ref: e3682d0bb7437dc3cbb6a6fcf8d82806d98c73da
dir: /6/isel.c/
#include <stdlib.h> #include <stdio.h> #include <inttypes.h> #include <stdarg.h> #include <inttypes.h> #include <ctype.h> #include <string.h> #include <assert.h> #include <sys/types.h> #include <sys/stat.h> #include <fcntl.h> #include <unistd.h> #include "util.h" #include "parse.h" #include "mi.h" #include "asm.h" #include "../config.h" /* forward decls */ Loc *selexpr(Isel *s, Node *n); #define Nfloatregargs 8 #define Nintregargs 6 regid floatargregs[] = { Rxmm0d, Rxmm1d, Rxmm2d, Rxmm3d, Rxmm4d, Rxmm5d, Rxmm6d, Rxmm7d, }; regid intargregs[] = {Rrdi, Rrsi, Rrdx, Rrcx, Rr8, Rr9}; #define Nfloatregrets 2 #define Nintregrets 2 regid fltretregs[] = {Rxmm0d, Rxmm1d}; regid intretregs[] = {Rrax, Rrdx}; /* used to decide which operator is appropriate * for implementing various conditional operators */ struct { AsmOp test; AsmOp jmp; AsmOp getflag; } reloptab[Numops] = { [Olnot] = {Itest, Ijz, Isetz}, /* lnot invalid for floats */ /* signed int */ [Oeq] = {Icmp, Ijz, Isetz}, [One] = {Icmp, Ijnz, Isetnz}, [Ogt] = {Icmp, Ijg, Isetg}, [Oge] = {Icmp, Ijge, Isetge}, [Olt] = {Icmp, Ijl, Isetl}, [Ole] = {Icmp, Ijle, Isetle}, /* unsigned int */ [Oueq] = {Icmp, Ijz, Isetz}, [Oune] = {Icmp, Ijnz, Isetnz}, [Ougt] = {Icmp, Ija, Iseta}, [Ouge] = {Icmp, Ijae, Isetae}, [Oult] = {Icmp, Ijb, Isetb}, [Oule] = {Icmp, Ijbe, Isetbe}, /* float */ [Ofeq] = {Icomis, Ijz, Isetz}, [Ofne] = {Icomis, Ijnz, Isetnz}, [Ofgt] = {Icomis, Ija, Iseta}, [Ofge] = {Icomis, Ijae, Isetae}, [Oflt] = {Icomis, Ijb, Isetb}, [Ofle] = {Icomis, Ijbe, Isetbe}, }; static Mode tymode(Type *t) { /* FIXME: What should the mode for, say, structs be when we have no * intention of loading /through/ the pointer? For now, we'll just say it's * the pointer mode, since we expect to address through the pointer */ t = tybase(t); switch (t->type) { case Tyflt32: return ModeF; break; case Tyflt64: return ModeD; break; default: if (isstacktype(t)) return ModeQ; switch (tysize(t)) { case 1: return ModeB; break; case 2: return ModeW; break; case 4: return ModeL; break; case 8: return ModeQ; break; } break; } return ModeNone; } static Mode tymodepart(Type *t, int is_float, size_t displacement) { assert(isstacktype(t)); size_t sz = tysize(t); if (is_float) { switch(sz - displacement) { case 4: return ModeF; break; default: return ModeD; break; } } else { switch(sz - displacement) { case 1: return ModeB; break; case 2: return ModeW; break; case 4: return ModeL; break; default: return ModeQ; break; } } } static Mode forcefltmode(Mode m) { assert(m != ModeNone); switch (m) { case ModeQ: return ModeD; case ModeD: return ModeD; default: return ModeF; } } static Mode forceintmode(Mode m) { assert(m != ModeNone); switch (m) { case ModeD: return ModeQ; case ModeF: return ModeL; default: return m; } } static Mode mode(Node *n) { if (n->type == Nexpr) return tymode(exprtype(n)); else if (n->type == Ndecl) return tymode(n->decl.type); else die("invalid node type"); return ModeNone; } static Loc * varloc(Isel *s, Node *n) { ssize_t off; Loc *l, *rip; /* we need to try getting it from the stack first, in case we * forced it to stack for addressing */ if (hthas(s->globls, n)) { rip = locphysreg(Rrip); l = locmeml(htget(s->globls, n), rip, NULL, mode(n)); } else if (hthas(s->envoff, n)) { off = ptoi(htget(s->envoff, n)); l = locmem(off, s->envp, NULL, mode(n)); } else if (hthas(s->stkoff, n)) { off = ptoi(htget(s->stkoff, n)); l = locmem(-off, locphysreg(Rrbp), NULL, mode(n)); } else if (stacknode(n)) { assert(0); } else { l = htget(s->reglocs, n); if (!l) { l = locreg(mode(n)); htput(s->reglocs, n, l); } } return l; } static Loc * loc(Isel *s, Node *n) { Node *v; Ucon *uc; Loc *l; if (n->type == Ndecl) { l = varloc(s, n); } else { switch (exprop(n)) { case Ovar: l = varloc(s, n); break; case Oucon: uc = finducon(exprtype(n), n->expr.args[0]); l = loclit(uc->id, mode(n)); break; case Olit: v = n->expr.args[0]; switch (v->lit.littype) { case Lvoid: l = NULL; break; case Lchr: l = loclit(v->lit.chrval, mode(n)); break; case Lbool: l = loclit(v->lit.boolval, mode(n)); break; case Lint: l = loclit(v->lit.intval, mode(n)); break; default: die("Literal type %s should be blob", litstr[v->lit.littype]); } break; default: die("Node %s not leaf in loc()", opstr[exprop(n)]); break; } } return l; } static Insn * mkinsnv(AsmOp op, va_list ap) { Loc *l; Insn *i; int n; static size_t insnid; n = 0; i = malloc(sizeof(Insn)); i->op = op; i->uid = insnid++; while ((l = va_arg(ap, Loc*)) != NULL) i->args[n++] = l; i->nargs = n; return i; } Insn * mkinsn(int op, ...) { va_list ap; Insn *i; va_start(ap, op); i = mkinsnv(op, ap); va_end(ap); return i; } static void g(Isel *s, int op, ...) { va_list ap; Insn *i; va_start(ap, op); i = mkinsnv(op, ap); va_end(ap); if (debugopt['i']) { printf("GEN[uid=%zd] ", i->uid); dbgiprintf(stdout, i); } lappend(&s->curbb->il, &s->curbb->ni, i); } static void movz(Isel *s, Loc *src, Loc *dst) { if (src->mode == dst->mode) g(s, Imov, src, dst, NULL); else g(s, Imovzx, src, dst, NULL); } static void load(Isel *s, Loc *a, Loc *b) { Loc *l; assert(b->type == Locreg); if (a->type == Locreg) l = locmem(0, b, NULL, a->mode); else l = a; if (isfloatmode(b->mode)) g(s, Imovs, l, b, NULL); else g(s, Imov, l, b, NULL); } static void stor(Isel *s, Loc *a, Loc *b) { Loc *l; assert(a->type == Locreg || a->type == Loclit); if (b->type == Locreg) l = locmem(0, b, NULL, b->mode); else l = b; if (isfloatmode(b->mode)) g(s, Imovs, a, l, NULL); else g(s, Imov, a, l, NULL); } /* ensures that a location is within a reg */ static Loc * newr(Isel *s, Loc *a) { Loc *r; r = locreg(a->mode); if (a->type == Locreg) { if (isfloatmode(a->mode)) g(s, Imovs, a, r, NULL); else g(s, Imov, a, r, NULL); } else { load(s, a, r); } return r; } static Loc * inr(Isel *s, Loc *a) { if (a->type == Locreg) return a; return newr(s, a); } /* ensures that a location is within a reg or an imm */ static Loc * inri(Isel *s, Loc *a) { if (a->type == Locreg || a->type == Loclit) return a; else return newr(s, a); } /* If we're testing equality, etc, it's a bit silly * to generate the test, store it to a bite, expand it * to the right width, and then test it again. Try to optimize * for these common cases. * * if we're doing the optimization to avoid * multiple tests, we want to eval the children * of the first arg, instead of the first arg * directly */ static void selcjmp(Isel *s, Node *n, Node **args) { Loc *a, *b; Loc *l1, *l2; AsmOp cond, jmp; cond = reloptab[exprop(args[0])].test; jmp = reloptab[exprop(args[0])].jmp; /* if we have a cond, we're knocking off the redundant test, * and want to eval the children */ if (cond) { a = selexpr(s, args[0]->expr.args[0]); if (args[0]->expr.nargs == 2) b = selexpr(s, args[0]->expr.args[1]); else b = a; a = newr(s, a); } else { cond = Itest; jmp = Ijnz; b = newr(s, selexpr(s, args[0])); /* cond */ a = b; } /* the jump targets will always be evaluated the same way */ l1 = loclbl(args[1]); /* if true */ l2 = loclbl(args[2]); /* if false */ g(s, cond, b, a, NULL); g(s, jmp, l1, NULL); g(s, Ijmp, l2, NULL); } /* Generate variable length jump. There are 3 case * for this: * * 1) Short list: Simple comparison sequence. * 2) Sparse list: binary search * 3) Dense list: Jump table * * If a value is not in the jump table, then the 0th * value is used. */ static void selvjmp(Isel *s, Node *n, Node **args) { } static Loc * binop(Isel *s, AsmOp op, Node *x, Node *y) { Loc *a, *b; a = selexpr(s, x); b = selexpr(s, y); a = newr(s, a); g(s, op, b, a, NULL); return a; } /* We have a few common cases to optimize here: * Oaddr(expr) * or: * Oadd( * reg, * reg||const) * * or: * Oadd( * reg, * Omul(reg, * 2 || 4 || 8))) */ static int ismergablemul(Node *n, int *r) { int v; if (exprop(n) != Omul) return 0; if (exprop(n->expr.args[1]) != Olit) return 0; if (n->expr.args[1]->expr.args[0]->type != Nlit) return 0; if (n->expr.args[1]->expr.args[0]->lit.littype != Lint) return 0; v = n->expr.args[1]->expr.args[0]->lit.intval; if (v != 2 && v != 4 && v != 8) return 0; *r = v; return 1; } static Loc * memloc(Isel *s, Node *e, Mode m) { Node **args; Loc *l, *b, *o; /* location, base, offset */ int scale; scale = 1; l = NULL; args = e->expr.args; if (exprop(e) == Oadd) { b = selexpr(s, args[0]); if (ismergablemul(args[1], &scale)) o = selexpr(s, args[1]->expr.args[0]); else o = selexpr(s, args[1]); if (b->type != Locreg) b = inr(s, b); if (o->type == Loclit) { l = locmem(scale*o->lit, b, NULL, m); } else { b = inr(s, b); o = inr(s, o); l = locmems(0, b, o, scale, m); } } else { l = selexpr(s, e); l = inr(s, l); l = locmem(0, l, NULL, m); } assert(l != NULL); return l; } static const Mode szmodes[] = { [8] = ModeQ, [4] = ModeL, [2] = ModeW, [1] = ModeB }; static void blit(Isel *s, Loc *to, Loc *from, size_t dstoff, size_t srcoff, size_t sz, size_t align) { size_t i, modesz; Loc *sp, *dp; /* pointers to src, dst */ Loc *tmp, *src, *dst; /* source memory, dst memory */ assert(szmodes[align] != ModeNone); /* make sure we have a valid alignment */ if (!sz) return; sp = inr(s, from); dp = inr(s, to); i = 0; if (align == 0) align = 8; for (modesz = align; szmodes[modesz] != ModeNone; modesz /= 2) { tmp = locreg(szmodes[modesz]); while (i + modesz <= sz) { src = locmem(i + srcoff, sp, NULL, szmodes[modesz]); dst = locmem(i + dstoff, dp, NULL, szmodes[modesz]); g(s, Imov, src, tmp, NULL); g(s, Imov, tmp, dst, NULL); i += modesz; } } } static void clear(Isel *s, Loc *val, size_t sz, size_t align) { Loc *dp, *zero, *dst; /* source memory, dst memory */ size_t modesz, i; i = 0; dp = inr(s, val); if (align == 0) align = 8; for (modesz = align; szmodes[modesz] != ModeNone; modesz /= 2) { zero = locreg(szmodes[modesz]); g(s, Ixor, zero, zero, NULL); while (i + modesz <= sz) { dst = locmem(i, dp, NULL, szmodes[modesz]); g(s, Imov, zero, dst, NULL); i += modesz; } } } static void call(Isel *s, Node *n) { AsmOp op; Node *fn; Loc *f, *e; if (exprop(n) == Ocall) { op = Icall; fn = n->expr.args[0]; assert(tybase(exprtype(fn))->type == Tycode); f = locmeml(htget(s->globls, fn), NULL, NULL, mode(fn)); } else { op = Icallind; f = selexpr(s, n->expr.args[0]); e = selexpr(s, n->expr.args[1]); g(s, Imov, e, locphysreg(Rrax), NULL); } g(s, op, f, NULL); } static void placearg(Isel *s, Node *argn, Loc *argloc, PassIn p, Loc *rsp, int vararg, size_t *nfloats, size_t *nints, size_t *argoff) { /* placearg may be called when argn is stored at argloc, but it may also be called when argloc is a small piece of argn, as in the case when small structs are being passed. In those circumstances, p is PassInSSE or PassInInt, and argn is irrelevant. Therefore, argn should not be relied on when p is PassInSSE or PassInInt. */ Loc *src, *dst; size_t a; if (p == PassInNoPref) { if (stacknode(argn)) { p = PassInMemory; } else if (!vararg && isfloatmode(argloc->mode) && *nfloats < Nfloatregargs) { p = PassInSSE; } else if (!vararg && isintmode(argloc->mode) && *nints < Nintregargs) { p = PassInInt; } else { p = PassInMemory; } } switch (p) { case PassInMemory: if (stacknode(argn)) { src = locreg(ModeQ); g(s, Ilea, argloc, src, NULL); a = tyalign(exprtype(argn)); blit(s, rsp, src, *argoff, 0, size(argn), a); *argoff += size(argn); } else { dst = locmem(*argoff, rsp, NULL, argloc->mode); argloc = inri(s, argloc); stor(s, argloc, dst); *argoff += size(argn); } break; case PassInSSE: dst = coreg(floatargregs[*nfloats], forcefltmode(argloc->mode)); argloc = inri(s, argloc); if (isfloatmode(argloc->mode)) { g(s, Imovs, argloc, dst, NULL); } else { g(s, Imov, argloc, dst, NULL); } (*nfloats)++; break; case PassInInt: dst = coreg(intargregs[*nints], forceintmode(argloc->mode)); argloc = inri(s, argloc); g(s, Imov, argloc, dst, NULL); (*nints)++; break; case PassInNoPref: /* impossible */ die("cannot determine how to pass arg"); break; } } static int sufficientregs(ArgType a, size_t nfloats, size_t nints) { static const struct { int ireg; int freg; } needed[] = { [ArgAggrI] = {1, 0}, [ArgAggrFI] = {1, 1}, [ArgAggrIF] = {1, 1}, [ArgAggrII] = {2, 0}, [ArgAggrFF] = {0, 2}, }; return (needed[a].freg + nfloats <= Nfloatregargs) && (needed[a].ireg + nints <= Nintregargs); } static Loc * plus8(Isel *s, Loc *base) { Loc *forcedreg = locreg(ModeQ); if (base->type == Loclbl || (base->type == Locmeml && !base->mem.base)) { forcedreg = loclitl(base->lbl); } else { g(s, Ilea, base, forcedreg, NULL); } return locmem(8, forcedreg, NULL, ModeQ); } static void gencall(Isel *s, Node *n) { Loc *arg; /* values we reduced */ size_t argsz, argoff, nargs, falseargs, vasplit; size_t nfloats, nints; Loc *retloc1, *retloc2, *rsp; /* hard-coded registers */ Loc *ret; size_t ri, rf; Loc *stkbump; /* calculated stack offset */ Type *t, *fn; Node **args; Node *retnode; ArgType rettype; size_t i; int vararg; rsp = locphysreg(Rrsp); t = exprtype(n); ri = 0; rf = 0; retloc1 = NULL; retloc2 = NULL; rettype = classify(t); switch (rettype) { case ArgVoid: case ArgBig: break; case ArgReg: retloc1 = coreg((istyfloat(t)) ? Rxmm0d : Rrax, mode(n)); break; case ArgAggrI: retloc1 = coreg(intretregs[ri++], tymodepart(t, 0, 0)); break; case ArgAggrF: retloc1 = coreg(fltretregs[rf++], tymodepart(t, 1, 0)); break; case ArgAggrII: retloc1 = coreg(intretregs[ri++], tymodepart(t, 0, 0)); retloc2 = coreg(intretregs[ri++], tymodepart(t, 0, 8)); break; case ArgAggrIF: retloc1 = coreg(intretregs[ri++], tymodepart(t, 0, 0)); retloc2 = coreg(fltretregs[rf++], tymodepart(t, 1, 8)); break; case ArgAggrFI: retloc1 = coreg(fltretregs[rf++], tymodepart(t, 1, 0)); retloc2 = coreg(intretregs[ri++], tymodepart(t, 0, 8)); break; case ArgAggrFF: retloc1 = coreg(fltretregs[rf++], tymodepart(t, 1, 0)); retloc2 = coreg(fltretregs[rf++], tymodepart(t, 1, 8)); break; } fn = tybase(exprtype(n->expr.args[0])); /* calculate the number of args we expect to see, adjust * for a hidden return argument. */ vasplit = countargs(fn); argsz = 0; /* * { the function itself, [optional environment], [optional return information], real arg 1, ... } */ falseargs = 1; if (exprop(n) == Ocallind) { falseargs++; } if (rettype != ArgVoid) { retnode = n->expr.args[falseargs]; if (rettype != ArgBig) { falseargs++; } } args = &n->expr.args[falseargs]; nargs = n->expr.nargs - falseargs; /* Have to calculate the amount to bump the stack * pointer by in one pass first, otherwise if we push * one at a time, we evaluate the args in reverse order. * Not good. * * Skip the first operand, since it's the function itself * * Strictly speaking, we might waste a little space here, * since some of these args might actually get passed in * registers. */ for (i = 0; i < nargs; i++) { argsz = align(argsz, min(size(args[i]), Ptrsz)); argsz += size(args[i]); argsz = align(argsz, 8); } argsz = align(argsz, 16); stkbump = loclit(argsz, ModeQ); if (argsz) g(s, Isub, stkbump, rsp, NULL); /* Now, we can evaluate the arguments */ argoff = 0; nfloats = 0; nints = 0; vararg = 0; for (i = 0; i < nargs; i++) { arg = selexpr(s, args[i]); t = exprtype(args[i]); argoff = alignto(argoff, t); ArgType a = ArgBig; if (i >= vasplit) vararg = 1; else argoff = align(argoff, 8); if (!vararg) { a = classify(t); } if (!sufficientregs(a, nfloats, nints)) { a = ArgBig; } switch(a) { case ArgVoid: break; case ArgReg: case ArgBig: /* placearg can figure this out */ placearg(s, args[i], arg, PassInNoPref, rsp, vararg, &nfloats, &nints, &argoff); break; case ArgAggrI: placearg(s, args[i], arg, PassInInt, rsp, vararg, &nfloats, &nints, &argoff); break; case ArgAggrF: placearg(s, args[i], arg, PassInSSE, rsp, vararg, &nfloats, &nints, &argoff); break; case ArgAggrII: placearg(s, args[i], arg , PassInInt, rsp, vararg, &nfloats, &nints, &argoff); placearg(s, args[i], plus8(s, arg), PassInInt, rsp, vararg, &nfloats, &nints, &argoff); break; case ArgAggrIF: placearg(s, args[i], arg , PassInInt, rsp, vararg, &nfloats, &nints, &argoff); placearg(s, args[i], plus8(s, arg), PassInSSE, rsp, vararg, &nfloats, &nints, &argoff); break; case ArgAggrFI: placearg(s, args[i], arg , PassInSSE, rsp, vararg, &nfloats, &nints, &argoff); placearg(s, args[i], plus8(s, arg), PassInInt, rsp, vararg, &nfloats, &nints, &argoff); break; case ArgAggrFF: placearg(s, args[i], arg , PassInSSE, rsp, vararg, &nfloats, &nints, &argoff); placearg(s, args[i], plus8(s, arg), PassInSSE, rsp, vararg, &nfloats, &nints, &argoff); break; } } call(s, n); if (argsz) g(s, Iadd, stkbump, rsp, NULL); switch (rettype) { case ArgVoid: case ArgBig: /* * No need to do anything. The return location, if any, was taken care of * as the hidden argument. */ break; case ArgReg: /* retnode is the actual thing we're storing in */ ret = varloc(s, retnode); if (isfloatmode(retloc1->mode)) g(s, Imovs, retloc1, ret, NULL); else g(s, Imov, retloc1, ret, NULL); break; case ArgAggrI: g(s, Imov, retloc1, locmem(0, inri(s, selexpr(s, retnode)), NULL, ModeQ), NULL); break; case ArgAggrF: g(s, Imovs, retloc1, locmem(0, inri(s, selexpr(s, retnode)), NULL, ModeD), NULL); break; case ArgAggrII: g(s, Imov, retloc1, locmem(0, inri(s, selexpr(s, retnode)), NULL, ModeQ), NULL); g(s, Imov, retloc2, locmem(8, inri(s, selexpr(s, retnode)), NULL, ModeQ), NULL); break; case ArgAggrIF: g(s, Imov, retloc1, locmem(0, inri(s, selexpr(s, retnode)), NULL, ModeQ), NULL); g(s, Imovs, retloc2, locmem(8, inri(s, selexpr(s, retnode)), NULL, ModeD), NULL); break; case ArgAggrFI: g(s, Imovs, retloc1, locmem(0, inri(s, selexpr(s, retnode)), NULL, ModeD), NULL); g(s, Imov, retloc2, locmem(8, inri(s, selexpr(s, retnode)), NULL, ModeQ), NULL); break; case ArgAggrFF: g(s, Imovs, retloc1, locmem(0, inri(s, selexpr(s, retnode)), NULL, ModeD), NULL); g(s, Imovs, retloc2, locmem(8, inri(s, selexpr(s, retnode)), NULL, ModeD), NULL); break; } } static Loc* rolop(Isel *s, Node *n, Node *l, Node *r) { int64_t lv, rv; Type *ty; ty = tybase(exprtype(n)); if (!istyunsigned(ty)) return NULL; if (exprop(l) != Obsl && exprop(l) != Obsr) return NULL; if (exprop(r) != Obsl && exprop(r) != Obsr) return NULL; if (exprop(r) == exprop(l)) return NULL; if (exprop(l->expr.args[0]) != Ovar) return NULL; if (exprop(r->expr.args[0]) != Ovar) return NULL; if (l->expr.args[0]->expr.did != r->expr.args[0]->expr.did) return NULL; if (exprop(l->expr.args[1]) != Olit) return NULL; if (l->expr.args[1]->expr.args[0]->type != Nlit) return NULL; if (l->expr.args[1]->expr.args[0]->lit.littype != Lint) return NULL; lv = l->expr.args[1]->expr.args[0]->lit.intval; if (exprop(r->expr.args[1]) != Olit) return NULL; if (r->expr.args[1]->expr.args[0]->type != Nlit) return NULL; if (r->expr.args[1]->expr.args[0]->lit.littype != Lint) return NULL; rv = r->expr.args[1]->expr.args[0]->lit.intval; if (lv + rv != 8*size(n)) return NULL; if (exprop(l) == Obsl) return binop(s, Irol, l->expr.args[0], l->expr.args[1]); else return binop(s, Irol, r->expr.args[0], r->expr.args[1]); } Loc * selexpr(Isel *s, Node *n) { Loc *a, *b, *c, *d, *r; Loc *edx, *cl; /* x86 wants some hard-coded regs */ Node **args; size_t al; Op op; args = n->expr.args; edx = locphysreg(Redx); cl = locphysreg(Rcl); r = NULL; switch (exprop(n)) { case Oadd: r = binop(s, Iadd, args[0], args[1]); break; case Osub: r = binop(s, Isub, args[0], args[1]); break; case Oband: r = binop(s, Iand, args[0], args[1]); break; case Obxor: r = binop(s, Ixor, args[0], args[1]); break; case Obor: r = rolop(s, n, args[0], args[1]); if (!r) r = binop(s, Ior, args[0], args[1]); break; case Omul: if (size(args[0]) == 1) { a = selexpr(s, args[0]); b = inr(s, selexpr(s, args[1])); c = locphysreg(Ral); r = locreg(a->mode); g(s, Imov, a, c, NULL); g(s, Iimul_r, b, NULL); g(s, Imov, c, r, NULL); } else { r = binop(s, Iimul, args[0], args[1]); } break; case Odiv: case Omod: /* these get clobbered by the div insn */ a = selexpr(s, args[0]); b = selexpr(s, args[1]); b = newr(s, b); c = coreg(Reax, mode(n)); r = locreg(a->mode); g(s, Imov, a, c, NULL); if (istysigned(exprtype(args[0]))) { switch (r->mode) { case ModeB: g(s, Imovsx, c, coreg(Rrax, ModeW), NULL); break; case ModeW: g(s, Icwd, NULL); break; case ModeL: g(s, Icdq, NULL); break; case ModeQ: g(s, Icqo, NULL); break; default: die("invalid mode in division"); break; } g(s, Iidiv, b, NULL); } else { if (r->mode == ModeB) g(s, Ixor, locphysreg(Rah), locphysreg(Rah), NULL); else g(s, Ixor, edx, edx, NULL); g(s, Idiv, b, NULL); } if (exprop(n) == Odiv) d = coreg(Reax, mode(n)); else if (r->mode != ModeB) d = coreg(Redx, mode(n)); else d = locphysreg(Rah); g(s, Imov, d, r, NULL); break; case Oneg: r = selexpr(s, args[0]); r = newr(s, r); g(s, Ineg, r, NULL); break; /* fp expressions */ case Ofadd: r = binop(s, Iadds, args[0], args[1]); break; case Ofsub: r = binop(s, Isubs, args[0], args[1]); break; case Ofmul: r = binop(s, Imuls, args[0], args[1]); break; case Ofdiv: r = binop(s, Idivs, args[0], args[1]); break; case Ofneg: r = selexpr(s, args[0]); r = newr(s, r); a = NULL; b = NULL; if (mode(args[0]) == ModeF) { a = locreg(ModeF); b = loclit(1LL << (31), ModeF); g(s, Imovs, r, a, NULL); } else if (mode(args[0]) == ModeD) { a = locreg(ModeQ); b = loclit(1LL << 63, ModeQ); g(s, Imov, r, a, NULL); } g(s, Ixor, b, a, NULL); g(s, Imov, a, r, NULL); break; case Obsl: case Obsr: a = newr(s, selexpr(s, args[0])); b = selexpr(s, args[1]); if (b->type == Loclit) { d = b; } else { c = coreg(Rcl, b->mode); g(s, Imov, b, c, NULL); d = cl; } if (exprop(n) == Obsr) { if (istysigned(n->expr.type)) g(s, Isar, d, a, NULL); else g(s, Ishr, d, a, NULL); } else { g(s, Ishl, d, a, NULL); } r = a; break; case Obnot: r = selexpr(s, args[0]); r = newr(s, r); g(s, Inot, r, NULL); break; case Oderef: r = memloc(s, args[0], mode(n)); break; case Oaddr: a = selexpr(s, args[0]); if (a->type == Loclbl || (a->type == Locmeml && !a->mem.base)) { r = loclitl(a->lbl); } else { r = locreg(ModeQ); g(s, Ilea, a, r, NULL); } break; case Olnot: a = newr(s, selexpr(s, args[0])); b = locreg(ModeB); r = locreg(mode(n)); /* lnot only valid for integer-like values */ g(s, reloptab[exprop(n)].test, a, a, NULL); g(s, reloptab[exprop(n)].getflag, b, NULL); movz(s, b, r); break; case Oeq: case One: case Ogt: case Oge: case Olt: case Ole: case Ofeq: case Ofne: case Ofgt: case Ofge: case Oflt: case Ofle: case Oueq: case Oune: case Ougt: case Ouge: case Oult: case Oule: a = selexpr(s, args[0]); b = selexpr(s, args[1]); a = newr(s, a); c = locreg(ModeB); r = locreg(mode(n)); g(s, reloptab[exprop(n)].test, b, a, NULL); g(s, reloptab[exprop(n)].getflag, c, NULL); movz(s, c, r); return r; case Oasn: /* relabel */ die("Unimplemented op %s", opstr[exprop(n)]); break; case Oset: op = exprop(args[0]); assert(op == Ovar || op == Oderef || op == Ogap); assert(!stacknode(args[0])); if (op == Ogap) break; b = selexpr(s, args[1]); if (exprop(args[0]) == Oderef) a = memloc(s, args[0]->expr.args[0], mode(n)); else a = selexpr(s, args[0]); b = inri(s, b); if (isfloatmode(b->mode)) g(s, Imovs, b, a, NULL); else g(s, Imov, b, a, NULL); r = b; break; case Ocall: case Ocallind: gencall(s, n); break; case Oret: a = locstrlbl(s->cfg->end->lbls[0]); g(s, Ijmp, a, NULL); break; case Ojmp: g(s, Ijmp, loclbl(args[0]), NULL); break; case Ocjmp: selcjmp(s, n, args); break; case Ovjmp: selvjmp(s, n, args); break; case Oucon: assert(isenum(tybase(exprtype(n)))); /* fallthrough */ case Olit: r = loc(s, n); break; case Ovar: if (isconstfn(n)) { r = locreg(ModeQ); a = loc(s, n); g(s, Ilea, a, r, NULL); } else { r = loc(s, n); } break; case Ogap: break; case Oblit: a = selexpr(s, args[0]); r = selexpr(s, args[1]); al = alignto(1, args[0]->expr.type->sub[0]); blit(s, a, r, 0, 0, args[2]->expr.args[0]->lit.intval, al); break; case Oclear: a = selexpr(s, args[0]); clear(s, a, args[1]->expr.args[0]->lit.intval, 0); break; /* cast operators that actually modify the values */ case Otrunc: a = selexpr(s, args[0]); a = inr(s, a); r = locreg(mode(n)); g(s, Imov, a, r, NULL); break; case Ozwiden: a = selexpr(s, args[0]); a = inr(s, a); r = locreg(mode(n)); movz(s, a, r); break; case Oswiden: a = selexpr(s, args[0]); a = inr(s, a); r = locreg(mode(n)); g(s, Imovsx, a, r, NULL); break; case Oint2flt: a = selexpr(s, args[0]); a = inr(s ,a); r = locreg(mode(n)); g(s, Icvttsi2sd, a, r, NULL); break; case Oflt2int: a = selexpr(s, args[0]); a = inr(s ,a); r = locreg(mode(n)); g(s, Icvttsd2si, a, r, NULL); break; case Oflt2flt: a = selexpr(s, args[0]); r = locreg(mode(n)); if (a->mode == ModeD) g(s, Icvttsd2ss, a, r, NULL); else g(s, Icvttss2sd, a, r, NULL); break; case Odead: case Oundef: case Odef: /* nothing */ break; /* These operators should never show up in the reduced trees, * since they should have been replaced with more primitive * expressions by now */ case Obad: case Oauto: case Opreinc: case Opostinc: case Opredec: case Otern: case Opostdec: case Olor: case Oland: case Oaddeq: case Osubeq: case Omuleq: case Odiveq: case Omodeq: case Oboreq: case Obandeq: case Obxoreq: case Obsleq: case Obsreq: case Omemb: case Oslbase: case Osllen: case Ocast: case Outag: case Oudata: case Otup: case Oarr: case Ostruct: case Oslice: case Oidx: case Osize: case Otupget: case Otupmemb: case Obreak: case Ocontinue: case Numops: dumpn(n, stdout); die("Should not see %s in isel", opstr[exprop(n)]); break; } return r; } static void isel(Isel *s, Node *n) { switch (n->type) { case Nexpr: selexpr(s, n); break; case Ndecl: break; default: die("Bad node type in isel()"); break; } } /* %rax is for int returns, %xmm0d is for floating returns */ Reg savedregs[] = { Rr12, Rr13, Rr14, Rr15, Rnone }; static void movearg(Isel *s, Loc *dst, PassIn p, Mode m, size_t *nfloats, size_t *nints, size_t *argoff) { Loc *a; assert(m != ModeNone); switch(p) { case PassInInt: a = coreg(intargregs[*nints], forceintmode(m)); g(s, Imov, a, dst, NULL); (*nints)++; break; case PassInSSE: a = coreg(floatargregs[*nfloats], forcefltmode(m)); g(s, Imovs, a, dst, NULL); (*nfloats)++; break; default: /* no need to move if on stack */ break; } } static void retrievearg(Isel *s, Node *argn, int vararg, size_t *nfloats, size_t *nints, size_t *argoff) { Loc *l; if (stacknode(argn)) { htput(s->stkoff, argn, itop(-(*argoff + 2*Ptrsz))); *argoff += size(argn); } else if (!vararg && isfloatmode(mode(argn)) && *nfloats < Nfloatregargs) { l = loc(s, argn); movearg(s, l, PassInSSE, forcefltmode(mode(argn)), nfloats, nints, argoff); htput(s->reglocs, argn, l); } else if (!vararg && isintmode(mode(argn)) && *nints < Nintregargs) { l = loc(s, argn); movearg(s, l, PassInInt, forceintmode(mode(argn)), nfloats, nints, argoff); htput(s->reglocs, argn, l); } else if (tybase(decltype(argn))->type != Tyvoid) { /* varargs go on the stack */ htput(s->stkoff, argn, itop(-(*argoff + 2*Ptrsz))); *argoff += size(argn); } } void addarglocs(Isel *s, Func *fn) { size_t i, nints, nfloats, nargs; size_t argoff; int vararg; Node *arg; Type *t; argoff = 0; nfloats = 0; nints = 0; vararg = 0; nargs = countargs(fn->type); for (i = 0; i < fn->nargs; i++) { arg = fn->args[i]; t = decltype(arg); argoff = alignto(argoff, t); ArgType a = ArgBig; Loc *l = NULL; if (i >= nargs) vararg = 1; else argoff = align(argoff, 8); if (!vararg) { a = classify(t); } if (!sufficientregs(a, nfloats, nints)) { a = ArgBig; } switch(a) { case ArgVoid: break; case ArgReg: case ArgBig: /* retrievearg can figure this out */ retrievearg(s, arg, vararg, &nfloats, &nints, &argoff); break; case ArgAggrI: l = loc(s, arg); movearg(s, l, PassInInt, ModeQ, &nfloats, &nints, &argoff); break; case ArgAggrF: l = loc(s, arg); movearg(s, l, PassInSSE, ModeD, &nfloats, &nints, &argoff); break; case ArgAggrII: l = loc(s, arg); movearg(s, l , PassInInt, ModeQ, &nfloats, &nints, &argoff); movearg(s, plus8(s, l), PassInInt, ModeQ, &nfloats, &nints, &argoff); break; case ArgAggrIF: l = loc(s, arg); movearg(s, l , PassInInt, ModeQ, &nfloats, &nints, &argoff); movearg(s, plus8(s, l), PassInSSE, ModeD, &nfloats, &nints, &argoff); break; case ArgAggrFI: l = loc(s, arg); movearg(s, l , PassInSSE, ModeD, &nfloats, &nints, &argoff); movearg(s, plus8(s, l), PassInInt, ModeQ, &nfloats, &nints, &argoff); break; case ArgAggrFF: l = loc(s, arg); movearg(s, l , PassInSSE, ModeD, &nfloats, &nints, &argoff); movearg(s, plus8(s, l), PassInSSE, ModeD, &nfloats, &nints, &argoff); break; } } } static void prologue(Isel *s, Func *fn, size_t sz) { Loc *rsp; Loc *rbp; Loc *stksz; Loc *phys; size_t i; rsp = locphysreg(Rrsp); rbp = locphysreg(Rrbp); stksz = loclit(sz, ModeQ); /* enter function */ g(s, Ipush, rbp, NULL); g(s, Imov, rsp, rbp, NULL); g(s, Isub, stksz, rsp, NULL); /* save registers */ for (i = 0; savedregs[i] != Rnone; i++) { phys = locphysreg(savedregs[i]); s->calleesave[i] = locreg(phys->mode); if (isfloatmode(phys->mode)) { g(s, Imovs, phys, s->calleesave[i], NULL); } else { g(s, Imov, phys, s->calleesave[i], NULL); } } if (s->envp) g(s, Imov, locphysreg(Rrax), s->envp, NULL); addarglocs(s, fn); s->nsaved = i; s->stksz = stksz; /* need to update if we spill */ } static void epilogue(Isel *s) { Loc *rsp, *rbp; Loc *ret; size_t i; size_t ri = 0, rf = 0; rsp = locphysreg(Rrsp); rbp = locphysreg(Rrbp); switch (s->rettype) { case ArgVoid: break; case ArgReg: /* s->ret is a value, and will be returned that way */ ret = loc(s, s->ret); if (istyfloat(exprtype(s->ret))) g(s, Imovs, ret, coreg(Rxmm0d, ret->mode), NULL); else g(s, Imov, ret, coreg(Rax, ret->mode), NULL); break; case ArgBig: /* s->ret is an address, and will be returned that way */ ret = loc(s, s->ret); g(s, Imov, ret, coreg(Rax, ret->mode), NULL); break; case ArgAggrI: /* s->ret is an address, and will be returned as values */ ret = loc(s, s->ret); load(s, locmem(0, ret, NULL, ModeQ), coreg(intretregs[ri++], ModeQ)); break; case ArgAggrF: ret = loc(s, s->ret); load(s, locmem(0, ret, NULL, ModeD), coreg(fltretregs[rf++], ModeD)); break; case ArgAggrII: ret = loc(s, s->ret); load(s, locmem(0, ret, NULL, ModeQ), coreg(intretregs[ri++], ModeQ)); load(s, locmem(8, ret, NULL, ModeQ), coreg(intretregs[ri++], ModeQ)); break; case ArgAggrIF: ret = loc(s, s->ret); load(s, locmem(0, ret, NULL, ModeQ), coreg(intretregs[ri++], ModeQ)); load(s, locmem(8, ret, NULL, ModeD), coreg(fltretregs[rf++], ModeD)); break; case ArgAggrFI: ret = loc(s, s->ret); load(s, locmem(0, ret, NULL, ModeD), coreg(fltretregs[rf++], ModeD)); load(s, locmem(8, ret, NULL, ModeQ), coreg(intretregs[ri++], ModeQ)); break; case ArgAggrFF: ret = loc(s, s->ret); load(s, locmem(0, ret, NULL, ModeD), coreg(fltretregs[rf++], ModeD)); load(s, locmem(8, ret, NULL, ModeD), coreg(fltretregs[rf++], ModeD)); break; } /* restore registers */ for (i = 0; savedregs[i] != Rnone; i++) if (isfloatmode(s->calleesave[i]->mode)) g(s, Imovs, s->calleesave[i], locphysreg(savedregs[i]), NULL); else g(s, Imov, s->calleesave[i], locphysreg(savedregs[i]), NULL); /* leave function */ g(s, Imov, rbp, rsp, NULL); g(s, Ipop, rbp, NULL); g(s, Iret, NULL); } static Asmbb * mkasmbb(Bb *bb) { Asmbb *as; if (!bb) return NULL; as = zalloc(sizeof(Asmbb)); as->id = bb->id; as->pred = bsdup(bb->pred); as->succ = bsdup(bb->succ); as->lbls = memdup(bb->lbls, bb->nlbls*sizeof(char*)); as->nlbls = bb->nlbls; return as; } static void handlesmallstructargs(Isel *is, Func *fn) { /* * Perform a last-minute adjustment to fn->stksz to handle small structs * that will be passed in registers. We do this inside selfunc so that * generics will be specialized. */ size_t vasplit = countargs(fn->type); size_t i = 0; Type *t; Node *arg; for (i = 0; i < fn->nargs; i++) { arg = fn->args[i]; t = decltype(arg); int vararg = 0; ArgType a = ArgBig; if (i >= vasplit) vararg = 1; if (!vararg) { a = classify(t); } switch(a) { case ArgVoid: case ArgReg: case ArgBig: /* No need for any extra space for this arg */ break; case ArgAggrI: case ArgAggrF: fn->stksz += 8; fn->stksz = align(fn->stksz, min(8, Ptrsz)); htput(fn->stkoff, fn->args[i], itop(fn->stksz)); break; case ArgAggrII: case ArgAggrIF: case ArgAggrFI: case ArgAggrFF: fn->stksz += 16; fn->stksz = align(fn->stksz, min(16, Ptrsz)); htput(fn->stkoff, fn->args[i], itop(fn->stksz)); break; } } } void selfunc(Isel *is, Func *fn, Htab *globls, Htab *strtab) { int fileid, lastline; Node *n; Bb *bb; size_t i, j; char buf[128]; char *path; for (i = 0; i < fn->cfg->nbb; i++) lappend(&is->bb, &is->nbb, mkasmbb(fn->cfg->bb[i])); is->curbb = is->bb[0]; fileid = fn->loc.file; if (fileid >= 0 && fn->loc.line > 0) { path = file.files[fileid]; bprintf(buf, sizeof buf, "%s/%s:%d", is->cwd, path, fn->loc.line); g(is, Icomment, locstrlbl(buf), NULL); bprintf(buf, sizeof buf, "%zd %d", fileid + 1, fn->loc.line); g(is, Iloc, locstrlbl(buf), NULL); } handlesmallstructargs(is, fn); prologue(is, fn, fn->stksz); lastline = -1; for (j = 0; j < fn->cfg->nbb - 1; j++) { is->curbb = is->bb[j]; if (!is->bb[j]) continue; bb = fn->cfg->bb[j]; for (i = 0; i < bb->nnl; i++) { /* put in a comment that says where this line comes from */ n = bb->nl[i]; fileid = n->loc.file; if (n->loc.file >= 0 && n->loc.line != -1 && n->loc.line != lastline) { lastline = n->loc.line; path = file.files[fileid]; bprintf(buf, sizeof buf, "%s/%s:%d", is->cwd, path, n->loc.line); g(is, Icomment, locstrlbl(buf), NULL); bprintf(buf, sizeof buf, "%zd %d", fileid + 1, n->loc.line); g(is, Iloc, locstrlbl(buf), NULL); } isel(is, fn->cfg->bb[j]->nl[i]); } } is->curbb = is->bb[is->nbb - 1]; epilogue(is); peep(is); regalloc(is); is->stksz->lit = align(is->stksz->lit, 16); }