Mercurial > projects > ldc

view dmd/aggregate.h @ 1351:8d501abecd24

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
Initial (but disabled) fix for ticket #294 , the actual part that fixes the bug is in a #if 0 block as I'm afraid it will cause regressions. I'm most likely not going to be around tonight, and maybe not tomorrow as well, so I'm pushing it in case someone wants to run some serious testing/investigate the problem noted in llvmhelpers.cpp : realignOffset .
author Tomas Lindquist Olsen <tomas.l.olsen gmail com>
date Thu, 14 May 2009 17:20:17 +0200
parents dbe4af57b240
children 8026319762be
line wrap: on
line source


// Compiler implementation of the D programming language
// 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.

#ifndef DMD_AGGREGATE_H
#define DMD_AGGREGATE_H

#ifdef __DMC__
#pragma once
#endif /* __DMC__ */

#include "root.h"
#include "dsymbol.h"

#include <vector>
#include <set>
#include <map>

struct Identifier;
struct Type;
struct TypeFunction;
struct Expression;
struct FuncDeclaration;
struct CtorDeclaration;
struct DtorDeclaration;
struct InvariantDeclaration;
struct NewDeclaration;
struct DeleteDeclaration;
struct InterfaceDeclaration;
struct ClassInfoDeclaration;
struct VarDeclaration;
struct dt_t;

namespace llvm
{
    class Type;
    class Value;
    class Constant;
    class ConstantStruct;
    class GlobalVariable;
}

struct AggregateDeclaration : ScopeDsymbol
{
    Type *type;
    unsigned storage_class;
    enum PROT protection;
    Type *handle;		// 'this' type
    unsigned structsize;	// size of struct
    unsigned alignsize;		// size of struct for alignment purposes
    unsigned structalign;	// struct member alignment in effect
    int hasUnions;		// set if aggregate has overlapping fields
    Array fields;		// VarDeclaration fields
    unsigned sizeok;		// set when structsize contains valid data
				// 0: no size
				// 1: size is correct
				// 2: cannot determine size; fwd referenced
    int isdeprecated;		// !=0 if deprecated
    Scope *scope;		// !=NULL means context to use

    // Special member functions
    InvariantDeclaration *inv;		// invariant
    NewDeclaration *aggNew;		// allocator
    DeleteDeclaration *aggDelete;	// deallocator

    FuncDeclarations dtors;	// Array of destructors
    FuncDeclaration *dtor;	// aggregate destructor

#ifdef IN_GCC
    Array methods;              // flat list of all methods for debug information
#endif

    AggregateDeclaration(Loc loc, Identifier *id);
    void semantic2(Scope *sc);
    void semantic3(Scope *sc);
    void inlineScan();
    unsigned size(Loc loc);
    static void alignmember(unsigned salign, unsigned size, unsigned *poffset);
    Type *getType();
    void addField(Scope *sc, VarDeclaration *v);
    int isDeprecated();		// is aggregate deprecated?
    FuncDeclaration *buildDtor(Scope *sc);

    void emitComment(Scope *sc);
    void toDocBuffer(OutBuffer *buf);

    // For access checking
    virtual PROT getAccess(Dsymbol *smember);	// determine access to smember
    int isFriendOf(AggregateDeclaration *cd);
    int hasPrivateAccess(Dsymbol *smember);	// does smember have private access to members of this class?
    void accessCheck(Loc loc, Scope *sc, Dsymbol *smember);

    enum PROT prot();

#if IN_DMD
    // Back end
    Symbol *stag;		// tag symbol for debug data
    Symbol *sinit;
    Symbol *toInitializer();
#endif

    AggregateDeclaration *isAggregateDeclaration() { return this; }
};

struct AnonymousAggregateDeclaration : AggregateDeclaration
{
    AnonymousAggregateDeclaration()
	: AggregateDeclaration(0, NULL)
    {
    }

    AnonymousAggregateDeclaration *isAnonymousAggregateDeclaration() { return this; }
};

struct StructDeclaration : AggregateDeclaration
{
    int zeroInit;		// !=0 if initialize with 0 fill
#if DMDV2
    int hasIdentityAssign;	// !=0 if has identity opAssign
    FuncDeclaration *cpctor;	// generated copy-constructor, if any

    FuncDeclarations postblits;	// Array of postblit functions
    FuncDeclaration *postblit;	// aggregate postblit
#endif

    StructDeclaration(Loc loc, Identifier *id);
    Dsymbol *syntaxCopy(Dsymbol *s);
    void semantic(Scope *sc);
    void toCBuffer(OutBuffer *buf, HdrGenState *hgs);
    char *mangle();
    const char *kind();
    Expression *cloneMembers();
    void toDocBuffer(OutBuffer *buf);

    PROT getAccess(Dsymbol *smember);	// determine access to smember

#if IN_DMD
    void toObjFile(int multiobj);			// compile to .obj file
    void toDt(dt_t **pdt);
    void toDebug();			// to symbolic debug info
#endif

    StructDeclaration *isStructDeclaration() { return this; }

#if IN_LLVM
    void codegen(Ir*);
#endif
};

struct UnionDeclaration : StructDeclaration
{
    UnionDeclaration(Loc loc, Identifier *id);
    Dsymbol *syntaxCopy(Dsymbol *s);
    const char *kind();

    UnionDeclaration *isUnionDeclaration() { return this; }
};

// warning: two classes with the same base class share the same
//   BaseClass instance.
struct BaseClass
{
    Type *type;				// (before semantic processing)
    enum PROT protection;		// protection for the base interface

    ClassDeclaration *base;
    int offset;				// 'this' pointer offset
    Array vtbl;				// for interfaces: Array of FuncDeclaration's
					// making up the vtbl[]

    int baseInterfaces_dim;
    BaseClass *baseInterfaces;		// if BaseClass is an interface, these
					// are a copy of the InterfaceDeclaration::interfaces

    BaseClass();
    BaseClass(Type *type, enum PROT protection);

    int fillVtbl(ClassDeclaration *cd, Array *vtbl, int newinstance);
    void copyBaseInterfaces(BaseClasses *);
};

#if DMDV2
#define CLASSINFO_SIZE 	(0x3C+16)	// value of ClassInfo.size
#else
#define CLASSINFO_SIZE 	(0x3C+12)	// value of ClassInfo.size
#endif

struct ClassDeclaration : AggregateDeclaration
{
    static ClassDeclaration *object;
    static ClassDeclaration *classinfo;

    ClassDeclaration *baseClass;	// NULL only if this is Object
    CtorDeclaration *ctor;
    CtorDeclaration *defaultCtor;	// default constructor
    FuncDeclaration *staticCtor;
    FuncDeclaration *staticDtor;
    Array vtbl;				// Array of FuncDeclaration's making up the vtbl[]
    Array vtblFinal;			// More FuncDeclaration's that aren't in vtbl[]

    BaseClasses baseclasses;		// Array of BaseClass's; first is super,
					// rest are Interface's

    int interfaces_dim;
    BaseClass **interfaces;		// interfaces[interfaces_dim] for this class
					// (does not include baseClass)

    BaseClasses *vtblInterfaces;	// array of base interfaces that have
					// their own vtbl[]

    ClassInfoDeclaration *vclassinfo;	// the ClassInfo object for this ClassDeclaration
    int com;				// !=0 if this is a COM class (meaning
					// it derives from IUnknown)
    int isauto;				// !=0 if this is an auto class
    int isabstract;			// !=0 if abstract class

    int isnested;			// !=0 if is nested
    VarDeclaration *vthis;		// 'this' parameter if this class is nested

    int inuse;				// to prevent recursive attempts

    ClassDeclaration(Loc loc, Identifier *id, BaseClasses *baseclasses);
    Dsymbol *syntaxCopy(Dsymbol *s);
    void semantic(Scope *sc);
    void toCBuffer(OutBuffer *buf, HdrGenState *hgs);
    int isBaseOf2(ClassDeclaration *cd);

    #define OFFSET_RUNTIME 0x76543210
    virtual int isBaseOf(ClassDeclaration *cd, int *poffset);

    Dsymbol *search(Loc, Identifier *ident, int flags);
#if DMDV2
    int isFuncHidden(FuncDeclaration *fd);
#endif
    FuncDeclaration *findFunc(Identifier *ident, TypeFunction *tf);
    void interfaceSemantic(Scope *sc);
    int isNested();
    int isCOMclass();
    virtual int isCOMinterface();
#if DMDV2
    virtual int isCPPinterface();
#endif
    int isAbstract();
    virtual int vtblOffset();
    const char *kind();
    char *mangle();
    void toDocBuffer(OutBuffer *buf);

    PROT getAccess(Dsymbol *smember);	// determine access to smember

    void addLocalClass(ClassDeclarations *);

#if IN_DMD
    // Back end
    void toObjFile(int multiobj);			// compile to .obj file
    void toDebug();
    unsigned baseVtblOffset(BaseClass *bc);
    Symbol *toSymbol();
    Symbol *toVtblSymbol();
    void toDt(dt_t **pdt);
    void toDt2(dt_t **pdt, ClassDeclaration *cd);

    Symbol *vtblsym;
#endif

    ClassDeclaration *isClassDeclaration() { return (ClassDeclaration *)this; }

#if IN_LLVM
    virtual void codegen(Ir*);
#endif
};

struct InterfaceDeclaration : ClassDeclaration
{
#if DMDV2
    int cpp;				// !=0 if this is a C++ interface
#endif
    InterfaceDeclaration(Loc loc, Identifier *id, BaseClasses *baseclasses);
    Dsymbol *syntaxCopy(Dsymbol *s);
    void semantic(Scope *sc);
    int isBaseOf(ClassDeclaration *cd, int *poffset);
    int isBaseOf(BaseClass *bc, int *poffset);
    const char *kind();
    int vtblOffset();
#if DMDV2
    int isCPPinterface();
#endif
    virtual int isCOMinterface();

#if IN_DMD
    void toObjFile(int multiobj);			// compile to .obj file
    Symbol *toSymbol();
#endif

    InterfaceDeclaration *isInterfaceDeclaration() { return this; }

#if IN_LLVM
    void codegen(Ir*);
#endif
};

#endif /* DMD_AGGREGATE_H */