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#include "slang-stream.h"
#ifdef _WIN32
#include <share.h>
#endif
#include "slang-io.h"
namespace Slang
{
// !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! FileStream !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
FileStream::FileStream(const String& fileName, FileMode fileMode)
{
const FileAccess access = (fileMode == FileMode::Open) ? FileAccess::Read : FileAccess::Write;
_init(fileName, fileMode, access, FileShare::None);
}
FileStream::FileStream(const String& fileName, FileMode fileMode, FileAccess access, FileShare share)
{
_init(fileName, fileMode, access, share);
}
void FileStream::_init(const String& fileName, FileMode fileMode, FileAccess access, FileShare share)
{
if (access == FileAccess::None)
{
throw ArgumentException("FileAccess::None not valid to create a FileStream.");
}
// Default to no access, until stream is fully constructed
m_fileAccess = FileAccess::None;
const char* mode = "rt";
switch (fileMode)
{
case FileMode::Create:
if (access == FileAccess::Read)
throw ArgumentException("Read-only access is incompatible with Create mode.");
else if (access == FileAccess::ReadWrite)
{
mode = "w+b";
}
else
{
mode = "wb";
}
break;
case FileMode::Open:
if (access == FileAccess::Read)
{
mode = "rb";
}
else if (access == FileAccess::ReadWrite)
{
mode = "r+b";
}
else
{
mode = "wb";
}
break;
case FileMode::CreateNew:
if (File::exists(fileName))
{
throw IOException("Failed opening '" + fileName + "', file already exists.");
}
if (access == FileAccess::Read)
throw ArgumentException("Read-only access is incompatible with Create mode.");
else if (access == FileAccess::ReadWrite)
{
mode = "w+b";
}
else
{
mode = "wb";
}
break;
case FileMode::Append:
if (access == FileAccess::Read)
throw ArgumentException("Read-only access is incompatible with Append mode.");
else if (access == FileAccess::ReadWrite)
{
mode = "a+b";
}
else
{
mode = "ab";
}
break;
default:
break;
}
#ifdef _WIN32
// NOTE! This works because we know all the characters in the mode
// are encoded directly as the same value in a wchar_t.
//
// Work out the length *including* terminating 0
const Index modeLength = Index(::strlen(mode)) + 1;
wchar_t wideMode[8];
SLANG_ASSERT(modeLength <= SLANG_COUNT_OF(wideMode));
// Copy to wchar_t
for (Index i = 0; i < modeLength ; ++i)
{
wideMode[i] = wchar_t(mode[i]);
}
int shFlag = _SH_DENYRW;
switch (share)
{
case FileShare::None:
shFlag = _SH_DENYRW;
break;
case FileShare::ReadOnly:
shFlag = _SH_DENYWR;
break;
case FileShare::WriteOnly:
shFlag = _SH_DENYRD;
break;
case FileShare::ReadWrite:
shFlag = _SH_DENYNO;
break;
default:
throw ArgumentException("Invalid file share mode.");
break;
}
if (share == FileShare::None)
#pragma warning(suppress:4996)
m_handle = _wfopen(fileName.toWString(), wideMode);
else
m_handle = _wfsopen(fileName.toWString(), wideMode, shFlag);
#else
m_handle = fopen(fileName.getBuffer(), mode);
#endif
if (!m_handle)
{
throw IOException("Cannot open file '" + fileName + "'");
}
// Just set the access specified
m_fileAccess = access;
}
FileStream::~FileStream()
{
close();
}
Int64 FileStream::getPosition()
{
#if defined(_WIN32) || defined(__CYGWIN__)
fpos_t pos;
fgetpos(m_handle, &pos);
return pos;
#elif defined(__APPLE__)
return ftell(m_handle);
#else
fpos64_t pos;
fgetpos64(m_handle, &pos);
return *(Int64*)(&pos);
#endif
}
void FileStream::seek(SeekOrigin seekOrigin, Int64 offset)
{
int fseekOrigin;
switch (seekOrigin)
{
case SeekOrigin::Start:
fseekOrigin = SEEK_SET;
break;
case SeekOrigin::End:
fseekOrigin = SEEK_END;
break;
case SeekOrigin::Current:
fseekOrigin = SEEK_CUR;
break;
default:
throw NotSupportedException("Unsupported seek origin.");
break;
}
// If endReached is intended to be like feof - then doing a seek will reset it
m_endReached = false;
#ifdef _WIN32
int rs = _fseeki64(m_handle, offset, fseekOrigin);
#else
int rs = fseek(m_handle, (long int)offset, fseekOrigin);
#endif
if (rs != 0)
{
throw IOException("FileStream seek failed.");
}
}
size_t FileStream::read(void* buffer, size_t length)
{
auto bytes = fread_s(buffer, length, 1, length, m_handle);
if (bytes == 0 && length > 0)
{
if (!feof(m_handle))
throw IOException("FileStream read failed.");
else if (m_endReached)
throw EndOfStreamException("End of file is reached.");
m_endReached = true;
}
return bytes;
}
size_t FileStream::write(const void* buffer, size_t length)
{
auto bytes = fwrite(buffer, 1, length, m_handle);
if (bytes < length)
{
throw IOException("FileStream write failed.");
}
return bytes;
}
bool FileStream::canRead()
{
return ((int)m_fileAccess & (int)FileAccess::Read) != 0;
}
bool FileStream::canWrite()
{
return ((int)m_fileAccess & (int)FileAccess::Write) != 0;
}
void FileStream::close()
{
if (m_handle)
{
fclose(m_handle);
m_handle = 0;
// If closed, can neither read or write
m_fileAccess = FileAccess::None;
}
}
bool FileStream::isEnd()
{
return m_endReached;
}
// !!!!!!!!!!!!!!!!!!!!!!!!!!!!!! MemoryStreamBase !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
void MemoryStreamBase::seek(SeekOrigin origin, Int64 offset)
{
Int64 pos = 0;
switch (origin)
{
case SeekOrigin::Start:
pos = offset;
break;
case SeekOrigin::End:
pos = Int64(m_contentsSize) + offset;
break;
case SeekOrigin::Current:
pos = Int64(m_position) + offset;
break;
default:
throw NotSupportedException("Unsupported seek origin.");
break;
}
m_atEnd = false;
// Clamp to the valid range
pos = (pos < 0) ? 0 : pos;
pos = (pos > Int64(m_contentsSize)) ? Int64(m_contentsSize) : pos;
m_position = ptrdiff_t(pos);
}
size_t MemoryStreamBase::read(void* buffer, size_t length)
{
if (!canRead())
{
throw IOException("Cannot read this stream.");
}
const size_t maxRead = size_t(m_contentsSize - m_position);
if (maxRead == 0 && length > 0)
{
m_atEnd = true;
throw EndOfStreamException("End of file is reached.");
}
length = length > maxRead ? maxRead : length;
::memcpy(buffer, m_contents + m_position, length);
m_position += ptrdiff_t(length);
return maxRead;
}
// !!!!!!!!!!!!!!!!!!!!!!!!!!!!! OwnedMemoryStream !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
size_t OwnedMemoryStream::write(const void * buffer, size_t length)
{
if (!canWrite())
{
throw IOException("Cannot write this stream.");
}
if (m_position == m_ownedContents.getCount())
{
m_ownedContents.addRange((const uint8_t*)buffer, Index(length));
}
else
{
m_ownedContents.insertRange(m_position, (const uint8_t*)buffer, Index(length));
}
m_contents = m_ownedContents.getBuffer();
m_contentsSize = ptrdiff_t(m_ownedContents.getCount());
m_atEnd = false;
m_position += ptrdiff_t(length);
return length;
}
} // namespace Slang
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