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/*=========================================================================
Program: Visualization Toolkit
Module: vtkByteSwap.cxx
Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
All rights reserved.
See Copyright.txt or http://www.kitware.com/Copyright.htm for details.
This software is distributed WITHOUT ANY WARRANTY; without even
the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
PURPOSE. See the above copyright notice for more information.
=========================================================================*/
#include "vtkByteSwap.h"
#include <memory.h>
#include "vtkObjectFactory.h"
vtkStandardNewMacro(vtkByteSwap);
//----------------------------------------------------------------------------
vtkByteSwap::vtkByteSwap()
{
}
//----------------------------------------------------------------------------
vtkByteSwap::~vtkByteSwap()
{
}
//----------------------------------------------------------------------------
// Define swap functions for each type size.
template <size_t s> struct vtkByteSwapper;
VTK_TEMPLATE_SPECIALIZE struct vtkByteSwapper<1>
{
static inline void Swap(char*) {}
};
VTK_TEMPLATE_SPECIALIZE struct vtkByteSwapper<2>
{
static inline void Swap(char* data)
{
char one_byte;
one_byte = data[0]; data[0] = data[1]; data[1] = one_byte;
}
};
VTK_TEMPLATE_SPECIALIZE struct vtkByteSwapper<4>
{
static inline void Swap(char* data)
{
char one_byte;
one_byte = data[0]; data[0] = data[3]; data[3] = one_byte;
one_byte = data[1]; data[1] = data[2]; data[2] = one_byte;
}
};
VTK_TEMPLATE_SPECIALIZE struct vtkByteSwapper<8>
{
static inline void Swap(char* data)
{
char one_byte;
one_byte = data[0]; data[0] = data[7]; data[7] = one_byte;
one_byte = data[1]; data[1] = data[6]; data[6] = one_byte;
one_byte = data[2]; data[2] = data[5]; data[5] = one_byte;
one_byte = data[3]; data[3] = data[4]; data[4] = one_byte;
}
};
//----------------------------------------------------------------------------
// Define range swap functions.
template <class T> inline void vtkByteSwapRange(T* first, vtkIdType num)
{
// Swap one value at a time.
T* last = first + num;
for(T* p=first; p != last; ++p)
{
vtkByteSwapper<sizeof(T)>::Swap(reinterpret_cast<char*>(p));
}
}
inline bool vtkByteSwapRangeWrite(const char* first, vtkIdType num,
FILE* f, int)
{
// No need to swap segments of 1 byte.
size_t status=fwrite(first, sizeof(char), static_cast<size_t>(num), f);
return status==static_cast<size_t>(num);
}
inline bool vtkByteSwapRangeWrite(const signed char* first, vtkIdType num,
FILE* f, int)
{
// No need to swap segments of 1 byte.
size_t status=fwrite(first, sizeof(signed char),static_cast<size_t>(num),f);
return status==static_cast<size_t>(num);
}
inline bool vtkByteSwapRangeWrite(const unsigned char* first, vtkIdType num,
FILE* f, int)
{
// No need to swap segments of 1 byte.
size_t status=fwrite(first,sizeof(unsigned char),static_cast<size_t>(num),f);
return status==static_cast<size_t>(num);
}
template <class T>
inline bool vtkByteSwapRangeWrite(const T* first, vtkIdType num, FILE* f, long)
{
// Swap and write one value at a time. We do not need to do this in
// blocks because the file stream is already buffered.
const T* last = first + num;
bool result=true;
for(const T* p=first; p != last && result; ++p)
{
// Use a union to avoid breaking C++ aliasing rules.
union { T value; char data[sizeof(T)]; } temp = {*p};
vtkByteSwapper<sizeof(T)>::Swap(temp.data);
size_t status=fwrite(temp.data, sizeof(T), 1, f);
result=status==1;
}
return result;
}
inline void vtkByteSwapRangeWrite(const char* first, vtkIdType num,
ostream* os, int)
{
// No need to swap segments of 1 byte.
os->write(first, num*static_cast<vtkIdType>(sizeof(char)));
}
inline void vtkByteSwapRangeWrite(const signed char* first, vtkIdType num,
ostream* os, int)
{
// No need to swap segments of 1 byte.
os->write(reinterpret_cast<const char*>(first),
num*static_cast<vtkIdType>(sizeof(signed char)));
}
inline void vtkByteSwapRangeWrite(const unsigned char* first, vtkIdType num,
ostream* os, int)
{
// No need to swap segments of 1 byte.
os->write(reinterpret_cast<const char*>(first),
num*static_cast<vtkIdType>(sizeof(unsigned char)));
}
template <class T>
inline void vtkByteSwapRangeWrite(const T* first, vtkIdType num,
ostream* os, long)
{
// Swap and write one value at a time. We do not need to do this in
// blocks because the file stream is already buffered.
const T* last = first + num;
for(const T* p=first; p != last; ++p)
{
// Use a union to avoid breaking C++ aliasing rules.
union { T value; char data[sizeof(T)]; } temp = {*p};
vtkByteSwapper<sizeof(T)>::Swap(temp.data);
os->write(temp.data, sizeof(T));
}
}
//----------------------------------------------------------------------------
// Define swap functions for each endian-ness.
#if defined(VTK_WORDS_BIGENDIAN)
template <class T> inline void vtkByteSwapBE(T*) {}
template <class T> inline void vtkByteSwapBERange(T*, vtkIdType) {}
template <class T>
inline bool vtkByteSwapBERangeWrite(const T* p, vtkIdType num, FILE* f)
{
size_t status=fwrite(p, sizeof(T), static_cast<size_t>(num), f);
return status==static_cast<size_t>(num);
}
template <class T>
inline void vtkByteSwapBERangeWrite(const T* p, vtkIdType num, ostream* os)
{
os->write((char*)p, sizeof(T)*num);
}
template <class T> inline void vtkByteSwapLE(T* p)
{
vtkByteSwapper<sizeof(T)>::Swap(reinterpret_cast<char*>(p));
}
template <class T> inline void vtkByteSwapLERange(T* p, vtkIdType num)
{
vtkByteSwapRange(p, num);
}
template <class T>
inline bool vtkByteSwapLERangeWrite(const T* p, vtkIdType num, FILE* f)
{
return vtkByteSwapRangeWrite(p, num, f, 1);
}
template <class T>
inline void vtkByteSwapLERangeWrite(const T* p, vtkIdType num, ostream* os)
{
vtkByteSwapRangeWrite(p, num, os, 1);
}
#else
template <class T> inline void vtkByteSwapBE(T* p)
{
vtkByteSwapper<sizeof(T)>::Swap(reinterpret_cast<char*>(p));
}
template <class T> inline void vtkByteSwapBERange(T* p, vtkIdType num)
{
vtkByteSwapRange(p, num);
}
template <class T>
inline bool vtkByteSwapBERangeWrite(const T* p, vtkIdType num, FILE* f)
{
return vtkByteSwapRangeWrite(p, num, f, 1);
}
template <class T>
inline void vtkByteSwapBERangeWrite(const T* p, vtkIdType num, ostream* os)
{
vtkByteSwapRangeWrite(p, num, os, 1);
}
template <class T> inline void vtkByteSwapLE(T*) {}
template <class T> inline void vtkByteSwapLERange(T*, vtkIdType) {}
template <class T>
inline bool vtkByteSwapLERangeWrite(const T* p, vtkIdType num, FILE* f)
{
size_t status=fwrite(p, sizeof(T), static_cast<size_t>(num), f);
return status==static_cast<size_t>(num);
}
template <class T>
inline void vtkByteSwapLERangeWrite(const T* p, vtkIdType num, ostream* os)
{
os->write(reinterpret_cast<const char*>(p),
static_cast<vtkIdType>(sizeof(T))*num);
}
#endif
//----------------------------------------------------------------------------
#define VTK_BYTE_SWAP_IMPL(T) \
void vtkByteSwap::SwapLE(T* p) { vtkByteSwapLE(p); } \
void vtkByteSwap::SwapBE(T* p) { vtkByteSwapBE(p); } \
void vtkByteSwap::SwapLERange(T* p, vtkIdType num) \
{ vtkByteSwapLERange(p, num); } \
void vtkByteSwap::SwapBERange(T* p, vtkIdType num) \
{ vtkByteSwapBERange(p, num); } \
bool vtkByteSwap::SwapLERangeWrite(const T* p, vtkIdType num, FILE* file) \
{ return vtkByteSwapLERangeWrite(p, num, file); } \
bool vtkByteSwap::SwapBERangeWrite(const T* p, vtkIdType num, FILE* file) \
{ return vtkByteSwapBERangeWrite(p, num, file); } \
void vtkByteSwap::SwapLERangeWrite(const T* p, vtkIdType num, ostream* os) \
{ vtkByteSwapLERangeWrite(p, num, os); } \
void vtkByteSwap::SwapBERangeWrite(const T* p, vtkIdType num, ostream* os) \
{ vtkByteSwapBERangeWrite(p, num, os); }
VTK_BYTE_SWAP_IMPL(float)
VTK_BYTE_SWAP_IMPL(double)
VTK_BYTE_SWAP_IMPL(char)
VTK_BYTE_SWAP_IMPL(short)
VTK_BYTE_SWAP_IMPL(int)
VTK_BYTE_SWAP_IMPL(long)
VTK_BYTE_SWAP_IMPL(signed char)
VTK_BYTE_SWAP_IMPL(unsigned char)
VTK_BYTE_SWAP_IMPL(unsigned short)
VTK_BYTE_SWAP_IMPL(unsigned int)
VTK_BYTE_SWAP_IMPL(unsigned long)
#if defined(VTK_IMPL_USE_LONG_LONG)
VTK_BYTE_SWAP_IMPL(long long)
VTK_BYTE_SWAP_IMPL(unsigned long long)
#endif
#if defined(VTK_IMPL_USE___INT64)
VTK_BYTE_SWAP_IMPL(__int64)
VTK_BYTE_SWAP_IMPL(unsigned __int64)
#endif
#undef VTK_BYTE_SWAP_IMPL
#if VTK_SIZEOF_SHORT == 2
typedef short vtkByteSwapType2;
#else
# error "..."
#endif
#if VTK_SIZEOF_INT == 4
typedef int vtkByteSwapType4;
#else
# error "..."
#endif
#if VTK_SIZEOF_DOUBLE == 8
typedef double vtkByteSwapType8;
#else
# error "..."
#endif
//----------------------------------------------------------------------------
#define VTK_BYTE_SWAP_SIZE(S) \
void vtkByteSwap::Swap##S##LE(void* p) \
{ vtkByteSwap::SwapLE(static_cast<vtkByteSwapType##S*>(p)); } \
void vtkByteSwap::Swap##S##BE(void* p) \
{ vtkByteSwap::SwapBE(static_cast<vtkByteSwapType##S*>(p)); } \
void vtkByteSwap::Swap##S##LERange(void* p, int n) \
{ vtkByteSwap::SwapLERange(static_cast<vtkByteSwapType##S*>(p), n); } \
void vtkByteSwap::Swap##S##BERange(void* p, int n) \
{ vtkByteSwap::SwapBERange(static_cast<vtkByteSwapType##S*>(p), n); } \
bool vtkByteSwap::SwapWrite##S##LERange(const void* p, int n, FILE* f) \
{ return vtkByteSwap::SwapLERangeWrite(static_cast<const vtkByteSwapType##S*>(p), \
n, f); } \
bool vtkByteSwap::SwapWrite##S##BERange(const void* p, int n, FILE* f) \
{ return vtkByteSwap::SwapBERangeWrite(static_cast<const vtkByteSwapType##S*>(p), \
n, f); } \
void vtkByteSwap::SwapWrite##S##LERange(const void* p, int n, ostream* os) \
{ vtkByteSwap::SwapLERangeWrite(static_cast<const vtkByteSwapType##S*>(p), \
n, os); } \
void vtkByteSwap::SwapWrite##S##BERange(const void* p, int n, ostream* os) \
{ vtkByteSwap::SwapBERangeWrite(static_cast<const vtkByteSwapType##S*>(p), \
n, os); }
VTK_BYTE_SWAP_SIZE(2)
VTK_BYTE_SWAP_SIZE(4)
VTK_BYTE_SWAP_SIZE(8)
#undef VTK_BYTE_SWAP_SIZE
//----------------------------------------------------------------------------
// Swaps the bytes of a buffer. Uses an arbitrary word size, but
// assumes the word size is divisible by two.
void vtkByteSwap::SwapVoidRange(void *buffer, int numWords, int wordSize)
{
unsigned char temp, *out, *buf;
int idx1, idx2, inc, half;
half = wordSize / 2;
inc = wordSize - 1;
buf = static_cast<unsigned char *>(buffer);
for (idx1 = 0; idx1 < numWords; ++idx1)
{
out = buf + inc;
for (idx2 = 0; idx2 < half; ++idx2)
{
temp = *out;
*out = *buf;
*buf = temp;
++buf;
--out;
}
buf += half;
}
}
|
