// Copyright (c) Facebook, Inc. and its affiliates. // All rights reserved. // // 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 #include "channel-shuffle-operator-tester.h" TEST(CHANNEL_SHUFFLE_NC_X8, two_groups_unit_batch) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(1) .groups(2) .group_channels(group_channels) .iterations(3) .TestX8(); } } TEST(CHANNEL_SHUFFLE_NC_X8, three_groups_unit_batch) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(1) .groups(3) .group_channels(group_channels) .iterations(3) .TestX8(); } } TEST(CHANNEL_SHUFFLE_NC_X8, four_groups_unit_batch) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(1) .groups(4) .group_channels(group_channels) .iterations(3) .TestX8(); } } TEST(CHANNEL_SHUFFLE_NC_X8, many_groups_unit_batch) { for (size_t groups = 5; groups < 12; groups += 3) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(1) .groups(groups) .group_channels(group_channels) .iterations(3) .TestX8(); } } } TEST(CHANNEL_SHUFFLE_NC_X8, two_groups_small_batch) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(2) .group_channels(group_channels) .iterations(3) .TestX8(); } } TEST(CHANNEL_SHUFFLE_NC_X8, three_groups_small_batch) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(3) .group_channels(group_channels) .iterations(3) .TestX8(); } } TEST(CHANNEL_SHUFFLE_NC_X8, four_groups_small_batch) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(4) .group_channels(group_channels) .iterations(3) .TestX8(); } } TEST(CHANNEL_SHUFFLE_NC_X8, many_groups_small_batch) { for (size_t groups = 5; groups < 12; groups += 3) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(groups) .group_channels(group_channels) .iterations(3) .TestX8(); } } } TEST(CHANNEL_SHUFFLE_NC_X8, two_groups_small_batch_with_input_stride) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(2) .group_channels(group_channels) .input_stride(511) .iterations(3) .TestX8(); } } TEST(CHANNEL_SHUFFLE_NC_X8, three_groups_small_batch_with_input_stride) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(3) .group_channels(group_channels) .input_stride(511) .iterations(3) .TestX8(); } } TEST(CHANNEL_SHUFFLE_NC_X8, four_groups_small_batch_with_input_stride) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(4) .group_channels(group_channels) .input_stride(511) .iterations(3) .TestX8(); } } TEST(CHANNEL_SHUFFLE_NC_X8, many_groups_small_batch_with_input_stride) { for (size_t groups = 5; groups < 12; groups += 3) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(groups) .group_channels(group_channels) .input_stride(1007) .iterations(3) .TestX8(); } } } TEST(CHANNEL_SHUFFLE_NC_X8, two_groups_small_batch_with_output_stride) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(2) .group_channels(group_channels) .output_stride(513) .iterations(3) .TestX8(); } } TEST(CHANNEL_SHUFFLE_NC_X8, three_groups_small_batch_with_output_stride) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(3) .group_channels(group_channels) .output_stride(513) .iterations(3) .TestX8(); } } TEST(CHANNEL_SHUFFLE_NC_X8, four_groups_small_batch_with_output_stride) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(4) .group_channels(group_channels) .output_stride(513) .iterations(3) .TestX8(); } } TEST(CHANNEL_SHUFFLE_NC_X8, many_groups_small_batch_with_output_stride) { for (size_t groups = 5; groups < 12; groups += 3) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(groups) .group_channels(group_channels) .output_stride(1111) .iterations(3) .TestX8(); } } } TEST(CHANNEL_SHUFFLE_NC_X8, two_groups_small_batch_with_input_and_output_stride) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(2) .group_channels(group_channels) .input_stride(511) .output_stride(513) .iterations(3) .TestX8(); } } TEST(CHANNEL_SHUFFLE_NC_X8, three_groups_small_batch_with_input_and_output_stride) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(3) .group_channels(group_channels) .input_stride(511) .output_stride(513) .iterations(3) .TestX8(); } } TEST(CHANNEL_SHUFFLE_NC_X8, four_groups_small_batch_with_input_and_output_stride) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(4) .group_channels(group_channels) .input_stride(511) .output_stride(513) .iterations(3) .TestX8(); } } TEST(CHANNEL_SHUFFLE_NC_X8, many_groups_small_batch_with_input_and_output_stride) { for (size_t groups = 5; groups < 12; groups += 3) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(groups) .group_channels(group_channels) .input_stride(1007) .output_stride(1111) .iterations(3) .TestX8(); } } } TEST(CHANNEL_SHUFFLE_NC_X32, two_groups_unit_batch) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(1) .groups(2) .group_channels(group_channels) .iterations(3) .TestX32(); } } TEST(CHANNEL_SHUFFLE_NC_X32, three_groups_unit_batch) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(1) .groups(3) .group_channels(group_channels) .iterations(3) .TestX32(); } } TEST(CHANNEL_SHUFFLE_NC_X32, four_groups_unit_batch) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(1) .groups(4) .group_channels(group_channels) .iterations(3) .TestX32(); } } TEST(CHANNEL_SHUFFLE_NC_X32, many_groups_unit_batch) { for (size_t groups = 5; groups < 12; groups += 3) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(1) .groups(groups) .group_channels(group_channels) .iterations(3) .TestX32(); } } } TEST(CHANNEL_SHUFFLE_NC_X32, two_groups_small_batch) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(2) .group_channels(group_channels) .iterations(3) .TestX32(); } } TEST(CHANNEL_SHUFFLE_NC_X32, three_groups_small_batch) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(3) .group_channels(group_channels) .iterations(3) .TestX32(); } } TEST(CHANNEL_SHUFFLE_NC_X32, four_groups_small_batch) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(4) .group_channels(group_channels) .iterations(3) .TestX32(); } } TEST(CHANNEL_SHUFFLE_NC_X32, many_groups_small_batch) { for (size_t groups = 5; groups < 12; groups += 3) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(groups) .group_channels(group_channels) .iterations(3) .TestX32(); } } } TEST(CHANNEL_SHUFFLE_NC_X32, two_groups_small_batch_with_input_stride) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(2) .group_channels(group_channels) .input_stride(511) .iterations(3) .TestX32(); } } TEST(CHANNEL_SHUFFLE_NC_X32, three_groups_small_batch_with_input_stride) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(3) .group_channels(group_channels) .input_stride(511) .iterations(3) .TestX32(); } } TEST(CHANNEL_SHUFFLE_NC_X32, four_groups_small_batch_with_input_stride) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(4) .group_channels(group_channels) .input_stride(511) .iterations(3) .TestX32(); } } TEST(CHANNEL_SHUFFLE_NC_X32, many_groups_small_batch_with_input_stride) { for (size_t groups = 5; groups < 12; groups += 3) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(groups) .group_channels(group_channels) .input_stride(1007) .iterations(3) .TestX32(); } } } TEST(CHANNEL_SHUFFLE_NC_X32, two_groups_small_batch_with_output_stride) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(2) .group_channels(group_channels) .output_stride(513) .iterations(3) .TestX32(); } } TEST(CHANNEL_SHUFFLE_NC_X32, three_groups_small_batch_with_output_stride) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(3) .group_channels(group_channels) .output_stride(513) .iterations(3) .TestX32(); } } TEST(CHANNEL_SHUFFLE_NC_X32, four_groups_small_batch_with_output_stride) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(4) .group_channels(group_channels) .output_stride(513) .iterations(3) .TestX32(); } } TEST(CHANNEL_SHUFFLE_NC_X32, many_groups_small_batch_with_output_stride) { for (size_t groups = 5; groups < 12; groups += 3) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(groups) .group_channels(group_channels) .output_stride(1111) .iterations(3) .TestX32(); } } } TEST(CHANNEL_SHUFFLE_NC_X32, two_groups_small_batch_with_input_and_output_stride) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(2) .group_channels(group_channels) .input_stride(511) .output_stride(513) .iterations(3) .TestX32(); } } TEST(CHANNEL_SHUFFLE_NC_X32, three_groups_small_batch_with_input_and_output_stride) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(3) .group_channels(group_channels) .input_stride(511) .output_stride(513) .iterations(3) .TestX32(); } } TEST(CHANNEL_SHUFFLE_NC_X32, four_groups_small_batch_with_input_and_output_stride) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(4) .group_channels(group_channels) .input_stride(511) .output_stride(513) .iterations(3) .TestX32(); } } TEST(CHANNEL_SHUFFLE_NC_X32, many_groups_small_batch_with_input_and_output_stride) { for (size_t groups = 5; groups < 12; groups += 3) { for (size_t group_channels = 1; group_channels < 100; group_channels += 15) { ChannelShuffleOperatorTester() .batch_size(3) .groups(groups) .group_channels(group_channels) .input_stride(1007) .output_stride(1111) .iterations(3) .TestX32(); } } }