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SWITCHED TO LLVM 2.5 ! Applied patch from ticket #129 to compile against latest LLVM. Thanks Frits van Bommel. Fixed implicit return by asm block at the end of a function on x86-32. Other architectures will produce an error at the moment. Adding support for new targets is fairly simple. Fixed return calling convention for complex numbers, ST and ST(1) were switched around. Added some testcases. I've run a dstress test and there are no regressions. However, the runtime does not seem to compile with symbolic debug information. -O3 -release -inline works well and is what I used for the dstress run. Tango does not compile, a small workaround is needed in tango.io.digest.Digest.Digest.hexDigest. See ticket #206 .
author Tomas Lindquist Olsen <tomas.l.olsen@gmail.com>
date Sun, 08 Feb 2009 05:26:54 +0100
parents f04dde6e882c
children 638d16625da2
line wrap: on
line source


// Compiler implementation of the D programming language
// Copyright (c) 1999-2007 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.

#ifndef INIT_H
#define INIT_H

#include "root.h"

#include "mars.h"
#include "arraytypes.h"

struct Identifier;
struct Expression;
struct Scope;
struct Type;
struct dt_t;
struct AggregateDeclaration;
struct VoidInitializer;
struct StructInitializer;
struct ArrayInitializer;
struct ExpInitializer;
struct StructInitializer;
#ifdef _DH
struct HdrGenState;
#endif

struct Initializer : Object
{
    Loc loc;

    Initializer(Loc loc);
    virtual Initializer *syntaxCopy();
    virtual Initializer *semantic(Scope *sc, Type *t);
    virtual Type *inferType(Scope *sc);
    virtual Expression *toExpression() = 0;
    virtual void toCBuffer(OutBuffer *buf, HdrGenState *hgs) = 0;
    char *toChars();

    static Initializers *arraySyntaxCopy(Initializers *ai);

    virtual dt_t *toDt();

    virtual VoidInitializer *isVoidInitializer() { return NULL; }
    virtual StructInitializer  *isStructInitializer()  { return NULL; }
    virtual ArrayInitializer  *isArrayInitializer()  { return NULL; }
    virtual ExpInitializer  *isExpInitializer()  { return NULL; }
};

struct VoidInitializer : Initializer
{
    Type *type;		// type that this will initialize to

    VoidInitializer(Loc loc);
    Initializer *syntaxCopy();
    Initializer *semantic(Scope *sc, Type *t);
    Expression *toExpression();
    void toCBuffer(OutBuffer *buf, HdrGenState *hgs);

    dt_t *toDt();

    virtual VoidInitializer *isVoidInitializer() { return this; }
};

struct StructInitializer : Initializer
{
    Identifiers field;	// of Identifier *'s
    Initializers value;	// parallel array of Initializer *'s

    Array vars;		// parallel array of VarDeclaration *'s
    AggregateDeclaration *ad;	// which aggregate this is for

    StructInitializer(Loc loc);
    Initializer *syntaxCopy();
    void addInit(Identifier *field, Initializer *value);
    Initializer *semantic(Scope *sc, Type *t);
    Expression *toExpression();
    void toCBuffer(OutBuffer *buf, HdrGenState *hgs);

    dt_t *toDt();

    StructInitializer  *isStructInitializer()  { return this; }
};

struct ArrayInitializer : Initializer
{
    Expressions index;	// indices
    Initializers value;	// of Initializer *'s
    unsigned dim;	// length of array being initialized
    Type *type;		// type that array will be used to initialize
    int sem;		// !=0 if semantic() is run

    ArrayInitializer(Loc loc);
    Initializer *syntaxCopy();
    void addInit(Expression *index, Initializer *value);
    Initializer *semantic(Scope *sc, Type *t);
    Type *inferType(Scope *sc);
    Expression *toExpression();
    Initializer *toAssocArrayInitializer();
    void toCBuffer(OutBuffer *buf, HdrGenState *hgs);

    dt_t *toDt();
    dt_t *toDtBit();	// for bit arrays

    ArrayInitializer *isArrayInitializer() { return this; }
};

struct ExpInitializer : Initializer
{
    Expression *exp;

    ExpInitializer(Loc loc, Expression *exp);
    Initializer *syntaxCopy();
    Initializer *semantic(Scope *sc, Type *t);
    Type *inferType(Scope *sc);
    Expression *toExpression();
    void toCBuffer(OutBuffer *buf, HdrGenState *hgs);

    dt_t *toDt();

    virtual ExpInitializer *isExpInitializer() { return this; }
};

#endif