#include "megdnn/oprs.h"
#include "src/common/utils.h"
namespace megdnn {
void FakeQuantBase::deduce_layout_fwd(const TensorLayout& input, TensorLayout& output) {
output = TensorLayout(input, input.dtype);
}
void FakeQuantBase::check_layout_fwd(
const TensorLayout& input, const TensorLayout& scale,
const TensorLayout& zero_point, const TensorLayout& output) {
megdnn_assert(input.dtype == dtype::Float32());
megdnn_assert(scale.dtype == dtype::Float32());
megdnn_assert(zero_point.dtype == dtype::Float32());
TensorLayout expected;
deduce_layout_fwd(input, expected);
megdnn_assert_eq_layout(expected, output);
}
void FakeQuantForward::deduce_layout(
const TensorLayout& input, const TensorLayout& ,
const TensorLayout& , TensorLayout& output) {
deduce_layout_fwd(input, output);
}
void FakeQuantForward::check_exec(
const TensorLayout& input, const TensorLayout& scale,
const TensorLayout& zero_point, const TensorLayout& output,
size_t workspace_in_bytes) {
check_layout_fwd(input, scale, zero_point, output);
auto required_workspace_space =
get_workspace_in_bytes(input, scale, zero_point, output);
megdnn_assert(workspace_in_bytes >= required_workspace_space);
}
void FakeQuantBackward::check_exec(
const TensorLayout& diff, const TensorLayout& input, const TensorLayout& scale,
const TensorLayout& zero_point, const TensorLayout& grad,
size_t workspace_in_bytes) {
megdnn_assert_eq_shape(input, diff);
megdnn_assert_eq_shape(input, grad);
auto required_worspace_space =
get_workspace_in_bytes(diff, input, scale, zero_point, grad);
megdnn_assert(workspace_in_bytes >= required_worspace_space);
}
}