scale_fn_(&img_, &dst_img_, filter_type, phase_scaler));
}
- void RunTest() {
+ void RunTest(INTERP_FILTER filter_type) {
static const int kNumSizesToTest = 20;
static const int kNumScaleFactorsToTest = 4;
static const int kSizesToTest[] = {
22, 24, 26, 28, 30, 32, 34, 68, 128, 134
};
static const int kScaleFactors[] = { 1, 2, 3, 4 };
- for (INTERP_FILTER filter_type = 0; filter_type < 4; ++filter_type) {
- for (int phase_scaler = 0; phase_scaler < 16; ++phase_scaler) {
- for (int h = 0; h < kNumSizesToTest; ++h) {
- const int src_height = kSizesToTest[h];
- for (int w = 0; w < kNumSizesToTest; ++w) {
- const int src_width = kSizesToTest[w];
- for (int sf_up_idx = 0; sf_up_idx < kNumScaleFactorsToTest;
- ++sf_up_idx) {
- const int sf_up = kScaleFactors[sf_up_idx];
- for (int sf_down_idx = 0; sf_down_idx < kNumScaleFactorsToTest;
- ++sf_down_idx) {
- const int sf_down = kScaleFactors[sf_down_idx];
- const int dst_width = src_width * sf_up / sf_down;
- const int dst_height = src_height * sf_up / sf_down;
- if (sf_up == sf_down && sf_up != 1) {
- continue;
- }
- // I420 frame width and height must be even.
- if (!dst_width || !dst_height || dst_width & 1 ||
- dst_height & 1) {
- continue;
- }
- // vpx_convolve8_c() has restriction on the step which cannot
- // exceed 64 (ratio 1 to 4).
- if (src_width > 4 * dst_width || src_height > 4 * dst_height) {
- continue;
- }
- ASSERT_NO_FATAL_FAILURE(ResetScaleImages(
- src_width, src_height, dst_width, dst_height));
- ReferenceScaleFrame(filter_type, phase_scaler);
- ScaleFrame(filter_type, phase_scaler);
- if (memcmp(dst_img_.buffer_alloc, ref_img_.buffer_alloc,
- ref_img_.frame_size)) {
- printf(
- "filter_type = %d, phase_scaler = %d, src_width = %4d, "
- "src_height = %4d, dst_width = %4d, dst_height = %4d, "
- "scale factor = %d:%d\n",
- filter_type, phase_scaler, src_width, src_height,
- dst_width, dst_height, sf_down, sf_up);
- PrintDiff();
- }
- CompareImages(dst_img_);
- DeallocScaleImages();
+ for (int phase_scaler = 0; phase_scaler < 16; ++phase_scaler) {
+ for (int h = 0; h < kNumSizesToTest; ++h) {
+ const int src_height = kSizesToTest[h];
+ for (int w = 0; w < kNumSizesToTest; ++w) {
+ const int src_width = kSizesToTest[w];
+ for (int sf_up_idx = 0; sf_up_idx < kNumScaleFactorsToTest;
+ ++sf_up_idx) {
+ const int sf_up = kScaleFactors[sf_up_idx];
+ for (int sf_down_idx = 0; sf_down_idx < kNumScaleFactorsToTest;
+ ++sf_down_idx) {
+ const int sf_down = kScaleFactors[sf_down_idx];
+ const int dst_width = src_width * sf_up / sf_down;
+ const int dst_height = src_height * sf_up / sf_down;
+ if (sf_up == sf_down && sf_up != 1) {
+ continue;
}
+ // I420 frame width and height must be even.
+ if (!dst_width || !dst_height || dst_width & 1 ||
+ dst_height & 1) {
+ continue;
+ }
+ // vpx_convolve8_c() has restriction on the step which cannot
+ // exceed 64 (ratio 1 to 4).
+ if (src_width > 4 * dst_width || src_height > 4 * dst_height) {
+ continue;
+ }
+ ASSERT_NO_FATAL_FAILURE(ResetScaleImages(src_width, src_height,
+ dst_width, dst_height));
+ ReferenceScaleFrame(filter_type, phase_scaler);
+ ScaleFrame(filter_type, phase_scaler);
+ if (memcmp(dst_img_.buffer_alloc, ref_img_.buffer_alloc,
+ ref_img_.frame_size)) {
+ printf(
+ "filter_type = %d, phase_scaler = %d, src_width = %4d, "
+ "src_height = %4d, dst_width = %4d, dst_height = %4d, "
+ "scale factor = %d:%d\n",
+ filter_type, phase_scaler, src_width, src_height, dst_width,
+ dst_height, sf_down, sf_up);
+ PrintDiff();
+ }
+ CompareImages(dst_img_);
+ DeallocScaleImages();
}
}
}
ScaleFrameFunc scale_fn_;
};
-TEST_P(ScaleTest, ScaleFrame) { ASSERT_NO_FATAL_FAILURE(RunTest()); }
+TEST_P(ScaleTest, ScaleFrame_EightTap) { RunTest(EIGHTTAP); }
+TEST_P(ScaleTest, ScaleFrame_EightTapSmooth) { RunTest(EIGHTTAP_SMOOTH); }
+TEST_P(ScaleTest, ScaleFrame_EightTapSharp) { RunTest(EIGHTTAP_SHARP); }
+TEST_P(ScaleTest, ScaleFrame_Bilinear) { RunTest(BILINEAR); }
TEST_P(ScaleTest, DISABLED_Speed) {
static const int kCountSpeedTestBlock = 100;
projects / libvpx / commitdiff