blob: f44b6449789a70d97d012b507cf724d162211519 [file] [log] [blame]
/*
* Copyright (c) 2011 The WebRTC project authors. All Rights Reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
// When the platform supports STL, the functions are implemented using a
// templated spreadsort algorithm (http://sourceforge.net/projects/spreadsort/),
// part of the Boost C++ library collection. Otherwise, the C standard library's
// qsort() will be used.
#include "sort.h"
#include <cassert>
#include <cstring> // memcpy
#include <new> // nothrow new
#ifdef NO_STL
#include <cstdlib> // qsort
#else
#include <algorithm> // std::sort
#include <vector>
#include "spreadsort.hpp" // TODO (ajm) upgrade to spreadsortv2.
#endif
#ifdef NO_STL
#define COMPARE_DEREFERENCED(XT, YT) \
do \
{ \
if ((XT) > (YT)) \
{ \
return 1; \
} \
else if ((XT) < (YT)) \
{ \
return -1; \
} \
\
return 0; \
} \
while(0)
#define COMPARE_FOR_QSORT(X, Y, TYPE) \
do \
{ \
TYPE xT = static_cast<TYPE>(*static_cast<const TYPE*>(X)); \
TYPE yT = static_cast<TYPE>(*static_cast<const TYPE*>(Y)); \
COMPARE_DEREFERENCED(xT, yT); \
} \
while(0)
#define COMPARE_KEY_FOR_QSORT(SORT_KEY_X, SORT_KEY_Y, TYPE) \
do \
{ \
TYPE xT = static_cast<TYPE>(*static_cast<TYPE*> \
(static_cast<const SortKey*>(SORT_KEY_X)->key)); \
TYPE yT = static_cast<TYPE>(*static_cast<TYPE*> \
(static_cast<const SortKey*>(SORT_KEY_Y)->key)); \
COMPARE_DEREFERENCED(xT, yT); \
} \
while(0)
#define KEY_QSORT(SORT_KEY, KEY, NUM_OF_ELEMENTS, KEY_TYPE, COMPARE_FUNC) \
do \
{ \
KEY_TYPE* keyT = (KEY_TYPE*)(key); \
for (WebRtc_UWord32 i = 0; i < (NUM_OF_ELEMENTS); i++) \
{ \
ptrSortKey[i].key = &keyT[i]; \
ptrSortKey[i].index = i; \
} \
\
qsort((SORT_KEY), (NUM_OF_ELEMENTS), sizeof(SortKey), (COMPARE_FUNC));\
} \
while(0)
#endif
namespace webrtc
{
#ifdef NO_STL
struct SortKey
{
void* key;
WebRtc_UWord32 index;
};
#else
template<typename KeyType>
struct SortKey
{
KeyType key;
WebRtc_UWord32 index;
};
#endif
namespace // Unnamed namespace provides internal linkage.
{
#ifdef NO_STL
int CompareWord8(const void* x, const void* y)
{
COMPARE_FOR_QSORT(x, y, WebRtc_Word8);
}
int CompareUWord8(const void* x, const void* y)
{
COMPARE_FOR_QSORT(x, y, WebRtc_UWord8);
}
int CompareWord16(const void* x, const void* y)
{
COMPARE_FOR_QSORT(x, y, WebRtc_Word16);
}
int CompareUWord16(const void* x, const void* y)
{
COMPARE_FOR_QSORT(x, y, WebRtc_UWord16);
}
int CompareWord32(const void* x, const void* y)
{
COMPARE_FOR_QSORT(x, y, WebRtc_Word32);
}
int CompareUWord32(const void* x, const void* y)
{
COMPARE_FOR_QSORT(x, y, WebRtc_UWord32);
}
int CompareWord64(const void* x, const void* y)
{
COMPARE_FOR_QSORT(x, y, WebRtc_Word64);
}
int CompareUWord64(const void* x, const void* y)
{
COMPARE_FOR_QSORT(x, y, WebRtc_UWord64);
}
int CompareFloat32(const void* x, const void* y)
{
COMPARE_FOR_QSORT(x, y, float);
}
int CompareFloat64(const void* x, const void* y)
{
COMPARE_FOR_QSORT(x, y, double);
}
int CompareKeyWord8(const void* sortKeyX, const void* sortKeyY)
{
COMPARE_KEY_FOR_QSORT(sortKeyX, sortKeyY, WebRtc_Word8);
}
int CompareKeyUWord8(const void* sortKeyX, const void* sortKeyY)
{
COMPARE_KEY_FOR_QSORT(sortKeyX, sortKeyY, WebRtc_UWord8);
}
int CompareKeyWord16(const void* sortKeyX, const void* sortKeyY)
{
COMPARE_KEY_FOR_QSORT(sortKeyX, sortKeyY, WebRtc_Word16);
}
int CompareKeyUWord16(const void* sortKeyX, const void* sortKeyY)
{
COMPARE_KEY_FOR_QSORT(sortKeyX, sortKeyY, WebRtc_UWord16);
}
int CompareKeyWord32(const void* sortKeyX, const void* sortKeyY)
{
COMPARE_KEY_FOR_QSORT(sortKeyX, sortKeyY, WebRtc_Word32);
}
int CompareKeyUWord32(const void* sortKeyX, const void* sortKeyY)
{
COMPARE_KEY_FOR_QSORT(sortKeyX, sortKeyY, WebRtc_UWord32);
}
int CompareKeyWord64(const void* sortKeyX, const void* sortKeyY)
{
COMPARE_KEY_FOR_QSORT(sortKeyX, sortKeyY, WebRtc_Word64);
}
int CompareKeyUWord64(const void* sortKeyX, const void* sortKeyY)
{
COMPARE_KEY_FOR_QSORT(sortKeyX, sortKeyY, WebRtc_UWord64);
}
int CompareKeyFloat32(const void* sortKeyX, const void* sortKeyY)
{
COMPARE_KEY_FOR_QSORT(sortKeyX, sortKeyY, float);
}
int CompareKeyFloat64(const void* sortKeyX, const void* sortKeyY)
{
COMPARE_KEY_FOR_QSORT(sortKeyX, sortKeyY, double);
}
#else
template <typename KeyType>
struct KeyLessThan
{
bool operator()(const SortKey<KeyType>& sortKeyX,
const SortKey<KeyType>& sortKeyY) const
{
return sortKeyX.key < sortKeyY.key;
}
};
template <typename KeyType>
struct KeyRightShift
{
KeyType operator()(const SortKey<KeyType>& sortKey,
const unsigned offset) const
{
return sortKey.key >> offset;
}
};
template <typename DataType>
inline void IntegerSort(void* data, WebRtc_UWord32 numOfElements)
{
DataType* dataT = static_cast<DataType*>(data);
boost::integer_sort(dataT, dataT + numOfElements);
}
template <typename DataType, typename IntegerType>
inline void FloatSort(void* data, WebRtc_UWord32 numOfElements)
{
DataType* dataT = static_cast<DataType*>(data);
IntegerType cVal = 0;
boost::float_sort_cast(dataT, dataT + numOfElements, cVal);
}
template <typename DataType>
inline void StdSort(void* data, WebRtc_UWord32 numOfElements)
{
DataType* dataT = static_cast<DataType*>(data);
std::sort(dataT, dataT + numOfElements);
}
template<typename KeyType>
inline WebRtc_Word32 SetupKeySort(void* key,
SortKey<KeyType>*& ptrSortKey,
WebRtc_UWord32 numOfElements)
{
ptrSortKey = new(std::nothrow) SortKey<KeyType>[numOfElements];
if (ptrSortKey == NULL)
{
return -1;
}
KeyType* keyT = static_cast<KeyType*>(key);
for (WebRtc_UWord32 i = 0; i < numOfElements; i++)
{
ptrSortKey[i].key = keyT[i];
ptrSortKey[i].index = i;
}
return 0;
}
template<typename KeyType>
inline WebRtc_Word32 TeardownKeySort(void* data,
SortKey<KeyType>* ptrSortKey,
WebRtc_UWord32 numOfElements, WebRtc_UWord32 sizeOfElement)
{
WebRtc_UWord8* ptrData = static_cast<WebRtc_UWord8*>(data);
WebRtc_UWord8* ptrDataSorted = new(std::nothrow) WebRtc_UWord8
[numOfElements * sizeOfElement];
if (ptrDataSorted == NULL)
{
return -1;
}
for (WebRtc_UWord32 i = 0; i < numOfElements; i++)
{
memcpy(ptrDataSorted + i * sizeOfElement, ptrData +
ptrSortKey[i].index * sizeOfElement, sizeOfElement);
}
memcpy(ptrData, ptrDataSorted, numOfElements * sizeOfElement);
delete[] ptrSortKey;
delete[] ptrDataSorted;
return 0;
}
template<typename KeyType>
inline WebRtc_Word32 IntegerKeySort(void* data, void* key,
WebRtc_UWord32 numOfElements,
WebRtc_UWord32 sizeOfElement)
{
SortKey<KeyType>* ptrSortKey;
if (SetupKeySort<KeyType>(key, ptrSortKey, numOfElements) != 0)
{
return -1;
}
boost::integer_sort(ptrSortKey, ptrSortKey + numOfElements,
KeyRightShift<KeyType>(), KeyLessThan<KeyType>());
if (TeardownKeySort<KeyType>(data, ptrSortKey, numOfElements,
sizeOfElement) != 0)
{
return -1;
}
return 0;
}
template<typename KeyType>
inline WebRtc_Word32 StdKeySort(void* data, void* key,
WebRtc_UWord32 numOfElements,
WebRtc_UWord32 sizeOfElement)
{
SortKey<KeyType>* ptrSortKey;
if (SetupKeySort<KeyType>(key, ptrSortKey, numOfElements) != 0)
{
return -1;
}
std::sort(ptrSortKey, ptrSortKey + numOfElements,
KeyLessThan<KeyType>());
if (TeardownKeySort<KeyType>(data, ptrSortKey, numOfElements,
sizeOfElement) != 0)
{
return -1;
}
return 0;
}
#endif
}
WebRtc_Word32 Sort(void* data, WebRtc_UWord32 numOfElements, Type type)
{
if (data == NULL)
{
return -1;
}
#ifdef NO_STL
switch (type)
{
case TYPE_Word8:
qsort(data, numOfElements, sizeof(WebRtc_Word8), CompareWord8);
break;
case TYPE_UWord8:
qsort(data, numOfElements, sizeof(WebRtc_UWord8), CompareUWord8);
break;
case TYPE_Word16:
qsort(data, numOfElements, sizeof(WebRtc_Word16), CompareWord16);
break;
case TYPE_UWord16:
qsort(data, numOfElements, sizeof(WebRtc_UWord16), CompareUWord16);
break;
case TYPE_Word32:
qsort(data, numOfElements, sizeof(WebRtc_Word32), CompareWord32);
break;
case TYPE_UWord32:
qsort(data, numOfElements, sizeof(WebRtc_UWord32), CompareUWord32);
break;
case TYPE_Word64:
qsort(data, numOfElements, sizeof(WebRtc_Word64), CompareWord64);
break;
case TYPE_UWord64:
qsort(data, numOfElements, sizeof(WebRtc_UWord64), CompareUWord64);
break;
case TYPE_Float32:
qsort(data, numOfElements, sizeof(float), CompareFloat32);
break;
case TYPE_Float64:
qsort(data, numOfElements, sizeof(double), CompareFloat64);
break;
default:
return -1;
}
#else
// Fall back to std::sort for 64-bit types and floats due to compiler
// warnings and VS 2003 build crashes respectively with spreadsort.
switch (type)
{
case TYPE_Word8:
IntegerSort<WebRtc_Word8>(data, numOfElements);
break;
case TYPE_UWord8:
IntegerSort<WebRtc_UWord8>(data, numOfElements);
break;
case TYPE_Word16:
IntegerSort<WebRtc_Word16>(data, numOfElements);
break;
case TYPE_UWord16:
IntegerSort<WebRtc_UWord16>(data, numOfElements);
break;
case TYPE_Word32:
IntegerSort<WebRtc_Word32>(data, numOfElements);
break;
case TYPE_UWord32:
IntegerSort<WebRtc_UWord32>(data, numOfElements);
break;
case TYPE_Word64:
StdSort<WebRtc_Word64>(data, numOfElements);
break;
case TYPE_UWord64:
StdSort<WebRtc_UWord64>(data, numOfElements);
break;
case TYPE_Float32:
StdSort<float>(data, numOfElements);
break;
case TYPE_Float64:
StdSort<double>(data, numOfElements);
break;
default:
return -1;
}
#endif
return 0;
}
WebRtc_Word32 KeySort(void* data, void* key, WebRtc_UWord32 numOfElements,
WebRtc_UWord32 sizeOfElement, Type keyType)
{
if (data == NULL)
{
return -1;
}
if (key == NULL)
{
return -1;
}
if ((WebRtc_UWord64)numOfElements * sizeOfElement > 0xffffffff)
{
return -1;
}
#ifdef NO_STL
SortKey* ptrSortKey = new(std::nothrow) SortKey[numOfElements];
if (ptrSortKey == NULL)
{
return -1;
}
switch (keyType)
{
case TYPE_Word8:
KEY_QSORT(ptrSortKey, key, numOfElements, WebRtc_Word8,
CompareKeyWord8);
break;
case TYPE_UWord8:
KEY_QSORT(ptrSortKey, key, numOfElements, WebRtc_UWord8,
CompareKeyUWord8);
break;
case TYPE_Word16:
KEY_QSORT(ptrSortKey, key, numOfElements, WebRtc_Word16,
CompareKeyWord16);
break;
case TYPE_UWord16:
KEY_QSORT(ptrSortKey, key, numOfElements, WebRtc_UWord16,
CompareKeyUWord16);
break;
case TYPE_Word32:
KEY_QSORT(ptrSortKey, key, numOfElements, WebRtc_Word32,
CompareKeyWord32);
break;
case TYPE_UWord32:
KEY_QSORT(ptrSortKey, key, numOfElements, WebRtc_UWord32,
CompareKeyUWord32);
break;
case TYPE_Word64:
KEY_QSORT(ptrSortKey, key, numOfElements, WebRtc_Word64,
CompareKeyWord64);
break;
case TYPE_UWord64:
KEY_QSORT(ptrSortKey, key, numOfElements, WebRtc_UWord64,
CompareKeyUWord64);
break;
case TYPE_Float32:
KEY_QSORT(ptrSortKey, key, numOfElements, float,
CompareKeyFloat32);
break;
case TYPE_Float64:
KEY_QSORT(ptrSortKey, key, numOfElements, double,
CompareKeyFloat64);
break;
default:
return -1;
}
// Shuffle into sorted position based on index map.
WebRtc_UWord8* ptrData = static_cast<WebRtc_UWord8*>(data);
WebRtc_UWord8* ptrDataSorted = new(std::nothrow) WebRtc_UWord8
[numOfElements * sizeOfElement];
if (ptrDataSorted == NULL)
{
return -1;
}
for (WebRtc_UWord32 i = 0; i < numOfElements; i++)
{
memcpy(ptrDataSorted + i * sizeOfElement, ptrData +
ptrSortKey[i].index * sizeOfElement, sizeOfElement);
}
memcpy(ptrData, ptrDataSorted, numOfElements * sizeOfElement);
delete[] ptrSortKey;
delete[] ptrDataSorted;
return 0;
#else
// Fall back to std::sort for 64-bit types and floats due to compiler
// warnings and errors respectively with spreadsort.
switch (keyType)
{
case TYPE_Word8:
return IntegerKeySort<WebRtc_Word8>(data, key, numOfElements,
sizeOfElement);
case TYPE_UWord8:
return IntegerKeySort<WebRtc_UWord8>(data, key, numOfElements,
sizeOfElement);
case TYPE_Word16:
return IntegerKeySort<WebRtc_Word16>(data, key, numOfElements,
sizeOfElement);
case TYPE_UWord16:
return IntegerKeySort<WebRtc_UWord16>(data, key, numOfElements,
sizeOfElement);
case TYPE_Word32:
return IntegerKeySort<WebRtc_Word32>(data, key, numOfElements,
sizeOfElement);
case TYPE_UWord32:
return IntegerKeySort<WebRtc_UWord32>(data, key, numOfElements,
sizeOfElement);
case TYPE_Word64:
return StdKeySort<WebRtc_Word64>(data, key, numOfElements,
sizeOfElement);
case TYPE_UWord64:
return StdKeySort<WebRtc_UWord64>(data, key, numOfElements,
sizeOfElement);
case TYPE_Float32:
return StdKeySort<float>(data, key, numOfElements, sizeOfElement);
case TYPE_Float64:
return StdKeySort<double>(data, key, numOfElements, sizeOfElement);
default:
return -1;
}
#endif
}
} // namespace webrtc