>hr)&1)&®map[hr]>64) { - if((is32>>(regmap[hr]&63))&1) { - int lr=get_reg(regmap,regmap[hr]-64); - assert(lr>=0); - emit_sarimm(lr,31,hr); - } - else - { - int value; - if(get_final_value(hr,i,&value)) { - if(value==0) { - emit_zeroreg(hr); - } - else { - emit_movimm(value,hr); - } - } - } - } - } - } - } } -void load_all_consts(signed char regmap[],int is32,u_int dirty,int i) + +void load_all_consts(signed char regmap[], u_int dirty, int i) { int hr; // Load 32-bit regs for(hr=0;hr=0&&((dirty>>hr)&1)) { - if(((regs[i].isconst>>hr)&1)&®map[hr]<64&®map[hr]>0) { + assert(regmap[hr] < 64); + if(((regs[i].isconst>>hr)&1)&®map[hr]>0) { int value=constmap[i][hr]; if(value==0) { emit_zeroreg(hr); @@ -3857,32 +4255,10 @@ void load_all_consts(signed char regmap[],int is32,u_int dirty,int i) } } } - // Load 64-bit regs - for(hr=0;hr=0&&((dirty>>hr)&1)) { - if(((regs[i].isconst>>hr)&1)&®map[hr]>64) { - if((is32>>(regmap[hr]&63))&1) { - int lr=get_reg(regmap,regmap[hr]-64); - assert(lr>=0); - emit_sarimm(lr,31,hr); - } - else - { - int value=constmap[i][hr]; - if(value==0) { - emit_zeroreg(hr); - } - else { - emit_movimm(value,hr); - } - } - } - } - } } // Write out all dirty registers (except cycle count) -void wb_dirtys(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty) +static void wb_dirtys(signed char i_regmap[],uint64_t i_dirty) { int hr; for(hr=0;hr0) { if(i_regmap[hr]!=CCREG) { if((i_dirty>>hr)&1) { - if(i_regmap[hr]<64) { - emit_storereg(i_regmap[hr],hr); - }else{ - if( !((i_is32>>(i_regmap[hr]&63))&1) ) { - emit_storereg(i_regmap[hr],hr); - } - } + assert(i_regmap[hr]<64); + emit_storereg(i_regmap[hr],hr); } } } } } } + // Write out dirty registers that we need to reload (pair with load_needed_regs) // This writes the registers not written by store_regs_bt -void wb_needed_dirtys(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty,int addr) +void wb_needed_dirtys(signed char i_regmap[],uint64_t i_dirty,int addr) { int hr; int t=(addr-start)>>2; @@ -3913,15 +4285,10 @@ void wb_needed_dirtys(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty,in if(hr!=EXCLUDE_REG) { if(i_regmap[hr]>0) { if(i_regmap[hr]!=CCREG) { - if(i_regmap[hr]==regs[t].regmap_entry[hr] && ((regs[t].dirty>>hr)&1) && !(((i_is32&~regs[t].was32&~unneeded_reg_upper[t])>>(i_regmap[hr]&63))&1)) { + if(i_regmap[hr]==regs[t].regmap_entry[hr] && ((regs[t].dirty>>hr)&1)) { if((i_dirty>>hr)&1) { - if(i_regmap[hr]<64) { - emit_storereg(i_regmap[hr],hr); - }else{ - if( !((i_is32>>(i_regmap[hr]&63))&1) ) { - emit_storereg(i_regmap[hr],hr); - } - } + assert(i_regmap[hr]<64); + emit_storereg(i_regmap[hr],hr); } } } @@ -3989,58 +4356,23 @@ void load_regs_entry(int t) } } } - // Load 64-bit regs - for(hr=0;hr=64&®s[t].regmap_entry[hr]>(regs[t].regmap_entry[hr]&63))&1) { - int lr=get_reg(regs[t].regmap_entry,regs[t].regmap_entry[hr]-64); - if(lr<0) { - emit_loadreg(regs[t].regmap_entry[hr],hr); - } - else - { - emit_sarimm(lr,31,hr); - } - } - else - { - emit_loadreg(regs[t].regmap_entry[hr],hr); - } - } - } } // Store dirty registers prior to branch -void store_regs_bt(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty,int addr) +void store_regs_bt(signed char i_regmap[],uint64_t i_dirty,int addr) { - if(internal_branch(i_is32,addr)) + if(internal_branch(addr)) { int t=(addr-start)>>2; int hr; for(hr=0;hr0 && i_regmap[hr]!=CCREG) { - if(i_regmap[hr]!=regs[t].regmap_entry[hr] || !((regs[t].dirty>>hr)&1) || (((i_is32&~regs[t].was32&~unneeded_reg_upper[t])>>(i_regmap[hr]&63))&1)) { + if(i_regmap[hr]!=regs[t].regmap_entry[hr] || !((regs[t].dirty>>hr)&1)) { if((i_dirty>>hr)&1) { - if(i_regmap[hr]<64) { - if(!((unneeded_reg[t]>>i_regmap[hr])&1)) { - emit_storereg(i_regmap[hr],hr); - if( ((i_is32>>i_regmap[hr])&1) && !((unneeded_reg_upper[t]>>i_regmap[hr])&1) ) { - #ifdef DESTRUCTIVE_WRITEBACK - emit_sarimm(hr,31,hr); - emit_storereg(i_regmap[hr]|64,hr); - #else - emit_sarimm(hr,31,HOST_TEMPREG); - emit_storereg(i_regmap[hr]|64,HOST_TEMPREG); - #endif - } - } - }else{ - if( !((i_is32>>(i_regmap[hr]&63))&1) && !((unneeded_reg_upper[t]>>(i_regmap[hr]&63))&1) ) { - emit_storereg(i_regmap[hr],hr); - } - } + assert(i_regmap[hr]<64); + if(!((unneeded_reg[t]>>i_regmap[hr])&1)) + emit_storereg(i_regmap[hr],hr); } } } @@ -4050,15 +4382,15 @@ void store_regs_bt(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty,int a else { // Branch out of this block, write out all dirty regs - wb_dirtys(i_regmap,i_is32,i_dirty); + wb_dirtys(i_regmap,i_dirty); } } // Load all needed registers for branch target -void load_regs_bt(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty,int addr) +static void load_regs_bt(signed char i_regmap[],uint64_t i_dirty,int addr) { //if(addr>=start && addr<(start+slen*4)) - if(internal_branch(i_is32,addr)) + if(internal_branch(addr)) { int t=(addr-start)>>2; int hr; @@ -4072,11 +4404,7 @@ void load_regs_bt(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty,int ad // Load 32-bit regs for(hr=0;hr=0&®s[t].regmap_entry[hr]>hr)&1) && ((i_dirty>>hr)&1) && (((i_is32&~unneeded_reg_upper[t])>>i_regmap[hr])&1) ) || (((i_is32&~regs[t].was32&~unneeded_reg_upper[t])>>(i_regmap[hr]&63))&1)) { - #else - if(i_regmap[hr]!=regs[t].regmap_entry[hr] ) { - #endif + if(i_regmap[hr]!=regs[t].regmap_entry[hr]) { if(regs[t].regmap_entry[hr]==0) { emit_zeroreg(hr); } @@ -4087,37 +4415,10 @@ void load_regs_bt(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty,int ad } } } - //Load 64-bit regs - for(hr=0;hr=64&®s[t].regmap_entry[hr]>(regs[t].regmap_entry[hr]&63))&1) { - int lr=get_reg(regs[t].regmap_entry,regs[t].regmap_entry[hr]-64); - if(lr<0) { - emit_loadreg(regs[t].regmap_entry[hr],hr); - } - else - { - emit_sarimm(lr,31,hr); - } - } - else - { - emit_loadreg(regs[t].regmap_entry[hr],hr); - } - } - else if((i_is32>>(regs[t].regmap_entry[hr]&63))&1) { - int lr=get_reg(regs[t].regmap_entry,regs[t].regmap_entry[hr]-64); - assert(lr>=0); - emit_sarimm(lr,31,hr); - } - } - } } } -int match_bt(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty,int addr) +static int match_bt(signed char i_regmap[],uint64_t i_dirty,int addr) { if(addr>=start && addr=64&&i_regmap[hr]>(i_regmap[hr]&63))&1)) - return 0; + assert(0); } } } @@ -4163,17 +4463,11 @@ int match_bt(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty,int addr) } } } - if((((regs[t].was32^i_is32)&~unneeded_reg_upper[t])>>(i_regmap[hr]&63))&1) - { - //printf("%x: is32 no match\n",addr); - return 0; - } } } } - //if(is32[t]&~unneeded_reg_upper[t]&~i_is32) return 0; // Delay slots are not valid branch targets - //if(t>0&&(itype[t-1]==RJUMP||itype[t-1]==UJUMP||itype[t-1]==CJUMP||itype[t-1]==SJUMP||itype[t-1]==FJUMP)) return 0; + //if(t>0&&(itype[t-1]==RJUMP||itype[t-1]==UJUMP||itype[t-1]==CJUMP||itype[t-1]==SJUMP)) return 0; // Delay slots require additional processing, so do not match if(is_ds[t]) return 0; } @@ -4204,26 +4498,41 @@ int match_bt(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty,int addr) static void drc_dbg_emit_do_cmp(int i) { extern void do_insn_cmp(); - extern int cycle; - u_int hr,reglist=0; + //extern int cycle; + u_int hr, reglist = get_host_reglist(regs[i].regmap); - for(hr=0;hr=0) reglist|=1< 0 && !bt[i]) { + for (hr = 0; hr < HOST_REGS; hr++) { + int reg = regs[i-1].regmap[hr]; + if (hr == EXCLUDE_REG || reg < 0) + continue; + if (!((regs[i-1].isconst >> hr) & 1)) + continue; + if (i > 1 && reg == regs[i-2].regmap[hr] && constmap[i-1][hr] == constmap[i-2][hr]) + continue; + emit_movimm(constmap[i-1][hr],0); + emit_storereg(reg, 0); + } + } emit_movimm(start+i*4,0); - emit_writeword(0,(int)&pcaddr); - emit_call((int)do_insn_cmp); - //emit_readword((int)&cycle,0); + emit_writeword(0,&pcaddr); + emit_far_call(do_insn_cmp); + //emit_readword(&cycle,0); //emit_addimm(0,2,0); - //emit_writeword(0,(int)&cycle); + //emit_writeword(0,&cycle); + (void)get_reg2; restore_regs(reglist); + assem_debug("\\\\do_insn_cmp\n"); } #else #define drc_dbg_emit_do_cmp(x) #endif // Used when a branch jumps into the delay slot of another branch -void ds_assemble_entry(int i) +static void ds_assemble_entry(int i) { int t=(ba[i]-start)>>2; if (!instr_addr[t]) @@ -4232,12 +4541,11 @@ void ds_assemble_entry(int i) assem_debug("<->\n"); drc_dbg_emit_do_cmp(t); if(regs[t].regmap_entry[HOST_CCREG]==CCREG&®s[t].regmap[HOST_CCREG]!=CCREG) - wb_register(CCREG,regs[t].regmap_entry,regs[t].wasdirty,regs[t].was32); - load_regs(regs[t].regmap_entry,regs[t].regmap,regs[t].was32,rs1[t],rs2[t]); + wb_register(CCREG,regs[t].regmap_entry,regs[t].wasdirty); + load_regs(regs[t].regmap_entry,regs[t].regmap,rs1[t],rs2[t]); address_generation(t,®s[t],regs[t].regmap_entry); if(itype[t]==STORE||itype[t]==STORELR||(opcode[t]&0x3b)==0x39||(opcode[t]&0x3b)==0x3a) - load_regs(regs[t].regmap_entry,regs[t].regmap,regs[t].was32,INVCP,INVCP); - cop1_usable=0; + load_regs(regs[t].regmap_entry,regs[t].regmap,INVCP,INVCP); is_delayslot=0; switch(itype[t]) { case ALU: @@ -4268,12 +4576,6 @@ void ds_assemble_entry(int i) c2ls_assemble(t,®s[t]);break; case C2OP: c2op_assemble(t,®s[t]);break; - case FCONV: - fconv_assemble(t,®s[t]);break; - case FLOAT: - float_assemble(t,®s[t]);break; - case FCOMP: - fcomp_assemble(t,®s[t]);break; case MULTDIV: multdiv_assemble(t,®s[t]);break; case MOV: @@ -4286,20 +4588,36 @@ void ds_assemble_entry(int i) case RJUMP: case CJUMP: case SJUMP: - case FJUMP: SysPrintf("Jump in the delay slot. This is probably a bug.\n"); } - store_regs_bt(regs[t].regmap,regs[t].is32,regs[t].dirty,ba[i]+4); - load_regs_bt(regs[t].regmap,regs[t].is32,regs[t].dirty,ba[i]+4); - if(internal_branch(regs[t].is32,ba[i]+4)) + store_regs_bt(regs[t].regmap,regs[t].dirty,ba[i]+4); + load_regs_bt(regs[t].regmap,regs[t].dirty,ba[i]+4); + if(internal_branch(ba[i]+4)) assem_debug("branch: internal\n"); else assem_debug("branch: external\n"); - assert(internal_branch(regs[t].is32,ba[i]+4)); - add_to_linker((int)out,ba[i]+4,internal_branch(regs[t].is32,ba[i]+4)); + assert(internal_branch(ba[i]+4)); + add_to_linker(out,ba[i]+4,internal_branch(ba[i]+4)); emit_jmp(0); } +static void emit_extjump(void *addr, u_int target) +{ + emit_extjump2(addr, target, dyna_linker); +} + +static void emit_extjump_ds(void *addr, u_int target) +{ + emit_extjump2(addr, target, dyna_linker_ds); +} + +// Load 2 immediates optimizing for small code size +static void emit_mov2imm_compact(int imm1,u_int rt1,int imm2,u_int rt2) +{ + emit_movimm(imm1,rt1); + emit_movimm_from(imm1,rt1,imm2,rt2); +} + void do_cc(int i,signed char i_regmap[],int *adj,int addr,int taken,int invert) { int count; @@ -4311,7 +4629,7 @@ void do_cc(int i,signed char i_regmap[],int *adj,int addr,int taken,int invert) *adj=0; } //if(ba[i]>=start && ba[i]<(start+slen*4)) - if(internal_branch(branch_regs[i].is32,ba[i])) + if(internal_branch(ba[i])) { t=(ba[i]-start)>>2; if(is_ds[t]) *adj=-1; // Branch into delay slot adds an extra cycle @@ -4334,11 +4652,13 @@ void do_cc(int i,signed char i_regmap[],int *adj,int addr,int taken,int invert) else if(*adj==0||invert) { int cycles=CLOCK_ADJUST(count+2); // faster loop HACK +#if 0 if (t&&*adj) { int rel=t-i; if(-NO_CYCLE_PENALTY_THR>rs1[i])&(branch_regs[i].is32>>rs2[i])&1) { - s1h=s2h=-1; + s2l=-1; } assert(s1l>=0); #ifdef DESTRUCTIVE_WRITEBACK if(rs1[i]) { - if((branch_regs[i].dirty>>s1l)&(branch_regs[i].is32>>rs1[i])&1) + if((branch_regs[i].dirty>>s1l)&&1) emit_loadreg(rs1[i],s1l); } else { - if((branch_regs[i].dirty>>s1l)&(branch_regs[i].is32>>rs2[i])&1) + if((branch_regs[i].dirty>>s1l)&1) emit_loadreg(rs2[i],s1l); } if(s2l>=0) - if((branch_regs[i].dirty>>s2l)&(branch_regs[i].is32>>rs2[i])&1) + if((branch_regs[i].dirty>>s2l)&1) emit_loadreg(rs2[i],s2l); #endif int hr=0; @@ -4449,46 +4764,28 @@ static void do_ccstub(int n) if((opcode[i]&0x2f)==4) // BEQ { #ifdef HAVE_CMOV_IMM - if(s1h<0) { - if(s2l>=0) emit_cmp(s1l,s2l); - else emit_test(s1l,s1l); - emit_cmov2imm_e_ne_compact(ba[i],start+i*4+8,addr); - } - else + if(s2l>=0) emit_cmp(s1l,s2l); + else emit_test(s1l,s1l); + emit_cmov2imm_e_ne_compact(ba[i],start+i*4+8,addr); + #else + emit_mov2imm_compact(ba[i],addr,start+i*4+8,alt); + if(s2l>=0) emit_cmp(s1l,s2l); + else emit_test(s1l,s1l); + emit_cmovne_reg(alt,addr); #endif - { - emit_mov2imm_compact(ba[i],addr,start+i*4+8,alt); - if(s1h>=0) { - if(s2h>=0) emit_cmp(s1h,s2h); - else emit_test(s1h,s1h); - emit_cmovne_reg(alt,addr); - } - if(s2l>=0) emit_cmp(s1l,s2l); - else emit_test(s1l,s1l); - emit_cmovne_reg(alt,addr); - } } if((opcode[i]&0x2f)==5) // BNE { #ifdef HAVE_CMOV_IMM - if(s1h<0) { - if(s2l>=0) emit_cmp(s1l,s2l); - else emit_test(s1l,s1l); - emit_cmov2imm_e_ne_compact(start+i*4+8,ba[i],addr); - } - else + if(s2l>=0) emit_cmp(s1l,s2l); + else emit_test(s1l,s1l); + emit_cmov2imm_e_ne_compact(start+i*4+8,ba[i],addr); + #else + emit_mov2imm_compact(start+i*4+8,addr,ba[i],alt); + if(s2l>=0) emit_cmp(s1l,s2l); + else emit_test(s1l,s1l); + emit_cmovne_reg(alt,addr); #endif - { - emit_mov2imm_compact(start+i*4+8,addr,ba[i],alt); - if(s1h>=0) { - if(s2h>=0) emit_cmp(s1h,s2h); - else emit_test(s1h,s1h); - emit_cmovne_reg(alt,addr); - } - if(s2l>=0) emit_cmp(s1l,s2l); - else emit_test(s1l,s1l); - emit_cmovne_reg(alt,addr); - } } if((opcode[i]&0x2f)==6) // BLEZ { @@ -4496,13 +4793,7 @@ static void do_ccstub(int n) //emit_movimm(start+i*4+8,addr); emit_mov2imm_compact(ba[i],alt,start+i*4+8,addr); emit_cmpimm(s1l,1); - if(s1h>=0) emit_mov(addr,ntaddr); emit_cmovl_reg(alt,addr); - if(s1h>=0) { - emit_test(s1h,s1h); - emit_cmovne_reg(ntaddr,addr); - emit_cmovs_reg(alt,addr); - } } if((opcode[i]&0x2f)==7) // BGTZ { @@ -4510,21 +4801,14 @@ static void do_ccstub(int n) //emit_movimm(start+i*4+8,ntaddr); emit_mov2imm_compact(ba[i],addr,start+i*4+8,ntaddr); emit_cmpimm(s1l,1); - if(s1h>=0) emit_mov(addr,alt); emit_cmovl_reg(ntaddr,addr); - if(s1h>=0) { - emit_test(s1h,s1h); - emit_cmovne_reg(alt,addr); - emit_cmovs_reg(ntaddr,addr); - } } if((opcode[i]==1)&&(opcode2[i]&0x2D)==0) // BLTZ { //emit_movimm(ba[i],alt); //emit_movimm(start+i*4+8,addr); emit_mov2imm_compact(ba[i],alt,start+i*4+8,addr); - if(s1h>=0) emit_test(s1h,s1h); - else emit_test(s1l,s1l); + emit_test(s1l,s1l); emit_cmovs_reg(alt,addr); } if((opcode[i]==1)&&(opcode2[i]&0x2D)==1) // BGEZ @@ -4532,8 +4816,7 @@ static void do_ccstub(int n) //emit_movimm(ba[i],addr); //emit_movimm(start+i*4+8,alt); emit_mov2imm_compact(ba[i],addr,start+i*4+8,alt); - if(s1h>=0) emit_test(s1h,s1h); - else emit_test(s1l,s1l); + emit_test(s1l,s1l); emit_cmovs_reg(alt,addr); } if(opcode[i]==0x11 && opcode2[i]==0x08 ) { @@ -4554,7 +4837,7 @@ static void do_ccstub(int n) emit_cmovne_reg(alt,addr); } } - emit_writeword(addr,(int)&pcaddr); + emit_writeword(addr,&pcaddr); } else if(itype[i]==RJUMP) @@ -4563,21 +4846,21 @@ static void do_ccstub(int n) if(rs1[i]==rt1[i+1]||rs1[i]==rt2[i+1]) { r=get_reg(branch_regs[i].regmap,RTEMP); } - emit_writeword(r,(int)&pcaddr); + emit_writeword(r,&pcaddr); } - else {SysPrintf("Unknown branch type in do_ccstub\n");exit(1);} + else {SysPrintf("Unknown branch type in do_ccstub\n");abort();} } // Update cycle count assert(branch_regs[i].regmap[HOST_CCREG]==CCREG||branch_regs[i].regmap[HOST_CCREG]==-1); - if(stubs[n].a) emit_addimm(HOST_CCREG,CLOCK_ADJUST((int)stubs[n].a),HOST_CCREG); - emit_call((int)cc_interrupt); - if(stubs[n].a) emit_addimm(HOST_CCREG,-CLOCK_ADJUST((int)stubs[n].a),HOST_CCREG); + if(stubs[n].a) emit_addimm(HOST_CCREG,CLOCK_ADJUST((signed int)stubs[n].a),HOST_CCREG); + emit_far_call(cc_interrupt); + if(stubs[n].a) emit_addimm(HOST_CCREG,-CLOCK_ADJUST((signed int)stubs[n].a),HOST_CCREG); if(stubs[n].d==TAKEN) { - if(internal_branch(branch_regs[i].is32,ba[i])) + if(internal_branch(ba[i])) load_needed_regs(branch_regs[i].regmap,regs[(ba[i]-start)>>2].regmap_entry); else if(itype[i]==RJUMP) { if(get_reg(branch_regs[i].regmap,RTEMP)>=0) - emit_readword((int)&pcaddr,get_reg(branch_regs[i].regmap,RTEMP)); + emit_readword(&pcaddr,get_reg(branch_regs[i].regmap,RTEMP)); else emit_loadreg(rs1[i],get_reg(branch_regs[i].regmap,rs1[i])); } @@ -4591,14 +4874,18 @@ static void do_ccstub(int n) }else{ load_all_regs(branch_regs[i].regmap); } - emit_jmp(stubs[n].retaddr); + if (stubs[n].retaddr) + emit_jmp(stubs[n].retaddr); + else + do_jump_vaddr(stubs[n].e); } -static void add_to_linker(int addr,int target,int ext) +static void add_to_linker(void *addr, u_int target, int ext) { - link_addr[linkcount][0]=addr; - link_addr[linkcount][1]=target; - link_addr[linkcount][2]=ext; + assert(linkcount < ARRAY_SIZE(link_addr)); + link_addr[linkcount].addr = addr; + link_addr[linkcount].target = target; + link_addr[linkcount].ext = ext; linkcount++; } @@ -4612,7 +4899,7 @@ static void ujump_assemble_write_ra(int i) 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) { + if(internal_branch(return_address)&&rt1[i+1]!=31) { int temp=-1; // note: must be ds-safe #ifdef HOST_TEMPREG temp=HOST_TEMPREG; @@ -4626,7 +4913,7 @@ static void ujump_assemble_write_ra(int i) #ifdef REG_PREFETCH if(temp>=0) { - if(i_regmap[temp]!=PTEMP) emit_movimm((int)hash_table_get(return_address),temp); + if(i_regmap[temp]!=PTEMP) emit_movimm((uintptr_t)hash_table_get(return_address),temp); } #endif emit_movimm(return_address,rt); // PC into link register @@ -4637,7 +4924,7 @@ static void ujump_assemble_write_ra(int i) } } -void ujump_assemble(int i,struct regstat *i_regs) +static void ujump_assemble(int i,struct regstat *i_regs) { int ra_done=0; if(i==(ba[i]-start)>>2) assem_debug("idle loop\n"); @@ -4649,7 +4936,7 @@ void ujump_assemble(int i,struct regstat *i_regs) signed char *i_regmap=i_regs->regmap; int return_address=start+i*4+8; if(get_reg(branch_regs[i].regmap,31)>0) - if(i_regmap[temp]==PTEMP) emit_movimm((int)hash_table_get(return_address),temp); + if(i_regmap[temp]==PTEMP) emit_movimm((uintptr_t)hash_table_get(return_address),temp); } #endif if(rt1[i]==31&&(rt1[i]==rs1[i+1]||rt1[i]==rs2[i+1])) { @@ -4658,33 +4945,30 @@ void ujump_assemble(int i,struct regstat *i_regs) } ds_assemble(i+1,i_regs); uint64_t bc_unneeded=branch_regs[i].u; - uint64_t bc_unneeded_upper=branch_regs[i].uu; bc_unneeded|=1|(1LL<=0) emit_prefetchreg(temp); #endif do_cc(i,branch_regs[i].regmap,&adj,ba[i],TAKEN,0); if(adj) emit_addimm(cc,CLOCK_ADJUST(ccadj[i]+2-adj),cc); - load_regs_bt(branch_regs[i].regmap,branch_regs[i].is32,branch_regs[i].dirty,ba[i]); - if(internal_branch(branch_regs[i].is32,ba[i])) + load_regs_bt(branch_regs[i].regmap,branch_regs[i].dirty,ba[i]); + if(internal_branch(ba[i])) assem_debug("branch: internal\n"); else assem_debug("branch: external\n"); - if(internal_branch(branch_regs[i].is32,ba[i])&&is_ds[(ba[i]-start)>>2]) { + if(internal_branch(ba[i])&&is_ds[(ba[i]-start)>>2]) { ds_assemble_entry(i); } else { - add_to_linker((int)out,ba[i],internal_branch(branch_regs[i].is32,ba[i])); + add_to_linker(out,ba[i],internal_branch(ba[i])); emit_jmp(0); } } @@ -4701,7 +4985,7 @@ static void rjump_assemble_write_ra(int i) #ifdef REG_PREFETCH if(temp>=0) { - if(i_regmap[temp]!=PTEMP) emit_movimm((int)hash_table_get(return_address),temp); + if(i_regmap[temp]!=PTEMP) emit_movimm((uintptr_t)hash_table_get(return_address),temp); } #endif emit_movimm(return_address,rt); // PC into link register @@ -4710,7 +4994,7 @@ static void rjump_assemble_write_ra(int i) #endif } -void rjump_assemble(int i,struct regstat *i_regs) +static void rjump_assemble(int i,struct regstat *i_regs) { int temp; int rs,cc; @@ -4732,7 +5016,7 @@ void rjump_assemble(int i,struct regstat *i_regs) if((temp=get_reg(branch_regs[i].regmap,PTEMP))>=0) { signed char *i_regmap=i_regs->regmap; int return_address=start+i*4+8; - if(i_regmap[temp]==PTEMP) emit_movimm((int)hash_table_get(return_address),temp); + if(i_regmap[temp]==PTEMP) emit_movimm((uintptr_t)hash_table_get(return_address),temp); } } #endif @@ -4748,13 +5032,10 @@ void rjump_assemble(int i,struct regstat *i_regs) } ds_assemble(i+1,i_regs); uint64_t bc_unneeded=branch_regs[i].u; - uint64_t bc_unneeded_upper=branch_regs[i].uu; bc_unneeded|=1|(1LL<>rs)&(branch_regs[i].is32>>rs1[i])&1) { + if((branch_regs[i].dirty>>rs)&1) { if(rs1[i]!=rt1[i+1]&&rs1[i]!=rt2[i+1]) { emit_loadreg(rs1[i],rs); } @@ -4789,13 +5070,13 @@ void rjump_assemble(int i,struct regstat *i_regs) //if(adj) emit_addimm(cc,2*(ccadj[i]+2-adj),cc); // ??? - Shouldn't happen //assert(adj==0); emit_addimm_and_set_flags(CLOCK_ADJUST(ccadj[i]+2),HOST_CCREG); - add_stub(CC_STUB,out,jump_vaddr_reg[rs],0,i,-1,TAKEN,0); + add_stub(CC_STUB,out,NULL,0,i,-1,TAKEN,rs); if(itype[i+1]==COP0&&(source[i+1]&0x3f)==0x10) // special case for RFE emit_jmp(0); else emit_jns(0); - //load_regs_bt(branch_regs[i].regmap,branch_regs[i].is32,branch_regs[i].dirty,-1); + //load_regs_bt(branch_regs[i].regmap,branch_regs[i].dirty,-1); #ifdef USE_MINI_HT if(rs1[i]==31) { do_miniht_jump(rs,rh,ht); @@ -4803,43 +5084,40 @@ void rjump_assemble(int i,struct regstat *i_regs) else #endif { - emit_jmp(jump_vaddr_reg[rs]); + do_jump_vaddr(rs); } #ifdef CORTEX_A8_BRANCH_PREDICTION_HACK if(rt1[i]!=31&&iregmap; int cc; int match; - match=match_bt(branch_regs[i].regmap,branch_regs[i].is32,branch_regs[i].dirty,ba[i]); + match=match_bt(branch_regs[i].regmap,branch_regs[i].dirty,ba[i]); assem_debug("match=%d\n",match); - int s1h,s1l,s2h,s2l; - int prev_cop1_usable=cop1_usable; + int s1l,s2l; int unconditional=0,nop=0; - int only32=0; int invert=0; - int internal=internal_branch(branch_regs[i].is32,ba[i]); + int internal=internal_branch(ba[i]); if(i==(ba[i]-start)>>2) assem_debug("idle loop\n"); if(!match) invert=1; #ifdef CORTEX_A8_BRANCH_PREDICTION_HACK if(i>(ba[i]-start)>>2) invert=1; #endif + #ifdef __aarch64__ + invert=1; // because of near cond. branches + #endif if(ooo[i]) { s1l=get_reg(branch_regs[i].regmap,rs1[i]); - s1h=get_reg(branch_regs[i].regmap,rs1[i]|64); s2l=get_reg(branch_regs[i].regmap,rs2[i]); - s2h=get_reg(branch_regs[i].regmap,rs2[i]|64); } else { s1l=get_reg(i_regmap,rs1[i]); - s1h=get_reg(i_regmap,rs1[i]|64); s2l=get_reg(i_regmap,rs2[i]); - s2h=get_reg(i_regmap,rs2[i]|64); } if(rs1[i]==0&&rs2[i]==0) { @@ -4852,17 +5130,12 @@ void cjump_assemble(int i,struct regstat *i_regs) } else if(rs1[i]==0) { - s1l=s2l;s1h=s2h; - s2l=s2h=-1; - only32=(regs[i].was32>>rs2[i])&1; + s1l=s2l; + s2l=-1; } else if(rs2[i]==0) { - s2l=s2h=-1; - only32=(regs[i].was32>>rs1[i])&1; - } - else { - only32=(regs[i].was32>>rs1[i])&(regs[i].was32>>rs2[i])&1; + s2l=-1; } if(ooo[i]) { @@ -4872,26 +5145,22 @@ void cjump_assemble(int i,struct regstat *i_regs) ds_assemble(i+1,i_regs); int adj; uint64_t bc_unneeded=branch_regs[i].u; - uint64_t bc_unneeded_upper=branch_regs[i].uu; bc_unneeded&=~((1LL<>2 || source[i+1]!=0) { if(adj) emit_addimm(cc,CLOCK_ADJUST(ccadj[i]+2-adj),cc); - load_regs_bt(branch_regs[i].regmap,branch_regs[i].is32,branch_regs[i].dirty,ba[i]); + load_regs_bt(branch_regs[i].regmap,branch_regs[i].dirty,ba[i]); if(internal) assem_debug("branch: internal\n"); else @@ -4900,7 +5169,7 @@ void cjump_assemble(int i,struct regstat *i_regs) ds_assemble_entry(i); } else { - add_to_linker((int)out,ba[i],internal); + add_to_linker(out,ba[i],internal); emit_jmp(0); } #ifdef CORTEX_A8_BRANCH_PREDICTION_HACK @@ -4918,43 +5187,6 @@ void cjump_assemble(int i,struct regstat *i_regs) void *taken = NULL, *nottaken = NULL, *nottaken1 = NULL; do_cc(i,branch_regs[i].regmap,&adj,-1,0,invert); if(adj&&!invert) emit_addimm(cc,CLOCK_ADJUST(ccadj[i]+2-adj),cc); - if(!only32) - { - assert(s1h>=0); - if(opcode[i]==4) // BEQ - { - if(s2h>=0) emit_cmp(s1h,s2h); - else emit_test(s1h,s1h); - nottaken1=out; - emit_jne(1); - } - if(opcode[i]==5) // BNE - { - if(s2h>=0) emit_cmp(s1h,s2h); - else emit_test(s1h,s1h); - if(invert) taken=out; - else add_to_linker((int)out,ba[i],internal); - emit_jne(0); - } - if(opcode[i]==6) // BLEZ - { - emit_test(s1h,s1h); - if(invert) taken=out; - else add_to_linker((int)out,ba[i],internal); - emit_js(0); - nottaken1=out; - emit_jne(1); - } - if(opcode[i]==7) // BGTZ - { - emit_test(s1h,s1h); - nottaken1=out; - emit_js(1); - if(invert) taken=out; - else add_to_linker((int)out,ba[i],internal); - emit_jne(0); - } - } // if(!only32) //printf("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(s1l>=0); @@ -4964,9 +5196,9 @@ void cjump_assemble(int i,struct regstat *i_regs) else emit_test(s1l,s1l); if(invert){ nottaken=out; - emit_jne(1); + emit_jne(DJT_1); }else{ - add_to_linker((int)out,ba[i],internal); + add_to_linker(out,ba[i],internal); emit_jeq(0); } } @@ -4976,9 +5208,9 @@ void cjump_assemble(int i,struct regstat *i_regs) else emit_test(s1l,s1l); if(invert){ nottaken=out; - emit_jeq(1); + emit_jeq(DJT_1); }else{ - add_to_linker((int)out,ba[i],internal); + add_to_linker(out,ba[i],internal); emit_jne(0); } } @@ -4987,9 +5219,9 @@ void cjump_assemble(int i,struct regstat *i_regs) emit_cmpimm(s1l,1); if(invert){ nottaken=out; - emit_jge(1); + emit_jge(DJT_1); }else{ - add_to_linker((int)out,ba[i],internal); + add_to_linker(out,ba[i],internal); emit_jl(0); } } @@ -4998,9 +5230,9 @@ void cjump_assemble(int i,struct regstat *i_regs) emit_cmpimm(s1l,1); if(invert){ nottaken=out; - emit_jl(1); + emit_jl(DJT_1); }else{ - add_to_linker((int)out,ba[i],internal); + add_to_linker(out,ba[i],internal); emit_jge(0); } } @@ -5010,18 +5242,18 @@ void cjump_assemble(int i,struct regstat *i_regs) if(match&&(!internal||!is_ds[(ba[i]-start)>>2])) { if(adj) { emit_addimm(cc,-CLOCK_ADJUST(adj),cc); - add_to_linker((int)out,ba[i],internal); + add_to_linker(out,ba[i],internal); }else{ emit_addnop(13); - add_to_linker((int)out,ba[i],internal*2); + add_to_linker(out,ba[i],internal*2); } emit_jmp(0); }else #endif { if(adj) emit_addimm(cc,-CLOCK_ADJUST(adj),cc); - store_regs_bt(branch_regs[i].regmap,branch_regs[i].is32,branch_regs[i].dirty,ba[i]); - load_regs_bt(branch_regs[i].regmap,branch_regs[i].is32,branch_regs[i].dirty,ba[i]); + store_regs_bt(branch_regs[i].regmap,branch_regs[i].dirty,ba[i]); + load_regs_bt(branch_regs[i].regmap,branch_regs[i].dirty,ba[i]); if(internal) assem_debug("branch: internal\n"); else @@ -5030,7 +5262,7 @@ void cjump_assemble(int i,struct regstat *i_regs) ds_assemble_entry(i); } else { - add_to_linker((int)out,ba[i],internal); + add_to_linker(out,ba[i],internal); emit_jmp(0); } } @@ -5051,41 +5283,6 @@ void cjump_assemble(int i,struct regstat *i_regs) //printf("IOE\n"); void *taken = NULL, *nottaken = NULL, *nottaken1 = NULL; if(!unconditional&&!nop) { - if(!only32) - { - assert(s1h>=0); - if((opcode[i]&0x2f)==4) // BEQ - { - if(s2h>=0) emit_cmp(s1h,s2h); - else emit_test(s1h,s1h); - nottaken1=out; - emit_jne(2); - } - if((opcode[i]&0x2f)==5) // BNE - { - if(s2h>=0) emit_cmp(s1h,s2h); - else emit_test(s1h,s1h); - taken=out; - emit_jne(1); - } - if((opcode[i]&0x2f)==6) // BLEZ - { - emit_test(s1h,s1h); - taken=out; - emit_js(1); - nottaken1=out; - emit_jne(2); - } - if((opcode[i]&0x2f)==7) // BGTZ - { - emit_test(s1h,s1h); - nottaken1=out; - emit_js(2); - taken=out; - emit_jne(1); - } - } // if(!only32) - //printf("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(s1l>=0); if((opcode[i]&0x2f)==4) // BEQ @@ -5093,46 +5290,41 @@ void cjump_assemble(int i,struct regstat *i_regs) if(s2l>=0) emit_cmp(s1l,s2l); else emit_test(s1l,s1l); nottaken=out; - emit_jne(2); + emit_jne(DJT_2); } if((opcode[i]&0x2f)==5) // BNE { if(s2l>=0) emit_cmp(s1l,s2l); else emit_test(s1l,s1l); nottaken=out; - emit_jeq(2); + emit_jeq(DJT_2); } if((opcode[i]&0x2f)==6) // BLEZ { emit_cmpimm(s1l,1); nottaken=out; - emit_jge(2); + emit_jge(DJT_2); } if((opcode[i]&0x2f)==7) // BGTZ { emit_cmpimm(s1l,1); nottaken=out; - emit_jl(2); + emit_jl(DJT_2); } } // if(!unconditional) int adj; uint64_t ds_unneeded=branch_regs[i].u; - uint64_t ds_unneeded_upper=branch_regs[i].uu; ds_unneeded&=~((1LL<>rt1[i+1])&1) ds_unneeded_upper&=~((1LL<regmap; int cc; int match; - match=match_bt(branch_regs[i].regmap,branch_regs[i].is32,branch_regs[i].dirty,ba[i]); + match=match_bt(branch_regs[i].regmap,branch_regs[i].dirty,ba[i]); assem_debug("smatch=%d\n",match); - int s1h,s1l; - int prev_cop1_usable=cop1_usable; + int s1l; int unconditional=0,nevertaken=0; - int only32=0; int invert=0; - int internal=internal_branch(branch_regs[i].is32,ba[i]); + int internal=internal_branch(ba[i]); if(i==(ba[i]-start)>>2) assem_debug("idle loop\n"); if(!match) invert=1; #ifdef CORTEX_A8_BRANCH_PREDICTION_HACK if(i>(ba[i]-start)>>2) invert=1; #endif + #ifdef __aarch64__ + invert=1; // because of near cond. branches + #endif //if(opcode2[i]>=0x10) return; // FIXME (BxxZAL) //assert(opcode2[i]<0x10||rs1[i]==0); // FIXME (BxxZAL) if(ooo[i]) { s1l=get_reg(branch_regs[i].regmap,rs1[i]); - s1h=get_reg(branch_regs[i].regmap,rs1[i]|64); } else { s1l=get_reg(i_regmap,rs1[i]); - s1h=get_reg(i_regmap,rs1[i]|64); } if(rs1[i]==0) { @@ -5233,9 +5422,6 @@ void sjump_assemble(int i,struct regstat *i_regs) //assert(opcode2[i]!=0x10); //assert(opcode2[i]!=0x12); } - else { - only32=(regs[i].was32>>rs1[i])&1; - } if(ooo[i]) { // Out of order execution (delay slot first) @@ -5244,15 +5430,11 @@ void sjump_assemble(int i,struct regstat *i_regs) ds_assemble(i+1,i_regs); int adj; uint64_t bc_unneeded=branch_regs[i].u; - uint64_t bc_unneeded_upper=branch_regs[i].uu; bc_unneeded&=~((1LL<>2 || source[i+1]!=0) { if(adj) emit_addimm(cc,CLOCK_ADJUST(ccadj[i]+2-adj),cc); - load_regs_bt(branch_regs[i].regmap,branch_regs[i].is32,branch_regs[i].dirty,ba[i]); + load_regs_bt(branch_regs[i].regmap,branch_regs[i].dirty,ba[i]); if(internal) assem_debug("branch: internal\n"); else @@ -5285,7 +5467,7 @@ void sjump_assemble(int i,struct regstat *i_regs) ds_assemble_entry(i); } else { - add_to_linker((int)out,ba[i],internal); + add_to_linker(out,ba[i],internal); emit_jmp(0); } #ifdef CORTEX_A8_BRANCH_PREDICTION_HACK @@ -5303,33 +5485,6 @@ void sjump_assemble(int i,struct regstat *i_regs) void *nottaken = NULL; do_cc(i,branch_regs[i].regmap,&adj,-1,0,invert); if(adj&&!invert) emit_addimm(cc,CLOCK_ADJUST(ccadj[i]+2-adj),cc); - if(!only32) - { - assert(s1h>=0); - if((opcode2[i]&0xf)==0) // BLTZ/BLTZAL - { - emit_test(s1h,s1h); - if(invert){ - nottaken=out; - emit_jns(1); - }else{ - add_to_linker((int)out,ba[i],internal); - emit_js(0); - } - } - if((opcode2[i]&0xf)==1) // BGEZ/BLTZAL - { - emit_test(s1h,s1h); - if(invert){ - nottaken=out; - emit_js(1); - }else{ - add_to_linker((int)out,ba[i],internal); - emit_jns(0); - } - } - } // if(!only32) - else { assert(s1l>=0); if((opcode2[i]&0xf)==0) // BLTZ/BLTZAL @@ -5337,9 +5492,9 @@ void sjump_assemble(int i,struct regstat *i_regs) emit_test(s1l,s1l); if(invert){ nottaken=out; - emit_jns(1); + emit_jns(DJT_1); }else{ - add_to_linker((int)out,ba[i],internal); + add_to_linker(out,ba[i],internal); emit_js(0); } } @@ -5348,31 +5503,31 @@ void sjump_assemble(int i,struct regstat *i_regs) emit_test(s1l,s1l); if(invert){ nottaken=out; - emit_js(1); + emit_js(DJT_1); }else{ - add_to_linker((int)out,ba[i],internal); + add_to_linker(out,ba[i],internal); emit_jns(0); } } - } // if(!only32) + } if(invert) { #ifdef CORTEX_A8_BRANCH_PREDICTION_HACK if(match&&(!internal||!is_ds[(ba[i]-start)>>2])) { if(adj) { emit_addimm(cc,-CLOCK_ADJUST(adj),cc); - add_to_linker((int)out,ba[i],internal); + add_to_linker(out,ba[i],internal); }else{ emit_addnop(13); - add_to_linker((int)out,ba[i],internal*2); + add_to_linker(out,ba[i],internal*2); } emit_jmp(0); }else #endif { if(adj) emit_addimm(cc,-CLOCK_ADJUST(adj),cc); - store_regs_bt(branch_regs[i].regmap,branch_regs[i].is32,branch_regs[i].dirty,ba[i]); - load_regs_bt(branch_regs[i].regmap,branch_regs[i].is32,branch_regs[i].dirty,ba[i]); + store_regs_bt(branch_regs[i].regmap,branch_regs[i].dirty,ba[i]); + load_regs_bt(branch_regs[i].regmap,branch_regs[i].dirty,ba[i]); if(internal) assem_debug("branch: internal\n"); else @@ -5381,7 +5536,7 @@ void sjump_assemble(int i,struct regstat *i_regs) ds_assemble_entry(i); } else { - add_to_linker((int)out,ba[i],internal); + add_to_linker(out,ba[i],internal); emit_jmp(0); } } @@ -5412,56 +5567,32 @@ void sjump_assemble(int i,struct regstat *i_regs) } if(!unconditional) { //printf("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]); - if(!only32) - { - assert(s1h>=0); - if((opcode2[i]&0x0d)==0) // BLTZ/BLTZL/BLTZAL/BLTZALL - { - emit_test(s1h,s1h); - nottaken=out; - emit_jns(1); - } - if((opcode2[i]&0x0d)==1) // BGEZ/BGEZL/BGEZAL/BGEZALL - { - emit_test(s1h,s1h); - nottaken=out; - emit_js(1); - } - } // if(!only32) - else - { assert(s1l>=0); if((opcode2[i]&0x0d)==0) // BLTZ/BLTZL/BLTZAL/BLTZALL { emit_test(s1l,s1l); nottaken=out; - emit_jns(1); + emit_jns(DJT_1); } if((opcode2[i]&0x0d)==1) // BGEZ/BGEZL/BGEZAL/BGEZALL { emit_test(s1l,s1l); nottaken=out; - emit_js(1); + emit_js(DJT_1); } - } } // if(!unconditional) int adj; uint64_t ds_unneeded=branch_regs[i].u; - uint64_t ds_unneeded_upper=branch_regs[i].uu; ds_unneeded&=~((1LL<>rt1[i+1])&1) ds_unneeded_upper&=~((1LL<regmap; - int cc; - int match; - match=match_bt(branch_regs[i].regmap,branch_regs[i].is32,branch_regs[i].dirty,ba[i]); - assem_debug("fmatch=%d\n",match); - int fs,cs; - void *eaddr; - int invert=0; - int internal=internal_branch(branch_regs[i].is32,ba[i]); - if(i==(ba[i]-start)>>2) assem_debug("idle loop\n"); - if(!match) invert=1; - #ifdef CORTEX_A8_BRANCH_PREDICTION_HACK - if(i>(ba[i]-start)>>2) invert=1; - #endif - - if(ooo[i]) { - fs=get_reg(branch_regs[i].regmap,FSREG); - address_generation(i+1,i_regs,regs[i].regmap_entry); // Is this okay? - } - else { - fs=get_reg(i_regmap,FSREG); - } - - // Check cop1 unusable - if(!cop1_usable) { - cs=get_reg(i_regmap,CSREG); - assert(cs>=0); - emit_testimm(cs,0x20000000); - eaddr=out; - emit_jeq(0); - add_stub_r(FP_STUB,eaddr,out,i,cs,i_regs,0,0); - cop1_usable=1; - } - - if(ooo[i]) { - // Out of order execution (delay slot first) - //printf("OOOE\n"); - ds_assemble(i+1,i_regs); - int adj; - uint64_t bc_unneeded=branch_regs[i].u; - uint64_t bc_unneeded_upper=branch_regs[i].uu; - bc_unneeded&=~((1LL<=0); - emit_testimm(fs,0x800000); - if(source[i]&0x10000) // BC1T - { - if(invert){ - nottaken=out; - emit_jeq(1); - }else{ - add_to_linker((int)out,ba[i],internal); - emit_jne(0); - } - } - else // BC1F - if(invert){ - nottaken=out; - emit_jne(1); - }else{ - add_to_linker((int)out,ba[i],internal); - emit_jeq(0); - } - { - } - } // if(!only32) - - if(invert) { - if(adj) emit_addimm(cc,-CLOCK_ADJUST(adj),cc); - #ifdef CORTEX_A8_BRANCH_PREDICTION_HACK - else if(match) emit_addnop(13); - #endif - store_regs_bt(branch_regs[i].regmap,branch_regs[i].is32,branch_regs[i].dirty,ba[i]); - load_regs_bt(branch_regs[i].regmap,branch_regs[i].is32,branch_regs[i].dirty,ba[i]); - if(internal) - assem_debug("branch: internal\n"); - else - assem_debug("branch: external\n"); - if(internal&&is_ds[(ba[i]-start)>>2]) { - ds_assemble_entry(i); - } - else { - add_to_linker((int)out,ba[i],internal); - emit_jmp(0); - } - set_jump_target(nottaken, out); - } - - if(adj) { - if(!invert) emit_addimm(cc,CLOCK_ADJUST(adj),cc); - } - } // (!unconditional) - } // if(ooo) - else - { - // In-order execution (branch first) - //printf("IOE\n"); - void *nottaken = NULL; - if(1) { - //printf("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]); - if(1) { - assert(fs>=0); - emit_testimm(fs,0x800000); - if(source[i]&0x10000) // BC1T - { - nottaken=out; - emit_jeq(1); - } - else // BC1F - { - nottaken=out; - emit_jne(1); - } - } - } // if(!unconditional) - int adj; - uint64_t ds_unneeded=branch_regs[i].u; - uint64_t ds_unneeded_upper=branch_regs[i].uu; - ds_unneeded&=~((1LL<>rt1[i+1])&1) ds_unneeded_upper&=~((1LL<>2]) { - ds_assemble_entry(i); - } - else { - add_to_linker((int)out,ba[i],internal); - emit_jmp(0); - } - - // branch not taken - if(1) { // <- FIXME (don't need this) - set_jump_target(nottaken, out); - assem_debug("1:\n"); - if(!likely[i]) { - wb_invalidate(regs[i].regmap,branch_regs[i].regmap,regs[i].dirty,regs[i].is32, - ds_unneeded,ds_unneeded_upper); - load_regs(regs[i].regmap,branch_regs[i].regmap,regs[i].was32,rs1[i+1],rs2[i+1]); + wb_invalidate(regs[i].regmap,branch_regs[i].regmap,regs[i].dirty,ds_unneeded); + load_regs(regs[i].regmap,branch_regs[i].regmap,rs1[i+1],rs2[i+1]); address_generation(i+1,&branch_regs[i],0); - load_regs(regs[i].regmap,branch_regs[i].regmap,regs[i].was32,CCREG,CCREG); + load_regs(regs[i].regmap,branch_regs[i].regmap,CCREG,CCREG); ds_assemble(i+1,&branch_regs[i]); } cc=get_reg(branch_regs[i].regmap,CCREG); @@ -5729,23 +5653,18 @@ void fjump_assemble(int i,struct regstat *i_regs) static void pagespan_assemble(int i,struct regstat *i_regs) { int s1l=get_reg(i_regs->regmap,rs1[i]); - int s1h=get_reg(i_regs->regmap,rs1[i]|64); int s2l=get_reg(i_regs->regmap,rs2[i]); - int s2h=get_reg(i_regs->regmap,rs2[i]|64); void *taken = NULL; void *nottaken = NULL; int unconditional=0; if(rs1[i]==0) { - s1l=s2l;s1h=s2h; - s2l=s2h=-1; + s1l=s2l; + s2l=-1; } else if(rs2[i]==0) { - s2l=s2h=-1; - } - if((i_regs->is32>>rs1[i])&(i_regs->is32>>rs2[i])&1) { - s1h=s2h=-1; + s2l=-1; } int hr=0; int addr=-1,alt=-1,ntaddr=-1; @@ -5787,7 +5706,7 @@ static void pagespan_assemble(int i,struct regstat *i_regs) } assert(hr=0) emit_cmp(s1l,s2l); else emit_test(s1l,s1l); emit_cmov2imm_e_ne_compact(ba[i],start+i*4+8,addr); @@ -5828,11 +5747,6 @@ static void pagespan_assemble(int i,struct regstat *i_regs) { assert(s1l>=0); emit_mov2imm_compact(ba[i],addr,start+i*4+8,alt); - if(s1h>=0) { - if(s2h>=0) emit_cmp(s1h,s2h); - else emit_test(s1h,s1h); - emit_cmovne_reg(alt,addr); - } if(s2l>=0) emit_cmp(s1l,s2l); else emit_test(s1l,s1l); emit_cmovne_reg(alt,addr); @@ -5841,34 +5755,19 @@ static void pagespan_assemble(int i,struct regstat *i_regs) if((opcode[i]&0x3f)==5) // BNE { #ifdef HAVE_CMOV_IMM - if(s1h<0) { - if(s2l>=0) emit_cmp(s1l,s2l); - else emit_test(s1l,s1l); - emit_cmov2imm_e_ne_compact(start+i*4+8,ba[i],addr); - } - else + if(s2l>=0) emit_cmp(s1l,s2l); + else emit_test(s1l,s1l); + emit_cmov2imm_e_ne_compact(start+i*4+8,ba[i],addr); + #else + assert(s1l>=0); + emit_mov2imm_compact(start+i*4+8,addr,ba[i],alt); + if(s2l>=0) emit_cmp(s1l,s2l); + else emit_test(s1l,s1l); + emit_cmovne_reg(alt,addr); #endif - { - assert(s1l>=0); - emit_mov2imm_compact(start+i*4+8,addr,ba[i],alt); - if(s1h>=0) { - if(s2h>=0) emit_cmp(s1h,s2h); - else emit_test(s1h,s1h); - emit_cmovne_reg(alt,addr); - } - if(s2l>=0) emit_cmp(s1l,s2l); - else emit_test(s1l,s1l); - emit_cmovne_reg(alt,addr); - } } if((opcode[i]&0x3f)==0x14) // BEQL { - if(s1h>=0) { - if(s2h>=0) emit_cmp(s1h,s2h); - else emit_test(s1h,s1h); - nottaken=out; - emit_jne(0); - } if(s2l>=0) emit_cmp(s1l,s2l); else emit_test(s1l,s1l); if(nottaken) set_jump_target(nottaken, out); @@ -5877,12 +5776,6 @@ static void pagespan_assemble(int i,struct regstat *i_regs) } if((opcode[i]&0x3f)==0x15) // BNEL { - if(s1h>=0) { - if(s2h>=0) emit_cmp(s1h,s2h); - else emit_test(s1h,s1h); - taken=out; - emit_jne(0); - } if(s2l>=0) emit_cmp(s1l,s2l); else emit_test(s1l,s1l); nottaken=out; @@ -5893,25 +5786,13 @@ static void pagespan_assemble(int i,struct regstat *i_regs) { emit_mov2imm_compact(ba[i],alt,start+i*4+8,addr); emit_cmpimm(s1l,1); - if(s1h>=0) emit_mov(addr,ntaddr); emit_cmovl_reg(alt,addr); - if(s1h>=0) { - emit_test(s1h,s1h); - emit_cmovne_reg(ntaddr,addr); - emit_cmovs_reg(alt,addr); - } } if((opcode[i]&0x3f)==7) // BGTZ { emit_mov2imm_compact(ba[i],addr,start+i*4+8,ntaddr); emit_cmpimm(s1l,1); - if(s1h>=0) emit_mov(addr,alt); emit_cmovl_reg(ntaddr,addr); - if(s1h>=0) { - emit_test(s1h,s1h); - emit_cmovne_reg(alt,addr); - emit_cmovs_reg(ntaddr,addr); - } } if((opcode[i]&0x3f)==0x16) // BLEZL { @@ -5952,7 +5833,7 @@ static void pagespan_assemble(int i,struct regstat *i_regs) } assert(i_regs->regmap[HOST_CCREG]==CCREG); - wb_dirtys(regs[i].regmap,regs[i].is32,regs[i].dirty); + wb_dirtys(regs[i].regmap,regs[i].dirty); if(likely[i]||unconditional) { emit_movimm(ba[i],HOST_BTREG); @@ -5966,7 +5847,7 @@ static void pagespan_assemble(int i,struct regstat *i_regs) int target_addr=start+i*4+5; void *stub=out; void *compiled_target_addr=check_addr(target_addr); - emit_extjump_ds((int)branch_addr,target_addr); + emit_extjump_ds(branch_addr, target_addr); if(compiled_target_addr) { set_jump_target(branch_addr, compiled_target_addr); add_link(target_addr,stub); @@ -5975,13 +5856,13 @@ static void pagespan_assemble(int i,struct regstat *i_regs) if(likely[i]) { // Not-taken path set_jump_target(nottaken, out); - wb_dirtys(regs[i].regmap,regs[i].is32,regs[i].dirty); + wb_dirtys(regs[i].regmap,regs[i].dirty); void *branch_addr=out; emit_jmp(0); int target_addr=start+i*4+8; void *stub=out; void *compiled_target_addr=check_addr(target_addr); - emit_extjump_ds((int)branch_addr,target_addr); + emit_extjump_ds(branch_addr, target_addr); if(compiled_target_addr) { set_jump_target(branch_addr, compiled_target_addr); add_link(target_addr,stub); @@ -6002,14 +5883,13 @@ static void pagespan_ds() ll_add(jump_in+page,vaddr,(void *)out); assert(regs[0].regmap_entry[HOST_CCREG]==CCREG); if(regs[0].regmap[HOST_CCREG]!=CCREG) - wb_register(CCREG,regs[0].regmap_entry,regs[0].wasdirty,regs[0].was32); + wb_register(CCREG,regs[0].regmap_entry,regs[0].wasdirty); if(regs[0].regmap[HOST_BTREG]!=BTREG) - emit_writeword(HOST_BTREG,(int)&branch_target); - load_regs(regs[0].regmap_entry,regs[0].regmap,regs[0].was32,rs1[0],rs2[0]); + emit_writeword(HOST_BTREG,&branch_target); + load_regs(regs[0].regmap_entry,regs[0].regmap,rs1[0],rs2[0]); address_generation(0,®s[0],regs[0].regmap_entry); if(itype[0]==STORE||itype[0]==STORELR||(opcode[0]&0x3b)==0x39||(opcode[0]&0x3b)==0x3a) - load_regs(regs[0].regmap_entry,regs[0].regmap,regs[0].was32,INVCP,INVCP); - cop1_usable=0; + load_regs(regs[0].regmap_entry,regs[0].regmap,INVCP,INVCP); is_delayslot=0; switch(itype[0]) { case ALU: @@ -6040,12 +5920,6 @@ static void pagespan_ds() c2ls_assemble(0,®s[0]);break; case C2OP: c2op_assemble(0,®s[0]);break; - case FCONV: - fconv_assemble(0,®s[0]);break; - case FLOAT: - float_assemble(0,®s[0]);break; - case FCOMP: - fcomp_assemble(0,®s[0]);break; case MULTDIV: multdiv_assemble(0,®s[0]);break; case MOV: @@ -6058,55 +5932,54 @@ static void pagespan_ds() case RJUMP: case CJUMP: case SJUMP: - case FJUMP: SysPrintf("Jump in the delay slot. This is probably a bug.\n"); } int btaddr=get_reg(regs[0].regmap,BTREG); if(btaddr<0) { btaddr=get_reg(regs[0].regmap,-1); - emit_readword((int)&branch_target,btaddr); + emit_readword(&branch_target,btaddr); } assert(btaddr!=HOST_CCREG); if(regs[0].regmap[HOST_CCREG]!=CCREG) emit_loadreg(CCREG,HOST_CCREG); #ifdef HOST_IMM8 + host_tempreg_acquire(); emit_movimm(start+4,HOST_TEMPREG); emit_cmp(btaddr,HOST_TEMPREG); + host_tempreg_release(); #else emit_cmpimm(btaddr,start+4); #endif void *branch = out; emit_jeq(0); - store_regs_bt(regs[0].regmap,regs[0].is32,regs[0].dirty,-1); - emit_jmp(jump_vaddr_reg[btaddr]); + store_regs_bt(regs[0].regmap,regs[0].dirty,-1); + do_jump_vaddr(btaddr); set_jump_target(branch, out); - store_regs_bt(regs[0].regmap,regs[0].is32,regs[0].dirty,start+4); - load_regs_bt(regs[0].regmap,regs[0].is32,regs[0].dirty,start+4); + store_regs_bt(regs[0].regmap,regs[0].dirty,start+4); + load_regs_bt(regs[0].regmap,regs[0].dirty,start+4); } // Basic liveness analysis for MIPS registers void unneeded_registers(int istart,int iend,int r) { int i; - uint64_t u,uu,gte_u,b,bu,gte_bu; - uint64_t temp_u,temp_uu,temp_gte_u=0; - uint64_t tdep; + uint64_t u,gte_u,b,gte_b; + uint64_t temp_u,temp_gte_u=0; uint64_t gte_u_unknown=0; - if(new_dynarec_hacks&NDHACK_GTE_UNNEEDED) + if (HACK_ENABLED(NDHACK_GTE_UNNEEDED)) gte_u_unknown=~0ll; if(iend==slen-1) { - u=1;uu=1; + u=1; gte_u=gte_u_unknown; }else{ - u=unneeded_reg[iend+1]; - uu=unneeded_reg_upper[iend+1]; - u=1;uu=1; + //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(itype[i]==RJUMP||itype[i]==UJUMP||itype[i]==CJUMP||itype[i]==SJUMP||itype[i]==FJUMP) + if(itype[i]==RJUMP||itype[i]==UJUMP||itype[i]==CJUMP||itype[i]==SJUMP) { // If subroutine call, flag return address as a possible branch target if(rt1[i]==31 && i0x80000400&&start<0x80000000+RAM_SIZE) { - if(itype[i]==UJUMP&&rt1[i]==31) - { - //uu=u=0x30300FF0FLL; // Discard at, v0-v1, t0-t9, lo, hi - uu=u=0x300FF0F; // Discard at, v0-v1, t0-t9 - } - if(itype[i]==RJUMP&&rs1[i]==31) - { - //uu=u=0x30300FFF3LL; // Discard at, a0-a3, t0-t9, lo, hi - uu=u=0x300FFF3; // Discard at, a0-a3, t0-t9 - } - }*/ branch_unneeded_reg[i]=u; - branch_unneeded_reg_upper[i]=uu; // Merge in delay slot - tdep=(~uu>>rt1[i+1])&1; u|=(1LL<>2]=1; if(ba[i]<=start+i*4) { // Backward branch - if(itype[i]==RJUMP||itype[i]==UJUMP||(source[i]>>16)==0x1000) + if(is_ujump(i)) { // Unconditional branch - temp_u=1;temp_uu=1; + temp_u=1; temp_gte_u=0; } else { // Conditional branch (not taken case) temp_u=unneeded_reg[i+2]; - temp_uu=unneeded_reg_upper[i+2]; temp_gte_u&=gte_unneeded[i+2]; } // Merge in delay slot - tdep=(~temp_uu>>rt1[i+1])&1; temp_u|=(1LL<>rt1[i])&1; temp_u|=(1LL<>2,i-1,r+1); }else{ unneeded_reg[(ba[i]-start)>>2]=1; - unneeded_reg_upper[(ba[i]-start)>>2]=1; gte_unneeded[(ba[i]-start)>>2]=gte_u_unknown; } } /*else*/ if(1) { - if(itype[i]==RJUMP||itype[i]==UJUMP||(source[i]>>16)==0x1000) + if (is_ujump(i)) { // Unconditional branch u=unneeded_reg[(ba[i]-start)>>2]; - uu=unneeded_reg_upper[(ba[i]-start)>>2]; gte_u=gte_unneeded[(ba[i]-start)>>2]; branch_unneeded_reg[i]=u; - branch_unneeded_reg_upper[i]=uu; - //u=1; - //uu=1; - //branch_unneeded_reg[i]=u; - //branch_unneeded_reg_upper[i]=uu; // Merge in delay slot - tdep=(~uu>>rt1[i+1])&1; u|=(1LL<>2]; - bu=unneeded_reg_upper[(ba[i]-start)>>2]; - gte_bu=gte_unneeded[(ba[i]-start)>>2]; + gte_b=gte_unneeded[(ba[i]-start)>>2]; branch_unneeded_reg[i]=b; - branch_unneeded_reg_upper[i]=bu; - //b=1; - //bu=1; - //branch_unneeded_reg[i]=b; - //branch_unneeded_reg_upper[i]=bu; // Branch delay slot - tdep=(~uu>>rt1[i+1])&1; b|=(1LL<>rt1[i])&1; + //u=1; // DEBUG // Written registers are unneeded u|=1LL<>r)&1) { - if(r==HIREG) printf(" HI"); - else if(r==LOREG) printf(" LO"); - else printf(" r%d",r); - } - } - printf("\n");*/ - } - for (i=iend;i>=istart;i--) - { - unneeded_reg_upper[i]=branch_unneeded_reg_upper[i]=-1LL; + printf("\n"); + */ } } @@ -6387,12 +6166,12 @@ void clean_registers(int istart,int iend,int wr) } for (i=iend;i>=istart;i--) { - if(itype[i]==RJUMP||itype[i]==UJUMP||itype[i]==CJUMP||itype[i]==SJUMP||itype[i]==FJUMP) + if(itype[i]==RJUMP||itype[i]==UJUMP||itype[i]==CJUMP||itype[i]==SJUMP) { if(ba[i]=(start+slen*4)) { // Branch out of this block, flush all regs - if(itype[i]==RJUMP||itype[i]==UJUMP||(source[i]>>16)==0x1000) + if (is_ujump(i)) { // Unconditional branch will_dirty_i=0; @@ -6472,7 +6251,7 @@ void clean_registers(int istart,int iend,int wr) // Internal branch if(ba[i]<=start+i*4) { // Backward branch - if(itype[i]==RJUMP||itype[i]==UJUMP||(source[i]>>16)==0x1000) + if (is_ujump(i)) { // Unconditional branch temp_will_dirty=0; @@ -6569,7 +6348,7 @@ void clean_registers(int istart,int iend,int wr) } /*else*/ if(1) { - if(itype[i]==RJUMP||itype[i]==UJUMP||(source[i]>>16)==0x1000) + if (is_ujump(i)) { // Unconditional branch will_dirty_i=0; @@ -6707,7 +6486,7 @@ void clean_registers(int istart,int iend,int wr) if((regs[i].regmap[r]&63)==rt2[i]) wont_dirty_i|=1<istart) { - if(itype[i]!=RJUMP&&itype[i]!=UJUMP&&itype[i]!=CJUMP&&itype[i]!=SJUMP&&itype[i]!=FJUMP) + if(itype[i]!=RJUMP&&itype[i]!=UJUMP&&itype[i]!=CJUMP&&itype[i]!=SJUMP) { // Don't store a register immediately after writing it, // may prevent dual-issue. @@ -6730,13 +6509,13 @@ void clean_registers(int istart,int iend,int wr) } printf("\n");*/ - //if(i==istart||(itype[i-1]!=RJUMP&&itype[i-1]!=UJUMP&&itype[i-1]!=CJUMP&&itype[i-1]!=SJUMP&&itype[i-1]!=FJUMP)) { + //if(i==istart||(itype[i-1]!=RJUMP&&itype[i-1]!=UJUMP&&itype[i-1]!=CJUMP&&itype[i-1]!=SJUMP)) { regs[i].dirty|=will_dirty_i; #ifndef DESTRUCTIVE_WRITEBACK regs[i].dirty&=wont_dirty_i; - if(itype[i]==RJUMP||itype[i]==UJUMP||itype[i]==CJUMP||itype[i]==SJUMP||itype[i]==FJUMP) + if(itype[i]==RJUMP||itype[i]==UJUMP||itype[i]==CJUMP||itype[i]==SJUMP) { - if(i>16)!=0x1000) { + if (i < iend-1 && !is_ujump(i)) { for(r=0;r>14):*ba);break; case SJUMP: printf (" %x: %s r%d,%8x\n",start+i*4,insn[i],rs1[i],start+i*4+4+((signed int)((unsigned int)source[i]<<16)>>14));break; - case FJUMP: - printf (" %x: %s %8x\n",start+i*4,insn[i],ba[i]);break; case RJUMP: if (opcode[i]==0x9&&rt1[i]!=31) printf (" %x: %s r%d,r%d\n",start+i*4,insn[i],rt1[i],rs1[i]); @@ -6899,33 +6676,46 @@ static void disassemble_inst(int i) {} #define DRC_TEST_VAL 0x74657374 -static int new_dynarec_test(void) +static void new_dynarec_test(void) { - int (*testfunc)(void) = (void *)out; + int (*testfunc)(void); void *beginning; - int ret; + int ret[2]; + size_t i; + + // check structure linkage + if ((u_char *)rcnts - (u_char *)&psxRegs != sizeof(psxRegs)) + { + SysPrintf("linkage_arm* miscompilation/breakage detected.\n"); + } + + SysPrintf("testing if we can run recompiled code...\n"); + ((volatile u_int *)out)[0]++; // make cache dirty + + for (i = 0; i < ARRAY_SIZE(ret); i++) { + out = ndrc->translation_cache; + beginning = start_block(); + emit_movimm(DRC_TEST_VAL + i, 0); // test + emit_ret(); + literal_pool(0); + end_block(beginning); + testfunc = beginning; + ret[i] = testfunc(); + } - beginning = start_block(); - emit_movimm(DRC_TEST_VAL,0); // test - emit_jmpreg(14); - literal_pool(0); - end_block(beginning); - SysPrintf("testing if we can run recompiled code..\n"); - ret = testfunc(); - if (ret == DRC_TEST_VAL) + if (ret[0] == DRC_TEST_VAL && ret[1] == DRC_TEST_VAL + 1) SysPrintf("test passed.\n"); else - SysPrintf("test failed: %08x\n", ret); - out=(u_char *)BASE_ADDR; - return ret == DRC_TEST_VAL; + SysPrintf("test failed, will likely crash soon (r=%08x %08x)\n", ret[0], ret[1]); + out = ndrc->translation_cache; } // clear the state completely, instead of just marking // things invalid like invalidate_all_pages() does -void new_dynarec_clear_full() +void new_dynarec_clear_full(void) { int n; - out=(u_char *)BASE_ADDR; + out = ndrc->translation_cache; memset(invalid_code,1,sizeof(invalid_code)); memset(hash_table,0xff,sizeof(hash_table)); memset(mini_ht,-1,sizeof(mini_ht)); @@ -6943,34 +6733,28 @@ void new_dynarec_clear_full() for(n=0;n<4096;n++) ll_clear(jump_dirty+n); } -void new_dynarec_init() +void new_dynarec_init(void) { SysPrintf("Init new dynarec\n"); - // allocate/prepare a buffer for translation cache - // see assem_arm.h for some explanation -#if defined(BASE_ADDR_FIXED) - if (mmap (translation_cache, 1 << TARGET_SIZE_2, - PROT_READ | PROT_WRITE | PROT_EXEC, - MAP_PRIVATE | MAP_ANONYMOUS, - -1, 0) != translation_cache) { - SysPrintf("mmap() failed: %s\n", strerror(errno)); - SysPrintf("disable BASE_ADDR_FIXED and recompile\n"); - abort(); - } -#elif defined(BASE_ADDR_DYNAMIC) +#ifdef BASE_ADDR_DYNAMIC #ifdef VITA sceBlock = sceKernelAllocMemBlockForVM("code", 1 << TARGET_SIZE_2); if (sceBlock < 0) SysPrintf("sceKernelAllocMemBlockForVM failed\n"); - int ret = sceKernelGetMemBlockBase(sceBlock, (void **)&translation_cache); + int ret = sceKernelGetMemBlockBase(sceBlock, (void **)&ndrc); if (ret < 0) SysPrintf("sceKernelGetMemBlockBase failed\n"); #else - translation_cache = mmap (NULL, 1 << TARGET_SIZE_2, + uintptr_t desired_addr = 0; + #ifdef __ELF__ + extern char _end; + desired_addr = ((uintptr_t)&_end + 0xffffff) & ~0xffffffl; + #endif + ndrc = mmap((void *)desired_addr, sizeof(*ndrc), PROT_READ | PROT_WRITE | PROT_EXEC, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); - if (translation_cache == MAP_FAILED) { + if (ndrc == MAP_FAILED) { SysPrintf("mmap() failed: %s\n", strerror(errno)); abort(); } @@ -6978,11 +6762,12 @@ void new_dynarec_init() #else #ifndef NO_WRITE_EXEC // not all systems allow execute in data segment by default - if (mprotect((void *)BASE_ADDR, 1<translation_cache) + sizeof(ndrc->tramp.ops), + PROT_READ | PROT_WRITE | PROT_EXEC) != 0) SysPrintf("mprotect() failed: %s\n", strerror(errno)); #endif #endif - out=(u_char *)BASE_ADDR; + out = ndrc->translation_cache; cycle_multiplier=200; new_dynarec_clear_full(); #ifdef HOST_IMM8 @@ -6992,21 +6777,21 @@ void new_dynarec_init() arch_init(); new_dynarec_test(); #ifndef RAM_FIXED - ram_offset=(u_int)rdram-0x80000000; + ram_offset=(uintptr_t)rdram-0x80000000; #endif if (ram_offset!=0) SysPrintf("warning: RAM is not directly mapped, performance will suffer\n"); } -void new_dynarec_cleanup() +void new_dynarec_cleanup(void) { int n; -#if defined(BASE_ADDR_FIXED) || defined(BASE_ADDR_DYNAMIC) +#ifdef BASE_ADDR_DYNAMIC #ifdef VITA sceKernelFreeMemBlock(sceBlock); sceBlock = -1; #else - if (munmap ((void *)BASE_ADDR, 1<= 0x80000000 && addr < 0x80000000+RAM_SIZE) { *limit = (addr & 0x80600000) + 0x00200000; - return (u_int *)((u_int)rdram + (addr&0x1fffff)); + return (u_int *)(rdram + (addr&0x1fffff)); } return NULL; } @@ -7140,7 +6934,7 @@ void new_dynarec_load_blocks(const void *save, int size) memcpy(&psxRegs.GPR, regs_save, sizeof(regs_save)); } -int new_recompile_block(int addr) +int new_recompile_block(u_int addr) { u_int pagelimit = 0; u_int state_rflags = 0; @@ -7149,7 +6943,6 @@ int new_recompile_block(int addr) 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("TRACE: count=%d next=%d (checksum %x)\n",Count,next_interupt,mchecksum()); //printf("fpu mapping=%x enabled=%x\n",(Status & 0x04000000)>>26,(Status & 0x20000000)>>29); // this is just for speculation @@ -7159,7 +6952,7 @@ int new_recompile_block(int addr) } start = (u_int)addr&~3; - //assert(((u_int)addr&1)==0); + //assert(((u_int)addr&1)==0); // start-in-delay-slot flag new_dynarec_did_compile=1; if (Config.HLE && start == 0x80001000) // hlecall { @@ -7169,8 +6962,8 @@ int new_recompile_block(int addr) invalid_code[start>>12]=0; emit_movimm(start,0); - emit_writeword(0,(int)&pcaddr); - emit_jmp(new_dyna_leave); + 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); @@ -7180,7 +6973,7 @@ int new_recompile_block(int addr) source = get_source_start(start, &pagelimit); if (source == NULL) { SysPrintf("Compile at bogus memory address: %08x\n", addr); - exit(1); + abort(); } /* Pass 1: disassemble */ @@ -7307,133 +7100,14 @@ int new_recompile_block(int addr) switch(op2) { case 0x00: strcpy(insn[i],"MFC0"); type=COP0; break; + case 0x02: strcpy(insn[i],"CFC0"); type=COP0; break; case 0x04: strcpy(insn[i],"MTC0"); type=COP0; break; - case 0x10: strcpy(insn[i],"tlb"); type=NI; - switch(source[i]&0x3f) - { - case 0x01: strcpy(insn[i],"TLBR"); type=COP0; break; - case 0x02: strcpy(insn[i],"TLBWI"); type=COP0; break; - case 0x06: strcpy(insn[i],"TLBWR"); type=COP0; break; - case 0x08: strcpy(insn[i],"TLBP"); type=COP0; break; - case 0x10: strcpy(insn[i],"RFE"); type=COP0; break; - //case 0x18: strcpy(insn[i],"ERET"); type=COP0; break; - } + case 0x06: strcpy(insn[i],"CTC0"); type=COP0; break; + case 0x10: strcpy(insn[i],"RFE"); type=COP0; break; } break; - case 0x11: strcpy(insn[i],"cop1"); type=NI; + case 0x11: strcpy(insn[i],"cop1"); type=COP1; op2=(source[i]>>21)&0x1f; - switch(op2) - { - case 0x00: strcpy(insn[i],"MFC1"); type=COP1; break; - case 0x01: strcpy(insn[i],"DMFC1"); type=COP1; break; - case 0x02: strcpy(insn[i],"CFC1"); type=COP1; break; - case 0x04: strcpy(insn[i],"MTC1"); type=COP1; break; - case 0x05: strcpy(insn[i],"DMTC1"); type=COP1; break; - case 0x06: strcpy(insn[i],"CTC1"); type=COP1; break; - case 0x08: strcpy(insn[i],"BC1"); type=FJUMP; - switch((source[i]>>16)&0x3) - { - case 0x00: strcpy(insn[i],"BC1F"); break; - case 0x01: strcpy(insn[i],"BC1T"); break; - case 0x02: strcpy(insn[i],"BC1FL"); break; - case 0x03: strcpy(insn[i],"BC1TL"); break; - } - break; - case 0x10: strcpy(insn[i],"C1.S"); type=NI; - switch(source[i]&0x3f) - { - case 0x00: strcpy(insn[i],"ADD.S"); type=FLOAT; break; - case 0x01: strcpy(insn[i],"SUB.S"); type=FLOAT; break; - case 0x02: strcpy(insn[i],"MUL.S"); type=FLOAT; break; - case 0x03: strcpy(insn[i],"DIV.S"); type=FLOAT; break; - case 0x04: strcpy(insn[i],"SQRT.S"); type=FLOAT; break; - case 0x05: strcpy(insn[i],"ABS.S"); type=FLOAT; break; - case 0x06: strcpy(insn[i],"MOV.S"); type=FLOAT; break; - case 0x07: strcpy(insn[i],"NEG.S"); type=FLOAT; break; - case 0x08: strcpy(insn[i],"ROUND.L.S"); type=FCONV; break; - case 0x09: strcpy(insn[i],"TRUNC.L.S"); type=FCONV; break; - case 0x0A: strcpy(insn[i],"CEIL.L.S"); type=FCONV; break; - case 0x0B: strcpy(insn[i],"FLOOR.L.S"); type=FCONV; break; - case 0x0C: strcpy(insn[i],"ROUND.W.S"); type=FCONV; break; - case 0x0D: strcpy(insn[i],"TRUNC.W.S"); type=FCONV; break; - case 0x0E: strcpy(insn[i],"CEIL.W.S"); type=FCONV; break; - case 0x0F: strcpy(insn[i],"FLOOR.W.S"); type=FCONV; break; - case 0x21: strcpy(insn[i],"CVT.D.S"); type=FCONV; break; - case 0x24: strcpy(insn[i],"CVT.W.S"); type=FCONV; break; - case 0x25: strcpy(insn[i],"CVT.L.S"); type=FCONV; break; - case 0x30: strcpy(insn[i],"C.F.S"); type=FCOMP; break; - case 0x31: strcpy(insn[i],"C.UN.S"); type=FCOMP; break; - case 0x32: strcpy(insn[i],"C.EQ.S"); type=FCOMP; break; - case 0x33: strcpy(insn[i],"C.UEQ.S"); type=FCOMP; break; - case 0x34: strcpy(insn[i],"C.OLT.S"); type=FCOMP; break; - case 0x35: strcpy(insn[i],"C.ULT.S"); type=FCOMP; break; - case 0x36: strcpy(insn[i],"C.OLE.S"); type=FCOMP; break; - case 0x37: strcpy(insn[i],"C.ULE.S"); type=FCOMP; break; - case 0x38: strcpy(insn[i],"C.SF.S"); type=FCOMP; break; - case 0x39: strcpy(insn[i],"C.NGLE.S"); type=FCOMP; break; - case 0x3A: strcpy(insn[i],"C.SEQ.S"); type=FCOMP; break; - case 0x3B: strcpy(insn[i],"C.NGL.S"); type=FCOMP; break; - case 0x3C: strcpy(insn[i],"C.LT.S"); type=FCOMP; break; - case 0x3D: strcpy(insn[i],"C.NGE.S"); type=FCOMP; break; - case 0x3E: strcpy(insn[i],"C.LE.S"); type=FCOMP; break; - case 0x3F: strcpy(insn[i],"C.NGT.S"); type=FCOMP; break; - } - break; - case 0x11: strcpy(insn[i],"C1.D"); type=NI; - switch(source[i]&0x3f) - { - case 0x00: strcpy(insn[i],"ADD.D"); type=FLOAT; break; - case 0x01: strcpy(insn[i],"SUB.D"); type=FLOAT; break; - case 0x02: strcpy(insn[i],"MUL.D"); type=FLOAT; break; - case 0x03: strcpy(insn[i],"DIV.D"); type=FLOAT; break; - case 0x04: strcpy(insn[i],"SQRT.D"); type=FLOAT; break; - case 0x05: strcpy(insn[i],"ABS.D"); type=FLOAT; break; - case 0x06: strcpy(insn[i],"MOV.D"); type=FLOAT; break; - case 0x07: strcpy(insn[i],"NEG.D"); type=FLOAT; break; - case 0x08: strcpy(insn[i],"ROUND.L.D"); type=FCONV; break; - case 0x09: strcpy(insn[i],"TRUNC.L.D"); type=FCONV; break; - case 0x0A: strcpy(insn[i],"CEIL.L.D"); type=FCONV; break; - case 0x0B: strcpy(insn[i],"FLOOR.L.D"); type=FCONV; break; - case 0x0C: strcpy(insn[i],"ROUND.W.D"); type=FCONV; break; - case 0x0D: strcpy(insn[i],"TRUNC.W.D"); type=FCONV; break; - case 0x0E: strcpy(insn[i],"CEIL.W.D"); type=FCONV; break; - case 0x0F: strcpy(insn[i],"FLOOR.W.D"); type=FCONV; break; - case 0x20: strcpy(insn[i],"CVT.S.D"); type=FCONV; break; - case 0x24: strcpy(insn[i],"CVT.W.D"); type=FCONV; break; - case 0x25: strcpy(insn[i],"CVT.L.D"); type=FCONV; break; - case 0x30: strcpy(insn[i],"C.F.D"); type=FCOMP; break; - case 0x31: strcpy(insn[i],"C.UN.D"); type=FCOMP; break; - case 0x32: strcpy(insn[i],"C.EQ.D"); type=FCOMP; break; - case 0x33: strcpy(insn[i],"C.UEQ.D"); type=FCOMP; break; - case 0x34: strcpy(insn[i],"C.OLT.D"); type=FCOMP; break; - case 0x35: strcpy(insn[i],"C.ULT.D"); type=FCOMP; break; - case 0x36: strcpy(insn[i],"C.OLE.D"); type=FCOMP; break; - case 0x37: strcpy(insn[i],"C.ULE.D"); type=FCOMP; break; - case 0x38: strcpy(insn[i],"C.SF.D"); type=FCOMP; break; - case 0x39: strcpy(insn[i],"C.NGLE.D"); type=FCOMP; break; - case 0x3A: strcpy(insn[i],"C.SEQ.D"); type=FCOMP; break; - case 0x3B: strcpy(insn[i],"C.NGL.D"); type=FCOMP; break; - case 0x3C: strcpy(insn[i],"C.LT.D"); type=FCOMP; break; - case 0x3D: strcpy(insn[i],"C.NGE.D"); type=FCOMP; break; - case 0x3E: strcpy(insn[i],"C.LE.D"); type=FCOMP; break; - case 0x3F: strcpy(insn[i],"C.NGT.D"); type=FCOMP; break; - } - break; - case 0x14: strcpy(insn[i],"C1.W"); type=NI; - switch(source[i]&0x3f) - { - case 0x20: strcpy(insn[i],"CVT.S.W"); type=FCONV; break; - case 0x21: strcpy(insn[i],"CVT.D.W"); type=FCONV; break; - } - break; - case 0x15: strcpy(insn[i],"C1.L"); type=NI; - switch(source[i]&0x3f) - { - case 0x20: strcpy(insn[i],"CVT.S.L"); type=FCONV; break; - case 0x21: strcpy(insn[i],"CVT.D.L"); type=FCONV; break; - } - break; - } break; #if 0 case 0x14: strcpy(insn[i],"BEQL"); type=CJUMP; break; @@ -7481,7 +7155,7 @@ int new_recompile_block(int addr) #endif case 0x12: strcpy(insn[i],"COP2"); type=NI; op2=(source[i]>>21)&0x1f; - //if (op2 & 0x10) { + //if (op2 & 0x10) if (source[i]&0x3f) { // use this hack to support old savestates with patched gte insns if (gte_handlers[source[i]&0x3f]!=NULL) { if (gte_regnames[source[i]&0x3f]!=NULL) @@ -7510,8 +7184,6 @@ int new_recompile_block(int addr) opcode2[i]=op2; /* Get registers/immediates */ lt1[i]=0; - us1[i]=0; - us2[i]=0; dep1[i]=0; dep2[i]=0; gte_rs[i]=gte_rt[i]=0; @@ -7530,7 +7202,6 @@ int new_recompile_block(int addr) rt1[i]=0; rt2[i]=0; imm[i]=(short)source[i]; - if(op==0x2c||op==0x2d||op==0x3f) us1[i]=rs2[i]; // 64-bit SDL/SDR/SD break; case LOADLR: // LWL/LWR only load part of the register, @@ -7540,7 +7211,6 @@ int new_recompile_block(int addr) rt1[i]=(source[i]>>16)&0x1f; rt2[i]=0; imm[i]=(short)source[i]; - if(op==0x1a||op==0x1b) us1[i]=rs2[i]; // LDR/LDL if(op==0x26) dep1[i]=rt1[i]; // LWR break; case IMM16: @@ -7554,8 +7224,6 @@ int new_recompile_block(int addr) }else{ imm[i]=(short)source[i]; } - if(op==0x18||op==0x19) us1[i]=rs1[i]; // DADDI/DADDIU - if(op==0x0a||op==0x0b) us1[i]=rs1[i]; // SLTI/SLTIU if(op==0x0d||op==0x0e) dep1[i]=rs1[i]; // ORI/XORI break; case UJUMP: @@ -7588,8 +7256,6 @@ int new_recompile_block(int addr) if(op&2) { // BGTZ/BLEZ rs2[i]=0; } - us1[i]=rs1[i]; - us2[i]=rs2[i]; likely[i]=op>>4; break; case SJUMP: @@ -7597,29 +7263,18 @@ int new_recompile_block(int addr) rs2[i]=CCREG; rt1[i]=0; rt2[i]=0; - us1[i]=rs1[i]; if(op2&0x10) { // BxxAL rt1[i]=31; // NOTE: If the branch is not taken, r31 is still overwritten } likely[i]=(op2&2)>>1; break; - case FJUMP: - rs1[i]=FSREG; - rs2[i]=CSREG; - rt1[i]=0; - rt2[i]=0; - likely[i]=((source[i])>>17)&1; - break; case ALU: rs1[i]=(source[i]>>21)&0x1f; // source rs2[i]=(source[i]>>16)&0x1f; // subtract amount rt1[i]=(source[i]>>11)&0x1f; // destination rt2[i]=0; - if(op2==0x2a||op2==0x2b) { // SLT/SLTU - us1[i]=rs1[i];us2[i]=rs2[i]; - } - else if(op2>=0x24&&op2<=0x27) { // AND/OR/XOR/NOR + if(op2>=0x24&&op2<=0x27) { // AND/OR/XOR/NOR dep1[i]=rs1[i];dep2[i]=rs2[i]; } else if(op2>=0x2c&&op2<=0x2f) { // DADD/DSUB @@ -7631,9 +7286,6 @@ int new_recompile_block(int addr) rs2[i]=(source[i]>>16)&0x1f; // divisor rt1[i]=HIREG; rt2[i]=LOREG; - if (op2>=0x1c&&op2<=0x1f) { // DMULT/DMULTU/DDIV/DDIVU - us1[i]=rs1[i];us2[i]=rs2[i]; - } break; case MOV: rs1[i]=0; @@ -7653,8 +7305,6 @@ int new_recompile_block(int addr) rs2[i]=(source[i]>>21)&0x1f; // shift amount rt1[i]=(source[i]>>11)&0x1f; // destination rt2[i]=0; - // DSLLV/DSRLV/DSRAV are 64-bit - if(op2>=0x14&&op2<=0x17) us1[i]=rs1[i]; break; case SHIFTIMM: rs1[i]=(source[i]>>16)&0x1f; @@ -7664,16 +7314,14 @@ int new_recompile_block(int addr) imm[i]=(source[i]>>6)&0x1f; // DSxx32 instructions if(op2>=0x3c) imm[i]|=0x20; - // DSLL/DSRL/DSRA/DSRA32/DSRL32 but not DSLL32 require 64-bit source - if(op2>=0x38&&op2!=0x3c) us1[i]=rs1[i]; break; case COP0: rs1[i]=0; rs2[i]=0; rt1[i]=0; rt2[i]=0; - if(op2==0) rt1[i]=(source[i]>>16)&0x1F; // MFC0 - if(op2==4) rs1[i]=(source[i]>>16)&0x1F; // MTC0 + if(op2==0||op2==2) rt1[i]=(source[i]>>16)&0x1F; // MFC0/CFC0 + if(op2==4||op2==6) rs1[i]=(source[i]>>16)&0x1F; // MTC0/CTC0 if(op2==4&&((source[i]>>11)&0x1f)==12) rt2[i]=CSREG; // Status if(op2==16) if((source[i]&0x3f)==0x18) rs2[i]=CCREG; // ERET break; @@ -7684,7 +7332,6 @@ int new_recompile_block(int addr) rt2[i]=0; if(op2<3) rt1[i]=(source[i]>>16)&0x1F; // MFC1/DMFC1/CFC1 if(op2>3) rs1[i]=(source[i]>>16)&0x1F; // MTC1/DMTC1/CTC1 - if(op2==5) us1[i]=rs1[i]; // DMTC1 rs2[i]=CSREG; break; case COP2: @@ -7735,19 +7382,6 @@ int new_recompile_block(int addr) else gte_rs[i]|=3ll<<(v*2); } break; - case FLOAT: - case FCONV: - rs1[i]=0; - rs2[i]=CSREG; - rt1[i]=0; - rt2[i]=0; - break; - case FCOMP: - rs1[i]=FSREG; - rs2[i]=CSREG; - rt1[i]=FSREG; - rt2[i]=0; - break; case SYSCALL: case HLECALL: case INTCALL: @@ -7769,13 +7403,13 @@ int new_recompile_block(int addr) ba[i]=start+i*4+8; // Ignore never taken branch else if(type==SJUMP&&rs1[i]==0&&!(op2&1)) ba[i]=start+i*4+8; // Ignore never taken branch - else if(type==CJUMP||type==SJUMP||type==FJUMP) + else if(type==CJUMP||type==SJUMP) ba[i]=start+i*4+4+((signed int)((unsigned int)source[i]<<16)>>14); else ba[i]=-1; - if(i>0&&(itype[i-1]==RJUMP||itype[i-1]==UJUMP||itype[i-1]==CJUMP||itype[i-1]==SJUMP||itype[i-1]==FJUMP)) { + if (i > 0 && is_jump(i-1)) { int do_in_intrp=0; // branch in delay slot? - if(type==RJUMP||type==UJUMP||type==CJUMP||type==SJUMP||type==FJUMP) { + if(type==RJUMP||type==UJUMP||type==CJUMP||type==SJUMP) { // don't handle first branch and call interpreter if it's hit SysPrintf("branch in delay slot @%08x (%08x)\n", addr + i*4, addr); do_in_intrp=1; @@ -7790,7 +7424,7 @@ int new_recompile_block(int addr) bt[t+1]=1; // expected return from interpreter } else if(i>=2&&rt1[i-2]==2&&rt1[i]==2&&rs1[i]!=2&&rs2[i]!=2&&rs1[i-1]!=2&&rs2[i-1]!=2&& - !(i>=3&&(itype[i-3]==RJUMP||itype[i-3]==UJUMP||itype[i-3]==CJUMP||itype[i-3]==SJUMP))) { + !(i>=3&&is_jump(i-3))) { // v0 overwrite like this is a sign of trouble, bail out SysPrintf("v0 overwrite @%08x (%08x)\n", addr + i*4, addr); do_in_intrp=1; @@ -7806,7 +7440,7 @@ int new_recompile_block(int addr) } } /* Is this the end of the block? */ - if(i>0&&(itype[i-1]==UJUMP||itype[i-1]==RJUMP||(source[i-1]>>16)==0x1000)) { + if (i > 0 && is_ujump(i-1)) { if(rt1[i-1]==0) { // Continue past subroutine call (JAL) done=2; } @@ -7842,7 +7476,7 @@ int new_recompile_block(int addr) } } slen=i; - if(itype[i-1]==UJUMP||itype[i-1]==CJUMP||itype[i-1]==SJUMP||itype[i-1]==RJUMP||itype[i-1]==FJUMP) { + if(itype[i-1]==UJUMP||itype[i-1]==CJUMP||itype[i-1]==SJUMP||itype[i-1]==RJUMP) { if(start+i*4==pagelimit) { itype[i-1]=SPAN; } @@ -7856,10 +7490,8 @@ int new_recompile_block(int addr) /* Pass 3 - Register allocation */ struct regstat current; // Current register allocations/status - current.is32=1; current.dirty=0; current.u=unneeded_reg[0]; - current.uu=unneeded_reg_upper[0]; clear_all_regs(current.regmap); alloc_reg(¤t,0,CCREG); dirty_reg(¤t,CCREG); @@ -7876,7 +7508,6 @@ int new_recompile_block(int addr) bt[1]=1; ds=1; unneeded_reg[0]=1; - unneeded_reg_upper[0]=1; current.regmap[HOST_BTREG]=BTREG; } @@ -7893,53 +7524,24 @@ int new_recompile_block(int addr) current.isconst=0; current.waswritten=0; } - if(i>1) - { - if((opcode[i-2]&0x2f)==0x05) // BNE/BNEL - { - if(rs1[i-2]==0||rs2[i-2]==0) - { - if(rs1[i-2]) { - current.is32|=1LL<=0) current.regmap[hr]=-1; - } - if(rs2[i-2]) { - current.is32|=1LL<=0) current.regmap[hr]=-1; - } - } - } - } - current.is32=-1LL; memcpy(regmap_pre[i],current.regmap,sizeof(current.regmap)); regs[i].wasconst=current.isconst; - regs[i].was32=current.is32; regs[i].wasdirty=current.dirty; regs[i].loadedconst=0; - if(itype[i]!=UJUMP&&itype[i]!=CJUMP&&itype[i]!=SJUMP&&itype[i]!=RJUMP&&itype[i]!=FJUMP) { + if(itype[i]!=UJUMP&&itype[i]!=CJUMP&&itype[i]!=SJUMP&&itype[i]!=RJUMP) { if(i+1>rt1[i])&1) current.uu&=~((1LL<>rt1[i+1])&1) current.uu&=~((1LL<>rt1[i])&1) current.uu&=~((1LL<>r)&1) { regs[i].regmap_entry[hr]=-1; regs[i].regmap[hr]=-1; @@ -7989,16 +7583,6 @@ int new_recompile_block(int addr) //current.regmap[hr]=-1; }else regs[i].regmap_entry[hr]=r; - } - else { - if((current.uu>>(r&63))&1) { - regs[i].regmap_entry[hr]=-1; - regs[i].regmap[hr]=-1; - //Don't clear regs in the delay slot as the branch might need them - //current.regmap[hr]=-1; - }else - regs[i].regmap_entry[hr]=r; - } } } else { // First instruction expects CCREG to be allocated @@ -8026,7 +7610,6 @@ int new_recompile_block(int addr) #ifdef REG_PREFETCH alloc_reg(¤t,i,PTEMP); #endif - //current.is32|=1LL<>rs1[i])&(current.is32>>rs2[i])&1)) - { - if(rs1[i]) alloc_reg64(¤t,i,rs1[i]); - if(rs2[i]) alloc_reg64(¤t,i,rs2[i]); - } if((rs1[i]&&(rs1[i]==rt1[i+1]||rs1[i]==rt2[i+1]))|| (rs2[i]&&(rs2[i]==rt1[i+1]||rs2[i]==rt2[i+1]))) { // The delay slot overwrites one of our conditions. @@ -8102,11 +7678,6 @@ int new_recompile_block(int addr) regs[i].wasconst=0; if(rs1[i]) alloc_reg(¤t,i,rs1[i]); if(rs2[i]) alloc_reg(¤t,i,rs2[i]); - if(!((current.is32>>rs1[i])&(current.is32>>rs2[i])&1)) - { - if(rs1[i]) alloc_reg64(¤t,i,rs1[i]); - if(rs2[i]) alloc_reg64(¤t,i,rs2[i]); - } } else { @@ -8120,10 +7691,6 @@ int new_recompile_block(int addr) alloc_cc(¤t,i); dirty_reg(¤t,CCREG); alloc_reg(¤t,i,rs1[i]); - if(!(current.is32>>rs1[i]&1)) - { - alloc_reg64(¤t,i,rs1[i]); - } if(rs1[i]&&(rs1[i]==rt1[i+1]||rs1[i]==rt2[i+1])) { // The delay slot overwrites one of our conditions. // Allocate the branch condition registers instead. @@ -8131,10 +7698,6 @@ int new_recompile_block(int addr) current.wasconst=0; regs[i].wasconst=0; if(rs1[i]) alloc_reg(¤t,i,rs1[i]); - if(!((current.is32>>rs1[i])&1)) - { - if(rs1[i]) alloc_reg64(¤t,i,rs1[i]); - } } else { @@ -8153,11 +7716,6 @@ int new_recompile_block(int addr) dirty_reg(¤t,CCREG); alloc_reg(¤t,i,rs1[i]); alloc_reg(¤t,i,rs2[i]); - if(!((current.is32>>rs1[i])&(current.is32>>rs2[i])&1)) - { - alloc_reg64(¤t,i,rs1[i]); - alloc_reg64(¤t,i,rs2[i]); - } } else if((opcode[i]&0x3E)==0x16) // BLEZL/BGTZL @@ -8168,10 +7726,6 @@ int new_recompile_block(int addr) alloc_cc(¤t,i); dirty_reg(¤t,CCREG); alloc_reg(¤t,i,rs1[i]); - if(!(current.is32>>rs1[i]&1)) - { - alloc_reg64(¤t,i,rs1[i]); - } } ds=1; //current.isconst=0; @@ -8188,17 +7742,12 @@ int new_recompile_block(int addr) alloc_cc(¤t,i); dirty_reg(¤t,CCREG); alloc_reg(¤t,i,rs1[i]); - if(!(current.is32>>rs1[i]&1)) - { - alloc_reg64(¤t,i,rs1[i]); - } if (rt1[i]==31) { // BLTZAL/BGEZAL alloc_reg(¤t,i,31); dirty_reg(¤t,31); //#ifdef REG_PREFETCH //alloc_reg(¤t,i,PTEMP); //#endif - //current.is32|=1LL<>rs1[i])&1)) - { - if(rs1[i]) alloc_reg64(¤t,i,rs1[i]); - } } else { @@ -8228,55 +7773,10 @@ int new_recompile_block(int addr) alloc_cc(¤t,i); dirty_reg(¤t,CCREG); alloc_reg(¤t,i,rs1[i]); - if(!(current.is32>>rs1[i]&1)) - { - alloc_reg64(¤t,i,rs1[i]); - } } ds=1; //current.isconst=0; break; - case FJUMP: - current.isconst=0; - current.wasconst=0; - regs[i].wasconst=0; - if(likely[i]==0) // BC1F/BC1T - { - // TODO: Theoretically we can run out of registers here on x86. - // The delay slot can allocate up to six, and we need to check - // CSREG before executing the delay slot. Possibly we can drop - // the cycle count and then reload it after checking that the - // FPU is in a usable state, or don't do out-of-order execution. - alloc_cc(¤t,i); - dirty_reg(¤t,CCREG); - alloc_reg(¤t,i,FSREG); - alloc_reg(¤t,i,CSREG); - if(itype[i+1]==FCOMP) { - // The delay slot overwrites the branch condition. - // Allocate the branch condition registers instead. - alloc_cc(¤t,i); - dirty_reg(¤t,CCREG); - alloc_reg(¤t,i,CSREG); - alloc_reg(¤t,i,FSREG); - } - else { - ooo[i]=1; - delayslot_alloc(¤t,i+1); - alloc_reg(¤t,i+1,CSREG); - } - } - else - // Don't alloc the delay slot yet because we might not execute it - if(likely[i]) // BC1FL/BC1TL - { - alloc_cc(¤t,i); - dirty_reg(¤t,CCREG); - alloc_reg(¤t,i,CSREG); - alloc_reg(¤t,i,FSREG); - } - ds=1; - current.isconst=0; - break; case IMM16: imm16_alloc(¤t,i); break; @@ -8307,8 +7807,9 @@ int new_recompile_block(int addr) cop0_alloc(¤t,i); break; case COP1: + break; case COP2: - cop1_alloc(¤t,i); + cop2_alloc(¤t,i); break; case C1LS: c1ls_alloc(¤t,i); @@ -8319,15 +7820,6 @@ int new_recompile_block(int addr) case C2OP: c2op_alloc(¤t,i); break; - case FCONV: - fconv_alloc(¤t,i); - break; - case FLOAT: - float_alloc(¤t,i); - break; - case FCOMP: - fcomp_alloc(¤t,i); - break; case SYSCALL: case HLECALL: case INTCALL: @@ -8338,20 +7830,6 @@ int new_recompile_block(int addr) break; } - // Drop the upper half of registers that have become 32-bit - current.uu|=current.is32&((1LL<>rt1[i])&1) current.uu&=~((1LL<>rt1[i+1])&1) current.uu&=~((1LL<>r)&1) { regs[i].regmap_entry[hr]=-1; //regs[i].regmap[hr]=-1; @@ -8387,14 +7866,6 @@ int new_recompile_block(int addr) }else regs[i].regmap_entry[hr]=r; } - else { - if((current.uu>>(r&63))&1) { - regs[i].regmap_entry[hr]=-1; - //regs[i].regmap[hr]=-1; - current.regmap[hr]=-1; - }else - regs[i].regmap_entry[hr]=r; - } } } else { // Branches expect CCREG to be allocated at the target @@ -8417,7 +7888,6 @@ int new_recompile_block(int addr) /* Branch post-alloc */ if(i>0) { - current.was32=current.is32; current.wasdirty=current.dirty; switch(itype[i-1]) { case UJUMP: @@ -8425,41 +7895,35 @@ int new_recompile_block(int addr) branch_regs[i-1].isconst=0; branch_regs[i-1].wasconst=0; branch_regs[i-1].u=branch_unneeded_reg[i-1]&~((1LL<>rt1[i])&1) current.uu&=~((1LL<>rs1[i-1])&(current.is32>>rs2[i-1])&1)) - { - if(rs1[i-1]) alloc_reg64(¤t,i-1,rs1[i-1]); - if(rs2[i-1]) alloc_reg64(¤t,i-1,rs2[i-1]); - } } memcpy(&branch_regs[i-1],¤t,sizeof(current)); branch_regs[i-1].isconst=0; branch_regs[i-1].wasconst=0; memcpy(&branch_regs[i-1].regmap_entry,¤t.regmap,sizeof(current.regmap)); - memcpy(constmap[i],constmap[i-1],sizeof(current_constmap)); + memcpy(constmap[i],constmap[i-1],sizeof(constmap[i])); } else if((opcode[i-1]&0x3E)==6) // BLEZ/BGTZ @@ -8506,29 +7961,21 @@ int new_recompile_block(int addr) // The delay slot overwrote the branch condition // Delay slot goes after the test (in order) current.u=branch_unneeded_reg[i-1]&~((1LL<>rt1[i])&1) current.uu&=~((1LL<>rs1[i-1]&1)) - { - alloc_reg64(¤t,i-1,rs1[i-1]); - } } memcpy(&branch_regs[i-1],¤t,sizeof(current)); branch_regs[i-1].isconst=0; branch_regs[i-1].wasconst=0; memcpy(&branch_regs[i-1].regmap_entry,¤t.regmap,sizeof(current.regmap)); - memcpy(constmap[i],constmap[i-1],sizeof(current_constmap)); + memcpy(constmap[i],constmap[i-1],sizeof(constmap[i])); } else // Alloc the delay slot in case the branch is taken @@ -8536,8 +7983,6 @@ int new_recompile_block(int addr) { memcpy(&branch_regs[i-1],¤t,sizeof(current)); branch_regs[i-1].u=(branch_unneeded_reg[i-1]&~((1LL<>rt1[i])&1) branch_regs[i-1].uu&=~((1LL<>rt1[i])&1) branch_regs[i-1].uu&=~((1LL<>rt1[i])&1) current.uu&=~((1LL<>rs1[i-1]&1)) - { - alloc_reg64(¤t,i-1,rs1[i-1]); - } } memcpy(&branch_regs[i-1],¤t,sizeof(current)); branch_regs[i-1].isconst=0; branch_regs[i-1].wasconst=0; memcpy(&branch_regs[i-1].regmap_entry,¤t.regmap,sizeof(current.regmap)); - memcpy(constmap[i],constmap[i-1],sizeof(current_constmap)); + memcpy(constmap[i],constmap[i-1],sizeof(constmap[i])); } else // Alloc the delay slot in case the branch is taken @@ -8602,8 +8037,6 @@ int new_recompile_block(int addr) { memcpy(&branch_regs[i-1],¤t,sizeof(current)); branch_regs[i-1].u=(branch_unneeded_reg[i-1]&~((1LL<>rt1[i])&1) branch_regs[i-1].uu&=~((1LL<>rt1[i])&1) branch_regs[i-1].uu&=~((1LL<>16)==0x1000) + if (is_ujump(i-1)) { if(rt1[i-1]==31) // JAL/JALR { // Subroutine call will return here, don't alloc any registers - current.is32=1; current.dirty=0; clear_all_regs(current.regmap); alloc_reg(¤t,i,CCREG); @@ -8672,7 +8066,6 @@ int new_recompile_block(int addr) else if(i+10&&(itype[i-1]==RJUMP||itype[i-1]==UJUMP||itype[i-1]==CJUMP||itype[i-1]==SJUMP||itype[i-1]==FJUMP||itype[i]==SYSCALL||itype[i]==HLECALL)) + if(i>0&&(itype[i-1]==RJUMP||itype[i-1]==UJUMP||itype[i-1]==CJUMP||itype[i-1]==SJUMP||itype[i]==SYSCALL||itype[i]==HLECALL)) { cc=0; } #if !defined(DRC_DBG) else if(itype[i]==C2OP&>e_cycletab[source[i]&0x3f]>2) { - // GTE runs in parallel until accessed, divide by 2 for a rough guess - cc+=gte_cycletab[source[i]&0x3f]/2; - } - else if(/*itype[i]==LOAD||itype[i]==STORE||*/itype[i]==C1LS) // load,store causes weird timing issues - { - cc+=2; // 2 cycle penalty (after CLOCK_DIVIDER) + // this should really be removed since the real stalls have been implemented, + // but doing so causes sizeable perf regression against the older version + u_int gtec = gte_cycletab[source[i] & 0x3f]; + cc += HACK_ENABLED(NDHACK_GTE_NO_STALL) ? gtec/2 : 2; } else if(i>1&&itype[i]==STORE&&itype[i-1]==STORE&&itype[i-2]==STORE&&!bt[i]) { @@ -8724,7 +8113,8 @@ int new_recompile_block(int addr) } else if(itype[i]==C2LS) { - cc+=4; + // same as with C2OP + cc += HACK_ENABLED(NDHACK_GTE_NO_STALL) ? 4 : 2; } #endif else @@ -8732,12 +8122,10 @@ int new_recompile_block(int addr) cc++; } - flush_dirty_uppers(¤t); if(!is_ds[i]) { - regs[i].is32=current.is32; regs[i].dirty=current.dirty; regs[i].isconst=current.isconst; - memcpy(constmap[i],current_constmap,sizeof(current_constmap)); + memcpy(constmap[i],current_constmap,sizeof(constmap[i])); } for(hr=0;hr=0) { @@ -8757,7 +8145,7 @@ int new_recompile_block(int addr) for (i=slen-1;i>=0;i--) { int hr; - if(itype[i]==RJUMP||itype[i]==UJUMP||itype[i]==CJUMP||itype[i]==SJUMP||itype[i]==FJUMP) + if(itype[i]==RJUMP||itype[i]==UJUMP||itype[i]==CJUMP||itype[i]==SJUMP) { if(ba[i]=(start+slen*4)) { @@ -8778,7 +8166,7 @@ int new_recompile_block(int addr) } } // Conditional branch may need registers for following instructions - if(itype[i]!=RJUMP&&itype[i]!=UJUMP&&(source[i]>>16)!=0x1000) + if (!is_ujump(i)) { if(i>dep1[i+1])&1)) { - if(dep1[i+1]==(regmap_pre[i][hr]&63)) nr|=1<>dep2[i+1])&1)) { - if(dep1[i+1]==(regs[i].regmap_entry[hr]&63)) nr|=1<>dep1[i])&1)) { - if(dep1[i]==(regmap_pre[i][hr]&63)) nr|=1<>dep2[i])&1)) { - if(dep2[i]==(regmap_pre[i][hr]&63)) nr|=1<0&&!bt[i]&&((regs[i].wasdirty>>hr)&1)) { - if((regmap_pre[i][hr]>0&®map_pre[i][hr]<64&&!((unneeded_reg[i]>>regmap_pre[i][hr])&1)) || - (regmap_pre[i][hr]>64&&!((unneeded_reg_upper[i]>>(regmap_pre[i][hr]&63))&1)) ) { + if((regmap_pre[i][hr]>0&&!((unneeded_reg[i]>>regmap_pre[i][hr])&1))) { if(rt1[i-1]==(regmap_pre[i][hr]&63)) nr|=1<0&®s[i].regmap_entry[hr]<64&&!((unneeded_reg[i]>>regs[i].regmap_entry[hr])&1)) || - (regs[i].regmap_entry[hr]>64&&!((unneeded_reg_upper[i]>>(regs[i].regmap_entry[hr]&63))&1)) ) { + if((regs[i].regmap_entry[hr]>0&&!((unneeded_reg[i]>>regs[i].regmap_entry[hr])&1))) { if(rt1[i-1]==(regs[i].regmap_entry[hr]&63)) nr|=1<>16)!=0x1000) + if (!is_ujump(i)) { if(likely[i]) { regs[i].regmap[hr]=-1; @@ -8917,14 +8279,9 @@ int new_recompile_block(int addr) } } } - if(itype[i]==RJUMP||itype[i]==UJUMP||itype[i]==CJUMP||itype[i]==SJUMP||itype[i]==FJUMP) + if(itype[i]==RJUMP||itype[i]==UJUMP||itype[i]==CJUMP||itype[i]==SJUMP) { - int d1=0,d2=0,map=0,temp=0; - if(get_reg(regs[i].regmap,rt1[i+1]|64)>=0||get_reg(branch_regs[i].regmap,rt1[i+1]|64)>=0) - { - d1=dep1[i+1]; - d2=dep2[i+1]; - } + int map=0,temp=0; if(itype[i+1]==STORE || itype[i+1]==STORELR || (opcode[i+1]&0x3b)==0x39 || (opcode[i+1]&0x3b)==0x3a) { // SWC1/SDC1 || SWC2/SDC2 map=INVCP; @@ -8935,8 +8292,6 @@ int new_recompile_block(int addr) if((regs[i].regmap[hr]&63)!=rs1[i] && (regs[i].regmap[hr]&63)!=rs2[i] && (regs[i].regmap[hr]&63)!=rt1[i] && (regs[i].regmap[hr]&63)!=rt2[i] && (regs[i].regmap[hr]&63)!=rt1[i+1] && (regs[i].regmap[hr]&63)!=rt2[i+1] && - (regs[i].regmap[hr]^64)!=us1[i+1] && (regs[i].regmap[hr]^64)!=us2[i+1] && - (regs[i].regmap[hr]^64)!=d1 && (regs[i].regmap[hr]^64)!=d2 && regs[i].regmap[hr]!=rs1[i+1] && regs[i].regmap[hr]!=rs2[i+1] && (regs[i].regmap[hr]&63)!=temp && regs[i].regmap[hr]!=PTEMP && regs[i].regmap[hr]!=RHASH && regs[i].regmap[hr]!=RHTBL && @@ -8948,8 +8303,6 @@ int new_recompile_block(int addr) if((branch_regs[i].regmap[hr]&63)!=rs1[i] && (branch_regs[i].regmap[hr]&63)!=rs2[i] && (branch_regs[i].regmap[hr]&63)!=rt1[i] && (branch_regs[i].regmap[hr]&63)!=rt2[i] && (branch_regs[i].regmap[hr]&63)!=rt1[i+1] && (branch_regs[i].regmap[hr]&63)!=rt2[i+1] && - (branch_regs[i].regmap[hr]^64)!=us1[i+1] && (branch_regs[i].regmap[hr]^64)!=us2[i+1] && - (branch_regs[i].regmap[hr]^64)!=d1 && (branch_regs[i].regmap[hr]^64)!=d2 && branch_regs[i].regmap[hr]!=rs1[i+1] && branch_regs[i].regmap[hr]!=rs2[i+1] && (branch_regs[i].regmap[hr]&63)!=temp && branch_regs[i].regmap[hr]!=PTEMP && branch_regs[i].regmap[hr]!=RHASH && branch_regs[i].regmap[hr]!=RHTBL && @@ -8958,7 +8311,7 @@ int new_recompile_block(int addr) { branch_regs[i].regmap[hr]=-1; branch_regs[i].regmap_entry[hr]=-1; - if(itype[i]!=RJUMP&&itype[i]!=UJUMP&&(source[i]>>16)!=0x1000) + if (!is_ujump(i)) { if(!likely[i]&&i0) { - int d1=0,d2=0,map=-1,temp=-1; - if(get_reg(regs[i].regmap,rt1[i]|64)>=0) - { - d1=dep1[i]; - d2=dep2[i]; - } + int map=-1,temp=-1; if(itype[i]==STORE || itype[i]==STORELR || (opcode[i]&0x3b)==0x39 || (opcode[i]&0x3b)==0x3a) { // SWC1/SDC1 || SWC2/SDC2 map=INVCP; @@ -8987,16 +8335,14 @@ int new_recompile_block(int addr) itype[i]==C1LS || itype[i]==C2LS) temp=FTEMP; if((regs[i].regmap[hr]&63)!=rt1[i] && (regs[i].regmap[hr]&63)!=rt2[i] && - (regs[i].regmap[hr]^64)!=us1[i] && (regs[i].regmap[hr]^64)!=us2[i] && - (regs[i].regmap[hr]^64)!=d1 && (regs[i].regmap[hr]^64)!=d2 && regs[i].regmap[hr]!=rs1[i] && regs[i].regmap[hr]!=rs2[i] && (regs[i].regmap[hr]&63)!=temp && regs[i].regmap[hr]!=map && (itype[i]!=SPAN||regs[i].regmap[hr]!=CCREG)) { if(i0) if(regmap_pre[i+1][hr]!=regs[i].regmap[hr]) - if(regs[i].regmap[hr]<64||!((regs[i].was32>>(regs[i].regmap[hr]&63))&1)) { SysPrintf("fail: %x (%d %d!=%d)\n",start+i*4,hr,regmap_pre[i+1][hr],regs[i].regmap[hr]); assert(regmap_pre[i+1][hr]==regs[i].regmap[hr]); @@ -9010,8 +8356,8 @@ int new_recompile_block(int addr) } } } - } - } + } // if needed + } // for hr } /* Pass 5 - Pre-allocate registers */ @@ -9024,27 +8370,21 @@ int new_recompile_block(int addr) clear_all_regs(f_regmap); for(i=0;i=start && ba[i]<(start+i*4)) if(itype[i+1]==NOP||itype[i+1]==MOV||itype[i+1]==ALU ||itype[i+1]==SHIFTIMM||itype[i+1]==IMM16||itype[i+1]==LOAD ||itype[i+1]==STORE||itype[i+1]==STORELR||itype[i+1]==C1LS - ||itype[i+1]==SHIFT||itype[i+1]==COP1||itype[i+1]==FLOAT - ||itype[i+1]==FCOMP||itype[i+1]==FCONV + ||itype[i+1]==SHIFT||itype[i+1]==COP1 ||itype[i+1]==COP2||itype[i+1]==C2LS||itype[i+1]==C2OP) { 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>0&&(itype[t-1]!=UJUMP&&itype[t-1]!=RJUMP&&itype[t-1]!=CJUMP&&itype[t-1]!=SJUMP)) // loop_preload can't handle jumps into delay slots if(t<2||(itype[t-2]!=UJUMP&&itype[t-2]!=RJUMP)||rt1[t-2]!=31) // call/ret assumes no registers allocated for(hr=0;hr64) { - if(!((regs[i].dirty>>hr)&1)) - f_regmap[hr]=regs[i].regmap[hr]; - else f_regmap[hr]=-1; - } - else if(regs[i].regmap[hr]>=0) { + if(regs[i].regmap[hr]>=0) { if(f_regmap[hr]!=regs[i].regmap[hr]) { // dealloc old register int n; @@ -9056,12 +8396,7 @@ int new_recompile_block(int addr) f_regmap[hr]=regs[i].regmap[hr]; } } - if(branch_regs[i].regmap[hr]>64) { - if(!((branch_regs[i].dirty>>hr)&1)) - f_regmap[hr]=branch_regs[i].regmap[hr]; - else f_regmap[hr]=-1; - } - else if(branch_regs[i].regmap[hr]>=0) { + if(branch_regs[i].regmap[hr]>=0) { if(f_regmap[hr]!=branch_regs[i].regmap[hr]) { // dealloc old register int n; @@ -9098,15 +8433,7 @@ int new_recompile_block(int addr) { //printf("Test %x -> %x, %x %d/%d\n",start+i*4,ba[i],start+j*4,hr,r); if(r<34&&((unneeded_reg[j]>>r)&1)) break; - if(r>63&&((unneeded_reg_upper[j]>>(r&63))&1)) break; - if(r>63) { - // NB This can exclude the case where the upper-half - // register is lower numbered than the lower-half - // register. Not sure if it's worth fixing... - if(get_reg(regs[j].regmap,r&63)<0) break; - if(get_reg(regs[j].regmap_entry,r&63)<0) break; - if(regs[j].is32&(1LL<<(r&63))) break; - } + assert(r < 64); if(regs[j].regmap[hr]==f_regmap[hr]&&(f_regmap[hr]&63) %x, %x %d/%d\n",start+i*4,ba[i],start+j*4,hr,r); int k; @@ -9126,7 +8453,7 @@ int new_recompile_block(int addr) //printf("no-match due to different register\n"); break; } - if(itype[k-2]==UJUMP||itype[k-2]==RJUMP||itype[k-2]==CJUMP||itype[k-2]==SJUMP||itype[k-2]==FJUMP) { + if(itype[k-2]==UJUMP||itype[k-2]==RJUMP||itype[k-2]==CJUMP||itype[k-2]==SJUMP) { //printf("no-match due to branch\n"); break; } @@ -9134,22 +8461,9 @@ int new_recompile_block(int addr) if(k>2&&(itype[k-3]==UJUMP||itype[k-3]==RJUMP)&&rt1[k-3]==31) { break; } - if(r>63) { - // NB This can exclude the case where the upper-half - // register is lower numbered than the lower-half - // register. Not sure if it's worth fixing... - if(get_reg(regs[k-1].regmap,r&63)<0) break; - if(regs[k-1].is32&(1LL<<(r&63))) break; - } + assert(r < 64); k--; } - if(i\n",hr,start+k*4); while(k>16)!=0x1000) { + if (!is_ujump(i)) { regmap_pre[i+2][hr]=f_regmap[hr]; regs[i+2].wasdirty&=~(1<>16)!=0x1000) { + if (!is_ujump(k)) { regmap_pre[k+2][hr]=f_regmap[hr]; regs[k+2].wasdirty&=~(1<>16)==0x1000) + if (is_ujump(j)) { // Stop on unconditional branch break; } - if(itype[j]==CJUMP||itype[j]==SJUMP||itype[j]==FJUMP) + if(itype[j]==CJUMP||itype[j]==SJUMP) { if(ooo[j]) { if(count_free_regs(regs[j].regmap)<=minimum_free_regs[j+1]) @@ -9262,17 +8568,7 @@ int new_recompile_block(int addr) //printf("No free regs for store %x\n",start+j*4); break; } - if(f_regmap[hr]>=64) { - if(regs[j].is32&(1LL<<(f_regmap[hr]&63))) { - break; - } - else - { - if(get_reg(regs[j].regmap,f_regmap[hr]&63)<0) { - break; - } - } - } + assert(f_regmap[hr]<64); } } } @@ -9283,11 +8579,7 @@ int new_recompile_block(int addr) for(hr=0;hr64) { - if(!((regs[i].dirty>>hr)&1)) - f_regmap[hr]=regs[i].regmap[hr]; - } - else if(regs[i].regmap[hr]>=0) { + if(regs[i].regmap[hr]>=0) { if(f_regmap[hr]!=regs[i].regmap[hr]) { // dealloc old register int n; @@ -9358,199 +8650,18 @@ int new_recompile_block(int addr) } if(itype[i]!=STORE&&itype[i]!=STORELR&&itype[i]!=C1LS&&itype[i]!=SHIFT&& itype[i]!=NOP&&itype[i]!=MOV&&itype[i]!=ALU&&itype[i]!=SHIFTIMM&& - itype[i]!=IMM16&&itype[i]!=LOAD&&itype[i]!=COP1&&itype[i]!=FLOAT&& - itype[i]!=FCONV&&itype[i]!=FCOMP) + itype[i]!=IMM16&&itype[i]!=LOAD&&itype[i]!=COP1) { memcpy(f_regmap,regs[i].regmap,sizeof(f_regmap)); } } } - // Cache memory offset or tlb map pointer if a register is available - #ifndef HOST_IMM_ADDR32 - #ifndef RAM_OFFSET - if(0) - #endif - { - int earliest_available[HOST_REGS]; - int loop_start[HOST_REGS]; - int score[HOST_REGS]; - int end[HOST_REGS]; - int reg=ROREG; - - // Init - for(hr=0;hr=0) { - score[hr]=0;earliest_available[hr]=i+1; - loop_start[hr]=MAXBLOCK; - } - if(itype[i]==UJUMP||itype[i]==RJUMP||itype[i]==CJUMP||itype[i]==SJUMP||itype[i]==FJUMP) { - if(branch_regs[i].regmap[hr]>=0) { - score[hr]=0;earliest_available[hr]=i+2; - loop_start[hr]=MAXBLOCK; - } - } - } - // No register allocations after unconditional jumps - if(itype[i]==UJUMP||itype[i]==RJUMP||(source[i]>>16)==0x1000) - { - for(hr=0;hr=0) break; - if(itype[j]==UJUMP||itype[j]==RJUMP||itype[j]==CJUMP||itype[j]==SJUMP||itype[j]==FJUMP) { - if(branch_regs[j].regmap[hr]>=0) break; - if(ooo[j]) { - if(count_free_regs(regs[j].regmap)<=minimum_free_regs[j+1]) break; - }else{ - if(count_free_regs(branch_regs[j].regmap)<=minimum_free_regs[j+1]) break; - } - } - else if(count_free_regs(regs[j].regmap)<=minimum_free_regs[j]) break; - if(itype[j]==UJUMP||itype[j]==RJUMP||itype[j]==CJUMP||itype[j]==SJUMP||itype[j]==FJUMP) { - int t=(ba[j]-start)>>2; - if(t=earliest_available[hr]) { - 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>16)==0x1000) - { - // Stop on unconditional branch - break; - } - else - if(itype[j]==LOAD||itype[j]==LOADLR|| - itype[j]==STORE||itype[j]==STORELR||itype[j]==C1LS) { - score[hr]++; - end[hr]=j; - } - } - } - } - // Find highest score and allocate that register - int maxscore=0; - for(hr=0;hrscore[maxscore]) { - maxscore=hr; - //printf("highest score: %d %d (%x->%x)\n",score[hr],hr,start+i*4,start+end[hr]*4); - } - } - } - if(score[maxscore]>1) - { - if(i=0) {printf("oops: %x %x was %d=%d\n",loop_start[maxscore]*4+start,j*4+start,maxscore,regs[j].regmap[maxscore]);} - assert(regs[j].regmap[maxscore]<0); - if(j>loop_start[maxscore]) regs[j].regmap_entry[maxscore]=reg; - regs[j].regmap[maxscore]=reg; - regs[j].dirty&=~(1<>16)!=0x1000) { - regmap_pre[j+2][maxscore]=reg; - regs[j+2].wasdirty&=~(1<>2; - 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 - { - if(j<1||(itype[j-1]!=RJUMP&&itype[j-1]!=UJUMP&&itype[j-1]!=CJUMP&&itype[j-1]!=SJUMP&&itype[j-1]!=FJUMP)) { - regmap_pre[j+1][maxscore]=reg; - regs[j+1].wasdirty&=~(1<=0;i--) { - if(itype[i]==CJUMP||itype[i]==SJUMP||itype[i]==FJUMP) + if(itype[i]==CJUMP||itype[i]==SJUMP) { // Conditional branch if((source[i]>>16)!=0x1000&&i>1)&1) printf("ecx "); @@ -9755,7 +8867,6 @@ int new_recompile_block(int addr) if((needed_reg[i]>>6)&1) printf("esi "); if((needed_reg[i]>>7)&1) printf("edi "); printf("\n"); - #if defined(__i386__) || defined(__x86_64__) 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 "); @@ -9814,31 +8925,23 @@ int new_recompile_block(int addr) if(regs[i].isconst) { printf("constants: "); #if defined(__i386__) || defined(__x86_64__) - if(regs[i].isconst&1) printf("eax=%x ",(int)constmap[i][0]); - if((regs[i].isconst>>1)&1) printf("ecx=%x ",(int)constmap[i][1]); - if((regs[i].isconst>>2)&1) printf("edx=%x ",(int)constmap[i][2]); - if((regs[i].isconst>>3)&1) printf("ebx=%x ",(int)constmap[i][3]); - if((regs[i].isconst>>5)&1) printf("ebp=%x ",(int)constmap[i][5]); - if((regs[i].isconst>>6)&1) printf("esi=%x ",(int)constmap[i][6]); - if((regs[i].isconst>>7)&1) printf("edi=%x ",(int)constmap[i][7]); + 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 - #ifdef __arm__ - if(regs[i].isconst&1) printf("r0=%x ",(int)constmap[i][0]); - if((regs[i].isconst>>1)&1) printf("r1=%x ",(int)constmap[i][1]); - if((regs[i].isconst>>2)&1) printf("r2=%x ",(int)constmap[i][2]); - if((regs[i].isconst>>3)&1) printf("r3=%x ",(int)constmap[i][3]); - if((regs[i].isconst>>4)&1) printf("r4=%x ",(int)constmap[i][4]); - if((regs[i].isconst>>5)&1) printf("r5=%x ",(int)constmap[i][5]); - if((regs[i].isconst>>6)&1) printf("r6=%x ",(int)constmap[i][6]); - if((regs[i].isconst>>7)&1) printf("r7=%x ",(int)constmap[i][7]); - if((regs[i].isconst>>8)&1) printf("r8=%x ",(int)constmap[i][8]); - if((regs[i].isconst>>9)&1) printf("r9=%x ",(int)constmap[i][9]); - if((regs[i].isconst>>10)&1) printf("r10=%x ",(int)constmap[i][10]); - if((regs[i].isconst>>12)&1) printf("r12=%x ",(int)constmap[i][12]); + #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(itype[i]==RJUMP||itype[i]==UJUMP||itype[i]==CJUMP||itype[i]==SJUMP||itype[i]==FJUMP) { + if(itype[i]==RJUMP||itype[i]==UJUMP||itype[i]==CJUMP||itype[i]==SJUMP) { #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 "); @@ -9871,8 +8974,6 @@ int new_recompile_block(int addr) /* Pass 8 - Assembly */ linkcount=0;stubcount=0; ds=0;is_delayslot=0; - cop1_usable=0; - uint64_t is32_pre=0; u_int dirty_pre=0; void *beginning=start_block(); if((u_int)addr&1) { @@ -9882,17 +8983,22 @@ int new_recompile_block(int addr) void *instr_addr0_override = NULL; if (start == 0x80030000) { - // nasty hack for fastbios thing + // nasty hack for the fastbios thing // override block entry to this code instr_addr0_override = out; emit_movimm(start,0); // 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_readword(&address,1); + emit_writeword(0,&pcaddr); + emit_writeword(0,&address); emit_cmp(0,1); - emit_jne((int)new_dyna_leave); + #ifdef __aarch64__ + emit_jeq(out + 4*2); + emit_far_jump(new_dyna_leave); + #else + emit_jne(new_dyna_leave); + #endif } for(i=0;i>16)!=0x1000)) + if (i < 2 || !is_ujump(i-2)) { - wb_valid(regmap_pre[i],regs[i].regmap_entry,dirty_pre,regs[i].wasdirty,is32_pre, - unneeded_reg[i],unneeded_reg_upper[i]); + wb_valid(regmap_pre[i],regs[i].regmap_entry,dirty_pre,regs[i].wasdirty,unneeded_reg[i]); } - if((itype[i]==CJUMP||itype[i]==SJUMP||itype[i]==FJUMP)&&!likely[i]) { - is32_pre=branch_regs[i].is32; + if((itype[i]==CJUMP||itype[i]==SJUMP)&&!likely[i]) { dirty_pre=branch_regs[i].dirty; }else{ - is32_pre=regs[i].is32; dirty_pre=regs[i].dirty; } #endif // write back - if(i<2||(itype[i-2]!=UJUMP&&itype[i-2]!=RJUMP&&(source[i-2]>>16)!=0x1000)) + if (i < 2 || !is_ujump(i-2)) { - wb_invalidate(regmap_pre[i],regs[i].regmap_entry,regs[i].wasdirty,regs[i].was32, - unneeded_reg[i],unneeded_reg_upper[i]); + wb_invalidate(regmap_pre[i],regs[i].regmap_entry,regs[i].wasdirty,unneeded_reg[i]); loop_preload(regmap_pre[i],regs[i].regmap_entry); } // branch target entry point @@ -9932,36 +9034,35 @@ int new_recompile_block(int addr) // load regs if(regs[i].regmap_entry[HOST_CCREG]==CCREG&®s[i].regmap[HOST_CCREG]!=CCREG) - wb_register(CCREG,regs[i].regmap_entry,regs[i].wasdirty,regs[i].was32); - load_regs(regs[i].regmap_entry,regs[i].regmap,regs[i].was32,rs1[i],rs2[i]); + wb_register(CCREG,regs[i].regmap_entry,regs[i].wasdirty); + load_regs(regs[i].regmap_entry,regs[i].regmap,rs1[i],rs2[i]); address_generation(i,®s[i],regs[i].regmap_entry); - load_consts(regmap_pre[i],regs[i].regmap,regs[i].was32,i); - if(itype[i]==RJUMP||itype[i]==UJUMP||itype[i]==CJUMP||itype[i]==SJUMP||itype[i]==FJUMP) + load_consts(regmap_pre[i],regs[i].regmap,i); + if(itype[i]==RJUMP||itype[i]==UJUMP||itype[i]==CJUMP||itype[i]==SJUMP) { // Load the delay slot registers if necessary if(rs1[i+1]!=rs1[i]&&rs1[i+1]!=rs2[i]&&(rs1[i+1]!=rt1[i]||rt1[i]==0)) - load_regs(regs[i].regmap_entry,regs[i].regmap,regs[i].was32,rs1[i+1],rs1[i+1]); + load_regs(regs[i].regmap_entry,regs[i].regmap,rs1[i+1],rs1[i+1]); if(rs2[i+1]!=rs1[i+1]&&rs2[i+1]!=rs1[i]&&rs2[i+1]!=rs2[i]&&(rs2[i+1]!=rt1[i]||rt1[i]==0)) - load_regs(regs[i].regmap_entry,regs[i].regmap,regs[i].was32,rs2[i+1],rs2[i+1]); + load_regs(regs[i].regmap_entry,regs[i].regmap,rs2[i+1],rs2[i+1]); if(itype[i+1]==STORE||itype[i+1]==STORELR||(opcode[i+1]&0x3b)==0x39||(opcode[i+1]&0x3b)==0x3a) - load_regs(regs[i].regmap_entry,regs[i].regmap,regs[i].was32,INVCP,INVCP); + load_regs(regs[i].regmap_entry,regs[i].regmap,INVCP,INVCP); } else if(i+1>16)==0x1000) + if (is_ujump(i)) literal_pool(1024); else literal_pool_jumpover(256); } } - //assert(itype[i-2]==UJUMP||itype[i-2]==RJUMP||(source[i-2]>>16)==0x1000); + //assert(is_ujump(i-2)); // If the block did not end with an unconditional branch, // add a jump to the next instruction. if(i>1) { - if(itype[i-2]!=UJUMP&&itype[i-2]!=RJUMP&&(source[i-2]>>16)!=0x1000&&itype[i-1]!=SPAN) { - assert(itype[i-1]!=UJUMP&&itype[i-1]!=CJUMP&&itype[i-1]!=SJUMP&&itype[i-1]!=RJUMP&&itype[i-1]!=FJUMP); + if(!is_ujump(i-2)&&itype[i-1]!=SPAN) { + assert(itype[i-1]!=UJUMP&&itype[i-1]!=CJUMP&&itype[i-1]!=SJUMP&&itype[i-1]!=RJUMP); assert(i==slen); - if(itype[i-2]!=CJUMP&&itype[i-2]!=SJUMP&&itype[i-2]!=FJUMP) { - store_regs_bt(regs[i-1].regmap,regs[i-1].is32,regs[i-1].dirty,start+i*4); + if(itype[i-2]!=CJUMP&&itype[i-2]!=SJUMP) { + store_regs_bt(regs[i-1].regmap,regs[i-1].dirty,start+i*4); if(regs[i-1].regmap[HOST_CCREG]!=CCREG) emit_loadreg(CCREG,HOST_CCREG); emit_addimm(HOST_CCREG,CLOCK_ADJUST(ccadj[i-1]+1),HOST_CCREG); } else if(!likely[i-2]) { - store_regs_bt(branch_regs[i-2].regmap,branch_regs[i-2].is32,branch_regs[i-2].dirty,start+i*4); + store_regs_bt(branch_regs[i-2].regmap,branch_regs[i-2].dirty,start+i*4); assert(branch_regs[i-2].regmap[HOST_CCREG]==CCREG); } else { - store_regs_bt(regs[i-2].regmap,regs[i-2].is32,regs[i-2].dirty,start+i*4); + store_regs_bt(regs[i-2].regmap,regs[i-2].dirty,start+i*4); assert(regs[i-2].regmap[HOST_CCREG]==CCREG); } - add_to_linker((int)out,start+i*4,0); + add_to_linker(out,start+i*4,0); emit_jmp(0); } } else { assert(i>0); - assert(itype[i-1]!=UJUMP&&itype[i-1]!=CJUMP&&itype[i-1]!=SJUMP&&itype[i-1]!=RJUMP&&itype[i-1]!=FJUMP); - store_regs_bt(regs[i-1].regmap,regs[i-1].is32,regs[i-1].dirty,start+i*4); + assert(itype[i-1]!=UJUMP&&itype[i-1]!=CJUMP&&itype[i-1]!=SJUMP&&itype[i-1]!=RJUMP); + store_regs_bt(regs[i-1].regmap,regs[i-1].dirty,start+i*4); if(regs[i-1].regmap[HOST_CCREG]!=CCREG) emit_loadreg(CCREG,HOST_CCREG); emit_addimm(HOST_CCREG,CLOCK_ADJUST(ccadj[i-1]+1),HOST_CCREG); - add_to_linker((int)out,start+i*4,0); + add_to_linker(out,start+i*4,0); emit_jmp(0); } @@ -10101,29 +9194,30 @@ int new_recompile_block(int addr) /* Pass 9 - Linker */ for(i=0;i %8x\n",link_addr[i][0],link_addr[i][1]); + assem_debug("%p -> %8x\n",link_addr[i].addr,link_addr[i].target); literal_pool(64); - if(!link_addr[i][2]) + if (!link_addr[i].ext) { - void *stub=out; - void *addr=check_addr(link_addr[i][1]); - emit_extjump(link_addr[i][0],link_addr[i][1]); - if(addr) { - set_jump_target(link_addr[i][0], addr); - add_link(link_addr[i][1],stub); + void *stub = out; + void *addr = check_addr(link_addr[i].target); + emit_extjump(link_addr[i].addr, link_addr[i].target); + if (addr) { + set_jump_target(link_addr[i].addr, addr); + add_link(link_addr[i].target,stub); } - else set_jump_target(link_addr[i][0], stub); + else + set_jump_target(link_addr[i].addr, stub); } else { // Internal branch - int target=(link_addr[i][1]-start)>>2; + int target=(link_addr[i].target-start)>>2; assert(target>=0&&target>1); + //set_jump_target_fillslot(link_addr[i].addr,instr_addr[target],link_addr[i].ext>>1); //#else - set_jump_target(link_addr[i][0],instr_addr[target]); + set_jump_target(link_addr[i].addr, instr_addr[target]); //#endif } } @@ -10164,8 +9258,8 @@ int new_recompile_block(int addr) // Align code if(((u_int)out)&7) emit_addnop(13); #endif - assert((u_int)out-(u_int)beginning(u_int)BASE_ADDR+(1< ndrc->translation_cache + sizeof(ndrc->translation_cache) - MAX_OUTPUT_BLOCK_SIZE) + out = ndrc->translation_cache; // Trap writes to any of the pages we compiled for(i=start>>12;i<=(start+slen*4)>>12;i++) { @@ -10190,11 +9285,11 @@ int new_recompile_block(int addr) /* Pass 10 - Free memory by expiring oldest blocks */ - int end=((((int)out-(int)BASE_ADDR)>>(TARGET_SIZE_2-16))+16384)&65535; + 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=(uintptr_t)BASE_ADDR+((expirep>>13)<translation_cache+((expirep>>13)<>11)&3) { @@ -10232,10 +9327,8 @@ int new_recompile_block(int addr) break; case 3: // Clear jump_out - #ifdef __arm__ if((expirep&2047)==0) do_clear_cache(); - #endif ll_remove_matching_addrs(jump_out+(expirep&2047),base,shift); ll_remove_matching_addrs(jump_out+2048+(expirep&2047),base,shift); break;