/* * Copyright 2019 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ // TODO(b/129481165): remove the #pragma below and fix conversion issues #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wconversion" #undef LOG_TAG #define LOG_TAG "RegionSamplingTest" #include #include #include #include #include #include "RegionSamplingThread.h" namespace android { struct RegionSamplingTest : testing::Test { public: static uint32_t constexpr kBlack = 0; static uint32_t constexpr kWhite = std::numeric_limits::max(); static int constexpr kWidth = 98; static int constexpr kStride = 100; static int constexpr kHeight = 29; static int constexpr kOrientation = ui::Transform::ROT_0; std::array buffer; Rect const whole_area{0, 0, kWidth, kHeight}; }; TEST_F(RegionSamplingTest, calculate_mean_white) { std::fill(buffer.begin(), buffer.end(), kWhite); EXPECT_THAT(sampleArea(buffer.data(), kWidth, kHeight, kStride, kOrientation, whole_area), testing::FloatEq(1.0f)); } TEST_F(RegionSamplingTest, calculate_mean_black) { std::fill(buffer.begin(), buffer.end(), kBlack); EXPECT_THAT(sampleArea(buffer.data(), kWidth, kHeight, kStride, kOrientation, whole_area), testing::FloatEq(0.0f)); } TEST_F(RegionSamplingTest, calculate_mean_partial_region) { auto const halfway_down = kHeight >> 1; auto const half = halfway_down * kStride; Rect const partial_region = {whole_area.left, whole_area.top, whole_area.right, whole_area.top + halfway_down}; std::fill(buffer.begin(), buffer.begin() + half, 0); std::fill(buffer.begin() + half, buffer.end(), kWhite); EXPECT_THAT(sampleArea(buffer.data(), kWidth, kHeight, kStride, kOrientation, partial_region), testing::FloatEq(0.0f)); } TEST_F(RegionSamplingTest, calculate_mean_mixed_values) { std::generate(buffer.begin(), buffer.end(), [n = 0]() mutable { uint32_t const pixel = (n % std::numeric_limits::max()) << ((n % 3) * CHAR_BIT); n++; return pixel; }); EXPECT_THAT(sampleArea(buffer.data(), kWidth, kHeight, kStride, kOrientation, whole_area), testing::FloatNear(0.16f, 0.01f)); } TEST_F(RegionSamplingTest, bimodal_tiebreaker) { std::generate(buffer.begin(), buffer.end(), [n = 0]() mutable { return (n++ % 2) ? kBlack : kWhite; }); EXPECT_THAT(sampleArea(buffer.data(), kWidth, kHeight, kStride, kOrientation, whole_area), testing::FloatEq(0.5f)); } TEST_F(RegionSamplingTest, bounds_checking) { std::generate(buffer.begin(), buffer.end(), [n = 0]() mutable { return (n++ > (kStride * kHeight >> 1)) ? kBlack : kWhite; }); Rect invalid_region{0, 0, 4, kHeight + 1}; EXPECT_THAT(sampleArea(buffer.data(), kWidth, kHeight, kStride, kOrientation, invalid_region), testing::Eq(0.0)); invalid_region = Rect{0, 0, -4, kHeight}; EXPECT_THAT(sampleArea(buffer.data(), kWidth, kHeight, kStride, kOrientation, invalid_region), testing::Eq(0.0)); invalid_region = Rect{3, 0, 2, 0}; EXPECT_THAT(sampleArea(buffer.data(), kWidth, kHeight, kStride, kOrientation, invalid_region), testing::Eq(0.0)); invalid_region = Rect{0, 3, 0, 2}; EXPECT_THAT(sampleArea(buffer.data(), kWidth, kHeight, kStride, kOrientation, invalid_region), testing::Eq(0.0)); } // workaround for b/133849373 TEST_F(RegionSamplingTest, orientation_90) { std::generate(buffer.begin(), buffer.end(), [n = 0]() mutable { return (n++ > (kStride * kHeight >> 1)) ? kBlack : kWhite; }); Rect tl_region{0, 0, 4, 4}; EXPECT_THAT(sampleArea(buffer.data(), kWidth, kHeight, kStride, ui::Transform::ROT_0, tl_region), testing::Eq(1.0)); EXPECT_THAT(sampleArea(buffer.data(), kWidth, kHeight, kStride, ui::Transform::ROT_180, tl_region), testing::Eq(1.0)); EXPECT_THAT(sampleArea(buffer.data(), kWidth, kHeight, kStride, ui::Transform::ROT_90, tl_region), testing::Eq(0.0)); EXPECT_THAT(sampleArea(buffer.data(), kWidth, kHeight, kStride, ui::Transform::ROT_270, tl_region), testing::Eq(0.0)); Rect br_region{kWidth - 4, kHeight - 4, kWidth, kHeight}; EXPECT_THAT(sampleArea(buffer.data(), kWidth, kHeight, kStride, ui::Transform::ROT_0, br_region), testing::Eq(0.0)); EXPECT_THAT(sampleArea(buffer.data(), kWidth, kHeight, kStride, ui::Transform::ROT_180, br_region), testing::Eq(0.0)); EXPECT_THAT(sampleArea(buffer.data(), kWidth, kHeight, kStride, ui::Transform::ROT_90, br_region), testing::Eq(1.0)); EXPECT_THAT(sampleArea(buffer.data(), kWidth, kHeight, kStride, ui::Transform::ROT_270, br_region), testing::Eq(1.0)); } } // namespace android // TODO(b/129481165): remove the #pragma below and fix conversion issues #pragma clang diagnostic pop // ignored "-Wconversion"