From 6523585c66c04cea54df50013df8886b589847d8 Mon Sep 17 00:00:00 2001 From: David Walter Seikel Date: Mon, 23 Jan 2012 23:36:30 +1000 Subject: Add luaproc and LuaJIT libraries. Two versions of LuaJIT, the stable release, and the dev version. Try the dev version first, until ih fails badly. --- libraries/luajit-2.0/src/lj_asm_ppc.h | 2143 +++++++++++++++++++++++++++++++++ 1 file changed, 2143 insertions(+) create mode 100644 libraries/luajit-2.0/src/lj_asm_ppc.h (limited to 'libraries/luajit-2.0/src/lj_asm_ppc.h') diff --git a/libraries/luajit-2.0/src/lj_asm_ppc.h b/libraries/luajit-2.0/src/lj_asm_ppc.h new file mode 100644 index 0000000..f3f9e2e --- /dev/null +++ b/libraries/luajit-2.0/src/lj_asm_ppc.h @@ -0,0 +1,2143 @@ +/* +** PPC IR assembler (SSA IR -> machine code). +** Copyright (C) 2005-2011 Mike Pall. See Copyright Notice in luajit.h +*/ + +/* -- Register allocator extensions --------------------------------------- */ + +/* Allocate a register with a hint. */ +static Reg ra_hintalloc(ASMState *as, IRRef ref, Reg hint, RegSet allow) +{ + Reg r = IR(ref)->r; + if (ra_noreg(r)) { + if (!ra_hashint(r) && !iscrossref(as, ref)) + ra_sethint(IR(ref)->r, hint); /* Propagate register hint. */ + r = ra_allocref(as, ref, allow); + } + ra_noweak(as, r); + return r; +} + +/* Allocate two source registers for three-operand instructions. */ +static Reg ra_alloc2(ASMState *as, IRIns *ir, RegSet allow) +{ + IRIns *irl = IR(ir->op1), *irr = IR(ir->op2); + Reg left = irl->r, right = irr->r; + if (ra_hasreg(left)) { + ra_noweak(as, left); + if (ra_noreg(right)) + right = ra_allocref(as, ir->op2, rset_exclude(allow, left)); + else + ra_noweak(as, right); + } else if (ra_hasreg(right)) { + ra_noweak(as, right); + left = ra_allocref(as, ir->op1, rset_exclude(allow, right)); + } else if (ra_hashint(right)) { + right = ra_allocref(as, ir->op2, allow); + left = ra_alloc1(as, ir->op1, rset_exclude(allow, right)); + } else { + left = ra_allocref(as, ir->op1, allow); + right = ra_alloc1(as, ir->op2, rset_exclude(allow, left)); + } + return left | (right << 8); +} + +/* -- Guard handling ------------------------------------------------------ */ + +/* Setup exit stubs after the end of each trace. */ +static void asm_exitstub_setup(ASMState *as, ExitNo nexits) +{ + ExitNo i; + MCode *mxp = as->mctop; + /* 1: mflr r0; bl ->vm_exit_handler; li r0, traceno; bl <1; bl <1; ... */ + for (i = nexits-1; (int32_t)i >= 0; i--) + *--mxp = PPCI_BL|(((-3-i)&0x00ffffffu)<<2); + *--mxp = PPCI_LI|PPCF_T(RID_TMP)|as->T->traceno; /* Read by exit handler. */ + mxp--; + *mxp = PPCI_BL|((((MCode *)(void *)lj_vm_exit_handler-mxp)&0x00ffffffu)<<2); + *--mxp = PPCI_MFLR|PPCF_T(RID_TMP); + as->mctop = mxp; +} + +static MCode *asm_exitstub_addr(ASMState *as, ExitNo exitno) +{ + /* Keep this in-sync with exitstub_trace_addr(). */ + return as->mctop + exitno + 3; +} + +/* Emit conditional branch to exit for guard. */ +static void asm_guardcc(ASMState *as, PPCCC cc) +{ + MCode *target = asm_exitstub_addr(as, as->snapno); + MCode *p = as->mcp; + if (LJ_UNLIKELY(p == as->invmcp)) { + as->loopinv = 1; + *p = PPCI_B | (((target-p) & 0x00ffffffu) << 2); + emit_condbranch(as, PPCI_BC, cc^4, p); + return; + } + emit_condbranch(as, PPCI_BC, cc, target); +} + +/* -- Operand fusion ------------------------------------------------------ */ + +/* Limit linear search to this distance. Avoids O(n^2) behavior. */ +#define CONFLICT_SEARCH_LIM 31 + +/* Check if there's no conflicting instruction between curins and ref. */ +static int noconflict(ASMState *as, IRRef ref, IROp conflict) +{ + IRIns *ir = as->ir; + IRRef i = as->curins; + if (i > ref + CONFLICT_SEARCH_LIM) + return 0; /* Give up, ref is too far away. */ + while (--i > ref) + if (ir[i].o == conflict) + return 0; /* Conflict found. */ + return 1; /* Ok, no conflict. */ +} + +/* Fuse the array base of colocated arrays. */ +static int32_t asm_fuseabase(ASMState *as, IRRef ref) +{ + IRIns *ir = IR(ref); + if (ir->o == IR_TNEW && ir->op1 <= LJ_MAX_COLOSIZE && + !neverfuse(as) && noconflict(as, ref, IR_NEWREF)) + return (int32_t)sizeof(GCtab); + return 0; +} + +/* Indicates load/store indexed is ok. */ +#define AHUREF_LSX ((int32_t)0x80000000) + +/* Fuse array/hash/upvalue reference into register+offset operand. */ +static Reg asm_fuseahuref(ASMState *as, IRRef ref, int32_t *ofsp, RegSet allow) +{ + IRIns *ir = IR(ref); + if (ra_noreg(ir->r)) { + if (ir->o == IR_AREF) { + if (mayfuse(as, ref)) { + if (irref_isk(ir->op2)) { + IRRef tab = IR(ir->op1)->op1; + int32_t ofs = asm_fuseabase(as, tab); + IRRef refa = ofs ? tab : ir->op1; + ofs += 8*IR(ir->op2)->i; + if (checki16(ofs)) { + *ofsp = ofs; + return ra_alloc1(as, refa, allow); + } + } + if (*ofsp == AHUREF_LSX) { + Reg base = ra_alloc1(as, ir->op1, allow); + Reg idx = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, base)); + return base | (idx << 8); + } + } + } else if (ir->o == IR_HREFK) { + if (mayfuse(as, ref)) { + int32_t ofs = (int32_t)(IR(ir->op2)->op2 * sizeof(Node)); + if (checki16(ofs)) { + *ofsp = ofs; + return ra_alloc1(as, ir->op1, allow); + } + } + } else if (ir->o == IR_UREFC) { + if (irref_isk(ir->op1)) { + GCfunc *fn = ir_kfunc(IR(ir->op1)); + int32_t ofs = i32ptr(&gcref(fn->l.uvptr[(ir->op2 >> 8)])->uv.tv); + int32_t jgl = (intptr_t)J2G(as->J); + if ((uint32_t)(ofs-jgl) < 65536) { + *ofsp = ofs-jgl-32768; + return RID_JGL; + } else { + *ofsp = (int16_t)ofs; + return ra_allock(as, ofs-(int16_t)ofs, allow); + } + } + } + } + *ofsp = 0; + return ra_alloc1(as, ref, allow); +} + +/* Fuse XLOAD/XSTORE reference into load/store operand. */ +static void asm_fusexref(ASMState *as, PPCIns pi, Reg rt, IRRef ref, + RegSet allow) +{ + IRIns *ir = IR(ref); + int32_t ofs = 0; + Reg base; + if (ra_noreg(ir->r) && mayfuse(as, ref)) { + if (ir->o == IR_ADD) { + if (irref_isk(ir->op2) && (ofs = IR(ir->op2)->i, checki16(ofs))) { + ref = ir->op1; + } else { + Reg right, left = ra_alloc2(as, ir, allow); + right = (left >> 8); left &= 255; + emit_fab(as, PPCI_LWZX | ((pi >> 20) & 0x780), rt, left, right); + return; + } + } else if (ir->o == IR_STRREF) { + ofs = (int32_t)sizeof(GCstr); + if (irref_isk(ir->op2)) { + ofs += IR(ir->op2)->i; + ref = ir->op1; + } else if (irref_isk(ir->op1)) { + ofs += IR(ir->op1)->i; + ref = ir->op2; + } else { + /* NYI: Fuse ADD with constant. */ + Reg right, left = ra_alloc2(as, ir, allow); + right = (left >> 8); left &= 255; + emit_fai(as, pi, rt, rt, ofs); + emit_tab(as, PPCI_ADD, rt, left, right); + return; + } + if (!checki16(ofs)) { + Reg left = ra_alloc1(as, ref, allow); + Reg right = ra_allock(as, ofs, rset_exclude(allow, left)); + emit_fab(as, PPCI_LWZX | ((pi >> 20) & 0x780), rt, left, right); + return; + } + } + } + base = ra_alloc1(as, ref, allow); + emit_fai(as, pi, rt, base, ofs); +} + +/* Fuse XLOAD/XSTORE reference into indexed-only load/store operand. */ +static void asm_fusexrefx(ASMState *as, PPCIns pi, Reg rt, IRRef ref, + RegSet allow) +{ + IRIns *ira = IR(ref); + Reg right, left; + if (mayfuse(as, ref) && ira->o == IR_ADD && ra_noreg(ira->r)) { + left = ra_alloc2(as, ira, allow); + right = (left >> 8); left &= 255; + } else { + right = ra_alloc1(as, ref, allow); + left = RID_R0; + } + emit_tab(as, pi, rt, left, right); +} + +/* Fuse to multiply-add/sub instruction. */ +static int asm_fusemadd(ASMState *as, IRIns *ir, PPCIns pi, PPCIns pir) +{ + IRRef lref = ir->op1, rref = ir->op2; + IRIns *irm; + if (lref != rref && + ((mayfuse(as, lref) && (irm = IR(lref), irm->o == IR_MUL) && + ra_noreg(irm->r)) || + (mayfuse(as, rref) && (irm = IR(rref), irm->o == IR_MUL) && + (rref = lref, pi = pir, ra_noreg(irm->r))))) { + Reg dest = ra_dest(as, ir, RSET_FPR); + Reg add = ra_alloc1(as, rref, RSET_FPR); + Reg right, left = ra_alloc2(as, irm, rset_exclude(RSET_FPR, add)); + right = (left >> 8); left &= 255; + emit_facb(as, pi, dest, left, right, add); + return 1; + } + return 0; +} + +/* -- Calls --------------------------------------------------------------- */ + +/* Generate a call to a C function. */ +static void asm_gencall(ASMState *as, const CCallInfo *ci, IRRef *args) +{ + uint32_t n, nargs = CCI_NARGS(ci); + int32_t ofs = 8; + Reg gpr = REGARG_FIRSTGPR, fpr = REGARG_FIRSTFPR; + if ((void *)ci->func) + emit_call(as, (void *)ci->func); + for (n = 0; n < nargs; n++) { /* Setup args. */ + IRRef ref = args[n]; + if (ref) { + IRIns *ir = IR(ref); + if (irt_isfp(ir->t)) { + if (fpr <= REGARG_LASTFPR) { + lua_assert(rset_test(as->freeset, fpr)); /* Already evicted. */ + ra_leftov(as, fpr, ref); + fpr++; + } else { + Reg r = ra_alloc1(as, ref, RSET_FPR); + if (irt_isnum(ir->t)) ofs = (ofs + 4) & ~4; + emit_spstore(as, ir, r, ofs); + ofs += irt_isnum(ir->t) ? 8 : 4; + } + } else { + if (gpr <= REGARG_LASTGPR) { + lua_assert(rset_test(as->freeset, gpr)); /* Already evicted. */ + ra_leftov(as, gpr, ref); + gpr++; + } else { + Reg r = ra_alloc1(as, ref, RSET_GPR); + emit_spstore(as, ir, r, ofs); + ofs += 4; + } + } + } else { + if (gpr <= REGARG_LASTGPR) + gpr++; + else + ofs += 4; + } + } + if ((ci->flags & CCI_VARARG)) /* Vararg calls need to know about FPR use. */ + emit_tab(as, fpr == REGARG_FIRSTFPR ? PPCI_CRXOR : PPCI_CREQV, 6, 6, 6); +} + +/* Setup result reg/sp for call. Evict scratch regs. */ +static void asm_setupresult(ASMState *as, IRIns *ir, const CCallInfo *ci) +{ + RegSet drop = RSET_SCRATCH; + int hiop = ((ir+1)->o == IR_HIOP); + if ((ci->flags & CCI_NOFPRCLOBBER)) + drop &= ~RSET_FPR; + if (ra_hasreg(ir->r)) + rset_clear(drop, ir->r); /* Dest reg handled below. */ + if (hiop && ra_hasreg((ir+1)->r)) + rset_clear(drop, (ir+1)->r); /* Dest reg handled below. */ + ra_evictset(as, drop); /* Evictions must be performed first. */ + if (ra_used(ir)) { + lua_assert(!irt_ispri(ir->t)); + if (irt_isfp(ir->t)) { + if ((ci->flags & CCI_CASTU64)) { + /* Use spill slot or temp slots. */ + int32_t ofs = ir->s ? sps_scale(ir->s) : SPOFS_TMP; + Reg dest = ir->r; + if (ra_hasreg(dest)) { + ra_free(as, dest); + ra_modified(as, dest); + emit_fai(as, PPCI_LFD, dest, RID_SP, ofs); + } + emit_tai(as, PPCI_STW, RID_RETHI, RID_SP, ofs); + emit_tai(as, PPCI_STW, RID_RETLO, RID_SP, ofs+4); + } else { + ra_destreg(as, ir, RID_FPRET); + } + } else if (hiop) { + ra_destpair(as, ir); + } else { + ra_destreg(as, ir, RID_RET); + } + } +} + +static void asm_call(ASMState *as, IRIns *ir) +{ + IRRef args[CCI_NARGS_MAX]; + const CCallInfo *ci = &lj_ir_callinfo[ir->op2]; + asm_collectargs(as, ir, ci, args); + asm_setupresult(as, ir, ci); + asm_gencall(as, ci, args); +} + +static void asm_callx(ASMState *as, IRIns *ir) +{ + IRRef args[CCI_NARGS_MAX]; + CCallInfo ci; + IRRef func; + IRIns *irf; + ci.flags = asm_callx_flags(as, ir); + asm_collectargs(as, ir, &ci, args); + asm_setupresult(as, ir, &ci); + func = ir->op2; irf = IR(func); + if (irf->o == IR_CARG) { func = irf->op1; irf = IR(func); } + if (irref_isk(func)) { /* Call to constant address. */ + ci.func = (ASMFunction)(void *)(irf->i); + } else { /* Need a non-argument register for indirect calls. */ + RegSet allow = RSET_GPR & ~RSET_RANGE(RID_R0, REGARG_LASTGPR+1); + Reg freg = ra_alloc1(as, func, allow); + *--as->mcp = PPCI_BCTRL; + *--as->mcp = PPCI_MTCTR | PPCF_T(freg); + ci.func = (ASMFunction)(void *)0; + } + asm_gencall(as, &ci, args); +} + +static void asm_callid(ASMState *as, IRIns *ir, IRCallID id) +{ + const CCallInfo *ci = &lj_ir_callinfo[id]; + IRRef args[2]; + args[0] = ir->op1; + args[1] = ir->op2; + asm_setupresult(as, ir, ci); + asm_gencall(as, ci, args); +} + +/* -- Returns ------------------------------------------------------------- */ + +/* Return to lower frame. Guard that it goes to the right spot. */ +static void asm_retf(ASMState *as, IRIns *ir) +{ + Reg base = ra_alloc1(as, REF_BASE, RSET_GPR); + void *pc = ir_kptr(IR(ir->op2)); + int32_t delta = 1+bc_a(*((const BCIns *)pc - 1)); + as->topslot -= (BCReg)delta; + if ((int32_t)as->topslot < 0) as->topslot = 0; + emit_setgl(as, base, jit_base); + emit_addptr(as, base, -8*delta); + asm_guardcc(as, CC_NE); + emit_ab(as, PPCI_CMPW, RID_TMP, + ra_allock(as, i32ptr(pc), rset_exclude(RSET_GPR, base))); + emit_tai(as, PPCI_LWZ, RID_TMP, base, -8); +} + +/* -- Type conversions ---------------------------------------------------- */ + +static void asm_tointg(ASMState *as, IRIns *ir, Reg left) +{ + RegSet allow = RSET_FPR; + Reg tmp = ra_scratch(as, rset_clear(allow, left)); + Reg fbias = ra_scratch(as, rset_clear(allow, tmp)); + Reg dest = ra_dest(as, ir, RSET_GPR); + Reg hibias = ra_allock(as, 0x43300000, rset_exclude(RSET_GPR, dest)); + asm_guardcc(as, CC_NE); + emit_fab(as, PPCI_FCMPU, 0, tmp, left); + emit_fab(as, PPCI_FSUB, tmp, tmp, fbias); + emit_fai(as, PPCI_LFD, tmp, RID_SP, SPOFS_TMP); + emit_tai(as, PPCI_STW, RID_TMP, RID_SP, SPOFS_TMPLO); + emit_tai(as, PPCI_STW, hibias, RID_SP, SPOFS_TMPHI); + emit_asi(as, PPCI_XORIS, RID_TMP, dest, 0x8000); + emit_tai(as, PPCI_LWZ, dest, RID_SP, SPOFS_TMPLO); + emit_lsptr(as, PPCI_LFS, (fbias & 31), + (void *)lj_ir_k64_find(as->J, U64x(59800004,59800000)), + RSET_GPR); + emit_fai(as, PPCI_STFD, tmp, RID_SP, SPOFS_TMP); + emit_fb(as, PPCI_FCTIWZ, tmp, left); +} + +static void asm_tobit(ASMState *as, IRIns *ir) +{ + RegSet allow = RSET_FPR; + Reg dest = ra_dest(as, ir, RSET_GPR); + Reg left = ra_alloc1(as, ir->op1, allow); + Reg right = ra_alloc1(as, ir->op2, rset_clear(allow, left)); + Reg tmp = ra_scratch(as, rset_clear(allow, right)); + emit_tai(as, PPCI_LWZ, dest, RID_SP, SPOFS_TMPLO); + emit_fai(as, PPCI_STFD, tmp, RID_SP, SPOFS_TMP); + emit_fab(as, PPCI_FADD, tmp, left, right); +} + +static void asm_conv(ASMState *as, IRIns *ir) +{ + IRType st = (IRType)(ir->op2 & IRCONV_SRCMASK); + int stfp = (st == IRT_NUM || st == IRT_FLOAT); + IRRef lref = ir->op1; + lua_assert(irt_type(ir->t) != st); + lua_assert(!(irt_isint64(ir->t) || + (st == IRT_I64 || st == IRT_U64))); /* Handled by SPLIT. */ + if (irt_isfp(ir->t)) { + Reg dest = ra_dest(as, ir, RSET_FPR); + if (stfp) { /* FP to FP conversion. */ + if (st == IRT_NUM) /* double -> float conversion. */ + emit_fb(as, PPCI_FRSP, dest, ra_alloc1(as, lref, RSET_FPR)); + else /* float -> double conversion is a no-op on PPC. */ + ra_leftov(as, dest, lref); /* Do nothing, but may need to move regs. */ + } else { /* Integer to FP conversion. */ + /* IRT_INT: Flip hibit, bias with 2^52, subtract 2^52+2^31. */ + /* IRT_U32: Bias with 2^52, subtract 2^52. */ + RegSet allow = RSET_GPR; + Reg left = ra_alloc1(as, lref, allow); + Reg hibias = ra_allock(as, 0x43300000, rset_clear(allow, left)); + Reg fbias = ra_scratch(as, rset_exclude(RSET_FPR, dest)); + const float *kbias; + if (irt_isfloat(ir->t)) emit_fb(as, PPCI_FRSP, dest, dest); + emit_fab(as, PPCI_FSUB, dest, dest, fbias); + emit_fai(as, PPCI_LFD, dest, RID_SP, SPOFS_TMP); + kbias = (const float *)lj_ir_k64_find(as->J, U64x(59800004,59800000)); + if (st == IRT_U32) kbias++; + emit_lsptr(as, PPCI_LFS, (fbias & 31), (void *)kbias, + rset_clear(allow, hibias)); + emit_tai(as, PPCI_STW, st == IRT_U32 ? left : RID_TMP, + RID_SP, SPOFS_TMPLO); + emit_tai(as, PPCI_STW, hibias, RID_SP, SPOFS_TMPHI); + if (st != IRT_U32) emit_asi(as, PPCI_XORIS, RID_TMP, left, 0x8000); + } + } else if (stfp) { /* FP to integer conversion. */ + if (irt_isguard(ir->t)) { + /* Checked conversions are only supported from number to int. */ + lua_assert(irt_isint(ir->t) && st == IRT_NUM); + asm_tointg(as, ir, ra_alloc1(as, lref, RSET_FPR)); + } else { + Reg dest = ra_dest(as, ir, RSET_GPR); + Reg left = ra_alloc1(as, lref, RSET_FPR); + Reg tmp = ra_scratch(as, rset_exclude(RSET_FPR, left)); + if (irt_isu32(ir->t)) { + /* Convert both x and x-2^31 to int and merge results. */ + Reg tmpi = ra_scratch(as, rset_exclude(RSET_GPR, dest)); + emit_asb(as, PPCI_OR, dest, dest, tmpi); /* Select with mask idiom. */ + emit_asb(as, PPCI_AND, tmpi, tmpi, RID_TMP); + emit_asb(as, PPCI_ANDC, dest, dest, RID_TMP); + emit_tai(as, PPCI_LWZ, tmpi, RID_SP, SPOFS_TMPLO); /* tmp = (int)(x) */ + emit_tai(as, PPCI_ADDIS, dest, dest, 0x8000); /* dest += 2^31 */ + emit_asb(as, PPCI_SRAWI, RID_TMP, dest, 31); /* mask = -(dest < 0) */ + emit_fai(as, PPCI_STFD, tmp, RID_SP, SPOFS_TMP); + emit_tai(as, PPCI_LWZ, dest, + RID_SP, SPOFS_TMPLO); /* dest = (int)(x-2^31) */ + emit_fb(as, PPCI_FCTIWZ, tmp, left); + emit_fai(as, PPCI_STFD, tmp, RID_SP, SPOFS_TMP); + emit_fb(as, PPCI_FCTIWZ, tmp, tmp); + emit_fab(as, PPCI_FSUB, tmp, left, tmp); + emit_lsptr(as, PPCI_LFS, (tmp & 31), + (void *)lj_ir_k64_find(as->J, U64x(4f000000,00000000)), + RSET_GPR); + } else { + emit_tai(as, PPCI_LWZ, dest, RID_SP, SPOFS_TMPLO); + emit_fai(as, PPCI_STFD, tmp, RID_SP, SPOFS_TMP); + emit_fb(as, PPCI_FCTIWZ, tmp, left); + } + } + } else { + Reg dest = ra_dest(as, ir, RSET_GPR); + if (st >= IRT_I8 && st <= IRT_U16) { /* Extend to 32 bit integer. */ + Reg left = ra_alloc1(as, ir->op1, RSET_GPR); + lua_assert(irt_isint(ir->t) || irt_isu32(ir->t)); + if ((ir->op2 & IRCONV_SEXT)) + emit_as(as, st == IRT_I8 ? PPCI_EXTSB : PPCI_EXTSH, dest, left); + else + emit_rot(as, PPCI_RLWINM, dest, left, 0, st == IRT_U8 ? 24 : 16, 31); + } else { /* 32/64 bit integer conversions. */ + /* Only need to handle 32/32 bit no-op (cast) on 32 bit archs. */ + ra_leftov(as, dest, lref); /* Do nothing, but may need to move regs. */ + } + } +} + +#if LJ_HASFFI +static void asm_conv64(ASMState *as, IRIns *ir) +{ + IRType st = (IRType)((ir-1)->op2 & IRCONV_SRCMASK); + IRType dt = (((ir-1)->op2 & IRCONV_DSTMASK) >> IRCONV_DSH); + IRCallID id; + const CCallInfo *ci; + IRRef args[2]; + args[0] = ir->op1; + args[1] = (ir-1)->op1; + if (st == IRT_NUM || st == IRT_FLOAT) { + id = IRCALL_fp64_d2l + ((st == IRT_FLOAT) ? 2 : 0) + (dt - IRT_I64); + ir--; + } else { + id = IRCALL_fp64_l2d + ((dt == IRT_FLOAT) ? 2 : 0) + (st - IRT_I64); + } + ci = &lj_ir_callinfo[id]; + asm_setupresult(as, ir, ci); + asm_gencall(as, ci, args); +} +#endif + +static void asm_strto(ASMState *as, IRIns *ir) +{ + const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_str_tonum]; + IRRef args[2]; + int32_t ofs; + RegSet drop = RSET_SCRATCH; + if (ra_hasreg(ir->r)) rset_set(drop, ir->r); /* Spill dest reg (if any). */ + ra_evictset(as, drop); + asm_guardcc(as, CC_EQ); + emit_ai(as, PPCI_CMPWI, RID_RET, 0); /* Test return status. */ + args[0] = ir->op1; /* GCstr *str */ + args[1] = ASMREF_TMP1; /* TValue *n */ + asm_gencall(as, ci, args); + /* Store the result to the spill slot or temp slots. */ + ofs = ir->s ? sps_scale(ir->s) : SPOFS_TMP; + emit_tai(as, PPCI_ADDI, ra_releasetmp(as, ASMREF_TMP1), RID_SP, ofs); +} + +/* Get pointer to TValue. */ +static void asm_tvptr(ASMState *as, Reg dest, IRRef ref) +{ + IRIns *ir = IR(ref); + if (irt_isnum(ir->t)) { + if (irref_isk(ref)) /* Use the number constant itself as a TValue. */ + ra_allockreg(as, i32ptr(ir_knum(ir)), dest); + else /* Otherwise force a spill and use the spill slot. */ + emit_tai(as, PPCI_ADDI, dest, RID_SP, ra_spill(as, ir)); + } else { + /* Otherwise use g->tmptv to hold the TValue. */ + RegSet allow = rset_exclude(RSET_GPR, dest); + Reg type; + emit_tai(as, PPCI_ADDI, dest, RID_JGL, offsetof(global_State, tmptv)-32768); + if (!irt_ispri(ir->t)) { + Reg src = ra_alloc1(as, ref, allow); + emit_setgl(as, src, tmptv.gcr); + } + type = ra_allock(as, irt_toitype(ir->t), allow); + emit_setgl(as, type, tmptv.it); + } +} + +static void asm_tostr(ASMState *as, IRIns *ir) +{ + IRRef args[2]; + args[0] = ASMREF_L; + as->gcsteps++; + if (irt_isnum(IR(ir->op1)->t) || (ir+1)->o == IR_HIOP) { + const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_str_fromnum]; + args[1] = ASMREF_TMP1; /* const lua_Number * */ + asm_setupresult(as, ir, ci); /* GCstr * */ + asm_gencall(as, ci, args); + asm_tvptr(as, ra_releasetmp(as, ASMREF_TMP1), ir->op1); + } else { + const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_str_fromint]; + args[1] = ir->op1; /* int32_t k */ + asm_setupresult(as, ir, ci); /* GCstr * */ + asm_gencall(as, ci, args); + } +} + +/* -- Memory references --------------------------------------------------- */ + +static void asm_aref(ASMState *as, IRIns *ir) +{ + Reg dest = ra_dest(as, ir, RSET_GPR); + Reg idx, base; + if (irref_isk(ir->op2)) { + IRRef tab = IR(ir->op1)->op1; + int32_t ofs = asm_fuseabase(as, tab); + IRRef refa = ofs ? tab : ir->op1; + ofs += 8*IR(ir->op2)->i; + if (checki16(ofs)) { + base = ra_alloc1(as, refa, RSET_GPR); + emit_tai(as, PPCI_ADDI, dest, base, ofs); + return; + } + } + base = ra_alloc1(as, ir->op1, RSET_GPR); + idx = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, base)); + emit_tab(as, PPCI_ADD, dest, RID_TMP, base); + emit_slwi(as, RID_TMP, idx, 3); +} + +/* Inlined hash lookup. Specialized for key type and for const keys. +** The equivalent C code is: +** Node *n = hashkey(t, key); +** do { +** if (lj_obj_equal(&n->key, key)) return &n->val; +** } while ((n = nextnode(n))); +** return niltv(L); +*/ +static void asm_href(ASMState *as, IRIns *ir, IROp merge) +{ + RegSet allow = RSET_GPR; + int destused = ra_used(ir); + Reg dest = ra_dest(as, ir, allow); + Reg tab = ra_alloc1(as, ir->op1, rset_clear(allow, dest)); + Reg key = RID_NONE, tmp1 = RID_TMP, tmp2; + Reg tisnum = RID_NONE, tmpnum = RID_NONE; + IRRef refkey = ir->op2; + IRIns *irkey = IR(refkey); + IRType1 kt = irkey->t; + uint32_t khash; + MCLabel l_end, l_loop, l_next; + + rset_clear(allow, tab); + if (irt_isnum(kt)) { + key = ra_alloc1(as, refkey, RSET_FPR); + tmpnum = ra_scratch(as, rset_exclude(RSET_FPR, key)); + tisnum = ra_allock(as, (int32_t)LJ_TISNUM, allow); + rset_clear(allow, tisnum); + } else if (!irt_ispri(kt)) { + key = ra_alloc1(as, refkey, allow); + rset_clear(allow, key); + } + tmp2 = ra_scratch(as, allow); + rset_clear(allow, tmp2); + + /* Key not found in chain: jump to exit (if merged) or load niltv. */ + l_end = emit_label(as); + as->invmcp = NULL; + if (merge == IR_NE) + asm_guardcc(as, CC_EQ); + else if (destused) + emit_loada(as, dest, niltvg(J2G(as->J))); + + /* Follow hash chain until the end. */ + l_loop = --as->mcp; + emit_ai(as, PPCI_CMPWI, dest, 0); + emit_tai(as, PPCI_LWZ, dest, dest, (int32_t)offsetof(Node, next)); + l_next = emit_label(as); + + /* Type and value comparison. */ + if (merge == IR_EQ) + asm_guardcc(as, CC_EQ); + else + emit_condbranch(as, PPCI_BC|PPCF_Y, CC_EQ, l_end); + if (irt_isnum(kt)) { + emit_fab(as, PPCI_FCMPU, 0, tmpnum, key); + emit_condbranch(as, PPCI_BC, CC_GE, l_next); + emit_ab(as, PPCI_CMPLW, tmp1, tisnum); + emit_fai(as, PPCI_LFD, tmpnum, dest, (int32_t)offsetof(Node, key.n)); + } else { + if (!irt_ispri(kt)) { + emit_ab(as, PPCI_CMPW, tmp2, key); + emit_condbranch(as, PPCI_BC, CC_NE, l_next); + } + emit_ai(as, PPCI_CMPWI, tmp1, irt_toitype(irkey->t)); + if (!irt_ispri(kt)) + emit_tai(as, PPCI_LWZ, tmp2, dest, (int32_t)offsetof(Node, key.gcr)); + } + emit_tai(as, PPCI_LWZ, tmp1, dest, (int32_t)offsetof(Node, key.it)); + *l_loop = PPCI_BC | PPCF_Y | PPCF_CC(CC_NE) | + (((char *)as->mcp-(char *)l_loop) & 0xffffu); + + /* Load main position relative to tab->node into dest. */ + khash = irref_isk(refkey) ? ir_khash(irkey) : 1; + if (khash == 0) { + emit_tai(as, PPCI_LWZ, dest, tab, (int32_t)offsetof(GCtab, node)); + } else { + Reg tmphash = tmp1; + if (irref_isk(refkey)) + tmphash = ra_allock(as, khash, allow); + emit_tab(as, PPCI_ADD, dest, dest, tmp1); + emit_tai(as, PPCI_MULLI, tmp1, tmp1, sizeof(Node)); + emit_asb(as, PPCI_AND, tmp1, tmp2, tmphash); + emit_tai(as, PPCI_LWZ, dest, tab, (int32_t)offsetof(GCtab, node)); + emit_tai(as, PPCI_LWZ, tmp2, tab, (int32_t)offsetof(GCtab, hmask)); + if (irref_isk(refkey)) { + /* Nothing to do. */ + } else if (irt_isstr(kt)) { + emit_tai(as, PPCI_LWZ, tmp1, key, (int32_t)offsetof(GCstr, hash)); + } else { /* Must match with hash*() in lj_tab.c. */ + emit_tab(as, PPCI_SUBF, tmp1, tmp2, tmp1); + emit_rotlwi(as, tmp2, tmp2, HASH_ROT3); + emit_asb(as, PPCI_XOR, tmp1, tmp1, tmp2); + emit_rotlwi(as, tmp1, tmp1, (HASH_ROT2+HASH_ROT1)&31); + emit_tab(as, PPCI_SUBF, tmp2, dest, tmp2); + if (irt_isnum(kt)) { + int32_t ofs = ra_spill(as, irkey); + emit_asb(as, PPCI_XOR, tmp2, tmp2, tmp1); + emit_rotlwi(as, dest, tmp1, HASH_ROT1); + emit_tab(as, PPCI_ADD, tmp1, tmp1, tmp1); + emit_tai(as, PPCI_LWZ, tmp2, RID_SP, ofs+4); + emit_tai(as, PPCI_LWZ, tmp1, RID_SP, ofs); + } else { + emit_asb(as, PPCI_XOR, tmp2, key, tmp1); + emit_rotlwi(as, dest, tmp1, HASH_ROT1); + emit_tai(as, PPCI_ADDI, tmp1, tmp2, HASH_BIAS); + emit_tai(as, PPCI_ADDIS, tmp2, key, (HASH_BIAS + 32768)>>16); + } + } + } +} + +static void asm_hrefk(ASMState *as, IRIns *ir) +{ + IRIns *kslot = IR(ir->op2); + IRIns *irkey = IR(kslot->op1); + int32_t ofs = (int32_t)(kslot->op2 * sizeof(Node)); + int32_t kofs = ofs + (int32_t)offsetof(Node, key); + Reg dest = (ra_used(ir)||ofs > 65535) ? ra_dest(as, ir, RSET_GPR) : RID_NONE; + Reg node = ra_alloc1(as, ir->op1, RSET_GPR); + Reg key = RID_NONE, type = RID_TMP, idx = node; + RegSet allow = rset_exclude(RSET_GPR, node); + lua_assert(ofs % sizeof(Node) == 0); + if (ofs > 65535) { + idx = dest; + rset_clear(allow, dest); + kofs = (int32_t)offsetof(Node, key); + } else if (ra_hasreg(dest)) { + emit_tai(as, PPCI_ADDI, dest, node, ofs); + } + asm_guardcc(as, CC_NE); + if (!irt_ispri(irkey->t)) { + key = ra_scratch(as, allow); + rset_clear(allow, key); + } + rset_clear(allow, type); + if (irt_isnum(irkey->t)) { + emit_cmpi(as, key, (int32_t)ir_knum(irkey)->u32.lo); + asm_guardcc(as, CC_NE); + emit_cmpi(as, type, (int32_t)ir_knum(irkey)->u32.hi); + } else { + if (ra_hasreg(key)) { + emit_cmpi(as, key, irkey->i); /* May use RID_TMP, i.e. type. */ + asm_guardcc(as, CC_NE); + } + emit_ai(as, PPCI_CMPWI, type, irt_toitype(irkey->t)); + } + if (ra_hasreg(key)) emit_tai(as, PPCI_LWZ, key, idx, kofs+4); + emit_tai(as, PPCI_LWZ, type, idx, kofs); + if (ofs > 65535) { + emit_tai(as, PPCI_ADDIS, dest, dest, (ofs + 32768) >> 16); + emit_tai(as, PPCI_ADDI, dest, node, ofs); + } +} + +static void asm_newref(ASMState *as, IRIns *ir) +{ + const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_tab_newkey]; + IRRef args[3]; + args[0] = ASMREF_L; /* lua_State *L */ + args[1] = ir->op1; /* GCtab *t */ + args[2] = ASMREF_TMP1; /* cTValue *key */ + asm_setupresult(as, ir, ci); /* TValue * */ + asm_gencall(as, ci, args); + asm_tvptr(as, ra_releasetmp(as, ASMREF_TMP1), ir->op2); +} + +static void asm_uref(ASMState *as, IRIns *ir) +{ + /* NYI: Check that UREFO is still open and not aliasing a slot. */ + Reg dest = ra_dest(as, ir, RSET_GPR); + if (irref_isk(ir->op1)) { + GCfunc *fn = ir_kfunc(IR(ir->op1)); + MRef *v = &gcref(fn->l.uvptr[(ir->op2 >> 8)])->uv.v; + emit_lsptr(as, PPCI_LWZ, dest, v, RSET_GPR); + } else { + Reg uv = ra_scratch(as, RSET_GPR); + Reg func = ra_alloc1(as, ir->op1, RSET_GPR); + if (ir->o == IR_UREFC) { + asm_guardcc(as, CC_NE); + emit_ai(as, PPCI_CMPWI, RID_TMP, 1); + emit_tai(as, PPCI_ADDI, dest, uv, (int32_t)offsetof(GCupval, tv)); + emit_tai(as, PPCI_LBZ, RID_TMP, uv, (int32_t)offsetof(GCupval, closed)); + } else { + emit_tai(as, PPCI_LWZ, dest, uv, (int32_t)offsetof(GCupval, v)); + } + emit_tai(as, PPCI_LWZ, uv, func, + (int32_t)offsetof(GCfuncL, uvptr) + 4*(int32_t)(ir->op2 >> 8)); + } +} + +static void asm_fref(ASMState *as, IRIns *ir) +{ + UNUSED(as); UNUSED(ir); + lua_assert(!ra_used(ir)); +} + +static void asm_strref(ASMState *as, IRIns *ir) +{ + Reg dest = ra_dest(as, ir, RSET_GPR); + IRRef ref = ir->op2, refk = ir->op1; + int32_t ofs = (int32_t)sizeof(GCstr); + Reg r; + if (irref_isk(ref)) { + IRRef tmp = refk; refk = ref; ref = tmp; + } else if (!irref_isk(refk)) { + Reg right, left = ra_alloc1(as, ir->op1, RSET_GPR); + IRIns *irr = IR(ir->op2); + if (ra_hasreg(irr->r)) { + ra_noweak(as, irr->r); + right = irr->r; + } else if (mayfuse(as, irr->op2) && + irr->o == IR_ADD && irref_isk(irr->op2) && + checki16(ofs + IR(irr->op2)->i)) { + ofs += IR(irr->op2)->i; + right = ra_alloc1(as, irr->op1, rset_exclude(RSET_GPR, left)); + } else { + right = ra_allocref(as, ir->op2, rset_exclude(RSET_GPR, left)); + } + emit_tai(as, PPCI_ADDI, dest, dest, ofs); + emit_tab(as, PPCI_ADD, dest, left, right); + return; + } + r = ra_alloc1(as, ref, RSET_GPR); + ofs += IR(refk)->i; + if (checki16(ofs)) + emit_tai(as, PPCI_ADDI, dest, r, ofs); + else + emit_tab(as, PPCI_ADD, dest, r, + ra_allock(as, ofs, rset_exclude(RSET_GPR, r))); +} + +/* -- Loads and stores ---------------------------------------------------- */ + +static PPCIns asm_fxloadins(IRIns *ir) +{ + switch (irt_type(ir->t)) { + case IRT_I8: return PPCI_LBZ; /* Needs sign-extension. */ + case IRT_U8: return PPCI_LBZ; + case IRT_I16: return PPCI_LHA; + case IRT_U16: return PPCI_LHZ; + case IRT_NUM: return PPCI_LFD; + case IRT_FLOAT: return PPCI_LFS; + default: return PPCI_LWZ; + } +} + +static PPCIns asm_fxstoreins(IRIns *ir) +{ + switch (irt_type(ir->t)) { + case IRT_I8: case IRT_U8: return PPCI_STB; + case IRT_I16: case IRT_U16: return PPCI_STH; + case IRT_NUM: return PPCI_STFD; + case IRT_FLOAT: return PPCI_STFS; + default: return PPCI_STW; + } +} + +static void asm_fload(ASMState *as, IRIns *ir) +{ + Reg dest = ra_dest(as, ir, RSET_GPR); + Reg idx = ra_alloc1(as, ir->op1, RSET_GPR); + PPCIns pi = asm_fxloadins(ir); + int32_t ofs; + if (ir->op2 == IRFL_TAB_ARRAY) { + ofs = asm_fuseabase(as, ir->op1); + if (ofs) { /* Turn the t->array load into an add for colocated arrays. */ + emit_tai(as, PPCI_ADDI, dest, idx, ofs); + return; + } + } + ofs = field_ofs[ir->op2]; + lua_assert(!irt_isi8(ir->t)); + emit_tai(as, pi, dest, idx, ofs); +} + +static void asm_fstore(ASMState *as, IRIns *ir) +{ + Reg src = ra_alloc1(as, ir->op2, RSET_GPR); + IRIns *irf = IR(ir->op1); + Reg idx = ra_alloc1(as, irf->op1, rset_exclude(RSET_GPR, src)); + int32_t ofs = field_ofs[irf->op2]; + PPCIns pi = asm_fxstoreins(ir); + emit_tai(as, pi, src, idx, ofs); +} + +static void asm_xload(ASMState *as, IRIns *ir) +{ + Reg dest = ra_dest(as, ir, irt_isfp(ir->t) ? RSET_FPR : RSET_GPR); + lua_assert(!(ir->op2 & IRXLOAD_UNALIGNED)); + if (irt_isi8(ir->t)) + emit_as(as, PPCI_EXTSB, dest, dest); + asm_fusexref(as, asm_fxloadins(ir), dest, ir->op1, RSET_GPR); +} + +static void asm_xstore(ASMState *as, IRIns *ir) +{ + IRIns *irb; + if (mayfuse(as, ir->op2) && (irb = IR(ir->op2))->o == IR_BSWAP && + ra_noreg(irb->r) && (irt_isint(ir->t) || irt_isu32(ir->t))) { + /* Fuse BSWAP with XSTORE to stwbrx. */ + Reg src = ra_alloc1(as, irb->op1, RSET_GPR); + asm_fusexrefx(as, PPCI_STWBRX, src, ir->op1, rset_exclude(RSET_GPR, src)); + } else { + Reg src = ra_alloc1(as, ir->op2, irt_isfp(ir->t) ? RSET_FPR : RSET_GPR); + asm_fusexref(as, asm_fxstoreins(ir), src, ir->op1, + rset_exclude(RSET_GPR, src)); + } +} + +static void asm_ahuvload(ASMState *as, IRIns *ir) +{ + IRType1 t = ir->t; + Reg dest = RID_NONE, type = RID_TMP, tmp = RID_TMP, idx; + RegSet allow = RSET_GPR; + int32_t ofs = AHUREF_LSX; + if (ra_used(ir)) { + lua_assert(irt_isnum(t) || irt_isint(t) || irt_isaddr(t)); + if (!irt_isnum(t)) ofs = 0; + dest = ra_dest(as, ir, irt_isnum(t) ? RSET_FPR : RSET_GPR); + rset_clear(allow, dest); + } + idx = asm_fuseahuref(as, ir->op1, &ofs, allow); + if (irt_isnum(t)) { + Reg tisnum = ra_allock(as, (int32_t)LJ_TISNUM, rset_exclude(allow, idx)); + asm_guardcc(as, CC_GE); + emit_ab(as, PPCI_CMPLW, type, tisnum); + if (ra_hasreg(dest)) { + if (ofs == AHUREF_LSX) { + tmp = ra_scratch(as, rset_exclude(rset_exclude(RSET_GPR, + (idx&255)), (idx>>8))); + emit_fab(as, PPCI_LFDX, dest, (idx&255), tmp); + } else { + emit_fai(as, PPCI_LFD, dest, idx, ofs); + } + } + } else { + asm_guardcc(as, CC_NE); + emit_ai(as, PPCI_CMPWI, type, irt_toitype(t)); + if (ra_hasreg(dest)) emit_tai(as, PPCI_LWZ, dest, idx, ofs+4); + } + if (ofs == AHUREF_LSX) { + emit_tab(as, PPCI_LWZX, type, (idx&255), tmp); + emit_slwi(as, tmp, (idx>>8), 3); + } else { + emit_tai(as, PPCI_LWZ, type, idx, ofs); + } +} + +static void asm_ahustore(ASMState *as, IRIns *ir) +{ + RegSet allow = RSET_GPR; + Reg idx, src = RID_NONE, type = RID_NONE; + int32_t ofs = AHUREF_LSX; + if (irt_isnum(ir->t)) { + src = ra_alloc1(as, ir->op2, RSET_FPR); + } else { + if (!irt_ispri(ir->t)) { + src = ra_alloc1(as, ir->op2, allow); + rset_clear(allow, src); + ofs = 0; + } + type = ra_allock(as, (int32_t)irt_toitype(ir->t), allow); + rset_clear(allow, type); + } + idx = asm_fuseahuref(as, ir->op1, &ofs, allow); + if (irt_isnum(ir->t)) { + if (ofs == AHUREF_LSX) { + emit_fab(as, PPCI_STFDX, src, (idx&255), RID_TMP); + emit_slwi(as, RID_TMP, (idx>>8), 3); + } else { + emit_fai(as, PPCI_STFD, src, idx, ofs); + } + } else { + if (ra_hasreg(src)) + emit_tai(as, PPCI_STW, src, idx, ofs+4); + if (ofs == AHUREF_LSX) { + emit_tab(as, PPCI_STWX, type, (idx&255), RID_TMP); + emit_slwi(as, RID_TMP, (idx>>8), 3); + } else { + emit_tai(as, PPCI_STW, type, idx, ofs); + } + } +} + +static void asm_sload(ASMState *as, IRIns *ir) +{ + int32_t ofs = 8*((int32_t)ir->op1-1) + ((ir->op2 & IRSLOAD_FRAME) ? 0 : 4); + IRType1 t = ir->t; + Reg dest = RID_NONE, type = RID_NONE, base; + RegSet allow = RSET_GPR; + lua_assert(!(ir->op2 & IRSLOAD_PARENT)); /* Handled by asm_head_side(). */ + lua_assert(irt_isguard(t) || !(ir->op2 & IRSLOAD_TYPECHECK)); + lua_assert(LJ_DUALNUM || + !irt_isint(t) || (ir->op2 & (IRSLOAD_CONVERT|IRSLOAD_FRAME))); + if ((ir->op2 & IRSLOAD_CONVERT) && irt_isguard(t) && irt_isint(t)) { + dest = ra_scratch(as, RSET_FPR); + asm_tointg(as, ir, dest); + t.irt = IRT_NUM; /* Continue with a regular number type check. */ + } else if (ra_used(ir)) { + lua_assert(irt_isnum(t) || irt_isint(t) || irt_isaddr(t)); + dest = ra_dest(as, ir, irt_isnum(t) ? RSET_FPR : RSET_GPR); + rset_clear(allow, dest); + base = ra_alloc1(as, REF_BASE, allow); + rset_clear(allow, base); + if ((ir->op2 & IRSLOAD_CONVERT)) { + if (irt_isint(t)) { + emit_tai(as, PPCI_LWZ, dest, RID_SP, SPOFS_TMPLO); + dest = ra_scratch(as, RSET_FPR); + emit_fai(as, PPCI_STFD, dest, RID_SP, SPOFS_TMP); + emit_fb(as, PPCI_FCTIWZ, dest, dest); + t.irt = IRT_NUM; /* Check for original type. */ + } else { + Reg tmp = ra_scratch(as, allow); + Reg hibias = ra_allock(as, 0x43300000, rset_clear(allow, tmp)); + Reg fbias = ra_scratch(as, rset_exclude(RSET_FPR, dest)); + emit_fab(as, PPCI_FSUB, dest, dest, fbias); + emit_fai(as, PPCI_LFD, dest, RID_SP, SPOFS_TMP); + emit_lsptr(as, PPCI_LFS, (fbias & 31), + (void *)lj_ir_k64_find(as->J, U64x(59800004,59800000)), + rset_clear(allow, hibias)); + emit_tai(as, PPCI_STW, tmp, RID_SP, SPOFS_TMPLO); + emit_tai(as, PPCI_STW, hibias, RID_SP, SPOFS_TMPHI); + emit_asi(as, PPCI_XORIS, tmp, tmp, 0x8000); + dest = tmp; + t.irt = IRT_INT; /* Check for original type. */ + } + } + goto dotypecheck; + } + base = ra_alloc1(as, REF_BASE, allow); + rset_clear(allow, base); +dotypecheck: + if (irt_isnum(t)) { + if ((ir->op2 & IRSLOAD_TYPECHECK)) { + Reg tisnum = ra_allock(as, (int32_t)LJ_TISNUM, allow); + asm_guardcc(as, CC_GE); + emit_ab(as, PPCI_CMPLW, RID_TMP, tisnum); + type = RID_TMP; + } + if (ra_hasreg(dest)) emit_fai(as, PPCI_LFD, dest, base, ofs-4); + } else { + if ((ir->op2 & IRSLOAD_TYPECHECK)) { + asm_guardcc(as, CC_NE); + emit_ai(as, PPCI_CMPWI, RID_TMP, irt_toitype(t)); + type = RID_TMP; + } + if (ra_hasreg(dest)) emit_tai(as, PPCI_LWZ, dest, base, ofs); + } + if (ra_hasreg(type)) emit_tai(as, PPCI_LWZ, type, base, ofs-4); +} + +/* -- Allocations --------------------------------------------------------- */ + +#if LJ_HASFFI +static void asm_cnew(ASMState *as, IRIns *ir) +{ + CTState *cts = ctype_ctsG(J2G(as->J)); + CTypeID typeid = (CTypeID)IR(ir->op1)->i; + CTSize sz = (ir->o == IR_CNEWI || ir->op2 == REF_NIL) ? + lj_ctype_size(cts, typeid) : (CTSize)IR(ir->op2)->i; + const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_mem_newgco]; + IRRef args[2]; + RegSet allow = (RSET_GPR & ~RSET_SCRATCH); + RegSet drop = RSET_SCRATCH; + lua_assert(sz != CTSIZE_INVALID); + + args[0] = ASMREF_L; /* lua_State *L */ + args[1] = ASMREF_TMP1; /* MSize size */ + as->gcsteps++; + + if (ra_hasreg(ir->r)) + rset_clear(drop, ir->r); /* Dest reg handled below. */ + ra_evictset(as, drop); + if (ra_used(ir)) + ra_destreg(as, ir, RID_RET); /* GCcdata * */ + + /* Initialize immutable cdata object. */ + if (ir->o == IR_CNEWI) { + int32_t ofs = sizeof(GCcdata); + lua_assert(sz == 4 || sz == 8); + if (sz == 8) { + ofs += 4; + lua_assert((ir+1)->o == IR_HIOP); + } + for (;;) { + Reg r = ra_alloc1(as, ir->op2, allow); + emit_tai(as, PPCI_STW, r, RID_RET, ofs); + rset_clear(allow, r); + if (ofs == sizeof(GCcdata)) break; + ofs -= 4; ir++; + } + } + /* Initialize gct and typeid. lj_mem_newgco() already sets marked. */ + emit_tai(as, PPCI_STB, RID_RET+1, RID_RET, offsetof(GCcdata, gct)); + emit_tai(as, PPCI_STH, RID_TMP, RID_RET, offsetof(GCcdata, typeid)); + emit_ti(as, PPCI_LI, RID_RET+1, ~LJ_TCDATA); + emit_ti(as, PPCI_LI, RID_TMP, typeid); /* Lower 16 bit used. Sign-ext ok. */ + asm_gencall(as, ci, args); + ra_allockreg(as, (int32_t)(sz+sizeof(GCcdata)), + ra_releasetmp(as, ASMREF_TMP1)); +} +#else +#define asm_cnew(as, ir) ((void)0) +#endif + +/* -- Write barriers ------------------------------------------------------ */ + +static void asm_tbar(ASMState *as, IRIns *ir) +{ + Reg tab = ra_alloc1(as, ir->op1, RSET_GPR); + Reg mark = ra_scratch(as, rset_exclude(RSET_GPR, tab)); + Reg link = RID_TMP; + MCLabel l_end = emit_label(as); + emit_tai(as, PPCI_STW, link, tab, (int32_t)offsetof(GCtab, gclist)); + emit_tai(as, PPCI_STB, mark, tab, (int32_t)offsetof(GCtab, marked)); + emit_setgl(as, tab, gc.grayagain); + lua_assert(LJ_GC_BLACK == 0x04); + emit_rot(as, PPCI_RLWINM, mark, mark, 0, 30, 28); /* Clear black bit. */ + emit_getgl(as, link, gc.grayagain); + emit_condbranch(as, PPCI_BC|PPCF_Y, CC_EQ, l_end); + emit_asi(as, PPCI_ANDIDOT, RID_TMP, mark, LJ_GC_BLACK); + emit_tai(as, PPCI_LBZ, mark, tab, (int32_t)offsetof(GCtab, marked)); +} + +static void asm_obar(ASMState *as, IRIns *ir) +{ + const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_gc_barrieruv]; + IRRef args[2]; + MCLabel l_end; + Reg obj, val, tmp; + /* No need for other object barriers (yet). */ + lua_assert(IR(ir->op1)->o == IR_UREFC); + ra_evictset(as, RSET_SCRATCH); + l_end = emit_label(as); + args[0] = ASMREF_TMP1; /* global_State *g */ + args[1] = ir->op1; /* TValue *tv */ + asm_gencall(as, ci, args); + emit_tai(as, PPCI_ADDI, ra_releasetmp(as, ASMREF_TMP1), RID_JGL, -32768); + obj = IR(ir->op1)->r; + tmp = ra_scratch(as, rset_exclude(RSET_GPR, obj)); + emit_condbranch(as, PPCI_BC|PPCF_Y, CC_EQ, l_end); + emit_asi(as, PPCI_ANDIDOT, tmp, tmp, LJ_GC_BLACK); + emit_condbranch(as, PPCI_BC, CC_EQ, l_end); + emit_asi(as, PPCI_ANDIDOT, RID_TMP, RID_TMP, LJ_GC_WHITES); + val = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, obj)); + emit_tai(as, PPCI_LBZ, tmp, obj, + (int32_t)offsetof(GCupval, marked)-(int32_t)offsetof(GCupval, tv)); + emit_tai(as, PPCI_LBZ, RID_TMP, val, (int32_t)offsetof(GChead, marked)); +} + +/* -- Arithmetic and logic operations ------------------------------------- */ + +static void asm_fparith(ASMState *as, IRIns *ir, PPCIns pi) +{ + Reg dest = ra_dest(as, ir, RSET_FPR); + Reg right, left = ra_alloc2(as, ir, RSET_FPR); + right = (left >> 8); left &= 255; + if (pi == PPCI_FMUL) + emit_fac(as, pi, dest, left, right); + else + emit_fab(as, pi, dest, left, right); +} + +static void asm_fpunary(ASMState *as, IRIns *ir, PPCIns pi) +{ + Reg dest = ra_dest(as, ir, RSET_FPR); + Reg left = ra_hintalloc(as, ir->op1, dest, RSET_FPR); + emit_fb(as, pi, dest, left); +} + +static int asm_fpjoin_pow(ASMState *as, IRIns *ir) +{ + IRIns *irp = IR(ir->op1); + if (irp == ir-1 && irp->o == IR_MUL && !ra_used(irp)) { + IRIns *irpp = IR(irp->op1); + if (irpp == ir-2 && irpp->o == IR_FPMATH && + irpp->op2 == IRFPM_LOG2 && !ra_used(irpp)) { + const CCallInfo *ci = &lj_ir_callinfo[IRCALL_pow]; + IRRef args[2]; + args[0] = irpp->op1; + args[1] = irp->op2; + asm_setupresult(as, ir, ci); + asm_gencall(as, ci, args); + return 1; + } + } + return 0; +} + +static void asm_add(ASMState *as, IRIns *ir) +{ + if (irt_isnum(ir->t)) { + if (!asm_fusemadd(as, ir, PPCI_FMADD, PPCI_FMADD)) + asm_fparith(as, ir, PPCI_FADD); + } else { + Reg dest = ra_dest(as, ir, RSET_GPR); + Reg right, left = ra_hintalloc(as, ir->op1, dest, RSET_GPR); + PPCIns pi; + if (irref_isk(ir->op2)) { + int32_t k = IR(ir->op2)->i; + if (checki16(k)) { + pi = PPCI_ADDI; + /* May fail due to spills/restores above, but simplifies the logic. */ + if (as->flagmcp == as->mcp) { + as->flagmcp = NULL; + as->mcp++; + pi = PPCI_ADDICDOT; + } + emit_tai(as, pi, dest, left, k); + return; + } else if ((k & 0xffff) == 0) { + emit_tai(as, PPCI_ADDIS, dest, left, (k >> 16)); + return; + } else if (!as->sectref) { + emit_tai(as, PPCI_ADDIS, dest, dest, (k + 32768) >> 16); + emit_tai(as, PPCI_ADDI, dest, left, k); + return; + } + } + pi = PPCI_ADD; + /* May fail due to spills/restores above, but simplifies the logic. */ + if (as->flagmcp == as->mcp) { + as->flagmcp = NULL; + as->mcp++; + pi |= PPCF_DOT; + } + right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left)); + emit_tab(as, pi, dest, left, right); + } +} + +static void asm_sub(ASMState *as, IRIns *ir) +{ + if (irt_isnum(ir->t)) { + if (!asm_fusemadd(as, ir, PPCI_FMSUB, PPCI_FNMSUB)) + asm_fparith(as, ir, PPCI_FSUB); + } else { + PPCIns pi = PPCI_SUBF; + Reg dest = ra_dest(as, ir, RSET_GPR); + Reg left, right; + if (irref_isk(ir->op1)) { + int32_t k = IR(ir->op1)->i; + if (checki16(k)) { + right = ra_alloc1(as, ir->op2, RSET_GPR); + emit_tai(as, PPCI_SUBFIC, dest, right, k); + return; + } + } + /* May fail due to spills/restores above, but simplifies the logic. */ + if (as->flagmcp == as->mcp) { + as->flagmcp = NULL; + as->mcp++; + pi |= PPCF_DOT; + } + left = ra_hintalloc(as, ir->op1, dest, RSET_GPR); + right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left)); + emit_tab(as, pi, dest, right, left); /* Subtract right _from_ left. */ + } +} + +static void asm_mul(ASMState *as, IRIns *ir) +{ + if (irt_isnum(ir->t)) { + asm_fparith(as, ir, PPCI_FMUL); + } else { + PPCIns pi = PPCI_MULLW; + Reg dest = ra_dest(as, ir, RSET_GPR); + Reg right, left = ra_hintalloc(as, ir->op1, dest, RSET_GPR); + if (irref_isk(ir->op2)) { + int32_t k = IR(ir->op2)->i; + if (checki16(k)) { + emit_tai(as, PPCI_MULLI, dest, left, k); + return; + } + } + /* May fail due to spills/restores above, but simplifies the logic. */ + if (as->flagmcp == as->mcp) { + as->flagmcp = NULL; + as->mcp++; + pi |= PPCF_DOT; + } + right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left)); + emit_tab(as, pi, dest, left, right); + } +} + +static void asm_neg(ASMState *as, IRIns *ir) +{ + if (irt_isnum(ir->t)) { + asm_fpunary(as, ir, PPCI_FNEG); + } else { + Reg dest, left; + PPCIns pi = PPCI_NEG; + if (as->flagmcp == as->mcp) { + as->flagmcp = NULL; + as->mcp++; + pi |= PPCF_DOT; + } + dest = ra_dest(as, ir, RSET_GPR); + left = ra_hintalloc(as, ir->op1, dest, RSET_GPR); + emit_tab(as, pi, dest, left, 0); + } +} + +static void asm_arithov(ASMState *as, IRIns *ir, PPCIns pi) +{ + Reg dest, left, right; + if (as->flagmcp == as->mcp) { + as->flagmcp = NULL; + as->mcp++; + } + asm_guardcc(as, CC_SO); + dest = ra_dest(as, ir, RSET_GPR); + left = ra_alloc2(as, ir, RSET_GPR); + right = (left >> 8); left &= 255; + if (pi == PPCI_SUBFO) { Reg tmp = left; left = right; right = tmp; } + emit_tab(as, pi|PPCF_DOT, dest, left, right); +} + +#if LJ_HASFFI +static void asm_add64(ASMState *as, IRIns *ir) +{ + Reg dest = ra_dest(as, ir, RSET_GPR); + Reg right, left = ra_alloc1(as, ir->op1, RSET_GPR); + PPCIns pi = PPCI_ADDE; + if (irref_isk(ir->op2)) { + int32_t k = IR(ir->op2)->i; + if (k == 0) + pi = PPCI_ADDZE; + else if (k == -1) + pi = PPCI_ADDME; + else + goto needright; + right = 0; + } else { + needright: + right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left)); + } + emit_tab(as, pi, dest, left, right); + ir--; + dest = ra_dest(as, ir, RSET_GPR); + left = ra_alloc1(as, ir->op1, RSET_GPR); + if (irref_isk(ir->op2)) { + int32_t k = IR(ir->op2)->i; + if (checki16(k)) { + emit_tai(as, PPCI_ADDIC, dest, left, k); + return; + } + } + right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left)); + emit_tab(as, PPCI_ADDC, dest, left, right); +} + +static void asm_sub64(ASMState *as, IRIns *ir) +{ + Reg dest = ra_dest(as, ir, RSET_GPR); + Reg left, right = ra_alloc1(as, ir->op2, RSET_GPR); + PPCIns pi = PPCI_SUBFE; + if (irref_isk(ir->op1)) { + int32_t k = IR(ir->op1)->i; + if (k == 0) + pi = PPCI_SUBFZE; + else if (k == -1) + pi = PPCI_SUBFME; + else + goto needleft; + left = 0; + } else { + needleft: + left = ra_alloc1(as, ir->op1, rset_exclude(RSET_GPR, right)); + } + emit_tab(as, pi, dest, right, left); /* Subtract right _from_ left. */ + ir--; + dest = ra_dest(as, ir, RSET_GPR); + right = ra_alloc1(as, ir->op2, RSET_GPR); + if (irref_isk(ir->op1)) { + int32_t k = IR(ir->op1)->i; + if (checki16(k)) { + emit_tai(as, PPCI_SUBFIC, dest, right, k); + return; + } + } + left = ra_alloc1(as, ir->op1, rset_exclude(RSET_GPR, right)); + emit_tab(as, PPCI_SUBFC, dest, right, left); +} + +static void asm_neg64(ASMState *as, IRIns *ir) +{ + Reg dest = ra_dest(as, ir, RSET_GPR); + Reg left = ra_alloc1(as, ir->op1, RSET_GPR); + emit_tab(as, PPCI_SUBFZE, dest, left, 0); + ir--; + dest = ra_dest(as, ir, RSET_GPR); + left = ra_alloc1(as, ir->op1, RSET_GPR); + emit_tai(as, PPCI_SUBFIC, dest, left, 0); +} +#endif + +static void asm_bitnot(ASMState *as, IRIns *ir) +{ + Reg dest, left, right; + PPCIns pi = PPCI_NOR; + if (as->flagmcp == as->mcp) { + as->flagmcp = NULL; + as->mcp++; + pi |= PPCF_DOT; + } + dest = ra_dest(as, ir, RSET_GPR); + if (mayfuse(as, ir->op1)) { + IRIns *irl = IR(ir->op1); + if (irl->o == IR_BAND) + pi ^= (PPCI_NOR ^ PPCI_NAND); + else if (irl->o == IR_BXOR) + pi ^= (PPCI_NOR ^ PPCI_EQV); + else if (irl->o != IR_BOR) + goto nofuse; + left = ra_hintalloc(as, irl->op1, dest, RSET_GPR); + right = ra_alloc1(as, irl->op2, rset_exclude(RSET_GPR, left)); + } else { +nofuse: + left = right = ra_hintalloc(as, ir->op1, dest, RSET_GPR); + } + emit_asb(as, pi, dest, left, right); +} + +static void asm_bitswap(ASMState *as, IRIns *ir) +{ + Reg dest = ra_dest(as, ir, RSET_GPR); + IRIns *irx; + if (mayfuse(as, ir->op1) && (irx = IR(ir->op1))->o == IR_XLOAD && + ra_noreg(irx->r) && (irt_isint(irx->t) || irt_isu32(irx->t))) { + /* Fuse BSWAP with XLOAD to lwbrx. */ + asm_fusexrefx(as, PPCI_LWBRX, dest, irx->op1, RSET_GPR); + } else { + Reg left = ra_alloc1(as, ir->op1, RSET_GPR); + Reg tmp = dest; + if (tmp == left) { + tmp = RID_TMP; + emit_mr(as, dest, RID_TMP); + } + emit_rot(as, PPCI_RLWIMI, tmp, left, 24, 16, 23); + emit_rot(as, PPCI_RLWIMI, tmp, left, 24, 0, 7); + emit_rotlwi(as, tmp, left, 8); + } +} + +static void asm_bitop(ASMState *as, IRIns *ir, PPCIns pi, PPCIns pik) +{ + Reg dest = ra_dest(as, ir, RSET_GPR); + Reg right, left = ra_hintalloc(as, ir->op1, dest, RSET_GPR); + if (irref_isk(ir->op2)) { + int32_t k = IR(ir->op2)->i; + Reg tmp = left; + if ((checku16(k) || (k & 0xffff) == 0) || (tmp = dest, !as->sectref)) { + if (!checku16(k)) { + emit_asi(as, pik ^ (PPCI_ORI ^ PPCI_ORIS), dest, tmp, (k >> 16)); + if ((k & 0xffff) == 0) return; + } + emit_asi(as, pik, dest, left, k); + return; + } + } + /* May fail due to spills/restores above, but simplifies the logic. */ + if (as->flagmcp == as->mcp) { + as->flagmcp = NULL; + as->mcp++; + pi |= PPCF_DOT; + } + right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left)); + emit_asb(as, pi, dest, left, right); +} + +/* Fuse BAND with contiguous bitmask and a shift to rlwinm. */ +static void asm_fuseandsh(ASMState *as, PPCIns pi, int32_t mask, IRRef ref) +{ + IRIns *ir; + Reg left; + if (mayfuse(as, ref) && (ir = IR(ref), ra_noreg(ir->r)) && + irref_isk(ir->op2) && ir->o >= IR_BSHL && ir->o <= IR_BROR) { + int32_t sh = (IR(ir->op2)->i & 31); + switch (ir->o) { + case IR_BSHL: + if ((mask & ((1u<>sh))) goto nofuse; + sh = ((32-sh)&31); + break; + case IR_BROL: + break; + default: + goto nofuse; + } + left = ra_alloc1(as, ir->op1, RSET_GPR); + *--as->mcp = pi | PPCF_T(left) | PPCF_B(sh); + return; + } +nofuse: + left = ra_alloc1(as, ref, RSET_GPR); + *--as->mcp = pi | PPCF_T(left); +} + +static void asm_bitand(ASMState *as, IRIns *ir) +{ + Reg dest, left, right; + IRRef lref = ir->op1; + PPCIns dot = 0; + IRRef op2; + if (as->flagmcp == as->mcp) { + as->flagmcp = NULL; + as->mcp++; + dot = PPCF_DOT; + } + dest = ra_dest(as, ir, RSET_GPR); + if (irref_isk(ir->op2)) { + int32_t k = IR(ir->op2)->i; + if (k) { + /* First check for a contiguous bitmask as used by rlwinm. */ + uint32_t s1 = lj_ffs((uint32_t)k); + uint32_t k1 = ((uint32_t)k >> s1); + if ((k1 & (k1+1)) == 0) { + asm_fuseandsh(as, PPCI_RLWINM|dot | PPCF_A(dest) | + PPCF_MB(31-lj_fls((uint32_t)k)) | PPCF_ME(31-s1), + k, lref); + return; + } + if (~(uint32_t)k) { + uint32_t s2 = lj_ffs(~(uint32_t)k); + uint32_t k2 = (~(uint32_t)k >> s2); + if ((k2 & (k2+1)) == 0) { + asm_fuseandsh(as, PPCI_RLWINM|dot | PPCF_A(dest) | + PPCF_MB(32-s2) | PPCF_ME(30-lj_fls(~(uint32_t)k)), + k, lref); + return; + } + } + } + if (checku16(k)) { + left = ra_alloc1(as, lref, RSET_GPR); + emit_asi(as, PPCI_ANDIDOT, dest, left, k); + return; + } else if ((k & 0xffff) == 0) { + left = ra_alloc1(as, lref, RSET_GPR); + emit_asi(as, PPCI_ANDISDOT, dest, left, (k >> 16)); + return; + } + } + op2 = ir->op2; + if (mayfuse(as, op2) && IR(op2)->o == IR_BNOT && ra_noreg(IR(op2)->r)) { + dot ^= (PPCI_AND ^ PPCI_ANDC); + op2 = IR(op2)->op1; + } + left = ra_hintalloc(as, lref, dest, RSET_GPR); + right = ra_alloc1(as, op2, rset_exclude(RSET_GPR, left)); + emit_asb(as, PPCI_AND ^ dot, dest, left, right); +} + +static void asm_bitshift(ASMState *as, IRIns *ir, PPCIns pi, PPCIns pik) +{ + Reg dest, left; + Reg dot = 0; + if (as->flagmcp == as->mcp) { + as->flagmcp = NULL; + as->mcp++; + dot = PPCF_DOT; + } + dest = ra_dest(as, ir, RSET_GPR); + left = ra_alloc1(as, ir->op1, RSET_GPR); + if (irref_isk(ir->op2)) { /* Constant shifts. */ + int32_t shift = (IR(ir->op2)->i & 31); + if (pik == 0) /* SLWI */ + emit_rot(as, PPCI_RLWINM|dot, dest, left, shift, 0, 31-shift); + else if (pik == 1) /* SRWI */ + emit_rot(as, PPCI_RLWINM|dot, dest, left, (32-shift)&31, shift, 31); + else + emit_asb(as, pik|dot, dest, left, shift); + } else { + Reg right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left)); + emit_asb(as, pi|dot, dest, left, right); + } +} + +static void asm_min_max(ASMState *as, IRIns *ir, int ismax) +{ + if (irt_isnum(ir->t)) { + Reg dest = ra_dest(as, ir, RSET_FPR); + Reg tmp = dest; + Reg right, left = ra_alloc2(as, ir, RSET_FPR); + right = (left >> 8); left &= 255; + if (tmp == left || tmp == right) + tmp = ra_scratch(as, rset_exclude(rset_exclude(rset_exclude(RSET_FPR, + dest), left), right)); + emit_facb(as, PPCI_FSEL, dest, tmp, + ismax ? left : right, ismax ? right : left); + emit_fab(as, PPCI_FSUB, tmp, left, right); + } else { + Reg dest = ra_dest(as, ir, RSET_GPR); + Reg tmp1 = RID_TMP, tmp2 = dest; + Reg right, left = ra_alloc2(as, ir, RSET_GPR); + right = (left >> 8); left &= 255; + if (tmp2 == left || tmp2 == right) + tmp2 = ra_scratch(as, rset_exclude(rset_exclude(rset_exclude(RSET_GPR, + dest), left), right)); + emit_tab(as, PPCI_ADD, dest, tmp2, right); + emit_asb(as, ismax ? PPCI_ANDC : PPCI_AND, tmp2, tmp2, tmp1); + emit_tab(as, PPCI_SUBFE, tmp1, tmp1, tmp1); + emit_tab(as, PPCI_SUBFC, tmp2, tmp2, tmp1); + emit_asi(as, PPCI_XORIS, tmp2, right, 0x8000); + emit_asi(as, PPCI_XORIS, tmp1, left, 0x8000); + } +} + +/* -- Comparisons --------------------------------------------------------- */ + +#define CC_UNSIGNED 0x08 /* Unsigned integer comparison. */ +#define CC_TWO 0x80 /* Check two flags for FP comparison. */ + +/* Map of comparisons to flags. ORDER IR. */ +static const uint8_t asm_compmap[IR_ABC+1] = { + /* op int cc FP cc */ + /* LT */ CC_GE + (CC_GE<<4), + /* GE */ CC_LT + (CC_LE<<4) + CC_TWO, + /* LE */ CC_GT + (CC_GE<<4) + CC_TWO, + /* GT */ CC_LE + (CC_LE<<4), + /* ULT */ CC_GE + CC_UNSIGNED + (CC_GT<<4) + CC_TWO, + /* UGE */ CC_LT + CC_UNSIGNED + (CC_LT<<4), + /* ULE */ CC_GT + CC_UNSIGNED + (CC_GT<<4), + /* UGT */ CC_LE + CC_UNSIGNED + (CC_LT<<4) + CC_TWO, + /* EQ */ CC_NE + (CC_NE<<4), + /* NE */ CC_EQ + (CC_EQ<<4), + /* ABC */ CC_LE + CC_UNSIGNED + (CC_LT<<4) + CC_TWO /* Same as UGT. */ +}; + +static void asm_intcomp_(ASMState *as, IRRef lref, IRRef rref, Reg cr, PPCCC cc) +{ + Reg right, left = ra_alloc1(as, lref, RSET_GPR); + if (irref_isk(rref)) { + int32_t k = IR(rref)->i; + if ((cc & CC_UNSIGNED) == 0) { /* Signed comparison with constant. */ + if (checki16(k)) { + emit_tai(as, PPCI_CMPWI, cr, left, k); + /* Signed comparison with zero and referencing previous ins? */ + if (k == 0 && lref == as->curins-1) + as->flagmcp = as->mcp; /* Allow elimination of the compare. */ + return; + } else if ((cc & 3) == (CC_EQ & 3)) { /* Use CMPLWI for EQ or NE. */ + if (checku16(k)) { + emit_tai(as, PPCI_CMPLWI, cr, left, k); + return; + } else if (!as->sectref && ra_noreg(IR(rref)->r)) { + emit_tai(as, PPCI_CMPLWI, cr, RID_TMP, k); + emit_asi(as, PPCI_XORIS, RID_TMP, left, (k >> 16)); + return; + } + } + } else { /* Unsigned comparison with constant. */ + if (checku16(k)) { + emit_tai(as, PPCI_CMPLWI, cr, left, k); + return; + } + } + } + right = ra_alloc1(as, rref, rset_exclude(RSET_GPR, left)); + emit_tab(as, (cc & CC_UNSIGNED) ? PPCI_CMPLW : PPCI_CMPW, cr, left, right); +} + +static void asm_comp(ASMState *as, IRIns *ir) +{ + PPCCC cc = asm_compmap[ir->o]; + if (irt_isnum(ir->t)) { + Reg right, left = ra_alloc2(as, ir, RSET_FPR); + right = (left >> 8); left &= 255; + asm_guardcc(as, (cc >> 4)); + if ((cc & CC_TWO)) + emit_tab(as, PPCI_CROR, ((cc>>4)&3), ((cc>>4)&3), (CC_EQ&3)); + emit_fab(as, PPCI_FCMPU, 0, left, right); + } else { + IRRef lref = ir->op1, rref = ir->op2; + if (irref_isk(lref) && !irref_isk(rref)) { + /* Swap constants to the right (only for ABC). */ + IRRef tmp = lref; lref = rref; rref = tmp; + if ((cc & 2) == 0) cc ^= 1; /* LT <-> GT, LE <-> GE */ + } + asm_guardcc(as, cc); + asm_intcomp_(as, lref, rref, 0, cc); + } +} + +#if LJ_HASFFI +/* 64 bit integer comparisons. */ +static void asm_comp64(ASMState *as, IRIns *ir) +{ + PPCCC cc = asm_compmap[(ir-1)->o]; + if ((cc&3) == (CC_EQ&3)) { + asm_guardcc(as, cc); + emit_tab(as, (cc&4) ? PPCI_CRAND : PPCI_CROR, + (CC_EQ&3), (CC_EQ&3), 4+(CC_EQ&3)); + } else { + asm_guardcc(as, CC_EQ); + emit_tab(as, PPCI_CROR, (CC_EQ&3), (CC_EQ&3), ((cc^~(cc>>2))&1)); + emit_tab(as, (cc&4) ? PPCI_CRAND : PPCI_CRANDC, + (CC_EQ&3), (CC_EQ&3), 4+(cc&3)); + } + /* Loword comparison sets cr1 and is unsigned, except for equality. */ + asm_intcomp_(as, (ir-1)->op1, (ir-1)->op2, 4, + cc | ((cc&3) == (CC_EQ&3) ? 0 : CC_UNSIGNED)); + /* Hiword comparison sets cr0. */ + asm_intcomp_(as, ir->op1, ir->op2, 0, cc); + as->flagmcp = NULL; /* Doesn't work here. */ +} +#endif + +/* -- Support for 64 bit ops in 32 bit mode ------------------------------- */ + +/* Hiword op of a split 64 bit op. Previous op must be the loword op. */ +static void asm_hiop(ASMState *as, IRIns *ir) +{ +#if LJ_HASFFI + /* HIOP is marked as a store because it needs its own DCE logic. */ + int uselo = ra_used(ir-1), usehi = ra_used(ir); /* Loword/hiword used? */ + if (LJ_UNLIKELY(!(as->flags & JIT_F_OPT_DCE))) uselo = usehi = 1; + if ((ir-1)->o == IR_CONV) { /* Conversions to/from 64 bit. */ + as->curins--; /* Always skip the CONV. */ + if (usehi || uselo) + asm_conv64(as, ir); + return; + } else if ((ir-1)->o <= IR_NE) { /* 64 bit integer comparisons. ORDER IR. */ + as->curins--; /* Always skip the loword comparison. */ + asm_comp64(as, ir); + return; + } + if (!usehi) return; /* Skip unused hiword op for all remaining ops. */ + switch ((ir-1)->o) { + case IR_ADD: as->curins--; asm_add64(as, ir); break; + case IR_SUB: as->curins--; asm_sub64(as, ir); break; + case IR_NEG: as->curins--; asm_neg64(as, ir); break; + case IR_CALLN: + case IR_CALLXS: + if (!uselo) + ra_allocref(as, ir->op1, RID2RSET(RID_RETLO)); /* Mark lo op as used. */ + break; + case IR_CNEWI: + /* Nothing to do here. Handled by lo op itself. */ + break; + default: lua_assert(0); break; + } +#else + UNUSED(as); UNUSED(ir); lua_assert(0); /* Unused without FFI. */ +#endif +} + +/* -- Stack handling ------------------------------------------------------ */ + +/* Check Lua stack size for overflow. Use exit handler as fallback. */ +static void asm_stack_check(ASMState *as, BCReg topslot, + IRIns *irp, RegSet allow, ExitNo exitno) +{ + /* Try to get an unused temp. register, otherwise spill/restore RID_RET*. */ + Reg tmp, pbase = irp ? (ra_hasreg(irp->r) ? irp->r : RID_TMP) : RID_BASE; + rset_clear(allow, pbase); + tmp = allow ? rset_pickbot(allow) : + (pbase == RID_RETHI ? RID_RETLO : RID_RETHI); + emit_condbranch(as, PPCI_BC, CC_LT, asm_exitstub_addr(as, exitno)); + if (allow == RSET_EMPTY) /* Restore temp. register. */ + emit_tai(as, PPCI_LWZ, tmp, RID_SP, SPOFS_TMPW); + else + ra_modified(as, tmp); + emit_ai(as, PPCI_CMPLWI, RID_TMP, (int32_t)(8*topslot)); + emit_tab(as, PPCI_SUBF, RID_TMP, pbase, tmp); + emit_tai(as, PPCI_LWZ, tmp, tmp, offsetof(lua_State, maxstack)); + if (pbase == RID_TMP) + emit_getgl(as, RID_TMP, jit_base); + emit_getgl(as, tmp, jit_L); + if (allow == RSET_EMPTY) /* Spill temp. register. */ + emit_tai(as, PPCI_STW, tmp, RID_SP, SPOFS_TMPW); +} + +/* Restore Lua stack from on-trace state. */ +static void asm_stack_restore(ASMState *as, SnapShot *snap) +{ + SnapEntry *map = &as->T->snapmap[snap->mapofs]; + SnapEntry *flinks = &as->T->snapmap[snap_nextofs(as->T, snap)-1]; + MSize n, nent = snap->nent; + /* Store the value of all modified slots to the Lua stack. */ + for (n = 0; n < nent; n++) { + SnapEntry sn = map[n]; + BCReg s = snap_slot(sn); + int32_t ofs = 8*((int32_t)s-1); + IRRef ref = snap_ref(sn); + IRIns *ir = IR(ref); + if ((sn & SNAP_NORESTORE)) + continue; + if (irt_isnum(ir->t)) { + Reg src = ra_alloc1(as, ref, RSET_FPR); + emit_fai(as, PPCI_STFD, src, RID_BASE, ofs); + } else { + Reg type; + RegSet allow = rset_exclude(RSET_GPR, RID_BASE); + lua_assert(irt_ispri(ir->t) || irt_isaddr(ir->t) || irt_isinteger(ir->t)); + if (!irt_ispri(ir->t)) { + Reg src = ra_alloc1(as, ref, allow); + rset_clear(allow, src); + emit_tai(as, PPCI_STW, src, RID_BASE, ofs+4); + } + if ((sn & (SNAP_CONT|SNAP_FRAME))) { + if (s == 0) continue; /* Do not overwrite link to previous frame. */ + type = ra_allock(as, (int32_t)(*flinks--), allow); + } else { + type = ra_allock(as, (int32_t)irt_toitype(ir->t), allow); + } + emit_tai(as, PPCI_STW, type, RID_BASE, ofs); + } + checkmclim(as); + } + lua_assert(map + nent == flinks); +} + +/* -- GC handling --------------------------------------------------------- */ + +/* Check GC threshold and do one or more GC steps. */ +static void asm_gc_check(ASMState *as) +{ + const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_gc_step_jit]; + IRRef args[2]; + MCLabel l_end; + Reg tmp; + ra_evictset(as, RSET_SCRATCH); + l_end = emit_label(as); + /* Exit trace if in GCSatomic or GCSfinalize. Avoids syncing GC objects. */ + asm_guardcc(as, CC_NE); /* Assumes asm_snap_prep() already done. */ + emit_ai(as, PPCI_CMPWI, RID_RET, 0); + args[0] = ASMREF_TMP1; /* global_State *g */ + args[1] = ASMREF_TMP2; /* MSize steps */ + asm_gencall(as, ci, args); + emit_tai(as, PPCI_ADDI, ra_releasetmp(as, ASMREF_TMP1), RID_JGL, -32768); + tmp = ra_releasetmp(as, ASMREF_TMP2); + emit_loadi(as, tmp, (int32_t)as->gcsteps); + /* Jump around GC step if GC total < GC threshold. */ + emit_condbranch(as, PPCI_BC|PPCF_Y, CC_LT, l_end); + emit_ab(as, PPCI_CMPLW, RID_TMP, tmp); + emit_getgl(as, tmp, gc.threshold); + emit_getgl(as, RID_TMP, gc.total); + as->gcsteps = 0; + checkmclim(as); +} + +/* -- Loop handling ------------------------------------------------------- */ + +/* Fixup the loop branch. */ +static void asm_loop_fixup(ASMState *as) +{ + MCode *p = as->mctop; + MCode *target = as->mcp; + if (as->loopinv) { /* Inverted loop branch? */ + /* asm_guardcc already inverted the cond branch and patched the final b. */ + p[-2] = (p[-2] & (0xffff0000u & ~PPCF_Y)) | (((target-p+2) & 0x3fffu) << 2); + } else { + p[-1] = PPCI_B|(((target-p+1)&0x00ffffffu)<<2); + } +} + +/* -- Head of trace ------------------------------------------------------- */ + +/* Coalesce BASE register for a root trace. */ +static void asm_head_root_base(ASMState *as) +{ + IRIns *ir = IR(REF_BASE); + Reg r = ir->r; + if (ra_hasreg(r)) { + ra_free(as, r); + if (rset_test(as->modset, r)) + ir->r = RID_INIT; /* No inheritance for modified BASE register. */ + if (r != RID_BASE) + emit_mr(as, r, RID_BASE); + } +} + +/* Coalesce BASE register for a side trace. */ +static RegSet asm_head_side_base(ASMState *as, IRIns *irp, RegSet allow) +{ + IRIns *ir = IR(REF_BASE); + Reg r = ir->r; + if (ra_hasreg(r)) { + ra_free(as, r); + if (rset_test(as->modset, r)) + ir->r = RID_INIT; /* No inheritance for modified BASE register. */ + if (irp->r == r) { + rset_clear(allow, r); /* Mark same BASE register as coalesced. */ + } else if (ra_hasreg(irp->r) && rset_test(as->freeset, irp->r)) { + rset_clear(allow, irp->r); + emit_mr(as, r, irp->r); /* Move from coalesced parent reg. */ + } else { + emit_getgl(as, r, jit_base); /* Otherwise reload BASE. */ + } + } + return allow; +} + +/* -- Tail of trace ------------------------------------------------------- */ + +/* Fixup the tail code. */ +static void asm_tail_fixup(ASMState *as, TraceNo lnk) +{ + MCode *p = as->mctop; + MCode *target; + int32_t spadj = as->T->spadjust; + if (spadj == 0) { + *--p = PPCI_NOP; + *--p = PPCI_NOP; + as->mctop = p; + } else { + /* Patch stack adjustment. */ + lua_assert(checki16(CFRAME_SIZE+spadj)); + p[-3] = PPCI_ADDI | PPCF_T(RID_TMP) | PPCF_A(RID_SP) | (CFRAME_SIZE+spadj); + p[-2] = PPCI_STWU | PPCF_T(RID_TMP) | PPCF_A(RID_SP) | spadj; + } + /* Patch exit branch. */ + target = lnk ? traceref(as->J, lnk)->mcode : (MCode *)lj_vm_exit_interp; + p[-1] = PPCI_B|(((target-p+1)&0x00ffffffu)<<2); +} + +/* Prepare tail of code. */ +static void asm_tail_prep(ASMState *as) +{ + MCode *p = as->mctop - 1; /* Leave room for exit branch. */ + if (as->loopref) { + as->invmcp = as->mcp = p; + } else { + as->mcp = p-2; /* Leave room for stack pointer adjustment. */ + as->invmcp = NULL; + } +} + +/* -- Instruction dispatch ------------------------------------------------ */ + +/* Assemble a single instruction. */ +static void asm_ir(ASMState *as, IRIns *ir) +{ + switch ((IROp)ir->o) { + /* Miscellaneous ops. */ + case IR_LOOP: asm_loop(as); break; + case IR_NOP: case IR_XBAR: lua_assert(!ra_used(ir)); break; + case IR_USE: + ra_alloc1(as, ir->op1, irt_isfp(ir->t) ? RSET_FPR : RSET_GPR); break; + case IR_PHI: asm_phi(as, ir); break; + case IR_HIOP: asm_hiop(as, ir); break; + + /* Guarded assertions. */ + case IR_EQ: case IR_NE: + if ((ir-1)->o == IR_HREF && ir->op1 == as->curins-1) { + as->curins--; + asm_href(as, ir-1, (IROp)ir->o); + break; + } + /* fallthrough */ + case IR_LT: case IR_GE: case IR_LE: case IR_GT: + case IR_ULT: case IR_UGE: case IR_ULE: case IR_UGT: + case IR_ABC: + asm_comp(as, ir); + break; + + case IR_RETF: asm_retf(as, ir); break; + + /* Bit ops. */ + case IR_BNOT: asm_bitnot(as, ir); break; + case IR_BSWAP: asm_bitswap(as, ir); break; + + case IR_BAND: asm_bitand(as, ir); break; + case IR_BOR: asm_bitop(as, ir, PPCI_OR, PPCI_ORI); break; + case IR_BXOR: asm_bitop(as, ir, PPCI_XOR, PPCI_XORI); break; + + case IR_BSHL: asm_bitshift(as, ir, PPCI_SLW, 0); break; + case IR_BSHR: asm_bitshift(as, ir, PPCI_SRW, 1); break; + case IR_BSAR: asm_bitshift(as, ir, PPCI_SRAW, PPCI_SRAWI); break; + case IR_BROL: asm_bitshift(as, ir, PPCI_RLWNM|PPCF_MB(0)|PPCF_ME(31), + PPCI_RLWINM|PPCF_MB(0)|PPCF_ME(31)); break; + case IR_BROR: lua_assert(0); break; + + /* Arithmetic ops. */ + case IR_ADD: asm_add(as, ir); break; + case IR_SUB: asm_sub(as, ir); break; + case IR_MUL: asm_mul(as, ir); break; + case IR_DIV: asm_fparith(as, ir, PPCI_FDIV); break; + case IR_MOD: asm_callid(as, ir, IRCALL_lj_vm_modi); break; + case IR_POW: asm_callid(as, ir, IRCALL_lj_vm_powi); break; + case IR_NEG: asm_neg(as, ir); break; + + case IR_ABS: asm_fpunary(as, ir, PPCI_FABS); break; + case IR_ATAN2: asm_callid(as, ir, IRCALL_atan2); break; + case IR_LDEXP: asm_callid(as, ir, IRCALL_ldexp); break; + case IR_MIN: asm_min_max(as, ir, 0); break; + case IR_MAX: asm_min_max(as, ir, 1); break; + case IR_FPMATH: + if (ir->op2 == IRFPM_EXP2 && asm_fpjoin_pow(as, ir)) + break; + asm_callid(as, ir, IRCALL_lj_vm_floor + ir->op2); + break; + + /* Overflow-checking arithmetic ops. */ + case IR_ADDOV: asm_arithov(as, ir, PPCI_ADDO); break; + case IR_SUBOV: asm_arithov(as, ir, PPCI_SUBFO); break; + case IR_MULOV: asm_arithov(as, ir, PPCI_MULLWO); break; + + /* Memory references. */ + case IR_AREF: asm_aref(as, ir); break; + case IR_HREF: asm_href(as, ir, 0); break; + case IR_HREFK: asm_hrefk(as, ir); break; + case IR_NEWREF: asm_newref(as, ir); break; + case IR_UREFO: case IR_UREFC: asm_uref(as, ir); break; + case IR_FREF: asm_fref(as, ir); break; + case IR_STRREF: asm_strref(as, ir); break; + + /* Loads and stores. */ + case IR_ALOAD: case IR_HLOAD: case IR_ULOAD: case IR_VLOAD: + asm_ahuvload(as, ir); + break; + case IR_FLOAD: asm_fload(as, ir); break; + case IR_XLOAD: asm_xload(as, ir); break; + case IR_SLOAD: asm_sload(as, ir); break; + + case IR_ASTORE: case IR_HSTORE: case IR_USTORE: asm_ahustore(as, ir); break; + case IR_FSTORE: asm_fstore(as, ir); break; + case IR_XSTORE: asm_xstore(as, ir); break; + + /* Allocations. */ + case IR_SNEW: case IR_XSNEW: asm_snew(as, ir); break; + case IR_TNEW: asm_tnew(as, ir); break; + case IR_TDUP: asm_tdup(as, ir); break; + case IR_CNEW: case IR_CNEWI: asm_cnew(as, ir); break; + + /* Write barriers. */ + case IR_TBAR: asm_tbar(as, ir); break; + case IR_OBAR: asm_obar(as, ir); break; + + /* Type conversions. */ + case IR_CONV: asm_conv(as, ir); break; + case IR_TOBIT: asm_tobit(as, ir); break; + case IR_TOSTR: asm_tostr(as, ir); break; + case IR_STRTO: asm_strto(as, ir); break; + + /* Calls. */ + case IR_CALLN: case IR_CALLL: case IR_CALLS: asm_call(as, ir); break; + case IR_CALLXS: asm_callx(as, ir); break; + case IR_CARG: break; + + default: + setintV(&as->J->errinfo, ir->o); + lj_trace_err_info(as->J, LJ_TRERR_NYIIR); + break; + } +} + +/* -- Trace setup --------------------------------------------------------- */ + +/* Ensure there are enough stack slots for call arguments. */ +static Reg asm_setup_call_slots(ASMState *as, IRIns *ir, const CCallInfo *ci) +{ + IRRef args[CCI_NARGS_MAX]; + uint32_t i, nargs = (int)CCI_NARGS(ci); + int nslots = 2, ngpr = REGARG_NUMGPR, nfpr = REGARG_NUMFPR; + asm_collectargs(as, ir, ci, args); + for (i = 0; i < nargs; i++) + if (args[i] && irt_isfp(IR(args[i])->t)) { + if (nfpr > 0) nfpr--; else nslots = (nslots+3) & ~1; + } else { + if (ngpr > 0) ngpr--; else nslots++; + } + if (nslots > as->evenspill) /* Leave room for args in stack slots. */ + as->evenspill = nslots; + return irt_isfp(ir->t) ? REGSP_HINT(RID_FPRET) : REGSP_HINT(RID_RET); +} + +static void asm_setup_target(ASMState *as) +{ + asm_exitstub_setup(as, as->T->nsnap + (as->parent ? 1 : 0)); +} + +/* -- Trace patching ------------------------------------------------------ */ + +/* Patch exit jumps of existing machine code to a new target. */ +void lj_asm_patchexit(jit_State *J, GCtrace *T, ExitNo exitno, MCode *target) +{ + MCode *p = T->mcode; + MCode *pe = (MCode *)((char *)p + T->szmcode); + MCode *px = exitstub_trace_addr(T, exitno); + MCode *cstart = NULL; + MCode *mcarea = lj_mcode_patch(J, p, 0); + int clearso = 0; + for (; p < pe; p++) { + /* Look for exitstub branch, try to replace with branch to target. */ + uint32_t ins = *p; + if ((ins & 0xfc000000u) == 0x40000000u && + ((ins ^ ((char *)px-(char *)p)) & 0xffffu) == 0) { + ptrdiff_t delta = (char *)target - (char *)p; + if (((ins >> 16) & 3) == (CC_SO&3)) { + clearso = sizeof(MCode); + delta -= sizeof(MCode); + } + /* Many, but not all short-range branches can be patched directly. */ + if (((delta + 0x8000) >> 16) == 0) { + *p = (ins & 0xffdf0000u) | ((uint32_t)delta & 0xffffu) | + ((delta & 0x8000) * (PPCF_Y/0x8000)); + if (!cstart) cstart = p; + } + } else if ((ins & 0xfc000000u) == PPCI_B && + ((ins ^ ((char *)px-(char *)p)) & 0x03ffffffu) == 0) { + ptrdiff_t delta = (char *)target - (char *)p; + lua_assert(((delta + 0x02000000) >> 26) == 0); + *p = PPCI_B | ((uint32_t)delta & 0x03ffffffu); + if (!cstart) cstart = p; + } + } + { /* Always patch long-range branch in exit stub itself. */ + ptrdiff_t delta = (char *)target - (char *)px - clearso; + lua_assert(((delta + 0x02000000) >> 26) == 0); + *px = PPCI_B | ((uint32_t)delta & 0x03ffffffu); + } + if (!cstart) cstart = px; + lj_mcode_sync(cstart, px+1); + if (clearso) { /* Extend the current trace. Ugly workaround. */ + MCode *pp = J->cur.mcode; + J->cur.szmcode += sizeof(MCode); + *--pp = PPCI_MCRXR; /* Clear SO flag. */ + J->cur.mcode = pp; + lj_mcode_sync(pp, pp+1); + } + lj_mcode_patch(J, mcarea, 1); +} + -- cgit v1.1