Source code of Windows XP (NT5)
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/*****************************************************************************/
/** Microsoft LAN Manager **/
/** Copyright(c) Microsoft Corp., 1987-1999 **/
/*****************************************************************************/
/*****************************************************************************
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 )
{
}
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 )
: acf_attr( pOld->GetAttrID() )
{
*this = *pOld;
}
char * GetRepresentationName()
{
return pRepresentName;
}
node_skl * GetRepresentationType()
{
return pType;
}
virtual
node_base_attr * Clone()
{
return new node_represent_as( this );
}
};
////////////////////////////////////////////////////////////////////////////
// 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 )
: acf_attr( pOld->GetAttrID() )
{
*this = *pOld;
}
char * GetCallAsName()
{
return pCallAsName;
}
void SetCallAsName( char* szName )
{
pCallAsName = szName;
}
node_proc * GetCallAsType()
{
return pType;
}
node_proc * SetCallAsType( node_skl * pT)
{
return ( pType = (node_proc *) pT );
}
virtual
node_base_attr * Clone()
{
return new node_call_as( this );
}
};
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 )
: acf_attr( pOld->GetAttrID() )
{
*this = *pOld;
}
virtual
node_base_attr * Clone()
{
return new node_byte_count( this );
}
node_param * GetByteCountParam()
{
return pByteCountParam;
}
virtual void SetByteCountParam( node_param* pNew )
{
pByteCountParam = pNew;
}
};
////////////////////////////////////////////////////////////////////////////
// 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 )
: acf_attr( pOld->GetAttrID() )
{
*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 )
: acf_attr( pOld->GetAttrID() )
{
*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 )
: acf_attr( pOld->GetAttrID() )
{
*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 )
: acf_attr( pOld->GetAttrID() )
{
*this = *pOld;
}
virtual
node_base_attr * Clone()
{
return new node_allocate( this );
}
short GetAllocateDetails()
{
return AllocateDetails;
};
};
////////////////////////////////////////////////////////////////////////////
// cs_char attribute
////////////////////////////////////////////////////////////////////////////
class node_cs_char : public acf_attr
{
private:
// The type node for the user type
node_skl *pUserType;
// The size of the user type (not set until ILxlate is done)
long ElementSize;
public:
node_cs_char( node_skl *p )
: acf_attr( ATTR_CSCHAR )
{
pUserType = p;
}
node_skl * GetUserType()
{
return pUserType;
}
PNAME GetUserTypeName()
{
return pUserType->GetSymName();
}
void SetElementSize( long size )
{
MIDL_ASSERT( size >= 0 && size <= 255 );
ElementSize = size;
}
long GetElementSize()
{
return ElementSize;
}
};
////////////////////////////////////////////////////////////////////////////
// cs_tag_rtn attribute
////////////////////////////////////////////////////////////////////////////
class node_cs_tag_rtn : public acf_attr
{
private:
node_proc * pCSTagRoutine;
public:
node_cs_tag_rtn( node_skl *p )
: acf_attr( ATTR_CSTAGRTN )
{
MIDL_ASSERT( NODE_PROC == p->NodeKind() );
pCSTagRoutine = (node_proc *) p;
}
node_proc * GetCSTagRoutine()
{
return pCSTagRoutine;
}
};
#endif // __ACFATTR__HXX