Exemple #1
0
FuncDeclaration *StructDeclaration::buildOpAssign(Scope *sc)
{
    Dsymbol *assign = search_function(this, Id::assign);
    if (assign)
    {
        if (FuncDeclaration *f = hasIdentityOpAssign(sc, assign))
            return f;
        // Even if non-identity opAssign is defined, built-in identity opAssign
        // will be defined. (Is this an exception of operator overloading rule?)
    }

    if (!needOpAssign())
        return NULL;

    //printf("StructDeclaration::buildOpAssign() %s\n", toChars());

    Parameters *fparams = new Parameters;
    fparams->push(new Parameter(STCnodtor, type, Id::p, NULL));
    Type *ftype = new TypeFunction(fparams, handle, FALSE, LINKd);
    ((TypeFunction *)ftype)->isref = 1;

    FuncDeclaration *fop = new FuncDeclaration(loc, 0, Id::assign, STCundefined, ftype);

    Expression *e = NULL;
    if (postblit)
    {   /* Swap:
         *    tmp = *this; *this = s; tmp.dtor();
         */
        //printf("\tswap copy\n");
        Identifier *idtmp = Lexer::uniqueId("__tmp");
        VarDeclaration *tmp;
        AssignExp *ec = NULL;
        if (dtor)
        {
            tmp = new VarDeclaration(0, type, idtmp, new VoidInitializer(0));
            tmp->noscope = 1;
            tmp->storage_class |= STCctfe;
            e = new DeclarationExp(0, tmp);
            ec = new AssignExp(0,
                new VarExp(0, tmp),
                new ThisExp(0)
                );
            ec->op = TOKblit;
            e = Expression::combine(e, ec);
        }
        ec = new AssignExp(0,
                new ThisExp(0),
                new IdentifierExp(0, Id::p));
        ec->op = TOKblit;
        e = Expression::combine(e, ec);
        if (dtor)
        {
            /* Instead of running the destructor on s, run it
             * on tmp. This avoids needing to copy tmp back in to s.
             */
            Expression *ec2 = new DotVarExp(0, new VarExp(0, tmp), dtor, 0);
            ec2 = new CallExp(0, ec2);
            e = Expression::combine(e, ec2);
        }
    }
    else
    {   /* Do memberwise copy
         */
        //printf("\tmemberwise copy\n");
        for (size_t i = 0; i < fields.dim; i++)
        {
            Dsymbol *s = fields[i];
            VarDeclaration *v = s->isVarDeclaration();
            assert(v && v->isField());
            // this.v = s.v;
            AssignExp *ec = new AssignExp(0,
                new DotVarExp(0, new ThisExp(0), v, 0),
                new DotVarExp(0, new IdentifierExp(0, Id::p), v, 0));
            e = Expression::combine(e, ec);
        }
    }
    Statement *s1 = new ExpStatement(0, e);

    /* Add:
     *   return this;
     */
    e = new ThisExp(0);
    Statement *s2 = new ReturnStatement(0, e);

    fop->fbody = new CompoundStatement(0, s1, s2);

    Dsymbol *s = fop;
    if (assign && assign->isTemplateDeclaration())
    {
        // Wrap a template around the function declaration
        TemplateParameters *tpl = new TemplateParameters();
        Dsymbols *decldefs = new Dsymbols();
        decldefs->push(s);
        TemplateDeclaration *tempdecl =
            new TemplateDeclaration(assign->loc, fop->ident, tpl, NULL, decldefs, 0);
        s = tempdecl;
    }
    members->push(s);
    s->addMember(sc, this, 1);
    this->hasIdentityAssign = 1;        // temporary mark identity assignable

    unsigned errors = global.startGagging();    // Do not report errors, even if the
    unsigned oldspec = global.speculativeGag;   // template opAssign fbody makes it.
    global.speculativeGag = global.gag;
    Scope *sc2 = sc->push();
    sc2->stc = 0;
    sc2->linkage = LINKd;
    sc2->speculative = true;

    s->semantic(sc2);
    s->semantic2(sc2);
    s->semantic3(sc2);

    sc2->pop();
    global.speculativeGag = oldspec;
    if (global.endGagging(errors))    // if errors happened
    {   // Disable generated opAssign, because some members forbid identity assignment.
        fop->storage_class |= STCdisable;
        fop->fbody = NULL;  // remove fbody which contains the error
    }

    //printf("-StructDeclaration::buildOpAssign() %s %s, errors = %d\n", toChars(), s->kind(), (fop->storage_class & STCdisable) != 0);

    return fop;
}
Exemple #2
0
void obj_append(Dsymbol *s)
{
    obj_symbols_towrite.push(s);
}
Exemple #3
0
void obj_append(Dsymbol *s)
{
    //printf("deferred: %s\n", s->toChars());
    obj_symbols_towrite.push(s);
}
Exemple #4
0
FuncDeclaration *StructDeclaration::buildOpAssign(Scope *sc)
{
    if (FuncDeclaration *f = hasIdentityOpAssign(sc))
    {
        hasIdentityAssign = 1;
        return f;
    }
    // Even if non-identity opAssign is defined, built-in identity opAssign
    // will be defined.

    if (!needOpAssign())
        return NULL;

    //printf("StructDeclaration::buildOpAssign() %s\n", toChars());
    StorageClass stc = STCsafe | STCnothrow | STCpure;
    Loc declLoc = this->loc;
    Loc loc = Loc();    // internal code should have no loc to prevent coverage

    if (dtor || postblit)
    {
        if (dtor)
            stc = mergeFuncAttrs(stc, dtor->storage_class);
    }
    else
    {
        for (size_t i = 0; i < fields.dim; i++)
        {
            Dsymbol *s = fields[i];
            VarDeclaration *v = s->isVarDeclaration();
            assert(v && v->isField());
            if (v->storage_class & STCref)
                continue;
            Type *tv = v->type->toBasetype();
            while (tv->ty == Tsarray)
            {   TypeSArray *ta = (TypeSArray *)tv;
                tv = tv->nextOf()->toBasetype();
            }
            if (tv->ty == Tstruct)
            {   TypeStruct *ts = (TypeStruct *)tv;
                StructDeclaration *sd = ts->sym;
                if (FuncDeclaration *f = sd->hasIdentityOpAssign(sc))
                    stc = mergeFuncAttrs(stc, f->storage_class);
            }
        }
    }

    Parameters *fparams = new Parameters;
    fparams->push(new Parameter(STCnodtor, type, Id::p, NULL));
    Type *tf = new TypeFunction(fparams, handle, 0, LINKd, stc | STCref);

    FuncDeclaration *fop = new FuncDeclaration(declLoc, Loc(), Id::assign, stc, tf);

    Expression *e = NULL;
    if (stc & STCdisable)
    {
    }
    else if (dtor || postblit)
    {
        /* Do swap this and rhs
         *    tmp = this; this = s; tmp.dtor();
         */
        //printf("\tswap copy\n");
        Identifier *idtmp = Lexer::uniqueId("__tmp");
        VarDeclaration *tmp;
        AssignExp *ec = NULL;
        if (dtor)
        {
            tmp = new VarDeclaration(loc, type, idtmp, new VoidInitializer(loc));
            tmp->noscope = 1;
            tmp->storage_class |= STCctfe;
            e = new DeclarationExp(loc, tmp);
            ec = new AssignExp(loc,
                new VarExp(loc, tmp),
                new ThisExp(loc)
                );
            ec->op = TOKblit;
            e = Expression::combine(e, ec);
        }
        ec = new AssignExp(loc,
                new ThisExp(loc),
                new IdentifierExp(loc, Id::p));
        ec->op = TOKblit;
        e = Expression::combine(e, ec);
        if (dtor)
        {
            /* Instead of running the destructor on s, run it
             * on tmp. This avoids needing to copy tmp back in to s.
             */
            Expression *ec2 = new DotVarExp(loc, new VarExp(loc, tmp), dtor, 0);
            ec2 = new CallExp(loc, ec2);
            e = Expression::combine(e, ec2);
        }
    }
    else
    {
        /* Do memberwise copy
         */
        //printf("\tmemberwise copy\n");
        for (size_t i = 0; i < fields.dim; i++)
        {
            Dsymbol *s = fields[i];
            VarDeclaration *v = s->isVarDeclaration();
            assert(v && v->isField());
            // this.v = s.v;
            AssignExp *ec = new AssignExp(loc,
                new DotVarExp(loc, new ThisExp(loc), v, 0),
                new DotVarExp(loc, new IdentifierExp(loc, Id::p), v, 0));
            e = Expression::combine(e, ec);
        }
    }
    if (e)
    {
        Statement *s1 = new ExpStatement(loc, e);

        /* Add:
         *   return this;
         */
        e = new ThisExp(loc);
        Statement *s2 = new ReturnStatement(loc, e);

        fop->fbody = new CompoundStatement(loc, s1, s2);
    }

    Dsymbol *s = fop;
#if 1   // workaround until fixing issue 1528
    Dsymbol *assign = search_function(this, Id::assign);
    if (assign && assign->isTemplateDeclaration())
    {
        // Wrap a template around the function declaration
        TemplateParameters *tpl = new TemplateParameters();
        Dsymbols *decldefs = new Dsymbols();
        decldefs->push(s);
        TemplateDeclaration *tempdecl =
            new TemplateDeclaration(assign->loc, fop->ident, tpl, NULL, decldefs, 0);
        s = tempdecl;
    }
#endif
    members->push(s);
    s->addMember(sc, this, 1);
    this->hasIdentityAssign = 1;        // temporary mark identity assignable

    unsigned errors = global.startGagging();    // Do not report errors, even if the
    unsigned oldspec = global.speculativeGag;   // template opAssign fbody makes it.
    global.speculativeGag = global.gag;
    Scope *sc2 = sc->push();
    sc2->stc = 0;
    sc2->linkage = LINKd;
    sc2->speculative = true;

    s->semantic(sc2);
    s->semantic2(sc2);
    s->semantic3(sc2);

    sc2->pop();
    global.speculativeGag = oldspec;
    if (global.endGagging(errors))    // if errors happened
    {   // Disable generated opAssign, because some members forbid identity assignment.
        fop->storage_class |= STCdisable;
        fop->fbody = NULL;  // remove fbody which contains the error
    }

    //printf("-StructDeclaration::buildOpAssign() %s %s, errors = %d\n", toChars(), s->kind(), (fop->storage_class & STCdisable) != 0);

    return fop;
}