ref: 1ed355447b8aa5aa8861651d5a657691fe939218
dir: /mi/match.c/
#include <stdio.h> #include <inttypes.h> #include <stdarg.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" typedef struct Dtree Dtree; struct Dtree { int id; Srcloc loc; /* values for matching */ Node *lbl; Node *load; size_t nconstructors; char accept; char emitted; char ptrwalk; /* the decision tree step */ Node **pat; size_t npat; Dtree **next; size_t nnext; Dtree *any; /* captured variables and action */ Node **cap; size_t ncap; }; Dtree *gendtree(Node *m, Node *val, Node **lbl, size_t nlbl); static int addpat(Node *pat, Node *val, Dtree *start, Dtree *accept, Node ***cap, size_t *ncap, Dtree ***end, size_t *nend); void dtreedump(FILE *fd, Dtree *dt); static Node *utag(Node *n) { Node *tag; tag = mkexpr(n->loc, Outag, n, NULL); tag->expr.type = mktype(n->loc, Tyint32); return tag; } static Node *uvalue(Node *n, Type *ty) { Node *elt; elt = mkexpr(n->loc, Oudata, n, NULL); elt->expr.type = ty; return elt; } static Node *tupelt(Node *n, size_t i) { Node *idx, *elt; idx = mkintlit(n->loc, i); idx->expr.type = mktype(n->loc, Tyuint64); elt = mkexpr(n->loc, Otupget, n, idx, NULL); elt->expr.type = tybase(exprtype(n))->sub[i]; return elt; } static Node *arrayelt(Node *n, size_t i) { Node *idx, *elt; idx = mkintlit(n->loc, i); idx->expr.type = mktype(n->loc, Tyuint64); elt = mkexpr(n->loc, Oidx, n, idx, NULL); elt->expr.type = tybase(exprtype(n))->sub[0]; return elt; } static Node *findmemb(Node *pat, Node *name) { Node *n; size_t i; for (i = 0; i < pat->expr.nargs; i++) { n = pat->expr.args[i]; if (nameeq(n->expr.idx, name)) return n; } return NULL; } static Dtree *dtbytag(Dtree *t, Ucon *uc) { uint32_t tagval; Node *taglit; size_t i; for (i = 0; i < t->npat; i++) { taglit = t->pat[i]->expr.args[0]; tagval = taglit->lit.intval; if (tagval == uc->id) { return t->next[i]; } } return NULL; } static Node *structmemb(Node *n, Node *name, Type *ty) { Node *elt; elt = mkexpr(n->loc, Omemb, n, name, NULL); elt->expr.type = ty; return elt; } static Node *addcapture(Node *n, Node **cap, size_t ncap) { Node **blk; size_t nblk, i; nblk = 0; blk = NULL; for (i = 0; i < ncap; i++) lappend(&blk, &nblk, cap[i]); for (i = 0; i < n->block.nstmts; i++) lappend(&blk, &nblk, n->block.stmts[i]); lfree(&n->block.stmts, &n->block.nstmts); n->block.stmts = blk; n->block.nstmts = nblk; return n; } static Dtree *mkdtree(Srcloc loc, Node *lbl) { static int ndtree; Dtree *t; t = zalloc(sizeof(Dtree)); t->lbl = lbl; t->loc = loc; t->id = ndtree++; return t; } static Dtree *nextnode(Srcloc loc, size_t idx, size_t count, Dtree *accept) { if (idx == count - 1) return accept; else return mkdtree(loc, genlbl(loc)); } static size_t nconstructors(Type *t) { if (!t) return 0; t = tybase(t); switch (t->type) { case Tyvoid: return 1; break; case Tybool: return 2; break; case Tychar: return 0x10ffff; break; /* signed ints */ case Tyint8: return 0x100; break; case Tyint16: return 0x10000; break; case Tyint32: return 0x100000000; break; case Tyint: return 0x100000000; break; case Tyint64: return ~0ull; break; /* unsigned ints */ case Tybyte: return 0x100; break; case Tyuint8: return 0x100; break; case Tyuint16: return 0x10000; break; case Tyuint32: return 0x100000000; break; case Tyuint: return 0x100000000; break; case Tyuint64: return ~0ull; break; /* floats */ case Tyflt32: return ~0ull; break; case Tyflt64: return ~0ull; break; /* complex types */ case Typtr: return 1; break; case Tyarray: return 1; break; case Tytuple: return 1; break; case Tystruct: return 1; case Tyunion: return t->nmemb; break; case Tyslice: return ~0ULL; break; case Tyvar: case Typaram: case Tyunres: case Tyname: case Tybad: case Tyvalist: case Tygeneric: case Ntypes: case Tyfunc: case Tycode: die("Invalid constructor type %s in match", tystr(t)); break; } return 0; } static int verifymatch(Dtree *t) { size_t i; int ret; if (t->accept) return 1; ret = 0; if (t->nnext == t->nconstructors || t->any) ret = 1; for (i = 0; i < t->nnext; i++) if (!verifymatch(t->next[i])) ret = 0; return ret; } static int acceptall(Dtree *t, Dtree *accept) { size_t i; int ret; if (t->accept || t->any == accept) return 0; ret = 0; if (t->any) { if (acceptall(t->any, accept)) ret = 1; } else { t->any = accept; ret = 1; } for (i = 0; i < t->nnext; i++) if (acceptall(t->next[i], accept)) ret = 1; return ret; } static int isbasictype(Dtree *dt, Type *ty) { if (ty->type == Typtr) return !dt->ptrwalk; return istyprimitive(ty) || ty->type == Tyvoid || ty->type == Tyfunc; } static int ismatchable(Type *ty) { return ty->type != Tyfunc && ty->type != Tycode && ty->type != Tyvalist; } static int addwildrec(Srcloc loc, Type *ty, Dtree *start, Dtree *accept, Dtree ***end, size_t *nend) { Dtree *next, **last, **tail; size_t i, j, nelt, nlast, ntail; Node *asize; Ucon *uc; int ret; tail = NULL; ntail = 0; ty = tybase(ty); if (isbasictype(start, ty)) { if (start->accept || start == accept) return 0; for (i = 0; i < start->nnext; i++) lappend(end, nend, start->next[i]); if (start->any) { lappend(end, nend, start->any); return 0; } else { start->any = accept; lappend(end, nend, accept); return 1; } } ret = 0; last = NULL; nlast = 0; switch (ty->type) { case Tytuple: lappend(&last, &nlast, start); for (i = 0; i < ty->nsub; i++) { next = nextnode(loc, i, ty->nsub, accept); tail = NULL; ntail = 0; for (j = 0; j < nlast; j++) if (addwildrec(loc, ty->sub[i], last[j], next, &tail, &ntail)) ret = 1; lfree(&last, &nlast); last = tail; nlast = ntail; } break; case Tyarray: lappend(&last, &nlast, start); asize = fold(ty->asize, 1); nelt = asize->expr.args[0]->lit.intval; for (i = 0; i < nelt; i++) { next = nextnode(loc, i, nelt, accept); tail = NULL; ntail = 0; for (j = 0; j < nlast; j++) if (addwildrec(loc, ty->sub[0], last[j], next, &tail, &ntail)) ret = 1; lfree(&last, &nlast); last = tail; nlast = ntail; } break; case Tystruct: lappend(&last, &nlast, start); for (i = 0; i < ty->nmemb; i++) { next = nextnode(loc, i, ty->nmemb, accept); tail = NULL; ntail = 0; for (j = 0; j < nlast; j++) if (addwildrec(loc, decltype(ty->sdecls[i]), last[j], next, &tail, &ntail)) ret = 1; lfree(&last, &nlast); last = tail; nlast = ntail; } break; case Tyunion: lappend(&last, &nlast, start); for (i = 0; i < ty->nmemb; i++) { uc = ty->udecls[i]; next = dtbytag(start, uc); if (next) { if (uc->etype) { if (addwildrec(loc, uc->etype, next, accept, end, nend)) ret = 1; } else { lappend(end, nend, next); } } } if (!start->any) { start->any = accept; ret = 1; } lappend(end, nend, start->any); break; case Tyslice: ret = acceptall(start, accept); lappend(&last, &nlast, accept); break; case Typtr: lappend(&last, &nlast, start); ret = addwildrec(loc, ty->sub[0], start, accept, &last, &nlast); break; default: die("unreachable"); } lcat(end, nend, last, nlast); lfree(&last, &nlast); return ret; } static int addwild(Node *pat, Node *val, Dtree *start, Dtree *accept, Node ***cap, size_t *ncap, Dtree ***end, size_t *nend) { Node *asn; if (cap && ncap) { asn = mkexpr(pat->loc, Oasn, pat, val, NULL); asn->expr.type = exprtype(pat); lappend(cap, ncap, asn); } return addwildrec(pat->loc, exprtype(pat), start, accept, end, nend); } static int addunion(Node *pat, Node *val, Dtree *start, Dtree *accept, Node ***cap, size_t *ncap, Dtree ***end, size_t *nend) { Node *tagid; Dtree *next; Ucon *uc; if (start->any) { lappend(end, nend, start->any); return 0; } uc = finducon(tybase(exprtype(pat)), pat->expr.args[0]); next = dtbytag(start, uc); if (next) { if (!uc->etype) { lappend(end, nend, next); return 0; } else { return addpat(pat->expr.args[1], uvalue(val, uc->etype), next, accept, cap, ncap, end, nend); } } if (!start->load) { start->load = utag(val); start->nconstructors = nconstructors(tybase(exprtype(pat))); } tagid = mkintlit(pat->loc, uc->id); tagid->expr.type = mktype(pat->loc, Tyint32); lappend(&start->pat, &start->npat, tagid); if (uc->etype) { next = mkdtree(pat->loc, genlbl(pat->loc)); lappend(&start->next, &start->nnext, next); addpat(pat->expr.args[1], uvalue(val, uc->etype), next, accept, cap, ncap, end, nend); } else { lappend(&start->next, &start->nnext, accept); lappend(end, nend, accept); } return 1; } static int addstr(Node *pat, Node *val, Dtree *start, Dtree *accept, Node ***cap, size_t *ncap, Dtree ***end, size_t *nend) { Dtree **tail, **last, *next; size_t i, j, n, ntail, nlast; Node *p, *v, *lit; Type *ty; char *s; int ret; lit = pat->expr.args[0]; n = lit->lit.strval.len; s = lit->lit.strval.buf; ty = mktype(pat->loc, Tyuint64); p = mkintlit(lit->loc, n); v = structmemb(val, mkname(pat->loc, "len"), ty); p->expr.type = ty; if (n == 0) next = accept; else next = mkdtree(pat->loc, genlbl(pat->loc)); last = NULL; nlast = 0; ret = 0; if (addpat(p, v, start, next, cap, ncap, &last, &nlast)) ret = 1; ty = mktype(pat->loc, Tybyte); for (i = 0; i < n; i++) { p = mkintlit(lit->loc, s[i]); p->expr.type = ty; v = arrayelt(val, i); tail = NULL; ntail = 0; next = nextnode(pat->loc, i, n, accept); for (j = 0; j < nlast; j++) if (addpat(p, v, last[j], next, NULL, NULL, &tail, &ntail)) ret = 1; lfree(&last, &nlast); last = tail; nlast = ntail; } lcat(end, nend, last, nlast); lfree(&last, &nlast); return ret; } static int addlit(Node *pat, Node *val, Dtree *start, Dtree *accept, Node ***cap, size_t *ncap, Dtree ***end, size_t *nend) { size_t i; if (pat->expr.args[0]->lit.littype == Lstr) { return addstr(pat, val, start, accept, cap, ncap, end, nend); } else { /* if we already have a match, we're not adding a new node */ if (start->any) { lappend(end, nend, start->any); return 0; } for (i = 0; i < start->npat; i++) { if (liteq(start->pat[i]->expr.args[0], pat->expr.args[0])) { lappend(end, nend, start->next[i]); return 0; } } /* wire up an edge from start to 'accept' */ if (!start->load) { start->load = val; start->nconstructors = nconstructors(exprtype(pat)); } lappend(&start->pat, &start->npat, pat); lappend(&start->next, &start->nnext, accept); lappend(end, nend, accept); return 1; } } static int addtup(Node *pat, Node *val, Dtree *start, Dtree *accept, Node ***cap, size_t *ncap, Dtree ***end, size_t *nend) { size_t nargs, nlast, ntail, i, j; Dtree *next, **last, **tail; Node **args; int ret; args = pat->expr.args; nargs = pat->expr.nargs; last = NULL; nlast = 0; lappend(&last, &nlast, start); ret = 0; for (i = 0; i < nargs; i++) { next = nextnode(args[i]->loc, i, nargs, accept); tail = NULL; ntail = 0; for (j = 0; j < nlast; j++) if (addpat(pat->expr.args[i], tupelt(val, i), last[j], next, cap, ncap, &tail, &ntail)) ret = 1; lfree(&last, &nlast); last = tail; nlast = ntail; } lcat(end, nend, last, nlast); lfree(&last, &nlast); return ret; } static int addarr(Node *pat, Node *val, Dtree *start, Dtree *accept, Node ***cap, size_t *ncap, Dtree ***end, size_t *nend) { size_t nargs, nlast, ntail, i, j; Dtree *next, **last, **tail; Node **args; int ret; args = pat->expr.args; nargs = pat->expr.nargs; last = NULL; nlast = 0; lappend(&last, &nlast, start); ret = 0; for (i = 0; i < nargs; i++) { next = nextnode(args[i]->loc, i, nargs, accept); tail = NULL; ntail = 0; for (j = 0; j < nlast; j++) if (addpat(pat->expr.args[i], arrayelt(val, i), last[j], next, cap, ncap, &tail, &ntail)) ret = 1; lfree(&last, &nlast); last = tail; nlast = ntail; } lcat(end, nend, last, nlast); lfree(&last, &nlast); return ret; } static int addstruct(Node *pat, Node *val, Dtree *start, Dtree *accept, Node ***cap, size_t *ncap, Dtree ***end, size_t *nend) { Dtree *next, **last, **tail; Node *memb, *name; Type *ty, *mty; size_t i, j, ntail, nlast; int ret; ret = 0; last = NULL; nlast = 0; lappend(&last, &nlast, start); ty = tybase(exprtype(pat)); for (i = 0; i < ty->nmemb; i++) { mty = decltype(ty->sdecls[i]); name = ty->sdecls[i]->decl.name; memb = findmemb(pat, name); next = nextnode(pat->loc, i, ty->nmemb, accept); tail = NULL; ntail = 0; /* add a _ capture if we don't specify the value */ if (!memb) { memb = mkexpr(ty->sdecls[i]->loc, Ogap, NULL); memb->expr.type = mty; } for (j = 0; j < nlast; j++) { if (addpat(memb, structmemb(val, name, mty), last[j], next, cap, ncap, &tail, &ntail)) ret = 1; } lfree(&last, &nlast); last = tail; nlast = ntail; } lcat(end, nend, last, nlast); lfree(&last, &nlast); return ret; } static int addderefpat(Node *pat, Node *val, Dtree *start, Dtree *accept, Node ***cap, size_t *ncap, Dtree ***end, size_t *nend) { Node *deref; deref = mkexpr(val->loc, Oderef, val, NULL); deref->expr.type = exprtype(pat->expr.args[0]); start->nconstructors = nconstructors(exprtype(deref)); start->ptrwalk = 1; return addpat(pat->expr.args[0], deref, start, accept, cap, ncap, end, nend); } static int addpat(Node *pat, Node *val, Dtree *start, Dtree *accept, Node ***cap, size_t *ncap, Dtree ***end, size_t *nend) { int ret; Node *dcl; pat = fold(pat, 1); ret = 0; switch (exprop(pat)) { case Ovar: dcl = decls[pat->expr.did]; if (dcl->decl.isconst) { if (!ismatchable(decltype(dcl))) fatal(dcl, "matching unmatchable type %s", tystr(decltype(dcl))); ret = addpat(dcl->decl.init, val, start, accept, cap, ncap, end, nend); } else { ret = addwild(pat, val, start, accept, cap, ncap, end, nend); } break; case Oucon: ret = addunion(pat, val, start, accept, cap, ncap, end, nend); break; case Olit: ret = addlit(pat, val, start, accept, cap, ncap, end, nend); break; case Otup: ret = addtup(pat, val, start, accept, cap, ncap, end, nend); break; case Oarr: ret = addarr(pat, val, start, accept, cap, ncap, end, nend); break; case Ostruct: ret = addstruct(pat, val, start, accept, cap, ncap, end, nend); break; case Ogap: ret = addwild(pat, NULL, start, accept, NULL, NULL, end, nend); break; case Oaddr: ret = addderefpat(pat, val, start, accept, cap, ncap, end, nend); break; default: fatal(pat, "unsupported pattern %s of type %s", opstr[exprop(pat)], tystr(exprtype(pat))); break; } return ret; } /* val must be a pure, fully evaluated value */ Dtree *gendtree(Node *m, Node *val, Node **lbl, size_t nlbl) { Dtree *start, *accept, **end; Node **pat, **cap; size_t npat, ncap, nend; size_t i; pat = m->matchstmt.matches; npat = m->matchstmt.nmatches; end = NULL; nend = 0; start = mkdtree(m->loc, genlbl(m->loc)); for (i = 0; i < npat; i++) { cap = NULL; ncap = 0; accept = mkdtree(lbl[i]->loc, lbl[i]); accept->accept = 1; if (!addpat(pat[i]->match.pat, val, start, accept, &cap, &ncap, &end, &nend)) fatal(pat[i], "pattern matched by earlier case"); addcapture(pat[i]->match.block, cap, ncap); } if (!verifymatch(start)) fatal(m, "nonexhaustive pattern set in match statement"); return start; } void genmatchcode(Dtree *dt, Node ***out, size_t *nout) { Node *jmp, *eq, *fail; int emit; size_t i; if (dt->emitted) return; dt->emitted = 1; /* the we jump to the accept label when generating the parent */ if (dt->accept) { jmp = mkexpr(dt->loc, Ojmp, dt->lbl, NULL); jmp->expr.type = mktype(dt->loc, Tyvoid); lappend(out, nout, jmp); return; } lappend(out, nout, dt->lbl); for (i = 0; i < dt->nnext; i++) { if (i == dt->nnext - 1 && dt->any) { fail = dt->any->lbl; emit = 0; } else { fail = genlbl(dt->loc); emit = 1; } eq = mkexpr(dt->loc, Oeq, dt->load, dt->pat[i], NULL); eq->expr.type = mktype(dt->loc, Tybool); jmp = mkexpr(dt->loc, Ocjmp, eq, dt->next[i]->lbl, fail, NULL); jmp->expr.type = mktype(dt->loc, Tyvoid); lappend(out, nout, jmp); genmatchcode(dt->next[i], out, nout); if (emit) lappend(out, nout, fail); } if (dt->any) { jmp = mkexpr(dt->loc, Ojmp, dt->any->lbl, NULL); jmp->expr.type = mktype(dt->loc, Tyvoid); lappend(out, nout, jmp); genmatchcode(dt->any, out, nout); } } void genonematch(Node *pat, Node *val, Node *iftrue, Node *iffalse, Node ***out, size_t *nout, Node ***cap, size_t *ncap) { Dtree *start, *accept, *reject, **end; size_t nend; end = NULL; nend = 0; start = mkdtree(pat->loc, genlbl(pat->loc)); accept = mkdtree(iftrue->loc, iftrue); accept->accept = 1; reject = mkdtree(iffalse->loc, iffalse); reject->accept = 1; assert(addpat(pat, val, start, accept, cap, ncap, &end, &nend)); acceptall(start, reject); genmatchcode(start, out, nout); } void genmatch(Node *m, Node *val, Node ***out, size_t *nout) { Node **pat, **lbl, *end, *endlbl; size_t npat, nlbl, i; Dtree *dt; lbl = NULL; nlbl = 0; pat = m->matchstmt.matches; npat = m->matchstmt.nmatches; for (i = 0; i < npat; i++) lappend(&lbl, &nlbl, genlbl(pat[i]->match.block->loc)); endlbl = genlbl(m->loc); dt = gendtree(m, val, lbl, nlbl); genmatchcode(dt, out, nout); for (i = 0; i < npat; i++) { end = mkexpr(pat[i]->loc, Ojmp, endlbl, NULL); end->expr.type = mktype(end->loc, Tyvoid); lappend(out, nout, lbl[i]); lappend(out, nout, pat[i]->match.block); lappend(out, nout, end); } lappend(out, nout, endlbl); if (debugopt['m']) { dtreedump(stdout, dt); for (i = 0; i < *nout; i++) dump((*out)[i], stdout); } } void dtreedumplit(FILE *fd, Dtree *dt, Node *n, size_t depth) { char *s; s = lblstr(dt->lbl); switch (n->lit.littype) { case Lvoid: findentf(fd, depth, "%s: Lvoid\n"); break; case Lchr: findentf(fd, depth, "%s: Lchr %c\n", s, n->lit.chrval); break; case Lbool: findentf(fd, depth, "%s: Lbool %s\n", s, n->lit.boolval ? "true" : "false"); break; case Lint: findentf(fd, depth, "%s: Lint %llu\n", s, n->lit.intval); break; case Lflt: findentf(fd, depth, "%s: Lflt %lf\n", s, n->lit.fltval); break; case Lstr: findentf(fd, depth, "%s: Lstr %.*s\n", s, (int)n->lit.strval.len, n->lit.strval.buf); break; case Llbl: findentf(fd, depth, "%s: Llbl %s\n", s, n->lit.lblval); break; case Lfunc: findentf(fd, depth, "%s: Lfunc\n"); break; } } void dtreedumpnode(FILE *fd, Dtree *dt, size_t depth) { size_t i; if (dt->accept) findentf(fd, depth, "%s: accept\n", lblstr(dt->lbl)); for (i = 0; i < dt->nnext; i++) { dtreedumplit(fd, dt, dt->pat[i]->expr.args[0], depth); dtreedumpnode(fd, dt->next[i], depth + 1); } if (dt->any) { findentf(fd, depth, "%s: wildcard\n", lblstr(dt->lbl)); dtreedumpnode(fd, dt->any, depth + 1); } } void dtreedump(FILE *fd, Dtree *dt) { dtreedumpnode(fd, dt, 0); }