/*****************************************************************************/ /** Microsoft LAN Manager **/ /** Copyright(c) Microsoft Corp., 1987-1990 **/ /*****************************************************************************/ /***************************************************************************** File : acfattr.hxx Title : acf attribute node definition file Description : this file contains all the definitions of the : acfattribute nodes History : 24-Aug-1991 VibhasC Create *****************************************************************************/ #ifndef __ACFATTR__HXX #define __ACFATTR__HXX #include "linenum.hxx" #include "cmdana.hxx" #define ALLOCATE_SINGLE_NODE (0x0001) #define ALLOCATE_ALL_NODES (0x0002) #define ALLOCATE_DONT_FREE (0x0004) #define ALLOCATE_FREE (0x0008) #define ALLOCATE_ALWAYS (0x0010) #define ALLOCATE_ON_NULL (0x0020) #define ALLOCATE_ALL_NODES_ALIGNED (0x0102) #define IS_ALLOCATE( AllocateType, CheckType ) ( AllocateType & CheckType ) // // scenarios where allocate is illegal. // #define TRANSMIT_AS_WITH_ALLOCATE (0x0001) #define HANDLES_WITH_ALLOCATE (0x0002) // introduce a common base class for all the ACF attributes, since we need to store // line number info for them class acf_attr : public nbattr { public: tracked_node Position; acf_attr( ATTR_T At ) : nbattr ( At ) { } acf_attr() { } virtual BOOL IsAcfAttr() { return TRUE; } }; class node_represent_as : public acf_attr { protected: char * pRepresentName; node_skl * pType; public: node_represent_as( char *p ): acf_attr( ATTR_REPRESENT_AS ) { pRepresentName = p; pType = NULL; } node_represent_as( char *p, node_skl * pT, ATTR_T Attr = ATTR_REPRESENT_AS ): acf_attr( Attr ) { pRepresentName = p; pType = pT; } node_represent_as( node_represent_as * pOld ); char * GetRepresentationName() { return pRepresentName; } node_skl * GetRepresentationType() { return pType; } virtual node_base_attr * Clone(); }; //////////////////////////////////////////////////////////////////////////// // user_marshal attribute //////////////////////////////////////////////////////////////////////////// class node_user_marshal : public node_represent_as { public: node_user_marshal( char * pName, node_skl * pN ) : node_represent_as( pName, pN, ATTR_USER_MARSHAL ) { } node_user_marshal( node_user_marshal * pOld ) : node_represent_as( (node_represent_as *)pOld ) { *this = *pOld; } virtual node_base_attr * Clone() { node_base_attr * pNew = new node_user_marshal( this ); return pNew; } node_skl * GetUserMarshalType() { return pType; } }; class node_call_as : public acf_attr { private: char * pCallAsName; node_proc * pType; public: node_call_as( char *p ): acf_attr( ATTR_CALL_AS ) { pCallAsName = p; pType = NULL; } node_call_as( char *p, node_skl * pT ): acf_attr( ATTR_CALL_AS ) { pCallAsName = p; pType = (node_proc *) pT; } node_call_as( node_call_as * pOld ); char * GetCallAsName() { return pCallAsName; } node_proc * GetCallAsType() { return pType; } node_proc * SetCallAsType( node_skl * pT) { return ( pType = (node_proc *) pT ); } virtual node_base_attr * Clone(); }; class node_byte_count : public acf_attr { private: node_param * pByteCountParam; public: node_byte_count( node_param *p ) : acf_attr( ATTR_BYTE_COUNT ) { pByteCountParam = p; } node_byte_count( node_byte_count * pOld ); virtual node_base_attr * Clone(); node_param * GetByteCountParam() { return pByteCountParam; } }; //////////////////////////////////////////////////////////////////////////// // optimization attribute //////////////////////////////////////////////////////////////////////////// extern OPT_LEVEL_ENUM ParseAcfOptimizationAttr( char * pOptString, unsigned short * pOptFlags ); class node_optimize : public acf_attr { OPT_LEVEL_ENUM OptimizationLevel; unsigned short OptimizationFlags; public: node_optimize( OPT_LEVEL_ENUM OptLevel, unsigned short OptFlags ) : acf_attr( ATTR_OPTIMIZE ), OptimizationLevel( OptLevel ), OptimizationFlags( OptFlags ) { } node_optimize( node_optimize * pOld ) { *this = *pOld; } virtual node_base_attr * Clone(); unsigned short GetOptimizationFlags() { return OptimizationFlags; } OPT_LEVEL_ENUM GetOptimizationLevel() { return OptimizationLevel; } }; //////////////////////////////////////////////////////////////////////////// // ptr_size attribute //////////////////////////////////////////////////////////////////////////// class node_ptr_size : public acf_attr { public: node_ptr_size() : acf_attr( ATTR_PTRSIZE ) { } node_ptr_size( node_ptr_size * pOld ) { *this = *pOld; } virtual node_base_attr * Clone(); }; //////////////////////////////////////////////////////////////////////////// // enable_allocate attribute //////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////// // implicit handle attribute //////////////////////////////////////////////////////////////////////////// class node_id; class CG_CLASS; class XLAT_CTXT; class node_implicit : public acf_attr { public: node_id * pHandleID; node_skl * pHandleType; public: node_implicit( node_skl *, node_id *); node_implicit( node_implicit * pOld ) { *this = *pOld; } virtual node_base_attr * Clone(); void ImplicitHandleDetails( node_skl**, node_id **); BOOL IsHandleTypeDefined(); virtual CG_CLASS * ILxlate( XLAT_CTXT * pContext ); }; //////////////////////////////////////////////////////////////////////////// // allocate attribute //////////////////////////////////////////////////////////////////////////// class node_allocate : public acf_attr { private: short AllocateDetails; public: node_allocate( short Details) : acf_attr( ATTR_ALLOCATE ) { AllocateDetails = Details; } node_allocate( node_allocate * pOld ); virtual node_base_attr * Clone(); short GetAllocateDetails() { return AllocateDetails; }; }; #endif // __ACFATTR__HXX