windows-nt/Source/XPSP1/NT/windows/richedit/re30/array.cpp

/*
 *	@doc INTERNAL
 *
 *	@module	ARRAY.C	-- Generic Array Implementation |
 *	
 *	Original Author: <nl>
 *		Christian Fortini
 *
 *	History: <nl>
 *		6/25/95  alexgo  Cleanup and Commented
 *
 *	Copyright (c) 1995-1997, Microsoft Corporation. All rights reserved.
 */


#include "_common.h"
#include "_array.h"

ASSERTDATA

const int celGrow = 8;

//
//	Invariant support
//
#define	DEBUG_CLASSNAME	CArrayBase
#include "_invar.h"

// ===================================  CArrayBase  ================================================

#ifdef DEBUG
/*
 *	CArrayBase::Invariant()
 *
 *	@mfunc	Tests the array state to make sure it is valid.  DEBUG only
 *
 *	@rdesc	TRUE if the tests succeed, FALSE otherwise
 */
BOOL CArrayBase::Invariant() const
{
	Assert(_cbElem > 0);

	if(!_prgel)
	{
		Assert(_cel == 0);
		Assert(_celMax == 0);

		// We go ahead and return a value here so that
		// this function can be executed in the "watch"
		// window of various debuggers
		if(_cel || _celMax)
			return FALSE;
	}
	else
	{
		Assert(_celMax > 0 );
		Assert(_cel <= _celMax);

		if(_celMax == 0 || _cel > _celMax)
			return FALSE;
	}

	return TRUE;
}

/* 
 *	CArrayBase::Elem(iel)
 *
 *	@mfunc	Returns a pointer to the element indexed by <p iel>
 *
 *	@rdesc	A pointer to the element indexed by <p iel>.  This pointer may
 *	be cast to a pointer of the appropriate element type.
 */
void* CArrayBase::Elem(
	LONG iel) const	//@parm Index to use
{
	_TEST_INVARIANT_

	// This can arise with empty froms^3 controls.
	// Review (keithcu) Why did this start happening in Richedit 3?
	if (!_cel)
		return NULL;

	AssertSz(iel == 0 || (iel > 0 && iel < _cel),
		"CArrayBase::Elem() - Index out of range");

	return _prgel + iel * _cbElem;
}								 
#endif

/*
 *	CArrayBase::CArrayBase
 *
 *	@mfunc Constructor
 */
CArrayBase::CArrayBase(
	LONG cbElem)		//@parm	Size of an individual array element
{	
	_prgel = NULL; 
	_cel = 0; 
	_celMax = 0; 
	_cbElem = cbElem;
}

/*
 *	CArrayBase::ArAdd
 *
 *	@mfunc	Adds <p celAdd> elements to the end of the array.
 *
 *	@rdesc	A pointer to the start of the new elements added.  If non-NULL, 
 *	<p pielIns> will be set to the index at which elements were added.
 *
 *  We grow in steps of celGrow when small and exponentially when large.
 */
void* CArrayBase::ArAdd(
	LONG celAdd,	//@parm Count of elements to add
	LONG *pielIns)	//@parm Out parm for index of first element added
{
	_TEST_INVARIANT_
	char *pel;

	if(_cel + celAdd > _celMax)					// need to grow 
	{
		LONG celNew = max(celAdd, celGrow) + _cel / 16;
		pel = (char*)PvReAlloc(_prgel, (_celMax + celNew) * _cbElem);
		if(!pel)
			return NULL;
		_prgel = pel;
		_celMax += celNew;
	}
	pel = _prgel + _cel * _cbElem;
	ZeroMemory(pel, celAdd * _cbElem);

	if(pielIns)
		*pielIns = _cel;

	_cel += celAdd;
	return pel;
}

/*
 *	CArrayBase::ArInsert (iel, celIns)
 *
 *	@mfunc Inserts <p celIns> new elements at index <p iel>
 *
 *	@rdesc A pointer to the newly inserted elements.  Will be NULL on
 *	failure.
 */
void* CArrayBase::ArInsert(
	LONG iel,		//@parm	Index at which to insert
	LONG celIns)	//@parm Count of elements to insert
{
	char *pel;

	_TEST_INVARIANT_

	AssertSz(iel <= _cel, "CArrayBase::Insert() - Insert out of range");

	if(iel >= _cel)
		return ArAdd(celIns, NULL);

	if(_cel + celIns > _celMax)				// need to grow 
	{
		AssertSz(_prgel, "CArrayBase::Insert() - Growing a non existent array !");

		LONG celNew = max(celIns, celGrow) + _cel / 16;
		pel = (char*)PvReAlloc(_prgel, (_celMax + celNew) * _cbElem);
		if(!pel)
		{
			TRACEERRORSZ("CArrayBase::Insert() - Couldn't realloc line array");
			return NULL;
		}
		_prgel = pel;
		_celMax += celNew;
	}
	pel = _prgel + iel * _cbElem;
	if(iel < _cel)				// Nove Elems up to make room for new ones
		MoveMemory(pel + celIns*_cbElem, pel, (_cel - iel)*_cbElem);

	_cel += celIns;
	return pel;
}

/*
 *	CArrayBase::Remove
 *
 *	@mfunc	Removes the <p celFree> elements from the array starting at index
 *	<p ielFirst>.  If <p celFree> is negative, then all elements after
 *	<p ielFirst> are removed.
 *
 *	@rdesc nothing
 */
void CArrayBase::Remove(
	LONG ielFirst, 		//@parm Index at which elements should be removed
	LONG celFree) 		//@parm	Count of elements to remove. 
{
	char *pel;

	_TEST_INVARIANT_

	if(celFree < 0)
		celFree = _cel - ielFirst;

	AssertSz(ielFirst + celFree <= _cel, "CArrayBase::Free() - Freeing out of range");

	if(_cel > ielFirst + celFree)
	{
		pel = _prgel + ielFirst * _cbElem;
		MoveMemory(pel, pel + celFree * _cbElem,
			(_cel - ielFirst - celFree) * _cbElem);
	}

	_cel -= celFree;

	if(_cel < _celMax - celGrow - _cel / 16)
	{
		// Shrink array
		_celMax = max(_cel, celGrow);
		_prgel = (char*)PvReAlloc(_prgel, _celMax * _cbElem);
		Assert(_prgel);
	}
}

/*
 *	CArrayBase::Clear
 *
 *	@mfunc	Clears the entire array, potentially deleting all of the memory
 *	as well.
 *
 *	@rdesc	nothing
 */
void CArrayBase::Clear(
	ArrayFlag flag)	//@parm Indicates what should be done with the memory
					//in the array.  One of AF_DELETEMEM or AF_KEEPMEM
{
	_TEST_INVARIANT_

	if( flag == AF_DELETEMEM )
	{
		FreePv(_prgel);
		_prgel = NULL;
		_celMax = 0;
	}
	else if (_prgel)
	{
		_celMax = min(celGrow, _celMax);
		_prgel = (char*) PvReAlloc(_prgel, celGrow * _cbElem);
	}
	_cel = 0;
}

/*
 *	CArrayBase::Replace
 *
 *	@mfunc	Replaces the <p celRepl> elements at index <p ielRepl> with the
 *	contents of the array specified by <p par>.  If <p celRepl> is negative,
 *	then the entire contents of <p this> array starting at <p ielRepl> should
 *	be replaced.
 *
 *	@rdesc	Returns TRUE on success, FALSE otherwise.
 */
BOOL CArrayBase::Replace(
	LONG ielRepl, 		//@parm index at which replacement should occur
	LONG celRepl, 		//@parm number of elements to replace (may be
						//		negative, indicating that all
	CArrayBase *par)	//@parm array to use as the replacement source
{
	_TEST_INVARIANT_

	LONG celMove = 0;
	LONG celIns = par->Count();
	
	if (celRepl < 0)
		celRepl = _cel - ielRepl;

	AssertSz(ielRepl + celRepl <= _cel, "CArrayBase::ArReplace() - Replacing out of range");
	
	celMove = min(celRepl, celIns);

	if (celMove > 0) 
	{
		MoveMemory(Elem(ielRepl), par->Elem(0), celMove * _cbElem);
		celIns -= celMove;
		celRepl -= celMove;
		ielRepl += celMove;
	}

	Assert(celIns >= 0);
	Assert(celRepl >= 0);
	Assert(celIns + celMove == par->Count());

	if(celIns > 0)
	{
		Assert(celRepl == 0);
		void *pelIns = ArInsert (ielRepl, celIns);
		if (!pelIns)
			return FALSE;
		MoveMemory(pelIns, par->Elem(celMove), celIns * _cbElem);
	}
	else if(celRepl > 0)
		Remove (ielRepl, celRepl);

	return TRUE;
}
Add source files 2020-09-26 03:20:57 -05:00			`/*`
			`* @doc INTERNAL`
			`*`
			`* @module ARRAY.C -- Generic Array Implementation \|`
			`*`
			`* Original Author: <nl>`
			`* Christian Fortini`
			`*`
			`* History: <nl>`
			`* 6/25/95 alexgo Cleanup and Commented`
			`*`
			`* Copyright (c) 1995-1997, Microsoft Corporation. All rights reserved.`
			`*/`


			`#include "_common.h"`
			`#include "_array.h"`

			`ASSERTDATA`

			`const int celGrow = 8;`

			`//`
			`// Invariant support`
			`//`
			`#define DEBUG_CLASSNAME CArrayBase`
			`#include "_invar.h"`

			`// =================================== CArrayBase ================================================`

			`#ifdef DEBUG`
			`/*`
			`* CArrayBase::Invariant()`
			`*`
			`* @mfunc Tests the array state to make sure it is valid. DEBUG only`
			`*`
			`* @rdesc TRUE if the tests succeed, FALSE otherwise`
			`*/`
			`BOOL CArrayBase::Invariant() const`
			`{`
			`Assert(_cbElem > 0);`

			`if(!_prgel)`
			`{`
			`Assert(_cel == 0);`
			`Assert(_celMax == 0);`

			`// We go ahead and return a value here so that`
			`// this function can be executed in the "watch"`
			`// window of various debuggers`
			`if(_cel \|\| _celMax)`
			`return FALSE;`
			`}`
			`else`
			`{`
			`Assert(_celMax > 0 );`
			`Assert(_cel <= _celMax);`

			`if(_celMax == 0 \|\| _cel > _celMax)`
			`return FALSE;`
			`}`

			`return TRUE;`
			`}`

			`/*`
			`* CArrayBase::Elem(iel)`
			`*`
			`* @mfunc Returns a pointer to the element indexed by <p iel>`
			`*`
			`* @rdesc A pointer to the element indexed by <p iel>. This pointer may`
			`* be cast to a pointer of the appropriate element type.`
			`*/`
			`void* CArrayBase::Elem(`
			`LONG iel) const //@parm Index to use`
			`{`
			`_TEST_INVARIANT_`

			`// This can arise with empty froms^3 controls.`
			`// Review (keithcu) Why did this start happening in Richedit 3?`
			`if (!_cel)`
			`return NULL;`

			`AssertSz(iel == 0 \|\| (iel > 0 && iel < _cel),`
			`"CArrayBase::Elem() - Index out of range");`

			`return _prgel + iel * _cbElem;`
			`}`
			`#endif`

			`/*`
			`* CArrayBase::CArrayBase`
			`*`
			`* @mfunc Constructor`
			`*/`
			`CArrayBase::CArrayBase(`
			`LONG cbElem) //@parm Size of an individual array element`
			`{`
			`_prgel = NULL;`
			`_cel = 0;`
			`_celMax = 0;`
			`_cbElem = cbElem;`
			`}`

			`/*`
			`* CArrayBase::ArAdd`
			`*`
			`* @mfunc Adds <p celAdd> elements to the end of the array.`
			`*`
			`* @rdesc A pointer to the start of the new elements added. If non-NULL,`
			`* <p pielIns> will be set to the index at which elements were added.`
			`*`
			`* We grow in steps of celGrow when small and exponentially when large.`
			`*/`
			`void* CArrayBase::ArAdd(`
			`LONG celAdd, //@parm Count of elements to add`
			`LONG *pielIns) //@parm Out parm for index of first element added`
			`{`
			`_TEST_INVARIANT_`
			`char *pel;`

			`if(_cel + celAdd > _celMax) // need to grow`
			`{`
			`LONG celNew = max(celAdd, celGrow) + _cel / 16;`
			`pel = (char)PvReAlloc(_prgel, (_celMax + celNew) _cbElem);`
			`if(!pel)`
			`return NULL;`
			`_prgel = pel;`
			`_celMax += celNew;`
			`}`
			`pel = _prgel + _cel * _cbElem;`
			`ZeroMemory(pel, celAdd * _cbElem);`

			`if(pielIns)`
			`*pielIns = _cel;`

			`_cel += celAdd;`
			`return pel;`
			`}`

			`/*`
			`* CArrayBase::ArInsert (iel, celIns)`
			`*`
			`* @mfunc Inserts <p celIns> new elements at index <p iel>`
			`*`
			`* @rdesc A pointer to the newly inserted elements. Will be NULL on`
			`* failure.`
			`*/`
			`void* CArrayBase::ArInsert(`
			`LONG iel, //@parm Index at which to insert`
			`LONG celIns) //@parm Count of elements to insert`
			`{`
			`char *pel;`

			`_TEST_INVARIANT_`

			`AssertSz(iel <= _cel, "CArrayBase::Insert() - Insert out of range");`

			`if(iel >= _cel)`
			`return ArAdd(celIns, NULL);`

			`if(_cel + celIns > _celMax) // need to grow`
			`{`
			`AssertSz(_prgel, "CArrayBase::Insert() - Growing a non existent array !");`

			`LONG celNew = max(celIns, celGrow) + _cel / 16;`
			`pel = (char)PvReAlloc(_prgel, (_celMax + celNew) _cbElem);`
			`if(!pel)`
			`{`
			`TRACEERRORSZ("CArrayBase::Insert() - Couldn't realloc line array");`
			`return NULL;`
			`}`
			`_prgel = pel;`
			`_celMax += celNew;`
			`}`
			`pel = _prgel + iel * _cbElem;`
			`if(iel < _cel) // Nove Elems up to make room for new ones`
			`MoveMemory(pel + celIns_cbElem, pel, (_cel - iel)_cbElem);`

			`_cel += celIns;`
			`return pel;`
			`}`

			`/*`
			`* CArrayBase::Remove`
			`*`
			`* @mfunc Removes the <p celFree> elements from the array starting at index`
			`* <p ielFirst>. If <p celFree> is negative, then all elements after`
			`* <p ielFirst> are removed.`
			`*`
			`* @rdesc nothing`
			`*/`
			`void CArrayBase::Remove(`
			`LONG ielFirst, //@parm Index at which elements should be removed`
			`LONG celFree) //@parm Count of elements to remove.`
			`{`
			`char *pel;`

			`_TEST_INVARIANT_`

			`if(celFree < 0)`
			`celFree = _cel - ielFirst;`

			`AssertSz(ielFirst + celFree <= _cel, "CArrayBase::Free() - Freeing out of range");`

			`if(_cel > ielFirst + celFree)`
			`{`
			`pel = _prgel + ielFirst * _cbElem;`
			`MoveMemory(pel, pel + celFree * _cbElem,`
			`(_cel - ielFirst - celFree) * _cbElem);`
			`}`

			`_cel -= celFree;`

			`if(_cel < _celMax - celGrow - _cel / 16)`
			`{`
			`// Shrink array`
			`_celMax = max(_cel, celGrow);`
			`_prgel = (char)PvReAlloc(_prgel, _celMax _cbElem);`
			`Assert(_prgel);`
			`}`
			`}`

			`/*`
			`* CArrayBase::Clear`
			`*`
			`* @mfunc Clears the entire array, potentially deleting all of the memory`
			`* as well.`
			`*`
			`* @rdesc nothing`
			`*/`
			`void CArrayBase::Clear(`
			`ArrayFlag flag) //@parm Indicates what should be done with the memory`
			`//in the array. One of AF_DELETEMEM or AF_KEEPMEM`
			`{`
			`_TEST_INVARIANT_`

			`if( flag == AF_DELETEMEM )`
			`{`
			`FreePv(_prgel);`
			`_prgel = NULL;`
			`_celMax = 0;`
			`}`
			`else if (_prgel)`
			`{`
			`_celMax = min(celGrow, _celMax);`
			`_prgel = (char) PvReAlloc(_prgel, celGrow _cbElem);`
			`}`
			`_cel = 0;`
			`}`

			`/*`
			`* CArrayBase::Replace`
			`*`
			`* @mfunc Replaces the <p celRepl> elements at index <p ielRepl> with the`
			`* contents of the array specified by <p par>. If <p celRepl> is negative,`
			`* then the entire contents of <p this> array starting at <p ielRepl> should`
			`* be replaced.`
			`*`
			`* @rdesc Returns TRUE on success, FALSE otherwise.`
			`*/`
			`BOOL CArrayBase::Replace(`
			`LONG ielRepl, //@parm index at which replacement should occur`
			`LONG celRepl, //@parm number of elements to replace (may be`
			`// negative, indicating that all`
			`CArrayBase *par) //@parm array to use as the replacement source`
			`{`
			`_TEST_INVARIANT_`

			`LONG celMove = 0;`
			`LONG celIns = par->Count();`

			`if (celRepl < 0)`
			`celRepl = _cel - ielRepl;`

			`AssertSz(ielRepl + celRepl <= _cel, "CArrayBase::ArReplace() - Replacing out of range");`

			`celMove = min(celRepl, celIns);`

			`if (celMove > 0)`
			`{`
			`MoveMemory(Elem(ielRepl), par->Elem(0), celMove * _cbElem);`
			`celIns -= celMove;`
			`celRepl -= celMove;`
			`ielRepl += celMove;`
			`}`

			`Assert(celIns >= 0);`
			`Assert(celRepl >= 0);`
			`Assert(celIns + celMove == par->Count());`

			`if(celIns > 0)`
			`{`
			`Assert(celRepl == 0);`
			`void *pelIns = ArInsert (ielRepl, celIns);`
			`if (!pelIns)`
			`return FALSE;`
			`MoveMemory(pelIns, par->Elem(celMove), celIns * _cbElem);`
			`}`
			`else if(celRepl > 0)`
			`Remove (ielRepl, celRepl);`

			`return TRUE;`
			`}`