ref: c116550e6a41572796e4db65e4f6acbcb3d9d6f8
dir: /limbo/types.c/
#include "limbo.h" #include "mp.h" #include "libsec.h" char *kindname[Tend] = { /* Tnone */ "no type", /* Tadt */ "adt", /* Tadtpick */ "adt", /* Tarray */ "array", /* Tbig */ "big", /* Tbyte */ "byte", /* Tchan */ "chan", /* Treal */ "real", /* Tfn */ "fn", /* Tint */ "int", /* Tlist */ "list", /* Tmodule */ "module", /* Tref */ "ref", /* Tstring */ "string", /* Ttuple */ "tuple", /* Texception */ "exception", /* Tfix */ "fixed point", /* Tpoly */ "polymorphic", /* Tainit */ "array initializers", /* Talt */ "alt channels", /* Tany */ "polymorphic type", /* Tarrow */ "->", /* Tcase */ "case int labels", /* Tcasel */ "case big labels", /* Tcasec */ "case string labels", /* Tdot */ ".", /* Terror */ "type error", /* Tgoto */ "goto labels", /* Tid */ "id", /* Tiface */ "module interface", /* Texcept */ "exception handler table", /* Tinst */ "instantiated type", }; Tattr tattr[Tend] = { /* isptr refable conable big vis */ /* Tnone */ { 0, 0, 0, 0, 0, }, /* Tadt */ { 0, 1, 1, 1, 1, }, /* Tadtpick */ { 0, 1, 0, 1, 1, }, /* Tarray */ { 1, 0, 0, 0, 1, }, /* Tbig */ { 0, 0, 1, 1, 1, }, /* Tbyte */ { 0, 0, 1, 0, 1, }, /* Tchan */ { 1, 0, 0, 0, 1, }, /* Treal */ { 0, 0, 1, 1, 1, }, /* Tfn */ { 0, 1, 0, 0, 1, }, /* Tint */ { 0, 0, 1, 0, 1, }, /* Tlist */ { 1, 0, 0, 0, 1, }, /* Tmodule */ { 1, 0, 0, 0, 1, }, /* Tref */ { 1, 0, 0, 0, 1, }, /* Tstring */ { 1, 0, 1, 0, 1, }, /* Ttuple */ { 0, 1, 1, 1, 1, }, /* Texception */ { 0, 0, 0, 1, 1, }, /* Tfix */ { 0, 0, 1, 0, 1, }, /* Tpoly */ { 1, 0, 0, 0, 1, }, /* Tainit */ { 0, 0, 0, 1, 0, }, /* Talt */ { 0, 0, 0, 1, 0, }, /* Tany */ { 1, 0, 0, 0, 0, }, /* Tarrow */ { 0, 0, 0, 0, 1, }, /* Tcase */ { 0, 0, 0, 1, 0, }, /* Tcasel */ { 0, 0, 0, 1, 0, }, /* Tcasec */ { 0, 0, 0, 1, 0, }, /* Tdot */ { 0, 0, 0, 0, 1, }, /* Terror */ { 0, 1, 1, 0, 0, }, /* Tgoto */ { 0, 0, 0, 1, 0, }, /* Tid */ { 0, 0, 0, 0, 1, }, /* Tiface */ { 0, 0, 0, 1, 0, }, /* Texcept */ { 0, 0, 0, 1, 0, }, /* Tinst */ { 0, 1, 1, 1, 1, }, }; static Teq *eqclass[Tend]; static Type ztype; static int eqrec; static int eqset; static int tcomset; static int idcompat(Decl*, Decl*, int, int); static int rtcompat(Type *t1, Type *t2, int any, int); static int assumeteq(Type *t1, Type *t2); static int assumetcom(Type *t1, Type *t2); static int cleartcomrec(Type *t); static int rtequal(Type*, Type*); static int cleareqrec(Type*); static int idequal(Decl*, Decl*, int, int*); static int pyequal(Type*, Type*); static int rtsign(Type*, uchar*, int, int); static int clearrec(Type*); static int idsign(Decl*, int, uchar*, int, int); static int idsign1(Decl*, int, uchar*, int, int); static int raisessign(Node *n, uchar *sig, int lensig, int spos); static void ckfix(Type*, double); static int fnunify(Type*, Type*, Tpair**, int); static int rtunify(Type*, Type*, Tpair**, int); static int idunify(Decl*, Decl*, Tpair**, int); static int toccurs(Type*, Tpair**); static int fncleareqrec(Type*, Type*); static Type* comtype(Src*, Type*, Decl*); static Type* duptype(Type*); static int tpolys(Type*); static void addtmap(Type *t1, Type *t2, Tpair **tpp) { Tpair *tp; tp = allocmem(sizeof *tp); tp->t1 = t1; tp->t2 = t2; tp->nxt = *tpp; *tpp = tp; } Type* valtmap(Type *t, Tpair *tp) { for( ; tp != nil; tp = tp->nxt) if(tp->t1 == t) return tp->t2; return t; } Typelist* addtype(Type *t, Typelist *hd) { Typelist *tl, *p; tl = allocmem(sizeof(*tl)); tl->t = t; tl->nxt = nil; if(hd == nil) return tl; for(p = hd; p->nxt != nil; p = p->nxt) ; p->nxt = tl; return hd; } void typeinit(void) { Decl *id; anontupsym = enter(".tuple", 0); ztype.sbl = -1; ztype.ok = 0; ztype.rec = 0; tbig = mktype(&noline, &noline, Tbig, nil, nil); tbig->size = IBY2LG; tbig->align = IBY2LG; tbig->ok = OKmask; tbyte = mktype(&noline, &noline, Tbyte, nil, nil); tbyte->size = 1; tbyte->align = 1; tbyte->ok = OKmask; tint = mktype(&noline, &noline, Tint, nil, nil); tint->size = IBY2WD; tint->align = IBY2WD; tint->ok = OKmask; treal = mktype(&noline, &noline, Treal, nil, nil); treal->size = IBY2FT; treal->align = IBY2FT; treal->ok = OKmask; tstring = mktype(&noline, &noline, Tstring, nil, nil); tstring->size = IBY2WD; tstring->align = IBY2WD; tstring->ok = OKmask; texception = mktype(&noline, &noline, Texception, nil, nil); texception->size = IBY2WD; texception->align = IBY2WD; texception->ok = OKmask; tany = mktype(&noline, &noline, Tany, nil, nil); tany->size = IBY2WD; tany->align = IBY2WD; tany->ok = OKmask; tnone = mktype(&noline, &noline, Tnone, nil, nil); tnone->size = 0; tnone->align = 1; tnone->ok = OKmask; terror = mktype(&noline, &noline, Terror, nil, nil); terror->size = 0; terror->align = 1; terror->ok = OKmask; tunknown = mktype(&noline, &noline, Terror, nil, nil); tunknown->size = 0; tunknown->align = 1; tunknown->ok = OKmask; tfnptr = mktype(&noline, &noline, Ttuple, nil, nil); id = tfnptr->ids = mkids(&nosrc, nil, tany, nil); id->store = Dfield; id->offset = 0; id->sym = enter("t0", 0); id->src = nosrc; id = tfnptr->ids->next = mkids(&nosrc, nil, tint, nil); id->store = Dfield; id->offset = IBY2WD; id->sym = enter("t1", 0); id->src = nosrc; rtexception = mktype(&noline, &noline, Tref, texception, nil); rtexception->size = IBY2WD; rtexception->align = IBY2WD; rtexception->ok = OKmask; } void typestart(void) { descriptors = nil; nfns = 0; nadts = 0; selfdecl = nil; if(tfnptr->decl != nil) tfnptr->decl->desc = nil; memset(eqclass, 0, sizeof eqclass); typebuiltin(mkids(&nosrc, enter("int", 0), nil, nil), tint); typebuiltin(mkids(&nosrc, enter("big", 0), nil, nil), tbig); typebuiltin(mkids(&nosrc, enter("byte", 0), nil, nil), tbyte); typebuiltin(mkids(&nosrc, enter("string", 0), nil, nil), tstring); typebuiltin(mkids(&nosrc, enter("real", 0), nil, nil), treal); } Teq* modclass(void) { return eqclass[Tmodule]; } Type* mktype(Line *start, Line *stop, int kind, Type *tof, Decl *args) { Type *t; t = allocmem(sizeof *t); *t = ztype; t->src.start = *start; t->src.stop = *stop; t->kind = kind; t->tof = tof; t->ids = args; return t; } Type* mktalt(Case *c) { Type *t; char buf[32]; static int nalt; t = mktype(&noline, &noline, Talt, nil, nil); t->decl = mkdecl(&nosrc, Dtype, t); seprint(buf, buf+sizeof(buf), ".a%d", nalt++); t->decl->sym = enter(buf, 0); t->cse = c; return usetype(t); } /* * copy t and the top level of ids */ Type* copytypeids(Type *t) { Type *nt; Decl *id, *new, *last; nt = allocmem(sizeof *nt); *nt = *t; last = nil; for(id = t->ids; id != nil; id = id->next){ new = allocmem(sizeof *id); *new = *id; if(last == nil) nt->ids = new; else last->next = new; last = new; } return nt; } /* * make each of the ids have type t */ Decl* typeids(Decl *ids, Type *t) { Decl *id; if(ids == nil) return nil; ids->ty = t; for(id = ids->next; id != nil; id = id->next){ id->ty = t; } return ids; } void typebuiltin(Decl *d, Type *t) { d->ty = t; t->decl = d; installids(Dtype, d); } Node * fielddecl(int store, Decl *ids) { Node *n; n = mkn(Ofielddecl, nil, nil); n->decl = ids; for(; ids != nil; ids = ids->next) ids->store = store; return n; } Node * typedecl(Decl *ids, Type *t) { Node *n; if(t->decl == nil) t->decl = ids; n = mkn(Otypedecl, nil, nil); n->decl = ids; n->ty = t; for(; ids != nil; ids = ids->next) ids->ty = t; return n; } void typedecled(Node *n) { installids(Dtype, n->decl); } Node * adtdecl(Decl *ids, Node *fields) { Node *n; Type *t; n = mkn(Oadtdecl, nil, nil); t = mktype(&ids->src.start, &ids->src.stop, Tadt, nil, nil); n->decl = ids; n->left = fields; n->ty = t; t->decl = ids; for(; ids != nil; ids = ids->next) ids->ty = t; return n; } void adtdecled(Node *n) { Decl *d, *ids; d = n->ty->decl; installids(Dtype, d); if(n->ty->polys != nil){ pushscope(nil, Sother); installids(Dtype, n->ty->polys); } pushscope(nil, Sother); fielddecled(n->left); n->ty->ids = popscope(); if(n->ty->polys != nil) n->ty->polys = popscope(); for(ids = n->ty->ids; ids != nil; ids = ids->next) ids->dot = d; } void fielddecled(Node *n) { for(; n != nil; n = n->right){ switch(n->op){ case Oseq: fielddecled(n->left); break; case Oadtdecl: adtdecled(n); return; case Otypedecl: typedecled(n); return; case Ofielddecl: installids(Dfield, n->decl); return; case Ocondecl: condecled(n); gdasdecl(n->right); return; case Oexdecl: exdecled(n); return; case Opickdecl: pickdecled(n); return; default: fatal("can't deal with %O in fielddecled", n->op); } } } int pickdecled(Node *n) { Decl *d; int tag; if(n == nil) return 0; tag = pickdecled(n->left); pushscope(nil, Sother); fielddecled(n->right->right); d = n->right->left->decl; d->ty->ids = popscope(); installids(Dtag, d); for(; d != nil; d = d->next) d->tag = tag++; return tag; } /* * make the tuple type used to initialize adt t */ Type* mkadtcon(Type *t) { Decl *id, *new, *last; Type *nt; nt = allocmem(sizeof *nt); *nt = *t; last = nil; nt->ids = nil; nt->kind = Ttuple; for(id = t->ids; id != nil; id = id->next){ if(id->store != Dfield) continue; new = allocmem(sizeof *id); *new = *id; new->cyc = 0; if(last == nil) nt->ids = new; else last->next = new; last = new; } last->next = nil; return nt; } /* * make the tuple type used to initialize t, * an adt with pick fields tagged by tg */ Type* mkadtpickcon(Type *t, Type *tgt) { Decl *id, *new, *last; Type *nt; last = mkids(&tgt->decl->src, nil, tint, nil); last->store = Dfield; nt = mktype(&t->src.start, &t->src.stop, Ttuple, nil, last); for(id = t->ids; id != nil; id = id->next){ if(id->store != Dfield) continue; new = allocmem(sizeof *id); *new = *id; new->cyc = 0; last->next = new; last = new; } for(id = tgt->ids; id != nil; id = id->next){ if(id->store != Dfield) continue; new = allocmem(sizeof *id); *new = *id; new->cyc = 0; last->next = new; last = new; } last->next = nil; return nt; } /* * make an identifier type */ Type* mkidtype(Src *src, Sym *s) { Type *t; t = mktype(&src->start, &src->stop, Tid, nil, nil); if(s->unbound == nil){ s->unbound = mkdecl(src, Dunbound, nil); s->unbound->sym = s; } t->decl = s->unbound; return t; } /* * make a qualified type for t->s */ Type* mkarrowtype(Line *start, Line *stop, Type *t, Sym *s) { Src src; src.start = *start; src.stop = *stop; t = mktype(start, stop, Tarrow, t, nil); if(s->unbound == nil){ s->unbound = mkdecl(&src, Dunbound, nil); s->unbound->sym = s; } t->decl = s->unbound; return t; } /* * make a qualified type for t.s */ Type* mkdottype(Line *start, Line *stop, Type *t, Sym *s) { Src src; src.start = *start; src.stop = *stop; t = mktype(start, stop, Tdot, t, nil); if(s->unbound == nil){ s->unbound = mkdecl(&src, Dunbound, nil); s->unbound->sym = s; } t->decl = s->unbound; return t; } Type* mkinsttype(Src* src, Type *tt, Typelist *tl) { Type *t; t = mktype(&src->start, &src->stop, Tinst, tt, nil); t->u.tlist = tl; return t; } /* * look up the name f in the fields of a module, adt, or tuple */ Decl* namedot(Decl *ids, Sym *s) { for(; ids != nil; ids = ids->next) if(ids->sym == s) return ids; return nil; } /* * complete the declaration of an adt * methods frames get sized in module definition or during function definition * place the methods at the end of the field list */ void adtdefd(Type *t) { Decl *d, *id, *next, *aux, *store, *auxhd, *tagnext; int seentags; if(debug['x']) print("adt %T defd\n", t); d = t->decl; tagnext = nil; store = nil; for(id = t->polys; id != nil; id = id->next){ id->store = Dtype; id->ty = verifytypes(id->ty, d, nil); } for(id = t->ids; id != nil; id = next){ if(id->store == Dtag){ if(t->tags != nil) error(id->src.start, "only one set of pick fields allowed"); tagnext = pickdefd(t, id); next = tagnext; if(store != nil) store->next = next; else t->ids = next; continue; }else{ id->dot = d; next = id->next; store = id; } } aux = nil; store = nil; auxhd = nil; seentags = 0; for(id = t->ids; id != nil; id = next){ if(id == tagnext) seentags = 1; next = id->next; id->dot = d; id->ty = topvartype(verifytypes(id->ty, d, nil), id, 1, 1); if(id->store == Dfield && id->ty->kind == Tfn) id->store = Dfn; if(id->store == Dfn || id->store == Dconst){ if(store != nil) store->next = next; else t->ids = next; if(aux != nil) aux->next = id; else auxhd = id; aux = id; }else{ if(seentags) error(id->src.start, "pick fields must be the last data fields in an adt"); store = id; } } if(aux != nil) aux->next = nil; if(store != nil) store->next = auxhd; else t->ids = auxhd; for(id = t->tags; id != nil; id = id->next){ id->ty = verifytypes(id->ty, d, nil); if(id->ty->tof == nil) id->ty->tof = mkadtpickcon(t, id->ty); } } /* * assemble the data structure for an adt with a pick clause. * since the scoping rules for adt pick fields are strange, * we have a customized check for overlapping definitions. */ Decl* pickdefd(Type *t, Decl *tg) { Decl *id, *xid, *lasttg, *d; Type *tt; int tag; lasttg = nil; d = t->decl; t->tags = tg; tag = 0; while(tg != nil){ tt = tg->ty; if(tt->kind != Tadtpick || tg->tag != tag) break; tt->decl = tg; lasttg = tg; for(; tg != nil; tg = tg->next){ if(tg->ty != tt) break; tag++; lasttg = tg; tg->dot = d; } for(id = tt->ids; id != nil; id = id->next){ xid = namedot(t->ids, id->sym); if(xid != nil) error(id->src.start, "redeclaration of %K, previously declared as %k on line %L", id, xid, xid->src.start); id->dot = d; } } if(lasttg == nil){ error(t->src.start, "empty pick field declaration in %T", t); t->tags = nil; }else lasttg->next = nil; d->tag = tag; return tg; } Node* moddecl(Decl *ids, Node *fields) { Node *n; Type *t; n = mkn(Omoddecl, mkn(Oseq, nil, nil), nil); t = mktype(&ids->src.start, &ids->src.stop, Tmodule, nil, nil); n->decl = ids; n->left = fields; n->ty = t; return n; } void moddecled(Node *n) { Decl *d, *ids, *im, *dot; Type *t; Sym *s; char buf[StrSize]; int isimp; Dlist *dm, *dl; d = n->decl; installids(Dtype, d); isimp = 0; for(ids = d; ids != nil; ids = ids->next){ for(im = impmods; im != nil; im = im->next){ if(ids->sym == im->sym){ isimp = 1; d = ids; dm = malloc(sizeof(Dlist)); dm->d = ids; dm->next = nil; if(impdecls == nil) impdecls = dm; else{ for(dl = impdecls; dl->next != nil; dl = dl->next) ; dl->next = dm; } } } ids->ty = n->ty; } pushscope(nil, Sother); fielddecled(n->left); d->ty->ids = popscope(); /* * make the current module the -> parent of all contained decls-> */ for(ids = d->ty->ids; ids != nil; ids = ids->next) ids->dot = d; t = d->ty; t->decl = d; if(debug['m']) print("declare module %s\n", d->sym->name); /* * add the iface declaration in case it's needed later */ seprint(buf, buf+sizeof(buf), ".m.%s", d->sym->name); installids(Dglobal, mkids(&d->src, enter(buf, 0), tnone, nil)); if(isimp){ for(ids = d->ty->ids; ids != nil; ids = ids->next){ s = ids->sym; if(s->decl != nil && s->decl->scope >= scope){ dot = s->decl->dot; if(s->decl->store != Dwundef && dot != nil && dot != d && isimpmod(dot->sym) && dequal(ids, s->decl, 0)) continue; redecl(ids); ids->old = s->decl->old; }else ids->old = s->decl; s->decl = ids; ids->scope = scope; } } } /* * for each module in id, * link by field ext all of the decls for * functions needed in external linkage table * collect globals and make a tuple for all of them */ Type* mkiface(Decl *m) { Decl *iface, *last, *globals, *glast, *id, *d; Type *t; char buf[StrSize]; iface = last = allocmem(sizeof(Decl)); globals = glast = mkdecl(&m->src, Dglobal, mktype(&m->src.start, &m->src.stop, Tadt, nil, nil)); for(id = m->ty->ids; id != nil; id = id->next){ switch(id->store){ case Dglobal: glast = glast->next = dupdecl(id); id->iface = globals; glast->iface = id; break; case Dfn: id->iface = last = last->next = dupdecl(id); last->iface = id; break; case Dtype: if(id->ty->kind != Tadt) break; for(d = id->ty->ids; d != nil; d = d->next){ if(d->store == Dfn){ d->iface = last = last->next = dupdecl(d); last->iface = d; } } break; } } last->next = nil; iface = namesort(iface->next); if(globals->next != nil){ glast->next = nil; globals->ty->ids = namesort(globals->next); globals->ty->decl = globals; globals->sym = enter(".mp", 0); globals->dot = m; globals->next = iface; iface = globals; } /* * make the interface type and install an identifier for it * the iface has a ref count if it is loaded */ t = mktype(&m->src.start, &m->src.stop, Tiface, nil, iface); seprint(buf, buf+sizeof(buf), ".m.%s", m->sym->name); id = enter(buf, 0)->decl; t->decl = id; id->ty = t; /* * dummy node so the interface is initialized */ id->init = mkn(Onothing, nil, nil); id->init->ty = t; id->init->decl = id; return t; } void joiniface(Type *mt, Type *t) { Decl *id, *d, *iface, *globals; iface = t->ids; globals = iface; if(iface != nil && iface->store == Dglobal) iface = iface->next; for(id = mt->tof->ids; id != nil; id = id->next){ switch(id->store){ case Dglobal: for(d = id->ty->ids; d != nil; d = d->next) d->iface->iface = globals; break; case Dfn: id->iface->iface = iface; iface = iface->next; break; default: fatal("unknown store %k in joiniface", id); break; } } if(iface != nil) fatal("join iface not matched"); mt->tof = t; } void addiface(Decl *m, Decl *d) { Type *t; Decl *id, *last, *dd, *lastorig; Dlist *dl; if(d == nil || !local(d)) return; modrefable(d->ty); if(m == nil){ if(impdecls->next != nil) for(dl = impdecls; dl != nil; dl = dl->next) if(dl->d->ty->tof != impdecl->ty->tof) /* impdecl last */ addiface(dl->d, d); addiface(impdecl, d); return; } t = m->ty->tof; last = nil; lastorig = nil; for(id = t->ids; id != nil; id = id->next){ if(d == id || d == id->iface) return; last = id; if(id->tag == 0) lastorig = id; } dd = dupdecl(d); if(d->dot == nil) d->dot = dd->dot = m; d->iface = dd; dd->iface = d; if(debug['v']) print("addiface %p %p\n", d, dd); if(last == nil) t->ids = dd; else last->next = dd; dd->tag = 1; /* mark so not signed */ if(lastorig == nil) t->ids = namesort(t->ids); else lastorig->next = namesort(lastorig->next); } /* * eliminate unused declarations from interfaces * label offset within interface */ void narrowmods(void) { Teq *eq; Decl *id, *last; Type *t; long offset; for(eq = modclass(); eq != nil; eq = eq->eq){ t = eq->ty->tof; if(t->linkall == 0){ last = nil; for(id = t->ids; id != nil; id = id->next){ if(id->refs == 0){ if(last == nil) t->ids = id->next; else last->next = id->next; }else last = id; } /* * need to resize smaller interfaces */ resizetype(t); } offset = 0; for(id = t->ids; id != nil; id = id->next) id->offset = offset++; /* * rathole to stuff number of entries in interface */ t->decl->init->val = offset; } } /* * check to see if any data field of module m if referenced. * if so, mark all data in m */ void moddataref(void) { Teq *eq; Decl *id; for(eq = modclass(); eq != nil; eq = eq->eq){ id = eq->ty->tof->ids; if(id != nil && id->store == Dglobal && id->refs) for(id = eq->ty->ids; id != nil; id = id->next) if(id->store == Dglobal) modrefable(id->ty); } } /* * move the global declarations in interface to the front */ Decl* modglobals(Decl *mod, Decl *globals) { Decl *id, *head, *last; /* * make a copy of all the global declarations * used for making a type descriptor for globals ONLY * note we now have two declarations for the same variables, * which is apt to cause problems if code changes * * here we fix up the offsets for the real declarations */ idoffsets(mod->ty->ids, 0, 1); last = head = allocmem(sizeof(Decl)); for(id = mod->ty->ids; id != nil; id = id->next) if(id->store == Dglobal) last = last->next = dupdecl(id); last->next = globals; return head->next; } /* * snap all id type names to the actual type * check that all types are completely defined * verify that the types look ok */ Type* validtype(Type *t, Decl *inadt) { if(t == nil) return t; bindtypes(t); t = verifytypes(t, inadt, nil); cycsizetype(t); teqclass(t); return t; } Type* usetype(Type *t) { if(t == nil) return t; t = validtype(t, nil); reftype(t); return t; } Type* internaltype(Type *t) { bindtypes(t); t->ok = OKverify; sizetype(t); t->ok = OKmask; return t; } /* * checks that t is a valid top-level type */ Type* topvartype(Type *t, Decl *id, int tyok, int polyok) { if(t->kind == Tadt && t->tags != nil || t->kind == Tadtpick) error(id->src.start, "cannot declare %s with type %T", id->sym->name, t); if(!tyok && t->kind == Tfn) error(id->src.start, "cannot declare %s to be a function", id->sym->name); if(!polyok && (t->kind == Tadt || t->kind == Tadtpick) && ispolyadt(t)) error(id->src.start, "cannot declare %s of a polymorphic type", id->sym->name); return t; } Type* toptype(Src *src, Type *t) { if(t->kind == Tadt && t->tags != nil || t->kind == Tadtpick) error(src->start, "%T, an adt with pick fields, must be used with ref", t); if(t->kind == Tfn) error(src->start, "data cannot have a fn type like %T", t); return t; } static Type* comtype(Src *src, Type *t, Decl* adtd) { if(adtd == nil && (t->kind == Tadt || t->kind == Tadtpick) && ispolyadt(t)) error(src->start, "polymorphic type %T illegal here", t); return t; } void usedty(Type *t) { if(t != nil && (t->ok | OKmodref) != OKmask) fatal("used ty %t %2.2ux", t, t->ok); } void bindtypes(Type *t) { Decl *id; Typelist *tl; if(t == nil) return; if((t->ok & OKbind) == OKbind) return; t->ok |= OKbind; switch(t->kind){ case Tadt: if(t->polys != nil){ pushscope(nil, Sother); installids(Dtype, t->polys); } if(t->val != nil) mergepolydecs(t); if(t->polys != nil){ popscope(); for(id = t->polys; id != nil; id = id->next) bindtypes(id->ty); } break; case Tadtpick: case Tmodule: case Terror: case Tint: case Tbig: case Tstring: case Treal: case Tbyte: case Tnone: case Tany: case Tiface: case Tainit: case Talt: case Tcase: case Tcasel: case Tcasec: case Tgoto: case Texcept: case Tfix: case Tpoly: break; case Tarray: case Tarrow: case Tchan: case Tdot: case Tlist: case Tref: bindtypes(t->tof); break; case Tid: id = t->decl->sym->decl; if(id == nil) id = undefed(&t->src, t->decl->sym); /* save a little space */ id->sym->unbound = nil; t->decl = id; break; case Ttuple: case Texception: for(id = t->ids; id != nil; id = id->next) bindtypes(id->ty); break; case Tfn: if(t->polys != nil){ pushscope(nil, Sother); installids(Dtype, t->polys); } for(id = t->ids; id != nil; id = id->next) bindtypes(id->ty); bindtypes(t->tof); if(t->val != nil) mergepolydecs(t); if(t->polys != nil){ popscope(); for(id = t->polys; id != nil; id = id->next) bindtypes(id->ty); } break; case Tinst: bindtypes(t->tof); for(tl = t->u.tlist; tl != nil; tl = tl->nxt) bindtypes(tl->t); break; default: fatal("bindtypes: unknown type kind %d", t->kind); } } /* * walk the type checking for validity */ Type* verifytypes(Type *t, Decl *adtt, Decl *poly) { Node *n; Decl *id, *id1, *last; char buf[32]; int i, cyc; Ok ok, ok1; double max; Typelist *tl; if(t == nil) return nil; if((t->ok & OKverify) == OKverify) return t; t->ok |= OKverify; if((t->ok & (OKverify|OKbind)) != (OKverify|OKbind)) fatal("verifytypes bogus ok for %t", t); cyc = t->flags&CYCLIC; switch(t->kind){ case Terror: case Tint: case Tbig: case Tstring: case Treal: case Tbyte: case Tnone: case Tany: case Tiface: case Tainit: case Talt: case Tcase: case Tcasel: case Tcasec: case Tgoto: case Texcept: break; case Tfix: n = t->val; max = 0.0; if(n->op == Oseq){ ok = echeck(n->left, 0, 0, n); ok1 = echeck(n->right, 0, 0, n); if(!ok.ok || !ok1.ok) return terror; if(n->left->ty != treal || n->right->ty != treal){ error(t->src.start, "fixed point scale/maximum not real"); return terror; } n->right = fold(n->right); if(n->right->op != Oconst){ error(t->src.start, "fixed point maximum not constant"); return terror; } if((max = n->right->rval) <= 0){ error(t->src.start, "non-positive fixed point maximum"); return terror; } n = n->left; } else{ ok = echeck(n, 0, 0, nil); if(!ok.ok) return terror; if(n->ty != treal){ error(t->src.start, "fixed point scale not real"); return terror; } } n = t->val = fold(n); if(n->op != Oconst){ error(t->src.start, "fixed point scale not constant"); return terror; } if(n->rval <= 0){ error(t->src.start, "non-positive fixed point scale"); return terror; } ckfix(t, max); break; case Tref: t->tof = comtype(&t->src, verifytypes(t->tof, adtt, nil), adtt); if(t->tof != nil && !tattr[t->tof->kind].refable){ error(t->src.start, "cannot have a ref %T", t->tof); return terror; } if(0 && t->tof->kind == Tfn && t->tof->ids != nil && t->tof->ids->implicit) error(t->src.start, "function references cannot have a self argument"); if(0 && t->tof->kind == Tfn && t->polys != nil) error(t->src.start, "function references cannot be polymorphic"); break; case Tchan: case Tarray: case Tlist: t->tof = comtype(&t->src, toptype(&t->src, verifytypes(t->tof, adtt, nil)), adtt); break; case Tid: t->ok &= ~OKverify; t = verifytypes(idtype(t), adtt, nil); break; case Tarrow: t->ok &= ~OKverify; t = verifytypes(arrowtype(t, adtt), adtt, nil); break; case Tdot: /* * verify the parent adt & lookup the tag fields */ t->ok &= ~OKverify; t = verifytypes(dottype(t, adtt), adtt, nil); break; case Tadt: /* * this is where Tadt may get tag fields added */ adtdefd(t); break; case Tadtpick: for(id = t->ids; id != nil; id = id->next){ id->ty = topvartype(verifytypes(id->ty, id->dot, nil), id, 0, 1); if(id->store == Dconst) error(t->src.start, "pick fields cannot be a con like %s", id->sym->name); } verifytypes(t->decl->dot->ty, nil, nil); break; case Tmodule: for(id = t->ids; id != nil; id = id->next){ id->ty = verifytypes(id->ty, nil, nil); if(id->store == Dglobal && id->ty->kind == Tfn) id->store = Dfn; if(id->store != Dtype && id->store != Dfn) topvartype(id->ty, id, 0, 0); } break; case Ttuple: case Texception: if(t->decl == nil){ t->decl = mkdecl(&t->src, Dtype, t); t->decl->sym = enter(".tuple", 0); } i = 0; for(id = t->ids; id != nil; id = id->next){ id->store = Dfield; if(id->sym == nil){ seprint(buf, buf+sizeof(buf), "t%d", i); id->sym = enter(buf, 0); } i++; id->ty = toptype(&id->src, verifytypes(id->ty, adtt, nil)); /* id->ty = comtype(&id->src, toptype(&id->src, verifytypes(id->ty, adtt, nil)), adtt); */ } break; case Tfn: last = nil; for(id = t->ids; id != nil; id = id->next){ id->store = Darg; id->ty = topvartype(verifytypes(id->ty, adtt, nil), id, 0, 1); if(id->implicit){ Decl *selfd; selfd = poly ? poly : adtt; if(selfd == nil) error(t->src.start, "function is not a member of an adt, so can't use self"); else if(id != t->ids) error(id->src.start, "only the first argument can use self"); else if(id->ty != selfd->ty && (id->ty->kind != Tref || id->ty->tof != selfd->ty)) error(id->src.start, "self argument's type must be %s or ref %s", selfd->sym->name, selfd->sym->name); } last = id; } for(id = t->polys; id != nil; id = id->next){ if(adtt != nil){ for(id1 = adtt->ty->polys; id1 != nil; id1 = id1->next){ if(id1->sym == id->sym) id->ty = id1->ty; } } id->store = Dtype; id->ty = verifytypes(id->ty, adtt, nil); } t->tof = comtype(&t->src, toptype(&t->src, verifytypes(t->tof, adtt, nil)), adtt); if(t->varargs && (last == nil || last->ty != tstring)) error(t->src.start, "variable arguments must be preceded by a string"); if(t->varargs && t->polys != nil) error(t->src.start, "polymorphic functions must not have variable arguments"); break; case Tpoly: for(id = t->ids; id != nil; id = id->next){ id->store = Dfn; id->ty = verifytypes(id->ty, adtt, t->decl); } break; case Tinst: t->ok &= ~OKverify; t->tof = verifytypes(t->tof, adtt, nil); for(tl = t->u.tlist; tl != nil; tl = tl->nxt) tl->t = verifytypes(tl->t, adtt, nil); t = verifytypes(insttype(t, adtt, nil), adtt, nil); break; default: fatal("verifytypes: unknown type kind %d", t->kind); } if(cyc) t->flags |= CYCLIC; return t; } /* * resolve an id type */ Type* idtype(Type *t) { Decl *id; Type *tt; id = t->decl; if(id->store == Dunbound) fatal("idtype: unbound decl"); tt = id->ty; if(id->store != Dtype && id->store != Dtag){ if(id->store == Dundef){ id->store = Dwundef; error(t->src.start, "%s is not declared", id->sym->name); }else if(id->store == Dimport){ id->store = Dwundef; error(t->src.start, "%s's type cannot be determined", id->sym->name); }else if(id->store != Dwundef) error(t->src.start, "%s is not a type", id->sym->name); return terror; } if(tt == nil){ error(t->src.start, "%t not fully defined", t); return terror; } return tt; } /* * resolve a -> qualified type */ Type* arrowtype(Type *t, Decl *adtt) { Type *tt; Decl *id; id = t->decl; if(id->ty != nil){ if(id->store == Dunbound) fatal("arrowtype: unbound decl has a type"); return id->ty; } /* * special hack to allow module variables to derive other types */ tt = t->tof; if(tt->kind == Tid){ id = tt->decl; if(id->store == Dunbound) fatal("arrowtype: Tid's decl unbound"); if(id->store == Dimport){ id->store = Dwundef; error(t->src.start, "%s's type cannot be determined", id->sym->name); return terror; } /* * forward references to module variables can't be resolved */ if(id->store != Dtype && !(id->ty->ok & OKbind)){ error(t->src.start, "%s's type cannot be determined", id->sym->name); return terror; } if(id->store == Dwundef) return terror; tt = id->ty = verifytypes(id->ty, adtt, nil); if(tt == nil){ error(t->tof->src.start, "%T is not a module", t->tof); return terror; } }else tt = verifytypes(t->tof, adtt, nil); t->tof = tt; if(tt == terror) return terror; if(tt->kind != Tmodule){ error(t->src.start, "%T is not a module", tt); return terror; } id = namedot(tt->ids, t->decl->sym); if(id == nil){ error(t->src.start, "%s is not a member of %T", t->decl->sym->name, tt); return terror; } if(id->store == Dtype && id->ty != nil){ t->decl = id; return id->ty; } error(t->src.start, "%T is not a type", t); return terror; } /* * resolve a . qualified type */ Type* dottype(Type *t, Decl *adtt) { Type *tt; Decl *id; if(t->decl->ty != nil){ if(t->decl->store == Dunbound) fatal("dottype: unbound decl has a type"); return t->decl->ty; } t->tof = tt = verifytypes(t->tof, adtt, nil); if(tt == terror) return terror; if(tt->kind != Tadt){ error(t->src.start, "%T is not an adt", tt); return terror; } id = namedot(tt->tags, t->decl->sym); if(id != nil && id->ty != nil){ t->decl = id; return id->ty; } error(t->src.start, "%s is not a pick tag of %T", t->decl->sym->name, tt); return terror; } Type* insttype(Type *t, Decl *adtt, Tpair **tp) { Type *tt; Typelist *tl; Decl *ids; Tpair *tp1, *tp2; Src src; src = t->src; if(tp == nil){ tp2 = nil; tp = &tp2; } if(t->tof->kind != Tadt && t->tof->kind != Tadtpick){ error(src.start, "%T is not an adt", t->tof); return terror; } if(t->tof->kind == Tadt) ids = t->tof->polys; else ids = t->tof->decl->dot->ty->polys; if(ids == nil){ error(src.start, "%T is not a polymorphic adt", t->tof); return terror; } for(tl = t->u.tlist; tl != nil && ids != nil; tl = tl->nxt, ids = ids->next){ tt = tl->t; if(!tattr[tt->kind].isptr){ error(src.start, "%T is not a pointer type", tt); return terror; } unifysrc = src; if(!tunify(ids->ty, tt, &tp1)){ error(src.start, "type %T does not match %T", tt, ids->ty); return terror; } /* usetype(tt); */ tt = verifytypes(tt, adtt, nil); addtmap(ids->ty, tt, tp); } if(tl != nil){ error(src.start, "too many actual types in instantiation"); return terror; } if(ids != nil){ error(src.start, "too few actual types in instantiation"); return terror; } tp1 = *tp; tt = t->tof; t = expandtype(tt, t, adtt, tp); if(t == tt && adtt == nil) t = duptype(t); if(t != tt){ t->u.tmap = tp1; if(debug['w']){ print("tmap for %T: ", t); for( ; tp1!=nil; tp1=tp1->nxt) print("%T -> %T ", tp1->t1, tp1->t2); print("\n"); } } t->src = src; return t; } /* * walk a type, putting all adts, modules, and tuples into equivalence classes */ void teqclass(Type *t) { Decl *id, *tg; Teq *teq; if(t == nil || (t->ok & OKclass) == OKclass) return; t->ok |= OKclass; switch(t->kind){ case Terror: case Tint: case Tbig: case Tstring: case Treal: case Tbyte: case Tnone: case Tany: case Tiface: case Tainit: case Talt: case Tcase: case Tcasel: case Tcasec: case Tgoto: case Texcept: case Tfix: case Tpoly: return; case Tref: teqclass(t->tof); return; case Tchan: case Tarray: case Tlist: teqclass(t->tof); if(!debug['Z']) return; break; case Tadt: case Tadtpick: case Ttuple: case Texception: for(id = t->ids; id != nil; id = id->next) teqclass(id->ty); for(tg = t->tags; tg != nil; tg = tg->next) teqclass(tg->ty); for(id = t->polys; id != nil; id = id->next) teqclass(id->ty); break; case Tmodule: t->tof = mkiface(t->decl); for(id = t->ids; id != nil; id = id->next) teqclass(id->ty); break; case Tfn: for(id = t->ids; id != nil; id = id->next) teqclass(id->ty); for(id = t->polys; id != nil; id = id->next) teqclass(id->ty); teqclass(t->tof); return; default: fatal("teqclass: unknown type kind %d", t->kind); return; } /* * find an equivalent type * stupid linear lookup could be made faster */ if((t->ok & OKsized) != OKsized) fatal("eqclass type not sized: %t", t); for(teq = eqclass[t->kind]; teq != nil; teq = teq->eq){ if(t->size == teq->ty->size && tequal(t, teq->ty)){ t->eq = teq; if(t->kind == Tmodule) joiniface(t, t->eq->ty->tof); return; } } /* * if no equiv type, make one */ t->eq = allocmem(sizeof(Teq)); t->eq->id = 0; t->eq->ty = t; t->eq->eq = eqclass[t->kind]; eqclass[t->kind] = t->eq; } /* * record that we've used the type * using a type uses all types reachable from that type */ void reftype(Type *t) { Decl *id, *tg; if(t == nil || (t->ok & OKref) == OKref) return; t->ok |= OKref; if(t->decl != nil && t->decl->refs == 0) t->decl->refs++; switch(t->kind){ case Terror: case Tint: case Tbig: case Tstring: case Treal: case Tbyte: case Tnone: case Tany: case Tiface: case Tainit: case Talt: case Tcase: case Tcasel: case Tcasec: case Tgoto: case Texcept: case Tfix: case Tpoly: break; case Tref: case Tchan: case Tarray: case Tlist: if(t->decl != nil){ if(nadts >= lenadts){ lenadts = nadts + 32; adts = reallocmem(adts, lenadts * sizeof *adts); } adts[nadts++] = t->decl; } reftype(t->tof); break; case Tadt: case Tadtpick: case Ttuple: case Texception: if(t->kind == Tadt || t->kind == Ttuple && t->decl->sym != anontupsym){ if(nadts >= lenadts){ lenadts = nadts + 32; adts = reallocmem(adts, lenadts * sizeof *adts); } adts[nadts++] = t->decl; } for(id = t->ids; id != nil; id = id->next) if(id->store != Dfn) reftype(id->ty); for(tg = t->tags; tg != nil; tg = tg->next) reftype(tg->ty); for(id = t->polys; id != nil; id = id->next) reftype(id->ty); if(t->kind == Tadtpick) reftype(t->decl->dot->ty); break; case Tmodule: /* * a module's elements should get used individually * but do the globals for any sbl file */ if(bsym != nil) for(id = t->ids; id != nil; id = id->next) if(id->store == Dglobal) reftype(id->ty); break; case Tfn: for(id = t->ids; id != nil; id = id->next) reftype(id->ty); for(id = t->polys; id != nil; id = id->next) reftype(id->ty); reftype(t->tof); break; default: fatal("reftype: unknown type kind %d", t->kind); break; } } /* * check all reachable types for cycles and illegal forward references * find the size of all the types */ void cycsizetype(Type *t) { Decl *id, *tg; if(t == nil || (t->ok & (OKcycsize|OKcyc|OKsized)) == (OKcycsize|OKcyc|OKsized)) return; t->ok |= OKcycsize; switch(t->kind){ case Terror: case Tint: case Tbig: case Tstring: case Treal: case Tbyte: case Tnone: case Tany: case Tiface: case Tainit: case Talt: case Tcase: case Tcasel: case Tcasec: case Tgoto: case Texcept: case Tfix: case Tpoly: t->ok |= OKcyc; sizetype(t); break; case Tref: case Tchan: case Tarray: case Tlist: cyctype(t); sizetype(t); cycsizetype(t->tof); break; case Tadt: case Ttuple: case Texception: cyctype(t); sizetype(t); for(id = t->ids; id != nil; id = id->next) cycsizetype(id->ty); for(tg = t->tags; tg != nil; tg = tg->next){ if((tg->ty->ok & (OKcycsize|OKcyc|OKsized)) == (OKcycsize|OKcyc|OKsized)) continue; tg->ty->ok |= (OKcycsize|OKcyc|OKsized); for(id = tg->ty->ids; id != nil; id = id->next) cycsizetype(id->ty); } for(id = t->polys; id != nil; id = id->next) cycsizetype(id->ty); break; case Tadtpick: t->ok &= ~OKcycsize; cycsizetype(t->decl->dot->ty); break; case Tmodule: cyctype(t); sizetype(t); for(id = t->ids; id != nil; id = id->next) cycsizetype(id->ty); sizeids(t->ids, 0); break; case Tfn: cyctype(t); sizetype(t); for(id = t->ids; id != nil; id = id->next) cycsizetype(id->ty); for(id = t->polys; id != nil; id = id->next) cycsizetype(id->ty); cycsizetype(t->tof); sizeids(t->ids, MaxTemp); break; default: fatal("cycsizetype: unknown type kind %d", t->kind); break; } } /* check for circularity in type declarations * - has to be called before verifytypes */ void tcycle(Type *t) { Decl *id; Type *tt; Typelist *tl; if(t == nil) return; switch(t->kind){ default: break; case Tchan: case Tarray: case Tref: case Tlist: case Tdot: tcycle(t->tof); break; case Tfn: case Ttuple: tcycle(t->tof); for(id = t->ids; id != nil; id = id->next) tcycle(id->ty); break; case Tarrow: if(t->rec&TRvis){ error(t->src.start, "circularity in definition of %T", t); *t = *terror; /* break the cycle */ return; } tt = t->tof; t->rec |= TRvis; tcycle(tt); if(tt->kind == Tid) tt = tt->decl->ty; id = namedot(tt->ids, t->decl->sym); if(id != nil) tcycle(id->ty); t->rec &= ~TRvis; break; case Tid: if(t->rec&TRvis){ error(t->src.start, "circularity in definition of %T", t); *t = *terror; /* break the cycle */ return; } t->rec |= TRvis; tcycle(t->decl->ty); t->rec &= ~TRvis; break; case Tinst: tcycle(t->tof); for(tl = t->u.tlist; tl != nil; tl = tl->nxt) tcycle(tl->t); break; } } /* * marks for checking for arcs */ enum { ArcValue = 1 << 0, ArcList = 1 << 1, ArcArray = 1 << 2, ArcRef = 1 << 3, ArcCyc = 1 << 4, /* cycle found */ ArcPolycyc = 1 << 5, }; void cyctype(Type *t) { Decl *id, *tg; if((t->ok & OKcyc) == OKcyc) return; t->ok |= OKcyc; t->rec |= TRcyc; switch(t->kind){ case Terror: case Tint: case Tbig: case Tstring: case Treal: case Tbyte: case Tnone: case Tany: case Tfn: case Tchan: case Tarray: case Tref: case Tlist: case Tfix: case Tpoly: break; case Tadt: case Tmodule: case Ttuple: case Texception: for(id = t->ids; id != nil; id = id->next) cycfield(t, id); for(tg = t->tags; tg != nil; tg = tg->next){ if((tg->ty->ok & OKcyc) == OKcyc) continue; tg->ty->ok |= OKcyc; for(id = tg->ty->ids; id != nil; id = id->next) cycfield(t, id); } break; default: fatal("checktype: unknown type kind %d", t->kind); break; } t->rec &= ~TRcyc; } void cycfield(Type *base, Decl *id) { int arc; if(!storespace[id->store]) return; arc = cycarc(base, id->ty); if((arc & (ArcCyc|ArcValue)) == (ArcCyc|ArcValue)){ if(id->cycerr == 0) error(base->src.start, "illegal type cycle without a reference in field %s of %t", id->sym->name, base); id->cycerr = 1; }else if(arc & ArcCyc){ if((arc & ArcArray) && oldcycles && id->cyc == 0 && !(arc & ArcPolycyc)){ if(id->cycerr == 0) error(base->src.start, "illegal circular reference to type %T in field %s of %t", id->ty, id->sym->name, base); id->cycerr = 1; } id->cycle = 1; }else if(id->cyc != 0){ if(id->cycerr == 0) error(id->src.start, "spurious cyclic qualifier for field %s of %t", id->sym->name, base); id->cycerr = 1; } } int cycarc(Type *base, Type *t) { Decl *id, *tg; int me, arc; if(t == nil) return 0; if(t->rec & TRcyc){ if(tequal(t, base)){ if(t->kind == Tmodule) return ArcCyc | ArcRef; else return ArcCyc | ArcValue; } return 0; } t->rec |= TRcyc; me = 0; switch(t->kind){ case Terror: case Tint: case Tbig: case Tstring: case Treal: case Tbyte: case Tnone: case Tany: case Tchan: case Tfn: case Tfix: case Tpoly: break; case Tarray: me = cycarc(base, t->tof) & ~ArcValue | ArcArray; break; case Tref: me = cycarc(base, t->tof) & ~ArcValue | ArcRef; break; case Tlist: me = cycarc(base, t->tof) & ~ArcValue | ArcList; break; case Tadt: case Tadtpick: case Tmodule: case Ttuple: case Texception: me = 0; for(id = t->ids; id != nil; id = id->next){ if(!storespace[id->store]) continue; arc = cycarc(base, id->ty); if((arc & ArcCyc) && id->cycerr == 0) me |= arc; } for(tg = t->tags; tg != nil; tg = tg->next){ arc = cycarc(base, tg->ty); if((arc & ArcCyc) && tg->cycerr == 0) me |= arc; } if(t->kind == Tmodule) me = me & ArcCyc | ArcRef | ArcPolycyc; else me &= ArcCyc | ArcValue | ArcPolycyc; break; default: fatal("cycarc: unknown type kind %d", t->kind); break; } t->rec &= ~TRcyc; if(t->flags&CYCLIC) me |= ArcPolycyc; return me; } /* * set the sizes and field offsets for t * look only as deeply as needed to size this type. * cycsize type will clean up the rest. */ void sizetype(Type *t) { Decl *id, *tg; Szal szal; long sz, al, a; if(t == nil) return; if((t->ok & OKsized) == OKsized) return; t->ok |= OKsized; if((t->ok & (OKverify|OKsized)) != (OKverify|OKsized)) fatal("sizetype bogus ok for %t", t); switch(t->kind){ default: fatal("sizetype: unknown type kind %d", t->kind); break; case Terror: case Tnone: case Tbyte: case Tint: case Tbig: case Tstring: case Tany: case Treal: fatal("%T should have a size", t); break; case Tref: case Tchan: case Tarray: case Tlist: case Tmodule: case Tfix: case Tpoly: t->size = t->align = IBY2WD; break; case Ttuple: case Tadt: case Texception: if(t->tags == nil){ if(!debug['z']){ szal = sizeids(t->ids, 0); t->size = align(szal.size, szal.align); t->align = szal.align; }else{ szal = sizeids(t->ids, 0); t->align = IBY2LG; t->size = align(szal.size, IBY2LG); } return; } if(!debug['z']){ szal = sizeids(t->ids, IBY2WD); sz = szal.size; al = szal.align; if(al < IBY2WD) al = IBY2WD; }else{ szal = sizeids(t->ids, IBY2WD); sz = szal.size; al = IBY2LG; } for(tg = t->tags; tg != nil; tg = tg->next){ if((tg->ty->ok & OKsized) == OKsized) continue; tg->ty->ok |= OKsized; if(!debug['z']){ szal = sizeids(tg->ty->ids, sz); a = szal.align; if(a < al) a = al; tg->ty->size = align(szal.size, a); tg->ty->align = a; }else{ szal = sizeids(tg->ty->ids, sz); tg->ty->size = align(szal.size, IBY2LG); tg->ty->align = IBY2LG; } } break; case Tfn: t->size = 0; t->align = 1; break; case Tainit: t->size = 0; t->align = 1; break; case Talt: t->size = t->cse->nlab * 2*IBY2WD + 2*IBY2WD; t->align = IBY2WD; break; case Tcase: case Tcasec: t->size = t->cse->nlab * 3*IBY2WD + 2*IBY2WD; t->align = IBY2WD; break; case Tcasel: t->size = t->cse->nlab * 6*IBY2WD + 3*IBY2WD; t->align = IBY2LG; break; case Tgoto: t->size = t->cse->nlab * IBY2WD + IBY2WD; if(t->cse->iwild != nil) t->size += IBY2WD; t->align = IBY2WD; break; case Tiface: sz = IBY2WD; for(id = t->ids; id != nil; id = id->next){ sz = align(sz, IBY2WD) + IBY2WD; sz += id->sym->len + 1; if(id->dot->ty->kind == Tadt) sz += id->dot->sym->len + 1; } t->size = sz; t->align = IBY2WD; break; case Texcept: t->size = 0; t->align = IBY2WD; break; } } Szal sizeids(Decl *id, long off) { Szal szal; int a, al; al = 1; for(; id != nil; id = id->next){ if(storespace[id->store]){ sizetype(id->ty); /* * alignment can be 0 if we have * illegal forward declarations. * just patch a; other code will flag an error */ a = id->ty->align; if(a == 0) a = 1; if(a > al) al = a; off = align(off, a); id->offset = off; off += id->ty->size; } } szal.size = off; szal.align = al; return szal; } long align(long off, int align) { if(align == 0) fatal("align 0"); while(off % align) off++; return off; } /* * recalculate a type's size */ void resizetype(Type *t) { if((t->ok & OKsized) == OKsized){ t->ok &= ~OKsized; cycsizetype(t); } } /* * check if a module is accessable from t * if so, mark that module interface */ void modrefable(Type *t) { Decl *id, *m, *tg; if(t == nil || (t->ok & OKmodref) == OKmodref) return; if((t->ok & OKverify) != OKverify) fatal("modrefable unused type %t", t); t->ok |= OKmodref; switch(t->kind){ case Terror: case Tint: case Tbig: case Tstring: case Treal: case Tbyte: case Tnone: case Tany: case Tfix: case Tpoly: break; case Tchan: case Tref: case Tarray: case Tlist: modrefable(t->tof); break; case Tmodule: t->tof->linkall = 1; t->decl->refs++; for(id = t->ids; id != nil; id = id->next){ switch(id->store){ case Dglobal: case Dfn: modrefable(id->ty); break; case Dtype: if(id->ty->kind != Tadt) break; for(m = id->ty->ids; m != nil; m = m->next) if(m->store == Dfn) modrefable(m->ty); break; } } break; case Tfn: case Tadt: case Ttuple: case Texception: for(id = t->ids; id != nil; id = id->next) if(id->store != Dfn) modrefable(id->ty); for(tg = t->tags; tg != nil; tg = tg->next){ /* if((tg->ty->ok & OKmodref) == OKmodref) continue; */ tg->ty->ok |= OKmodref; for(id = tg->ty->ids; id != nil; id = id->next) modrefable(id->ty); } for(id = t->polys; id != nil; id = id->next) modrefable(id->ty); modrefable(t->tof); break; case Tadtpick: modrefable(t->decl->dot->ty); break; default: fatal("unknown type kind %d", t->kind); break; } } Desc* gendesc(Decl *d, long size, Decl *decls) { Desc *desc; if(debug['D']) print("generate desc for %D\n", d); if(ispoly(d)) addfnptrs(d, 0); desc = usedesc(mkdesc(size, decls)); return desc; } Desc* mkdesc(long size, Decl *d) { uchar *pmap; long len, n; len = (size+8*IBY2WD-1) / (8*IBY2WD); pmap = allocmem(len); memset(pmap, 0, len); n = descmap(d, pmap, 0); if(n >= 0) n = n / (8*IBY2WD) + 1; else n = 0; if(n > len) fatal("wrote off end of decl map: %ld %ld", n, len); return enterdesc(pmap, size, n); } Desc* mktdesc(Type *t) { Desc *d; uchar *pmap; long len, n; usedty(t); if(debug['D']) print("generate desc for %T\n", t); if(t->decl == nil){ t->decl = mkdecl(&t->src, Dtype, t); t->decl->sym = enter("_mktdesc_", 0); } if(t->decl->desc != nil) return t->decl->desc; len = (t->size+8*IBY2WD-1) / (8*IBY2WD); pmap = allocmem(len); memset(pmap, 0, len); n = tdescmap(t, pmap, 0); if(n >= 0) n = n / (8*IBY2WD) + 1; else n = 0; if(n > len) fatal("wrote off end of type map for %T: %ld %ld 0x%2.2ux", t, n, len, t->ok); d = enterdesc(pmap, t->size, n); t->decl->desc = d; if(debug['j']){ uchar *m, *e; print("generate desc for %T\n", t); print("\tdesc\t$%d,%lud,\"", d->id, d->size); e = d->map + d->nmap; for(m = d->map; m < e; m++) print("%.2x", *m); print("\"\n"); } return d; } Desc* enterdesc(uchar *map, long size, long nmap) { Desc *d, *last; int c; last = nil; for(d = descriptors; d != nil; d = d->next){ if(d->size > size || d->size == size && d->nmap > nmap) break; if(d->size == size && d->nmap == nmap){ c = memcmp(d->map, map, nmap); if(c == 0){ free(map); return d; } if(c > 0) break; } last = d; } d = allocmem(sizeof *d); d->id = -1; d->used = 0; d->map = map; d->size = size; d->nmap = nmap; if(last == nil){ d->next = descriptors; descriptors = d; }else{ d->next = last->next; last->next = d; } return d; } Desc* usedesc(Desc *d) { d->used = 1; return d; } /* * create the pointer description byte map for every type in decls * each bit corresponds to a word, and is 1 if occupied by a pointer * the high bit in the byte maps the first word */ long descmap(Decl *decls, uchar *map, long start) { Decl *d; long last, m; if(debug['D']) print("descmap offset %ld\n", start); last = -1; for(d = decls; d != nil; d = d->next){ if(d->store == Dtype && d->ty->kind == Tmodule || d->store == Dfn || d->store == Dconst) continue; if(d->store == Dlocal && d->link != nil) continue; m = tdescmap(d->ty, map, d->offset + start); if(debug['D']){ if(d->sym != nil) print("descmap %s type %T offset %ld returns %ld\n", d->sym->name, d->ty, d->offset+start, m); else print("descmap type %T offset %ld returns %ld\n", d->ty, d->offset+start, m); } if(m >= 0) last = m; } return last; } long tdescmap(Type *t, uchar *map, long offset) { Label *lab; long i, e, m; int bit; if(t == nil) return -1; m = -1; if(t->kind == Talt){ lab = t->cse->labs; e = t->cse->nlab; offset += IBY2WD * 2; for(i = 0; i < e; i++){ if(lab[i].isptr){ bit = offset / IBY2WD % 8; map[offset / (8*IBY2WD)] |= 1 << (7 - bit); m = offset; } offset += 2*IBY2WD; } return m; } if(t->kind == Tcasec){ e = t->cse->nlab; offset += IBY2WD; for(i = 0; i < e; i++){ bit = offset / IBY2WD % 8; map[offset / (8*IBY2WD)] |= 1 << (7 - bit); offset += IBY2WD; bit = offset / IBY2WD % 8; map[offset / (8*IBY2WD)] |= 1 << (7 - bit); m = offset; offset += 2*IBY2WD; } return m; } if(tattr[t->kind].isptr){ bit = offset / IBY2WD % 8; map[offset / (8*IBY2WD)] |= 1 << (7 - bit); return offset; } if(t->kind == Tadtpick) t = t->tof; if(t->kind == Ttuple || t->kind == Tadt || t->kind == Texception){ if(debug['D']) print("descmap adt offset %ld\n", offset); if(t->rec != 0) fatal("illegal cyclic type %t in tdescmap", t); t->rec = 1; offset = descmap(t->ids, map, offset); t->rec = 0; return offset; } return -1; } /* * can a t2 be assigned to a t1? * any means Tany matches all types, * not just references */ int tcompat(Type *t1, Type *t2, int any) { int ok, v; if(t1 == t2) return 1; if(t1 == nil || t2 == nil) return 0; if(t2->kind == Texception && t1->kind != Texception) t2 = mkextuptype(t2); tcomset = 0; ok = rtcompat(t1, t2, any, 0); v = cleartcomrec(t1) + cleartcomrec(t2); if(v != tcomset) fatal("recid t1 %t and t2 %t not balanced in tcompat: %d v %d", t1, t2, v, tcomset); return ok; } static int rtcompat(Type *t1, Type *t2, int any, int inaorc) { if(t1 == t2) return 1; if(t1 == nil || t2 == nil) return 0; if(t1->kind == Terror || t2->kind == Terror) return 1; if(t2->kind == Texception && t1->kind != Texception) t2 = mkextuptype(t2); if(debug['x']) print("rtcompat: %t and %t\n", t1, t2); t1->rec |= TRcom; t2->rec |= TRcom; switch(t1->kind){ default: fatal("unknown type %t v %t in rtcompat", t1, t2); case Tstring: return t2->kind == Tstring || t2->kind == Tany; case Texception: if(t2->kind == Texception && t1->cons == t2->cons){ if(assumetcom(t1, t2)) return 1; return idcompat(t1->ids, t2->ids, 0, inaorc); } return 0; case Tnone: case Tint: case Tbig: case Tbyte: case Treal: return t1->kind == t2->kind; case Tfix: return t1->kind == t2->kind && sametree(t1->val, t2->val); case Tany: if(tattr[t2->kind].isptr) return 1; return any; case Tref: case Tlist: case Tarray: case Tchan: if(t1->kind != t2->kind){ if(t2->kind == Tany) return 1; return 0; } if(t1->kind != Tref && assumetcom(t1, t2)) return 1; return rtcompat(t1->tof, t2->tof, 0, t1->kind == Tarray || t1->kind == Tchan || inaorc); case Tfn: break; case Ttuple: if(t2->kind == Tadt && t2->tags == nil || t2->kind == Ttuple){ if(assumetcom(t1, t2)) return 1; return idcompat(t1->ids, t2->ids, any, inaorc); } if(t2->kind == Tadtpick){ t2->tof->rec |= TRcom; if(assumetcom(t1, t2->tof)) return 1; return idcompat(t1->ids, t2->tof->ids->next, any, inaorc); } return 0; case Tadt: if(t2->kind == Ttuple && t1->tags == nil){ if(assumetcom(t1, t2)) return 1; return idcompat(t1->ids, t2->ids, any, inaorc); } if(t1->tags != nil && t2->kind == Tadtpick && !inaorc) t2 = t2->decl->dot->ty; break; case Tadtpick: /* if(t2->kind == Ttuple) return idcompat(t1->tof->ids->next, t2->ids, any, inaorc); */ break; case Tmodule: if(t2->kind == Tany) return 1; break; case Tpoly: if(t2->kind == Tany) return 1; break; } return tequal(t1, t2); } /* * add the assumption that t1 and t2 are compatable */ static int assumetcom(Type *t1, Type *t2) { Type *r1, *r2; if(t1->tcom == nil && t2->tcom == nil){ tcomset += 2; t1->tcom = t2->tcom = t1; }else{ if(t1->tcom == nil){ r1 = t1; t1 = t2; t2 = r1; } for(r1 = t1->tcom; r1 != r1->tcom; r1 = r1->tcom) ; for(r2 = t2->tcom; r2 != nil && r2 != r2->tcom; r2 = r2->tcom) ; if(r1 == r2) return 1; if(r2 == nil) tcomset++; t2->tcom = t1; for(; t2 != r1; t2 = r2){ r2 = t2->tcom; t2->tcom = r1; } } return 0; } static int cleartcomrec(Type *t) { Decl *id; int n; n = 0; for(; t != nil && (t->rec & TRcom) == TRcom; t = t->tof){ t->rec &= ~TRcom; if(t->tcom != nil){ t->tcom = nil; n++; } if(t->kind == Tadtpick) n += cleartcomrec(t->tof); if(t->kind == Tmodule) t = t->tof; for(id = t->ids; id != nil; id = id->next) n += cleartcomrec(id->ty); for(id = t->tags; id != nil; id = id->next) n += cleartcomrec(id->ty); for(id = t->polys; id != nil; id = id->next) n += cleartcomrec(id->ty); } return n; } /* * id1 and id2 are the fields in an adt or tuple * simple structural check; ignore names */ static int idcompat(Decl *id1, Decl *id2, int any, int inaorc) { for(; id1 != nil; id1 = id1->next){ if(id1->store != Dfield) continue; while(id2 != nil && id2->store != Dfield) id2 = id2->next; if(id2 == nil || id1->store != id2->store || !rtcompat(id1->ty, id2->ty, any, inaorc)) return 0; id2 = id2->next; } while(id2 != nil && id2->store != Dfield) id2 = id2->next; return id2 == nil; } int tequal(Type *t1, Type *t2) { int ok, v; eqrec = 0; eqset = 0; ok = rtequal(t1, t2); v = cleareqrec(t1) + cleareqrec(t2); if(v != eqset && 0) fatal("recid t1 %t and t2 %t not balanced in tequal: %d %d", t1, t2, v, eqset); eqset = 0; return ok; } /* * structural equality on types */ static int rtequal(Type *t1, Type *t2) { /* * this is just a shortcut */ if(t1 == t2) return 1; if(t1 == nil || t2 == nil) return 0; if(t1->kind == Terror || t2->kind == Terror) return 1; if(t1->kind != t2->kind) return 0; if(t1->eq != nil && t2->eq != nil) return t1->eq == t2->eq; if(debug['x']) print("rtequal: %t and %t\n", t1, t2); t1->rec |= TReq; t2->rec |= TReq; switch(t1->kind){ default: fatal("unknown type %t v %t in rtequal", t1, t2); case Tnone: case Tbig: case Tbyte: case Treal: case Tint: case Tstring: /* * this should always be caught by t1 == t2 check */ fatal("bogus value type %t vs %t in rtequal", t1, t2); return 1; case Tfix: return sametree(t1->val, t2->val); case Tref: case Tlist: case Tarray: case Tchan: if(t1->kind != Tref && assumeteq(t1, t2)) return 1; return rtequal(t1->tof, t2->tof); case Tfn: if(t1->varargs != t2->varargs) return 0; if(!idequal(t1->ids, t2->ids, 0, storespace)) return 0; /* if(!idequal(t1->polys, t2->polys, 1, nil)) */ if(!pyequal(t1, t2)) return 0; return rtequal(t1->tof, t2->tof); case Ttuple: case Texception: if(t1->kind != t2->kind || t1->cons != t2->cons) return 0; if(assumeteq(t1, t2)) return 1; return idequal(t1->ids, t2->ids, 0, storespace); case Tadt: case Tadtpick: case Tmodule: if(assumeteq(t1, t2)) return 1; /* * compare interfaces when comparing modules */ if(t1->kind == Tmodule) return idequal(t1->tof->ids, t2->tof->ids, 1, nil); /* * picked adts; check parent, * assuming equiv picked fields, * then check picked fields are equiv */ if(t1->kind == Tadtpick && !rtequal(t1->decl->dot->ty, t2->decl->dot->ty)) return 0; /* * adts with pick tags: check picked fields for equality */ if(!idequal(t1->tags, t2->tags, 1, nil)) return 0; /* if(!idequal(t1->polys, t2->polys, 1, nil)) */ if(!pyequal(t1, t2)) return 0; return idequal(t1->ids, t2->ids, 1, storespace); case Tpoly: if(assumeteq(t1, t2)) return 1; if(t1->decl->sym != t2->decl->sym) return 0; return idequal(t1->ids, t2->ids, 1, nil); } } static int assumeteq(Type *t1, Type *t2) { Type *r1, *r2; if(t1->teq == nil && t2->teq == nil){ eqrec++; eqset += 2; t1->teq = t2->teq = t1; }else{ if(t1->teq == nil){ r1 = t1; t1 = t2; t2 = r1; } for(r1 = t1->teq; r1 != r1->teq; r1 = r1->teq) ; for(r2 = t2->teq; r2 != nil && r2 != r2->teq; r2 = r2->teq) ; if(r1 == r2) return 1; if(r2 == nil) eqset++; t2->teq = t1; for(; t2 != r1; t2 = r2){ r2 = t2->teq; t2->teq = r1; } } return 0; } /* * checking structural equality for adts, tuples, and fns */ static int idequal(Decl *id1, Decl *id2, int usenames, int *storeok) { /* * this is just a shortcut */ if(id1 == id2) return 1; for(; id1 != nil; id1 = id1->next){ if(storeok != nil && !storeok[id1->store]) continue; while(id2 != nil && storeok != nil && !storeok[id2->store]) id2 = id2->next; if(id2 == nil || usenames && id1->sym != id2->sym || id1->store != id2->store || id1->implicit != id2->implicit || id1->cyc != id2->cyc || (id1->dot == nil) != (id2->dot == nil) || id1->dot != nil && id2->dot != nil && id1->dot->ty->kind != id2->dot->ty->kind || !rtequal(id1->ty, id2->ty)) return 0; id2 = id2->next; } while(id2 != nil && storeok != nil && !storeok[id2->store]) id2 = id2->next; return id1 == nil && id2 == nil; } static int pyequal(Type *t1, Type *t2) { Type *pt1, *pt2; Decl *id1, *id2; if(t1 == t2) return 1; id1 = t1->polys; id2 = t2->polys; for(; id1 != nil; id1 = id1->next){ if(id2 == nil) return 0; pt1 = id1->ty; pt2 = id2->ty; if(!rtequal(pt1, pt2)){ if(t1->u.tmap != nil) pt1 = valtmap(pt1, t1->u.tmap); if(t2->u.tmap != nil) pt2 = valtmap(pt2, t2->u.tmap); if(!rtequal(pt1, pt2)) return 0; } id2 = id2->next; } return id1 == nil && id2 == nil; } static int cleareqrec(Type *t) { Decl *id; int n; n = 0; for(; t != nil && (t->rec & TReq) == TReq; t = t->tof){ t->rec &= ~TReq; if(t->teq != nil){ t->teq = nil; n++; } if(t->kind == Tadtpick) n += cleareqrec(t->decl->dot->ty); if(t->kind == Tmodule) t = t->tof; for(id = t->ids; id != nil; id = id->next) n += cleareqrec(id->ty); for(id = t->tags; id != nil; id = id->next) n += cleareqrec(id->ty); for(id = t->polys; id != nil; id = id->next) n += cleareqrec(id->ty); } return n; } int raisescompat(Node *n1, Node *n2) { if(n1 == n2) return 1; if(n2 == nil) return 1; /* no need to repeat in definition if given in declaration */ if(n1 == nil) return 0; for(n1 = n1->left, n2 = n2->left; n1 != nil && n2 != nil; n1 = n1->right, n2 = n2->right){ if(n1->left->decl != n2->left->decl) return 0; } return n1 == n2; } /* t1 a polymorphic type */ static int fnunify(Type *t1, Type *t2, Tpair **tp, int swapped) { Decl *id, *ids; Sym *sym; for(ids = t1->ids; ids != nil; ids = ids->next){ sym = ids->sym; id = fnlookup(sym, t2, nil); if(id != nil) usetype(id->ty); if(id == nil){ if(dowarn) error(unifysrc.start, "type %T does not have a '%s' function", t2, sym->name); return 0; } else if(id->ty->kind != Tfn){ if(dowarn) error(unifysrc.start, "%T is not a function", id->ty); return 0; } else if(!rtunify(ids->ty, id->ty, tp, !swapped)){ if(dowarn) error(unifysrc.start, "%T and %T are not compatible wrt %s", ids->ty, id->ty, sym->name); return 0; } } return 1; } static int fncleareqrec(Type *t1, Type *t2) { Decl *id, *ids; int n; n = 0; n += cleareqrec(t1); n += cleareqrec(t2); for(ids = t1->ids; ids != nil; ids = ids->next){ id = fnlookup(ids->sym, t2, nil); if(id == nil) continue; else{ n += cleareqrec(ids->ty); n += cleareqrec(id->ty); } } return n; } int tunify(Type *t1, Type *t2, Tpair **tp) { int ok, v; Tpair *p; *tp = nil; eqrec = 0; eqset = 0; ok = rtunify(t1, t2, tp, 0); v = cleareqrec(t1) + cleareqrec(t2); for(p = *tp; p != nil; p = p->nxt) v += fncleareqrec(p->t1, p->t2); if(0 && v != eqset) fatal("recid t1 %t and t2 %t not balanced in tunify: %d %d", t1, t2, v, eqset); return ok; } static int rtunify(Type *t1, Type *t2, Tpair **tp, int swapped) { Type *tmp; if(debug['w']) print("rtunifya - %T %T\n", t1, t2); t1 = valtmap(t1, *tp); t2 = valtmap(t2, *tp); if(debug['w']) print("rtunifyb - %T %T\n", t1, t2); if(t1 == t2) return 1; if(t1 == nil || t2 == nil) return 0; if(t1->kind == Terror || t2->kind == Terror) return 1; if(t1->kind != Tpoly && t2->kind == Tpoly){ tmp = t1; t1 = t2; t2 = tmp; swapped = !swapped; } if(t1->kind == Tpoly){ /* if(typein(t1, t2)) return 0; */ if(!tattr[t2->kind].isptr) return 0; if(t2->kind != Tany) addtmap(t1, t2, tp); return fnunify(t1, t2, tp, swapped); } if(t1->kind != Tany && t2->kind == Tany){ tmp = t1; t1 = t2; t2 = tmp; swapped = !swapped; } if(t1->kind == Tadt && t1->tags != nil && t2->kind == Tadtpick && !swapped) t2 = t2->decl->dot->ty; if(t2->kind == Tadt && t2->tags != nil && t1->kind == Tadtpick && swapped) t1 = t1->decl->dot->ty; if(t1->kind != Tany && t1->kind != t2->kind) return 0; t1->rec |= TReq; t2->rec |= TReq; switch(t1->kind){ default: return tequal(t1, t2); case Tany: return tattr[t2->kind].isptr; case Tref: case Tlist: case Tarray: case Tchan: if(t1->kind != Tref && assumeteq(t1, t2)) return 1; return rtunify(t1->tof, t2->tof, tp, swapped); case Tfn: if(!idunify(t1->ids, t2->ids, tp, swapped)) return 0; if(!idunify(t1->polys, t2->polys, tp, swapped)) return 0; return rtunify(t1->tof, t2->tof, tp, swapped); case Ttuple: if(assumeteq(t1, t2)) return 1; return idunify(t1->ids, t2->ids, tp, swapped); case Tadt: case Tadtpick: if(assumeteq(t1, t2)) return 1; if(!idunify(t1->polys, t2->polys, tp, swapped)) return 0; if(!idunify(t1->tags, t2->tags, tp, swapped)) return 0; return idunify(t1->ids, t2->ids, tp, swapped); case Tmodule: if(assumeteq(t1, t2)) return 1; return idunify(t1->tof->ids, t2->tof->ids, tp, swapped); case Tpoly: return t1 == t2; } } static int idunify(Decl *id1, Decl *id2, Tpair **tp, int swapped) { if(id1 == id2) return 1; for(; id1 != nil; id1 = id1->next){ if(id2 == nil || !rtunify(id1->ty, id2->ty, tp, swapped)) return 0; id2 = id2->next; } return id1 == nil && id2 == nil; } int polyequal(Decl *id1, Decl *id2) { int ck2; Decl *d; /* allow id2 list to have an optional for clause */ ck2 = 0; for(d = id2; d != nil; d = d->next) if(d->ty->ids != nil) ck2 = 1; for( ; id1 != nil; id1 = id1->next){ if(id2 == nil || id1->sym != id2->sym || id1->ty->decl != nil && id2->ty->decl != nil && id1->ty->decl->sym != id2->ty->decl->sym) return 0; if(ck2 && !idequal(id1->ty->ids, id2->ty->ids, 1, nil)) return 0; id2 = id2->next; } return id1 == nil && id2 == nil; } Type* calltype(Type *f, Node *a, Type *rt) { Type *t; Decl *id, *first, *last; first = last = nil; t = mktype(&f->src.start, &f->src.stop, Tfn, rt, nil); t->polys = f->kind == Tref ? f->tof->polys : f->polys; for( ; a != nil; a = a->right){ id = mkdecl(&f->src, Darg, a->left->ty); if(last == nil) first = id; else last->next = id; last = id; } t->ids = first; if(f->kind == Tref) t = mktype(&f->src.start, &f->src.stop, Tref, t, nil); return t; } static Type* duptype(Type *t) { Type *nt; nt = allocmem(sizeof(*nt)); *nt = *t; nt->ok &= ~(OKverify|OKref|OKclass|OKsized|OKcycsize|OKcyc); nt->flags |= INST; nt->eq = nil; nt->sbl = -1; if(t->decl != nil && (nt->kind == Tadt || nt->kind == Tadtpick || nt->kind == Ttuple)){ nt->decl = dupdecl(t->decl); nt->decl->ty = nt; nt->decl->link = t->decl; if(t->decl->dot != nil){ nt->decl->dot = dupdecl(t->decl->dot); nt->decl->dot->link = t->decl->dot; } } else nt->decl = nil; return nt; } static int dpolys(Decl *ids) { Decl *p; for(p = ids; p != nil; p = p->next) if(tpolys(p->ty)) return 1; return 0; } static int tpolys(Type *t) { int v; Typelist *tl; if(t == nil) return 0; if(t->flags&(POLY|NOPOLY)) return t->flags&POLY; switch(t->kind){ default: v = 0; break; case Tarrow: case Tdot: case Tpoly: v = 1; break; case Tref: case Tlist: case Tarray: case Tchan: v = tpolys(t->tof); break; case Tid: v = tpolys(t->decl->ty); break; case Tinst: v = 0; for(tl = t->u.tlist; tl != nil; tl = tl->nxt) if(tpolys(tl->t)){ v = 1; break; } if(v == 0) v = tpolys(t->tof); break; case Tfn: case Tadt: case Tadtpick: case Ttuple: case Texception: if(t->polys != nil){ v = 1; break; } if(t->rec&TRvis) return 0; t->rec |= TRvis; v = tpolys(t->tof) || dpolys(t->polys) || dpolys(t->ids) || dpolys(t->tags); t->rec &= ~TRvis; if(t->kind == Tadtpick && v == 0) v = tpolys(t->decl->dot->ty); break; } if(v) t->flags |= POLY; else t->flags |= NOPOLY; return v; } static int doccurs(Decl *ids, Tpair **tp) { Decl *p; for(p = ids; p != nil; p = p->next) if(toccurs(p->ty, tp)) return 1; return 0; } static int toccurs(Type *t, Tpair **tp) { int o; Typelist *tl; if(t == nil) return 0; if(!(t->flags&(POLY|NOPOLY))) tpolys(t); if(t->flags&NOPOLY) return 0; switch(t->kind){ default: fatal("unknown type %t in toccurs", t); case Tnone: case Tbig: case Tbyte: case Treal: case Tint: case Tstring: case Tfix: case Tmodule: case Terror: return 0; case Tarrow: case Tdot: return 1; case Tpoly: return valtmap(t, *tp) != t; case Tref: case Tlist: case Tarray: case Tchan: return toccurs(t->tof, tp); case Tid: return toccurs(t->decl->ty, tp); case Tinst: for(tl = t->u.tlist; tl != nil; tl = tl->nxt) if(toccurs(tl->t, tp)) return 1; return toccurs(t->tof, tp); case Tfn: case Tadt: case Tadtpick: case Ttuple: case Texception: if(t->rec&TRvis) return 0; t->rec |= TRvis; o = toccurs(t->tof, tp) || doccurs(t->polys, tp) || doccurs(t->ids, tp) || doccurs(t->tags, tp); t->rec &= ~TRvis; if(t->kind == Tadtpick && o == 0) o = toccurs(t->decl->dot->ty, tp); return o; } } static Decl* expandids(Decl *ids, Decl *adtt, Tpair **tp, int sym) { Decl *p, *q, *nids, *last; nids = last = nil; for(p = ids; p != nil; p = p->next){ q = dupdecl(p); q->ty = expandtype(p->ty, nil, adtt, tp); if(sym && q->ty->decl != nil) q->sym = q->ty->decl->sym; if(q->store == Dfn){ if(debug['v']) print("%p->link = %p\n", q, p); q->link = p; } if(nids == nil) nids = q; else last->next = q; last = q; } return nids; } Type* expandtype(Type *t, Type *instt, Decl *adtt, Tpair **tp) { Type *nt; Decl *ids; if(t == nil) return nil; if(debug['w']) print("expandtype %d %#p %T\n", t->kind, t, t); if(!toccurs(t, tp)) return t; if(debug['w']) print("\texpanding\n"); switch(t->kind){ default: fatal("unknown type %t in expandtype", t); case Tpoly: return valtmap(t, *tp); case Tref: case Tlist: case Tarray: case Tchan: nt = duptype(t); nt->tof = expandtype(t->tof, nil, adtt, tp); return nt; case Tid: return expandtype(idtype(t), nil, adtt, tp); case Tdot: return expandtype(dottype(t, adtt), nil, adtt, tp); case Tarrow: return expandtype(arrowtype(t, adtt), nil, adtt, tp); case Tinst: if((nt = valtmap(t, *tp)) != t) return nt; return expandtype(insttype(t, adtt, tp), nil, adtt, tp); case Tfn: case Tadt: case Tadtpick: case Ttuple: case Texception: if((nt = valtmap(t, *tp)) != t) return nt; if(t->kind == Tadt) adtt = t->decl; nt = duptype(t); addtmap(t, nt, tp); if(instt != nil) addtmap(instt, nt, tp); nt->tof = expandtype(t->tof, nil, adtt, tp); nt->polys = expandids(t->polys, adtt, tp, 1); nt->ids = expandids(t->ids, adtt, tp, 0); nt->tags = expandids(t->tags, adtt, tp, 0); if(t->kind == Tadt){ for(ids = nt->tags; ids != nil; ids = ids->next) ids->ty->decl->dot = nt->decl; } if(t->kind == Tadtpick){ nt->decl->dot->ty = expandtype(t->decl->dot->ty, nil, adtt, tp); } if((t->kind == Tadt || t->kind == Tadtpick) && t->u.tmap != nil){ Tpair *p; nt->u.tmap = nil; for(p = t->u.tmap; p != nil; p = p->nxt) addtmap(valtmap(p->t1, *tp), valtmap(p->t2, *tp), &nt->u.tmap); if(debug['w']){ print("new tmap for %T->%T: ", t, nt); for(p=nt->u.tmap;p!=nil;p=p->nxt)print("%T -> %T ", p->t1, p->t2); print("\n"); } } return nt; } } /* * create type signatures * sign the same information used * for testing type equality */ ulong sign(Decl *d) { Type *t; uchar *sig, md5sig[MD5dlen]; char buf[StrSize]; int i, sigend, sigalloc, v; t = d->ty; if(t->sig != 0) return t->sig; if(ispoly(d)) rmfnptrs(d); sig = 0; sigend = -1; sigalloc = 1024; while(sigend < 0 || sigend >= sigalloc){ sigalloc *= 2; sig = reallocmem(sig, sigalloc); eqrec = 0; sigend = rtsign(t, sig, sigalloc, 0); v = clearrec(t); if(v != eqrec) fatal("recid not balanced in sign: %d %d", v, eqrec); eqrec = 0; } sig[sigend] = '\0'; if(signdump != nil){ seprint(buf, buf+sizeof(buf), "%D", d); if(strcmp(buf, signdump) == 0){ print("sign %D len %d\n", d, sigend); print("%s\n", (char*)sig); } } md5(sig, sigend, md5sig, nil); for(i = 0; i < MD5dlen; i += 4) t->sig ^= md5sig[i+0] | (md5sig[i+1]<<8) | (md5sig[i+2]<<16) | (md5sig[i+3]<<24); if(debug['S']) print("signed %D type %T len %d sig %#lux\n", d, t, sigend, t->sig); free(sig); return t->sig; } enum { SIGSELF = 'S', SIGVARARGS = '*', SIGCYC = 'y', SIGREC = '@' }; static int sigkind[Tend] = { /* Tnone */ 'n', /* Tadt */ 'a', /* Tadtpick */ 'p', /* Tarray */ 'A', /* Tbig */ 'B', /* Tbyte */ 'b', /* Tchan */ 'C', /* Treal */ 'r', /* Tfn */ 'f', /* Tint */ 'i', /* Tlist */ 'L', /* Tmodule */ 'm', /* Tref */ 'R', /* Tstring */ 's', /* Ttuple */ 't', /* Texception */ 'e', /* Tfix */ 'x', /* Tpoly */ 'P', }; static int rtsign(Type *t, uchar *sig, int lensig, int spos) { Decl *id, *tg; char name[32]; int kind, lenname; if(t == nil) return spos; if(spos < 0 || spos + 8 >= lensig) return -1; if(t->eq != nil && t->eq->id){ if(t->eq->id < 0 || t->eq->id > eqrec) fatal("sign rec %T %d %d", t, t->eq->id, eqrec); sig[spos++] = SIGREC; seprint(name, name+sizeof(name), "%d", t->eq->id); lenname = strlen(name); if(spos + lenname > lensig) return -1; strcpy((char*)&sig[spos], name); spos += lenname; return spos; } if(t->eq != nil){ eqrec++; t->eq->id = eqrec; } kind = sigkind[t->kind]; sig[spos++] = kind; if(kind == 0) fatal("no sigkind for %t", t); t->rec = 1; switch(t->kind){ default: fatal("bogus type %t in rtsign", t); return -1; case Tnone: case Tbig: case Tbyte: case Treal: case Tint: case Tstring: case Tpoly: return spos; case Tfix: seprint(name, name+sizeof(name), "%g", t->val->rval); lenname = strlen(name); if(spos+lenname-1 >= lensig) return -1; strcpy((char*)&sig[spos], name); spos += lenname; return spos; case Tref: case Tlist: case Tarray: case Tchan: return rtsign(t->tof, sig, lensig, spos); case Tfn: if(t->varargs != 0) sig[spos++] = SIGVARARGS; if(t->polys != nil) spos = idsign(t->polys, 0, sig, lensig, spos); spos = idsign(t->ids, 0, sig, lensig, spos); if(t->u.eraises) spos = raisessign(t->u.eraises, sig, lensig, spos); return rtsign(t->tof, sig, lensig, spos); case Ttuple: return idsign(t->ids, 0, sig, lensig, spos); case Tadt: /* * this is a little different than in rtequal, * since we flatten the adt we used to represent the globals */ if(t->eq == nil){ if(strcmp(t->decl->sym->name, ".mp") != 0) fatal("no t->eq field for %t", t); spos--; for(id = t->ids; id != nil; id = id->next){ spos = idsign1(id, 1, sig, lensig, spos); if(spos < 0 || spos >= lensig) return -1; sig[spos++] = ';'; } return spos; } if(t->polys != nil) spos = idsign(t->polys, 0, sig, lensig, spos); spos = idsign(t->ids, 1, sig, lensig, spos); if(spos < 0 || t->tags == nil) return spos; /* * convert closing ')' to a ',', then sign any tags */ sig[spos-1] = ','; for(tg = t->tags; tg != nil; tg = tg->next){ lenname = tg->sym->len; if(spos + lenname + 2 >= lensig) return -1; strcpy((char*)&sig[spos], tg->sym->name); spos += lenname; sig[spos++] = '='; sig[spos++] = '>'; spos = rtsign(tg->ty, sig, lensig, spos); if(spos < 0 || spos >= lensig) return -1; if(tg->next != nil) sig[spos++] = ','; } if(spos >= lensig) return -1; sig[spos++] = ')'; return spos; case Tadtpick: spos = idsign(t->ids, 1, sig, lensig, spos); if(spos < 0) return spos; return rtsign(t->decl->dot->ty, sig, lensig, spos); case Tmodule: if(t->tof->linkall == 0) fatal("signing a narrowed module"); if(spos >= lensig) return -1; sig[spos++] = '{'; for(id = t->tof->ids; id != nil; id = id->next){ if(id->tag) continue; if(strcmp(id->sym->name, ".mp") == 0){ spos = rtsign(id->ty, sig, lensig, spos); if(spos < 0) return -1; continue; } spos = idsign1(id, 1, sig, lensig, spos); if(spos < 0 || spos >= lensig) return -1; sig[spos++] = ';'; } if(spos >= lensig) return -1; sig[spos++] = '}'; return spos; } } static int idsign(Decl *id, int usenames, uchar *sig, int lensig, int spos) { int first; if(spos >= lensig) return -1; sig[spos++] = '('; first = 1; for(; id != nil; id = id->next){ if(id->store == Dlocal) fatal("local %s in idsign", id->sym->name); if(!storespace[id->store]) continue; if(!first){ if(spos >= lensig) return -1; sig[spos++] = ','; } spos = idsign1(id, usenames, sig, lensig, spos); if(spos < 0) return -1; first = 0; } if(spos >= lensig) return -1; sig[spos++] = ')'; return spos; } static int idsign1(Decl *id, int usenames, uchar *sig, int lensig, int spos) { char *name; int lenname; if(usenames){ name = id->sym->name; lenname = id->sym->len; if(spos + lenname + 1 >= lensig) return -1; strcpy((char*)&sig[spos], name); spos += lenname; sig[spos++] = ':'; } if(spos + 2 >= lensig) return -1; if(id->implicit != 0) sig[spos++] = SIGSELF; if(id->cyc != 0) sig[spos++] = SIGCYC; return rtsign(id->ty, sig, lensig, spos); } static int raisessign(Node *n, uchar *sig, int lensig, int spos) { int m; char *s; Node *nn; if(spos >= lensig) return -1; sig[spos++] = '('; for(nn = n->left; nn != nil; nn = nn->right){ s = nn->left->decl->sym->name; m = nn->left->decl->sym->len; if(spos+m-1 >= lensig) return -1; strcpy((char*)&sig[spos], s); spos += m; if(nn->right != nil){ if(spos >= lensig) return -1; sig[spos++] = ','; } } if(spos >= lensig) return -1; sig[spos++] = ')'; return spos; } static int clearrec(Type *t) { Decl *id; int n; n = 0; for(; t != nil && t->rec; t = t->tof){ t->rec = 0; if(t->eq != nil && t->eq->id != 0){ t->eq->id = 0; n++; } if(t->kind == Tmodule){ for(id = t->tof->ids; id != nil; id = id->next) n += clearrec(id->ty); return n; } if(t->kind == Tadtpick) n += clearrec(t->decl->dot->ty); for(id = t->ids; id != nil; id = id->next) n += clearrec(id->ty); for(id = t->tags; id != nil; id = id->next) n += clearrec(id->ty); for(id = t->polys; id != nil; id = id->next) n += clearrec(id->ty); } return n; } /* must a variable of the given type be zeroed ? (for uninitialized declarations inside loops) */ int tmustzero(Type *t) { if(t==nil) return 0; if(tattr[t->kind].isptr) return 1; if(t->kind == Tadtpick) t = t->tof; if(t->kind == Ttuple || t->kind == Tadt) return mustzero(t->ids); return 0; } int mustzero(Decl *decls) { Decl *d; for (d = decls; d != nil; d = d->next) if (tmustzero(d->ty)) return 1; return 0; } int typeconv(Fmt *f) { Type *t; char *p, buf[1024]; t = va_arg(f->args, Type*); if(t == nil){ p = "nothing"; }else{ p = buf; buf[0] = 0; tprint(buf, buf+sizeof(buf), t); } return fmtstrcpy(f, p); } int stypeconv(Fmt *f) { Type *t; char *p, buf[1024]; t = va_arg(f->args, Type*); if(t == nil){ p = "nothing"; }else{ p = buf; buf[0] = 0; stprint(buf, buf+sizeof(buf), t); } return fmtstrcpy(f, p); } int ctypeconv(Fmt *f) { Type *t; char buf[1024]; t = va_arg(f->args, Type*); buf[0] = 0; ctprint(buf, buf+sizeof(buf), t); return fmtstrcpy(f, buf); } char* tprint(char *buf, char *end, Type *t) { Decl *id; Typelist *tl; if(t == nil) return buf; if(t->kind >= Tend) return seprint(buf, end, "kind %d", t->kind); switch(t->kind){ case Tarrow: buf = seprint(buf, end, "%T->%s", t->tof, t->decl->sym->name); break; case Tdot: buf = seprint(buf, end, "%T.%s", t->tof, t->decl->sym->name); break; case Tid: case Tpoly: buf = seprint(buf, end, "%s", t->decl->sym->name); break; case Tinst: buf = tprint(buf, end, t->tof); buf = secpy(buf ,end, "["); for(tl = t->u.tlist; tl != nil; tl = tl->nxt){ buf = tprint(buf, end, tl->t); if(tl->nxt != nil) buf = secpy(buf, end, ", "); } buf = secpy(buf, end, "]"); break; case Tint: case Tbig: case Tstring: case Treal: case Tbyte: case Tany: case Tnone: case Terror: case Tainit: case Talt: case Tcase: case Tcasel: case Tcasec: case Tgoto: case Tiface: case Texception: case Texcept: buf = secpy(buf, end, kindname[t->kind]); break; case Tfix: buf = seprint(buf, end, "%s(%v)", kindname[t->kind], t->val); break; case Tref: buf = secpy(buf, end, "ref "); buf = tprint(buf, end, t->tof); break; case Tchan: case Tarray: case Tlist: buf = seprint(buf, end, "%s of ", kindname[t->kind]); buf = tprint(buf, end, t->tof); break; case Tadtpick: buf = seprint(buf, end, "%s.%s", t->decl->dot->sym->name, t->decl->sym->name); break; case Tadt: if(t->decl->dot != nil && !isimpmod(t->decl->dot->sym)) buf = seprint(buf, end, "%s->%s", t->decl->dot->sym->name, t->decl->sym->name); else buf = seprint(buf, end, "%s", t->decl->sym->name); if(t->polys != nil){ buf = secpy(buf ,end, "["); for(id = t->polys; id != nil; id = id->next){ if(t->u.tmap != nil) buf = tprint(buf, end, valtmap(id->ty, t->u.tmap)); else buf = seprint(buf, end, "%s", id->sym->name); if(id->next != nil) buf = secpy(buf, end, ", "); } buf = secpy(buf, end, "]"); } break; case Tmodule: buf = seprint(buf, end, "%s", t->decl->sym->name); break; case Ttuple: buf = secpy(buf, end, "("); for(id = t->ids; id != nil; id = id->next){ buf = tprint(buf, end, id->ty); if(id->next != nil) buf = secpy(buf, end, ", "); } buf = secpy(buf, end, ")"); break; case Tfn: buf = secpy(buf, end, "fn"); if(t->polys != nil){ buf = secpy(buf, end, "["); for(id = t->polys; id != nil; id = id->next){ buf = seprint(buf, end, "%s", id->sym->name); if(id->next != nil) buf = secpy(buf, end, ", "); } buf = secpy(buf, end, "]"); } buf = secpy(buf, end, "("); for(id = t->ids; id != nil; id = id->next){ if(id->sym == nil) buf = secpy(buf, end, "nil: "); else buf = seprint(buf, end, "%s: ", id->sym->name); if(id->implicit) buf = secpy(buf, end, "self "); buf = tprint(buf, end, id->ty); if(id->next != nil) buf = secpy(buf, end, ", "); } if(t->varargs && t->ids != nil) buf = secpy(buf, end, ", *"); else if(t->varargs) buf = secpy(buf, end, "*"); if(t->tof != nil && t->tof->kind != Tnone){ buf = secpy(buf, end, "): "); buf = tprint(buf, end, t->tof); break; } buf = secpy(buf, end, ")"); break; default: yyerror("tprint: unknown type kind %d", t->kind); break; } return buf; } char* stprint(char *buf, char *end, Type *t) { if(t == nil) return buf; switch(t->kind){ case Tid: return seprint(buf, end, "id %s", t->decl->sym->name); case Tadt: case Tadtpick: case Tmodule: buf = secpy(buf, end, kindname[t->kind]); buf = secpy(buf, end, " "); return tprint(buf, end, t); } return tprint(buf, end, t); } /* generalize ref P.A, ref P.B to ref P */ /* Type* tparentx(Type *t1, Type* t2) { if(t1 == nil || t2 == nil || t1->kind != Tref || t2->kind != Tref) return t1; t1 = t1->tof; t2 = t2->tof; if(t1 == nil || t2 == nil || t1->kind != Tadtpick || t2->kind != Tadtpick) return t1; t1 = t1->decl->dot->ty; t2 = t2->decl->dot->ty; if(tequal(t1, t2)) return mktype(&t1->src.start, &t1->src.stop, Tref, t1, nil); return t1; } */ static int tparent0(Type *t1, Type *t2) { Decl *id1, *id2; if(t1 == t2) return 1; if(t1 == nil || t2 == nil) return 0; if(t1->kind == Tadt && t2->kind == Tadtpick) t2 = t2->decl->dot->ty; if(t1->kind == Tadtpick && t2->kind == Tadt) t1 = t1->decl->dot->ty; if(t1->kind != t2->kind) return 0; switch(t1->kind){ default: fatal("unknown type %t v %t in tparent", t1, t2); break; case Terror: case Tstring: case Tnone: case Tint: case Tbig: case Tbyte: case Treal: case Tany: return 1; case Texception: case Tfix: case Tfn: case Tadt: case Tmodule: case Tpoly: return tcompat(t1, t2, 0); case Tref: case Tlist: case Tarray: case Tchan: return tparent0(t1->tof, t2->tof); case Ttuple: for(id1 = t1->ids, id2 = t2->ids; id1 != nil && id2 != nil; id1 = id1->next, id2 = id2->next) if(!tparent0(id1->ty, id2->ty)) return 0; return id1 == nil && id2 == nil; case Tadtpick: return tequal(t1->decl->dot->ty, t2->decl->dot->ty); } return 0; } static Type* tparent1(Type *t1, Type *t2) { Type *t, *nt; Decl *id, *id1, *id2, *idt; if(t1->kind == Tadt && t2->kind == Tadtpick) t2 = t2->decl->dot->ty; if(t1->kind == Tadtpick && t2->kind == Tadt) t1 = t1->decl->dot->ty; switch(t1->kind){ default: return t1; case Tref: case Tlist: case Tarray: case Tchan: t = tparent1(t1->tof, t2->tof); if(t == t1->tof) return t1; return mktype(&t1->src.start, &t1->src.stop, t1->kind, t, nil); case Ttuple: nt = nil; id = nil; for(id1 = t1->ids, id2 = t2->ids; id1 != nil && id2 != nil; id1 = id1->next, id2 = id2->next){ t = tparent1(id1->ty, id2->ty); if(t != id1->ty){ if(nt == nil){ nt = mktype(&t1->src.start, &t1->src.stop, Ttuple, nil, dupdecls(t1->ids)); for(id = nt->ids, idt = t1->ids; idt != id1; id = id->next, idt = idt->next) ; } id->ty = t; } if(id != nil) id = id->next; } if(nt == nil) return t1; return nt; case Tadtpick: if(tequal(t1, t2)) return t1; return t1->decl->dot->ty; } } Type* tparent(Type *t1, Type *t2) { if(tparent0(t1, t2)) return tparent1(t1, t2); return t1; } /* * make the tuple type used to initialize an exception type */ Type* mkexbasetype(Type *t) { Decl *id, *new, *last; Type *nt; if(!t->cons) fatal("mkexbasetype on non-constant"); last = mkids(&t->decl->src, nil, tstring, nil); last->store = Dfield; nt = mktype(&t->src.start, &t->src.stop, Texception, nil, last); nt->cons = 0; new = mkids(&t->decl->src, nil, tint, nil); new->store = Dfield; last->next = new; last = new; for(id = t->ids; id != nil; id = id->next){ new = allocmem(sizeof *id); *new = *id; new->cyc = 0; last->next = new; last = new; } last->next = nil; return usetype(nt); } /* * make an instantiated exception type */ Type* mkextype(Type *t) { Type *nt; if(!t->cons) fatal("mkextype on non-constant"); if(t->tof != nil) return t->tof; nt = copytypeids(t); nt->cons = 0; t->tof = usetype(nt); return t->tof; } /* * convert an instantiated exception type to its underlying type */ Type* mkextuptype(Type *t) { Decl *id; Type *nt; if(t->cons) return t; if(t->tof != nil) return t->tof; id = t->ids; if(id == nil) nt = t; else if(id->next == nil) nt = id->ty; else{ nt = copytypeids(t); nt->cons = 0; nt->kind = Ttuple; } t->tof = usetype(nt); return t->tof; } static void ckfix(Type *t, double max) { int p; vlong k, x; double s; s = t->val->rval; if(max == 0.0) k = ((vlong)1<<32)-1; else k = 2*(vlong)(max/s+0.5)+1; x = 1; for(p = 0; k > x; p++) x *= 2; if(p == 0 || p > 32){ error(t->src.start, "cannot fit fixed type into an int"); return; } if(p < 32) t->val->rval /= (double)(1<<(32-p)); } double scale(Type *t) { Node *n; if(t->kind == Tint || t->kind == Treal) return 1.0; if(t->kind != Tfix) fatal("scale() on non fixed point type"); n = t->val; if(n->op != Oconst) fatal("non constant scale"); if(n->ty != treal) fatal("non real scale"); return n->rval; } double scale2(Type *f, Type *t) { return scale(f)/scale(t); } #define I(x) ((int)(x)) #define V(x) ((Long)(x)) #define D(x) ((double)(x)) /* put x in normal form */ static int nf(double x, int *mant) { int p; double m; p = 0; m = x; while(m >= 1){ p++; m /= 2; } while(m < 0.5){ p--; m *= 2; } m *= D(1<<16)*D(1<<15); if(m >= D(0x7fffffff) - 0.5){ *mant = 0x7fffffff; return p; } *mant = I(m+0.5); return p; } static int ispow2(double x) { int m; nf(x, &m); if(m != 1<<30) return 0; return 1; } static int fround(double x, int n, int *m) { if(n != 31) fatal("not 31 in fround"); return nf(x, m); } static int fixmul2(double sx, double sy, double sr, int *rp, int *ra) { int k, n, a; double alpha; alpha = (sx*sy)/sr; n = 31; k = fround(1/alpha, n, &a); *rp = 1-k; *ra = 0; return IMULX; } static int fixdiv2(double sx, double sy, double sr, int *rp, int *ra) { int k, n, b; double beta; beta = sx/(sy*sr); n = 31; k = fround(beta, n, &b); *rp = k-1; *ra = 0; return IDIVX; } static int fixmul(double sx, double sy, double sr, int *rp, int *ra) { int k, m, n, a, v; vlong W; double alpha, eps; alpha = (sx*sy)/sr; if(ispow2(alpha)) return fixmul2(sx, sy, sr, rp, ra); n = 31; k = fround(1/alpha, n, &a); m = n-k; if(m < -n-1) return IMOVW; /* result is zero whatever the values */ v = 0; W = 0; eps = D(1<<m)/(alpha*D(a)) - 1; if(eps < 0){ v = a-1; eps = -eps; } if(m < 0 && D(1<<n)*eps*D(a) >= D(a)-1+D(1<<m)) W = (V(1)<<(-m)) - 1; if(v != 0 || W != 0) m = m<<2|(v != 0)<<1|(W != 0); *rp = m; *ra = a; return v == 0 && W == 0 ? IMULX0: IMULX1; } static int fixdiv(double sx, double sy, double sr, int *rp, int *ra) { int k, m, n, b, v; vlong W; double beta, eps; beta = sx/(sy*sr); if(ispow2(beta)) return fixdiv2(sx, sy, sr, rp, ra); n = 31; k = fround(beta, n, &b); m = k-n; if(m <= -2*n) return IMOVW; /* result is zero whatever the values */ v = 0; W = 0; eps = (D(1<<m)*D(b))/beta - 1; if(eps < 0) v = 1; if(m < 0) W = (V(1)<<(-m)) - 1; if(v != 0 || W != 0) m = m<<2|(v != 0)<<1|(W != 0); *rp = m; *ra = b; return v == 0 && W == 0 ? IDIVX0: IDIVX1; } static int fixcast(double sx, double sr, int *rp, int *ra) { int op; op = fixmul(sx, 1.0, sr, rp, ra); return op-IMULX+ICVTXX; } int fixop(int op, Type *tx, Type *ty, Type *tr, int *rp, int *ra) { double sx, sy, sr; sx = scale(tx); sy = scale(ty); sr = scale(tr); if(op == IMULX) op = fixmul(sx, sy, sr, rp, ra); else if(op == IDIVX) op = fixdiv(sx, sy, sr, rp, ra); else op = fixcast(sx, sr, rp, ra); return op; } int ispoly(Decl *d) { Type *t; if(d == nil) return 0; t = d->ty; if(t->kind == Tfn){ if(t->polys != nil) return 1; if((d = d->dot) == nil) return 0; t = d->ty; return t->kind == Tadt && t->polys != nil; } return 0; } int ispolyadt(Type *t) { return (t->kind == Tadt || t->kind == Tadtpick) && t->polys != nil && !(t->flags & INST); } Decl* polydecl(Decl *ids) { Decl *id; Type *t; for(id = ids; id != nil; id = id->next){ t = mktype(&id->src.start, &id->src.stop, Tpoly, nil, nil); id->ty = t; t->decl = id; } return ids; } /* try to convert an expression tree to a type */ Type* exptotype(Node *n) { Type *t, *tt; Decl *d; Typelist *tl; Src *src; if(n == nil) return nil; t = nil; switch(n->op){ case Oname: if((d = n->decl) != nil && d->store == Dtype) t = d->ty; break; case Otype: case Ochan: t = n->ty; break; case Oref: t = exptotype(n->left); if(t != nil) t = mktype(&n->src.start, &n->src.stop, Tref, t, nil); break; case Odot: t = exptotype(n->left); if(t != nil){ d = namedot(t->tags, n->right->decl->sym); if(d == nil) t = nil; else t = d->ty; } if(t == nil) t = exptotype(n->right); break; case Omdot: t = exptotype(n->right); break; case Oindex: t = exptotype(n->left); if(t != nil){ src = &n->src; tl = nil; for(n = n->right; n != nil; n = n->right){ if(n->op == Oseq) tt = exptotype(n->left); else tt = exptotype(n); if(tt == nil) return nil; tl = addtype(tt, tl); if(n->op != Oseq) break; } t = mkinsttype(src, t, tl); } break; } return t; } static char* uname(Decl *im) { Decl *p; int n; char *s; n = 0; for(p = im; p != nil; p = p->next) n += strlen(p->sym->name)+1; s = allocmem(n); strcpy(s, ""); for(p = im; p != nil; p = p->next){ strcat(s, p->sym->name); if(p->next != nil) strcat(s, "+"); } return s; } /* check all implementation modules have consistent declarations * and create their union if needed */ Decl* modimp(Dlist *dl, Decl *im) { Decl *u, *d, *dd, *ids, *dot, *last; Sym *s; Dlist *dl0; long sg, sg0; char buf[StrSize], *un; if(dl->next == nil) return dl->d; dl0 = dl; sg0 = 0; un = uname(im); seprint(buf, buf+sizeof(buf), ".m.%s", un); installids(Dglobal, mkids(&dl->d->src, enter(buf, 0), tnone, nil)); u = dupdecl(dl->d); u->sym = enter(un, 0); u->sym->decl = u; u->ty = mktype(&u->src.start, &u->src.stop, Tmodule, nil, nil); u->ty->decl = u; last = nil; for( ; dl != nil; dl = dl->next){ d = dl->d; ids = d->ty->tof->ids; /* iface */ if(ids != nil && ids->store == Dglobal) /* .mp */ sg = sign(ids); else sg = 0; if(dl == dl0) sg0 = sg; else if(sg != sg0) error(d->src.start, "%s's module data not consistent with that of %s\n", d->sym->name, dl0->d->sym->name); for(ids = d->ty->ids; ids != nil; ids = ids->next){ s = ids->sym; if(s->decl != nil && s->decl->scope >= scope){ if(ids == s->decl){ dd = dupdecl(ids); if(u->ty->ids == nil) u->ty->ids = dd; else last->next = dd; last = dd; continue; } dot = s->decl->dot; if(s->decl->store != Dwundef && dot != nil && dot != d && isimpmod(dot->sym) && dequal(ids, s->decl, 1)) ids->refs = s->decl->refs; else redecl(ids); ids->init = s->decl->init; } } } u->ty = usetype(u->ty); return u; } static void modres(Decl *d) { Decl *ids, *id, *n, *i; Type *t; for(ids = d->ty->ids; ids != nil; ids = ids->next){ id = ids->sym->decl; if(ids != id){ n = ids->next; i = ids->iface; t = ids->ty; *ids = *id; ids->next = n; ids->iface = i; ids->ty = t; } } } /* update the fields of duplicate declarations in other implementation modules * and their union */ void modresolve(void) { Dlist *dl; dl = impdecls; if(dl->next == nil) return; for( ; dl != nil; dl = dl->next) modres(dl->d); modres(impdecl); }