windows-nt/Source/XPSP1/NT/enduser/troubleshoot/bn/glnk.h
2020-09-26 16:20:57 +08:00

409 lines
11 KiB
C++

//+-------------------------------------------------------------------------
//
// Microsoft Windows
//
// Copyright (C) Microsoft Corporation, 1997 - 1997
//
// File: glnk.h
//
//--------------------------------------------------------------------------
//
// GLNK.H
//
// This file defines base classes for smart linked lists.
//
#if !defined(_GLNK_H_)
#define _GLNK_H_
#include "basics.h"
// Disable "warning C4355: 'this' : used in base member initializer list"
#pragma warning ( disable : 4355 )
// Disable warning about using 'bool'
#pragma warning ( disable : 4237 )
// Forward declarations
class GLNK; // Just a linked list anchor
class GELEM; // Base class for trees or dags
class GLNKEL; // A linked element
class GLNKCHN ; // An imbeddable element
class GELEMLNK; // A containerizable element
////////////////////////////////////////////////////////////////////
// class GLNKBASE: just a pair of pointers. Used as a basis for
// linked lists and bidirectional pointers.
//
////////////////////////////////////////////////////////////////////
class GLNKBASE // A linked list anchor
{
protected:
GLNKBASE * _plnkNext ; // The next link in the chain
GLNKBASE * _plnkPrev ; // The previous link in the chain
public:
GLNKBASE ()
: _plnkNext(NULL),
_plnkPrev(NULL)
{}
~ GLNKBASE () {};
GLNKBASE * & PlnkNext () { return _plnkNext ; }
GLNKBASE * & PlnkPrev () { return _plnkPrev ; }
private:
// Block compiler from generating invalid functions
HIDE_UNSAFE(GLNKBASE);
};
// Template to generate a pair of pointers to given subclass
template<class L>
class XLBASE
{
protected:
L * _plNext ;
L * _plPrev ;
public:
XLBASE ()
: _plNext(NULL),
_plPrev(NULL)
{}
L * & PlnkNext () { return _plNext ; }
L * & PlnkPrev () { return _plPrev ; }
const L * PlnkNext () const { return _plNext ; }
const L * PlnkPrev () const { return _plPrev ; }
private:
XLBASE(const XLBASE &);
XLBASE & operator == (const XLBASE &);
};
////////////////////////////////////////////////////////////////////
// template XLSS: simple alias template using "source" and "sink"
// terminology.
////////////////////////////////////////////////////////////////////
template<class L>
class XLSS : public XLBASE<L>
{
public:
L * & PlnkSink () { return _plNext ; }
L * & PlnkSource () { return _plPrev ; }
L * PlnkSink () const { return _plNext ; }
L * PlnkSource () const { return _plPrev ; }
};
////////////////////////////////////////////////////////////////////
// class GLNK: basic doubly-linked list. Linkage is always
// done directly between LNKs, not their containing objects
//
////////////////////////////////////////////////////////////////////
class GLNK : public GLNKBASE // A linked list anchor
{
protected:
void Empty ()
{
PlnkPrev() = this ;
PlnkNext() = this ;
}
GLNK ()
{
Empty() ;
}
~ GLNK ()
{
Unlink() ;
}
void Link ( GLNK * plnkNext )
{
Unlink() ;
PlnkPrev() = plnkNext->PlnkPrev() ;
PlnkNext() = plnkNext ;
plnkNext->PlnkPrev()->PlnkNext() = this ;
PlnkNext()->PlnkPrev() = this ;
}
void Unlink ()
{
PlnkNext()->PlnkPrev() = PlnkPrev() ;
PlnkPrev()->PlnkNext() = PlnkNext() ;
Empty() ;
}
// Const and non-const accessor to base pointer pair
GLNK * & PlnkNext () { return (GLNK *&) _plnkNext ; }
GLNK * & PlnkPrev () { return (GLNK *&) _plnkPrev ; }
const GLNK * PlnkNext () const { return (GLNK *) _plnkNext ; }
const GLNK * PlnkPrev () const { return (GLNK *) _plnkPrev ; }
public:
// Return count of elements on list, including self
long Count () const
{
long cItem = 1 ;
for ( GLNK * plnkNext = (CONST_CAST(GLNK *, this))->PlnkNext() ;
plnkNext != this ;
plnkNext = plnkNext->PlnkNext() )
{
cItem++ ;
}
return cItem ;
}
bool BIsEmpty () const { return PlnkNext() == this ; }
private:
// Block compiler from generating invalid functions
HIDE_UNSAFE(GLNK);
};
////////////////////////////////////////////////////////////////////
// class GELEM: Base class for linkable objects
////////////////////////////////////////////////////////////////////
const int g_IGelemTypeInc = 10000;
class GELEM
{
friend class GLNKCHN ;
public:
GELEM() {}
virtual ~ GELEM () {}
enum EGELMTYPE
{
EGELM_NONE = 0,
EGELM_NODE = EGELM_NONE + g_IGelemTypeInc,
EGELM_EDGE = EGELM_NODE + g_IGelemTypeInc,
EGELM_BRANCH = EGELM_EDGE + g_IGelemTypeInc,
EGELM_LEAF = EGELM_BRANCH + g_IGelemTypeInc,
EGELM_GRAPH = EGELM_LEAF + g_IGelemTypeInc,
EGELM_TREE = EGELM_GRAPH + g_IGelemTypeInc,
EGELM_CLIQUE = EGELM_GRAPH + g_IGelemTypeInc
};
virtual INT EType () const
{ return EGELM_NONE ; }
bool BIsEType ( INT egelmType )
{
INT etype = egelmType / g_IGelemTypeInc;
INT etypeThis = EType() / g_IGelemTypeInc;
return etype == etypeThis;
}
protected:
// Return the offset of the given pointer pair from the element.
int CbOffsetFrom ( const GLNKBASE * p ) const
// One could assert that the GLNKCHN really lies within object
// boundaries by using a virtualized "sizeof" accessor. Also,
// check mod-4 and other validity conditions.
{ return ((char*)p) - ((char*)this) ; }
};
////////////////////////////////////////////////////////////////////
// class GLNKCHN:
// A GLNK which knows its offset within the containing object.
//
// To perform doubly-linked list operations, two pieces of information
// are necessary: the location of the pointer pair and the location
// of the containing object. By giving the GLNKCHN its offset from
// the start of the object during construction, it can perform all
// necessary operations, including automatically unlinking during
// destruction.
////////////////////////////////////////////////////////////////////
class GLNKCHN : public GLNK
{
private:
int _cbOffset ; // Number of bytes offset from
// start of owning structure
public:
GLNKCHN ( GELEM * pgelemOwner )
: _cbOffset(0)
{
_cbOffset = pgelemOwner->CbOffsetFrom( this );
}
~ GLNKCHN () {}
void Link ( GELEM * pgelemNext )
{
// Assuming that the GLNKCHN onto which we're linking is at the
// same offset in the given GLNKEL as it is in *this, link it.
GLNKCHN * plnkchn = PlnkchnPtr( pgelemNext );
GLNK::Link( plnkchn ) ;
}
void Unlink ()
{
GLNK::Unlink() ;
}
GELEM * PgelemNext ()
{
return BIsEmpty()
? NULL
: PlnkchnNext()->PgelemChainOwnerPtr() ;
}
GELEM * PgelemPrev ()
{
return BIsEmpty()
? NULL
: PlnkchnPrev()->PgelemChainOwnerPtr() ;
}
protected:
// Return a pointer to the base object. given a pointer to one of
// its GLNKCHN member objects.
GELEM * PgelemChainOwnerPtr () const
{ return (GELEM *) (((SZC) this) - _cbOffset) ; }
// Given a pointer to a GELEM presumed to be of the same base
// type as this object's container, return a pointer to the
// corresponding GLNKCHN in it.
GLNKCHN * PlnkchnPtr ( const GELEM * pgelem ) const
{
#ifdef _DEBUG
// Debug version does error checking
GLNKCHN * plnkchn = (GLNKCHN *) (((SZC) pgelem) + _cbOffset);
if ( _cbOffset != plnkchn->_cbOffset )
throw GMException(EC_LINK_OFFSET,"invalid GLNKCHN offset");
return plnkchn;
#else
return (GLNKCHN *) (((SZC) pgelem) + _cbOffset);
#endif
}
// Protected accessors to GLNK pointers cast to GLNKCHN pointers
GLNKCHN * PlnkchnNext () { return (GLNKCHN *) GLNK::PlnkNext() ; }
GLNKCHN * PlnkchnPrev () { return (GLNKCHN *) GLNK::PlnkPrev() ; }
private:
HIDE_UNSAFE(GLNKCHN);
};
////////////////////////////////////////////////////////////////////
// template XCHN:
// for creating types of chains given a containing object
// which is a subclass of GELEM
////////////////////////////////////////////////////////////////////
template<class XOBJ>
class XCHN : public GLNKCHN
{
public:
XCHN ( XOBJ * pgelemOwner )
: GLNKCHN(pgelemOwner)
{}
void Link ( XOBJ * pgelemNext )
{ GLNKCHN::Link(pgelemNext); }
void Unlink ()
{ GLNKCHN::Unlink(); }
XOBJ * PgelemNext ()
{ return (XOBJ *) GLNKCHN::PgelemNext(); }
XOBJ * PgelemPrev ()
{ return (XOBJ *) GLNKCHN::PgelemPrev(); }
XOBJ * PgelemThis ()
{ return PgelemChainOwnerPtr(); }
protected:
XOBJ * PgelemChainOwnerPtr () const
{ return (XOBJ *) GLNKCHN::PgelemChainOwnerPtr(); }
XCHN * PlnkchnPtr ( const XOBJ * pgelem ) const
{ return (XCHN *) GLNKCHN::PlnkchnPtr(pgelem); }
XCHN * PlnkchnNext () { return (XCHN *) GLNKCHN::PlnkchnNext() ; }
XCHN * PlnkchnPrev () { return (XCHN *) GLNKCHN::PlnkchnPrev() ; }
private:
XCHN(const XCHN &);
XCHN & operator == (const XCHN &);
};
////////////////////////////////////////////////////////////////////
// Class GLNKEL:
// Simple base class for things managed as members of linked lists.
// One or more LNKCHNs or LNKs can be contained within subclass objects;
// it contains one "implicit" GLNKCHN for linking siblings in the
// implicit tree created by NTREE.
// Trees are based upon this type.
////////////////////////////////////////////////////////////////////
class GLNKEL : public GELEM
{
public:
// Internal class for chains (doubly-linked lists)
typedef XCHN<GLNKEL> CHN;
GLNKEL ()
: _chn( this ),
_iType(0),
_iMark(0)
{}
virtual ~ GLNKEL () {}
CHN & Chn ()
{ return _chn ; }
GLNKEL * PlnkelPrev ()
{ return Chn().PgelemPrev() ; }
GLNKEL * PlnkelNext ()
{ return Chn().PgelemNext() ; }
// Return the mutable (user-definable) object type
INT & IType () { return _iType; }
INT IType() const { return _iType; }
INT & IMark () { return _iMark; }
INT IMark () const { return _iMark; }
protected:
CHN _chn ; // Primary association chain
INT _iType; // User-definable type
INT _iMark; // Network walking mark
protected:
// Throw an exception when an invalid cloning operation occurs
void ThrowInvalidClone ( const GLNKEL & t );
HIDE_UNSAFE(GLNKEL);
};
////////////////////////////////////////////////////////////////////
// Class GELEMLNK:
// Base class for linkable objects in a collection, such as
// graph. Trees are NOT based upon this type, since trees
// are not forests (they cannot have associated but disjoint
// sets of objects).
////////////////////////////////////////////////////////////////////
class GELEMLNK : public GLNKEL
{
public:
// Internal class for chains (doubly-linked lists)
typedef XCHN<GELEMLNK> CHN;
GELEMLNK () {}
virtual ~ GELEMLNK () {}
// Locate an element (other than 'this') by type
GELEMLNK * PglnkFind ( EGELMTYPE eType, bool bExact = false )
{
for ( GELEMLNK * pg = this;
pg->ChnColl().PgelemThis() != this;
pg = pg->ChnColl().PgelemNext() )
{
if ( bExact ? pg->EType() == eType : pg->BIsEType(eType) )
return pg;
}
return NULL;
}
// Element chain: all items belonging to this collection
CHN & ChnColl ()
{ return (CHN &) _chn ; }
private:
HIDE_UNSAFE(GELEMLNK);
};
#endif // !defined(_GLNK_H_)
// End of glnk.h