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android / platform / external / pytorch / 0d3421ac01 / . / torch / csrc / generic / serialization.cpp
blob: d77a814a6555242eca701a8d6833c206d555337d [file] [log] [blame]
#ifndef TH_GENERIC_FILE
#define TH_GENERIC_FILE "generic/serialization.cpp"
#else
#define SYSCHECK(call) { ssize_t __result = call; if (__result < 0) throw std::system_error(__result, std::system_category()); }
void THPTensor_(writeMetadataRaw)(THTensor *self, int fd)
{
SYSCHECK(write(fd, &self->nDimension, sizeof(long)));
SYSCHECK(write(fd, self->size, sizeof(long) * self->nDimension));
SYSCHECK(write(fd, self->stride, sizeof(long) * self->nDimension));
SYSCHECK(write(fd, &self->storageOffset, sizeof(long)));
}
THTensor * THPTensor_(newWithMetadataFileRaw)(int fd, THStorage *storage)
{
THTensorPtr tensor(THTensor_(new)(LIBRARY_STATE_NOARGS));
SYSCHECK(read(fd, &tensor->nDimension, sizeof(long)));
tensor->size = (long*)THAlloc(tensor->nDimension * sizeof(long));
tensor->stride = (long*)THAlloc(tensor->nDimension * sizeof(long));
SYSCHECK(read(fd, tensor->size, sizeof(long) * tensor->nDimension));
SYSCHECK(read(fd, tensor->stride, sizeof(long) * tensor->nDimension));
SYSCHECK(read(fd, &tensor->storageOffset, sizeof(long)));
THStorage_(retain)(LIBRARY_STATE storage);
tensor->storage = storage;
return tensor.release();
}
void THPStorage_(writeFileRaw)(THStorage *self, int fd)
{
real *data;
int64_t size = self->size;
#ifndef THC_GENERIC_FILE
data = self->data;
#else
std::unique_ptr<char[]> cpu_data(new char[size * sizeof(real)]);
data = (real*)cpu_data.get();
THCudaCheck(cudaMemcpy(data, self->data, size * sizeof(real), cudaMemcpyDeviceToHost));
#endif
ssize_t result = write(fd, &size, sizeof(int64_t));
if (result != sizeof(int64_t))
throw std::system_error(result, std::system_category());
// fast track for bytes and little endian
if (sizeof(real) == 1 || THP_nativeByteOrder() == THPByteOrder::THP_LITTLE_ENDIAN) {
char *bytes = (char *) data;
int64_t remaining = sizeof(real) * size;
while (remaining > 0) {
// we write and read in 1GB blocks to avoid bugs on some OSes
ssize_t result = write(fd, bytes, THMin(remaining, 1073741824));
if (result < 0)
throw std::system_error(result, std::system_category());
bytes += result;
remaining -= result;
}
if (remaining != 0)
throw std::system_error(result, std::system_category());
} else {
int64_t buffer_size = std::min(size, (int64_t)5000);
std::unique_ptr<uint8_t[]> le_buffer(new uint8_t[buffer_size * sizeof(real)]);
for (int64_t i = 0; i < size; i += buffer_size) {
size_t to_convert = std::min(size - i, buffer_size);
if (sizeof(real) == 2) {
THP_encodeInt16Buffer((uint8_t*)le_buffer.get(),
(const int16_t*)data + i,
THPByteOrder::THP_LITTLE_ENDIAN,
to_convert);
} else if (sizeof(real) == 4) {
THP_encodeInt32Buffer((uint8_t*)le_buffer.get(),
(const int32_t*)data + i,
THPByteOrder::THP_LITTLE_ENDIAN,
to_convert);
} else if (sizeof(real) == 8) {
THP_encodeInt64Buffer((uint8_t*)le_buffer.get(),
(const int64_t*)data + i,
THPByteOrder::THP_LITTLE_ENDIAN,
to_convert);
}
SYSCHECK(write(fd, le_buffer.get(), to_convert * sizeof(real)));
}
}
}
THStorage * THPStorage_(readFileRaw)(int fd, THStorage *_storage)
{
real *data;
int64_t size;
ssize_t result = read(fd, &size, sizeof(int64_t));
if (result == 0)
throw std::runtime_error("unexpected EOF. The file might be corrupted.");
if (result != sizeof(int64_t))
throw std::system_error(result, std::system_category());
THStoragePtr storage;
if (_storage == nullptr) {
storage = THStorage_(newWithSize)(LIBRARY_STATE size);
} else {
THPUtils_assert(_storage->size == size,
"storage has wrong size: expected %ld got %ld",
size, _storage->size);
storage = _storage;
}
#ifndef THC_GENERIC_FILE
data = storage->data;
#else
std::unique_ptr<char[]> cpu_data(new char[size * sizeof(real)]);
data = (real*)cpu_data.get();
#endif
// fast track for bytes and little endian
if (sizeof(real) == 1 || THP_nativeByteOrder() == THPByteOrder::THP_LITTLE_ENDIAN) {
char *bytes = (char *) data;
int64_t remaining = sizeof(real) * storage->size;
while (remaining > 0) {
// we write and read in 1GB blocks to avoid bugs on some OSes
ssize_t result = read(fd, bytes, THMin(remaining, 1073741824));
if (result == 0) // 0 means EOF, which is also an error
throw std::runtime_error("unexpected EOF. The file might be corrupted.");
if (result < 0)
throw std::system_error(result, std::system_category());
bytes += result;
remaining -= result;
}
if (remaining != 0)
throw std::system_error(result, std::system_category());
} else {
int64_t buffer_size = std::min(size, (int64_t)5000);
std::unique_ptr<uint8_t[]> le_buffer(new uint8_t[buffer_size * sizeof(real)]);
for (int64_t i = 0; i < size; i += buffer_size) {
size_t to_convert = std::min(size - i, buffer_size);
SYSCHECK(read(fd, le_buffer.get(), sizeof(real) * to_convert));
if (sizeof(real) == 2) {
THP_decodeInt16Buffer((int16_t*)data + i,
le_buffer.get(),
THPByteOrder::THP_LITTLE_ENDIAN,
to_convert);
} else if (sizeof(real) == 4) {
THP_decodeInt32Buffer((int32_t*)data + i,
le_buffer.get(),
THPByteOrder::THP_LITTLE_ENDIAN,
to_convert);
} else if (sizeof(real) == 8) {
THP_decodeInt64Buffer((int64_t*)data + i,
le_buffer.get(),
THPByteOrder::THP_LITTLE_ENDIAN,
to_convert);
}
}
}
#ifdef THC_GENERIC_FILE
THCudaCheck(cudaMemcpy(storage->data, data, size * sizeof(real), cudaMemcpyHostToDevice));
#endif
return storage.release();
}
#undef SYSCHECK
#endif