// Copyright (c) 1999-2008 by Digital Mars // All Rights Reserved // written by Walter Bright // http://www.digitalmars.com // License for redistribution is by either the Artistic License // in artistic.txt, or the GNU General Public License in gnu.txt. // See the included readme.txt for details. #include #include #include "root.h" #include "enum.h" #include "mtype.h" #include "scope.h" #include "id.h" #include "expression.h" #include "module.h" #include "declaration.h" /********************************* EnumDeclaration ****************************/ EnumDeclaration::EnumDeclaration(Loc loc, Identifier *id, Type *memtype) : ScopeDsymbol(id) { this->loc = loc; type = new TypeEnum(this); this->memtype = memtype; maxval = NULL; minval = NULL; defaultval = NULL; sinit = NULL; scope = NULL; isdeprecated = 0; } Dsymbol *EnumDeclaration::syntaxCopy(Dsymbol *s) { Type *t = NULL; if (memtype) t = memtype->syntaxCopy(); EnumDeclaration *ed; if (s) { ed = (EnumDeclaration *)s; ed->memtype = t; } else ed = new EnumDeclaration(loc, ident, t); ScopeDsymbol::syntaxCopy(ed); return ed; } void EnumDeclaration::semantic(Scope *sc) { Type *t; Scope *sce; //printf("EnumDeclaration::semantic(sd = %p, '%s') %s\n", sc->scopesym, sc->scopesym->toChars(), toChars()); //printf("EnumDeclaration::semantic() %s\n", toChars()); if (!members) // enum ident; return; if (!memtype && !isAnonymous()) { // Set memtype if we can to reduce fwd reference errors memtype = Type::tint32; // case 1) enum ident { ... } } if (symtab) // if already done { if (!scope) return; // semantic() already completed } else symtab = new DsymbolTable(); Scope *scx = NULL; if (scope) { sc = scope; scx = scope; // save so we don't make redundant copies scope = NULL; } if (sc->stc & STCdeprecated) isdeprecated = 1; parent = sc->parent; /* The separate, and distinct, cases are: * 1. enum { ... } * 2. enum : memtype { ... } * 3. enum ident { ... } * 4. enum ident : memtype { ... } */ if (memtype) { memtype = memtype->semantic(loc, sc); /* Check to see if memtype is forward referenced */ if (memtype->ty == Tenum) { EnumDeclaration *sym = (EnumDeclaration *)memtype->toDsymbol(sc); if (!sym->memtype || !sym->members || !sym->symtab || sym->scope) { // memtype is forward referenced, so try again later scope = scx ? scx : new Scope(*sc); scope->setNoFree(); scope->module->addDeferredSemantic(this); printf("\tdeferring %s\n", toChars()); return; } } #if 0 // Decided to abandon this restriction for D 2.0 if (!memtype->isintegral()) { error("base type must be of integral type, not %s", memtype->toChars()); memtype = Type::tint32; } #endif } type = type->semantic(loc, sc); if (isAnonymous()) sce = sc; else { sce = sc->push(this); sce->parent = this; } if (members->dim == 0) error("enum %s must have at least one member", toChars()); int first = 1; Expression *elast = NULL; for (int i = 0; i < members->dim; i++) { EnumMember *em = ((Dsymbol *)members->data[i])->isEnumMember(); Expression *e; if (!em) /* The e->semantic(sce) can insert other symbols, such as * template instances and function literals. */ continue; //printf(" Enum member '%s'\n",em->toChars()); if (em->type) em->type = em->type->semantic(em->loc, sce); e = em->value; if (e) { assert(e->dyncast() == DYNCAST_EXPRESSION); e = e->semantic(sce); e = e->optimize(WANTvalue | WANTinterpret); if (memtype) { e = e->implicitCastTo(sce, memtype); e = e->optimize(WANTvalue | WANTinterpret); if (!isAnonymous()) e = e->castTo(sce, type); t = memtype; } else if (em->type) { e = e->implicitCastTo(sce, em->type); e = e->optimize(WANTvalue | WANTinterpret); assert(isAnonymous()); t = e->type; } else t = e->type; } else if (first) { if (memtype) t = memtype; else if (em->type) t = em->type; else t = Type::tint32; e = new IntegerExp(em->loc, 0, Type::tint32); e = e->implicitCastTo(sce, t); e = e->optimize(WANTvalue | WANTinterpret); if (!isAnonymous()) e = e->castTo(sce, type); } else { // Set value to (elast + 1). // But first check that (elast != t.max) assert(elast); e = new EqualExp(TOKequal, em->loc, elast, t->getProperty(0, Id::max)); e = e->semantic(sce); e = e->optimize(WANTvalue | WANTinterpret); if (e->toInteger()) error("overflow of enum value %s", elast->toChars()); // Now set e to (elast + 1) e = new AddExp(em->loc, elast, new IntegerExp(em->loc, 1, Type::tint32)); e = e->semantic(sce); e = e->castTo(sce, elast->type); e = e->optimize(WANTvalue | WANTinterpret); } elast = e; em->value = e; // Add to symbol table only after evaluating 'value' if (isAnonymous()) { /* Anonymous enum members get added to enclosing scope. */ for (Scope *scx = sce; scx; scx = scx->enclosing) { if (scx->scopesym) { if (!scx->scopesym->symtab) scx->scopesym->symtab = new DsymbolTable(); em->addMember(sce, scx->scopesym, 1); break; } } } else em->addMember(sc, this, 1); /* Compute .min, .max and .default values. * If enum doesn't have a name, we can never identify the enum type, * so there is no purpose for a .min, .max or .default */ if (!isAnonymous()) { if (first) { defaultval = e; minval = e; maxval = e; } else { Expression *ec; /* In order to work successfully with UDTs, * build expressions to do the comparisons, * and let the semantic analyzer and constant * folder give us the result. */ // Compute if(e < minval) ec = new CmpExp(TOKlt, em->loc, e, minval); ec = ec->semantic(sce); ec = ec->optimize(WANTvalue | WANTinterpret); if (ec->toInteger()) minval = e; ec = new CmpExp(TOKgt, em->loc, e, maxval); ec = ec->semantic(sce); ec = ec->optimize(WANTvalue | WANTinterpret); if (ec->toInteger()) maxval = e; } } first = 0; } //printf("defaultval = %lld\n", defaultval); //if (defaultval) printf("defaultval: %s %s\n", defaultval->toChars(), defaultval->type->toChars()); if (sc != sce) sce->pop(); //members->print(); } int EnumDeclaration::oneMember(Dsymbol **ps) { if (isAnonymous()) return Dsymbol::oneMembers(members, ps); return Dsymbol::oneMember(ps); } void EnumDeclaration::toCBuffer(OutBuffer *buf, HdrGenState *hgs) { int i; buf->writestring("enum "); if (ident) { buf->writestring(ident->toChars()); buf->writeByte(' '); } if (memtype) { buf->writestring(": "); memtype->toCBuffer(buf, NULL, hgs); } if (!members) { buf->writeByte(';'); buf->writenl(); return; } buf->writenl(); buf->writeByte('{'); buf->writenl(); for (i = 0; i < members->dim; i++) { EnumMember *em = ((Dsymbol *)members->data[i])->isEnumMember(); if (!em) continue; //buf->writestring(" "); em->toCBuffer(buf, hgs); buf->writeByte(','); buf->writenl(); } buf->writeByte('}'); buf->writenl(); } Type *EnumDeclaration::getType() { return type; } const char *EnumDeclaration::kind() { return "enum"; } int EnumDeclaration::isDeprecated() { return isdeprecated; } Dsymbol *EnumDeclaration::search(Loc loc, Identifier *ident, int flags) { //printf("%s.EnumDeclaration::search('%s')\n", toChars(), ident->toChars()); if (scope) // Try one last time to resolve this enum semantic(scope); if (!members || !symtab || scope) { error("is forward referenced when looking for '%s'", ident->toChars()); //*(char*)0=0; return NULL; } Dsymbol *s = ScopeDsymbol::search(loc, ident, flags); return s; } /********************************* EnumMember ****************************/ EnumMember::EnumMember(Loc loc, Identifier *id, Expression *value, Type *type) : Dsymbol(id) { this->value = value; this->type = type; this->loc = loc; } Dsymbol *EnumMember::syntaxCopy(Dsymbol *s) { Expression *e = NULL; if (value) e = value->syntaxCopy(); Type *t = NULL; if (type) t = type->syntaxCopy(); EnumMember *em; if (s) { em = (EnumMember *)s; em->loc = loc; em->value = e; em->type = t; } else em = new EnumMember(loc, ident, e, t); return em; } void EnumMember::toCBuffer(OutBuffer *buf, HdrGenState *hgs) { if (type) type->toCBuffer(buf, ident, hgs); else buf->writestring(ident->toChars()); if (value) { buf->writestring(" = "); value->toCBuffer(buf, hgs); } } const char *EnumMember::kind() { return "enum member"; }