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windows-server-2003/public/internal/windows/inc/duser/duidynamicarray.h

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/*
* Dynamic array
*/
#ifndef DUI_BASE_DYNAMICARRAY_H_INCLUDED
#define DUI_BASE_DYNAMICARRAY_H_INCLUDED
#pragma once
namespace DirectUI
{
//-------------------------------------------------------------------------
//
// DyanamicArray
//
// Stores values in an array the double size when it reaches capacity
//
// Compile DEBUG for bounds checking and other DUIAsserts, see public class
// declarations for API
//
// Values are stored natively. Type is chosen at compile time. For example
// (Value is type BYTE, initial capacity is 10):
//
// DynamicArray<BYTE>* pda;
// DynamicArray<BYTE>::Create(10, &pda);
//
// pda->Add(4);
// pda->Insert(0, 7);
//
// DUITrace("0: %d\n", pda->GetItem(0)); // a[0] = 7
// DUITrace("1: %d\n", pda->GetItem(1)); // a[1] = 4
//
// pda->Remove(0);
//
// DUITrace("0: %d\n", pda->GetItem(0)); // a[0] = 4
//
// The Value type must support the following operation:
// Assignment (=)
//
//-------------------------------------------------------------------------
template <typename T> class DynamicArray
{
public: // API
static HRESULT Create(UINT uCapacity, bool fZeroData, OUT DynamicArray<T>** ppArray);
virtual ~DynamicArray();
void Destroy() { HDelete< DynamicArray<T> >(this); }
// 'Ptr' methods return addesses, note that Add and Insert may cause the array
// to be reallocated and moved in memory. Be sure not to use pointers after
// an Add or Insert operation
typedef int (__cdecl *QSORTCMP )(const void*, const void*);
HRESULT Add(T tItem); // Insert Item at end of list (double capacity if needed)
HRESULT AddPtr(OUT T** ppNewItem); // Allocate room for Item at end of list and return pointer (double capacity if needed)
HRESULT Insert(UINT uIndex, T tItem); // Insert Item at location (double capacity if needed)
HRESULT InsertPtr(UINT uIndex, OUT T** pNewItem); // Allocate room at insertion point and return pointer (double capacity if needed)
void SetItem(UINT uIndex, T tItem); // Overwrite Item at location
T GetItem(UINT uIndex); // Get Item at location
T* GetItemPtr(UINT uIndex); // Get pointer to Item at location
UINT GetSize(); // Return size of array (not current capacity)
UINT GetIndexPtr(T* pItem); // Return index of Item based on its pointer
int GetIndexOf(T tItem); // Return index of Item
void Remove(UINT uIndex); // Remove Item at location
void Reset(); // Reset array to be reused (make zero size)
bool WasMoved(); // May be called right after Add or Insert to determine if da was moved in memory
HRESULT Clone(OUT DynamicArray<T>** ppClone); // Make exact copy of array
bool IsEqual(DynamicArray<T>* pda); // Return true if contents are equal to da
void Sort(QSORTCMP fpCmp); // Sort the array
void MakeImmutable(); // Write-once, make so can only do read-only operations
void MakeWritable(); // Make read/write
bool fLock : 1;
DynamicArray() { }
HRESULT Initialize(UINT uCapacity, bool fZeroData);
private:
UINT _uSize;
UINT _uCapacity;
T* _pData;
bool _fZeroData : 1; // Zero memory for data if InsertPtr is used
bool _fWasMoved : 1; // On a reallocation (via Add or Insert), true if fLock was moved
bool _fImmutable : 1; // If true, can only do read-only operations
};
template <typename T> HRESULT DynamicArray<T>::Create(UINT uCapacity, bool fZeroData, OUT DynamicArray<T>** ppArray)
{
*ppArray = NULL;
// Instantiate
DynamicArray<T>* pda = HNew< DynamicArray<T> >();
if (!pda)
return E_OUTOFMEMORY;
HRESULT hr = pda->Initialize(uCapacity, fZeroData);
if (FAILED(hr))
{
pda->Destroy();
return hr;
}
*ppArray = pda;
return S_OK;
}
template <typename T> HRESULT DynamicArray<T>::Initialize(UINT uCapacity, bool fZeroData)
{
_uCapacity = uCapacity;
_uSize = 0;
if (_uCapacity) // Allocate only if have an initial capacity
{
_pData = (T*)HAlloc(sizeof(T) * _uCapacity);
if (!_pData)
return E_OUTOFMEMORY;
}
else
_pData = NULL;
_fZeroData = fZeroData;
_fWasMoved = false;
_fImmutable = false;
fLock = false;
return S_OK;
}
template <typename T> DynamicArray<T>::~DynamicArray()
{
if (_pData)
HFree(_pData);
}
// Copy data into array
template <typename T> HRESULT DynamicArray<T>::Add(T tItem)
{
return Insert(_uSize, tItem);
}
template <typename T> HRESULT DynamicArray<T>::AddPtr(OUT T** ppNewItem)
{
return InsertPtr(_uSize, ppNewItem);
}
template <typename T> HRESULT DynamicArray<T>::Insert(UINT uIndex, T tItem)
{
DUIAssert(!_fImmutable, "Only read operations allowed on immutable DynamicArray");
_fWasMoved = false;
DUIAssert(uIndex <= _uSize, "DynamicArray index out of bounds");
// Resize if needed
if (_uSize == _uCapacity)
{
// Double capacity of list
UINT uNewCapacity = _uCapacity;
if (uNewCapacity == 0)
{
uNewCapacity = 1;
}
else
{
uNewCapacity *= 2;
}
// Reallocate current fLock
UINT_PTR pOld = (UINT_PTR)_pData;
if (_pData)
{
T* pNewData = (T*)HReAlloc(_pData, sizeof(T) * uNewCapacity);
if (!pNewData)
return E_OUTOFMEMORY;
_pData = pNewData;
}
else
{
_pData = (T*)HAlloc(sizeof(T) * uNewCapacity);
if (!_pData)
return E_OUTOFMEMORY;
}
// Update capacity field
_uCapacity = uNewCapacity;
if (pOld != (UINT_PTR)_pData)
_fWasMoved = true;
}
// Shift data at index down one slot
MoveMemory(_pData + (uIndex + 1), _pData + uIndex, (_uSize - uIndex) * sizeof(T));
// Copy new data at insertion point
_pData[uIndex] = tItem;
_uSize++;
return S_OK;
}
template <typename T> HRESULT DynamicArray<T>::InsertPtr(UINT uIndex, T** pNewItem)
{
DUIAssert(!_fImmutable, "Only read operations allowed on immutable DynamicArray");
_fWasMoved = false;
DUIAssert(uIndex <= _uSize, "DynamicArray index out of bounds");
// Resize if needed
if (_uSize == _uCapacity)
{
// Double capacity of list
UINT uNewCapacity = _uCapacity;
if (uNewCapacity == 0)
{
uNewCapacity = 1;
}
else
{
uNewCapacity *= 2;
}
// Reallocate current fLock
UINT_PTR pOld = (UINT_PTR)_pData;
if (_pData)
{
T* pNewData = (T*)HReAlloc(_pData, sizeof(T) * uNewCapacity);
if (!pNewData)
return E_OUTOFMEMORY;
_pData = pNewData;
}
else
{
_pData = (T*)HAlloc(sizeof(T) * uNewCapacity);
if (!_pData)
return E_OUTOFMEMORY;
}
// Update capacity field
_uCapacity = uNewCapacity;
if (pOld != (UINT_PTR)_pData)
_fWasMoved = true;
}
// Shift data at index down one slot
MoveMemory(_pData + (uIndex + 1), _pData + uIndex, (_uSize - uIndex) * sizeof(T));
_uSize++;
if (_fZeroData)
ZeroMemory(_pData + uIndex, sizeof(T));
*pNewItem = _pData + uIndex;
return S_OK;
}
template <typename T> void DynamicArray<T>::SetItem(UINT uIndex, T tItem)
{
DUIAssert(!_fImmutable, "Only read operations allowed on immutable DynamicArray");
DUIAssert(uIndex < _uSize, "DynamicArray index out of bounds");
// Copy new data at insertion point
_pData[uIndex] = tItem;
}
template <typename T> T DynamicArray<T>::GetItem(UINT uIndex)
{
DUIAssert(uIndex < _uSize, "DynamicArray index out of bounds");
return _pData[uIndex];
}
template <typename T> T* DynamicArray<T>::GetItemPtr(UINT uIndex)
{
DUIAssert(!_fImmutable, "Only read operations allowed on immutable DynamicArray");
DUIAssert(uIndex < _uSize, "DynamicArray index out of bounds");
return _pData + uIndex;
}
template <typename T> UINT DynamicArray<T>::GetIndexPtr(T* pItem)
{
DUIAssert((((UINT_PTR)pItem - (UINT_PTR)_pData) / sizeof(T)) >= 0 && (((UINT_PTR)pItem - (UINT_PTR)_pData) / sizeof(T)) < _uSize, "GetIndexPtr out of bounds");
return (UINT)(((UINT_PTR)pItem - (UINT_PTR)_pData) / sizeof(T));
}
template <typename T> int DynamicArray<T>::GetIndexOf(T tItem)
{
for (UINT i = 0; i < _uSize; i++)
{
if (_pData[i] == tItem)
return i;
}
return -1;
}
template <typename T> UINT DynamicArray<T>::GetSize()
{
return _uSize;
}
template <typename T> void DynamicArray<T>::Remove(UINT uIndex)
{
DUIAssert(!_fImmutable, "Only read operations allowed on immutable DynamicArray");
DUIAssert(uIndex < _uSize, "DynamicArray index out of bounds");
// Shift memory
MoveMemory(_pData + uIndex, _pData + (uIndex + 1), (_uSize - uIndex - 1) * sizeof(T));
_uSize--;
}
template <typename T> void DynamicArray<T>::Reset()
{
DUIAssert(!_fImmutable, "Only read operations allowed on immutable DynamicArray");
_uSize = 0;
_fWasMoved = false;
fLock = false;
}
template <typename T> bool DynamicArray<T>::WasMoved()
{
return _fWasMoved;
}
template <typename T> HRESULT DynamicArray<T>::Clone(OUT DynamicArray<T>** ppClone) // New instance returned
{
// Validate parameters
DUIAssert(ppClone, "Invalid parameter: ppClone == NULL");
*ppClone = NULL;
DynamicArray<T>* pda = HNew< DynamicArray<T> >();
if (!pda)
return E_OUTOFMEMORY;
pda->_uSize = _uSize;
pda->_uCapacity = _uCapacity;
pda->_fZeroData = _fZeroData;
pda->_fWasMoved = _fWasMoved;
pda->_fImmutable = false;
pda->_pData = NULL;
if (_pData)
{
pda->_pData = (T*)HAlloc(sizeof(T) * _uCapacity);
if (!pda->_pData)
{
pda->Destroy();
return E_OUTOFMEMORY;
}
CopyMemory(pda->_pData, _pData, sizeof(T) * _uSize);
}
*ppClone = pda;
return S_OK;
}
template <typename T> bool DynamicArray<T>::IsEqual(DynamicArray<T>* pda)
{
if (!pda)
return false;
if (_uSize != pda->_uSize)
return false;
DUIAssert(!((_pData && !pda->_pData) || (!_pData && pda->_pData)), "Invalid comparison");
if (_pData && memcmp(_pData, pda->_pData, sizeof(T) * _uSize) != 0)
return false;
return true;
}
template <typename T> void DynamicArray<T>::Sort(QSORTCMP fpCmp)
{
if (_uSize)
{
qsort(_pData, _uSize, sizeof(T), fpCmp);
}
}
template <typename T> void DynamicArray<T>::MakeImmutable()
{
#if DBG
_fImmutable = true;
#endif
}
template <typename T> void DynamicArray<T>::MakeWritable()
{
#if DBG
_fImmutable = false;
#endif
}
} // namespace DirectUI
#endif // DUI_BASE_DYNAMICARRAY_H_INCLUDED