Logo Search packages:      
Sourcecode: ldc version File versions

mtype.h

// 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 DMD_MTYPE_H
#define DMD_MTYPE_H

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

#include "root.h"
#include "stringtable.h"

#include "arraytypes.h"
#include "expression.h"

#if IN_LLVM
#include "../ir/irfuncty.h"
namespace llvm { class Type; }
class Ir;
class IrType;
#endif

struct Scope;
struct Identifier;
struct Expression;
struct StructDeclaration;
struct ClassDeclaration;
struct VarDeclaration;
struct EnumDeclaration;
struct TypedefDeclaration;
struct TypeInfoDeclaration;
struct Dsymbol;
struct TemplateInstance;
struct CppMangleState;
enum LINK;

struct TypeBasic;
struct HdrGenState;
struct Argument;

// Back end
#if IN_GCC
union tree_node; typedef union tree_node TYPE;
typedef TYPE type;
#endif

#if IN_DMD
typedef struct TYPE type;
struct Symbol;
#endif


enum ENUMTY
{
    Tarray,       // slice array, aka T[]
    Tsarray,            // static array, aka T[dimension]
    Tnarray,            // resizable array, aka T[new]
    Taarray,            // associative array, aka T[type]
    Tpointer,
    Treference,
    Tfunction,
    Tident,
    Tclass,
    Tstruct,
    Tenum,
    Ttypedef,
    Tdelegate,

    Tnone,
    Tvoid,
    Tint8,
    Tuns8,
    Tint16,
    Tuns16,
    Tint32,
    Tuns32,
    Tint64,
    Tuns64,
    Tfloat32,
    Tfloat64,
    Tfloat80,

    Timaginary32,
    Timaginary64,
    Timaginary80,

    Tcomplex32,
    Tcomplex64,
    Tcomplex80,

    Tbit,
    Tbool,
    Tchar,
    Twchar,
    Tdchar,

    Terror,
    Tinstance,
    Ttypeof,
    Ttuple,
    Tslice,
    Treturn,
    TMAX
};
typedef unsigned char TY;     // ENUMTY

#define Tascii Tchar

extern int Tsize_t;
extern int Tptrdiff_t;


struct Type : Object
{
    TY ty;
    unsigned char mod;  // modifiers MODxxxx
      /* pick this order of numbers so switch statements work better
       */
      #define MODconst     1  // type is const
      #define MODinvariant 4  // type is invariant
      #define MODshared    2  // type is shared
    char *deco;

    /* These are cached values that are lazily evaluated by constOf(), invariantOf(), etc.
     * They should not be referenced by anybody but mtype.c.
     * They can be NULL if not lazily evaluated yet.
     * Note that there is no "shared immutable", because that is just immutable
     */

    Type *cto;          // MODconst ? mutable version of this type : const version
    Type *ito;          // MODinvariant ? mutable version of this type : invariant version
    Type *sto;          // MODshared ? mutable version of this type : shared mutable version
    Type *scto;         // MODshared|MODconst ? mutable version of this type : shared const version

    Type *pto;          // merged pointer to this type
    Type *rto;          // reference to this type
    Type *arrayof;      // array of this type
    TypeInfoDeclaration *vtinfo;    // TypeInfo object for this Type

#if IN_DMD
    type *ctype;  // for back end
#endif

    #define tvoid basic[Tvoid]
    #define tint8 basic[Tint8]
    #define tuns8 basic[Tuns8]
    #define tint16      basic[Tint16]
    #define tuns16      basic[Tuns16]
    #define tint32      basic[Tint32]
    #define tuns32      basic[Tuns32]
    #define tint64      basic[Tint64]
    #define tuns64      basic[Tuns64]
    #define tfloat32    basic[Tfloat32]
    #define tfloat64    basic[Tfloat64]
    #define tfloat80    basic[Tfloat80]

    #define timaginary32 basic[Timaginary32]
    #define timaginary64 basic[Timaginary64]
    #define timaginary80 basic[Timaginary80]

    #define tcomplex32  basic[Tcomplex32]
    #define tcomplex64  basic[Tcomplex64]
    #define tcomplex80  basic[Tcomplex80]

    #define tbit  basic[Tbit]
    #define tbool basic[Tbool]
    #define tchar basic[Tchar]
    #define twchar      basic[Twchar]
    #define tdchar      basic[Tdchar]

    // Some special types
    #define tshiftcnt   tint32            // right side of shift expression
//    #define tboolean  tint32            // result of boolean expression
    #define tboolean    tbool       // result of boolean expression
    #define tindex      tint32            // array/ptr index
    static Type *tvoidptr;          // void*
    #define terror      basic[Terror]     // for error recovery

    #define tsize_t     basic[Tsize_t]          // matches size_t alias
    #define tptrdiff_t  basic[Tptrdiff_t] // matches ptrdiff_t alias
    #define thash_t     tsize_t                 // matches hash_t alias

    static ClassDeclaration *typeinfo;
    static ClassDeclaration *typeinfoclass;
    static ClassDeclaration *typeinfointerface;
    static ClassDeclaration *typeinfostruct;
    static ClassDeclaration *typeinfotypedef;
    static ClassDeclaration *typeinfopointer;
    static ClassDeclaration *typeinfoarray;
    static ClassDeclaration *typeinfostaticarray;
    static ClassDeclaration *typeinfoassociativearray;
    static ClassDeclaration *typeinfoenum;
    static ClassDeclaration *typeinfofunction;
    static ClassDeclaration *typeinfodelegate;
    static ClassDeclaration *typeinfotypelist;
    static ClassDeclaration *typeinfoconst;
    static ClassDeclaration *typeinfoinvariant;
    static ClassDeclaration *typeinfoshared;

    static Type *basic[TMAX];
    static unsigned char mangleChar[TMAX];
    static unsigned char sizeTy[TMAX];
    static StringTable stringtable;
#if IN_LLVM
    static StringTable deco_stringtable;
#endif

    // These tables are for implicit conversion of binary ops;
    // the indices are the type of operand one, followed by operand two.
    static unsigned char impcnvResult[TMAX][TMAX];
    static unsigned char impcnvType1[TMAX][TMAX];
    static unsigned char impcnvType2[TMAX][TMAX];

    // If !=0, give warning on implicit conversion
    static unsigned char impcnvWarn[TMAX][TMAX];

    Type(TY ty);
    virtual Type *syntaxCopy();
    int equals(Object *o);
    int dyncast() { return DYNCAST_TYPE; } // kludge for template.isType()
    int covariant(Type *t);
    char *toChars();
    static char needThisPrefix();
#if IN_LLVM
    static void init(Ir*);
#else
    static void init();
#endif
    d_uns64 size();
    virtual d_uns64 size(Loc loc);
    virtual unsigned alignsize();
    virtual Type *semantic(Loc loc, Scope *sc);
    Type *trySemantic(Loc loc, Scope *sc);
    // append the mangleof or a string uniquely identifying this type to buf
    virtual void toDecoBuffer(OutBuffer *buf, int flag = 0, bool mangle=false);
    Type *merge();
    Type *merge2();
    virtual void toCBuffer(OutBuffer *buf, Identifier *ident, HdrGenState *hgs);
    virtual void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
    void toCBuffer3(OutBuffer *buf, HdrGenState *hgs, int mod);
    void modToBuffer(OutBuffer *buf);
#if CPP_MANGLE
    virtual void toCppMangle(OutBuffer *buf, CppMangleState *cms);
#endif
    virtual int isintegral();
    virtual int isfloating(); // real, imaginary, or complex
    virtual int isreal();
    virtual int isimaginary();
    virtual int iscomplex();
    virtual int isscalar();
    virtual int isunsigned();
    virtual int isauto();
    virtual int isString();
    virtual int isAssignable();
    virtual int checkBoolean();     // if can be converted to boolean value
    virtual void checkDeprecated(Loc loc, Scope *sc);
    int isConst() { return mod & MODconst; }
    int isInvariant()   { return mod & MODinvariant; }
    int isMutable()     { return !(mod & (MODconst | MODinvariant)); }
    int isShared()      { return mod & MODshared; }
    int isSharedConst() { return mod == (MODshared | MODconst); }
    Type *constOf();
    Type *invariantOf();
    Type *mutableOf();
    Type *sharedOf();
    Type *sharedConstOf();
    void fixTo(Type *t);
    void check();
    Type *castMod(unsigned mod);
    Type *addMod(unsigned mod);
    Type *addStorageClass(unsigned stc);
    Type *pointerTo();
    Type *referenceTo();
    Type *arrayOf();
    virtual Type *makeConst();
    virtual Type *makeInvariant();
    virtual Type *makeShared();
    virtual Type *makeSharedConst();
    virtual Dsymbol *toDsymbol(Scope *sc);
    virtual Type *toBasetype();
    virtual Type *toHeadMutable();
    virtual int isBaseOf(Type *t, int *poffset);
    virtual MATCH constConv(Type *to);
    virtual MATCH implicitConvTo(Type *to);
    virtual ClassDeclaration *isClassHandle();
    virtual Expression *getProperty(Loc loc, Identifier *ident);
    virtual Expression *dotExp(Scope *sc, Expression *e, Identifier *ident);
    virtual unsigned memalign(unsigned salign);
    virtual Expression *defaultInit(Loc loc = 0);
    virtual int isZeroInit(Loc loc = 0);        // if initializer is 0
#if IN_DMD
    virtual dt_t **toDt(dt_t **pdt);
#endif
    Identifier *getTypeInfoIdent(int internal);
    virtual MATCH deduceType(Scope *sc, Type *tparam, TemplateParameters *parameters, Objects *dedtypes);
    virtual void resolve(Loc loc, Scope *sc, Expression **pe, Type **pt, Dsymbol **ps);
    Expression *getInternalTypeInfo(Scope *sc);
    Expression *getTypeInfo(Scope *sc);
    virtual TypeInfoDeclaration *getTypeInfoDeclaration();
    virtual int builtinTypeInfo();
    virtual Type *reliesOnTident();
    virtual Expression *toExpression();
    virtual int hasPointers();
    //Type *next;
    virtual Type *nextOf();
    uinteger_t sizemask();


    static void error(Loc loc, const char *format, ...) IS_PRINTF(2);
    static void warning(Loc loc, const char *format, ...) IS_PRINTF(2);

#if IN_DMD
    // For backend
    virtual unsigned totym();
    virtual type *toCtype();
    virtual type *toCParamtype();
    virtual Symbol *toSymbol();
#endif

    // For eliminating dynamic_cast
    virtual TypeBasic *isTypeBasic();

#if IN_LLVM
    static Ir* sir;
    IrType* irtype;
#endif
};

struct TypeNext : Type
{
    Type *next;

    TypeNext(TY ty, Type *next);
    void toDecoBuffer(OutBuffer *buf, int flag, bool mangle);
    void checkDeprecated(Loc loc, Scope *sc);
    Type *reliesOnTident();
    Type *nextOf();
    Type *makeConst();
    Type *makeInvariant();
    Type *makeShared();
    Type *makeSharedConst();
    MATCH constConv(Type *to);
    void transitive();
};

struct TypeBasic : Type
{
    const char *dstring;
    unsigned flags;

    TypeBasic(TY ty);
    Type *syntaxCopy();
    d_uns64 size(Loc loc);
    unsigned alignsize();
    Expression *getProperty(Loc loc, Identifier *ident);
    Expression *dotExp(Scope *sc, Expression *e, Identifier *ident);
    char *toChars();
    void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
#if CPP_MANGLE
    void toCppMangle(OutBuffer *buf, CppMangleState *cms);
#endif
    int isintegral();
    int isbit();
    int isfloating();
    int isreal();
    int isimaginary();
    int iscomplex();
    int isscalar();
    int isunsigned();
    MATCH implicitConvTo(Type *to);
    Expression *defaultInit(Loc loc);
    int isZeroInit(Loc loc);
    int builtinTypeInfo();

    // For eliminating dynamic_cast
    TypeBasic *isTypeBasic();
};

struct TypeArray : TypeNext
{
    TypeArray(TY ty, Type *next);
    Expression *dotExp(Scope *sc, Expression *e, Identifier *ident);
};

// Static array, one with a fixed dimension
struct TypeSArray : TypeArray
{
    Expression *dim;

    TypeSArray(Type *t, Expression *dim);
    Type *syntaxCopy();
    d_uns64 size(Loc loc);
    unsigned alignsize();
    Type *semantic(Loc loc, Scope *sc);
    void resolve(Loc loc, Scope *sc, Expression **pe, Type **pt, Dsymbol **ps);
    void toDecoBuffer(OutBuffer *buf, int flag, bool mangle);
    void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
    Expression *dotExp(Scope *sc, Expression *e, Identifier *ident);
    int isString();
    int isZeroInit(Loc loc);
    unsigned memalign(unsigned salign);
    MATCH constConv(Type *to);
    MATCH implicitConvTo(Type *to);
    Expression *defaultInit(Loc loc);
#if IN_DMD
    dt_t **toDt(dt_t **pdt);
    dt_t **toDtElem(dt_t **pdt, Expression *e);
#endif
    MATCH deduceType(Scope *sc, Type *tparam, TemplateParameters *parameters, Objects *dedtypes);
    TypeInfoDeclaration *getTypeInfoDeclaration();
    Expression *toExpression();
    int hasPointers();
#if CPP_MANGLE
    void toCppMangle(OutBuffer *buf, CppMangleState *cms);
#endif

#if IN_DMD
    type *toCtype();
    type *toCParamtype();
#endif
};

// Dynamic array, no dimension
struct TypeDArray : TypeArray
{
    TypeDArray(Type *t);
    Type *syntaxCopy();
    d_uns64 size(Loc loc);
    unsigned alignsize();
    Type *semantic(Loc loc, Scope *sc);
    void toDecoBuffer(OutBuffer *buf, int flag, bool mangle);
    void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
    Expression *dotExp(Scope *sc, Expression *e, Identifier *ident);
    int isString();
    int isZeroInit(Loc loc);
    int checkBoolean();
    MATCH implicitConvTo(Type *to);
    Expression *defaultInit(Loc loc);
    int builtinTypeInfo();
    MATCH deduceType(Scope *sc, Type *tparam, TemplateParameters *parameters, Objects *dedtypes);
    TypeInfoDeclaration *getTypeInfoDeclaration();
    int hasPointers();
#if CPP_MANGLE
    void toCppMangle(OutBuffer *buf, CppMangleState *cms);
#endif

#if IN_DMD
    type *toCtype();
#endif
};

struct TypeAArray : TypeArray
{
    Type *index;        // key type

    TypeAArray(Type *t, Type *index);
    Type *syntaxCopy();
    d_uns64 size(Loc loc);
    Type *semantic(Loc loc, Scope *sc);
    void resolve(Loc loc, Scope *sc, Expression **pe, Type **pt, Dsymbol **ps);
    void toDecoBuffer(OutBuffer *buf, int flag, bool mangle);
    void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
    Expression *dotExp(Scope *sc, Expression *e, Identifier *ident);
    Expression *defaultInit(Loc loc);
    MATCH deduceType(Scope *sc, Type *tparam, TemplateParameters *parameters, Objects *dedtypes);
    int isZeroInit(Loc loc);
    int checkBoolean();
    TypeInfoDeclaration *getTypeInfoDeclaration();
    int hasPointers();
    MATCH implicitConvTo(Type *to);
    MATCH constConv(Type *to);
#if CPP_MANGLE
    void toCppMangle(OutBuffer *buf, CppMangleState *cms);
#endif

#if IN_DMD
    // Back end
    Symbol *aaGetSymbol(const char *func, int flags);

    type *toCtype();
#endif
};

struct TypePointer : TypeNext
{
    TypePointer(Type *t);
    Type *syntaxCopy();
    Type *semantic(Loc loc, Scope *sc);
    d_uns64 size(Loc loc);
    void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
    MATCH implicitConvTo(Type *to);
    int isscalar();
    // LDC: pointers are unsigned
    int isunsigned() { return TRUE; };
    Expression *defaultInit(Loc loc);
    int isZeroInit(Loc loc);
    TypeInfoDeclaration *getTypeInfoDeclaration();
    int hasPointers();

#if CPP_MANGLE
    void toCppMangle(OutBuffer *buf, CppMangleState *cms);
#endif

#if IN_DMD
    type *toCtype();
#endif
};

struct TypeReference : TypeNext
{
    TypeReference(Type *t);
    Type *syntaxCopy();
    Type *semantic(Loc loc, Scope *sc);
    d_uns64 size(Loc loc);
    void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
    Expression *dotExp(Scope *sc, Expression *e, Identifier *ident);
    Expression *defaultInit(Loc loc);
    int isZeroInit(Loc loc);
#if CPP_MANGLE
    void toCppMangle(OutBuffer *buf, CppMangleState *cms);
#endif
};

enum RET
{
    RETregs = 1,  // returned in registers
    RETstack      = 2,  // returned on stack
};

struct TypeFunction : TypeNext
{
    // .next is the return type

    Arguments *parameters;    // function parameters
    int varargs;  // 1: T t, ...) style for variable number of arguments
                  // 2: T t ...) style for variable number of arguments
    bool isnothrow;     // true: nothrow
    bool ispure;  // true: pure
    bool isproperty;    // can be called without parentheses
    bool isref;         // true: returns a reference
    enum LINK linkage;  // calling convention

    int inuse;

    TypeFunction(Arguments *parameters, Type *treturn, int varargs, enum LINK linkage);
    Type *syntaxCopy();
    Type *semantic(Loc loc, Scope *sc);
    void toDecoBuffer(OutBuffer *buf, int flag, bool mangle);
    void toCBuffer(OutBuffer *buf, Identifier *ident, HdrGenState *hgs);
    void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
    MATCH deduceType(Scope *sc, Type *tparam, TemplateParameters *parameters, Objects *dedtypes);
    TypeInfoDeclaration *getTypeInfoDeclaration();
    Type *reliesOnTident();
#if CPP_MANGLE
    void toCppMangle(OutBuffer *buf, CppMangleState *cms);
#endif
    bool parameterEscapes(Argument *p);

    int callMatch(Expression *ethis, Expressions *toargs);
#if IN_DMD
    type *toCtype();
#endif

    enum RET retStyle();

#if IN_DMD
    unsigned totym();
#elif IN_LLVM
    // LDC
    IrFuncTy fty;

    FuncDeclaration* funcdecl;
#endif
};

struct TypeDelegate : TypeNext
{
    // .next is a TypeFunction

    TypeDelegate(Type *t);
    Type *syntaxCopy();
    Type *semantic(Loc loc, Scope *sc);
    d_uns64 size(Loc loc);
    unsigned alignsize(); // added in LDC
    void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
    Expression *defaultInit(Loc loc);
    int isZeroInit(Loc loc);
    int checkBoolean();
    TypeInfoDeclaration *getTypeInfoDeclaration();
    Expression *dotExp(Scope *sc, Expression *e, Identifier *ident);
    int hasPointers();
#if CPP_MANGLE
    void toCppMangle(OutBuffer *buf, CppMangleState *cms);
#endif

#if IN_DMD
    type *toCtype();
#endif
};

struct TypeQualified : Type
{
    Loc loc;
    Array idents; // array of Identifier's representing ident.ident.ident etc.

    TypeQualified(TY ty, Loc loc);
    void syntaxCopyHelper(TypeQualified *t);
    void addIdent(Identifier *ident);
    void toCBuffer2Helper(OutBuffer *buf, HdrGenState *hgs);
    d_uns64 size(Loc loc);
    void resolveHelper(Loc loc, Scope *sc, Dsymbol *s, Dsymbol *scopesym,
      Expression **pe, Type **pt, Dsymbol **ps);
};

struct TypeIdentifier : TypeQualified
{
    Identifier *ident;

    TypeIdentifier(Loc loc, Identifier *ident);
    Type *syntaxCopy();
    //char *toChars();
    void toDecoBuffer(OutBuffer *buf, int flag, bool mangle);
    void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
    void resolve(Loc loc, Scope *sc, Expression **pe, Type **pt, Dsymbol **ps);
    Dsymbol *toDsymbol(Scope *sc);
    Type *semantic(Loc loc, Scope *sc);
    MATCH deduceType(Scope *sc, Type *tparam, TemplateParameters *parameters, Objects *dedtypes);
    Type *reliesOnTident();
    Expression *toExpression();
};

/* Similar to TypeIdentifier, but with a TemplateInstance as the root
 */
struct TypeInstance : TypeQualified
{
    TemplateInstance *tempinst;

    TypeInstance(Loc loc, TemplateInstance *tempinst);
    Type *syntaxCopy();
    //char *toChars();
    //void toDecoBuffer(OutBuffer *buf, int flag, bool mangle);
    void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
    void resolve(Loc loc, Scope *sc, Expression **pe, Type **pt, Dsymbol **ps);
    Type *semantic(Loc loc, Scope *sc);
    Dsymbol *toDsymbol(Scope *sc);
    MATCH deduceType(Scope *sc, Type *tparam, TemplateParameters *parameters, Objects *dedtypes);
};

struct TypeTypeof : TypeQualified
{
    Expression *exp;

    TypeTypeof(Loc loc, Expression *exp);
    Type *syntaxCopy();
    Dsymbol *toDsymbol(Scope *sc);
    void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
    Type *semantic(Loc loc, Scope *sc);
    d_uns64 size(Loc loc);
};

struct TypeReturn : TypeQualified
{
    TypeReturn(Loc loc);
    Type *syntaxCopy();
    Dsymbol *toDsymbol(Scope *sc);
    Type *semantic(Loc loc, Scope *sc);
    void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
};

struct TypeStruct : Type
{
    StructDeclaration *sym;

    TypeStruct(StructDeclaration *sym);
    d_uns64 size(Loc loc);
    unsigned alignsize();
    char *toChars();
    Type *syntaxCopy();
    Type *semantic(Loc loc, Scope *sc);
    Dsymbol *toDsymbol(Scope *sc);
    void toDecoBuffer(OutBuffer *buf, int flag, bool mangle);
    void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
    Expression *dotExp(Scope *sc, Expression *e, Identifier *ident);
    unsigned memalign(unsigned salign);
    Expression *defaultInit(Loc loc);
    int isZeroInit(Loc loc);
    int isAssignable();
    int checkBoolean();
#if IN_DMD
    dt_t **toDt(dt_t **pdt);
#endif
    MATCH deduceType(Scope *sc, Type *tparam, TemplateParameters *parameters, Objects *dedtypes);
    TypeInfoDeclaration *getTypeInfoDeclaration();
    int hasPointers();
    MATCH implicitConvTo(Type *to);
    MATCH constConv(Type *to);
    Type *toHeadMutable();
#if CPP_MANGLE
    void toCppMangle(OutBuffer *buf, CppMangleState *cms);
#endif

#if IN_DMD
    type *toCtype();
#elif IN_LLVM
    // LDC
    // cache the hasUnalignedFields check
    // 0 = not checked, 1 = aligned, 2 = unaligned
    int unaligned;
#endif
};

struct TypeEnum : Type
{
    EnumDeclaration *sym;

    TypeEnum(EnumDeclaration *sym);
    Type *syntaxCopy();
    d_uns64 size(Loc loc);
    unsigned alignsize();
    char *toChars();
    Type *semantic(Loc loc, Scope *sc);
    Dsymbol *toDsymbol(Scope *sc);
    void toDecoBuffer(OutBuffer *buf, int flag, bool mangle);
    void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
    Expression *dotExp(Scope *sc, Expression *e, Identifier *ident);
    Expression *getProperty(Loc loc, Identifier *ident);
    int isintegral();
    int isfloating();
    int isscalar();
    int isunsigned();
    MATCH implicitConvTo(Type *to);
    MATCH constConv(Type *to);
    Type *toBasetype();
    Expression *defaultInit(Loc loc);
    int isZeroInit(Loc loc);
    MATCH deduceType(Scope *sc, Type *tparam, TemplateParameters *parameters, Objects *dedtypes);
    TypeInfoDeclaration *getTypeInfoDeclaration();
    int hasPointers();
#if CPP_MANGLE
    void toCppMangle(OutBuffer *buf, CppMangleState *cms);
#endif

#if IN_DMD
    type *toCtype();
#endif
};

struct TypeTypedef : Type
{
    TypedefDeclaration *sym;

    TypeTypedef(TypedefDeclaration *sym);
    Type *syntaxCopy();
    d_uns64 size(Loc loc);
    unsigned alignsize();
    char *toChars();
    Type *semantic(Loc loc, Scope *sc);
    Dsymbol *toDsymbol(Scope *sc);
    void toDecoBuffer(OutBuffer *buf, int flag, bool mangle);
    void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
    Expression *dotExp(Scope *sc, Expression *e, Identifier *ident);
    Expression *getProperty(Loc loc, Identifier *ident);
    int isbit();
    int isintegral();
    int isfloating();
    int isreal();
    int isimaginary();
    int iscomplex();
    int isscalar();
    int isunsigned();
    int checkBoolean();
    int isAssignable();
    Type *toBasetype();
    MATCH implicitConvTo(Type *to);
    MATCH constConv(Type *to);
    Expression *defaultInit(Loc loc);
    int isZeroInit(Loc loc);
#if IN_DMD
    dt_t **toDt(dt_t **pdt);
#endif
    MATCH deduceType(Scope *sc, Type *tparam, TemplateParameters *parameters, Objects *dedtypes);
    TypeInfoDeclaration *getTypeInfoDeclaration();
    int hasPointers();
    Type *toHeadMutable();
#if CPP_MANGLE
    void toCppMangle(OutBuffer *buf, CppMangleState *cms);
#endif

#if IN_DMD
    type *toCtype();
    type *toCParamtype();
#endif
};

struct TypeClass : Type
{
    ClassDeclaration *sym;

    TypeClass(ClassDeclaration *sym);
    d_uns64 size(Loc loc);
    char *toChars();
    Type *syntaxCopy();
    Type *semantic(Loc loc, Scope *sc);
    Dsymbol *toDsymbol(Scope *sc);
    void toDecoBuffer(OutBuffer *buf, int flag, bool mangle);
    void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
    Expression *dotExp(Scope *sc, Expression *e, Identifier *ident);
    ClassDeclaration *isClassHandle();
    int isBaseOf(Type *t, int *poffset);
    MATCH implicitConvTo(Type *to);
    Expression *defaultInit(Loc loc);
    int isZeroInit(Loc loc);
    MATCH deduceType(Scope *sc, Type *tparam, TemplateParameters *parameters, Objects *dedtypes);
    int isauto();
    int checkBoolean();
    TypeInfoDeclaration *getTypeInfoDeclaration();
    int hasPointers();
    int builtinTypeInfo();
#if DMDV2
    Type *toHeadMutable();
    MATCH constConv(Type *to);
#if CPP_MANGLE
    void toCppMangle(OutBuffer *buf, CppMangleState *cms);
#endif
#endif

#if IN_DMD
    type *toCtype();

    Symbol *toSymbol();
#endif
};

struct TypeTuple : Type
{
    Arguments *arguments;     // types making up the tuple

    TypeTuple(Arguments *arguments);
    TypeTuple(Expressions *exps);
    Type *syntaxCopy();
    Type *semantic(Loc loc, Scope *sc);
    int equals(Object *o);
    Type *reliesOnTident();
    void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
    void toDecoBuffer(OutBuffer *buf, int flag, bool mangle);
    Expression *getProperty(Loc loc, Identifier *ident);
    TypeInfoDeclaration *getTypeInfoDeclaration();
};

struct TypeSlice : TypeNext
{
    Expression *lwr;
    Expression *upr;

    TypeSlice(Type *next, Expression *lwr, Expression *upr);
    Type *syntaxCopy();
    Type *semantic(Loc loc, Scope *sc);
    void resolve(Loc loc, Scope *sc, Expression **pe, Type **pt, Dsymbol **ps);
    void toCBuffer2(OutBuffer *buf, HdrGenState *hgs, int mod);
};

/**************************************************************/

//enum InOut { None, In, Out, InOut, Lazy };

struct Argument : Object
{
    //enum InOut inout;
    unsigned storageClass;
    Type *type;
    Identifier *ident;
    Expression *defaultArg;

    Argument(unsigned storageClass, Type *type, Identifier *ident, Expression *defaultArg);
    Argument *syntaxCopy();
    Type *isLazyArray();
    void toDecoBuffer(OutBuffer *buf, bool mangle);
    static Arguments *arraySyntaxCopy(Arguments *args);
    static char *argsTypesToChars(Arguments *args, int varargs);
    static void argsCppMangle(OutBuffer *buf, CppMangleState *cms, Arguments *arguments, int varargs);
    static void argsToCBuffer(OutBuffer *buf, HdrGenState *hgs, Arguments *arguments, int varargs);
    static void argsToDecoBuffer(OutBuffer *buf, Arguments *arguments, bool mangle);
    static int isTPL(Arguments *arguments);
    static size_t dim(Arguments *arguments);
    static Argument *getNth(Arguments *arguments, size_t nth, size_t *pn = NULL);
};

extern int PTRSIZE;
extern int REALSIZE;
extern int REALPAD;
extern int Tsize_t;
extern int Tptrdiff_t;

int arrayTypeCompatible(Loc loc, Type *t1, Type *t2);

#endif /* DMD_MTYPE_H */

Generated by  Doxygen 1.6.0   Back to index