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-rw-r--r--Build/source/libs/luajit/LuaJIT-src/src/lj_asm_arm.h2217
1 files changed, 2217 insertions, 0 deletions
diff --git a/Build/source/libs/luajit/LuaJIT-src/src/lj_asm_arm.h b/Build/source/libs/luajit/LuaJIT-src/src/lj_asm_arm.h
new file mode 100644
index 00000000000..81843caf96a
--- /dev/null
+++ b/Build/source/libs/luajit/LuaJIT-src/src/lj_asm_arm.h
@@ -0,0 +1,2217 @@
+/*
+** ARM IR assembler (SSA IR -> machine code).
+** Copyright (C) 2005-2015 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 a scratch register pair. */
+static Reg ra_scratchpair(ASMState *as, RegSet allow)
+{
+ RegSet pick1 = as->freeset & allow;
+ RegSet pick2 = pick1 & (pick1 >> 1) & RSET_GPREVEN;
+ Reg r;
+ if (pick2) {
+ r = rset_picktop(pick2);
+ } else {
+ RegSet pick = pick1 & (allow >> 1) & RSET_GPREVEN;
+ if (pick) {
+ r = rset_picktop(pick);
+ ra_restore(as, regcost_ref(as->cost[r+1]));
+ } else {
+ pick = pick1 & (allow << 1) & RSET_GPRODD;
+ if (pick) {
+ r = ra_restore(as, regcost_ref(as->cost[rset_picktop(pick)-1]));
+ } else {
+ r = ra_evict(as, allow & (allow >> 1) & RSET_GPREVEN);
+ ra_restore(as, regcost_ref(as->cost[r+1]));
+ }
+ }
+ }
+ lua_assert(rset_test(RSET_GPREVEN, r));
+ ra_modified(as, r);
+ ra_modified(as, r+1);
+ RA_DBGX((as, "scratchpair $r $r", r, r+1));
+ return r;
+}
+
+#if !LJ_SOFTFP
+/* 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);
+}
+#endif
+
+/* -- Guard handling ------------------------------------------------------ */
+
+/* Generate an exit stub group at the bottom of the reserved MCode memory. */
+static MCode *asm_exitstub_gen(ASMState *as, ExitNo group)
+{
+ MCode *mxp = as->mcbot;
+ int i;
+ if (mxp + 4*4+4*EXITSTUBS_PER_GROUP >= as->mctop)
+ asm_mclimit(as);
+ /* str lr, [sp]; bl ->vm_exit_handler; .long DISPATCH_address, group. */
+ *mxp++ = ARMI_STR|ARMI_LS_P|ARMI_LS_U|ARMF_D(RID_LR)|ARMF_N(RID_SP);
+ *mxp = ARMI_BL|((((MCode *)(void *)lj_vm_exit_handler-mxp)-2)&0x00ffffffu);
+ mxp++;
+ *mxp++ = (MCode)i32ptr(J2GG(as->J)->dispatch); /* DISPATCH address */
+ *mxp++ = group*EXITSTUBS_PER_GROUP;
+ for (i = 0; i < EXITSTUBS_PER_GROUP; i++)
+ *mxp++ = ARMI_B|((-6-i)&0x00ffffffu);
+ lj_mcode_sync(as->mcbot, mxp);
+ lj_mcode_commitbot(as->J, mxp);
+ as->mcbot = mxp;
+ as->mclim = as->mcbot + MCLIM_REDZONE;
+ return mxp - EXITSTUBS_PER_GROUP;
+}
+
+/* Setup all needed exit stubs. */
+static void asm_exitstub_setup(ASMState *as, ExitNo nexits)
+{
+ ExitNo i;
+ if (nexits >= EXITSTUBS_PER_GROUP*LJ_MAX_EXITSTUBGR)
+ lj_trace_err(as->J, LJ_TRERR_SNAPOV);
+ for (i = 0; i < (nexits+EXITSTUBS_PER_GROUP-1)/EXITSTUBS_PER_GROUP; i++)
+ if (as->J->exitstubgroup[i] == NULL)
+ as->J->exitstubgroup[i] = asm_exitstub_gen(as, i);
+}
+
+/* Emit conditional branch to exit for guard. */
+static void asm_guardcc(ASMState *as, ARMCC cc)
+{
+ MCode *target = exitstub_addr(as->J, as->snapno);
+ MCode *p = as->mcp;
+ if (LJ_UNLIKELY(p == as->invmcp)) {
+ as->loopinv = 1;
+ *p = ARMI_BL | ((target-p-2) & 0x00ffffffu);
+ emit_branch(as, ARMF_CC(ARMI_B, cc^1), p+1);
+ return;
+ }
+ emit_branch(as, ARMF_CC(ARMI_BL, 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;
+}
+
+/* Fuse array/hash/upvalue reference into register+offset operand. */
+static Reg asm_fuseahuref(ASMState *as, IRRef ref, int32_t *ofsp, RegSet allow,
+ int lim)
+{
+ 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 (ofs > -lim && ofs < lim) {
+ *ofsp = ofs;
+ return ra_alloc1(as, refa, allow);
+ }
+ }
+ }
+ } else if (ir->o == IR_HREFK) {
+ if (mayfuse(as, ref)) {
+ int32_t ofs = (int32_t)(IR(ir->op2)->op2 * sizeof(Node));
+ if (ofs < lim) {
+ *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);
+ *ofsp = (ofs & 255); /* Mask out less bits to allow LDRD. */
+ return ra_allock(as, (ofs & ~255), allow);
+ }
+ }
+ }
+ *ofsp = 0;
+ return ra_alloc1(as, ref, allow);
+}
+
+/* Fuse m operand into arithmetic/logic instructions. */
+static uint32_t asm_fuseopm(ASMState *as, ARMIns ai, IRRef ref, RegSet allow)
+{
+ IRIns *ir = IR(ref);
+ if (ra_hasreg(ir->r)) {
+ ra_noweak(as, ir->r);
+ return ARMF_M(ir->r);
+ } else if (irref_isk(ref)) {
+ uint32_t k = emit_isk12(ai, ir->i);
+ if (k)
+ return k;
+ } else if (mayfuse(as, ref)) {
+ if (ir->o >= IR_BSHL && ir->o <= IR_BROR) {
+ Reg m = ra_alloc1(as, ir->op1, allow);
+ ARMShift sh = ir->o == IR_BSHL ? ARMSH_LSL :
+ ir->o == IR_BSHR ? ARMSH_LSR :
+ ir->o == IR_BSAR ? ARMSH_ASR : ARMSH_ROR;
+ if (irref_isk(ir->op2)) {
+ return m | ARMF_SH(sh, (IR(ir->op2)->i & 31));
+ } else {
+ Reg s = ra_alloc1(as, ir->op2, rset_exclude(allow, m));
+ return m | ARMF_RSH(sh, s);
+ }
+ } else if (ir->o == IR_ADD && ir->op1 == ir->op2) {
+ Reg m = ra_alloc1(as, ir->op1, allow);
+ return m | ARMF_SH(ARMSH_LSL, 1);
+ }
+ }
+ return ra_allocref(as, ref, allow);
+}
+
+/* Fuse shifts into loads/stores. Only bother with BSHL 2 => lsl #2. */
+static IRRef asm_fuselsl2(ASMState *as, IRRef ref)
+{
+ IRIns *ir = IR(ref);
+ if (ra_noreg(ir->r) && mayfuse(as, ref) && ir->o == IR_BSHL &&
+ irref_isk(ir->op2) && IR(ir->op2)->i == 2)
+ return ir->op1;
+ return 0; /* No fusion. */
+}
+
+/* Fuse XLOAD/XSTORE reference into load/store operand. */
+static void asm_fusexref(ASMState *as, ARMIns ai, Reg rd, IRRef ref,
+ RegSet allow, int32_t ofs)
+{
+ IRIns *ir = IR(ref);
+ Reg base;
+ if (ra_noreg(ir->r) && canfuse(as, ir)) {
+ int32_t lim = (!LJ_SOFTFP && (ai & 0x08000000)) ? 1024 :
+ (ai & 0x04000000) ? 4096 : 256;
+ if (ir->o == IR_ADD) {
+ int32_t ofs2;
+ if (irref_isk(ir->op2) &&
+ (ofs2 = ofs + IR(ir->op2)->i) > -lim && ofs2 < lim &&
+ (!(!LJ_SOFTFP && (ai & 0x08000000)) || !(ofs2 & 3))) {
+ ofs = ofs2;
+ ref = ir->op1;
+ } else if (ofs == 0 && !(!LJ_SOFTFP && (ai & 0x08000000))) {
+ IRRef lref = ir->op1, rref = ir->op2;
+ Reg rn, rm;
+ if ((ai & 0x04000000)) {
+ IRRef sref = asm_fuselsl2(as, rref);
+ if (sref) {
+ rref = sref;
+ ai |= ARMF_SH(ARMSH_LSL, 2);
+ } else if ((sref = asm_fuselsl2(as, lref)) != 0) {
+ lref = rref;
+ rref = sref;
+ ai |= ARMF_SH(ARMSH_LSL, 2);
+ }
+ }
+ rn = ra_alloc1(as, lref, allow);
+ rm = ra_alloc1(as, rref, rset_exclude(allow, rn));
+ if ((ai & 0x04000000)) ai |= ARMI_LS_R;
+ emit_dnm(as, ai|ARMI_LS_P|ARMI_LS_U, rd, rn, rm);
+ return;
+ }
+ } else if (ir->o == IR_STRREF && !(!LJ_SOFTFP && (ai & 0x08000000))) {
+ lua_assert(ofs == 0);
+ 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 rn = ra_alloc1(as, ir->op1, allow);
+ uint32_t m = asm_fuseopm(as, 0, ir->op2, rset_exclude(allow, rn));
+ if ((ai & 0x04000000))
+ emit_lso(as, ai, rd, rd, ofs);
+ else
+ emit_lsox(as, ai, rd, rd, ofs);
+ emit_dn(as, ARMI_ADD^m, rd, rn);
+ return;
+ }
+ if (ofs <= -lim || ofs >= lim) {
+ Reg rn = ra_alloc1(as, ref, allow);
+ Reg rm = ra_allock(as, ofs, rset_exclude(allow, rn));
+ if ((ai & 0x04000000)) ai |= ARMI_LS_R;
+ emit_dnm(as, ai|ARMI_LS_P|ARMI_LS_U, rd, rn, rm);
+ return;
+ }
+ }
+ }
+ base = ra_alloc1(as, ref, allow);
+#if !LJ_SOFTFP
+ if ((ai & 0x08000000))
+ emit_vlso(as, ai, rd, base, ofs);
+ else
+#endif
+ if ((ai & 0x04000000))
+ emit_lso(as, ai, rd, base, ofs);
+ else
+ emit_lsox(as, ai, rd, base, ofs);
+}
+
+#if !LJ_SOFTFP
+/* Fuse to multiply-add/sub instruction. */
+static int asm_fusemadd(ASMState *as, IRIns *ir, ARMIns ai, ARMIns air)
+{
+ 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, ai = air, ra_noreg(irm->r))))) {
+ Reg dest = ra_dest(as, ir, RSET_FPR);
+ Reg add = ra_hintalloc(as, rref, dest, RSET_FPR);
+ Reg right, left = ra_alloc2(as, irm,
+ rset_exclude(rset_exclude(RSET_FPR, dest), add));
+ right = (left >> 8); left &= 255;
+ emit_dnm(as, ai, (dest & 15), (left & 15), (right & 15));
+ if (dest != add) emit_dm(as, ARMI_VMOV_D, (dest & 15), (add & 15));
+ return 1;
+ }
+ return 0;
+}
+#endif
+
+/* -- Calls --------------------------------------------------------------- */
+
+/* Generate a call to a C function. */
+static void asm_gencall(ASMState *as, const CCallInfo *ci, IRRef *args)
+{
+ uint32_t n, nargs = CCI_XNARGS(ci);
+ int32_t ofs = 0;
+#if LJ_SOFTFP
+ Reg gpr = REGARG_FIRSTGPR;
+#else
+ Reg gpr, fpr = REGARG_FIRSTFPR, fprodd = 0;
+#endif
+ if ((void *)ci->func)
+ emit_call(as, (void *)ci->func);
+#if !LJ_SOFTFP
+ for (gpr = REGARG_FIRSTGPR; gpr <= REGARG_LASTGPR; gpr++)
+ as->cost[gpr] = REGCOST(~0u, ASMREF_L);
+ gpr = REGARG_FIRSTGPR;
+#endif
+ for (n = 0; n < nargs; n++) { /* Setup args. */
+ IRRef ref = args[n];
+ IRIns *ir = IR(ref);
+#if !LJ_SOFTFP
+ if (ref && irt_isfp(ir->t)) {
+ RegSet of = as->freeset;
+ Reg src;
+ if (!LJ_ABI_SOFTFP && !(ci->flags & CCI_VARARG)) {
+ if (irt_isnum(ir->t)) {
+ if (fpr <= REGARG_LASTFPR) {
+ ra_leftov(as, fpr, ref);
+ fpr++;
+ continue;
+ }
+ } else if (fprodd) { /* Ick. */
+ src = ra_alloc1(as, ref, RSET_FPR);
+ emit_dm(as, ARMI_VMOV_S, (fprodd & 15), (src & 15) | 0x00400000);
+ fprodd = 0;
+ continue;
+ } else if (fpr <= REGARG_LASTFPR) {
+ ra_leftov(as, fpr, ref);
+ fprodd = fpr++;
+ continue;
+ }
+ /* Workaround to protect argument GPRs from being used for remat. */
+ as->freeset &= ~RSET_RANGE(REGARG_FIRSTGPR, REGARG_LASTGPR+1);
+ src = ra_alloc1(as, ref, RSET_FPR); /* May alloc GPR to remat FPR. */
+ as->freeset |= (of & RSET_RANGE(REGARG_FIRSTGPR, REGARG_LASTGPR+1));
+ fprodd = 0;
+ goto stackfp;
+ }
+ /* Workaround to protect argument GPRs from being used for remat. */
+ as->freeset &= ~RSET_RANGE(REGARG_FIRSTGPR, REGARG_LASTGPR+1);
+ src = ra_alloc1(as, ref, RSET_FPR); /* May alloc GPR to remat FPR. */
+ as->freeset |= (of & RSET_RANGE(REGARG_FIRSTGPR, REGARG_LASTGPR+1));
+ if (irt_isnum(ir->t)) gpr = (gpr+1) & ~1u;
+ if (gpr <= REGARG_LASTGPR) {
+ lua_assert(rset_test(as->freeset, gpr)); /* Must have been evicted. */
+ if (irt_isnum(ir->t)) {
+ lua_assert(rset_test(as->freeset, gpr+1)); /* Ditto. */
+ emit_dnm(as, ARMI_VMOV_RR_D, gpr, gpr+1, (src & 15));
+ gpr += 2;
+ } else {
+ emit_dn(as, ARMI_VMOV_R_S, gpr, (src & 15));
+ gpr++;
+ }
+ } else {
+ stackfp:
+ if (irt_isnum(ir->t)) ofs = (ofs + 4) & ~4;
+ emit_spstore(as, ir, src, ofs);
+ ofs += irt_isnum(ir->t) ? 8 : 4;
+ }
+ } else
+#endif
+ {
+ if (gpr <= REGARG_LASTGPR) {
+ lua_assert(rset_test(as->freeset, gpr)); /* Must have been evicted. */
+ if (ref) ra_leftov(as, gpr, ref);
+ gpr++;
+ } else {
+ if (ref) {
+ Reg r = ra_alloc1(as, ref, RSET_GPR);
+ emit_spstore(as, ir, r, ofs);
+ }
+ ofs += 4;
+ }
+ }
+ }
+}
+
+/* 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 (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 (!LJ_SOFTFP && irt_isfp(ir->t)) {
+ if (LJ_ABI_SOFTFP || (ci->flags & (CCI_CASTU64|CCI_VARARG))) {
+ Reg dest = (ra_dest(as, ir, RSET_FPR) & 15);
+ if (irt_isnum(ir->t))
+ emit_dnm(as, ARMI_VMOV_D_RR, RID_RETLO, RID_RETHI, dest);
+ else
+ emit_dn(as, ARMI_VMOV_S_R, RID_RET, dest);
+ } else {
+ ra_destreg(as, ir, RID_FPRET);
+ }
+ } else if (hiop) {
+ ra_destpair(as, ir);
+ } else {
+ ra_destreg(as, ir, RID_RET);
+ }
+ }
+ UNUSED(ci);
+}
+
+static void asm_callx(ASMState *as, IRIns *ir)
+{
+ IRRef args[CCI_NARGS_MAX*2];
+ 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. */
+ Reg freg = ra_alloc1(as, func, RSET_RANGE(RID_R4, RID_R12+1));
+ emit_m(as, ARMI_BLXr, freg);
+ ci.func = (ASMFunction)(void *)0;
+ }
+ 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+LJ_FR2+bc_a(*((const BCIns *)pc - 1));
+ as->topslot -= (BCReg)delta;
+ if ((int32_t)as->topslot < 0) as->topslot = 0;
+ irt_setmark(IR(REF_BASE)->t); /* Children must not coalesce with BASE reg. */
+ /* Need to force a spill on REF_BASE now to update the stack slot. */
+ emit_lso(as, ARMI_STR, base, RID_SP, ra_spill(as, IR(REF_BASE)));
+ emit_setgl(as, base, jit_base);
+ emit_addptr(as, base, -8*delta);
+ asm_guardcc(as, CC_NE);
+ emit_nm(as, ARMI_CMP, RID_TMP,
+ ra_allock(as, i32ptr(pc), rset_exclude(RSET_GPR, base)));
+ emit_lso(as, ARMI_LDR, RID_TMP, base, -4);
+}
+
+/* -- Type conversions ---------------------------------------------------- */
+
+#if !LJ_SOFTFP
+static void asm_tointg(ASMState *as, IRIns *ir, Reg left)
+{
+ Reg tmp = ra_scratch(as, rset_exclude(RSET_FPR, left));
+ Reg dest = ra_dest(as, ir, RSET_GPR);
+ asm_guardcc(as, CC_NE);
+ emit_d(as, ARMI_VMRS, 0);
+ emit_dm(as, ARMI_VCMP_D, (tmp & 15), (left & 15));
+ emit_dm(as, ARMI_VCVT_F64_S32, (tmp & 15), (tmp & 15));
+ emit_dn(as, ARMI_VMOV_R_S, dest, (tmp & 15));
+ emit_dm(as, ARMI_VCVT_S32_F64, (tmp & 15), (left & 15));
+}
+
+static void asm_tobit(ASMState *as, IRIns *ir)
+{
+ RegSet allow = RSET_FPR;
+ 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));
+ Reg dest = ra_dest(as, ir, RSET_GPR);
+ emit_dn(as, ARMI_VMOV_R_S, dest, (tmp & 15));
+ emit_dnm(as, ARMI_VADD_D, (tmp & 15), (left & 15), (right & 15));
+}
+#else
+#define asm_tobit(as, ir) lua_assert(0)
+#endif
+
+static void asm_conv(ASMState *as, IRIns *ir)
+{
+ IRType st = (IRType)(ir->op2 & IRCONV_SRCMASK);
+#if !LJ_SOFTFP
+ int stfp = (st == IRT_NUM || st == IRT_FLOAT);
+#endif
+ IRRef lref = ir->op1;
+ /* 64 bit integer conversions are handled by SPLIT. */
+ lua_assert(!irt_isint64(ir->t) && !(st == IRT_I64 || st == IRT_U64));
+#if LJ_SOFTFP
+ /* FP conversions are handled by SPLIT. */
+ lua_assert(!irt_isfp(ir->t) && !(st == IRT_NUM || st == IRT_FLOAT));
+ /* Can't check for same types: SPLIT uses CONV int.int + BXOR for sfp NEG. */
+#else
+ lua_assert(irt_type(ir->t) != st);
+ if (irt_isfp(ir->t)) {
+ Reg dest = ra_dest(as, ir, RSET_FPR);
+ if (stfp) { /* FP to FP conversion. */
+ emit_dm(as, st == IRT_NUM ? ARMI_VCVT_F32_F64 : ARMI_VCVT_F64_F32,
+ (dest & 15), (ra_alloc1(as, lref, RSET_FPR) & 15));
+ } else { /* Integer to FP conversion. */
+ Reg left = ra_alloc1(as, lref, RSET_GPR);
+ ARMIns ai = irt_isfloat(ir->t) ?
+ (st == IRT_INT ? ARMI_VCVT_F32_S32 : ARMI_VCVT_F32_U32) :
+ (st == IRT_INT ? ARMI_VCVT_F64_S32 : ARMI_VCVT_F64_U32);
+ emit_dm(as, ai, (dest & 15), (dest & 15));
+ emit_dn(as, ARMI_VMOV_S_R, left, (dest & 15));
+ }
+ } 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 left = ra_alloc1(as, lref, RSET_FPR);
+ Reg tmp = ra_scratch(as, rset_exclude(RSET_FPR, left));
+ Reg dest = ra_dest(as, ir, RSET_GPR);
+ ARMIns ai;
+ emit_dn(as, ARMI_VMOV_R_S, dest, (tmp & 15));
+ ai = irt_isint(ir->t) ?
+ (st == IRT_NUM ? ARMI_VCVT_S32_F64 : ARMI_VCVT_S32_F32) :
+ (st == IRT_NUM ? ARMI_VCVT_U32_F64 : ARMI_VCVT_U32_F32);
+ emit_dm(as, ai, (tmp & 15), (left & 15));
+ }
+ } else
+#endif
+ {
+ 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, lref, RSET_GPR);
+ lua_assert(irt_isint(ir->t) || irt_isu32(ir->t));
+ if ((as->flags & JIT_F_ARMV6)) {
+ ARMIns ai = st == IRT_I8 ? ARMI_SXTB :
+ st == IRT_U8 ? ARMI_UXTB :
+ st == IRT_I16 ? ARMI_SXTH : ARMI_UXTH;
+ emit_dm(as, ai, dest, left);
+ } else if (st == IRT_U8) {
+ emit_dn(as, ARMI_AND|ARMI_K12|255, dest, left);
+ } else {
+ uint32_t shift = st == IRT_I8 ? 24 : 16;
+ ARMShift sh = st == IRT_U16 ? ARMSH_LSR : ARMSH_ASR;
+ emit_dm(as, ARMI_MOV|ARMF_SH(sh, shift), dest, RID_TMP);
+ emit_dm(as, ARMI_MOV|ARMF_SH(ARMSH_LSL, shift), RID_TMP, left);
+ }
+ } else { /* Handle 32/32 bit no-op (cast). */
+ ra_leftov(as, dest, lref); /* Do nothing, but may need to move regs. */
+ }
+ }
+}
+
+static void asm_strto(ASMState *as, IRIns *ir)
+{
+ const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_strscan_num];
+ IRRef args[2];
+ Reg rlo = 0, rhi = 0, tmp;
+ int destused = ra_used(ir);
+ int32_t ofs = 0;
+ ra_evictset(as, RSET_SCRATCH);
+#if LJ_SOFTFP
+ if (destused) {
+ if (ra_hasspill(ir->s) && ra_hasspill((ir+1)->s) &&
+ (ir->s & 1) == 0 && ir->s + 1 == (ir+1)->s) {
+ int i;
+ for (i = 0; i < 2; i++) {
+ Reg r = (ir+i)->r;
+ if (ra_hasreg(r)) {
+ ra_free(as, r);
+ ra_modified(as, r);
+ emit_spload(as, ir+i, r, sps_scale((ir+i)->s));
+ }
+ }
+ ofs = sps_scale(ir->s);
+ destused = 0;
+ } else {
+ rhi = ra_dest(as, ir+1, RSET_GPR);
+ rlo = ra_dest(as, ir, rset_exclude(RSET_GPR, rhi));
+ }
+ }
+ asm_guardcc(as, CC_EQ);
+ if (destused) {
+ emit_lso(as, ARMI_LDR, rhi, RID_SP, 4);
+ emit_lso(as, ARMI_LDR, rlo, RID_SP, 0);
+ }
+#else
+ UNUSED(rhi);
+ if (destused) {
+ if (ra_hasspill(ir->s)) {
+ ofs = sps_scale(ir->s);
+ destused = 0;
+ if (ra_hasreg(ir->r)) {
+ ra_free(as, ir->r);
+ ra_modified(as, ir->r);
+ emit_spload(as, ir, ir->r, ofs);
+ }
+ } else {
+ rlo = ra_dest(as, ir, RSET_FPR);
+ }
+ }
+ asm_guardcc(as, CC_EQ);
+ if (destused)
+ emit_vlso(as, ARMI_VLDR_D, rlo, RID_SP, 0);
+#endif
+ emit_n(as, ARMI_CMP|ARMI_K12|0, RID_RET); /* Test return status. */
+ args[0] = ir->op1; /* GCstr *str */
+ args[1] = ASMREF_TMP1; /* TValue *n */
+ asm_gencall(as, ci, args);
+ tmp = ra_releasetmp(as, ASMREF_TMP1);
+ if (ofs == 0)
+ emit_dm(as, ARMI_MOV, tmp, RID_SP);
+ else
+ emit_opk(as, ARMI_ADD, tmp, RID_SP, ofs, RSET_GPR);
+}
+
+/* -- Memory references --------------------------------------------------- */
+
+/* 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 {
+#if LJ_SOFTFP
+ lua_assert(0);
+#else
+ /* Otherwise force a spill and use the spill slot. */
+ emit_opk(as, ARMI_ADD, dest, RID_SP, ra_spill(as, ir), RSET_GPR);
+#endif
+ }
+ } else {
+ /* Otherwise use [sp] and [sp+4] to hold the TValue. */
+ RegSet allow = rset_exclude(RSET_GPR, dest);
+ Reg type;
+ emit_dm(as, ARMI_MOV, dest, RID_SP);
+ if (!irt_ispri(ir->t)) {
+ Reg src = ra_alloc1(as, ref, allow);
+ emit_lso(as, ARMI_STR, src, RID_SP, 0);
+ }
+ if (LJ_SOFTFP && (ir+1)->o == IR_HIOP)
+ type = ra_alloc1(as, ref+1, allow);
+ else
+ type = ra_allock(as, irt_toitype(ir->t), allow);
+ emit_lso(as, ARMI_STR, type, RID_SP, 4);
+ }
+}
+
+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;
+ uint32_t k = emit_isk12(ARMI_ADD, ofs + 8*IR(ir->op2)->i);
+ if (k) {
+ base = ra_alloc1(as, refa, RSET_GPR);
+ emit_dn(as, ARMI_ADD^k, dest, base);
+ return;
+ }
+ }
+ base = ra_alloc1(as, ir->op1, RSET_GPR);
+ idx = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, base));
+ emit_dnm(as, ARMI_ADD|ARMF_SH(ARMSH_LSL, 3), dest, base, idx);
+}
+
+/* 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 = 0, keyhi = 0, keynumhi = RID_NONE, tmp = RID_TMP;
+ IRRef refkey = ir->op2;
+ IRIns *irkey = IR(refkey);
+ IRType1 kt = irkey->t;
+ int32_t k = 0, khi = emit_isk12(ARMI_CMP, irt_toitype(kt));
+ uint32_t khash;
+ MCLabel l_end, l_loop;
+ rset_clear(allow, tab);
+ if (!irref_isk(refkey) || irt_isstr(kt)) {
+#if LJ_SOFTFP
+ key = ra_alloc1(as, refkey, allow);
+ rset_clear(allow, key);
+ if (irkey[1].o == IR_HIOP) {
+ if (ra_hasreg((irkey+1)->r)) {
+ keynumhi = (irkey+1)->r;
+ keyhi = RID_TMP;
+ ra_noweak(as, keynumhi);
+ } else {
+ keyhi = keynumhi = ra_allocref(as, refkey+1, allow);
+ }
+ rset_clear(allow, keynumhi);
+ khi = 0;
+ }
+#else
+ if (irt_isnum(kt)) {
+ key = ra_scratch(as, allow);
+ rset_clear(allow, key);
+ keyhi = keynumhi = ra_scratch(as, allow);
+ rset_clear(allow, keyhi);
+ khi = 0;
+ } else {
+ key = ra_alloc1(as, refkey, allow);
+ rset_clear(allow, key);
+ }
+#endif
+ } else if (irt_isnum(kt)) {
+ int32_t val = (int32_t)ir_knum(irkey)->u32.lo;
+ k = emit_isk12(ARMI_CMP, val);
+ if (!k) {
+ key = ra_allock(as, val, allow);
+ rset_clear(allow, key);
+ }
+ val = (int32_t)ir_knum(irkey)->u32.hi;
+ khi = emit_isk12(ARMI_CMP, val);
+ if (!khi) {
+ keyhi = ra_allock(as, val, allow);
+ rset_clear(allow, keyhi);
+ }
+ } else if (!irt_ispri(kt)) {
+ k = emit_isk12(ARMI_CMP, irkey->i);
+ if (!k) {
+ key = ra_alloc1(as, refkey, allow);
+ rset_clear(allow, key);
+ }
+ }
+ if (!irt_ispri(kt))
+ tmp = ra_scratchpair(as, allow);
+
+ /* 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_AL);
+ else if (destused)
+ emit_loada(as, dest, niltvg(J2G(as->J)));
+
+ /* Follow hash chain until the end. */
+ l_loop = --as->mcp;
+ emit_n(as, ARMI_CMP|ARMI_K12|0, dest);
+ emit_lso(as, ARMI_LDR, dest, dest, (int32_t)offsetof(Node, next));
+
+ /* Type and value comparison. */
+ if (merge == IR_EQ)
+ asm_guardcc(as, CC_EQ);
+ else
+ emit_branch(as, ARMF_CC(ARMI_B, CC_EQ), l_end);
+ if (!irt_ispri(kt)) {
+ emit_nm(as, ARMF_CC(ARMI_CMP, CC_EQ)^k, tmp, key);
+ emit_nm(as, ARMI_CMP^khi, tmp+1, keyhi);
+ emit_lsox(as, ARMI_LDRD, tmp, dest, (int32_t)offsetof(Node, key));
+ } else {
+ emit_n(as, ARMI_CMP^khi, tmp);
+ emit_lso(as, ARMI_LDR, tmp, dest, (int32_t)offsetof(Node, key.it));
+ }
+ *l_loop = ARMF_CC(ARMI_B, CC_NE) | ((as->mcp-l_loop-2) & 0x00ffffffu);
+
+ /* Load main position relative to tab->node into dest. */
+ khash = irref_isk(refkey) ? ir_khash(irkey) : 1;
+ if (khash == 0) {
+ emit_lso(as, ARMI_LDR, dest, tab, (int32_t)offsetof(GCtab, node));
+ } else {
+ emit_dnm(as, ARMI_ADD|ARMF_SH(ARMSH_LSL, 3), dest, dest, tmp);
+ emit_dnm(as, ARMI_ADD|ARMF_SH(ARMSH_LSL, 1), tmp, tmp, tmp);
+ if (irt_isstr(kt)) { /* Fetch of str->hash is cheaper than ra_allock. */
+ emit_dnm(as, ARMI_AND, tmp, tmp+1, RID_TMP);
+ emit_lso(as, ARMI_LDR, dest, tab, (int32_t)offsetof(GCtab, node));
+ emit_lso(as, ARMI_LDR, tmp+1, key, (int32_t)offsetof(GCstr, hash));
+ emit_lso(as, ARMI_LDR, RID_TMP, tab, (int32_t)offsetof(GCtab, hmask));
+ } else if (irref_isk(refkey)) {
+ emit_opk(as, ARMI_AND, tmp, RID_TMP, (int32_t)khash,
+ rset_exclude(rset_exclude(RSET_GPR, tab), dest));
+ emit_lso(as, ARMI_LDR, dest, tab, (int32_t)offsetof(GCtab, node));
+ emit_lso(as, ARMI_LDR, RID_TMP, tab, (int32_t)offsetof(GCtab, hmask));
+ } else { /* Must match with hash*() in lj_tab.c. */
+ if (ra_hasreg(keynumhi)) { /* Canonicalize +-0.0 to 0.0. */
+ if (keyhi == RID_TMP)
+ emit_dm(as, ARMF_CC(ARMI_MOV, CC_NE), keyhi, keynumhi);
+ emit_d(as, ARMF_CC(ARMI_MOV, CC_EQ)|ARMI_K12|0, keyhi);
+ }
+ emit_dnm(as, ARMI_AND, tmp, tmp, RID_TMP);
+ emit_dnm(as, ARMI_SUB|ARMF_SH(ARMSH_ROR, 32-HASH_ROT3), tmp, tmp, tmp+1);
+ emit_lso(as, ARMI_LDR, dest, tab, (int32_t)offsetof(GCtab, node));
+ emit_dnm(as, ARMI_EOR|ARMF_SH(ARMSH_ROR, 32-((HASH_ROT2+HASH_ROT1)&31)),
+ tmp, tmp+1, tmp);
+ emit_lso(as, ARMI_LDR, RID_TMP, tab, (int32_t)offsetof(GCtab, hmask));
+ emit_dnm(as, ARMI_SUB|ARMF_SH(ARMSH_ROR, 32-HASH_ROT1), tmp+1, tmp+1, tmp);
+ if (ra_hasreg(keynumhi)) {
+ emit_dnm(as, ARMI_EOR, tmp+1, tmp, key);
+ emit_dnm(as, ARMI_ORR|ARMI_S, RID_TMP, tmp, key); /* Test for +-0.0. */
+ emit_dnm(as, ARMI_ADD, tmp, keynumhi, keynumhi);
+#if !LJ_SOFTFP
+ emit_dnm(as, ARMI_VMOV_RR_D, key, keynumhi,
+ (ra_alloc1(as, refkey, RSET_FPR) & 15));
+#endif
+ } else {
+ emit_dnm(as, ARMI_EOR, tmp+1, tmp, key);
+ emit_opk(as, ARMI_ADD, tmp, key, (int32_t)HASH_BIAS,
+ rset_exclude(rset_exclude(RSET_GPR, tab), key));
+ }
+ }
+ }
+}
+
+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 > 4095) ? 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 > 4095) {
+ idx = dest;
+ rset_clear(allow, dest);
+ kofs = (int32_t)offsetof(Node, key);
+ } else if (ra_hasreg(dest)) {
+ emit_opk(as, ARMI_ADD, dest, node, ofs, allow);
+ }
+ asm_guardcc(as, CC_NE);
+ if (!irt_ispri(irkey->t)) {
+ RegSet even = (as->freeset & allow);
+ even = even & (even >> 1) & RSET_GPREVEN;
+ if (even) {
+ key = ra_scratch(as, even);
+ if (rset_test(as->freeset, key+1)) {
+ type = key+1;
+ ra_modified(as, type);
+ }
+ } else {
+ key = ra_scratch(as, allow);
+ }
+ rset_clear(allow, key);
+ }
+ rset_clear(allow, type);
+ if (irt_isnum(irkey->t)) {
+ emit_opk(as, ARMF_CC(ARMI_CMP, CC_EQ), 0, type,
+ (int32_t)ir_knum(irkey)->u32.hi, allow);
+ emit_opk(as, ARMI_CMP, 0, key,
+ (int32_t)ir_knum(irkey)->u32.lo, allow);
+ } else {
+ if (ra_hasreg(key))
+ emit_opk(as, ARMF_CC(ARMI_CMP, CC_EQ), 0, key, irkey->i, allow);
+ emit_n(as, ARMI_CMN|ARMI_K12|-irt_toitype(irkey->t), type);
+ }
+ emit_lso(as, ARMI_LDR, type, idx, kofs+4);
+ if (ra_hasreg(key)) emit_lso(as, ARMI_LDR, key, idx, kofs);
+ if (ofs > 4095)
+ emit_opk(as, ARMI_ADD, dest, node, ofs, RSET_GPR);
+}
+
+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, ARMI_LDR, dest, v);
+ } 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_n(as, ARMI_CMP|ARMI_K12|1, RID_TMP);
+ emit_opk(as, ARMI_ADD, dest, uv,
+ (int32_t)offsetof(GCupval, tv), RSET_GPR);
+ emit_lso(as, ARMI_LDRB, RID_TMP, uv, (int32_t)offsetof(GCupval, closed));
+ } else {
+ emit_lso(as, ARMI_LDR, dest, uv, (int32_t)offsetof(GCupval, v));
+ }
+ emit_lso(as, ARMI_LDR, 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;
+ Reg r;
+ if (irref_isk(ref)) {
+ IRRef tmp = refk; refk = ref; ref = tmp;
+ } else if (!irref_isk(refk)) {
+ uint32_t k, m = ARMI_K12|sizeof(GCstr);
+ 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) &&
+ (k = emit_isk12(ARMI_ADD,
+ (int32_t)sizeof(GCstr) + IR(irr->op2)->i))) {
+ m = k;
+ right = ra_alloc1(as, irr->op1, rset_exclude(RSET_GPR, left));
+ } else {
+ right = ra_allocref(as, ir->op2, rset_exclude(RSET_GPR, left));
+ }
+ emit_dn(as, ARMI_ADD^m, dest, dest);
+ emit_dnm(as, ARMI_ADD, dest, left, right);
+ return;
+ }
+ r = ra_alloc1(as, ref, RSET_GPR);
+ emit_opk(as, ARMI_ADD, dest, r,
+ sizeof(GCstr) + IR(refk)->i, rset_exclude(RSET_GPR, r));
+}
+
+/* -- Loads and stores ---------------------------------------------------- */
+
+static ARMIns asm_fxloadins(IRIns *ir)
+{
+ switch (irt_type(ir->t)) {
+ case IRT_I8: return ARMI_LDRSB;
+ case IRT_U8: return ARMI_LDRB;
+ case IRT_I16: return ARMI_LDRSH;
+ case IRT_U16: return ARMI_LDRH;
+ case IRT_NUM: lua_assert(!LJ_SOFTFP); return ARMI_VLDR_D;
+ case IRT_FLOAT: if (!LJ_SOFTFP) return ARMI_VLDR_S;
+ default: return ARMI_LDR;
+ }
+}
+
+static ARMIns asm_fxstoreins(IRIns *ir)
+{
+ switch (irt_type(ir->t)) {
+ case IRT_I8: case IRT_U8: return ARMI_STRB;
+ case IRT_I16: case IRT_U16: return ARMI_STRH;
+ case IRT_NUM: lua_assert(!LJ_SOFTFP); return ARMI_VSTR_D;
+ case IRT_FLOAT: if (!LJ_SOFTFP) return ARMI_VSTR_S;
+ default: return ARMI_STR;
+ }
+}
+
+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);
+ ARMIns ai = 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_dn(as, ARMI_ADD|ARMI_K12|ofs, dest, idx);
+ return;
+ }
+ }
+ ofs = field_ofs[ir->op2];
+ if ((ai & 0x04000000))
+ emit_lso(as, ai, dest, idx, ofs);
+ else
+ emit_lsox(as, ai, dest, idx, ofs);
+}
+
+static void asm_fstore(ASMState *as, IRIns *ir)
+{
+ if (ir->r != RID_SINK) {
+ 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];
+ ARMIns ai = asm_fxstoreins(ir);
+ if ((ai & 0x04000000))
+ emit_lso(as, ai, src, idx, ofs);
+ else
+ emit_lsox(as, ai, src, idx, ofs);
+ }
+}
+
+static void asm_xload(ASMState *as, IRIns *ir)
+{
+ Reg dest = ra_dest(as, ir,
+ (!LJ_SOFTFP && irt_isfp(ir->t)) ? RSET_FPR : RSET_GPR);
+ lua_assert(!(ir->op2 & IRXLOAD_UNALIGNED));
+ asm_fusexref(as, asm_fxloadins(ir), dest, ir->op1, RSET_GPR, 0);
+}
+
+static void asm_xstore_(ASMState *as, IRIns *ir, int32_t ofs)
+{
+ if (ir->r != RID_SINK) {
+ Reg src = ra_alloc1(as, ir->op2,
+ (!LJ_SOFTFP && irt_isfp(ir->t)) ? RSET_FPR : RSET_GPR);
+ asm_fusexref(as, asm_fxstoreins(ir), src, ir->op1,
+ rset_exclude(RSET_GPR, src), ofs);
+ }
+}
+
+#define asm_xstore(as, ir) asm_xstore_(as, ir, 0)
+
+static void asm_ahuvload(ASMState *as, IRIns *ir)
+{
+ int hiop = (LJ_SOFTFP && (ir+1)->o == IR_HIOP);
+ IRType t = hiop ? IRT_NUM : irt_type(ir->t);
+ Reg dest = RID_NONE, type = RID_NONE, idx;
+ RegSet allow = RSET_GPR;
+ int32_t ofs = 0;
+ if (hiop && ra_used(ir+1)) {
+ type = ra_dest(as, ir+1, allow);
+ rset_clear(allow, type);
+ }
+ if (ra_used(ir)) {
+ lua_assert((LJ_SOFTFP ? 0 : irt_isnum(ir->t)) ||
+ irt_isint(ir->t) || irt_isaddr(ir->t));
+ dest = ra_dest(as, ir, (!LJ_SOFTFP && t == IRT_NUM) ? RSET_FPR : allow);
+ rset_clear(allow, dest);
+ }
+ idx = asm_fuseahuref(as, ir->op1, &ofs, allow,
+ (!LJ_SOFTFP && t == IRT_NUM) ? 1024 : 4096);
+ if (!hiop || type == RID_NONE) {
+ rset_clear(allow, idx);
+ if (ofs < 256 && ra_hasreg(dest) && (dest & 1) == 0 &&
+ rset_test((as->freeset & allow), dest+1)) {
+ type = dest+1;
+ ra_modified(as, type);
+ } else {
+ type = RID_TMP;
+ }
+ }
+ asm_guardcc(as, t == IRT_NUM ? CC_HS : CC_NE);
+ emit_n(as, ARMI_CMN|ARMI_K12|-irt_toitype_(t), type);
+ if (ra_hasreg(dest)) {
+#if !LJ_SOFTFP
+ if (t == IRT_NUM)
+ emit_vlso(as, ARMI_VLDR_D, dest, idx, ofs);
+ else
+#endif
+ emit_lso(as, ARMI_LDR, dest, idx, ofs);
+ }
+ emit_lso(as, ARMI_LDR, type, idx, ofs+4);
+}
+
+static void asm_ahustore(ASMState *as, IRIns *ir)
+{
+ if (ir->r != RID_SINK) {
+ RegSet allow = RSET_GPR;
+ Reg idx, src = RID_NONE, type = RID_NONE;
+ int32_t ofs = 0;
+#if !LJ_SOFTFP
+ if (irt_isnum(ir->t)) {
+ src = ra_alloc1(as, ir->op2, RSET_FPR);
+ idx = asm_fuseahuref(as, ir->op1, &ofs, allow, 1024);
+ emit_vlso(as, ARMI_VSTR_D, src, idx, ofs);
+ } else
+#endif
+ {
+ int hiop = (LJ_SOFTFP && (ir+1)->o == IR_HIOP);
+ if (!irt_ispri(ir->t)) {
+ src = ra_alloc1(as, ir->op2, allow);
+ rset_clear(allow, src);
+ }
+ if (hiop)
+ type = ra_alloc1(as, (ir+1)->op2, allow);
+ else
+ type = ra_allock(as, (int32_t)irt_toitype(ir->t), allow);
+ idx = asm_fuseahuref(as, ir->op1, &ofs, rset_exclude(allow, type), 4096);
+ if (ra_hasreg(src)) emit_lso(as, ARMI_STR, src, idx, ofs);
+ emit_lso(as, ARMI_STR, type, idx, ofs+4);
+ }
+ }
+}
+
+static void asm_sload(ASMState *as, IRIns *ir)
+{
+ int32_t ofs = 8*((int32_t)ir->op1-1) + ((ir->op2 & IRSLOAD_FRAME) ? 4 : 0);
+ int hiop = (LJ_SOFTFP && (ir+1)->o == IR_HIOP);
+ IRType t = hiop ? IRT_NUM : irt_type(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(ir->t) || !(ir->op2 & IRSLOAD_TYPECHECK));
+#if LJ_SOFTFP
+ lua_assert(!(ir->op2 & IRSLOAD_CONVERT)); /* Handled by LJ_SOFTFP SPLIT. */
+ if (hiop && ra_used(ir+1)) {
+ type = ra_dest(as, ir+1, allow);
+ rset_clear(allow, type);
+ }
+#else
+ if ((ir->op2 & IRSLOAD_CONVERT) && irt_isguard(ir->t) && t == IRT_INT) {
+ dest = ra_scratch(as, RSET_FPR);
+ asm_tointg(as, ir, dest);
+ t = IRT_NUM; /* Continue with a regular number type check. */
+ } else
+#endif
+ if (ra_used(ir)) {
+ Reg tmp = RID_NONE;
+ if ((ir->op2 & IRSLOAD_CONVERT))
+ tmp = ra_scratch(as, t == IRT_INT ? RSET_FPR : RSET_GPR);
+ lua_assert((LJ_SOFTFP ? 0 : irt_isnum(ir->t)) ||
+ irt_isint(ir->t) || irt_isaddr(ir->t));
+ dest = ra_dest(as, ir, (!LJ_SOFTFP && t == IRT_NUM) ? RSET_FPR : allow);
+ rset_clear(allow, dest);
+ base = ra_alloc1(as, REF_BASE, allow);
+ if ((ir->op2 & IRSLOAD_CONVERT)) {
+ if (t == IRT_INT) {
+ emit_dn(as, ARMI_VMOV_R_S, dest, (tmp & 15));
+ emit_dm(as, ARMI_VCVT_S32_F64, (tmp & 15), (tmp & 15));
+ t = IRT_NUM; /* Check for original type. */
+ } else {
+ emit_dm(as, ARMI_VCVT_F64_S32, (dest & 15), (dest & 15));
+ emit_dn(as, ARMI_VMOV_S_R, tmp, (dest & 15));
+ t = IRT_INT; /* Check for original type. */
+ }
+ dest = tmp;
+ }
+ goto dotypecheck;
+ }
+ base = ra_alloc1(as, REF_BASE, allow);
+dotypecheck:
+ rset_clear(allow, base);
+ if ((ir->op2 & IRSLOAD_TYPECHECK)) {
+ if (ra_noreg(type)) {
+ if (ofs < 256 && ra_hasreg(dest) && (dest & 1) == 0 &&
+ rset_test((as->freeset & allow), dest+1)) {
+ type = dest+1;
+ ra_modified(as, type);
+ } else {
+ type = RID_TMP;
+ }
+ }
+ asm_guardcc(as, t == IRT_NUM ? CC_HS : CC_NE);
+ emit_n(as, ARMI_CMN|ARMI_K12|-irt_toitype_(t), type);
+ }
+ if (ra_hasreg(dest)) {
+#if !LJ_SOFTFP
+ if (t == IRT_NUM) {
+ if (ofs < 1024) {
+ emit_vlso(as, ARMI_VLDR_D, dest, base, ofs);
+ } else {
+ if (ra_hasreg(type)) emit_lso(as, ARMI_LDR, type, base, ofs+4);
+ emit_vlso(as, ARMI_VLDR_D, dest, RID_TMP, 0);
+ emit_opk(as, ARMI_ADD, RID_TMP, base, ofs, allow);
+ return;
+ }
+ } else
+#endif
+ emit_lso(as, ARMI_LDR, dest, base, ofs);
+ }
+ if (ra_hasreg(type)) emit_lso(as, ARMI_LDR, type, base, ofs+4);
+}
+
+/* -- Allocations --------------------------------------------------------- */
+
+#if LJ_HASFFI
+static void asm_cnew(ASMState *as, IRIns *ir)
+{
+ CTState *cts = ctype_ctsG(J2G(as->J));
+ CTypeID id = (CTypeID)IR(ir->op1)->i;
+ CTSize sz;
+ CTInfo info = lj_ctype_info(cts, id, &sz);
+ const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_mem_newgco];
+ IRRef args[4];
+ RegSet allow = (RSET_GPR & ~RSET_SCRATCH);
+ RegSet drop = RSET_SCRATCH;
+ lua_assert(sz != CTSIZE_INVALID || (ir->o == IR_CNEW && ir->op2 != REF_NIL));
+
+ 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; ir++;
+ lua_assert(ir->o == IR_HIOP);
+ }
+ for (;;) {
+ Reg r = ra_alloc1(as, ir->op2, allow);
+ emit_lso(as, ARMI_STR, r, RID_RET, ofs);
+ rset_clear(allow, r);
+ if (ofs == sizeof(GCcdata)) break;
+ ofs -= 4; ir--;
+ }
+ } else if (ir->op2 != REF_NIL) { /* Create VLA/VLS/aligned cdata. */
+ ci = &lj_ir_callinfo[IRCALL_lj_cdata_newv];
+ args[0] = ASMREF_L; /* lua_State *L */
+ args[1] = ir->op1; /* CTypeID id */
+ args[2] = ir->op2; /* CTSize sz */
+ args[3] = ASMREF_TMP1; /* CTSize align */
+ asm_gencall(as, ci, args);
+ emit_loadi(as, ra_releasetmp(as, ASMREF_TMP1), (int32_t)ctype_align(info));
+ return;
+ }
+
+ /* Initialize gct and ctypeid. lj_mem_newgco() already sets marked. */
+ {
+ uint32_t k = emit_isk12(ARMI_MOV, id);
+ Reg r = k ? RID_R1 : ra_allock(as, id, allow);
+ emit_lso(as, ARMI_STRB, RID_TMP, RID_RET, offsetof(GCcdata, gct));
+ emit_lsox(as, ARMI_STRH, r, RID_RET, offsetof(GCcdata, ctypeid));
+ emit_d(as, ARMI_MOV|ARMI_K12|~LJ_TCDATA, RID_TMP);
+ if (k) emit_d(as, ARMI_MOV^k, RID_R1);
+ }
+ args[0] = ASMREF_L; /* lua_State *L */
+ args[1] = ASMREF_TMP1; /* MSize size */
+ 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 link = ra_scratch(as, rset_exclude(RSET_GPR, tab));
+ Reg gr = ra_allock(as, i32ptr(J2G(as->J)),
+ rset_exclude(rset_exclude(RSET_GPR, tab), link));
+ Reg mark = RID_TMP;
+ MCLabel l_end = emit_label(as);
+ emit_lso(as, ARMI_STR, link, tab, (int32_t)offsetof(GCtab, gclist));
+ emit_lso(as, ARMI_STRB, mark, tab, (int32_t)offsetof(GCtab, marked));
+ emit_lso(as, ARMI_STR, tab, gr,
+ (int32_t)offsetof(global_State, gc.grayagain));
+ emit_dn(as, ARMI_BIC|ARMI_K12|LJ_GC_BLACK, mark, mark);
+ emit_lso(as, ARMI_LDR, link, gr,
+ (int32_t)offsetof(global_State, gc.grayagain));
+ emit_branch(as, ARMF_CC(ARMI_B, CC_EQ), l_end);
+ emit_n(as, ARMI_TST|ARMI_K12|LJ_GC_BLACK, mark);
+ emit_lso(as, ARMI_LDRB, 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);
+ if ((l_end[-1] >> 28) == CC_AL)
+ l_end[-1] = ARMF_CC(l_end[-1], CC_NE);
+ else
+ emit_branch(as, ARMF_CC(ARMI_B, CC_EQ), l_end);
+ ra_allockreg(as, i32ptr(J2G(as->J)), ra_releasetmp(as, ASMREF_TMP1));
+ obj = IR(ir->op1)->r;
+ tmp = ra_scratch(as, rset_exclude(RSET_GPR, obj));
+ emit_n(as, ARMF_CC(ARMI_TST, CC_NE)|ARMI_K12|LJ_GC_BLACK, tmp);
+ emit_n(as, ARMI_TST|ARMI_K12|LJ_GC_WHITES, RID_TMP);
+ val = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, obj));
+ emit_lso(as, ARMI_LDRB, tmp, obj,
+ (int32_t)offsetof(GCupval, marked)-(int32_t)offsetof(GCupval, tv));
+ emit_lso(as, ARMI_LDRB, RID_TMP, val, (int32_t)offsetof(GChead, marked));
+}
+
+/* -- Arithmetic and logic operations ------------------------------------- */
+
+#if !LJ_SOFTFP
+static void asm_fparith(ASMState *as, IRIns *ir, ARMIns ai)
+{
+ Reg dest = ra_dest(as, ir, RSET_FPR);
+ Reg right, left = ra_alloc2(as, ir, RSET_FPR);
+ right = (left >> 8); left &= 255;
+ emit_dnm(as, ai, (dest & 15), (left & 15), (right & 15));
+}
+
+static void asm_fpunary(ASMState *as, IRIns *ir, ARMIns ai)
+{
+ Reg dest = ra_dest(as, ir, RSET_FPR);
+ Reg left = ra_hintalloc(as, ir->op1, dest, RSET_FPR);
+ emit_dm(as, ai, (dest & 15), (left & 15));
+}
+
+static void asm_callround(ASMState *as, IRIns *ir, int id)
+{
+ /* The modified regs must match with the *.dasc implementation. */
+ RegSet drop = RID2RSET(RID_R0)|RID2RSET(RID_R1)|RID2RSET(RID_R2)|
+ RID2RSET(RID_R3)|RID2RSET(RID_R12);
+ RegSet of;
+ Reg dest, src;
+ ra_evictset(as, drop);
+ dest = ra_dest(as, ir, RSET_FPR);
+ emit_dnm(as, ARMI_VMOV_D_RR, RID_RETLO, RID_RETHI, (dest & 15));
+ emit_call(as, id == IRFPM_FLOOR ? (void *)lj_vm_floor_sf :
+ id == IRFPM_CEIL ? (void *)lj_vm_ceil_sf :
+ (void *)lj_vm_trunc_sf);
+ /* Workaround to protect argument GPRs from being used for remat. */
+ of = as->freeset;
+ as->freeset &= ~RSET_RANGE(RID_R0, RID_R1+1);
+ as->cost[RID_R0] = as->cost[RID_R1] = REGCOST(~0u, ASMREF_L);
+ src = ra_alloc1(as, ir->op1, RSET_FPR); /* May alloc GPR to remat FPR. */
+ as->freeset |= (of & RSET_RANGE(RID_R0, RID_R1+1));
+ emit_dnm(as, ARMI_VMOV_RR_D, RID_R0, RID_R1, (src & 15));
+}
+
+static void asm_fpmath(ASMState *as, IRIns *ir)
+{
+ if (ir->op2 == IRFPM_EXP2 && asm_fpjoin_pow(as, ir))
+ return;
+ if (ir->op2 <= IRFPM_TRUNC)
+ asm_callround(as, ir, ir->op2);
+ else if (ir->op2 == IRFPM_SQRT)
+ asm_fpunary(as, ir, ARMI_VSQRT_D);
+ else
+ asm_callid(as, ir, IRCALL_lj_vm_floor + ir->op2);
+}
+#else
+#define asm_fpmath(as, ir) lua_assert(0)
+#endif
+
+static int asm_swapops(ASMState *as, IRRef lref, IRRef rref)
+{
+ IRIns *ir;
+ if (irref_isk(rref))
+ return 0; /* Don't swap constants to the left. */
+ if (irref_isk(lref))
+ return 1; /* But swap constants to the right. */
+ ir = IR(rref);
+ if ((ir->o >= IR_BSHL && ir->o <= IR_BROR) ||
+ (ir->o == IR_ADD && ir->op1 == ir->op2))
+ return 0; /* Don't swap fusable operands to the left. */
+ ir = IR(lref);
+ if ((ir->o >= IR_BSHL && ir->o <= IR_BROR) ||
+ (ir->o == IR_ADD && ir->op1 == ir->op2))
+ return 1; /* But swap fusable operands to the right. */
+ return 0; /* Otherwise don't swap. */
+}
+
+static void asm_intop(ASMState *as, IRIns *ir, ARMIns ai)
+{
+ IRRef lref = ir->op1, rref = ir->op2;
+ Reg left, dest = ra_dest(as, ir, RSET_GPR);
+ uint32_t m;
+ if (asm_swapops(as, lref, rref)) {
+ IRRef tmp = lref; lref = rref; rref = tmp;
+ if ((ai & ~ARMI_S) == ARMI_SUB || (ai & ~ARMI_S) == ARMI_SBC)
+ ai ^= (ARMI_SUB^ARMI_RSB);
+ }
+ left = ra_hintalloc(as, lref, dest, RSET_GPR);
+ m = asm_fuseopm(as, ai, rref, rset_exclude(RSET_GPR, left));
+ if (irt_isguard(ir->t)) { /* For IR_ADDOV etc. */
+ asm_guardcc(as, CC_VS);
+ ai |= ARMI_S;
+ }
+ emit_dn(as, ai^m, dest, left);
+}
+
+static void asm_intop_s(ASMState *as, IRIns *ir, ARMIns ai)
+{
+ if (as->flagmcp == as->mcp) { /* Drop cmp r, #0. */
+ as->flagmcp = NULL;
+ as->mcp++;
+ ai |= ARMI_S;
+ }
+ asm_intop(as, ir, ai);
+}
+
+static void asm_intneg(ASMState *as, IRIns *ir, ARMIns ai)
+{
+ Reg dest = ra_dest(as, ir, RSET_GPR);
+ Reg left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
+ emit_dn(as, ai|ARMI_K12|0, dest, left);
+}
+
+/* NYI: use add/shift for MUL(OV) with constants. FOLD only does 2^k. */
+static void asm_intmul(ASMState *as, IRIns *ir)
+{
+ Reg dest = ra_dest(as, ir, RSET_GPR);
+ Reg left = ra_alloc1(as, ir->op1, rset_exclude(RSET_GPR, dest));
+ Reg right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
+ Reg tmp = RID_NONE;
+ /* ARMv5 restriction: dest != left and dest_hi != left. */
+ if (dest == left && left != right) { left = right; right = dest; }
+ if (irt_isguard(ir->t)) { /* IR_MULOV */
+ if (!(as->flags & JIT_F_ARMV6) && dest == left)
+ tmp = left = ra_scratch(as, rset_exclude(RSET_GPR, left));
+ asm_guardcc(as, CC_NE);
+ emit_nm(as, ARMI_TEQ|ARMF_SH(ARMSH_ASR, 31), RID_TMP, dest);
+ emit_dnm(as, ARMI_SMULL|ARMF_S(right), dest, RID_TMP, left);
+ } else {
+ if (!(as->flags & JIT_F_ARMV6) && dest == left) tmp = left = RID_TMP;
+ emit_nm(as, ARMI_MUL|ARMF_S(right), dest, left);
+ }
+ /* Only need this for the dest == left == right case. */
+ if (ra_hasreg(tmp)) emit_dm(as, ARMI_MOV, tmp, right);
+}
+
+static void asm_add(ASMState *as, IRIns *ir)
+{
+#if !LJ_SOFTFP
+ if (irt_isnum(ir->t)) {
+ if (!asm_fusemadd(as, ir, ARMI_VMLA_D, ARMI_VMLA_D))
+ asm_fparith(as, ir, ARMI_VADD_D);
+ return;
+ }
+#endif
+ asm_intop_s(as, ir, ARMI_ADD);
+}
+
+static void asm_sub(ASMState *as, IRIns *ir)
+{
+#if !LJ_SOFTFP
+ if (irt_isnum(ir->t)) {
+ if (!asm_fusemadd(as, ir, ARMI_VNMLS_D, ARMI_VMLS_D))
+ asm_fparith(as, ir, ARMI_VSUB_D);
+ return;
+ }
+#endif
+ asm_intop_s(as, ir, ARMI_SUB);
+}
+
+static void asm_mul(ASMState *as, IRIns *ir)
+{
+#if !LJ_SOFTFP
+ if (irt_isnum(ir->t)) {
+ asm_fparith(as, ir, ARMI_VMUL_D);
+ return;
+ }
+#endif
+ asm_intmul(as, ir);
+}
+
+#define asm_addov(as, ir) asm_add(as, ir)
+#define asm_subov(as, ir) asm_sub(as, ir)
+#define asm_mulov(as, ir) asm_mul(as, ir)
+
+#if LJ_SOFTFP
+#define asm_div(as, ir) lua_assert(0)
+#define asm_pow(as, ir) lua_assert(0)
+#define asm_abs(as, ir) lua_assert(0)
+#define asm_atan2(as, ir) lua_assert(0)
+#define asm_ldexp(as, ir) lua_assert(0)
+#else
+#define asm_div(as, ir) asm_fparith(as, ir, ARMI_VDIV_D)
+#define asm_pow(as, ir) asm_callid(as, ir, IRCALL_lj_vm_powi)
+#define asm_abs(as, ir) asm_fpunary(as, ir, ARMI_VABS_D)
+#define asm_atan2(as, ir) asm_callid(as, ir, IRCALL_atan2)
+#define asm_ldexp(as, ir) asm_callid(as, ir, IRCALL_ldexp)
+#endif
+
+#define asm_mod(as, ir) asm_callid(as, ir, IRCALL_lj_vm_modi)
+
+static void asm_neg(ASMState *as, IRIns *ir)
+{
+#if !LJ_SOFTFP
+ if (irt_isnum(ir->t)) {
+ asm_fpunary(as, ir, ARMI_VNEG_D);
+ return;
+ }
+#endif
+ asm_intneg(as, ir, ARMI_RSB);
+}
+
+static void asm_bitop(ASMState *as, IRIns *ir, ARMIns ai)
+{
+ if (as->flagmcp == as->mcp) { /* Try to drop cmp r, #0. */
+ uint32_t cc = (as->mcp[1] >> 28);
+ as->flagmcp = NULL;
+ if (cc <= CC_NE) {
+ as->mcp++;
+ ai |= ARMI_S;
+ } else if (cc == CC_GE) {
+ *++as->mcp ^= ((CC_GE^CC_PL) << 28);
+ ai |= ARMI_S;
+ } else if (cc == CC_LT) {
+ *++as->mcp ^= ((CC_LT^CC_MI) << 28);
+ ai |= ARMI_S;
+ } /* else: other conds don't work with bit ops. */
+ }
+ if (ir->op2 == 0) {
+ Reg dest = ra_dest(as, ir, RSET_GPR);
+ uint32_t m = asm_fuseopm(as, ai, ir->op1, RSET_GPR);
+ emit_d(as, ai^m, dest);
+ } else {
+ /* NYI: Turn BAND !k12 into uxtb, uxth or bfc or shl+shr. */
+ asm_intop(as, ir, ai);
+ }
+}
+
+#define asm_bnot(as, ir) asm_bitop(as, ir, ARMI_MVN)
+
+static void asm_bswap(ASMState *as, IRIns *ir)
+{
+ Reg dest = ra_dest(as, ir, RSET_GPR);
+ Reg left = ra_alloc1(as, ir->op1, RSET_GPR);
+ if ((as->flags & JIT_F_ARMV6)) {
+ emit_dm(as, ARMI_REV, dest, left);
+ } else {
+ Reg tmp2 = dest;
+ if (tmp2 == left)
+ tmp2 = ra_scratch(as, rset_exclude(rset_exclude(RSET_GPR, dest), left));
+ emit_dnm(as, ARMI_EOR|ARMF_SH(ARMSH_LSR, 8), dest, tmp2, RID_TMP);
+ emit_dm(as, ARMI_MOV|ARMF_SH(ARMSH_ROR, 8), tmp2, left);
+ emit_dn(as, ARMI_BIC|ARMI_K12|256*8|255, RID_TMP, RID_TMP);
+ emit_dnm(as, ARMI_EOR|ARMF_SH(ARMSH_ROR, 16), RID_TMP, left, left);
+ }
+}
+
+#define asm_band(as, ir) asm_bitop(as, ir, ARMI_AND)
+#define asm_bor(as, ir) asm_bitop(as, ir, ARMI_ORR)
+#define asm_bxor(as, ir) asm_bitop(as, ir, ARMI_EOR)
+
+static void asm_bitshift(ASMState *as, IRIns *ir, ARMShift sh)
+{
+ if (irref_isk(ir->op2)) { /* Constant shifts. */
+ /* NYI: Turn SHL+SHR or BAND+SHR into uxtb, uxth or ubfx. */
+ /* NYI: Turn SHL+ASR into sxtb, sxth or sbfx. */
+ Reg dest = ra_dest(as, ir, RSET_GPR);
+ Reg left = ra_alloc1(as, ir->op1, RSET_GPR);
+ int32_t shift = (IR(ir->op2)->i & 31);
+ emit_dm(as, ARMI_MOV|ARMF_SH(sh, shift), dest, left);
+ } else {
+ Reg dest = ra_dest(as, ir, RSET_GPR);
+ Reg left = ra_alloc1(as, ir->op1, RSET_GPR);
+ Reg right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
+ emit_dm(as, ARMI_MOV|ARMF_RSH(sh, right), dest, left);
+ }
+}
+
+#define asm_bshl(as, ir) asm_bitshift(as, ir, ARMSH_LSL)
+#define asm_bshr(as, ir) asm_bitshift(as, ir, ARMSH_LSR)
+#define asm_bsar(as, ir) asm_bitshift(as, ir, ARMSH_ASR)
+#define asm_bror(as, ir) asm_bitshift(as, ir, ARMSH_ROR)
+#define asm_brol(as, ir) lua_assert(0)
+
+static void asm_intmin_max(ASMState *as, IRIns *ir, int cc)
+{
+ uint32_t kcmp = 0, kmov = 0;
+ Reg dest = ra_dest(as, ir, RSET_GPR);
+ Reg left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
+ Reg right = 0;
+ if (irref_isk(ir->op2)) {
+ kcmp = emit_isk12(ARMI_CMP, IR(ir->op2)->i);
+ if (kcmp) kmov = emit_isk12(ARMI_MOV, IR(ir->op2)->i);
+ }
+ if (!kmov) {
+ kcmp = 0;
+ right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
+ }
+ if (kmov || dest != right) {
+ emit_dm(as, ARMF_CC(ARMI_MOV, cc)^kmov, dest, right);
+ cc ^= 1; /* Must use opposite conditions for paired moves. */
+ } else {
+ cc ^= (CC_LT^CC_GT); /* Otherwise may swap CC_LT <-> CC_GT. */
+ }
+ if (dest != left) emit_dm(as, ARMF_CC(ARMI_MOV, cc), dest, left);
+ emit_nm(as, ARMI_CMP^kcmp, left, right);
+}
+
+#if LJ_SOFTFP
+static void asm_sfpmin_max(ASMState *as, IRIns *ir, int cc)
+{
+ const CCallInfo *ci = &lj_ir_callinfo[IRCALL_softfp_cmp];
+ RegSet drop = RSET_SCRATCH;
+ Reg r;
+ IRRef args[4];
+ args[0] = ir->op1; args[1] = (ir+1)->op1;
+ args[2] = ir->op2; args[3] = (ir+1)->op2;
+ /* __aeabi_cdcmple preserves r0-r3. */
+ if (ra_hasreg(ir->r)) rset_clear(drop, ir->r);
+ if (ra_hasreg((ir+1)->r)) rset_clear(drop, (ir+1)->r);
+ if (!rset_test(as->freeset, RID_R2) &&
+ regcost_ref(as->cost[RID_R2]) == args[2]) rset_clear(drop, RID_R2);
+ if (!rset_test(as->freeset, RID_R3) &&
+ regcost_ref(as->cost[RID_R3]) == args[3]) rset_clear(drop, RID_R3);
+ ra_evictset(as, drop);
+ ra_destpair(as, ir);
+ emit_dm(as, ARMF_CC(ARMI_MOV, cc), RID_RETHI, RID_R3);
+ emit_dm(as, ARMF_CC(ARMI_MOV, cc), RID_RETLO, RID_R2);
+ emit_call(as, (void *)ci->func);
+ for (r = RID_R0; r <= RID_R3; r++)
+ ra_leftov(as, r, args[r-RID_R0]);
+}
+#else
+static void asm_fpmin_max(ASMState *as, IRIns *ir, int cc)
+{
+ Reg dest = (ra_dest(as, ir, RSET_FPR) & 15);
+ Reg right, left = ra_alloc2(as, ir, RSET_FPR);
+ right = ((left >> 8) & 15); left &= 15;
+ if (dest != left) emit_dm(as, ARMF_CC(ARMI_VMOV_D, cc^1), dest, left);
+ if (dest != right) emit_dm(as, ARMF_CC(ARMI_VMOV_D, cc), dest, right);
+ emit_d(as, ARMI_VMRS, 0);
+ emit_dm(as, ARMI_VCMP_D, left, right);
+}
+#endif
+
+static void asm_min_max(ASMState *as, IRIns *ir, int cc, int fcc)
+{
+#if LJ_SOFTFP
+ UNUSED(fcc);
+#else
+ if (irt_isnum(ir->t))
+ asm_fpmin_max(as, ir, fcc);
+ else
+#endif
+ asm_intmin_max(as, ir, cc);
+}
+
+#define asm_min(as, ir) asm_min_max(as, ir, CC_GT, CC_HI)
+#define asm_max(as, ir) asm_min_max(as, ir, CC_LT, CC_LO)
+
+/* -- Comparisons --------------------------------------------------------- */
+
+/* Map of comparisons to flags. ORDER IR. */
+static const uint8_t asm_compmap[IR_ABC+1] = {
+ /* op FP swp int cc FP cc */
+ /* LT */ CC_GE + (CC_HS << 4),
+ /* GE x */ CC_LT + (CC_HI << 4),
+ /* LE */ CC_GT + (CC_HI << 4),
+ /* GT x */ CC_LE + (CC_HS << 4),
+ /* ULT x */ CC_HS + (CC_LS << 4),
+ /* UGE */ CC_LO + (CC_LO << 4),
+ /* ULE x */ CC_HI + (CC_LO << 4),
+ /* UGT */ CC_LS + (CC_LS << 4),
+ /* EQ */ CC_NE + (CC_NE << 4),
+ /* NE */ CC_EQ + (CC_EQ << 4),
+ /* ABC */ CC_LS + (CC_LS << 4) /* Same as UGT. */
+};
+
+#if LJ_SOFTFP
+/* FP comparisons. */
+static void asm_sfpcomp(ASMState *as, IRIns *ir)
+{
+ const CCallInfo *ci = &lj_ir_callinfo[IRCALL_softfp_cmp];
+ RegSet drop = RSET_SCRATCH;
+ Reg r;
+ IRRef args[4];
+ int swp = (((ir->o ^ (ir->o >> 2)) & ~(ir->o >> 3) & 1) << 1);
+ args[swp^0] = ir->op1; args[swp^1] = (ir+1)->op1;
+ args[swp^2] = ir->op2; args[swp^3] = (ir+1)->op2;
+ /* __aeabi_cdcmple preserves r0-r3. This helps to reduce spills. */
+ for (r = RID_R0; r <= RID_R3; r++)
+ if (!rset_test(as->freeset, r) &&
+ regcost_ref(as->cost[r]) == args[r-RID_R0]) rset_clear(drop, r);
+ ra_evictset(as, drop);
+ asm_guardcc(as, (asm_compmap[ir->o] >> 4));
+ emit_call(as, (void *)ci->func);
+ for (r = RID_R0; r <= RID_R3; r++)
+ ra_leftov(as, r, args[r-RID_R0]);
+}
+#else
+/* FP comparisons. */
+static void asm_fpcomp(ASMState *as, IRIns *ir)
+{
+ Reg left, right;
+ ARMIns ai;
+ int swp = ((ir->o ^ (ir->o >> 2)) & ~(ir->o >> 3) & 1);
+ if (!swp && irref_isk(ir->op2) && ir_knum(IR(ir->op2))->u64 == 0) {
+ left = (ra_alloc1(as, ir->op1, RSET_FPR) & 15);
+ right = 0;
+ ai = ARMI_VCMPZ_D;
+ } else {
+ left = ra_alloc2(as, ir, RSET_FPR);
+ if (swp) {
+ right = (left & 15); left = ((left >> 8) & 15);
+ } else {
+ right = ((left >> 8) & 15); left &= 15;
+ }
+ ai = ARMI_VCMP_D;
+ }
+ asm_guardcc(as, (asm_compmap[ir->o] >> 4));
+ emit_d(as, ARMI_VMRS, 0);
+ emit_dm(as, ai, left, right);
+}
+#endif
+
+/* Integer comparisons. */
+static void asm_intcomp(ASMState *as, IRIns *ir)
+{
+ ARMCC cc = (asm_compmap[ir->o] & 15);
+ IRRef lref = ir->op1, rref = ir->op2;
+ Reg left;
+ uint32_t m;
+ int cmpprev0 = 0;
+ lua_assert(irt_isint(ir->t) || irt_isu32(ir->t) || irt_isaddr(ir->t));
+ if (asm_swapops(as, lref, rref)) {
+ Reg tmp = lref; lref = rref; rref = tmp;
+ if (cc >= CC_GE) cc ^= 7; /* LT <-> GT, LE <-> GE */
+ else if (cc > CC_NE) cc ^= 11; /* LO <-> HI, LS <-> HS */
+ }
+ if (irref_isk(rref) && IR(rref)->i == 0) {
+ IRIns *irl = IR(lref);
+ cmpprev0 = (irl+1 == ir);
+ /* Combine comp(BAND(left, right), 0) into tst left, right. */
+ if (cmpprev0 && irl->o == IR_BAND && !ra_used(irl)) {
+ IRRef blref = irl->op1, brref = irl->op2;
+ uint32_t m2 = 0;
+ Reg bleft;
+ if (asm_swapops(as, blref, brref)) {
+ Reg tmp = blref; blref = brref; brref = tmp;
+ }
+ if (irref_isk(brref)) {
+ m2 = emit_isk12(ARMI_AND, IR(brref)->i);
+ if ((m2 & (ARMI_AND^ARMI_BIC)))
+ goto notst; /* Not beneficial if we miss a constant operand. */
+ }
+ if (cc == CC_GE) cc = CC_PL;
+ else if (cc == CC_LT) cc = CC_MI;
+ else if (cc > CC_NE) goto notst; /* Other conds don't work with tst. */
+ bleft = ra_alloc1(as, blref, RSET_GPR);
+ if (!m2) m2 = asm_fuseopm(as, 0, brref, rset_exclude(RSET_GPR, bleft));
+ asm_guardcc(as, cc);
+ emit_n(as, ARMI_TST^m2, bleft);
+ return;
+ }
+ }
+notst:
+ left = ra_alloc1(as, lref, RSET_GPR);
+ m = asm_fuseopm(as, ARMI_CMP, rref, rset_exclude(RSET_GPR, left));
+ asm_guardcc(as, cc);
+ emit_n(as, ARMI_CMP^m, left);
+ /* Signed comparison with zero and referencing previous ins? */
+ if (cmpprev0 && (cc <= CC_NE || cc >= CC_GE))
+ as->flagmcp = as->mcp; /* Allow elimination of the compare. */
+}
+
+static void asm_comp(ASMState *as, IRIns *ir)
+{
+#if !LJ_SOFTFP
+ if (irt_isnum(ir->t))
+ asm_fpcomp(as, ir);
+ else
+#endif
+ asm_intcomp(as, ir);
+}
+
+#define asm_equal(as, ir) asm_comp(as, ir)
+
+#if LJ_HASFFI
+/* 64 bit integer comparisons. */
+static void asm_int64comp(ASMState *as, IRIns *ir)
+{
+ int signedcomp = (ir->o <= IR_GT);
+ ARMCC cclo, cchi;
+ Reg leftlo, lefthi;
+ uint32_t mlo, mhi;
+ RegSet allow = RSET_GPR, oldfree;
+
+ /* Always use unsigned comparison for loword. */
+ cclo = asm_compmap[ir->o + (signedcomp ? 4 : 0)] & 15;
+ leftlo = ra_alloc1(as, ir->op1, allow);
+ oldfree = as->freeset;
+ mlo = asm_fuseopm(as, ARMI_CMP, ir->op2, rset_clear(allow, leftlo));
+ allow &= ~(oldfree & ~as->freeset); /* Update for allocs of asm_fuseopm. */
+
+ /* Use signed or unsigned comparison for hiword. */
+ cchi = asm_compmap[ir->o] & 15;
+ lefthi = ra_alloc1(as, (ir+1)->op1, allow);
+ mhi = asm_fuseopm(as, ARMI_CMP, (ir+1)->op2, rset_clear(allow, lefthi));
+
+ /* All register allocations must be performed _before_ this point. */
+ if (signedcomp) {
+ MCLabel l_around = emit_label(as);
+ asm_guardcc(as, cclo);
+ emit_n(as, ARMI_CMP^mlo, leftlo);
+ emit_branch(as, ARMF_CC(ARMI_B, CC_NE), l_around);
+ if (cchi == CC_GE || cchi == CC_LE) cchi ^= 6; /* GE -> GT, LE -> LT */
+ asm_guardcc(as, cchi);
+ } else {
+ asm_guardcc(as, cclo);
+ emit_n(as, ARMF_CC(ARMI_CMP, CC_EQ)^mlo, leftlo);
+ }
+ emit_n(as, ARMI_CMP^mhi, lefthi);
+}
+#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 || LJ_SOFTFP
+ /* 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_NE) { /* 64 bit integer or FP comparisons. ORDER IR. */
+ as->curins--; /* Always skip the loword comparison. */
+#if LJ_SOFTFP
+ if (!irt_isint(ir->t)) {
+ asm_sfpcomp(as, ir-1);
+ return;
+ }
+#endif
+#if LJ_HASFFI
+ asm_int64comp(as, ir-1);
+#endif
+ return;
+#if LJ_SOFTFP
+ } else if ((ir-1)->o == IR_MIN || (ir-1)->o == IR_MAX) {
+ as->curins--; /* Always skip the loword min/max. */
+ if (uselo || usehi)
+ asm_sfpmin_max(as, ir-1, (ir-1)->o == IR_MIN ? CC_HI : CC_LO);
+ return;
+#elif LJ_HASFFI
+ } else if ((ir-1)->o == IR_CONV) {
+ as->curins--; /* Always skip the CONV. */
+ if (usehi || uselo)
+ asm_conv64(as, ir);
+ return;
+#endif
+ } else if ((ir-1)->o == IR_XSTORE) {
+ if ((ir-1)->r != RID_SINK)
+ asm_xstore_(as, ir, 4);
+ return;
+ }
+ if (!usehi) return; /* Skip unused hiword op for all remaining ops. */
+ switch ((ir-1)->o) {
+#if LJ_HASFFI
+ case IR_ADD:
+ as->curins--;
+ asm_intop(as, ir, ARMI_ADC);
+ asm_intop(as, ir-1, ARMI_ADD|ARMI_S);
+ break;
+ case IR_SUB:
+ as->curins--;
+ asm_intop(as, ir, ARMI_SBC);
+ asm_intop(as, ir-1, ARMI_SUB|ARMI_S);
+ break;
+ case IR_NEG:
+ as->curins--;
+ asm_intneg(as, ir, ARMI_RSC);
+ asm_intneg(as, ir-1, ARMI_RSB|ARMI_S);
+ break;
+#endif
+#if LJ_SOFTFP
+ case IR_SLOAD: case IR_ALOAD: case IR_HLOAD: case IR_ULOAD: case IR_VLOAD:
+ case IR_STRTO:
+ if (!uselo)
+ ra_allocref(as, ir->op1, RSET_GPR); /* Mark lo op as used. */
+ break;
+#endif
+ case IR_CALLN:
+ case IR_CALLS:
+ case IR_CALLXS:
+ if (!uselo)
+ ra_allocref(as, ir->op1, RID2RSET(RID_RETLO)); /* Mark lo op as used. */
+ break;
+#if LJ_SOFTFP
+ case IR_ASTORE: case IR_HSTORE: case IR_USTORE: case IR_TOSTR:
+#endif
+ 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);
+#endif
+}
+
+/* -- Profiling ----------------------------------------------------------- */
+
+static void asm_prof(ASMState *as, IRIns *ir)
+{
+ UNUSED(ir);
+ asm_guardcc(as, CC_NE);
+ emit_n(as, ARMI_TST|ARMI_K12|HOOK_PROFILE, RID_TMP);
+ emit_lsptr(as, ARMI_LDRB, RID_TMP, (void *)&J2G(as->J)->hookmask);
+}
+
+/* -- 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)
+{
+ Reg pbase;
+ uint32_t k;
+ if (irp) {
+ if (!ra_hasspill(irp->s)) {
+ pbase = irp->r;
+ lua_assert(ra_hasreg(pbase));
+ } else if (allow) {
+ pbase = rset_pickbot(allow);
+ } else {
+ pbase = RID_RET;
+ emit_lso(as, ARMI_LDR, RID_RET, RID_SP, 0); /* Restore temp. register. */
+ }
+ } else {
+ pbase = RID_BASE;
+ }
+ emit_branch(as, ARMF_CC(ARMI_BL, CC_LS), exitstub_addr(as->J, exitno));
+ k = emit_isk12(0, (int32_t)(8*topslot));
+ lua_assert(k);
+ emit_n(as, ARMI_CMP^k, RID_TMP);
+ emit_dnm(as, ARMI_SUB, RID_TMP, RID_TMP, pbase);
+ emit_lso(as, ARMI_LDR, RID_TMP, RID_TMP,
+ (int32_t)offsetof(lua_State, maxstack));
+ if (irp) { /* Must not spill arbitrary registers in head of side trace. */
+ int32_t i = i32ptr(&J2G(as->J)->cur_L);
+ if (ra_hasspill(irp->s))
+ emit_lso(as, ARMI_LDR, pbase, RID_SP, sps_scale(irp->s));
+ emit_lso(as, ARMI_LDR, RID_TMP, RID_TMP, (i & 4095));
+ if (ra_hasspill(irp->s) && !allow)
+ emit_lso(as, ARMI_STR, RID_RET, RID_SP, 0); /* Save temp. register. */
+ emit_loadi(as, RID_TMP, (i & ~4095));
+ } else {
+ emit_getgl(as, RID_TMP, cur_L);
+ }
+}
+
+/* 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)) {
+#if LJ_SOFTFP
+ RegSet odd = rset_exclude(RSET_GPRODD, RID_BASE);
+ Reg tmp;
+ lua_assert(irref_isk(ref)); /* LJ_SOFTFP: must be a number constant. */
+ tmp = ra_allock(as, (int32_t)ir_knum(ir)->u32.lo,
+ rset_exclude(RSET_GPREVEN, RID_BASE));
+ emit_lso(as, ARMI_STR, tmp, RID_BASE, ofs);
+ if (rset_test(as->freeset, tmp+1)) odd = RID2RSET(tmp+1);
+ tmp = ra_allock(as, (int32_t)ir_knum(ir)->u32.hi, odd);
+ emit_lso(as, ARMI_STR, tmp, RID_BASE, ofs+4);
+#else
+ Reg src = ra_alloc1(as, ref, RSET_FPR);
+ emit_vlso(as, ARMI_VSTR_D, src, RID_BASE, ofs);
+#endif
+ } else {
+ RegSet odd = rset_exclude(RSET_GPRODD, RID_BASE);
+ Reg type;
+ 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, rset_exclude(RSET_GPREVEN, RID_BASE));
+ emit_lso(as, ARMI_STR, src, RID_BASE, ofs);
+ if (rset_test(as->freeset, src+1)) odd = RID2RSET(src+1);
+ }
+ if ((sn & (SNAP_CONT|SNAP_FRAME))) {
+ if (s == 0) continue; /* Do not overwrite link to previous frame. */
+ type = ra_allock(as, (int32_t)(*flinks--), odd);
+#if LJ_SOFTFP
+ } else if ((sn & SNAP_SOFTFPNUM)) {
+ type = ra_alloc1(as, ref+1, rset_exclude(RSET_GPRODD, RID_BASE));
+#endif
+ } else {
+ type = ra_allock(as, (int32_t)irt_toitype(ir->t), odd);
+ }
+ emit_lso(as, ARMI_STR, type, RID_BASE, ofs+4);
+ }
+ 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 tmp1, tmp2;
+ 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_n(as, ARMI_CMP|ARMI_K12|0, RID_RET);
+ args[0] = ASMREF_TMP1; /* global_State *g */
+ args[1] = ASMREF_TMP2; /* MSize steps */
+ asm_gencall(as, ci, args);
+ tmp1 = ra_releasetmp(as, ASMREF_TMP1);
+ tmp2 = ra_releasetmp(as, ASMREF_TMP2);
+ emit_loadi(as, tmp2, as->gcsteps);
+ /* Jump around GC step if GC total < GC threshold. */
+ emit_branch(as, ARMF_CC(ARMI_B, CC_LS), l_end);
+ emit_nm(as, ARMI_CMP, RID_TMP, tmp2);
+ emit_lso(as, ARMI_LDR, tmp2, tmp1,
+ (int32_t)offsetof(global_State, gc.threshold));
+ emit_lso(as, ARMI_LDR, RID_TMP, tmp1,
+ (int32_t)offsetof(global_State, gc.total));
+ ra_allockreg(as, i32ptr(J2G(as->J)), tmp1);
+ 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 bcc and patched the final bl. */
+ p[-2] |= ((uint32_t)(target-p) & 0x00ffffffu);
+ } else {
+ p[-1] = ARMI_B | ((uint32_t)((target-p)-1) & 0x00ffffffu);
+ }
+}
+
+/* -- Head of trace ------------------------------------------------------- */
+
+/* Reload L register from g->cur_L. */
+static void asm_head_lreg(ASMState *as)
+{
+ IRIns *ir = IR(ASMREF_L);
+ if (ra_used(ir)) {
+ Reg r = ra_dest(as, ir, RSET_GPR);
+ emit_getgl(as, r, cur_L);
+ ra_evictk(as);
+ }
+}
+
+/* Coalesce BASE register for a root trace. */
+static void asm_head_root_base(ASMState *as)
+{
+ IRIns *ir;
+ asm_head_lreg(as);
+ ir = IR(REF_BASE);
+ if (ra_hasreg(ir->r) && (rset_test(as->modset, ir->r) || irt_ismarked(ir->t)))
+ ra_spill(as, ir);
+ ra_destreg(as, ir, RID_BASE);
+}
+
+/* Coalesce BASE register for a side trace. */
+static RegSet asm_head_side_base(ASMState *as, IRIns *irp, RegSet allow)
+{
+ IRIns *ir;
+ asm_head_lreg(as);
+ ir = IR(REF_BASE);
+ if (ra_hasreg(ir->r) && (rset_test(as->modset, ir->r) || irt_ismarked(ir->t)))
+ ra_spill(as, ir);
+ if (ra_hasspill(irp->s)) {
+ rset_clear(allow, ra_dest(as, ir, allow));
+ } else {
+ Reg r = irp->r;
+ lua_assert(ra_hasreg(r));
+ rset_clear(allow, r);
+ if (r != ir->r && !rset_test(as->freeset, r))
+ ra_restore(as, regcost_ref(as->cost[r]));
+ ra_destreg(as, ir, r);
+ }
+ 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) {
+ as->mctop = --p;
+ } else {
+ /* Patch stack adjustment. */
+ uint32_t k = emit_isk12(ARMI_ADD, spadj);
+ lua_assert(k);
+ p[-2] = (ARMI_ADD^k) | ARMF_D(RID_SP) | ARMF_N(RID_SP);
+ }
+ /* Patch exit branch. */
+ target = lnk ? traceref(as->J, lnk)->mcode : (MCode *)lj_vm_exit_interp;
+ p[-1] = ARMI_B|(((target-p)-1)&0x00ffffffu);
+}
+
+/* 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-1; /* Leave room for stack pointer adjustment. */
+ as->invmcp = NULL;
+ }
+ *p = 0; /* Prevent load/store merging. */
+}
+
+/* -- 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*2];
+ uint32_t i, nargs = CCI_XNARGS(ci);
+ int nslots = 0, ngpr = REGARG_NUMGPR, nfpr = REGARG_NUMFPR, fprodd = 0;
+ asm_collectargs(as, ir, ci, args);
+ for (i = 0; i < nargs; i++) {
+ if (!LJ_SOFTFP && args[i] && irt_isfp(IR(args[i])->t)) {
+ if (!LJ_ABI_SOFTFP && !(ci->flags & CCI_VARARG)) {
+ if (irt_isnum(IR(args[i])->t)) {
+ if (nfpr > 0) nfpr--;
+ else fprodd = 0, nslots = (nslots + 3) & ~1;
+ } else {
+ if (fprodd) fprodd--;
+ else if (nfpr > 0) fprodd = 1, nfpr--;
+ else nslots++;
+ }
+ } else if (irt_isnum(IR(args[i])->t)) {
+ ngpr &= ~1;
+ if (ngpr > 0) ngpr -= 2; else nslots += 2;
+ } else {
+ if (ngpr > 0) ngpr--; else nslots++;
+ }
+ } else {
+ if (ngpr > 0) ngpr--; else nslots++;
+ }
+ }
+ if (nslots > as->evenspill) /* Leave room for args in stack slots. */
+ as->evenspill = nslots;
+ return REGSP_HINT(RID_RET);
+}
+
+static void asm_setup_target(ASMState *as)
+{
+ /* May need extra exit for asm_stack_check on side traces. */
+ 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 *cstart = NULL, *cend = p;
+ MCode *mcarea = lj_mcode_patch(J, p, 0);
+ MCode *px = exitstub_addr(J, exitno) - 2;
+ for (; p < pe; p++) {
+ /* Look for bl_cc exitstub, replace with b_cc target. */
+ uint32_t ins = *p;
+ if ((ins & 0x0f000000u) == 0x0b000000u && ins < 0xf0000000u &&
+ ((ins ^ (px-p)) & 0x00ffffffu) == 0) {
+ *p = (ins & 0xfe000000u) | (((target-p)-2) & 0x00ffffffu);
+ cend = p+1;
+ if (!cstart) cstart = p;
+ }
+ }
+ lua_assert(cstart != NULL);
+ lj_mcode_sync(cstart, cend);
+ lj_mcode_patch(J, mcarea, 1);
+}
+