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gerrit-public.fairphone.software / platform / external / XNNPACK / 691805058b852cd6b5822b59dfd2a15dc96642fb / . / test / divide-nd.cc
blob: a2e793fc35d57c7c005ca602f4e894ff1142a29e [file] [log] [blame]
// Copyright 2019 Google LLC
//
// This source code is licensed under the BSD-style license found in the
// LICENSE file in the root directory of this source tree.
#include <gtest/gtest.h>
#include "binary-elementwise-operator-tester.h"
constexpr size_t kDim1 = 2;
constexpr size_t kDim2 = 3;
constexpr size_t kDim3 = 4;
constexpr size_t kDim4 = 5;
constexpr size_t kDim5 = 6;
constexpr size_t kDim6 = 7;
TEST(DIVIDE_ND_F32, 0d_x_0d) {
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.TestF32();
}
TEST(DIVIDE_ND_F32, 1d_x_0d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 1); bm1++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim1})
.TestF32();
}
}
TEST(DIVIDE_ND_F32, 0d_x_1d) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 1); bm2++) {
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input2_shape({input2_dim1})
.TestF32();
}
}
TEST(DIVIDE_ND_F32, 1d_x_1d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 1); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 1); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim1})
.input2_shape({input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 0d_x_2d) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 2); bm2++) {
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input2_shape({input2_dim2, input2_dim1})
.TestF32();
}
}
TEST(DIVIDE_ND_F32, 1d_x_2d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 1); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 2); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim1})
.input2_shape({input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 2d_x_0d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 2); bm1++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim2, input1_dim1})
.TestF32();
}
}
TEST(DIVIDE_ND_F32, 2d_x_1d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 2); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 1); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim2, input1_dim1})
.input2_shape({input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 2d_x_2d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 2); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 2); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim2, input1_dim1})
.input2_shape({input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 0d_x_3d) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 3); bm2++) {
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input2_shape({input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
TEST(DIVIDE_ND_F32, 1d_x_3d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 1); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 3); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim1})
.input2_shape({input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 2d_x_3d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 2); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 3); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim2, input1_dim1})
.input2_shape({input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 3d_x_0d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 3); bm1++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim3, input1_dim2, input1_dim1})
.TestF32();
}
}
TEST(DIVIDE_ND_F32, 3d_x_1d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 3); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 1); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 3d_x_2d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 3); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 2); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 3d_x_3d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 3); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 3); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 0d_x_4d) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 4); bm2++) {
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input2_shape({input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
TEST(DIVIDE_ND_F32, 1d_x_4d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 1); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 4); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim1})
.input2_shape({input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 2d_x_4d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 2); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 4); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim2, input1_dim1})
.input2_shape({input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 3d_x_4d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 3); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 4); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 4d_x_0d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 4); bm1++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.TestF32();
}
}
TEST(DIVIDE_ND_F32, 4d_x_1d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 4); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 1); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 4d_x_2d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 4); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 2); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 4d_x_3d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 4); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 3); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 4d_x_4d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 4); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 4); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 0d_x_5d) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 5); bm2++) {
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const bool input2_broadcast_dim5 = bm2 & (uint32_t(1) << 4);
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim5 = input2_broadcast_dim5 ? 1 : kDim5;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input2_shape({input2_dim5, input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
TEST(DIVIDE_ND_F32, 1d_x_5d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 1); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 5); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const bool input2_broadcast_dim5 = bm2 & (uint32_t(1) << 4);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim5 = input2_broadcast_dim5 ? 1 : kDim5;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim1})
.input2_shape({input2_dim5, input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 2d_x_5d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 2); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 5); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const bool input2_broadcast_dim5 = bm2 & (uint32_t(1) << 4);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim5 = input2_broadcast_dim5 ? 1 : kDim5;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim2, input1_dim1})
.input2_shape({input2_dim5, input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 3d_x_5d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 3); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 5); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const bool input2_broadcast_dim5 = bm2 & (uint32_t(1) << 4);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim5 = input2_broadcast_dim5 ? 1 : kDim5;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim5, input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 4d_x_5d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 4); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 5); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const bool input2_broadcast_dim5 = bm2 & (uint32_t(1) << 4);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim5 = input2_broadcast_dim5 ? 1 : kDim5;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim5, input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 5d_x_0d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 5); bm1++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input1_broadcast_dim5 = bm1 & (uint32_t(1) << 4);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input1_dim5 = input1_broadcast_dim5 ? 1 : kDim5;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim5, input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.TestF32();
}
}
TEST(DIVIDE_ND_F32, 5d_x_1d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 5); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 1); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input1_broadcast_dim5 = bm1 & (uint32_t(1) << 4);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input1_dim5 = input1_broadcast_dim5 ? 1 : kDim5;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim5, input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 5d_x_2d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 5); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 2); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input1_broadcast_dim5 = bm1 & (uint32_t(1) << 4);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input1_dim5 = input1_broadcast_dim5 ? 1 : kDim5;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim5, input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 5d_x_3d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 5); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 3); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input1_broadcast_dim5 = bm1 & (uint32_t(1) << 4);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input1_dim5 = input1_broadcast_dim5 ? 1 : kDim5;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim5, input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 5d_x_4d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 5); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 4); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input1_broadcast_dim5 = bm1 & (uint32_t(1) << 4);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input1_dim5 = input1_broadcast_dim5 ? 1 : kDim5;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim5, input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 5d_x_5d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 5); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 5); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input1_broadcast_dim5 = bm1 & (uint32_t(1) << 4);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const bool input2_broadcast_dim5 = bm2 & (uint32_t(1) << 4);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input1_dim5 = input1_broadcast_dim5 ? 1 : kDim5;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim5 = input2_broadcast_dim5 ? 1 : kDim5;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim5, input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim5, input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.iterations(1)
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 0d_x_6d) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 6); bm2++) {
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const bool input2_broadcast_dim5 = bm2 & (uint32_t(1) << 4);
const bool input2_broadcast_dim6 = bm2 & (uint32_t(1) << 5);
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim5 = input2_broadcast_dim5 ? 1 : kDim5;
const size_t input2_dim6 = input2_broadcast_dim6 ? 1 : kDim6;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input2_shape({input2_dim6, input2_dim5, input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
TEST(DIVIDE_ND_F32, 1d_x_6d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 1); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 6); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const bool input2_broadcast_dim5 = bm2 & (uint32_t(1) << 4);
const bool input2_broadcast_dim6 = bm2 & (uint32_t(1) << 5);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim5 = input2_broadcast_dim5 ? 1 : kDim5;
const size_t input2_dim6 = input2_broadcast_dim6 ? 1 : kDim6;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim1})
.input2_shape({input2_dim6, input2_dim5, input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 2d_x_6d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 2); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 6); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const bool input2_broadcast_dim5 = bm2 & (uint32_t(1) << 4);
const bool input2_broadcast_dim6 = bm2 & (uint32_t(1) << 5);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim5 = input2_broadcast_dim5 ? 1 : kDim5;
const size_t input2_dim6 = input2_broadcast_dim6 ? 1 : kDim6;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim2, input1_dim1})
.input2_shape({input2_dim6, input2_dim5, input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 3d_x_6d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 3); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 6); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const bool input2_broadcast_dim5 = bm2 & (uint32_t(1) << 4);
const bool input2_broadcast_dim6 = bm2 & (uint32_t(1) << 5);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim5 = input2_broadcast_dim5 ? 1 : kDim5;
const size_t input2_dim6 = input2_broadcast_dim6 ? 1 : kDim6;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim6, input2_dim5, input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 4d_x_6d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 4); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 6); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const bool input2_broadcast_dim5 = bm2 & (uint32_t(1) << 4);
const bool input2_broadcast_dim6 = bm2 & (uint32_t(1) << 5);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim5 = input2_broadcast_dim5 ? 1 : kDim5;
const size_t input2_dim6 = input2_broadcast_dim6 ? 1 : kDim6;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim6, input2_dim5, input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 5d_x_6d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 5); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 6); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input1_broadcast_dim5 = bm1 & (uint32_t(1) << 4);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const bool input2_broadcast_dim5 = bm2 & (uint32_t(1) << 4);
const bool input2_broadcast_dim6 = bm2 & (uint32_t(1) << 5);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input1_dim5 = input1_broadcast_dim5 ? 1 : kDim5;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim5 = input2_broadcast_dim5 ? 1 : kDim5;
const size_t input2_dim6 = input2_broadcast_dim6 ? 1 : kDim6;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim5, input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim6, input2_dim5, input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.iterations(1)
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 6d_x_0d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 6); bm1++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input1_broadcast_dim5 = bm1 & (uint32_t(1) << 4);
const bool input1_broadcast_dim6 = bm1 & (uint32_t(1) << 5);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input1_dim5 = input1_broadcast_dim5 ? 1 : kDim5;
const size_t input1_dim6 = input1_broadcast_dim6 ? 1 : kDim6;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim6, input1_dim5, input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.TestF32();
}
}
TEST(DIVIDE_ND_F32, 6d_x_1d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 6); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 1); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input1_broadcast_dim5 = bm1 & (uint32_t(1) << 4);
const bool input1_broadcast_dim6 = bm1 & (uint32_t(1) << 5);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input1_dim5 = input1_broadcast_dim5 ? 1 : kDim5;
const size_t input1_dim6 = input1_broadcast_dim6 ? 1 : kDim6;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim6, input1_dim5, input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 6d_x_2d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 6); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 2); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input1_broadcast_dim5 = bm1 & (uint32_t(1) << 4);
const bool input1_broadcast_dim6 = bm1 & (uint32_t(1) << 5);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input1_dim5 = input1_broadcast_dim5 ? 1 : kDim5;
const size_t input1_dim6 = input1_broadcast_dim6 ? 1 : kDim6;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim6, input1_dim5, input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 6d_x_3d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 6); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 3); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input1_broadcast_dim5 = bm1 & (uint32_t(1) << 4);
const bool input1_broadcast_dim6 = bm1 & (uint32_t(1) << 5);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input1_dim5 = input1_broadcast_dim5 ? 1 : kDim5;
const size_t input1_dim6 = input1_broadcast_dim6 ? 1 : kDim6;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim6, input1_dim5, input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 6d_x_4d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 6); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 4); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input1_broadcast_dim5 = bm1 & (uint32_t(1) << 4);
const bool input1_broadcast_dim6 = bm1 & (uint32_t(1) << 5);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input1_dim5 = input1_broadcast_dim5 ? 1 : kDim5;
const size_t input1_dim6 = input1_broadcast_dim6 ? 1 : kDim6;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim6, input1_dim5, input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 6d_x_5d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 6); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 5); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input1_broadcast_dim5 = bm1 & (uint32_t(1) << 4);
const bool input1_broadcast_dim6 = bm1 & (uint32_t(1) << 5);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const bool input2_broadcast_dim5 = bm2 & (uint32_t(1) << 4);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input1_dim5 = input1_broadcast_dim5 ? 1 : kDim5;
const size_t input1_dim6 = input1_broadcast_dim6 ? 1 : kDim6;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim5 = input2_broadcast_dim5 ? 1 : kDim5;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim6, input1_dim5, input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim5, input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.iterations(1)
.TestF32();
}
}
}
TEST(DIVIDE_ND_F32, 6d_x_6d) {
for (uint32_t bm1 = 0; bm1 < (uint32_t(1) << 6); bm1++) {
for (uint32_t bm2 = 0; bm2 < (uint32_t(1) << 6); bm2++) {
const bool input1_broadcast_dim1 = bm1 & (uint32_t(1) << 0);
const bool input1_broadcast_dim2 = bm1 & (uint32_t(1) << 1);
const bool input1_broadcast_dim3 = bm1 & (uint32_t(1) << 2);
const bool input1_broadcast_dim4 = bm1 & (uint32_t(1) << 3);
const bool input1_broadcast_dim5 = bm1 & (uint32_t(1) << 4);
const bool input1_broadcast_dim6 = bm1 & (uint32_t(1) << 5);
const bool input2_broadcast_dim1 = bm2 & (uint32_t(1) << 0);
const bool input2_broadcast_dim2 = bm2 & (uint32_t(1) << 1);
const bool input2_broadcast_dim3 = bm2 & (uint32_t(1) << 2);
const bool input2_broadcast_dim4 = bm2 & (uint32_t(1) << 3);
const bool input2_broadcast_dim5 = bm2 & (uint32_t(1) << 4);
const bool input2_broadcast_dim6 = bm2 & (uint32_t(1) << 5);
const size_t input1_dim1 = input1_broadcast_dim1 ? 1 : kDim1;
const size_t input1_dim2 = input1_broadcast_dim2 ? 1 : kDim2;
const size_t input1_dim3 = input1_broadcast_dim3 ? 1 : kDim3;
const size_t input1_dim4 = input1_broadcast_dim4 ? 1 : kDim4;
const size_t input1_dim5 = input1_broadcast_dim5 ? 1 : kDim5;
const size_t input1_dim6 = input1_broadcast_dim6 ? 1 : kDim6;
const size_t input2_dim1 = input2_broadcast_dim1 ? 1 : kDim1;
const size_t input2_dim2 = input2_broadcast_dim2 ? 1 : kDim2;
const size_t input2_dim3 = input2_broadcast_dim3 ? 1 : kDim3;
const size_t input2_dim4 = input2_broadcast_dim4 ? 1 : kDim4;
const size_t input2_dim5 = input2_broadcast_dim5 ? 1 : kDim5;
const size_t input2_dim6 = input2_broadcast_dim6 ? 1 : kDim6;
BinaryElementwiseOperatorTester()
.operation_type(BinaryElementwiseOperatorTester::OperationType::Divide)
.input1_shape({input1_dim6, input1_dim5, input1_dim4, input1_dim3, input1_dim2, input1_dim1})
.input2_shape({input2_dim6, input2_dim5, input2_dim4, input2_dim3, input2_dim2, input2_dim1})
.iterations(1)
.TestF32();
}
}
}