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TensorFactories.cpp
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TensorFactories.cpp
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#include <ATen/ATen.h>
#include <ATen/quantized/Quantizer.h>
#include <c10/core/QScheme.h>
#include <c10/core/TensorOptions.h>
#include <utility>
namespace at {
namespace native {
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ empty ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// We explicitly pass in scale and zero_point because we don't have the infra
// ready to support quantizer in python frontend, once that is ready, we'll
// change to use quantizer
Tensor empty_affine_quantized(
IntArrayRef size,
c10::optional<ScalarType> dtype,
c10::optional<Layout> layout,
c10::optional<Device> device,
c10::optional<bool> pin_memory,
double scale,
int64_t zero_point,
c10::optional<c10::MemoryFormat> optional_memory_format) {
// See [Note: hacky wrapper removal for TensorOptions]
TensorOptions options_ = TensorOptions().dtype(dtype).layout(layout).device(device).pinned_memory(pin_memory);
TORCH_CHECK(
!(options_.has_memory_format() && optional_memory_format.has_value()),
"Cannot set memory_format both in TensorOptions and explicit argument; please delete "
"the redundant setter.");
auto options = options_.merge_memory_format(optional_memory_format);
TORCH_CHECK(
options.has_dtype(),
"Must provide data type for Tensor creation functions.");
return new_qtensor(
size,
options,
make_per_tensor_affine_quantizer(
scale, zero_point, typeMetaToScalarType(options.dtype())));
}
Tensor empty_per_channel_affine_quantized(
IntArrayRef size,
const Tensor& scales,
const Tensor& zero_points,
int64_t axis,
c10::optional<ScalarType> dtype,
c10::optional<Layout> layout,
c10::optional<Device> device,
c10::optional<bool> pin_memory,
c10::optional<c10::MemoryFormat> optional_memory_format) {
// See [Note: hacky wrapper removal for TensorOptions]
TensorOptions options_ = TensorOptions().dtype(dtype).layout(layout).device(device).pinned_memory(pin_memory);
TORCH_CHECK(
!(options_.has_memory_format() && optional_memory_format.has_value()),
"Cannot set memory_format both in TensorOptions and explicit argument; please delete "
"the redundant setter.");
auto options = options_.merge_memory_format(optional_memory_format);
TORCH_CHECK(
options.has_dtype(),
"Must provide data type for Tensor creation functions.");
QuantizerPtr quantizer = make_per_channel_affine_quantizer(
scales.to(options.device()), zero_points.to(options.device()), axis, typeMetaToScalarType(options.dtype()));
return new_qtensor(
size,
options,
std::move(quantizer));
}
Tensor empty_unknown_quantized(
IntArrayRef size,
c10::optional<ScalarType> dtype,
c10::optional<Layout> layout,
c10::optional<Device> device,
c10::optional<bool> pin_memory,
c10::optional<c10::MemoryFormat> optional_memory_format) {
// See [Note: hacky wrapper removal for TensorOptions]
TensorOptions options_ = TensorOptions().dtype(dtype).layout(layout).device(device).pinned_memory(pin_memory);
TORCH_CHECK(
!(options_.has_memory_format() && optional_memory_format.has_value()),
"Cannot set memory_format both in TensorOptions and explicit argument; please delete "
"the redundant setter.");
auto options = options_.merge_memory_format(optional_memory_format);
TORCH_CHECK(
options.has_dtype(),
"Must provide data type for Tensor creation functions.");
QuantizerPtr quantizer = make_unknown_quantizer(typeMetaToScalarType(options.dtype()));
return new_qtensor(size, options, std::move(quantizer));
}
Tensor empty_strided_unknown_quantized(
IntArrayRef size,
IntArrayRef strided,
c10::optional<ScalarType> dtype,
c10::optional<Layout> layout,
c10::optional<Device> device,
c10::optional<bool> pin_memory) {
TORCH_CHECK(false, "empty_strided not supported on quantized tensors yet see https://github.com/pytorch/pytorch/issues/74540")
}
// Provide better error message if dtype is wrong
Tensor empty_affine_quantized_other_backends_stub(
IntArrayRef,
c10::optional<ScalarType>,
c10::optional<Layout>,
c10::optional<Device>,
c10::optional<bool>,
double,
int64_t,
c10::optional<c10::MemoryFormat>) {
TORCH_CHECK(false, "Creation of quantized tensor requires quantized dtype like torch.quint8");
}
Tensor empty_per_channel_affine_quantized_other_backends_stub(
IntArrayRef,
const Tensor&,
const Tensor&,
int64_t,
c10::optional<ScalarType>,
c10::optional<Layout>,
c10::optional<Device>,
c10::optional<bool>,
c10::optional<c10::MemoryFormat>) {
TORCH_CHECK(false, "Creation of quantized tensor requires quantized dtype like torch.quint8");
}
// Create an empty quantized Tensor with size, based on the options
// and quantization parameters of the input quantized Tensor
Tensor empty_quantized(
IntArrayRef size,
const Tensor& qtensor,
c10::optional<ScalarType> dtype,
c10::optional<Layout> layout,
c10::optional<Device> device,
c10::optional<bool> pin_memory,
c10::optional<c10::MemoryFormat> memory_format) {
TensorOptions specified_options =
TensorOptions().dtype(dtype).layout(layout).device(device).pinned_memory(pin_memory);
TORCH_CHECK(
!(specified_options.has_memory_format() && memory_format.has_value()),
"Cannot set memory_format both in TensorOptions and explicit argument; please delete "
"the redundant setter.");
TensorOptions options = qtensor.options()
.merge_in(specified_options)
.merge_memory_format(memory_format);
Tensor output;
if (qtensor.qscheme() == kPerTensorAffine) {
output = at::_empty_affine_quantized(
size, options, qtensor.q_scale(), qtensor.q_zero_point());
} else if (
qtensor.qscheme() == kPerChannelAffine ||
qtensor.qscheme() == kPerChannelAffineFloatQParams) {
output = at::_empty_per_channel_affine_quantized(
size,
qtensor.q_per_channel_scales(),
qtensor.q_per_channel_zero_points(),
qtensor.q_per_channel_axis(),
options);
} else {
TORCH_CHECK(
false,
"QScheme not supported by empty_quantized:",
toString(qtensor.qscheme()));
}
return output;
}
} // namespace native
} // namespace at