ref: 005ab9c7832c3241eecdfe0ba122b129ee8946e1
dir: /6/ra.c/
#define _GNU_SOURCE #include <stdlib.h> #include <stdio.h> #include <inttypes.h> #include <stdarg.h> #include <assert.h> #include <limits.h> #include <string.h> #include "util.h" #include "parse.h" #include "mi.h" #include "asm.h" #define Sizetbits (CHAR_BIT*sizeof(size_t)) /* used in graph reprs */ typedef struct Usemap Usemap; struct Usemap { int l[Nreg + 1]; /* location of arg used in instruction's arg list */ int r[Nreg + 1]; /* list of registers used implicitly by instruction */ }; void wlprint(FILE *fd, char *name, Loc **wl, size_t nwl); static int moverelated(Isel *s, regid n); static void printedge(FILE *fd, char *msg, size_t a, size_t b); /* tables of uses/defs by instruction */ Usemap usetab[] = { #define Def(...) #define Use(...) {__VA_ARGS__} #define Insn(i, gasfmt, p9fmt, use, def) use, #include "insns.def" #undef Insn #undef Use #undef Def }; Usemap deftab[] = { #define Use(...) #define Def(...) {__VA_ARGS__} #define Insn(i, gasfmt, p9fmt, use, def) def, #include "insns.def" #undef Insn #undef Def #undef Use }; /* A map of which registers interfere */ #define Northogonal 32 Reg regmap[Northogonal][Nmode] = { /* None, ModeB, ModeW, ModeL, ModeQ, ModeF, ModeD */ [0] = {Rnone, Ral, Rax, Reax, Rrax, Rnone, Rnone}, [1] = {Rnone, Rcl, Rcx, Recx, Rrcx, Rnone, Rnone}, [2] = {Rnone, Rdl, Rdx, Redx, Rrdx, Rnone, Rnone}, [3] = {Rnone, Rbl, Rbx, Rebx, Rrbx, Rnone, Rnone}, [4] = {Rnone, Rsil, Rsi, Resi, Rrsi, Rnone, Rnone}, [5] = {Rnone, Rdil, Rdi, Redi, Rrdi, Rnone, Rnone}, [6] = {Rnone, Rr8b, Rr8w, Rr8d, Rr8, Rnone, Rnone}, [7] = {Rnone, Rr9b, Rr9w, Rr9d, Rr9, Rnone, Rnone}, [8] = {Rnone, Rr10b, Rr10w, Rr10d, Rr10, Rnone, Rnone}, [9] = {Rnone, Rr11b, Rr11w, Rr11d, Rr11, Rnone, Rnone}, [10] = {Rnone, Rr12b, Rr12w, Rr12d, Rr12, Rnone, Rnone}, [11] = {Rnone, Rr13b, Rr13w, Rr13d, Rr13, Rnone, Rnone}, [12] = {Rnone, Rr14b, Rr14w, Rr14d, Rr14, Rnone, Rnone}, [13] = {Rnone, Rr15b, Rr15w, Rr15d, Rr15, Rnone, Rnone}, [14] = {Rnone, Rnone, Rnone, Rnone, Rnone, Rnone, Rnone}, [15] = {Rnone, Rnone, Rnone, Rnone, Rnone, Rnone, Rnone}, [16] = {Rnone, Rnone, Rnone, Rnone, Rnone, Rxmm0f, Rxmm0d}, [17] = {Rnone, Rnone, Rnone, Rnone, Rnone, Rxmm1f, Rxmm1d}, [18] = {Rnone, Rnone, Rnone, Rnone, Rnone, Rxmm2f, Rxmm2d}, [19] = {Rnone, Rnone, Rnone, Rnone, Rnone, Rxmm3f, Rxmm3d}, [20] = {Rnone, Rnone, Rnone, Rnone, Rnone, Rxmm4f, Rxmm4d}, [21] = {Rnone, Rnone, Rnone, Rnone, Rnone, Rxmm5f, Rxmm5d}, [22] = {Rnone, Rnone, Rnone, Rnone, Rnone, Rxmm6f, Rxmm6d}, [23] = {Rnone, Rnone, Rnone, Rnone, Rnone, Rxmm7f, Rxmm7d}, [24] = {Rnone, Rnone, Rnone, Rnone, Rnone, Rxmm8f, Rxmm8d}, [25] = {Rnone, Rnone, Rnone, Rnone, Rnone, Rxmm9f, Rxmm9d}, [26] = {Rnone, Rnone, Rnone, Rnone, Rnone, Rxmm10f, Rxmm10d}, [27] = {Rnone, Rnone, Rnone, Rnone, Rnone, Rxmm11f, Rxmm11d}, [28] = {Rnone, Rnone, Rnone, Rnone, Rnone, Rxmm12f, Rxmm12d}, [29] = {Rnone, Rnone, Rnone, Rnone, Rnone, Rxmm13f, Rxmm13d}, [30] = {Rnone, Rnone, Rnone, Rnone, Rnone, Rxmm14f, Rxmm14d}, [31] = {Rnone, Rnone, Rnone, Rnone, Rnone, Rxmm15f, Rxmm15d}, }; /* Which regmap entry a register maps to */ int colourmap[Nreg] = { /* byte */ [Ral] = 0, [Rax] = 0, [Reax] = 0, [Rrax] = 0, [Rcl] = 1, [Rcx] = 1, [Recx] = 1, [Rrcx] = 1, [Rdl] = 2, [Rdx] = 2, [Redx] = 2, [Rrdx] = 2, [Rbl] = 3, [Rbx] = 3, [Rebx] = 3, [Rrbx] = 3, [Rsil] = 4, [Rsi] = 4, [Resi] = 4, [Rrsi] = 4, [Rdil] = 5, [Rdi] = 5, [Redi] = 5, [Rrdi] = 5, [Rr8b] = 6, [Rr8w] = 6, [Rr8d] = 6, [Rr8] = 6, [Rr9b] = 7, [Rr9w] = 7, [Rr9d] = 7, [Rr9] = 7, [Rr10b] = 8, [Rr10w] = 8, [Rr10d] = 8, [Rr10] = 8, [Rr11b] = 9, [Rr11w] = 9, [Rr11d] = 9, [Rr11] = 9, [Rr12b] = 10, [Rr12w] = 10, [Rr12d] = 10, [Rr12] = 10, [Rr13b] = 11, [Rr13w] = 11, [Rr13d] = 11, [Rr13] = 11, [Rr14b] = 12, [Rr14w] = 12, [Rr14d] = 12, [Rr14] = 12, [Rr15b] = 13, [Rr15w] = 13, [Rr15d] = 13, [Rr15] = 13, /* float */ [Rxmm0f] = 16, [Rxmm0d] = 16, [Rxmm1f] = 17, [Rxmm1d] = 17, [Rxmm2f] = 18, [Rxmm2d] = 18, [Rxmm3f] = 19, [Rxmm3d] = 19, [Rxmm4f] = 20, [Rxmm4d] = 20, [Rxmm5f] = 21, [Rxmm5d] = 21, [Rxmm6f] = 22, [Rxmm6d] = 22, [Rxmm7f] = 23, [Rxmm7d] = 23, [Rxmm8f] = 24, [Rxmm8d] = 24, [Rxmm9f] = 25, [Rxmm9d] = 25, [Rxmm10f] = 26, [Rxmm10d] = 26, [Rxmm11f] = 27, [Rxmm11d] = 27, [Rxmm12f] = 28, [Rxmm12d] = 28, [Rxmm13f] = 29, [Rxmm13d] = 29, [Rxmm14f] = 30, [Rxmm14d] = 30, [Rxmm15f] = 31, [Rxmm15d] = 31, }; size_t modesize[Nmode] = { [ModeNone] = 0, [ModeB] = 1, [ModeW] = 2, [ModeL] = 4, [ModeQ] = 8, [ModeF] = 4, [ModeD] = 8, }; static int _K[Nclass] = { [Classbad] = 0, [Classint] = 14, [Classflt] = 16, }; Rclass rclass(Loc *l) { switch (l->mode) { case ModeNone: return Classbad; case Nmode: return Classbad; case ModeB: return Classint; case ModeW: return Classint; case ModeL: return Classint; case ModeQ: return Classint; case ModeF: return Classflt; case ModeD: return Classflt; } return Classbad; } /* %esp, %ebp are not in the allocatable pool */ static int isfixreg(Loc *l) { if (l->reg.colour == Resp) return 1; if (l->reg.colour == Rebp) return 1; return 0; } static size_t uses(Insn *insn, regid *u) { size_t i, j; int k; Loc *m; j = 0; /* Add all the registers used and defined. Duplicate * in this list are fine, since they're being added to * a set anyways */ for (i = 0; i < Maxarg; i++) { if (!usetab[insn->op].l[i]) break; k = usetab[insn->op].l[i] - 1; /* non-registers are handled later */ if (insn->args[k]->type == Locreg) if (!isfixreg(insn->args[k])) u[j++] = insn->args[k]->reg.id; } /* some insns don't reflect their defs in the args. * These are explictly listed in the insn description */ for (i = 0; i < Nreg; i++) { if (!usetab[insn->op].r[i]) break; /* not a leak; physical registers get memoized */ u[j++] = locphysreg(usetab[insn->op].r[i])->reg.id; } /* If the registers are in an address calculation, * they're used no matter what. */ for (i = 0; i < insn->nargs; i++) { m = insn->args[i]; if (m->type != Locmem && m->type != Locmeml) continue; if (m->mem.base) if (!isfixreg(m->mem.base)) u[j++] = m->mem.base->reg.id; if (m->mem.idx) if (!isfixreg(m->mem.base)) u[j++] = m->mem.idx->reg.id; } return j; } static size_t defs(Insn *insn, regid *d) { size_t i, j; int k; j = 0; /* Add all the registers dsed and defined. Duplicate * in this list are fine, since they're being added to * a set anyways */ for (i = 0; i < Maxarg; i++) { if (!deftab[insn->op].l[i]) break; k = deftab[insn->op].l[i] - 1; if (insn->args[k]->type == Locreg) if (!isfixreg(insn->args[k])) d[j++] = insn->args[k]->reg.id; } /* some insns don't reflect their defs in the args. * These are explictly listed in the insn description */ for (i = 0; i < Nreg; i++) { if (!deftab[insn->op].r[i]) break; /* not a leak; physical registers get memoized */ d[j++] = locphysreg(deftab[insn->op].r[i])->reg.id; } return j; } /* The uses and defs for an entire BB. */ static void udcalc(Asmbb *bb) { regid u[Nreg], d[Nreg]; size_t nu, nd; size_t i, j; bb->use = bsclear(bb->use); bb->def = bsclear(bb->def); for (i = 0; i < bb->ni; i++) { nu = uses(bb->il[i], u); nd = defs(bb->il[i], d); for (j = 0; j < nu; j++) if (!bshas(bb->def, u[j])) bsput(bb->use, u[j]); for (j = 0; j < nd; j++) bsput(bb->def, d[j]); } } static int istrivial(Isel *s, regid r) { return s->degree[r] < _K[rclass(locmap[r])]; } static void liveness(Isel *s) { Bitset *old; Asmbb **bb; ssize_t nbb; ssize_t i; size_t j; int changed; bb = s->bb; nbb = s->nbb; for (i = 0; i < nbb; i++) { if (!bb[i]) continue; udcalc(s->bb[i]); bb[i]->livein = bsclear(bb[i]->livein); bb[i]->liveout = bsclear(bb[i]->liveout); } changed = 1; while (changed) { changed = 0; old = NULL; for (i = nbb - 1; i >= 0; i--) { if (!bb[i]) continue; old = bsdup(bb[i]->liveout); /* liveout[b] = U(s in succ) livein[s] */ for (j = 0; bsiter(bb[i]->succ, &j); j++) bsunion(bb[i]->liveout, bb[j]->livein); /* livein[b] = use[b] U (out[b] \ def[b]) */ bb[i]->livein = bsclear(bb[i]->livein); bsunion(bb[i]->livein, bb[i]->liveout); bsdiff(bb[i]->livein, bb[i]->def); bsunion(bb[i]->livein, bb[i]->use); if (!changed) changed = !bseq(old, bb[i]->liveout); bsfree(old); } } } /* we're only interested in register->register moves */ static int ismove(Insn *i) { if (i->op != Imov && i->op != Imovs) return 0; return i->args[0]->type == Locreg && i->args[1]->type == Locreg; } static int gbhasedge(Isel *s, size_t u, size_t v) { size_t i; i = (s->nreg * v) + u; return (s->gbits[i/Sizetbits] & (1ULL <<(i % Sizetbits))) != 0; } static void gbputedge(Isel *s, size_t u, size_t v) { size_t i, j; i = (s->nreg * u) + v; j = (s->nreg * v) + u; s->gbits[i/Sizetbits] |= 1ULL << (i % Sizetbits); s->gbits[j/Sizetbits] |= 1ULL << (j % Sizetbits); assert(gbhasedge(s, u, v) && gbhasedge(s, v, u)); } static int wlfind(Loc **wl, size_t nwl, regid v, size_t *idx) { size_t i; for (i = 0; i < nwl; i++) { if (wl[i]->reg.id == v) { *idx = i; return 1; } } *idx = -1; return 0; } /* * If we have an edge between two aliasing registers, * we should not increment the degree, since that would * be double counting. */ static int degreechange(Isel *s, regid u, regid v) { regid phys, virt, r; size_t i; if (bshas(s->prepainted, u)) { phys = u; virt = v; } else if (bshas(s->prepainted, v)) { phys = v; virt = u; } else { return 1; } for (i = 0; i < Nmode; i++) { r = regmap[colourmap[phys]][i]; if (r != phys && gbhasedge(s, virt, regmap[colourmap[phys]][i])) { return 0; } } return 1; } static void alputedge(Isel *s, regid u, regid v) { if (s->ngadj[u] == s->gadjsz[u]) { s->gadjsz[u] = s->gadjsz[u]*2 + 1; s->gadj[u] = xrealloc(s->gadj[u], s->gadjsz[u]*sizeof(regid)); } s->gadj[u][s->ngadj[u]] = v; s->ngadj[u]++; } static void wlput(Loc ***wl, size_t *nwl, Loc *l) { lappend(wl, nwl, l); l->list = wl; } static void wldel(Isel *s, Loc ***wl, size_t *nwl, size_t idx) { (*wl)[idx]->list = NULL; ldel(wl, nwl, idx); } static void wlputset(Bitset *bs, regid r) { bsput(bs, r); locmap[r]->list = bs; } static void addedge(Isel *s, regid u, regid v) { if (u == v || gbhasedge(s, u, v)) return; if (u == Rrbp || u == Rrsp || u == Rrip) return; if (v == Rrbp || v == Rrsp || v == Rrip) return; if (rclass(locmap[u]) != rclass(locmap[v])) return; if (bshas(s->prepainted, u) && bshas(s->prepainted, v)) return; gbputedge(s, u, v); gbputedge(s, v, u); if (!bshas(s->prepainted, u)) { alputedge(s, u, v); s->degree[u] += degreechange(s, v, u); } if (!bshas(s->prepainted, v)) { alputedge(s, v, u); s->degree[v] += degreechange(s, u, v); } } static void gfree(Isel *s) { size_t i; for (i = 0; i < s->nreg; i++) free(s->gadj[i]); free(s->gbits); free(s->gadj); free(s->ngadj); } static void setup(Isel *s) { size_t gchunks; size_t i; gfree(s); s->nreg = maxregid; gchunks = (s->nreg*s->nreg)/Sizetbits + 1; s->gbits = zalloc(gchunks*sizeof(size_t)); /* fresh adj list repr. */ s->gadj = zalloc(s->nreg * sizeof(regid*)); s->ngadj = zalloc(s->nreg * sizeof(size_t)); s->gadjsz = zalloc(s->nreg * sizeof(size_t)); s->mactiveset = bsclear(s->mactiveset); s->wlmoveset = bsclear(s->wlmoveset); s->spilled = bsclear(s->spilled); s->coalesced = bsclear(s->coalesced); lfree(&s->wlspill, &s->nwlspill); lfree(&s->wlfreeze, &s->nwlfreeze); lfree(&s->wlsimp, &s->nwlsimp); free(s->aliasmap); free(s->degree); free(s->rmoves); free(s->nrmoves); s->aliasmap = zalloc(s->nreg * sizeof(Loc*)); s->degree = zalloc(s->nreg * sizeof(int)); s->nuses = zalloc(s->nreg * sizeof(int)); s->rmoves = zalloc(s->nreg * sizeof(Insn**)); s->nrmoves = zalloc(s->nreg * sizeof(size_t)); for (i = 0; bsiter(s->prepainted, &i); i++) s->degree[i] = 1<<16; } static void build(Isel *s) { regid u[Nreg], d[Nreg]; size_t nu, nd; size_t i, k, a; ssize_t j; regid *livesparse; regid *livedense; size_t nlive; regid r; Asmbb **bb; size_t nbb; Insn *insn; size_t l; /* set up convenience vars */ bb = s->bb; nbb = s->nbb; #define PUT(reg) do { \ assert(reg < maxregid); \ if (livesparse[reg] >= nlive || livedense[livesparse[reg]] != reg) {\ livesparse[reg] = nlive; \ livedense[nlive] = reg; \ nlive++; \ } \ } while(0) #define DEL(reg) do { \ assert(reg < maxregid); \ regid rtmp; \ if (livesparse[reg] < nlive && livedense[livesparse[reg]] == reg) { \ rtmp = livedense[nlive - 1]; \ livedense[livesparse[reg]] = rtmp; \ livesparse[rtmp] = livesparse[reg]; \ nlive--; \ } \ } while(0) /* sparse sets are used here because we iterate them. A lot. */ livedense = zalloc((maxregid + 1) * sizeof(regid)); livesparse = zalloc((maxregid + 1) * sizeof(regid)); for (i = 0; i < nbb; i++) { if (!bb[i]) continue; nlive = 0; for (k = 0; bsiter(bb[i]->liveout, &k); k++) PUT(k); for (j = bb[i]->ni - 1; j >= 0; j--) { insn = bb[i]->il[j]; nu = uses(insn, u); nd = defs(insn, d); /* add these to the initial set */ for (k = 0; k < nu; k++) { if (!bshas(s->prepainted, u[k])) { wlputset(s->initial, u[k]); s->nuses[u[k]]++; } } for (k = 0; k < nd; k++) { if (!bshas(s->prepainted, d[k])) wlputset(s->initial, d[k]); } /* moves get special treatment, since we don't want spuriou * edges between the src and dest */ if (ismove(insn)) { /* live \= uses(i) */ for (k = 0; k < nu; k++) { /* remove all physical register aliases */ if (bshas(s->prepainted, u[k])) { for (a = 0; a < Nmode; a++) { r = regmap[colourmap[u[k]]][a]; DEL(r); } } else { DEL(u[k]); } } for (k = 0; k < nu; k++) lappend(&s->rmoves[u[k]], &s->nrmoves[u[k]], insn); for (k = 0; k < nd; k++) lappend(&s->rmoves[d[k]], &s->nrmoves[d[k]], insn); lappend(&s->wlmove, &s->nwlmove, insn); bsput(s->wlmoveset, insn->uid); } /* live = live U def(i) */ for (k = 0; k < nd; k++) { PUT(d[k]); } for (k = 0; k < nd; k++) { for (l = 0; l < nlive; l++) { addedge(s, d[k], livedense[l]); } } /* live = use(i) U (live \ def(i)) */ for (k = 0; k < nd; k++) { DEL(d[k]); } for (k = 0; k < nu; k++) { PUT(u[k]); } } } free(livedense); free(livesparse); #undef PUT #undef DEL } static int adjavail(Isel *s, regid r) { if (locmap[r]->list == &s->selstk) return 0; if (bshas(s->coalesced, r)) return 0; return 1; } static size_t nodemoves(Isel *s, regid n, Insn ***pil) { size_t i, count; regid rid; Insn **il; count = 0; il = malloc(s->nrmoves[n] * sizeof(Insn*)); for (i = 0; i < s->nrmoves[n]; i++) { rid = s->rmoves[n][i]->uid; if (bshas(s->mactiveset, rid) || bshas(s->wlmoveset, rid)) il[count++] = s->rmoves[n][i]; } *pil = il; return count; } static int moverelated(Isel *s, regid n) { size_t i; for (i = 0; i < s->nrmoves[n]; i++) { if (bshas(s->mactiveset, s->rmoves[n][i]->uid)) return 1; if (bshas(s->wlmoveset, s->rmoves[n][i]->uid)) return 1; } return 0; } static void mkworklist(Isel *s) { size_t i; for (i = 0; bsiter(s->initial, &i); i++) { if (bshas(s->prepainted, i)) continue; else if (!istrivial(s, i)) wlput(&s->wlspill, &s->nwlspill, locmap[i]); else if (moverelated(s, i)) { wlput(&s->wlfreeze, &s->nwlfreeze, locmap[i]); } else wlput(&s->wlsimp, &s->nwlsimp, locmap[i]); locmap[i]->reg.colour = 0; } } static void enablemove(Isel *s, regid n) { size_t i, j; Insn **il; size_t ni; ni = nodemoves(s, n, &il); for (i = 0; i < ni; i++) { if (!bshas(s->mactiveset, il[i]->uid)) continue; for (j = 0; j < s->nmactive; j++) { if (il[i] == s->mactive[j]) { ldel(&s->mactive, &s->nmactive, j); lappend(&s->wlmove, &s->nwlmove, il[i]); bsdel(s->mactiveset, il[i]->uid); bsput(s->wlmoveset, il[i]->uid); } } } free(il); } static void decdegree(Isel *s, regid m) { int before, after; int found; size_t idx, i; regid n; assert(m < s->nreg); before = istrivial(s, m); s->degree[m]--; after = istrivial(s, m); if (before != after) { enablemove(s, m); for (i = 0; i < s->ngadj[m]; i++) { n = s->gadj[m][i]; if (adjavail(s, n)) enablemove(s, n); } /* Subtle: * * If this code is being called from coalesce(), * then the degree could have been bumped up only * temporarily. This means that the node can already * be on wlfreeze or wlsimp. * * Therefore, if we don't find it on wlspill, we assert * that the node is already on the list that we'd be * moving it to. */ found = wlfind(s->wlspill, s->nwlspill, m, &idx); if (found) wldel(s, &s->wlspill, &s->nwlspill, idx); if (moverelated(s, m)) { if (!found) { assert(wlfind(s->wlfreeze, s->nwlfreeze, m, &idx) != 0); } else { wlput(&s->wlfreeze, &s->nwlfreeze, locmap[m]); } } else { if (!found) { assert(wlfind(s->wlsimp, s->nwlsimp, m, &idx)); } else { wlput(&s->wlsimp, &s->nwlsimp, locmap[m]); } } } } static void simp(Isel *s) { Loc *l; regid m; size_t i; l = lpop(&s->wlsimp, &s->nwlsimp); wlput(&s->selstk, &s->nselstk, l); for (i = 0; i < s->ngadj[l->reg.id]; i++) { m = s->gadj[l->reg.id][i]; if (adjavail(s, m)) decdegree(s, m); } } static regid getmappedalias(Loc **aliasmap, size_t nreg, regid id) { /* * if we get called from rewrite(), we can get a register that * we just created, with an id bigger than the number of entrie * in the alias map. We should just return its id in that case. */ while (id < nreg) { if (!aliasmap[id]) break; id = aliasmap[id]->reg.id; }; return id; } static regid getalias(Isel *s, regid id) { return getmappedalias(s->aliasmap, s->nreg, id); } static void wladd(Isel *s, regid u) { size_t i; if (bshas(s->prepainted, u)) return; if (moverelated(s, u)) return; if (!istrivial(s, u)) return; assert(locmap[u]->list == &s->wlfreeze || locmap[u]->list == &s->wlsimp); if (wlfind(s->wlfreeze, s->nwlfreeze, u, &i)) wldel(s, &s->wlfreeze, &s->nwlfreeze, i); wlput(&s->wlsimp, &s->nwlsimp, locmap[u]); } static int conservative(Isel *s, regid u, regid v) { int k; size_t i; regid n; k = 0; for (i = 0; i < s->ngadj[u]; i++) { n = s->gadj[u][i]; if (adjavail(s, n) && !istrivial(s, n)) k++; } for (i = 0; i < s->ngadj[v]; i++) { n = s->gadj[v][i]; if (adjavail(s, n) && !istrivial(s, n)) k++; } return k < _K[rclass(locmap[u])]; } /* FIXME: is this actually correct? */ static int ok(Isel *s, regid t, regid r) { return istrivial(s, t) || bshas(s->prepainted, t) || gbhasedge(s, t, r); } static int combinable(Isel *s, regid u, regid v) { regid t; size_t i; /* Regs of different modes can't be combined as things stand. * In principle they should be combinable, but it confused the * whole mode dance. */ if (locmap[u]->mode != locmap[v]->mode) return 0; /* if u isn't prepainted, can we conservatively coalesce? */ if (!bshas(s->prepainted, u) && conservative(s, u, v)) return 1; /* if it is, are the adjacent nodes ok to combine with this? */ for (i = 0; i < s->ngadj[v]; i++) { t = s->gadj[v][i]; if (adjavail(s, t) && !ok(s, t, u)) return 0; } return 1; } static void combine(Isel *s, regid u, regid v) { regid t; size_t idx; size_t i, j; int has; if (debugopt['r'] > 2) printedge(stdout, "combining:", u, v); if (wlfind(s->wlfreeze, s->nwlfreeze, v, &idx)) wldel(s, &s->wlfreeze, &s->nwlfreeze, idx); else if (wlfind(s->wlspill, s->nwlspill, v, &idx)) { wldel(s, &s->wlspill, &s->nwlspill, idx); } wlputset(s->coalesced, v); s->aliasmap[v] = locmap[u]; s->nuses[u] += s->nuses[v]; /* nodemoves[u] = nodemoves[u] U nodemoves[v] */ for (i = 0; i < s->nrmoves[v]; i++) { has = 0; for (j = 0; j < s->nrmoves[u]; j++) { if (s->rmoves[v][i] == s->rmoves[u][j]) { has = 1; break; } } if (!has) lappend(&s->rmoves[u], &s->nrmoves[u], s->rmoves[v][i]); } for (i = 0; i < s->ngadj[v]; i++) { t = s->gadj[v][i]; if (!adjavail(s, t)) continue; if (debugopt['r'] > 2) printedge(stdout, "combine-putedge:", t, u); addedge(s, t, u); decdegree(s, t); } if (!istrivial(s, u) && wlfind(s->wlfreeze, s->nwlfreeze, u, &idx)) { wldel(s, &s->wlfreeze, &s->nwlfreeze, idx); wlput(&s->wlspill, &s->nwlspill, locmap[u]); } } static int constrained(Isel *s, regid u, regid v) { size_t i; if (bshas(s->prepainted, v)) return 1; if (bshas(s->prepainted, u)) for (i = 0; i < Nmode; i++) if (regmap[colourmap[u]][i] && gbhasedge(s, regmap[colourmap[u]][i], v)) return 1; return gbhasedge(s, u, v); } static void coalesce(Isel *s) { Insn *m; regid u, v, tmp; m = lpop(&s->wlmove, &s->nwlmove); bsdel(s->wlmoveset, m->uid); u = getalias(s, m->args[0]->reg.id); v = getalias(s, m->args[1]->reg.id); if (bshas(s->prepainted, v)) { tmp = u; u = v; v = tmp; } if (u == v) { lappend(&s->mcoalesced, &s->nmcoalesced, m); wladd(s, u); wladd(s, v); } else if (constrained(s, u, v)) { lappend(&s->mconstrained, &s->nmconstrained, m); wladd(s, u); wladd(s, v); } else if (combinable(s, u, v)) { lappend(&s->mcoalesced, &s->nmcoalesced, m); combine(s, u, v); wladd(s, u); } else { lappend(&s->mactive, &s->nmactive, m); bsput(s->mactiveset, m->uid); } } static int mldel(Insn ***ml, size_t *nml, Bitset *bs, Insn *m) { size_t i; if (bshas(bs, m->uid)) { bsdel(bs, m->uid); for (i = 0; i < *nml; i++) { if (m == (*ml)[i]) { ldel(ml, nml, i); return 1; } } } return 0; } static void freezemoves(Isel *s, Loc *u) { size_t i; Insn **ml; Insn *m; size_t nml; size_t idx; Loc *v; nml = nodemoves(s, u->reg.id, &ml); for (i = 0; i < nml; i++) { m = ml[i]; if (getalias(s, m->args[0]->reg.id) == getalias(s, u->reg.id)) v = locmap[getalias(s, m->args[1]->reg.id)]; else v = locmap[getalias(s, m->args[0]->reg.id)]; if (!mldel(&s->mactive, &s->nmactive, s->mactiveset, m)) mldel(&s->wlmove, &s->nwlmove, s->wlmoveset, m); lappend(&s->mfrozen, &s->nmfrozen, m); if (!moverelated(s, v->reg.id) && istrivial(s, v->reg.id)) { if (!wlfind(s->wlfreeze, s->nwlfreeze, v->reg.id, &idx)) die("Reg %zd not in freeze wl\n", v->reg.id); wldel(s, &s->wlfreeze, &s->nwlfreeze, idx); wlput(&s->wlsimp, &s->nwlsimp, v); } } lfree(&ml, &nml); } static void freeze(Isel *s) { Loc *l; l = lpop(&s->wlfreeze, &s->nwlfreeze); wlput(&s->wlsimp, &s->nwlsimp, l); freezemoves(s, l); } /* Select the spill candidates */ static void selspill(Isel *s) { size_t i; Loc *m; /* FIXME: pick a better heuristic for spilling */ m = NULL; for (i = 0; i < s->nwlspill; i++) { if (!bshas(s->shouldspill, s->wlspill[i]->reg.id)) continue; m = s->wlspill[i]; wldel(s, &s->wlspill, &s->nwlspill, i); break; } if (!m) { for (i = 0; i < s->nwlspill; i++) { if (bshas(s->neverspill, s->wlspill[i]->reg.id)) { continue; } m = s->wlspill[i]; wldel(s, &s->wlspill, &s->nwlspill, i); break; } } assert(m != NULL); wlput(&s->wlsimp, &s->nwlsimp, m); freezemoves(s, m); } /* * Selects the colours for registers, spilling to the * stack if no free registers can be found. */ static int paint(Isel *s) { int taken[Nreg]; Loc *n, *w; regid l; size_t i, j; int spilled; int found; spilled = 0; while (s->nselstk) { memset(taken, 0, Nreg*sizeof(int)); n = lpop(&s->selstk, &s->nselstk); for (j = 0; j < s->ngadj[n->reg.id];j++) { l = s->gadj[n->reg.id][j]; if (debugopt['r'] > 1) printedge(stdout, "paint-edge:", n->reg.id, l); w = locmap[getalias(s, l)]; if (w->reg.colour) taken[colourmap[w->reg.colour]] = 1; } found = 0; for (i = 0; i < Northogonal; i++) { if (regmap[i][n->mode] && !taken[i]) { n->reg.colour = regmap[i][n->mode]; found = 1; break; } } if (!found) { spilled = 1; wlputset(s->spilled, n->reg.id); } } for (l = 0; bsiter(s->coalesced, &l); l++) { n = locmap[getalias(s, l)]; locmap[l]->reg.colour = n->reg.colour; } return spilled; } static Loc * mapfind(Isel *s, Htab *map, Loc *old) { Loc *new; Loc *base; Loc *idx; regid id; if (!old) return NULL; new = NULL; if (old->type == Locreg) { id = getalias(s, old->reg.id); new = htget(map, locmap[id]); } else if (old->type == Locmem || old->type == Locmeml) { base = old->mem.base; idx = old->mem.idx; if (base) base = locmap[getalias(s, base->reg.id)]; if (idx) idx = locmap[getalias(s, idx->reg.id)]; base = mapfind(s, map, base); idx = mapfind(s, map, idx); if (base != old->mem.base || idx != old->mem.idx) { if (old->type == Locmem) new = locmems(old->mem.constdisp, base, idx, old->mem.scale, old->mode); else new = locmemls(old->mem.lbldisp, base, idx, old->mem.scale, old->mode); } } if (new) return new; return old; } static Loc * spillslot(Isel *s, regid reg) { size_t stkoff; stkoff = ptoi(htget(s->spillslots, itop(reg))); return locmem(-stkoff, locphysreg(Rrbp), NULL, locmap[reg]->mode); } static void updatelocs(Isel *s, Htab *map, Insn *insn) { size_t i; for (i = 0; i < insn->nargs; i++) { insn->args[i] = mapfind(s, map, insn->args[i]); insn->args[i] = mapfind(s, map, insn->args[i]); } } /* * Takes two tables for remappings, of size Nreg/Nreg, * and fills them, storign the number of uses or defs. Return * whether there are any remappings at all. */ static int remap(Isel *s, Htab *map, Insn *insn, regid *use, size_t nuse, regid *def, size_t ndef) { regid ruse, rdef; int remapped; Loc *tmp; size_t i; remapped = 0; for (i = 0; i < nuse; i++) { ruse = getalias(s, use[i]); if (!bshas(s->spilled, ruse)) continue; tmp = locreg(locmap[ruse]->mode); htput(map, locmap[ruse], tmp); bsput(s->neverspill, tmp->reg.id); remapped = 1; } for (i = 0; i < ndef; i++) { rdef = getalias(s, def[i]); if (!bshas(s->spilled, rdef)) continue; if (hthas(map, locmap[rdef])) continue; tmp = locreg(locmap[rdef]->mode); htput(map, locmap[rdef], tmp); bsput(s->neverspill, tmp->reg.id); remapped = 1; } return remapped; } static int nopmov(Isel *s, Insn *insn) { if (insn->op != Imov) return 0; if (insn->args[0]->type != Locreg || insn->args[1]->type != Locreg) return 0; /* Prepainted register moves need to be kept live to avoid coalescing over them */ return insn->args[0]->reg.id == insn->args[1]->reg.id && !bshas(s->prepainted, insn->args[0]->reg.id); } void replacealias(Isel *s, Loc **map, size_t nreg, Insn *insn) { size_t i; Loc *l; if (!map) return; for (i = 0; i < insn->nargs; i++) { l = insn->args[i]; if (l->type == Locreg) { insn->args[i] = locmap[getalias(s, l->reg.id)]; } else if (l->type == Locmem || l->type == Locmeml) { if (l->mem.base) l->mem.base = locmap[getalias(s, l->mem.base->reg.id)]; if (l->mem.idx) l->mem.idx = locmap[getalias(s, l->mem.idx->reg.id)]; } } } static ulong reglochash(void *p) { Loc *l; l = p; return inthash(l->reg.id); } static int regloceq(void *pa, void *pb) { Loc *a, *b; a = pa; b = pb; return a->reg.id == b->reg.id; } /* * Rewrite instructions using spilled registers, inserting * appropriate loads and stores into the BB */ static void rewritebb(Isel *s, Asmbb *bb, Loc **aliasmap) { regid use[Nreg], def[Nreg]; size_t nuse, ndef; Insn *insn, *mov; size_t i, j; Insn **new; size_t nnew; Htab *map; Loc *tmp; new = NULL; nnew = 0; if (!bb) return; map = mkht(reglochash, regloceq); for (j = bb->ni; j > 0; j--) { insn = bb->il[j - 1]; replacealias(s, aliasmap, s->nreg, insn); if (nopmov(s, insn)) continue; nuse = uses(insn, use); ndef = defs(insn, def); /* if there is a remapping, insert the loads and stores as needed */ if (remap(s, map, insn, use, nuse, def, ndef)) { for (i = 0; i < ndef; i++) { tmp = htget(map, locmap[def[i]]); if (!tmp) continue; if (isfloatmode(tmp->mode)) mov = mkinsn(Imovs, tmp, spillslot(s, def[i]), NULL); else mov = mkinsn(Imov, tmp, spillslot(s, def[i]), NULL); lappend(&new, &nnew, mov); } updatelocs(s, map, insn); lappend(&new, &nnew, insn); for (i = 0; i < nuse; i++) { tmp = htget(map, locmap[use[i]]); if (!tmp) continue; if (isfloatmode(tmp->mode)) mov = mkinsn(Imovs, spillslot(s, use[i]), tmp, NULL); else mov = mkinsn(Imov, spillslot(s, use[i]), tmp, NULL); lappend(&new, &nnew, mov); } for (i = 0; i < nuse; i++) htdel(map, locmap[use[i]]); for (i = 0; i < ndef; i++) htdel(map, locmap[def[i]]); } else { lappend(&new, &nnew, insn); } } for (i = 0; i < nnew/2; i++) { insn = new[i]; new[i] = new[nnew - i - 1]; new[nnew - i -1] = insn; } lfree(&bb->il, &bb->ni); bb->il = new; bb->ni = nnew; } static void addspill(Isel *s, Loc *l) { s->stksz->lit += modesize[l->mode]; s->stksz->lit = align(s->stksz->lit, modesize[l->mode]); if (debugopt['r']) { printf("spill "); dbglocprint(stdout, l, 'x'); printf(" to %zd(%%rbp)\n", s->stksz->lit); } htput(s->spillslots, itop(l->reg.id), itop(s->stksz->lit)); } /* * Rewrites the function code so that it no longer contain * references to spilled registers. Every use of spilled reg * * insn %rX,%rY * * is rewritten to look like: * * mov 123(%rsp),%rZ * insn %rZ,%rW * mov %rW,234(%rsp) */ static void rewrite(Isel *s, Loc **aliasmap) { size_t i; s->spillslots = mkht(ptrhash, ptreq); /* set up stack locations for all spilled registers. */ for (i = 0; bsiter(s->spilled, &i); i++) addspill(s, locmap[i]); /* rewrite instructions using them */ for (i = 0; i < s->nbb; i++) rewritebb(s, s->bb[i], aliasmap); htfree(s->spillslots); bsclear(s->spilled); } /* * Coalescing registers leaves a lot * of moves that look like * * mov %r123,%r123. * * This is useless. This deletes them. */ static void delnops(Isel *s) { Insn *insn; Asmbb *bb; Insn **new; size_t nnew; size_t i, j; for (i = 0; i < s->nbb; i++) { if (!s->bb[i]) continue; new = NULL; nnew = 0; bb = s->bb[i]; for (j = 0; j < bb->ni; j++) { insn = bb->il[j]; if (ismove(insn) && insn->args[0]->reg.colour == insn->args[1]->reg.colour) continue; lappend(&new, &nnew, insn); } lfree(&bb->il, &bb->ni); bb->il = new; bb->ni = nnew; } if (debugopt['r']) dumpasm(s, stdout); } void regalloc(Isel *s) { int spilled; size_t i; Loc **aliasmap; /* Initialize the list of prepainted registers */ s->prepainted = mkbs(); bsput(s->prepainted, 0); for (i = 0; i < Nreg; i++) bsput(s->prepainted, i); s->shouldspill = mkbs(); s->neverspill = mkbs(); s->initial = mkbs(); for (i = 0; i < s->nsaved; i++) bsput(s->shouldspill, s->calleesave[i]->reg.id); do { aliasmap = NULL; setup(s); liveness(s); build(s); mkworklist(s); if (debugopt['r']) dumpasm(s, stdout); do { if (s->nwlsimp) simp(s); else if (s->nwlmove) coalesce(s); else if (s->nwlfreeze) freeze(s); else if (s->nwlspill) { if (!aliasmap) aliasmap = memdup(s->aliasmap, s->nreg * sizeof(Loc*)); selspill(s); } } while (s->nwlsimp || s->nwlmove || s->nwlfreeze || s->nwlspill); spilled = paint(s); if (spilled) rewrite(s, aliasmap); } while (spilled); delnops(s); bsfree(s->prepainted); bsfree(s->shouldspill); bsfree(s->neverspill); gfree(s); } void wlprint(FILE *fd, char *name, Loc **wl, size_t nwl) { size_t i; char *sep; sep = ""; fprintf(fd, "%s = [", name); for (i = 0; i < nwl; i++) { fprintf(fd, "%s", sep); dbglocprint(fd, wl[i], 'x'); fprintf(fd, "(%zd)", wl[i]->reg.id); sep = ","; } fprintf(fd, "]\n"); } static void setprint(FILE *fd, Bitset *s) { char *sep; size_t i; sep = ""; for (i = 0; i < bsmax(s); i++) { if (bshas(s, i)) { fprintf(fd, "%s%zd", sep, i); sep = ","; } } fprintf(fd, "\n"); } static void locsetprint(FILE *fd, Bitset *s) { char *sep; size_t i; sep = ""; for (i = 0; i < bsmax(s); i++) { if (bshas(s, i)) { fprintf(fd, "%s", sep); dbglocprint(fd, locmap[i], 'x'); sep = ","; } } fprintf(fd, "\n"); } static void printedge(FILE *fd, char *msg, size_t a, size_t b) { fprintf(fd, "\t%s ", msg); dbglocprint(fd, locmap[a], 'x'); fprintf(fd, " -- "); dbglocprint(fd, locmap[b], 'x'); fprintf(fd, "\n"); } void dumpasm(Isel *s, FILE *fd) { size_t i, j; char *sep; Asmbb *bb; fprintf(fd, "function %s\n", s->name); fprintf(fd, "WORKLISTS -- \n"); wlprint(stdout, "spill", s->wlspill, s->nwlspill); wlprint(stdout, "simp", s->wlsimp, s->nwlsimp); wlprint(stdout, "freeze", s->wlfreeze, s->nwlfreeze); /* noisy to dump this all the time; only dump for higher debug levels */ if (debugopt['r'] > 2) { fprintf(fd, "IGRAPH ----- \n"); for (i = 0; i < s->nreg; i++) { for (j = i; j < s->nreg; j++) { if (gbhasedge(s, i, j)) printedge(stdout, "", i, j); } } } fprintf(fd, "ASM -------- \n"); for (j = 0; j < s->nbb; j++) { bb = s->bb[j]; if (!bb) continue; fprintf(fd, "\n"); fprintf(fd, "Bb: %d labels=(", bb->id); sep = ""; for (i = 0; i < bb->nlbls; i++) {; fprintf(fd, "%s%s", bb->lbls[i], sep); sep = ","; } fprintf(fd, ")\n"); fprintf(fd, "Pred: "); setprint(fd, bb->pred); fprintf(fd, "Succ: "); setprint(fd, bb->succ); fprintf(fd, "Use: "); locsetprint(fd, bb->use); fprintf(fd, "Def: "); locsetprint(fd, bb->def); fprintf(fd, "Livein: "); locsetprint(fd, bb->livein); fprintf(fd, "Liveout: "); locsetprint(fd, bb->liveout); for (i = 0; i < bb->ni; i++) dbgiprintf(fd, bb->il[i]); } fprintf(fd, "ENDASM -------- \n"); }