ref: 804ca7d4abe311fb94e02c8e1cd56aad8865a959
dir: /parse/type.c/
#include <assert.h> #include <stdlib.h> #include <stdio.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" typedef struct Typename Typename; typedef struct Typair Typair; Type **tytab = NULL; Type **types = NULL; size_t ntypes; Trait **traittab; size_t ntraittab; Node **impltab; size_t nimpltab; Htab *eqcache; struct Typair { uint32_t atid; uint32_t btid; }; static Htab *tydeduptab; /* Built in type constraints */ static int tybfmt(char *buf, size_t len, Bitset *visted, Type *t); char stackness[] = { #define Ty(t, n, stk) stk, #include "types.def" #undef Ty }; int isstacktype(Type *t) { return stackness[tybase(t)->type]; } Type * tydedup(Type *ty) { Type *had; had = htget(tydeduptab, ty); if (!had) { htput(tydeduptab, ty, ty); return ty; } /* if one is emitted, both are */ ty->isemitted = ty->isemitted || had->isemitted; return had; } Type * mktype(Srcloc loc, Ty ty) { Type *t; /* the first 'n' types will be identity mapped: tytab[Tyint], eg, * will map to an instantitaion of Tyint. * * This is accomplished at program startup by calling mktype() on * each builtin type in order. As we do this, we put the type into * the table as ususal, which gives us an identity mapping. */ if (ty <= Tyvalist && ty < ntypes) return types[ty]; t = zalloc(sizeof(Type)); t->type = ty; t->tid = ntypes++; t->loc = loc; tytab = xrealloc(tytab, ntypes * sizeof(Type *)); tytab[t->tid] = NULL; types = xrealloc(types, ntypes * sizeof(Type *)); types[t->tid] = t; if (ty <= Tyvalist) /* the last builtin atomic type */ t->vis = Visbuiltin; return t; } /* * Shallowly duplicates a type, so we can frob * its internals later */ Type * tydup(Type *t) { Type *r; r = mktype(t->loc, t->type); r->resolved = 0; /* re-resolving doesn't hurt */ r->fixed = 0; /* re-resolving doesn't hurt */ r->arg = memdup(t->arg, t->narg * sizeof(Type *)); r->narg = t->narg; r->inst = memdup(t->arg, t->narg * sizeof(Type *)); r->ninst = t->ninst; r->sub = memdup(t->sub, t->nsub * sizeof(Type *)); r->nsub = t->nsub; r->nmemb = t->nmemb; switch (t->type) { case Tyname: r->name = t->name; break; case Tyunres: r->name = t->name; break; case Tyarray: r->asize = t->asize; break; case Typaram: r->pname = strdup(t->pname); break; case Tystruct: r->sdecls = memdup(t->sdecls, t->nmemb * sizeof(Node *)); break; case Tyunion: r->udecls = memdup(t->udecls, t->nmemb * sizeof(Node *)); break; default: break; } return r; } /* steals memb, funcs */ Trait * mktrait(Srcloc loc, Node *name, Type *param, Type **aux, size_t naux, Node **proto, size_t nproto, int isproto) { Trait *t; t = zalloc(sizeof(Trait)); t->uid = ntraittab++; t->loc = loc; if (t->uid < Ntraits) t->vis = Visbuiltin; t->vis = Visintern; t->name = name; t->param = param; t->proto = proto; t->nproto = nproto; t->aux = aux; t->naux = naux; t->isproto = isproto; traittab = xrealloc(traittab, ntraittab * sizeof(Trait *)); traittab[t->uid] = t; return t; } Type * mktyvar(Srcloc loc) { Type *t; t = mktype(loc, Tyvar); return t; } Type * mktyparam(Srcloc loc, char *name) { Type *t; t = mktype(loc, Typaram); t->pname = strdup(name); return t; } Type * mktyunres(Srcloc loc, Node *name, Type **arg, size_t narg) { size_t i; Type *t; /* resolve it in the type inference stage */ t = mktype(loc, Tyunres); t->name = name; t->arg = arg; t->narg = narg; t->env = mkenv(); for (i = 0; i < narg; i++) bindtype(t->env, arg[i]); return t; } Type * mktygeneric(Srcloc loc, Node *name, Type **param, size_t nparam, Type *base) { Type *t; int i; t = mktype(loc, Tygeneric); t->name = name; t->nsub = 1; t->sub = xalloc(sizeof(Type *)); t->sub[0] = base; t->gparam = param; t->ngparam = nparam; t->env = mkenv(); for (i = 0; i < nparam; i++) bindtype(t->env, param[i]); if (!base->env) base->env = t->env; else assert(base->env->super == t->env); return t; } Type * mktyname(Srcloc loc, Node *name, Type *base) { Type *t; t = mktype(loc, Tyname); t->name = name; t->nsub = 1; t->sub = xalloc(sizeof(Type *)); t->sub[0] = base; return t; } Type * mktyarray(Srcloc loc, Type *base, Node *sz) { Type *t; t = mktype(loc, Tyarray); t->nsub = 1; t->nmemb = 1; /* the size is a "member" */ t->sub = xalloc(sizeof(Type *)); t->sub[0] = base; t->asize = sz; return t; } Type * mktyslice(Srcloc loc, Type *base) { Type *t; t = mktype(loc, Tyslice); t->nsub = 1; t->sub = xalloc(sizeof(Type *)); t->sub[0] = base; return t; } Type * mktyptr(Srcloc loc, Type *base) { Type *t; t = mktype(loc, Typtr); t->nsub = 1; t->sub = xalloc(sizeof(Type *)); t->sub[0] = base; return t; } Type * mktytuple(Srcloc loc, Type **sub, size_t nsub) { Type *t; size_t i; t = mktype(loc, Tytuple); t->nsub = nsub; t->sub = xalloc(nsub * sizeof(Type *)); for (i = 0; i < nsub; i++) t->sub[i] = sub[i]; return t; } Type * mktyfunc(Srcloc loc, Node **args, size_t nargs, Type *ret) { Type *t; size_t i; t = mktype(loc, Tyfunc); t->nsub = nargs + 1; t->sub = xalloc((1 + nargs) * sizeof(Type *)); t->sub[0] = ret; t->env = mkenv(); for (i = 0; i < nargs; i++) t->sub[i + 1] = nodetype(args[i]); for (i = 0; i < t->nsub; i++) bindtype(t->env, t->sub[i]); return t; } Type * mktystruct(Srcloc loc, Node **decls, size_t ndecls) { Type *t; Htab *ht; int i; char *s; t = mktype(loc, Tystruct); t->nsub = 0; t->nmemb = ndecls; ht = mkht(strhash, streq); for (i = 0; i < ndecls; i++) { s = declname(decls[i]); if (hthas(ht, s)) fatal(decls[i], "duplicate struct member %s\n", declname(decls[i])); htput(ht, s, s); } htfree(ht); t->sdecls = memdup(decls, ndecls * sizeof(Node *)); return t; } Type * mktyunion(Srcloc loc, Ucon **decls, size_t ndecls) { Type *t; t = mktype(loc, Tyunion); t->nmemb = ndecls; t->udecls = decls; return t; } Ucon * finducon(Type *ty, Node *name) { size_t i; ty = tybase(ty); for (i = 0; i < ty->nmemb; i++) if (!strcmp(namestr(ty->udecls[i]->name), namestr(name))) return ty->udecls[i]; return NULL; } int istyunsigned(Type *t) { switch (tybase(t)->type) { case Tybyte: case Tyuint8: case Tyuint16: case Tyuint: case Tychar: case Tyuint32: case Tyuint64: case Tybool: return 1; default: return 0; } } int istysigned(Type *t) { switch (tybase(t)->type) { case Tyint8: case Tyint16: case Tyint: case Tyint32: case Tyint64: return 1; default: return 0; } } int istyfloat(Type *t) { t = tybase(t); return t->type == Tyflt32 || t->type == Tyflt64; } int istyprimitive(Type *t) { return istysigned(t) || istyunsigned(t) || istyfloat(t); } /* * Checks if a type contains any type * parameers at all (ie, if it generic). */ int hasparamsrec(Type *t, Bitset *visited) { size_t i; if (bshas(visited, t->tid)) return 0; bsput(visited, t->tid); switch (t->type) { case Typaram: return 1; case Tygeneric: return 1; case Tyname: for (i = 0; i < t->narg; i++) if (hasparamsrec(t->arg[i], visited)) return 1; return hasparamsrec(t->sub[0], visited); case Tyunres: for (i = 0; i < t->narg; i++) if (hasparamsrec(t->arg[i], visited)) return 1; break; case Tystruct: for (i = 0; i < t->nmemb; i++) if (hasparamsrec(t->sdecls[i]->decl.type, visited)) return 1; break; case Tyunion: for (i = 0; i < t->nmemb; i++) if (t->udecls[i]->etype && hasparamsrec(t->udecls[i]->etype, visited)) return 1; break; default: for (i = 0; i < t->nsub; i++) if (hasparamsrec(t->sub[i], visited)) return 1; break; } return 0; } int hasparams(Type *t) { Bitset *visited; if (t->hasparams) return 1; visited = mkbs(); t->hasparams = hasparamsrec(t, visited); bsfree(visited); return t->hasparams; } Type * tybase(Type *t) { assert(t != NULL); while (t->type == Tyname || t->type == Tygeneric) t = t->sub[0]; return t; } static int namefmt(char *buf, size_t len, Node *n) { char *p; char *end; p = buf; end = p + len; if (n->name.ns) p += bprintf(p, end - p, "%s.", n->name.ns); p += bprintf(p, end - p, "%s", n->name.name); return len - (end - p); } int traitfmt(char *buf, size_t len, Type *t) { size_t i; char *p; char *end; char *sep; if (!t->trneed || !bscount(t->trneed)) return 0; p = buf; end = p + len; p += bprintf(p, end - p, " :: "); sep = ""; for (i = 0; bsiter(t->trneed, &i); i++) { p += bprintf(p, end - p, "%s%s", sep, namestr(traittab[i]->name)); sep = ","; } return p - buf; } static int fmtstruct(char *buf, size_t len, Bitset *visited, Type *t) { size_t i; char *end, *p; char *name; char subbuf[512]; p = buf; end = p + len; p += bprintf(p, end - p, "struct\n"); for (i = 0; i < t->nmemb; i++) { name = declname(t->sdecls[i]); tybfmt(subbuf, sizeof subbuf, visited, decltype(t->sdecls[i])); p += bprintf(p, end - p, "\t%s:%s\n ", name, subbuf); } p += bprintf(p, end - p, ";;"); return p - buf; } static int fmtunion(char *buf, size_t len, Bitset *visited, Type *t) { char subbuf[512]; char *name, *ns, *sep; char *end, *p; size_t i; Node *n; p = buf; end = p + len; p += bprintf(p, end - p, "union\n"); for (i = 0; i < t->nmemb; i++) { n = t->udecls[i]->name; if (n->name.ns) { sep = "."; ns = n->name.ns; } else { sep = ""; ns = ""; } name = n->name.name; if (t->udecls[i]->etype) { tybfmt(subbuf, sizeof subbuf, visited, t->udecls[i]->etype); p += bprintf(p, end - p, "\t`%s%s%s %s\n", ns, sep, name, subbuf); } else { p += bprintf(p, end - p, "\t`%s%s%s\n", ns, sep, name); } } p += bprintf(p, end - p, ";;"); return p - buf; } static int fmtlist(char *buf, size_t len, Bitset *visited, Type **arg, size_t narg) { char *end, *p, *sep; size_t i; sep = ""; p = buf; end = p + len; p += bprintf(p, end - p, "("); for (i = 0; i < narg; i++) { p += bprintf(p, end - p, "%s", sep); p += tybfmt(p, end - p, visited, arg[i]); sep = ", "; } p += bprintf(p, end - p, ")"); return p - buf; } static int tybfmt(char *buf, size_t len, Bitset *visited, Type *t) { size_t i; char *p; char *end; char *sep; if (t) t = tysearch(t); sep = ""; p = buf; end = p + len; if (!t) { p += bprintf(p, end - p, "tynil"); return len - (end - p); } if (bshas(visited, t->tid)) { p += bprintf(buf, len, "<...>"); return len - (end - p); } bsput(visited, t->tid); switch (t->type) { case Tybad: p += bprintf(p, end - p, "BAD"); break; case Tyvoid: p += bprintf(p, end - p, "void"); break; case Tybool: p += bprintf(p, end - p, "bool"); break; case Tychar: p += bprintf(p, end - p, "char"); break; case Tyint8: p += bprintf(p, end - p, "int8"); break; case Tyint16: p += bprintf(p, end - p, "int16"); break; case Tyint: p += bprintf(p, end - p, "int"); break; case Tyint32: p += bprintf(p, end - p, "int32"); break; case Tyint64: p += bprintf(p, end - p, "int64"); break; case Tybyte: p += bprintf(p, end - p, "byte"); break; case Tyuint8: p += bprintf(p, end - p, "uint8"); break; case Tyuint16: p += bprintf(p, end - p, "uint16"); break; case Tyuint: p += bprintf(p, end - p, "uint"); break; case Tyuint32: p += bprintf(p, end - p, "uint32"); break; case Tyuint64: p += bprintf(p, end - p, "uint64"); break; case Tyflt32: p += bprintf(p, end - p, "flt32"); break; case Tyflt64: p += bprintf(p, end - p, "flt64"); break; case Tyvalist: p += bprintf(p, end - p, "..."); break; case Tyvar: p += bprintf(p, end - p, "$%d", t->tid); break; case Typtr: p += tybfmt(p, end - p, visited, t->sub[0]); p += bprintf(p, end - p, "#"); break; case Tyslice: p += tybfmt(p, end - p, visited, t->sub[0]); p += bprintf(p, end - p, "[:]"); break; case Tyarray: p += tybfmt(p, end - p, visited, t->sub[0]); if (t->asize) { i = t->asize->expr.args[0]->lit.intval; p += bprintf(p, end - p, "[%zd]", i); } else { p += bprintf(p, end - p, "[]"); } break; case Tycode: case Tyfunc: p += bprintf(p, end - p, "("); for (i = 1; i < t->nsub; i++) { p += bprintf(p, end - p, "%s", sep); p += tybfmt(p, end - p, visited, t->sub[i]); sep = ", "; } p += bprintf(p, end - p, " -> "); p += tybfmt(p, end - p, visited, t->sub[0]); p += bprintf(p, end - p, ")"); break; case Tytuple: p += bprintf(p, end - p, "("); for (i = 0; i < t->nsub; i++) { p += bprintf(p, end - p, "%s", sep); p += tybfmt(p, end - p, visited, t->sub[i]); sep = ","; } p += bprintf(p, end - p, ")"); break; case Typaram: p += bprintf(p, end - p, "@%s", t->pname); break; case Tyunres: p += namefmt(p, end - p, t->name); if (t->narg) p += fmtlist(p, end - p, visited, t->arg, t->narg); break; case Tyname: if (t->name->name.ns) p += bprintf(p, end - p, "%s.", t->name->name.ns); p += bprintf(p, end - p, "%s", namestr(t->name)); if (t->narg) p += fmtlist(p, end - p, visited, t->arg, t->narg); break; case Tygeneric: if (t->name->name.ns) p += bprintf(p, end - p, "%s.", t->name->name.ns); p += bprintf(p, end - p, "%s", namestr(t->name)); if (t->ngparam) p += fmtlist(p, end - p, visited, t->gparam, t->ngparam); break; case Tystruct: p += fmtstruct(p, end - p, visited, t); break; case Tyunion: p += fmtunion(p, end - p, visited, t); break; case Ntypes: die("Ntypes is not a type"); break; } /* we only show constraints on non-builtin typaram */ if (t->type == Tyvar || t->type == Typaram) p += traitfmt(p, end - p, t); bsdel(visited, t->tid); return p - buf; } char * tyfmt(char *buf, size_t len, Type *t) { Bitset *bs; bs = mkbs(); tybfmt(buf, len, bs, t); bsfree(bs); return buf; } char * traitstr(Type *t) { char buf[1024]; traitfmt(buf, 1024, t); return strdup(buf); } char * tystr(Type *t) { char buf[1024]; tyfmt(buf, 1024, t); return strdup(buf); } ulong tyhash(void *ty) { size_t i; Type *t; ulong hash; t = (Type *)ty; switch (t->type) { case Tyvar: hash = inthash(t->tid); break; case Tyunion: hash = inthash(t->type); break; case Tystruct: hash = inthash(t->type); break; case Tyname: hash = namehash(t->name); break; case Typaram: hash = strhash(t->pname); break; default: hash = inthash(t->type); break; } for (i = 0; i < t->narg; i++) hash ^= tyhash(t->arg[i]); return hash; } static ulong typairhash(void *pp) { Typair *p; p = pp; return inthash(p->atid) ^ inthash(p->btid); } static int typaireq(void *a, void *b) { Typair *pa, *pb; pa = a; pb = b; return pa->atid == pb->atid && pa->btid == pb->btid; } static void equate(int32_t ta, int32_t tb) { Typair *pa, *pb; /* * unfortunately, we can't negatively cache * here because tyvars may unify down and * eventually make the negative result inaccurate. */ pa = zalloc(sizeof(Typair)); *pa = (Typair){ta, tb}; pb = zalloc(sizeof(Typair)); *pb = (Typair){ta, tb}; htput(eqcache, pa, pa); htput(eqcache, pb, pb); } int tyeq_rec(Type *a, Type *b, Bitset *avisited, Bitset *bvisited, int search) { Type *x, *y; Typair p; size_t i; int ret; if (!a || !b) return a == b; if (search) { a = tysearch(a); b = tysearch(b); } if (a->type != b->type) return 0; if (a->narg != b->narg) return 0; if (a->nsub != b->nsub) return 0; if (a->nmemb != b->nmemb) return 0; p = (Typair){a->tid, b->tid}; if (hthas(eqcache, &p)) return 1; if (a->tid == b->tid) return 1; if (bshas(avisited, a->tid) && bshas(bvisited, b->tid)) return 1; if (bshas(bvisited, a->tid) && bshas(avisited, b->tid)) return 1; bsput(avisited, a->tid); bsput(bvisited, b->tid); ret = 1; switch (a->type) { case Typaram: ret = streq(a->pname, b->pname); break; case Tyvar: if (a->tid != b->tid) ret = 0; break; case Tyunres: if (!nameeq(a->name, b->name)) ret = 0; case Tyunion: for (i = 0; i < a->nmemb; i++) { if (!nameeq(a->udecls[i]->name, b->udecls[i]->name)) ret = 0; x = a->udecls[i]->etype; y = b->udecls[i]->etype; if (!tyeq_rec(x, y, avisited, bvisited, search)) ret = 0; if (!ret) break; } break; case Tystruct: for (i = 0; i < a->nmemb; i++) { if (strcmp(declname(a->sdecls[i]), declname(b->sdecls[i])) != 0) ret = 0; x = decltype(a->sdecls[i]); y = decltype(b->sdecls[i]); if (!tyeq_rec(x, y, avisited, bvisited, search)) ret = 0; if (!ret) break; } break; case Tygeneric: if (!nameeq(a->name, b->name)) ret = 0; for (i = 0; i < a->ngparam; i++) { ret = ret && tyeq_rec(a->gparam[i], b->gparam[i], avisited, bvisited, search); if (!ret) break; } break; case Tyname: if (!nameeq(a->name, b->name)) ret = 0; for (i = 0; i < a->narg; i++) { ret = ret && tyeq_rec(a->arg[i], b->arg[i], avisited, bvisited, search); if (!ret) break; } break; case Tyarray: if (arraysz(a->asize) != arraysz(b->asize)) ret = 0; break; default: break; } if (ret) { for (i = 0; i < a->nsub; i++) { x = a->sub[i]; y = b->sub[i]; if (!tyeq_rec(x, y, avisited, bvisited, search)) { ret = 0; break; } } } if (ret) equate(a->tid, b->tid); bsdel(avisited, a->tid); bsdel(bvisited, b->tid); return ret; } int tystricteq(void *a, void *b) { Bitset *avisited, *bvisited; int eq; if (a == b) return 1; avisited = mkbs(); bvisited = mkbs(); eq = tyeq_rec(a, b, avisited, bvisited, 0); bsfree(avisited); bsfree(bvisited); return eq; } int tyeq(void *a, void *b) { Bitset *avisited, *bvisited; int eq; if (a == b) return 1; avisited = mkbs(); bvisited = mkbs(); eq = tyeq_rec(a, b, avisited, bvisited, 1); bsfree(avisited); bsfree(bvisited); return eq; } size_t tyidfmt(char *buf, size_t sz, Type *ty) { size_t i; char *p, *end; ty = tysearch(ty); p = buf; end = buf + sz; switch (ty->type) { case Ntypes: case Tybad: die("invalid type"); break; case Tyvar: die("tyvar has no idstr"); break; case Tyvoid: p += bprintf(p, end - p, "v"); break; case Tychar: p += bprintf(p, end - p, "c"); break; case Tybool: p += bprintf(p, end - p, "t"); break; case Tyint8: p += bprintf(p, end - p, "b"); break; case Tyint16: p += bprintf(p, end - p, "s"); break; case Tyint: p += bprintf(p, end - p, "i"); break; case Tyint32: p += bprintf(p, end - p, "w"); break; case Tyint64: p += bprintf(p, end - p, "q"); break; case Tybyte: p += bprintf(p, end - p, "H"); break; case Tyuint8: p += bprintf(p, end - p, "B"); break; case Tyuint16: p += bprintf(p, end - p, "S"); break; case Tyuint: p += bprintf(p, end - p, "I"); break; case Tyuint32: p += bprintf(p, end - p, "W"); break; case Tyuint64: p += bprintf(p, end - p, "Q"); break; case Tyflt32: p += bprintf(p, end - p, "f"); break; case Tyflt64: p += bprintf(p, end - p, "d"); break; case Tyvalist: p += bprintf(p, end - p, "V"); break; case Typtr: p += bprintf(p, end - p, "$p"); p += tyidfmt(p, end - p, ty->sub[0]); break; case Tyarray: p += bprintf(p, end - p, "$a%lld", (vlong)arraysz(ty->asize)); p += tyidfmt(p, end - p, ty->sub[0]); break; case Tyslice: p += bprintf(p, end - p, "$s"); p += tyidfmt(p, end - p, ty->sub[0]); break; case Tycode: p += bprintf(p, end - p, "$F"); for (i = 0; i < ty->nsub; i++) { p += tyidfmt(p, end - p, ty->sub[i]); p += bprintf(p, end - p, "$"); } break; case Tyfunc: p += bprintf(p, end - p, "$f"); for (i = 0; i < ty->nsub; i++) { p += tyidfmt(p, end - p, ty->sub[i]); p += bprintf(p, end - p, "$"); } break; case Tytuple: p += bprintf(p, end - p, "$e"); for (i = 0; i < ty->nsub; i++) { p += tyidfmt(p, end - p, ty->sub[i]); } p += bprintf(p, end - p, "$"); break; case Tystruct: p += bprintf(p, end - p, "$t%lld", ty->tid); break; case Tyunion: p += bprintf(p, end - p, "$u%lld", ty->tid); break; case Typaram: p += bprintf(p, end - p, "$r%s", ty->pname); break; case Tyunres: case Tyname: p += bprintf(p, end - p, "$n"); if (ty->name->name.ns) p += bprintf(p, end - p, "%s", ty->name->name.ns); p += bprintf(p, end - p, "$%s", ty->name->name.name); if (ty->arg) for (i = 0; i < ty->narg; i++) p += tyidfmt(p, end - p, ty->arg[i]); else if (ty->gparam) for (i = 0; i < ty->ngparam; i++) p += tyidfmt(p, end - p, ty->gparam[i]); break; case Tygeneric: break; } return p - buf; } void iterableinit(Stab *st, Trait *tr) { Node *func, *arg, **args; Type *ty; size_t nargs; /* trait iter @a -> @b = ... */ tr->param = mktyparam(Zloc, "a"); tr->aux = malloc(sizeof(Type*)); tr->aux[0] = mktyparam(Zloc, "b"); tr->naux = 1; /* __iternext__ : (it : @a#, outval : @b# -> bool) */ args = NULL; nargs = 0; arg = mkdecl(Zloc, mkname(Zloc, "iter"), mktyptr(Zloc, mktyparam(Zloc, "a"))); lappend(&args, &nargs, arg); arg = mkdecl(Zloc, mkname(Zloc, "ret"), mktyptr(Zloc, mktyparam(Zloc, "b"))); lappend(&args, &nargs, arg); ty = mktyfunc(Zloc, args, nargs, mktype(Zloc, Tybool)); func = mkdecl(Zloc, mkname(Zloc, "__iternext__"), ty); func->decl.trait = tr; func->decl.impls = mkht(tyhash, tyeq); func->decl.isgeneric = 1; func->decl.isconst = 1; func->decl.isglobl = 1; func->decl.isextern = 1; lappend(&tr->proto, &tr->nproto, func); putdcl(st, func); /* __iterfin__ : (it : @a#, outval : @b# -> void) */ args = NULL; nargs = 0; arg = mkdecl(Zloc, mkname(Zloc, "iter"), mktyptr(Zloc, mktyparam(Zloc, "a"))); lappend(&args, &nargs, arg); arg = mkdecl(Zloc, mkname(Zloc, "val"), mktyptr(Zloc, mktyparam(Zloc, "b"))); lappend(&args, &nargs, arg); ty = mktyfunc(Zloc, args, nargs, mktype(Zloc, Tyvoid)); func = mkdecl(Zloc, mkname(Zloc, "__iterfin__"), ty); func->decl.trait = tr; func->decl.impls = mkht(tyhash, tyeq); func->decl.isgeneric = 1; func->decl.isconst = 1; func->decl.isglobl = 1; func->decl.isextern = 1; lappend(&tr->proto, &tr->nproto, func); putdcl(st, func); } void disposableinit(Stab *st, Trait *tr) { Node *func, *arg, **args; Type *ty; size_t nargs; tr->param = mktyparam(Zloc, "a"); tr->naux = 0; /* __dispose__ : (val : @a -> void) */ args = NULL; nargs = 0; arg = mkdecl(Zloc, mkname(Zloc, "val"), mktyparam(Zloc, "a")); lappend(&args, &nargs, arg); ty = mktyfunc(Zloc, args, nargs, mktype(Zloc, Tyvoid)); func = mkdecl(Zloc, mkname(Zloc, "__dispose__"), ty); func->decl.trait = tr; func->decl.impls = mkht(tyhash, tyeq); func->decl.isgeneric = 1; func->decl.isconst = 1; func->decl.isglobl = 1; func->decl.isextern = 1; lappend(&tr->proto, &tr->nproto, func); putdcl(st, func); } void tyinit(Stab *st) { Type *ty; Trait *tr; eqcache = mkht(typairhash, typaireq); tydeduptab = mkht(tyhash, tystricteq); /* this must be done after all the types are created, otherwise we will * clobber the memoized bunch of types with the type params. */ #define Tc(c, n) \ tr = mktrait(Zloc, \ mkname(Zloc, n), NULL, \ NULL, 0, \ NULL, 0, \ 0); \ puttrait(st, tr->name, tr); #include "trait.def" #undef Tc /* Definining and registering the types has to go after we define the * constraints, otherwise they will have no constraints set on them. */ #define Ty(t, n, stk) \ if (t != Ntypes) { \ ty = mktype(Zloc, t); \ if (n) { \ puttype(st, mkname(Zloc, n), ty); \ htput(tydeduptab, ty, ty); \ } \ } #include "types.def" #undef Ty /* * finally, initializing the builtin traits for use in user code * comes last, since this needs both the types and the traits set up */ iterableinit(st, traittab[Tciter]); disposableinit(st, traittab[Tcdisp]); }