rename registers

This commit is contained in:
dzaima 2021-06-22 01:34:08 +03:00
parent 0c3ffb2fd8
commit cbd113870a
2 changed files with 45 additions and 52 deletions

View File

@ -443,12 +443,12 @@ Nvm_res m_nvm(Body* body) {
PUSH(r_PSCS);
PUSH(r_CS);
PUSH(r_SC);
MOV(r_CS , REG_ARG0);
MOV(r_PSCS, REG_ARG1);
MOV(r_SC , REG_ARG2);
MOV(r_CS , R_A0);
MOV(r_PSCS, R_A1);
MOV(r_SC , R_A2);
for (i32 i = 1; i < body->maxPSC+1; i++) {
MOV8rmo(REG_ARG2, REG_ARG2, offsetof(Scope, psc));
MOV8mro(r_PSCS, REG_ARG2, i*8);
MOV8rmo(R_A2, R_A2, offsetof(Scope, psc));
MOV8mro(r_PSCS, R_A2, i*8);
}
if ((u64)i_SETN != (u32)(u64)i_SETN) thrM("JIT: Refusing to run with CBQN code outside of the 32-bit address range");
// #define CCALL(F) { IMM(r_TMP, F); CALL(r_TMP); }
@ -468,13 +468,13 @@ Nvm_res m_nvm(Body* body) {
#define LEA0(O,I,OFF,Q) ({ i32 o=(OFF); if(o) LEAi(O,I,o); else if (Q) MOV(O,I); o?O:I; })
#define SPOS(R,N,Q) LEA0(R, r_CS, maxi32(0, depth+(N)-1)*sizeof(B),Q)
#if CSTACK
// #define INV(N,D,F) MOV(REG_ARG##N,r_CS); ADDI(r_CS,(D)*sizeof(B)); CCALL(F)
#define INV(N,D,F) SPOS(REG_ARG##N, D, 1); CCALL(F)
// #define INV(N,D,F) MOV(R_A##N,r_CS); ADDI(r_CS,(D)*sizeof(B)); CCALL(F)
#define INV(N,D,F) SPOS(R_A##N, D, 1); CCALL(F)
#else
#define INV(N,D,F) CCALL(F) // N - stack argument number; D - expected stack delta; F - called function; TODO instrs which don't need stack (POPS and things with stack delta 1)
#endif
#define TOPp MOV(REG_ARG0,REG_RES)
#define TOPs if (depth) { u8 t = SPOS(r_TMP, 0, 0); MOV8mr(t, REG_RES); }
#define TOPp MOV(R_A0,R_RES)
#define TOPs if (depth) { u8 t = SPOS(r_TMP, 0, 0); MOV8mr(t, R_RES); }
#define LSC(R,D) { if(D) MOV8rmo(R,r_PSCS,D*8); else MOV(R,r_SC); }
#define INCV(R) INC4mo(R, offsetof(Value,refc)); // ADD4mi(r_TMP, 1); CCALL(i_INC);
#ifdef __BMI2__ // TODO move to runtime detection maybe
@ -485,64 +485,64 @@ Nvm_res m_nvm(Body* body) {
switch (*bc++) {
case POPS: TOPp;
CCALL(i_POPS);
if (depth>1) { u8 t = SPOS(r_TMP, -1, 0); MOV8rm(REG_RES, t); }
if (depth>1) { u8 t = SPOS(r_TMP, -1, 0); MOV8rm(R_RES, t); }
break;
case ADDI: TOPs; { u64 x = L64; IMM(REG_RES, x); IMM(r_TMP, v(b(x))); INCV(r_TMP); break; } // (u64 v, S)
case ADDI: TOPs; { u64 x = L64; IMM(R_RES, x); IMM(r_TMP, v(b(x))); INCV(r_TMP); break; } // (u64 v, S)
case ADDU: TOPs; // (u64 v, S)
#if CSTACK
IMM(REG_RES, L64);
IMM(R_RES, L64);
#else
IMM(REG_ARG0, L64); CCALL(i_ADDU);
IMM(R_A0, L64); CCALL(i_ADDU);
#endif
break;
case FN1C: TOPp; IMM(REG_ARG1,off); INV(2,0,i_FN1C); break; // (B, u32* bc, S)
case FN2C: TOPp; IMM(REG_ARG1,off); INV(2,0,i_FN2C); break; // (B, u32* bc, S)
case FN1O: TOPp; IMM(REG_ARG1,off); INV(2,0,i_FN1O); break; // (B, u32* bc, S)
case FN2O: TOPp; IMM(REG_ARG1,off); INV(2,0,i_FN2O); break; // (B, u32* bc, S)
case FN1Ci:TOPp; IMM(REG_ARG1,L64); IMM(REG_ARG2,off); INV(3,0,i_FN1Ci); break; // (B, BB2B fm, u32* bc, S)
case FN2Ci:TOPp; IMM(REG_ARG1,L64); IMM(REG_ARG2,off); INV(3,0,i_FN2Ci); break; // (B, BBB2B fd, u32* bc, S)
case FN1Oi:TOPp; IMM(REG_ARG1,L64); IMM(REG_ARG2,off); INV(3,0,i_FN1Oi); break; // (B, BB2B fm, u32* bc, S)
case FN2Oi:TOPp; IMM(REG_ARG1,L64); IMM(REG_ARG2, L64); IMM(REG_ARG3,off); INV(4,0,i_FN2Oi); break; // (B, BB2B fm, BBB2B fd, u32* bc, S)
case FN1C: TOPp; IMM(R_A1,off); INV(2,0,i_FN1C); break; // (B, u32* bc, S)
case FN2C: TOPp; IMM(R_A1,off); INV(2,0,i_FN2C); break; // (B, u32* bc, S)
case FN1O: TOPp; IMM(R_A1,off); INV(2,0,i_FN1O); break; // (B, u32* bc, S)
case FN2O: TOPp; IMM(R_A1,off); INV(2,0,i_FN2O); break; // (B, u32* bc, S)
case FN1Ci:TOPp; IMM(R_A1,L64); IMM(R_A2,off); INV(3,0,i_FN1Ci); break; // (B, BB2B fm, u32* bc, S)
case FN2Ci:TOPp; IMM(R_A1,L64); IMM(R_A2,off); INV(3,0,i_FN2Ci); break; // (B, BBB2B fd, u32* bc, S)
case FN1Oi:TOPp; IMM(R_A1,L64); IMM(R_A2,off); INV(3,0,i_FN1Oi); break; // (B, BB2B fm, u32* bc, S)
case FN2Oi:TOPp; IMM(R_A1,L64); IMM(R_A2, L64); IMM(R_A3,off); INV(4,0,i_FN2Oi); break; // (B, BB2B fm, BBB2B fd, u32* bc, S)
case ARRM: case ARRO:;
u32 sz = *bc++;
if (sz) { TOPp; IMM(REG_ARG1, sz); INV(2,0,i_ARR_p); } // (B, i64 sz, S)
if (sz) { TOPp; IMM(R_A1, sz); INV(2,0,i_ARR_p); } // (B, i64 sz, S)
else { TOPs; CCALL(i_ARR_0); } // (S)
break;
case DFND: TOPs; // (u32* bc, Scope* sc, Block* bl, S)
Block* bl = blocks[*bc++];
u64 fn = (u64)(bl->ty==0? i_DFND_0 : bl->ty==1? i_DFND_1 : bl->ty==2? i_DFND_2 : NULL);
if (fn==0) thrM("JIT: Bad DFND argument");
IMM(REG_ARG0,off); MOV(REG_ARG1,r_SC); IMM(REG_ARG2,bl); INV(3,1,fn);
IMM(R_A0,off); MOV(R_A1,r_SC); IMM(R_A2,bl); INV(3,1,fn);
break;
case OP1D: TOPp; IMM(REG_ARG1,off); INV(2,0,i_OP1D); break; // (B, u32* bc, S)
case OP2D: TOPp; IMM(REG_ARG1,off); INV(2,0,i_OP2D); break; // (B, u32* bc, S)
case OP1D: TOPp; IMM(R_A1,off); INV(2,0,i_OP1D); break; // (B, u32* bc, S)
case OP2D: TOPp; IMM(R_A1,off); INV(2,0,i_OP2D); break; // (B, u32* bc, S)
case OP2H: TOPp; INV(1,0,i_OP2H); break; // (B, S)
case TR2D: TOPp; INV(1,0,i_TR2D); break; // (B, S)
case TR3D: TOPp; INV(1,0,i_TR3D); break; // (B, S)
case TR3O: TOPp; INV(1,0,i_TR3O); break; // (B, S)
case LOCM: TOPs; { u64 d=*bc++; u64 p=*bc++; IMM(REG_RES, tag((u64)d<<32 | (u32)p, VAR_TAG).u); } break;
case EXTM: TOPs; { u64 d=*bc++; u64 p=*bc++; IMM(REG_RES, tag((u64)d<<32 | (u32)p, EXT_TAG).u); } break;
case LOCM: TOPs; { u64 d=*bc++; u64 p=*bc++; IMM(R_RES, tag((u64)d<<32 | (u32)p, VAR_TAG).u); } break;
case EXTM: TOPs; { u64 d=*bc++; u64 p=*bc++; IMM(R_RES, tag((u64)d<<32 | (u32)p, EXT_TAG).u); } break;
case LOCO: TOPs; { u64 d=*bc++; u64 p=*bc++; LSC(R_A1,d);
MOV8rmo(R_RES,R_A1,p*8+offsetof(Scope,vars)); // read variable
INCB(R_RES,R_A2,R_A3); // increment refcount if one's needed
if (d) { IMM(R_A2, bi_noVar.u); CMP(R_A2,R_RES); JNE(lN); IMM(REG_ARG0,off); INV(1,1,i_NOVAR); LBL1(lN); } // check for error
if (d) { IMM(R_A2, bi_noVar.u); CMP(R_A2,R_RES); JNE(lN); IMM(R_A0,off); INV(1,1,i_NOVAR); LBL1(lN); } // check for error
} break;
// case LOCO: TOPs; { u64 d=*bc++; u64 p=*bc++; LSC(R_A1,d); MOV8rmo(R_RES,R_A1,p*8+offsetof(Scope,vars)); INCB(R_RES,R_A2,R_A3); } break; // non-erroring inline
// case LOCO: TOPs; { u64 d=*bc++; IMM(REG_ARG0,*bc++); LSC(REG_ARG1,d); IMM(REG_ARG2,off); INV(3,1,i_LOCO); } break; // original
// case LOCO: TOPs; { u64 d=*bc++; IMM(REG_ARG0,*bc++); LSC(REG_ARG1,d); CCALL(i_LOCO); } break; // original with no error handling
case EXTO: TOPs; { u64 d=*bc++; IMM(REG_ARG0,*bc++); LSC(REG_ARG1,d); IMM(REG_ARG2,off); INV(3,1,i_EXTO); } break; // (u32 p, Scope* sc, u32* bc, S)
case LOCU: TOPs; { u64 d=*bc++; IMM(REG_ARG0,*bc++); LSC(REG_ARG1,d); CCALL(i_LOCU); } break; // (u32 p, Scope* sc, S)
case EXTU: TOPs; { u64 d=*bc++; IMM(REG_ARG0,*bc++); LSC(REG_ARG1,d); CCALL(i_EXTU); } break; // (u32 p, Scope* sc, S)
case SETN: TOPp; MOV(REG_ARG1,r_PSCS); IMM(REG_ARG2,off); INV(3,0,i_SETN); break; // (B, Scope** pscs, u32* bc, S)
case SETU: TOPp; MOV(REG_ARG1,r_PSCS); IMM(REG_ARG2,off); INV(3,0,i_SETU); break; // (B, Scope** pscs, u32* bc, S)
case SETM: TOPp; MOV(REG_ARG1,r_PSCS); IMM(REG_ARG2,off); INV(3,0,i_SETM); break; // (B, Scope** pscs, u32* bc, S)
case SETNi:TOPp; { u64 d=*bc++; u64 p=*bc++; LSC(REG_ARG1,d); IMM(REG_ARG2,p); IMM(REG_ARG3,off); INV(4,0,i_SETNi); break; } // (B, Scope* sc, u32 p, u32* bc, S)
case SETUi:TOPp; { u64 d=*bc++; u64 p=*bc++; LSC(REG_ARG1,d); IMM(REG_ARG2,p); IMM(REG_ARG3,off); INV(4,0,i_SETUi); break; } // (B, Scope* sc, u32 p, u32* bc, S)
case SETMi:TOPp; { u64 d=*bc++; u64 p=*bc++; LSC(REG_ARG1,d); IMM(REG_ARG2,p); IMM(REG_ARG3,off); INV(4,0,i_SETMi); break; } // (B, Scope* sc, u32 p, u32* bc, S)
case FLDO: TOPp; IMM(REG_ARG1,*bc++); MOV(REG_ARG2,r_SC); INV(3,0,i_FLDO); break; // (B, u32 p, Scope* sc, S)
case NSPM: TOPp; IMM(REG_ARG1,*bc++); CCALL(i_NSPM); break; // (B, u32 l, S)
case CHKV: TOPp; IMM(REG_ARG1,off); INV(2,0,i_CHKV); break; // (B, u32* bc, S)
case RETD: MOV(REG_ARG0,r_SC); INV(1,1,i_RETD); ret=true; break; // (Scope* sc, S); stack diff 0 is wrong, but updating it is useless
// case LOCO: TOPs; { u64 d=*bc++; IMM(R_A0,*bc++); LSC(R_A1,d); IMM(R_A2,off); INV(3,1,i_LOCO); } break; // original
// case LOCO: TOPs; { u64 d=*bc++; IMM(R_A0,*bc++); LSC(R_A1,d); CCALL(i_LOCO); } break; // original with no error handling
case EXTO: TOPs; { u64 d=*bc++; IMM(R_A0,*bc++); LSC(R_A1,d); IMM(R_A2,off); INV(3,1,i_EXTO); } break; // (u32 p, Scope* sc, u32* bc, S)
case LOCU: TOPs; { u64 d=*bc++; IMM(R_A0,*bc++); LSC(R_A1,d); CCALL(i_LOCU); } break; // (u32 p, Scope* sc, S)
case EXTU: TOPs; { u64 d=*bc++; IMM(R_A0,*bc++); LSC(R_A1,d); CCALL(i_EXTU); } break; // (u32 p, Scope* sc, S)
case SETN: TOPp; MOV(R_A1,r_PSCS); IMM(R_A2,off); INV(3,0,i_SETN); break; // (B, Scope** pscs, u32* bc, S)
case SETU: TOPp; MOV(R_A1,r_PSCS); IMM(R_A2,off); INV(3,0,i_SETU); break; // (B, Scope** pscs, u32* bc, S)
case SETM: TOPp; MOV(R_A1,r_PSCS); IMM(R_A2,off); INV(3,0,i_SETM); break; // (B, Scope** pscs, u32* bc, S)
case SETNi:TOPp; { u64 d=*bc++; u64 p=*bc++; LSC(R_A1,d); IMM(R_A2,p); IMM(R_A3,off); INV(4,0,i_SETNi); break; } // (B, Scope* sc, u32 p, u32* bc, S)
case SETUi:TOPp; { u64 d=*bc++; u64 p=*bc++; LSC(R_A1,d); IMM(R_A2,p); IMM(R_A3,off); INV(4,0,i_SETUi); break; } // (B, Scope* sc, u32 p, u32* bc, S)
case SETMi:TOPp; { u64 d=*bc++; u64 p=*bc++; LSC(R_A1,d); IMM(R_A2,p); IMM(R_A3,off); INV(4,0,i_SETMi); break; } // (B, Scope* sc, u32 p, u32* bc, S)
case FLDO: TOPp; IMM(R_A1,*bc++); MOV(R_A2,r_SC); INV(3,0,i_FLDO); break; // (B, u32 p, Scope* sc, S)
case NSPM: TOPp; IMM(R_A1,*bc++); CCALL(i_NSPM); break; // (B, u32 l, S)
case CHKV: TOPp; IMM(R_A1,off); INV(2,0,i_CHKV); break; // (B, u32* bc, S)
case RETD: MOV(R_A0,r_SC); INV(1,1,i_RETD); ret=true; break; // (Scope* sc, S); stack diff 0 is wrong, but updating it is useless
case RETN: IMM(r_TMP, &gStack); MOV8mr(r_TMP, r_CS); ret=true; break;
default: thrF("JIT: Unsupported bytecode %i", *s);
}

View File

@ -61,13 +61,6 @@ typedef u8 Reg;
#define R_P4 15 // r15
#define REG_RES 0
#define REG_ARG0 7
#define REG_ARG1 6
#define REG_ARG2 2
#define REG_ARG3 1
#define REG_ARG4 8
#define REG_ARG5 9
#define ALLOC_ASM(N) TStack* b_o = (TStack*)mm_allocN(sizeof(TStack)+(N), t_temp); b_o->size=0; b_o->cap=(N);
#define GET_ASM() u8* bin = b_o->data;
@ -158,8 +151,8 @@ static inline void asm_a(TStack* o, u64 len, u8 v[]) {
#define CQO(O,I) {0x48,0x99}
#define IDIV(O,I) {REX8(O,0),0xF7,A_REG(O,7)}
#define REG_IDIV_0 REG_RES
#define REG_IDIV_1 REG_ARG2
#define REG_IDIV_0 R_RES
#define REG_IDIV_1 R_A2
#define CVTSI2SD(O,I) {0xF2,REX8(I,O),0x0F,0x2A,A_REG(I,O)}
#define CVTTSD2SI(O,I) {0xF2,REX8(I,O),0x0F,0x2C,A_REG(I,O)}