torch/csrc/StorageMethods.cpp - platform/external/pytorch - Git at Google

 #include <torch/csrc/python_headers.h>
 #ifdef _MSC_VER
 #include <c10/util/win32-headers.h>
 #endif
 #include <structmember.h>

 #include <c10/core/CPUAllocator.h>
 #include <libshm.h>
 #include <torch/csrc/CudaIPCTypes.h>
 #include <torch/csrc/Device.h>
 #include <torch/csrc/DynamicTypes.h>
 #include <torch/csrc/THP.h>
 #include <torch/csrc/autograd/utils/wrap_outputs.h>
 #include <torch/csrc/copy_utils.h>

 #include <c10/util/intrusive_ptr.h>
 #include <fmt/format.h>

 #include <torch/csrc/Storage.h>
 #include <torch/csrc/StorageMethods.h>

 #include <ATen/ATen.h>
 #include <ATen/MapAllocator.h>
 #include <torch/csrc/utils/pycfunction_helpers.h>
 #include <torch/csrc/utils/python_arg_parser.h>
 #include <torch/csrc/utils/python_numbers.h>

 #ifdef USE_CUDA
 #include <ATen/native/cuda/Resize.h>
 #include <cuda_runtime.h>
 #endif

 #include <ATen/native/Resize.h>

 #ifdef _MSC_VER
 #define LSEEK _lseeki64
 #else
 #define LSEEK lseek
 #endif

 static PyObject* THPStorage_nbytes(PyObject* _self, PyObject* noargs) {
   HANDLE_TH_ERRORS
   auto self = (THPStorage*)_self;
   return THPUtils_packUInt64(self->cdata->nbytes());
   END_HANDLE_TH_ERRORS
 }

 static PyObject* THPStorage_dataPtr(PyObject* _self, PyObject* noargs) {
   HANDLE_TH_ERRORS
   auto self = (THPStorage*)_self;
   return PyLong_FromVoidPtr(self->cdata->data<uint8_t>());
   END_HANDLE_TH_ERRORS
 }

 static PyObject* THPStorage_copy_(
     PyObject* self,
     PyObject* args,
     PyObject* kwargs) {
   HANDLE_TH_ERRORS

   at::Storage self_ = torch::createStorage(self);

   static torch::PythonArgParser parser({
       "copy_(Storage src, bool? non_blocking=None)",
   });
   torch::ParsedArgs<2> parsed_args;
   auto r = parser.parse(args, kwargs, parsed_args);

   at::Storage src = r.storage(0);
   bool non_blocking = r.toBoolOptional(1).value_or(false);

   TORCH_CHECK(self_.nbytes() == src.nbytes(), "size does not match");

   storage_copy(self_, src, non_blocking);

   Py_INCREF(self);
   return self;

   END_HANDLE_TH_ERRORS
 }

 static PyObject* THPStorage_isPinned(PyObject* _self, PyObject* noargs) {
   HANDLE_TH_ERRORS
 #if defined(USE_CUDA)
   auto self = (THPStorage*)_self;
   return PyBool_FromLong(
       at::globalContext().isPinnedPtr(self->cdata->data<uint8_t>()));
 #else
   Py_RETURN_FALSE;
 #endif
   END_HANDLE_TH_ERRORS
 }

 static PyObject* THPStorage_elementSize(PyObject* _self, PyObject* noargs) {
   HANDLE_TH_ERRORS
   return THPUtils_packInt64(sizeof(uint8_t));
   END_HANDLE_TH_ERRORS
 }

 static PyObject* THPStorage_new(PyObject* _self, PyObject* noargs) {
   HANDLE_TH_ERRORS
   auto self = (THPStorage*)_self;
   c10::Allocator* allocator = self->cdata->allocator();
   auto new_storage = c10::make_intrusive<at::StorageImpl>(
       c10::StorageImpl::use_byte_size_t(),
       0,
       allocator,
       /*resizable=*/true);

   // NOLINTNEXTLINE(cppcoreguidelines-init-variables)
   return THPStorage_New(std::move(new_storage));
   END_HANDLE_TH_ERRORS
 }

 static PyObject* THPStorage_resize_(PyObject* _self, PyObject* number_arg) {
   HANDLE_TH_ERRORS
   auto self = (THPStorage*)_self;
   THPUtils_assert(
       THPUtils_checkLong(number_arg),
       "resize_ expects an int, "
       "but got %s",
       THPUtils_typename(number_arg));
   int64_t newsize = THPUtils_unpackLong(number_arg);
   c10::DeviceType device_type = self->cdata->device_type();
   if (device_type == at::kCPU) {
     at::native::resize_bytes_cpu(self->cdata, newsize);
 #ifdef USE_CUDA
   } else if (device_type == at::kCUDA) {
     ptrdiff_t size_bytes_i = newsize;
     TORCH_CHECK(
         !c10::overflows<size_t>(size_bytes_i),
         "Requested storage size (",
         size_bytes_i,
         ") cannot be represented as a size_t");
     const auto size_bytes = static_cast<size_t>(size_bytes_i);
     at::native::resize_bytes_cuda(self->cdata, size_bytes);
 #endif
   } else {
     TORCH_CHECK(
         false,
         "UntypedStorage.resize_: got unexpected device type ",
         device_type);
   }
   Py_INCREF(self);
   return (PyObject*)self;
   END_HANDLE_TH_ERRORS
 }

 static PyObject* THPStorage_fill_(PyObject* _self, PyObject* number_arg) {
   HANDLE_TH_ERRORS
   auto self = (THPStorage*)_self;
   THPUtils_assert(
       THPByteUtils_checkReal(number_arg),
       "fill_ expects int, "
       "but got %s",
       THPUtils_typename(number_arg));
   storage_fill(
       at::unsafeStorageFromTH(self->cdata, /*retain=*/true),
       THPByteUtils_unpackReal(number_arg));
   Py_INCREF(self);
   return (PyObject*)self;
   END_HANDLE_TH_ERRORS
 }

 static PyObject* THPStorage_fromBuffer(
     PyObject* _unused,
     PyObject* args,
     PyObject* keywds) {
   HANDLE_TH_ERRORS
   PyObject* obj = nullptr;
   const char* byte_order_str = nullptr;
   Py_ssize_t count = -1, offset = 0;
   PyObject* dtype_obj = nullptr;
   c10::ScalarType scalar_type = at::kByte;
   Py_buffer buffer = {};
   // NOLINTNEXTLINE(cppcoreguidelines-avoid-c-arrays,modernize-avoid-c-arrays,clang-diagnostic-writable-strings)
   static char* kwlist[] = {
       "buffer", "byte_order", "count", "offset", "dtype", nullptr};
   // NOLINTNEXTLINE(cppcoreguidelines-init-variables)
   const char* argtypes;
   argtypes = "O|snnO";

   if (!PyArg_ParseTupleAndKeywords(
           args,
           keywds,
           argtypes,
           kwlist,
           &obj,
           &byte_order_str,
           &count,
           &offset,
           &dtype_obj)) {
     return nullptr;
   }
   TORCH_CHECK(dtype_obj != nullptr, "argument 'dtype' cannot be None");
   TORCH_CHECK(
       THPDtype_Check(dtype_obj),
       "argument 'dtype' must be of type torch.dtype");
   auto dtype = reinterpret_cast<THPDtype*>(dtype_obj);
   scalar_type = dtype->scalar_type;

   TORCH_CHECK(
       (scalar_type == at::kByte) || (scalar_type == at::kChar) ||
           (byte_order_str != nullptr),
       "function missing required argument 'byte_order' (pos 2)");
   size_t element_size = c10::elementSize(scalar_type);

   // NOLINTNEXTLINE(cppcoreguidelines-init-variables)
   torch::utils::THPByteOrder byte_order;
   if (scalar_type != at::kByte && scalar_type != at::kChar) {
     if (strcmp(byte_order_str, "native") == 0) {
       byte_order = torch::utils::THP_nativeByteOrder();
     } else if (strcmp(byte_order_str, "big") == 0) {
       byte_order = torch::utils::THP_BIG_ENDIAN;
     } else if (strcmp(byte_order_str, "little") == 0) {
       byte_order = torch::utils::THP_LITTLE_ENDIAN;
     } else {
       PyErr_Format(
           PyExc_ValueError,
           "invalid byte_order '%s' (expected 'big', 'little', or 'native')",
           byte_order_str);
       return nullptr;
     }
   }

   if (PyObject_GetBuffer(obj, &buffer, PyBUF_SIMPLE) < 0)
     return nullptr;

   if (offset < 0 || offset > buffer.len) {
     PyErr_SetString(
         PyExc_ValueError,
         fmt::format(
             "offset must be non-negative and no greater than buffer length ({}) , but got {}",
             offset,
             buffer.len));
     PyBuffer_Release(&buffer);
     return nullptr;
   }

   // NOLINTNEXTLINE(cppcoreguidelines-init-variables)
   size_t size_bytes;
   if (count < 0) {
     if ((buffer.len - offset) % element_size != 0) {
       PyErr_SetString(
           PyExc_ValueError,
           fmt::format(
               "buffer size ({}) must be a multiple of element size ({})",
               buffer.len,
               element_size));
       PyBuffer_Release(&buffer);
       return nullptr;
     }
     size_bytes = buffer.len - offset;
     count = size_bytes / element_size;
   } else {
     size_bytes = count * element_size;
   }

   if (offset + (count * (Py_ssize_t)element_size) > buffer.len) {
     PyErr_SetString(
         PyExc_ValueError,
         fmt::format(
             "buffer has only {} elements after offset {}, but specified a size of {}",
             buffer.len - offset,
             offset,
             count));
     PyBuffer_Release(&buffer);
     return nullptr;
   }

   uint8_t* src = (uint8_t*)buffer.buf;
   auto storage = c10::make_intrusive<at::StorageImpl>(
       c10::StorageImpl::use_byte_size_t(),
       size_bytes,
       c10::GetDefaultCPUAllocator(),
       /*resizable=*/true);

   if (scalar_type == at::kByte || scalar_type == at::kChar) {
     memcpy(storage->data(), src + offset, count);
   } else if (scalar_type == at::kBool) {
     // Because of ASAN checks, that are failing whenever
     // we are trying to get a value which is not 0 or 1, we have to manually
     // convert original values to boolean ones.
     torch::utils::THP_decodeBoolBuffer(
         storage->data<bool>(), src + offset, byte_order, count);
   } else if (scalar_type == at::kShort) {
     torch::utils::THP_decodeInt16Buffer(
         storage->data<int16_t>(), src + offset, byte_order, count);
   } else if (scalar_type == at::kInt) {
     torch::utils::THP_decodeInt32Buffer(
         storage->data<int32_t>(), src + offset, byte_order, count);
   } else if (scalar_type == at::kLong) {
     torch::utils::THP_decodeInt64Buffer(
         storage->data<int64_t>(), src + offset, byte_order, count);
   } else if (scalar_type == at::kHalf) {
     torch::utils::THP_decodeHalfBuffer(
         storage->data<c10::Half>(), src + offset, byte_order, count);
   } else if (scalar_type == at::kBFloat16) {
     torch::utils::THP_decodeBFloat16Buffer(
         storage->data<c10::BFloat16>(), src + offset, byte_order, count);
   } else if (scalar_type == at::kFloat) {
     torch::utils::THP_decodeFloatBuffer(
         storage->data<float>(), src + offset, byte_order, count);
   } else if (scalar_type == at::kDouble) {
     torch::utils::THP_decodeDoubleBuffer(
         storage->data<double>(), src + offset, byte_order, count);
   } else if (scalar_type == at::kComplexFloat) {
     torch::utils::THP_decodeComplexFloatBuffer(
         storage->data<c10::complex<float>>(), src + offset, byte_order, count);
   } else if (scalar_type == at::kComplexDouble) {
     torch::utils::THP_decodeComplexDoubleBuffer(
         storage->data<c10::complex<double>>(), src + offset, byte_order, count);
   } else {
     TORCH_CHECK(false, "Unknown type: ", scalar_type);
   }

   PyBuffer_Release(&buffer);
   return (PyObject*)THPStorage_New(storage);
   END_HANDLE_TH_ERRORS
 }

 static PyObject* THPStorage_fromFile(
     PyObject* _unused,
     PyObject* args,
     PyObject* keywds) {
   HANDLE_TH_ERRORS
   // NOLINTNEXTLINE(cppcoreguidelines-init-variables)
   const char* filename;
   Py_ssize_t nbytes = 0;
   int shared = 0;
   // NOLINTNEXTLINE(cppcoreguidelines-avoid-c-arrays,modernize-avoid-c-arrays,clang-diagnostic-writable-strings)
   static char* kwlist[] = {"filename", "shared", "nbytes", nullptr};
   if (!PyArg_ParseTupleAndKeywords(
           args, keywds, "s|in", kwlist, &filename, &shared, &nbytes)) {
     return nullptr;
   }
   if (shared)
     shared = at::ALLOCATOR_MAPPED_SHARED;

   size_t actual_nbytes = -1;
   auto storage = c10::make_intrusive<at::StorageImpl>(
       c10::StorageImpl::use_byte_size_t(),
       nbytes,
       at::MapAllocator::makeDataPtr(filename, shared, nbytes, &actual_nbytes),
       /*allocator=*/nullptr,
       /*resizable=*/false);

   if (nbytes <= 0) {
     storage->set_nbytes(actual_nbytes);
   }

   return (PyObject*)THPStorage_New(std::move(storage));
   END_HANDLE_TH_ERRORS
 }

 PyObject* THPStorage_writeFile(PyObject* _self, PyObject* args) {
   HANDLE_TH_ERRORS
   auto self = (THPStorage*)_self;
   PyObject* file = PyTuple_GetItem(args, 0);
   bool is_real_file = PyTuple_GetItem(args, 1) == Py_True;
   bool save_size = PyTuple_GetItem(args, 2) == Py_True;
   PyObject* element_size_obj = PyTuple_GET_ITEM(args, 3);

   THPUtils_assert(
       element_size_obj != Py_None, "_write_file: need to specify element size");
   uint64_t element_size = THPUtils_unpackUInt64(element_size_obj);

   if (!is_real_file) {
     THPStorage_writeFileRaw<PyObject*>(
         self->cdata, file, save_size, element_size);
     Py_RETURN_NONE;
   }

   int fd = PyObject_AsFileDescriptor(file);
   THPUtils_assert(
       fd != -1,
       "_write_file couldn't retrieve a file descriptor "
       "from given object");
   THPStorage_writeFileRaw(self->cdata, fd, save_size, element_size);
   Py_RETURN_NONE;
   END_HANDLE_TH_ERRORS
 }

 PyObject* THPStorage_newWithFile(PyObject* _unused, PyObject* args) {
   HANDLE_TH_ERRORS
   TORCH_CHECK(
       PyTuple_Size(args) == 2, "_new_with_file takes exactly two arguments");
   int fd = PyObject_AsFileDescriptor(PyTuple_GetItem(args, 0));
   THPUtils_assert(
       fd != -1,
       "_new_with_file couldn't retrieve a file "
       "descriptor from given object");
   PyObject* element_size_obj = PyTuple_GET_ITEM(args, 1);
   THPUtils_assert(
       element_size_obj != Py_None,
       "_new_with_file: need to specify element size");
   uint64_t element_size = THPUtils_unpackUInt64(element_size_obj);

   auto storage = THPStorage_readFileRaw<int>(fd, {}, element_size);
   if (!storage.defined())
     return nullptr;
   return THPStorage_New(std::move(storage));
   END_HANDLE_TH_ERRORS
 }

 static PyObject* THPStorage_setFromFile(PyObject* _self, PyObject* args) {
   HANDLE_TH_ERRORS
   auto self = (THPStorage*)_self;
   PyObject* file = PyTuple_GET_ITEM(args, 0);
   PyObject* offset = PyTuple_GET_ITEM(args, 1);
   bool is_real_file = PyTuple_GET_ITEM(args, 2) == Py_True;

   PyObject* element_size_obj = PyTuple_GET_ITEM(args, 3);

   THPUtils_assert(
       element_size_obj != Py_None,
       "_set_from_file: need to specify element size");
   uint64_t element_size = THPUtils_unpackUInt64(element_size_obj);

   if (!is_real_file) {
     // offset can be implemented with a call to the Python object's seek()
     // but it is currently unnecessary to support this.
     THPUtils_assert(
         offset == Py_None,
         "_set_from_file: offset is NYI for filelike objects");

     auto self_storage =
         c10::intrusive_ptr<c10::StorageImpl>::reclaim_copy(self->cdata);
     auto storage = THPStorage_readFileRaw<PyObject*>(
         file, std::move(self_storage), element_size);
     if (!storage.defined()) {
       return nullptr;
     }
     Py_INCREF(self);
     return (PyObject*)self;
   }

   // file is backed by a fd
   const int fd = PyObject_AsFileDescriptor(file);
   const auto fd_original_pos = LSEEK(fd, 0, SEEK_CUR);
   if (offset != Py_None) {
     LSEEK(fd, THPUtils_unpackLong(offset), SEEK_SET);
   }
   THPUtils_assert(
       fd != -1,
       "_set_from_file couldn't retrieve a file "
       "descriptor from given object");
   auto self_storage =
       c10::intrusive_ptr<c10::StorageImpl>::reclaim_copy(self->cdata);
   auto storage = THPStorage_readFileRaw<int>(fd, self_storage, element_size);
   if (!storage.defined())
     return nullptr;
   Py_INCREF(self);

   // the file descriptor is returned to original position and
   // the file handle at python call-site needs updating to the
   // advanced position
   const auto fd_current_pos = LSEEK(fd, 0, SEEK_CUR);
   LSEEK(fd, fd_original_pos, SEEK_SET);
   const auto seek_return =
       PyObject_CallMethod(file, "seek", "Li", (long long)fd_current_pos, 0);
   if (seek_return == nullptr) {
     return nullptr;
   }
   Py_DECREF(seek_return);

   return (PyObject*)self;
   END_HANDLE_TH_ERRORS
 }

 PyObject* THPStorage__setCdata(PyObject* _self, PyObject* new_cdata) {
   HANDLE_TH_ERRORS
   auto self = (THPStorage*)_self;
   THPUtils_assert(
       THPUtils_checkLong(new_cdata),
       "given an invalid argument to "
       "_set_cdata - expected an int or long, but got %s",
       THPUtils_typename(new_cdata));
   c10::StorageImpl* ptr = (c10::StorageImpl*)PyLong_AsVoidPtr(new_cdata);
   if (ptr) {
     c10::raw::intrusive_ptr::incref(ptr);
   }
   if (self->cdata) {
     c10::raw::intrusive_ptr::decref(self->cdata);
   }
   self->cdata = ptr;
   Py_INCREF(self);
   return (PyObject*)self;
   END_HANDLE_TH_ERRORS
 }

 // NOLINTNEXTLINE(cppcoreguidelines-avoid-c-arrays,modernize-avoid-c-arrays,cppcoreguidelines-avoid-non-const-global-variables)
 static PyMethodDef THPStorage_methods[] = {
     {"copy_",
      castPyCFunctionWithKeywords(THPStorage_copy_),
      METH_VARARGS | METH_KEYWORDS,
      nullptr},
     {"element_size", THPStorage_elementSize, METH_NOARGS, nullptr},
     {"fill_", THPStorage_fill_, METH_O, nullptr},
     {"new", THPStorage_new, METH_NOARGS, nullptr},
     {"resize_", THPStorage_resize_, METH_O, nullptr},
     {"nbytes", THPStorage_nbytes, METH_NOARGS, nullptr},
     {"data_ptr", THPStorage_dataPtr, METH_NOARGS, nullptr},
     {"is_pinned", THPStorage_isPinned, METH_NOARGS, nullptr},
     {"_write_file", THPStorage_writeFile, METH_VARARGS, nullptr},
     {"_new_with_file",
      THPStorage_newWithFile,
      METH_VARARGS | METH_STATIC,
      nullptr},
     {"_set_from_file", THPStorage_setFromFile, METH_VARARGS, nullptr},
     {"from_buffer",
      castPyCFunctionWithKeywords(THPStorage_fromBuffer),
      METH_VARARGS | METH_KEYWORDS | METH_STATIC,
      nullptr},
     {"from_file",
      castPyCFunctionWithKeywords(THPStorage_fromFile),
      METH_VARARGS | METH_KEYWORDS | METH_STATIC,
      nullptr},
     {"_set_cdata", THPStorage__setCdata, METH_O, nullptr},
     {nullptr}};

 PyMethodDef* THPStorage_getMethods() {
   return THPStorage_methods;
 }
	#include <torch/csrc/python_headers.h>
	#ifdef _MSC_VER
	#include <c10/util/win32-headers.h>
	#endif
	#include <structmember.h>

	#include <c10/core/CPUAllocator.h>
	#include <libshm.h>
	#include <torch/csrc/CudaIPCTypes.h>
	#include <torch/csrc/Device.h>
	#include <torch/csrc/DynamicTypes.h>
	#include <torch/csrc/THP.h>
	#include <torch/csrc/autograd/utils/wrap_outputs.h>
	#include <torch/csrc/copy_utils.h>

	#include <c10/util/intrusive_ptr.h>
	#include <fmt/format.h>

	#include <torch/csrc/Storage.h>
	#include <torch/csrc/StorageMethods.h>

	#include <ATen/ATen.h>
	#include <ATen/MapAllocator.h>
	#include <torch/csrc/utils/pycfunction_helpers.h>
	#include <torch/csrc/utils/python_arg_parser.h>
	#include <torch/csrc/utils/python_numbers.h>

	#ifdef USE_CUDA
	#include <ATen/native/cuda/Resize.h>
	#include <cuda_runtime.h>
	#endif

	#include <ATen/native/Resize.h>

	#ifdef _MSC_VER
	#define LSEEK _lseeki64
	#else
	#define LSEEK lseek
	#endif

	static PyObject* THPStorage_nbytes(PyObject* _self, PyObject* noargs) {
	HANDLE_TH_ERRORS
	auto self = (THPStorage*)_self;
	return THPUtils_packUInt64(self->cdata->nbytes());
	END_HANDLE_TH_ERRORS
	}

	static PyObject* THPStorage_dataPtr(PyObject* _self, PyObject* noargs) {
	HANDLE_TH_ERRORS
	auto self = (THPStorage*)_self;
	return PyLong_FromVoidPtr(self->cdata->data<uint8_t>());
	END_HANDLE_TH_ERRORS
	}

	static PyObject* THPStorage_copy_(
	PyObject* self,
	PyObject* args,
	PyObject* kwargs) {
	HANDLE_TH_ERRORS

	at::Storage self_ = torch::createStorage(self);

	static torch::PythonArgParser parser({
	"copy_(Storage src, bool? non_blocking=None)",
	});
	torch::ParsedArgs<2> parsed_args;
	auto r = parser.parse(args, kwargs, parsed_args);

	at::Storage src = r.storage(0);
	bool non_blocking = r.toBoolOptional(1).value_or(false);

	TORCH_CHECK(self_.nbytes() == src.nbytes(), "size does not match");

	storage_copy(self_, src, non_blocking);

	Py_INCREF(self);
	return self;

	END_HANDLE_TH_ERRORS
	}

	static PyObject* THPStorage_isPinned(PyObject* _self, PyObject* noargs) {
	HANDLE_TH_ERRORS
	#if defined(USE_CUDA)
	auto self = (THPStorage*)_self;
	return PyBool_FromLong(
	at::globalContext().isPinnedPtr(self->cdata->data<uint8_t>()));
	#else
	Py_RETURN_FALSE;
	#endif
	END_HANDLE_TH_ERRORS
	}

	static PyObject* THPStorage_elementSize(PyObject* _self, PyObject* noargs) {
	HANDLE_TH_ERRORS
	return THPUtils_packInt64(sizeof(uint8_t));
	END_HANDLE_TH_ERRORS
	}

	static PyObject* THPStorage_new(PyObject* _self, PyObject* noargs) {
	HANDLE_TH_ERRORS
	auto self = (THPStorage*)_self;
	c10::Allocator* allocator = self->cdata->allocator();
	auto new_storage = c10::make_intrusive<at::StorageImpl>(
	c10::StorageImpl::use_byte_size_t(),
	0,
	allocator,
	/resizable=/true);

	// NOLINTNEXTLINE(cppcoreguidelines-init-variables)
	return THPStorage_New(std::move(new_storage));
	END_HANDLE_TH_ERRORS
	}

	static PyObject* THPStorage_resize_(PyObject* _self, PyObject* number_arg) {
	HANDLE_TH_ERRORS
	auto self = (THPStorage*)_self;
	THPUtils_assert(
	THPUtils_checkLong(number_arg),
	"resize_ expects an int, "
	"but got %s",
	THPUtils_typename(number_arg));
	int64_t newsize = THPUtils_unpackLong(number_arg);
	c10::DeviceType device_type = self->cdata->device_type();
	if (device_type == at::kCPU) {
	at::native::resize_bytes_cpu(self->cdata, newsize);
	#ifdef USE_CUDA
	} else if (device_type == at::kCUDA) {
	ptrdiff_t size_bytes_i = newsize;
	TORCH_CHECK(
	!c10::overflows<size_t>(size_bytes_i),
	"Requested storage size (",
	size_bytes_i,
	") cannot be represented as a size_t");
	const auto size_bytes = static_cast<size_t>(size_bytes_i);
	at::native::resize_bytes_cuda(self->cdata, size_bytes);
	#endif
	} else {
	TORCH_CHECK(
	false,
	"UntypedStorage.resize_: got unexpected device type ",
	device_type);
	}
	Py_INCREF(self);
	return (PyObject*)self;
	END_HANDLE_TH_ERRORS
	}

	static PyObject* THPStorage_fill_(PyObject* _self, PyObject* number_arg) {
	HANDLE_TH_ERRORS
	auto self = (THPStorage*)_self;
	THPUtils_assert(
	THPByteUtils_checkReal(number_arg),
	"fill_ expects int, "
	"but got %s",
	THPUtils_typename(number_arg));
	storage_fill(
	at::unsafeStorageFromTH(self->cdata, /retain=/true),
	THPByteUtils_unpackReal(number_arg));
	Py_INCREF(self);
	return (PyObject*)self;
	END_HANDLE_TH_ERRORS
	}

	static PyObject* THPStorage_fromBuffer(
	PyObject* _unused,
	PyObject* args,
	PyObject* keywds) {
	HANDLE_TH_ERRORS
	PyObject* obj = nullptr;
	const char* byte_order_str = nullptr;
	Py_ssize_t count = -1, offset = 0;
	PyObject* dtype_obj = nullptr;
	c10::ScalarType scalar_type = at::kByte;
	Py_buffer buffer = {};
	// NOLINTNEXTLINE(cppcoreguidelines-avoid-c-arrays,modernize-avoid-c-arrays,clang-diagnostic-writable-strings)
	static char* kwlist[] = {
	"buffer", "byte_order", "count", "offset", "dtype", nullptr};
	// NOLINTNEXTLINE(cppcoreguidelines-init-variables)
	const char* argtypes;
	argtypes = "O\|snnO";

	if (!PyArg_ParseTupleAndKeywords(
	args,
	keywds,
	argtypes,
	kwlist,
	&obj,
	&byte_order_str,
	&count,
	&offset,
	&dtype_obj)) {
	return nullptr;
	}
	TORCH_CHECK(dtype_obj != nullptr, "argument 'dtype' cannot be None");
	TORCH_CHECK(
	THPDtype_Check(dtype_obj),
	"argument 'dtype' must be of type torch.dtype");
	auto dtype = reinterpret_cast<THPDtype*>(dtype_obj);
	scalar_type = dtype->scalar_type;

	TORCH_CHECK(
	(scalar_type == at::kByte) \|\| (scalar_type == at::kChar) \|\|
	(byte_order_str != nullptr),
	"function missing required argument 'byte_order' (pos 2)");
	size_t element_size = c10::elementSize(scalar_type);

	// NOLINTNEXTLINE(cppcoreguidelines-init-variables)
	torch::utils::THPByteOrder byte_order;
	if (scalar_type != at::kByte && scalar_type != at::kChar) {
	if (strcmp(byte_order_str, "native") == 0) {
	byte_order = torch::utils::THP_nativeByteOrder();
	} else if (strcmp(byte_order_str, "big") == 0) {
	byte_order = torch::utils::THP_BIG_ENDIAN;
	} else if (strcmp(byte_order_str, "little") == 0) {
	byte_order = torch::utils::THP_LITTLE_ENDIAN;
	} else {
	PyErr_Format(
	PyExc_ValueError,
	"invalid byte_order '%s' (expected 'big', 'little', or 'native')",
	byte_order_str);
	return nullptr;
	}
	}

	if (PyObject_GetBuffer(obj, &buffer, PyBUF_SIMPLE) < 0)
	return nullptr;

	if (offset < 0 \|\| offset > buffer.len) {
	PyErr_SetString(
	PyExc_ValueError,
	fmt::format(
	"offset must be non-negative and no greater than buffer length ({}) , but got {}",
	offset,
	buffer.len));
	PyBuffer_Release(&buffer);
	return nullptr;
	}

	// NOLINTNEXTLINE(cppcoreguidelines-init-variables)
	size_t size_bytes;
	if (count < 0) {
	if ((buffer.len - offset) % element_size != 0) {
	PyErr_SetString(
	PyExc_ValueError,
	fmt::format(
	"buffer size ({}) must be a multiple of element size ({})",
	buffer.len,
	element_size));
	PyBuffer_Release(&buffer);
	return nullptr;
	}
	size_bytes = buffer.len - offset;
	count = size_bytes / element_size;
	} else {
	size_bytes = count * element_size;
	}

	if (offset + (count * (Py_ssize_t)element_size) > buffer.len) {
	PyErr_SetString(
	PyExc_ValueError,
	fmt::format(
	"buffer has only {} elements after offset {}, but specified a size of {}",
	buffer.len - offset,
	offset,
	count));
	PyBuffer_Release(&buffer);
	return nullptr;
	}

	uint8_t* src = (uint8_t*)buffer.buf;
	auto storage = c10::make_intrusive<at::StorageImpl>(
	c10::StorageImpl::use_byte_size_t(),
	size_bytes,
	c10::GetDefaultCPUAllocator(),
	/resizable=/true);

	if (scalar_type == at::kByte \|\| scalar_type == at::kChar) {
	memcpy(storage->data(), src + offset, count);
	} else if (scalar_type == at::kBool) {
	// Because of ASAN checks, that are failing whenever
	// we are trying to get a value which is not 0 or 1, we have to manually
	// convert original values to boolean ones.
	torch::utils::THP_decodeBoolBuffer(
	storage->data<bool>(), src + offset, byte_order, count);
	} else if (scalar_type == at::kShort) {
	torch::utils::THP_decodeInt16Buffer(
	storage->data<int16_t>(), src + offset, byte_order, count);
	} else if (scalar_type == at::kInt) {
	torch::utils::THP_decodeInt32Buffer(
	storage->data<int32_t>(), src + offset, byte_order, count);
	} else if (scalar_type == at::kLong) {
	torch::utils::THP_decodeInt64Buffer(
	storage->data<int64_t>(), src + offset, byte_order, count);
	} else if (scalar_type == at::kHalf) {
	torch::utils::THP_decodeHalfBuffer(
	storage->data<c10::Half>(), src + offset, byte_order, count);
	} else if (scalar_type == at::kBFloat16) {
	torch::utils::THP_decodeBFloat16Buffer(
	storage->data<c10::BFloat16>(), src + offset, byte_order, count);
	} else if (scalar_type == at::kFloat) {
	torch::utils::THP_decodeFloatBuffer(
	storage->data<float>(), src + offset, byte_order, count);
	} else if (scalar_type == at::kDouble) {
	torch::utils::THP_decodeDoubleBuffer(
	storage->data<double>(), src + offset, byte_order, count);
	} else if (scalar_type == at::kComplexFloat) {
	torch::utils::THP_decodeComplexFloatBuffer(
	storage->data<c10::complex<float>>(), src + offset, byte_order, count);
	} else if (scalar_type == at::kComplexDouble) {
	torch::utils::THP_decodeComplexDoubleBuffer(
	storage->data<c10::complex<double>>(), src + offset, byte_order, count);
	} else {
	TORCH_CHECK(false, "Unknown type: ", scalar_type);
	}

	PyBuffer_Release(&buffer);
	return (PyObject*)THPStorage_New(storage);
	END_HANDLE_TH_ERRORS
	}

	static PyObject* THPStorage_fromFile(
	PyObject* _unused,
	PyObject* args,
	PyObject* keywds) {
	HANDLE_TH_ERRORS
	// NOLINTNEXTLINE(cppcoreguidelines-init-variables)
	const char* filename;
	Py_ssize_t nbytes = 0;
	int shared = 0;
	// NOLINTNEXTLINE(cppcoreguidelines-avoid-c-arrays,modernize-avoid-c-arrays,clang-diagnostic-writable-strings)
	static char* kwlist[] = {"filename", "shared", "nbytes", nullptr};
	if (!PyArg_ParseTupleAndKeywords(
	args, keywds, "s\|in", kwlist, &filename, &shared, &nbytes)) {
	return nullptr;
	}
	if (shared)
	shared = at::ALLOCATOR_MAPPED_SHARED;

	size_t actual_nbytes = -1;
	auto storage = c10::make_intrusive<at::StorageImpl>(
	c10::StorageImpl::use_byte_size_t(),
	nbytes,
	at::MapAllocator::makeDataPtr(filename, shared, nbytes, &actual_nbytes),
	/allocator=/nullptr,
	/resizable=/false);

	if (nbytes <= 0) {
	storage->set_nbytes(actual_nbytes);
	}

	return (PyObject*)THPStorage_New(std::move(storage));
	END_HANDLE_TH_ERRORS
	}

	PyObject* THPStorage_writeFile(PyObject* _self, PyObject* args) {
	HANDLE_TH_ERRORS
	auto self = (THPStorage*)_self;
	PyObject* file = PyTuple_GetItem(args, 0);
	bool is_real_file = PyTuple_GetItem(args, 1) == Py_True;
	bool save_size = PyTuple_GetItem(args, 2) == Py_True;
	PyObject* element_size_obj = PyTuple_GET_ITEM(args, 3);

	THPUtils_assert(
	element_size_obj != Py_None, "_write_file: need to specify element size");
	uint64_t element_size = THPUtils_unpackUInt64(element_size_obj);

	if (!is_real_file) {
	THPStorage_writeFileRaw<PyObject*>(
	self->cdata, file, save_size, element_size);
	Py_RETURN_NONE;
	}

	int fd = PyObject_AsFileDescriptor(file);
	THPUtils_assert(
	fd != -1,
	"_write_file couldn't retrieve a file descriptor "
	"from given object");
	THPStorage_writeFileRaw(self->cdata, fd, save_size, element_size);
	Py_RETURN_NONE;
	END_HANDLE_TH_ERRORS
	}

	PyObject* THPStorage_newWithFile(PyObject* _unused, PyObject* args) {
	HANDLE_TH_ERRORS
	TORCH_CHECK(
	PyTuple_Size(args) == 2, "_new_with_file takes exactly two arguments");
	int fd = PyObject_AsFileDescriptor(PyTuple_GetItem(args, 0));
	THPUtils_assert(
	fd != -1,
	"_new_with_file couldn't retrieve a file "
	"descriptor from given object");
	PyObject* element_size_obj = PyTuple_GET_ITEM(args, 1);
	THPUtils_assert(
	element_size_obj != Py_None,
	"_new_with_file: need to specify element size");
	uint64_t element_size = THPUtils_unpackUInt64(element_size_obj);

	auto storage = THPStorage_readFileRaw<int>(fd, {}, element_size);
	if (!storage.defined())
	return nullptr;
	return THPStorage_New(std::move(storage));
	END_HANDLE_TH_ERRORS
	}

	static PyObject* THPStorage_setFromFile(PyObject* _self, PyObject* args) {
	HANDLE_TH_ERRORS
	auto self = (THPStorage*)_self;
	PyObject* file = PyTuple_GET_ITEM(args, 0);
	PyObject* offset = PyTuple_GET_ITEM(args, 1);
	bool is_real_file = PyTuple_GET_ITEM(args, 2) == Py_True;

	PyObject* element_size_obj = PyTuple_GET_ITEM(args, 3);

	THPUtils_assert(
	element_size_obj != Py_None,
	"_set_from_file: need to specify element size");
	uint64_t element_size = THPUtils_unpackUInt64(element_size_obj);

	if (!is_real_file) {
	// offset can be implemented with a call to the Python object's seek()
	// but it is currently unnecessary to support this.
	THPUtils_assert(
	offset == Py_None,
	"_set_from_file: offset is NYI for filelike objects");

	auto self_storage =
	c10::intrusive_ptr<c10::StorageImpl>::reclaim_copy(self->cdata);
	auto storage = THPStorage_readFileRaw<PyObject*>(
	file, std::move(self_storage), element_size);
	if (!storage.defined()) {
	return nullptr;
	}
	Py_INCREF(self);
	return (PyObject*)self;
	}

	// file is backed by a fd
	const int fd = PyObject_AsFileDescriptor(file);
	const auto fd_original_pos = LSEEK(fd, 0, SEEK_CUR);
	if (offset != Py_None) {
	LSEEK(fd, THPUtils_unpackLong(offset), SEEK_SET);
	}
	THPUtils_assert(
	fd != -1,
	"_set_from_file couldn't retrieve a file "
	"descriptor from given object");
	auto self_storage =
	c10::intrusive_ptr<c10::StorageImpl>::reclaim_copy(self->cdata);
	auto storage = THPStorage_readFileRaw<int>(fd, self_storage, element_size);
	if (!storage.defined())
	return nullptr;
	Py_INCREF(self);

	// the file descriptor is returned to original position and
	// the file handle at python call-site needs updating to the
	// advanced position
	const auto fd_current_pos = LSEEK(fd, 0, SEEK_CUR);
	LSEEK(fd, fd_original_pos, SEEK_SET);
	const auto seek_return =
	PyObject_CallMethod(file, "seek", "Li", (long long)fd_current_pos, 0);
	if (seek_return == nullptr) {
	return nullptr;
	}
	Py_DECREF(seek_return);

	return (PyObject*)self;
	END_HANDLE_TH_ERRORS
	}

	PyObject* THPStorage__setCdata(PyObject* _self, PyObject* new_cdata) {
	HANDLE_TH_ERRORS
	auto self = (THPStorage*)_self;
	THPUtils_assert(
	THPUtils_checkLong(new_cdata),
	"given an invalid argument to "
	"_set_cdata - expected an int or long, but got %s",
	THPUtils_typename(new_cdata));
	c10::StorageImpl* ptr = (c10::StorageImpl*)PyLong_AsVoidPtr(new_cdata);
	if (ptr) {
	c10::raw::intrusive_ptr::incref(ptr);
	}
	if (self->cdata) {
	c10::raw::intrusive_ptr::decref(self->cdata);
	}
	self->cdata = ptr;
	Py_INCREF(self);
	return (PyObject*)self;
	END_HANDLE_TH_ERRORS
	}

	// NOLINTNEXTLINE(cppcoreguidelines-avoid-c-arrays,modernize-avoid-c-arrays,cppcoreguidelines-avoid-non-const-global-variables)
	static PyMethodDef THPStorage_methods[] = {
	{"copy_",
	castPyCFunctionWithKeywords(THPStorage_copy_),
	METH_VARARGS \| METH_KEYWORDS,
	nullptr},
	{"element_size", THPStorage_elementSize, METH_NOARGS, nullptr},
	{"fill_", THPStorage_fill_, METH_O, nullptr},
	{"new", THPStorage_new, METH_NOARGS, nullptr},
	{"resize_", THPStorage_resize_, METH_O, nullptr},
	{"nbytes", THPStorage_nbytes, METH_NOARGS, nullptr},
	{"data_ptr", THPStorage_dataPtr, METH_NOARGS, nullptr},
	{"is_pinned", THPStorage_isPinned, METH_NOARGS, nullptr},
	{"_write_file", THPStorage_writeFile, METH_VARARGS, nullptr},
	{"_new_with_file",
	THPStorage_newWithFile,
	METH_VARARGS \| METH_STATIC,
	nullptr},
	{"_set_from_file", THPStorage_setFromFile, METH_VARARGS, nullptr},
	{"from_buffer",
	castPyCFunctionWithKeywords(THPStorage_fromBuffer),
	METH_VARARGS \| METH_KEYWORDS \| METH_STATIC,
	nullptr},
	{"from_file",
	castPyCFunctionWithKeywords(THPStorage_fromFile),
	METH_VARARGS \| METH_KEYWORDS \| METH_STATIC,
	nullptr},
	{"_set_cdata", THPStorage__setCdata, METH_O, nullptr},
	{nullptr}};

	PyMethodDef* THPStorage_getMethods() {
	return THPStorage_methods;
	}