예제 #1
0
파일: dsymbol.c 프로젝트: olgk/ldc
int ScopeDsymbol::foreach(Dsymbols *members, ScopeDsymbol::ForeachDg dg, void *ctx, size_t *pn)
{
    assert(dg);
    if (!members)
        return 0;

    size_t n = pn ? *pn : 0; // take over index
    int result = 0;
    for (size_t i = 0; i < members->dim; i++)
    {   Dsymbol *s = (*members)[i];

        if (AttribDeclaration *a = s->isAttribDeclaration())
            result = foreach(a->decl, dg, ctx, &n);
        else if (TemplateMixin *tm = s->isTemplateMixin())
            result = foreach(tm->members, dg, ctx, &n);
        else if (s->isTemplateInstance())
            ;
        else
            result = dg(ctx, n++, s);

        if (result)
            break;
    }

    if (pn)
        *pn = n; // update index
    return result;
}
예제 #2
0
파일: dsymbol.c 프로젝트: olgk/ldc
Dsymbol *Dsymbol::pastMixin()
{
    Dsymbol *s = this;

    //printf("Dsymbol::pastMixin() %s\n", toChars());
    while (s && s->isTemplateMixin())
        s = s->parent;
    return s;
}
예제 #3
0
Dsymbol *ScopeDsymbol::getNth(Dsymbols *members, size_t nth, size_t *pn)
{
    if (!members)
        return NULL;

    size_t n = 0;
    for (size_t i = 0; i < members->dim; i++)
    {   Dsymbol *s = (*members)[i];
        AttribDeclaration *a = s->isAttribDeclaration();
        TemplateMixin *tm = s->isTemplateMixin();
        TemplateInstance *ti = s->isTemplateInstance();

        if (a)
        {
            s = getNth(a->decl, nth - n, &n);
            if (s)
                return s;
        }
        else if (tm)
        {
            s = getNth(tm->members, nth - n, &n);
            if (s)
                return s;
        }
        else if (ti)
            ;
        else if (n == nth)
            return s;
        else
            n++;
    }

    if (pn)
        *pn += n;
    return NULL;
}
예제 #4
0
파일: class.c 프로젝트: AlexeyProkhin/ldc
void ClassDeclaration::semantic(Scope *sc)
{
    //printf("ClassDeclaration::semantic(%s), type = %p, sizeok = %d, this = %p\n", toChars(), type, sizeok, this);
    //printf("\tparent = %p, '%s'\n", sc->parent, sc->parent ? sc->parent->toChars() : "");
    //printf("sc->stc = %x\n", sc->stc);

    //{ static int n;  if (++n == 20) *(char*)0=0; }

    if (!ident)         // if anonymous class
    {   const char *id = "__anonclass";

        ident = Identifier::generateId(id);
    }

    if (!sc)
        sc = scope;
    if (!parent && sc->parent && !sc->parent->isModule())
        parent = sc->parent;

    type = type->semantic(loc, sc);
    handle = type;

    if (!members)               // if opaque declaration
    {   //printf("\tclass '%s' is forward referenced\n", toChars());
        return;
    }
    if (symtab)
    {   if (sizeok == SIZEOKdone || !scope)
        {   //printf("\tsemantic for '%s' is already completed\n", toChars());
            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;
    }
    unsigned dprogress_save = Module::dprogress;
    int errors = global.errors;

    if (sc->stc & STCdeprecated)
    {
        isdeprecated = true;
    }
    userAttributes = sc->userAttributes;

    if (sc->linkage == LINKcpp)
        error("cannot create C++ classes");

    // Expand any tuples in baseclasses[]
    for (size_t i = 0; i < baseclasses->dim; )
    {   BaseClass *b = (*baseclasses)[i];
        b->type = b->type->semantic(loc, sc);
        Type *tb = b->type->toBasetype();

        if (tb->ty == Ttuple)
        {   TypeTuple *tup = (TypeTuple *)tb;
            enum PROT protection = b->protection;
            baseclasses->remove(i);
            size_t dim = Parameter::dim(tup->arguments);
            for (size_t j = 0; j < dim; j++)
            {   Parameter *arg = Parameter::getNth(tup->arguments, j);
                b = new BaseClass(arg->type, protection);
                baseclasses->insert(i + j, b);
            }
        }
        else
            i++;
    }

    // See if there's a base class as first in baseclasses[]
    if (baseclasses->dim)
    {   TypeClass *tc;
        BaseClass *b;
        Type *tb;

        b = (*baseclasses)[0];
        //b->type = b->type->semantic(loc, sc);
        tb = b->type->toBasetype();
        if (tb->ty != Tclass)
        {   if (b->type != Type::terror)
                error("base type must be class or interface, not %s", b->type->toChars());
            baseclasses->remove(0);
        }
        else
        {
            tc = (TypeClass *)(tb);

            if (tc->sym->isDeprecated())
            {
                if (!isDeprecated())
                {
                    // Deriving from deprecated class makes this one deprecated too
                    isdeprecated = true;

                    tc->checkDeprecated(loc, sc);
                }
            }

            if (tc->sym->isInterfaceDeclaration())
                ;
            else
            {
                for (ClassDeclaration *cdb = tc->sym; cdb; cdb = cdb->baseClass)
                {
                    if (cdb == this)
                    {
                        error("circular inheritance");
                        baseclasses->remove(0);
                        goto L7;
                    }
                }
                if (!tc->sym->symtab || tc->sym->sizeok == SIZEOKnone)
                {   // Try to resolve forward reference
                    if (/*doAncestorsSemantic == SemanticIn &&*/ tc->sym->scope)
                        tc->sym->semantic(NULL);
                }
                if (!tc->sym->symtab || tc->sym->scope || tc->sym->sizeok == SIZEOKnone)
                {
                    //printf("%s: forward reference of base class %s\n", toChars(), tc->sym->toChars());
                    //error("forward reference of base class %s", baseClass->toChars());
                    // Forward reference of base class, try again later
                    //printf("\ttry later, forward reference of base class %s\n", tc->sym->toChars());
                    scope = scx ? scx : new Scope(*sc);
                    scope->setNoFree();
                    if (tc->sym->scope)
                        tc->sym->scope->module->addDeferredSemantic(tc->sym);
                    scope->module->addDeferredSemantic(this);
                    return;
                }
                else
                {   baseClass = tc->sym;
                    b->base = baseClass;
                }
             L7: ;
            }
        }
    }

    // Treat the remaining entries in baseclasses as interfaces
    // Check for errors, handle forward references
    for (size_t i = (baseClass ? 1 : 0); i < baseclasses->dim; )
    {   TypeClass *tc;
        BaseClass *b;
        Type *tb;

        b = (*baseclasses)[i];
        b->type = b->type->semantic(loc, sc);
        tb = b->type->toBasetype();
        if (tb->ty == Tclass)
            tc = (TypeClass *)tb;
        else
            tc = NULL;
        if (!tc || !tc->sym->isInterfaceDeclaration())
        {   if (b->type != Type::terror)
                error("base type must be interface, not %s", b->type->toChars());
            baseclasses->remove(i);
            continue;
        }
        else
        {
            if (tc->sym->isDeprecated())
            {
                if (!isDeprecated())
                {
                    // Deriving from deprecated class makes this one deprecated too
                    isdeprecated = true;

                    tc->checkDeprecated(loc, sc);
                }
            }

            // Check for duplicate interfaces
            for (size_t j = (baseClass ? 1 : 0); j < i; j++)
            {
                BaseClass *b2 = (*baseclasses)[j];
                if (b2->base == tc->sym)
                    error("inherits from duplicate interface %s", b2->base->toChars());
            }

            if (!tc->sym->symtab)
            {   // Try to resolve forward reference
                if (/*doAncestorsSemantic == SemanticIn &&*/ tc->sym->scope)
                    tc->sym->semantic(NULL);
            }

            b->base = tc->sym;
            if (!b->base->symtab || b->base->scope)
            {
                //error("forward reference of base class %s", baseClass->toChars());
                // Forward reference of base, try again later
                //printf("\ttry later, forward reference of base %s\n", baseClass->toChars());
                scope = scx ? scx : new Scope(*sc);
                scope->setNoFree();
                if (tc->sym->scope)
                    tc->sym->scope->module->addDeferredSemantic(tc->sym);
                scope->module->addDeferredSemantic(this);
                return;
            }
        }
        i++;
    }
    if (doAncestorsSemantic == SemanticIn)
        doAncestorsSemantic = SemanticDone;


    // If no base class, and this is not an Object, use Object as base class
    if (!baseClass && ident != Id::Object)
    {
        if (!object)
        {
            error("missing or corrupt object.d");
            fatal();
        }

        Type *t = object->type;
        t = t->semantic(loc, sc)->toBasetype();
        assert(t->ty == Tclass);
        TypeClass *tc = (TypeClass *)t;

        BaseClass *b = new BaseClass(tc, PROTpublic);
        baseclasses->shift(b);

        baseClass = tc->sym;
        assert(!baseClass->isInterfaceDeclaration());
        b->base = baseClass;
    }

    interfaces_dim = baseclasses->dim;
    interfaces = baseclasses->tdata();


    if (baseClass)
    {
        if (baseClass->storage_class & STCfinal)
            error("cannot inherit from final class %s", baseClass->toChars());

        interfaces_dim--;
        interfaces++;

        // Copy vtbl[] from base class
        vtbl.setDim(baseClass->vtbl.dim);
        memcpy(vtbl.tdata(), baseClass->vtbl.tdata(), sizeof(void *) * vtbl.dim);

        // Inherit properties from base class
        com = baseClass->isCOMclass();
        isscope = baseClass->isscope;
        vthis = baseClass->vthis;
        enclosing = baseClass->enclosing;
        storage_class |= baseClass->storage_class & STC_TYPECTOR;
    }
    else
    {
        // No base class, so this is the root of the class hierarchy
        vtbl.setDim(0);
        vtbl.push(this);                // leave room for classinfo as first member
    }

    protection = sc->protection;
    storage_class |= sc->stc;

    if (sizeok == SIZEOKnone)
    {
        interfaceSemantic(sc);

        for (size_t i = 0; i < members->dim; i++)
        {
            Dsymbol *s = (*members)[i];
            s->addMember(sc, this, 1);
        }

        /* If this is a nested class, add the hidden 'this'
         * member which is a pointer to the enclosing scope.
         */
        if (vthis)              // if inheriting from nested class
        {   // Use the base class's 'this' member
            if (storage_class & STCstatic)
                error("static class cannot inherit from nested class %s", baseClass->toChars());
            if (toParent2() != baseClass->toParent2() &&
                (!toParent2() ||
                 !baseClass->toParent2()->getType() ||
                 !baseClass->toParent2()->getType()->isBaseOf(toParent2()->getType(), NULL)))
            {
                if (toParent2())
                {
                    error("is nested within %s, but super class %s is nested within %s",
                        toParent2()->toChars(),
                        baseClass->toChars(),
                        baseClass->toParent2()->toChars());
                }
                else
                {
                    error("is not nested, but super class %s is nested within %s",
                        baseClass->toChars(),
                        baseClass->toParent2()->toChars());
                }
                enclosing = NULL;
            }
        }
        else
            makeNested();
    }

    if (storage_class & STCauto)
        error("storage class 'auto' is invalid when declaring a class, did you mean to use 'scope'?");
    if (storage_class & STCscope)
        isscope = 1;
    if (storage_class & STCabstract)
        isabstract = 1;

    sc = sc->push(this);
    //sc->stc &= ~(STCfinal | STCauto | STCscope | STCstatic | STCabstract | STCdeprecated | STC_TYPECTOR | STCtls | STCgshared);
    //sc->stc |= storage_class & STC_TYPECTOR;
    sc->stc &= STCsafe | STCtrusted | STCsystem;
    sc->parent = this;
    sc->inunion = 0;

    if (isCOMclass())
    {
#if IN_LLVM
        if (global.params.targetTriple.isOSWindows())
#else
        if (global.params.isWindows)
#endif
            sc->linkage = LINKwindows;
        else
            /* This enables us to use COM objects under Linux and
             * work with things like XPCOM
             */
            sc->linkage = LINKc;
    }
    sc->protection = PROTpublic;
    sc->explicitProtection = 0;
    sc->structalign = STRUCTALIGN_DEFAULT;
    if (baseClass)
    {   sc->offset = baseClass->structsize;
        alignsize = baseClass->alignsize;
//      if (enclosing)
//          sc->offset += Target::ptrsize;      // room for uplevel context pointer
    }
    else
    {   sc->offset = Target::ptrsize * 2;       // allow room for __vptr and __monitor
        alignsize = Target::ptrsize;
    }
    sc->userAttributes = NULL;
    structsize = sc->offset;
    Scope scsave = *sc;
    size_t members_dim = members->dim;
    sizeok = SIZEOKnone;

    /* Set scope so if there are forward references, we still might be able to
     * resolve individual members like enums.
     */
    for (size_t i = 0; i < members_dim; i++)
    {   Dsymbol *s = (*members)[i];
        /* There are problems doing this in the general case because
         * Scope keeps track of things like 'offset'
         */
        if (s->isEnumDeclaration() ||
            (s->isAggregateDeclaration() && s->ident) ||
            s->isTemplateMixin() ||
            s->isAttribDeclaration() ||
            s->isAliasDeclaration())
        {
            //printf("[%d] setScope %s %s, sc = %p\n", i, s->kind(), s->toChars(), sc);
            s->setScope(sc);
        }
    }

    for (size_t i = 0; i < members_dim; i++)
    {   Dsymbol *s = (*members)[i];
        s->semantic(sc);
    }

    // Set the offsets of the fields and determine the size of the class

    unsigned offset = structsize;
    bool isunion = isUnionDeclaration() != NULL;
    for (size_t i = 0; i < members->dim; i++)
    {   Dsymbol *s = (*members)[i];
        s->setFieldOffset(this, &offset, false);
    }
    sc->offset = structsize;

    if (global.errors != errors)
    {   // The type is no good.
        type = Type::terror;
    }

    if (sizeok == SIZEOKfwd)            // failed due to forward references
    {   // semantic() failed due to forward references
        // Unwind what we did, and defer it for later

        for (size_t i = 0; i < fields.dim; i++)
        {   Dsymbol *s = fields[i];
            VarDeclaration *vd = s->isVarDeclaration();
            if (vd)
                vd->offset = 0;
        }
        fields.setDim(0);
        structsize = 0;
        alignsize = 0;
//        structalign = 0;

        sc = sc->pop();

        scope = scx ? scx : new Scope(*sc);
        scope->setNoFree();
        scope->module->addDeferredSemantic(this);

        Module::dprogress = dprogress_save;

        //printf("\tsemantic('%s') failed due to forward references\n", toChars());
        return;
    }

    //printf("\tsemantic('%s') successful\n", toChars());

    //members->print();

    /* Look for special member functions.
     * They must be in this class, not in a base class.
     */
    ctor = search(Loc(), Id::ctor, 0);
#if DMDV1
    if (ctor && (ctor->toParent() != this || !ctor->isCtorDeclaration()))
        ctor = NULL;
#else
    if (ctor && (ctor->toParent() != this || !(ctor->isCtorDeclaration() || ctor->isTemplateDeclaration())))
        ctor = NULL;    // search() looks through ancestor classes
    if (!ctor && noDefaultCtor)
    {
        // A class object is always created by constructor, so this check is legitimate.
        for (size_t i = 0; i < fields.dim; i++)
        {
            VarDeclaration *v = fields[i]->isVarDeclaration();
            if (v->storage_class & STCnodefaultctor)
                ::error(v->loc, "field %s must be initialized in constructor", v->toChars());
        }
    }
#endif

//    dtor = (DtorDeclaration *)search(Id::dtor, 0);
//    if (dtor && dtor->toParent() != this)
//      dtor = NULL;

    inv = buildInv(sc);

    // Can be in base class
    aggNew    = (NewDeclaration *)search(Loc(), Id::classNew, 0);
    aggDelete = (DeleteDeclaration *)search(Loc(), Id::classDelete, 0);

    // If this class has no constructor, but base class has a default
    // ctor, create a constructor:
    //    this() { }
    if (!ctor && baseClass && baseClass->ctor)
    {
        if (resolveFuncCall(loc, sc, baseClass->ctor, NULL, NULL, NULL, 1))
        {
            //printf("Creating default this(){} for class %s\n", toChars());
            Type *tf = new TypeFunction(NULL, NULL, 0, LINKd, 0);
            CtorDeclaration *ctor = new CtorDeclaration(loc, Loc(), 0, tf);
            ctor->fbody = new CompoundStatement(Loc(), new Statements());
            members->push(ctor);
            ctor->addMember(sc, this, 1);
            *sc = scsave;   // why? What about sc->nofree?
            ctor->semantic(sc);
            this->ctor = ctor;
            defaultCtor = ctor;
        }
        else
        {
            error("Cannot implicitly generate a default ctor when base class %s is missing a default ctor", baseClass->toPrettyChars());
        }
    }

#if 0
    if (baseClass)
    {   if (!aggDelete)
            aggDelete = baseClass->aggDelete;
        if (!aggNew)
            aggNew = baseClass->aggNew;
    }
#endif

    // Allocate instance of each new interface
    sc->offset = structsize;
    for (size_t i = 0; i < vtblInterfaces->dim; i++)
    {
        BaseClass *b = (*vtblInterfaces)[i];
        unsigned thissize = Target::ptrsize;

        alignmember(STRUCTALIGN_DEFAULT, thissize, &sc->offset);
        assert(b->offset == 0);
        b->offset = sc->offset;

        // Take care of single inheritance offsets
        while (b->baseInterfaces_dim)
        {
            b = &b->baseInterfaces[0];
            b->offset = sc->offset;
        }

        sc->offset += thissize;
        if (alignsize < thissize)
            alignsize = thissize;
    }
    structsize = sc->offset;
#if IN_LLVM
    if (sc->structalign == STRUCTALIGN_DEFAULT)
        structsize = (structsize + alignsize - 1) & ~(alignsize - 1);
    else
        structsize = (structsize + sc->structalign - 1) & ~(sc->structalign - 1);
#endif

    sizeok = SIZEOKdone;
    Module::dprogress++;

    dtor = buildDtor(sc);
    if (FuncDeclaration *f = hasIdentityOpAssign(sc))
    {
        if (!(f->storage_class & STCdisable))
            error("identity assignment operator overload is illegal");
    }
    sc->pop();

#if 0 // Do not call until toObjfile() because of forward references
    // Fill in base class vtbl[]s
    for (i = 0; i < vtblInterfaces->dim; i++)
    {
        BaseClass *b = (*vtblInterfaces)[i];

        //b->fillVtbl(this, &b->vtbl, 1);
    }
#endif
    //printf("-ClassDeclaration::semantic(%s), type = %p\n", toChars(), type);

    if (deferred && !global.gag)
    {
        deferred->semantic2(sc);
        deferred->semantic3(sc);
    }

#if 0
    if (type->ty == Tclass && ((TypeClass *)type)->sym != this)
    {
        printf("this = %p %s\n", this, this->toChars());
        printf("type = %d sym = %p\n", type->ty, ((TypeClass *)type)->sym);
    }
#endif
    assert(type->ty != Tclass || ((TypeClass *)type)->sym == this);
}
예제 #5
0
파일: toobj.c 프로젝트: CodeAlchemist-T/dmd
        void visit(VarDeclaration *vd)
        {

            //printf("VarDeclaration::toObjFile(%p '%s' type=%s) protection %d\n", vd, vd->toChars(), vd->type->toChars(), vd->protection);
            //printf("\talign = %d\n", vd->alignment);

            if (vd->type->ty == Terror)
            {
                vd->error("had semantic errors when compiling");
                return;
            }

            if (vd->aliassym)
            {
                visitNoMultiObj(vd->toAlias());
                return;
            }

            // Do not store variables we cannot take the address of
            if (!vd->canTakeAddressOf())
            {
                return;
            }

            if (!vd->isDataseg() || vd->storage_class & STCextern)
                return;

            Symbol *s = toSymbol(vd);
            unsigned sz = vd->type->size();

            Dsymbol *parent = vd->toParent();
            s->Sclass = SCglobal;

            do
            {
                /* Global template data members need to be in comdat's
                 * in case multiple .obj files instantiate the same
                 * template with the same types.
                 */
                if (parent->isTemplateInstance() && !parent->isTemplateMixin())
                {
                    s->Sclass = SCcomdat;
                    break;
                }
                parent = parent->parent;
            } while (parent);
            s->Sfl = FLdata;

            if (vd->init)
            {
                s->Sdt = Initializer_toDt(vd->init);

                // Look for static array that is block initialized
                ExpInitializer *ie = vd->init->isExpInitializer();

                Type *tb = vd->type->toBasetype();
                if (tb->ty == Tsarray && ie &&
                    !tb->nextOf()->equals(ie->exp->type->toBasetype()->nextOf()) &&
                    ie->exp->implicitConvTo(tb->nextOf())
                    )
                {
                    size_t dim = ((TypeSArray *)tb)->dim->toInteger();

                    // Duplicate Sdt 'dim-1' times, as we already have the first one
                    dt_t **pdt = &s->Sdt;
                    while (--dim > 0)
                    {
                        pdt = Expression_toDt(ie->exp, pdt);
                    }
                }
            }
            else
            {
                Type_toDt(vd->type, &s->Sdt);
            }
            dt_optimize(s->Sdt);

            // See if we can convert a comdat to a comdef,
            // which saves on exe file space.
            if (s->Sclass == SCcomdat &&
                s->Sdt &&
                dtallzeros(s->Sdt) &&
                !vd->isThreadlocal())
            {
                s->Sclass = SCglobal;
                dt2common(&s->Sdt);
            }

            if (!sz && vd->type->toBasetype()->ty != Tsarray)
                assert(0); // this shouldn't be possible

            if (sz || objmod->allowZeroSize())
            {
                outdata(s);
                if (vd->isExport())
                    objmod->export_symbol(s, 0);
            }
        }
예제 #6
0
파일: toobj.c 프로젝트: Cauterite/dmd
        void visit(VarDeclaration *vd)
        {

            //printf("VarDeclaration::toObjFile(%p '%s' type=%s) protection %d\n", vd, vd->toChars(), vd->type->toChars(), vd->protection);
            //printf("\talign = %d\n", vd->alignment);

            if (vd->type->ty == Terror)
            {
                vd->error("had semantic errors when compiling");
                return;
            }

            if (vd->aliassym)
            {
                visitNoMultiObj(vd->toAlias());
                return;
            }

            // Do not store variables we cannot take the address of
            if (!vd->canTakeAddressOf())
            {
                return;
            }

            if (!vd->isDataseg() || vd->storage_class & STCextern)
                return;

            Symbol *s = toSymbol(vd);
            d_uns64 sz64 = vd->type->size(vd->loc);
            if (sz64 == SIZE_INVALID)
            {
                vd->error("size overflow");
                return;
            }
            if (sz64 >= 0x1000000)  // there has to be some 'reasonable' limit on the size
            {
                vd->error("size of x%llx exceeds max allowed size 0x100_0000", sz64);
            }
            unsigned sz = (unsigned)sz64;

            Dsymbol *parent = vd->toParent();
            s->Sclass = SCglobal;

            do
            {
                /* Global template data members need to be in comdat's
                 * in case multiple .obj files instantiate the same
                 * template with the same types.
                 */
                if (parent->isTemplateInstance() && !parent->isTemplateMixin())
                {
                    s->Sclass = SCcomdat;
                    break;
                }
                parent = parent->parent;
            } while (parent);
            s->Sfl = FLdata;

            if (config.objfmt == OBJ_MACH && I64 && (s->ty() & mTYLINK) == mTYthread)
            {
                DtBuilder dtb;
                tlsToDt(vd, s, dtb);
                s->Sdt = dtb.finish();
            }

            else if (vd->_init)
            {
                DtBuilder dtb;
                initializerToDt(vd, dtb);
                s->Sdt = dtb.finish();
            }
            else
            {
                DtBuilder dtb;
                Type_toDt(vd->type, &dtb);
                s->Sdt = dtb.finish();
            }

            // See if we can convert a comdat to a comdef,
            // which saves on exe file space.
            if (s->Sclass == SCcomdat &&
                s->Sdt &&
                dtallzeros(s->Sdt) &&
                !vd->isThreadlocal())
            {
                s->Sclass = SCglobal;
                dt2common(&s->Sdt);
            }

            if (!sz && vd->type->toBasetype()->ty != Tsarray)
                assert(0); // this shouldn't be possible

            if (sz || objmod->allowZeroSize())
            {
                outdata(s);
                if (vd->isExport())
                    objmod->export_symbol(s, 0);
            }
        }
예제 #7
0
파일: toobj.c 프로젝트: sjh2014/dmd
void VarDeclaration::toObjFile(int multiobj)
{
    Symbol *s;
    unsigned sz;
    Dsymbol *parent;

    //printf("VarDeclaration::toObjFile(%p '%s' type=%s) protection %d\n", this, toChars(), type->toChars(), protection);
    //printf("\talign = %d\n", alignment);

    if (type->ty == Terror)
    {   error("had semantic errors when compiling");
        return;
    }

    if (aliassym)
    {   toAlias()->toObjFile(0);
        return;
    }

    // Do not store variables we cannot take the address of
    if (!canTakeAddressOf())
    {
        return;
    }

    if (isDataseg() && !(storage_class & STCextern))
    {
        s = toSymbol();
        sz = type->size();

        parent = this->toParent();
        {
            if (storage_class & STCcomdat)
                s->Sclass = SCcomdat;
            else
                s->Sclass = SCglobal;

            do
            {
                /* Global template data members need to be in comdat's
                 * in case multiple .obj files instantiate the same
                 * template with the same types.
                 */
                if (parent->isTemplateInstance() && !parent->isTemplateMixin())
                {
                    s->Sclass = SCcomdat;
                    break;
                }
                parent = parent->parent;
            } while (parent);
        }
        s->Sfl = FLdata;

        if (init)
        {   s->Sdt = init->toDt();

            // Look for static array that is block initialized
            Type *tb;
            ExpInitializer *ie = init->isExpInitializer();

            tb = type->toBasetype();
            if (tb->ty == Tsarray && ie &&
                !tb->nextOf()->equals(ie->exp->type->toBasetype()->nextOf()) &&
                ie->exp->implicitConvTo(tb->nextOf())
                )
            {
                size_t dim = ((TypeSArray *)tb)->dim->toInteger();

                // Duplicate Sdt 'dim-1' times, as we already have the first one
                dt_t **pdt = &s->Sdt;
                while (--dim > 0)
                {
                    pdt = ie->exp->toDt(pdt);
                }
            }
        }
        else if (storage_class & STCextern)
        {
            s->Sclass = SCextern;
            s->Sfl = FLextern;
            s->Sdt = NULL;
            // BUG: if isExport(), shouldn't we make it dllimport?
            return;
        }
        else
        {
            type->toDt(&s->Sdt);
        }
        dt_optimize(s->Sdt);

        // See if we can convert a comdat to a comdef,
        // which saves on exe file space.
        if (s->Sclass == SCcomdat &&
            s->Sdt &&
            dtallzeros(s->Sdt) &&
            !isThreadlocal())
        {
            s->Sclass = SCglobal;
            dt2common(&s->Sdt);
        }

        if (!sz && type->toBasetype()->ty != Tsarray)
            assert(0); // this shouldn't be possible

        if (sz || objmod->allowZeroSize())
        {
            outdata(s);
            if (isExport())
            objmod->export_symbol(s,0);
        }
    }
}