858475a03a
For cases where there's no transform set in bit 0 (the left edge of the SB) but bit 0 of mask_4x4_int is set (the edge 4 pixels from the left edge needs filtering), it was incorrectly being skipped before. This situation only happens on the leftmost edge of the image, as the edge at column 0 is intentionally skipped since there aren't pixels to the left to read. Change-Id: Ib2fbbcb40166e90af31b1a0e13b85b68c226cbd3
204 lines
8.8 KiB
C++
204 lines
8.8 KiB
C++
/*
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Copyright (c) 2012 The WebM project authors. All Rights Reserved.
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Use of this source code is governed by a BSD-style license
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that can be found in the LICENSE file in the root of the source
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tree. An additional intellectual property rights grant can be found
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in the file PATENTS. All contributing project authors may
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be found in the AUTHORS file in the root of the source tree.
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*/
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#include <cstdio>
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#include <cstdlib>
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#include <string>
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#include "third_party/googletest/src/include/gtest/gtest.h"
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#include "test/codec_factory.h"
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#include "test/decode_test_driver.h"
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#include "test/ivf_video_source.h"
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#include "test/webm_video_source.h"
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#include "test/util.h"
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#include "test/md5_helper.h"
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extern "C" {
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#include "vpx_mem/vpx_mem.h"
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}
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namespace {
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#if CONFIG_VP8_DECODER
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const char *kVP8TestVectors[] = {
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"vp80-00-comprehensive-001.ivf",
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"vp80-00-comprehensive-002.ivf", "vp80-00-comprehensive-003.ivf",
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"vp80-00-comprehensive-004.ivf", "vp80-00-comprehensive-005.ivf",
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"vp80-00-comprehensive-006.ivf", "vp80-00-comprehensive-007.ivf",
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"vp80-00-comprehensive-008.ivf", "vp80-00-comprehensive-009.ivf",
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"vp80-00-comprehensive-010.ivf", "vp80-00-comprehensive-011.ivf",
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"vp80-00-comprehensive-012.ivf", "vp80-00-comprehensive-013.ivf",
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"vp80-00-comprehensive-014.ivf", "vp80-00-comprehensive-015.ivf",
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"vp80-00-comprehensive-016.ivf", "vp80-00-comprehensive-017.ivf",
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"vp80-00-comprehensive-018.ivf", "vp80-01-intra-1400.ivf",
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"vp80-01-intra-1411.ivf", "vp80-01-intra-1416.ivf",
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"vp80-01-intra-1417.ivf", "vp80-02-inter-1402.ivf",
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"vp80-02-inter-1412.ivf", "vp80-02-inter-1418.ivf",
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"vp80-02-inter-1424.ivf", "vp80-03-segmentation-01.ivf",
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"vp80-03-segmentation-02.ivf", "vp80-03-segmentation-03.ivf",
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"vp80-03-segmentation-04.ivf", "vp80-03-segmentation-1401.ivf",
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"vp80-03-segmentation-1403.ivf", "vp80-03-segmentation-1407.ivf",
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"vp80-03-segmentation-1408.ivf", "vp80-03-segmentation-1409.ivf",
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"vp80-03-segmentation-1410.ivf", "vp80-03-segmentation-1413.ivf",
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"vp80-03-segmentation-1414.ivf", "vp80-03-segmentation-1415.ivf",
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"vp80-03-segmentation-1425.ivf", "vp80-03-segmentation-1426.ivf",
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"vp80-03-segmentation-1427.ivf", "vp80-03-segmentation-1432.ivf",
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"vp80-03-segmentation-1435.ivf", "vp80-03-segmentation-1436.ivf",
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"vp80-03-segmentation-1437.ivf", "vp80-03-segmentation-1441.ivf",
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"vp80-03-segmentation-1442.ivf", "vp80-04-partitions-1404.ivf",
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"vp80-04-partitions-1405.ivf", "vp80-04-partitions-1406.ivf",
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"vp80-05-sharpness-1428.ivf", "vp80-05-sharpness-1429.ivf",
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"vp80-05-sharpness-1430.ivf", "vp80-05-sharpness-1431.ivf",
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"vp80-05-sharpness-1433.ivf", "vp80-05-sharpness-1434.ivf",
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"vp80-05-sharpness-1438.ivf", "vp80-05-sharpness-1439.ivf",
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"vp80-05-sharpness-1440.ivf", "vp80-05-sharpness-1443.ivf"
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};
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#endif
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#if CONFIG_VP9_DECODER
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const char *kVP9TestVectors[] = {
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"vp90-00-quantizer-00.webm", "vp90-00-quantizer-01.webm",
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"vp90-00-quantizer-02.webm", "vp90-00-quantizer-03.webm",
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"vp90-00-quantizer-04.webm", "vp90-00-quantizer-05.webm",
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"vp90-00-quantizer-06.webm", "vp90-00-quantizer-07.webm",
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"vp90-00-quantizer-08.webm", "vp90-00-quantizer-09.webm",
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"vp90-00-quantizer-10.webm", "vp90-00-quantizer-11.webm",
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"vp90-00-quantizer-12.webm", "vp90-00-quantizer-13.webm",
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"vp90-00-quantizer-14.webm", "vp90-00-quantizer-15.webm",
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"vp90-00-quantizer-16.webm", "vp90-00-quantizer-17.webm",
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"vp90-00-quantizer-18.webm", "vp90-00-quantizer-19.webm",
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"vp90-00-quantizer-20.webm", "vp90-00-quantizer-21.webm",
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"vp90-00-quantizer-22.webm", "vp90-00-quantizer-23.webm",
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"vp90-00-quantizer-24.webm", "vp90-00-quantizer-25.webm",
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"vp90-00-quantizer-26.webm", "vp90-00-quantizer-27.webm",
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"vp90-00-quantizer-28.webm", "vp90-00-quantizer-29.webm",
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"vp90-00-quantizer-30.webm", "vp90-00-quantizer-31.webm",
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"vp90-00-quantizer-32.webm", "vp90-00-quantizer-33.webm",
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"vp90-00-quantizer-34.webm", "vp90-00-quantizer-35.webm",
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"vp90-00-quantizer-36.webm", "vp90-00-quantizer-37.webm",
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"vp90-00-quantizer-38.webm", "vp90-00-quantizer-39.webm",
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"vp90-00-quantizer-40.webm", "vp90-00-quantizer-41.webm",
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"vp90-00-quantizer-42.webm", "vp90-00-quantizer-43.webm",
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"vp90-00-quantizer-44.webm", "vp90-00-quantizer-45.webm",
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"vp90-00-quantizer-46.webm", "vp90-00-quantizer-47.webm",
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"vp90-00-quantizer-48.webm", "vp90-00-quantizer-49.webm",
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"vp90-00-quantizer-50.webm", "vp90-00-quantizer-51.webm",
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"vp90-00-quantizer-52.webm", "vp90-00-quantizer-53.webm",
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"vp90-00-quantizer-54.webm", "vp90-00-quantizer-55.webm",
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"vp90-00-quantizer-56.webm", "vp90-00-quantizer-57.webm",
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"vp90-00-quantizer-58.webm", "vp90-00-quantizer-59.webm",
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"vp90-00-quantizer-60.webm", "vp90-00-quantizer-61.webm",
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"vp90-00-quantizer-62.webm", "vp90-00-quantizer-63.webm",
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"vp90-01-sharpness-1.webm", "vp90-01-sharpness-2.webm",
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"vp90-01-sharpness-3.webm", "vp90-01-sharpness-4.webm",
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"vp90-01-sharpness-5.webm", "vp90-01-sharpness-6.webm",
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"vp90-01-sharpness-7.webm", "vp90-02-size-08x08.webm",
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"vp90-02-size-08x10.webm", "vp90-02-size-08x16.webm",
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"vp90-02-size-08x18.webm", "vp90-02-size-08x32.webm",
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"vp90-02-size-08x34.webm", "vp90-02-size-08x64.webm",
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"vp90-02-size-08x66.webm", "vp90-02-size-10x08.webm",
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"vp90-02-size-10x10.webm", "vp90-02-size-10x16.webm",
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"vp90-02-size-10x18.webm", "vp90-02-size-10x32.webm",
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"vp90-02-size-10x34.webm", "vp90-02-size-10x64.webm",
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"vp90-02-size-10x66.webm", "vp90-02-size-16x08.webm",
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"vp90-02-size-16x10.webm", "vp90-02-size-16x16.webm",
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"vp90-02-size-16x18.webm", "vp90-02-size-16x32.webm",
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"vp90-02-size-16x34.webm", "vp90-02-size-16x64.webm",
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"vp90-02-size-16x66.webm", "vp90-02-size-18x08.webm",
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"vp90-02-size-18x10.webm", "vp90-02-size-18x16.webm",
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"vp90-02-size-18x18.webm", "vp90-02-size-18x32.webm",
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"vp90-02-size-18x34.webm", "vp90-02-size-18x64.webm",
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"vp90-02-size-18x66.webm", "vp90-02-size-32x08.webm",
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"vp90-02-size-32x10.webm", "vp90-02-size-32x16.webm",
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"vp90-02-size-32x18.webm", "vp90-02-size-32x32.webm",
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"vp90-02-size-32x34.webm", "vp90-02-size-32x64.webm",
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"vp90-02-size-32x66.webm", "vp90-02-size-34x08.webm",
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"vp90-02-size-34x10.webm", "vp90-02-size-34x16.webm",
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"vp90-02-size-34x18.webm", "vp90-02-size-34x32.webm",
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"vp90-02-size-34x34.webm", "vp90-02-size-34x64.webm",
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"vp90-02-size-34x66.webm", "vp90-02-size-64x08.webm",
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"vp90-02-size-64x10.webm", "vp90-02-size-64x16.webm",
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"vp90-02-size-64x18.webm", "vp90-02-size-64x32.webm",
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"vp90-02-size-64x34.webm", "vp90-02-size-64x64.webm",
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"vp90-02-size-64x66.webm", "vp90-02-size-66x08.webm",
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"vp90-02-size-66x10.webm", "vp90-02-size-66x16.webm",
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"vp90-02-size-66x18.webm", "vp90-02-size-66x32.webm",
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"vp90-02-size-66x34.webm", "vp90-02-size-66x64.webm",
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"vp90-02-size-66x66.webm",
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};
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#endif
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class TestVectorTest : public ::libvpx_test::DecoderTest,
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public ::libvpx_test::CodecTestWithParam<const char*> {
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protected:
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TestVectorTest() : DecoderTest(GET_PARAM(0)), md5_file_(NULL) {}
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virtual ~TestVectorTest() {
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if (md5_file_)
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fclose(md5_file_);
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}
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void OpenMD5File(const std::string& md5_file_name_) {
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md5_file_ = libvpx_test::OpenTestDataFile(md5_file_name_);
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ASSERT_TRUE(md5_file_) << "Md5 file open failed. Filename: "
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<< md5_file_name_;
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}
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virtual void DecompressedFrameHook(const vpx_image_t& img,
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const unsigned int frame_number) {
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char expected_md5[33];
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char junk[128];
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// Read correct md5 checksums.
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const int res = fscanf(md5_file_, "%s %s", expected_md5, junk);
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ASSERT_NE(res, EOF) << "Read md5 data failed";
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expected_md5[32] = '\0';
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::libvpx_test::MD5 md5_res;
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md5_res.Add(&img);
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const char *actual_md5 = md5_res.Get();
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// Check md5 match.
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ASSERT_STREQ(expected_md5, actual_md5)
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<< "Md5 checksums don't match: frame number = " << frame_number;
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}
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private:
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FILE *md5_file_;
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};
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// This test runs through the whole set of test vectors, and decodes them.
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// The md5 checksums are computed for each frame in the video file. If md5
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// checksums match the correct md5 data, then the test is passed. Otherwise,
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// the test failed.
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TEST_P(TestVectorTest, MD5Match) {
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const std::string filename = GET_PARAM(1);
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libvpx_test::CompressedVideoSource *video = NULL;
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// Open compressed video file.
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if (filename.substr(filename.length() - 3, 3) == "ivf") {
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video = new libvpx_test::IVFVideoSource(filename);
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} else if (filename.substr(filename.length() - 4, 4) == "webm") {
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video = new libvpx_test::WebMVideoSource(filename);
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}
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video->Init();
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// Construct md5 file name.
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const std::string md5_filename = filename + ".md5";
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OpenMD5File(md5_filename);
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// Decode frame, and check the md5 matching.
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ASSERT_NO_FATAL_FAILURE(RunLoop(video));
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delete video;
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}
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VP8_INSTANTIATE_TEST_CASE(TestVectorTest,
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::testing::ValuesIn(kVP8TestVectors));
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VP9_INSTANTIATE_TEST_CASE(TestVectorTest,
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::testing::ValuesIn(kVP9TestVectors));
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} // namespace
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