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BinaryDivTruncKernel.cu
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BinaryDivTruncKernel.cu
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#define TORCH_ASSERT_NO_OPERATORS
#include <ATen/AccumulateType.h>
#include <ATen/Dispatch.h>
#include <ATen/native/BinaryOps.h>
#include <ATen/native/DispatchStub.h>
#include <ATen/native/TensorIterator.h>
#include <c10/cuda/CUDAGuard.h>
#include <c10/cuda/CUDAMathCompat.h>
#include <c10/util/TypeSafeSignMath.h>
#include <ATen/native/cuda/JitLoops.cuh>
#include <ATen/native/cuda/Loops.cuh>
#include <type_traits>
namespace at::native {
namespace binary_internal {
void div_trunc_kernel_cuda(TensorIteratorBase& iter) {
auto dtype = iter.common_dtype();
if (isIntegralType(dtype, /*includeBool*/ false)) {
AT_DISPATCH_INTEGRAL_TYPES(dtype, "div_trunc_cuda", [&]() {
gpu_kernel_with_scalars(
iter,
[] GPU_LAMBDA(scalar_t a, scalar_t b) -> scalar_t { return a / b; });
});
} else if (iter.is_cpu_scalar(2)) {
// optimization for floating-point types: if the second operand is a CPU
// scalar, compute a * reciprocal(b). Note that this may lose one bit of
// precision compared to computing the division.
AT_DISPATCH_FLOATING_TYPES_AND2(
kHalf, kBFloat16, dtype, "div_trunc_cuda", [&]() {
using accscalar_t = at::acc_type<scalar_t, true>;
auto inv_b = accscalar_t(1.0) / iter.scalar_value<accscalar_t>(2);
iter.remove_operand(2);
gpu_kernel(iter, [inv_b] GPU_LAMBDA(scalar_t a) -> scalar_t {
return std::trunc(a * inv_b);
});
});
} else {
AT_DISPATCH_FLOATING_TYPES_AND2(
kHalf, kBFloat16, dtype, "div_trunc_cuda", [&]() {
gpu_kernel_with_scalars(
iter, [] GPU_LAMBDA(scalar_t a, scalar_t b) -> scalar_t {
return std::trunc(a / b);
});
});
}
}
} // namespace binary_internal
REGISTER_DISPATCH(div_trunc_stub, &binary_internal::div_trunc_kernel_cuda);
} // namespace at::native