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654320666d
Using fully qualified paths to include libyuv headers allows WebRTC to avoid to rely on the //third_party/libyuv:libyuv_config target to set the -I compiler flag. Today some WebRTC targets depend on //third_party/libyuv only to include //third_party/libyuv:libyuv_config but with fully qualified paths this should not be needed anymore. A follow-up CL will remove //third_party/libyuv from some targets that don't need it because they are not including libyuv headers. Bug: webrtc:8605 Change-Id: Icec707ca761aaf2ea8088e7f7a05ddde0de2619a No-Try: True Reviewed-on: https://webrtc-review.googlesource.com/28220 Commit-Queue: Mirko Bonadei <mbonadei@webrtc.org> Reviewed-by: Magnus Flodman <mflodman@webrtc.org> Cr-Commit-Position: refs/heads/master@{#21209}
150 lines
6.4 KiB
C++
150 lines
6.4 KiB
C++
/*
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* Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
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*
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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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#ifndef RTC_TOOLS_FRAME_ANALYZER_VIDEO_QUALITY_ANALYSIS_H_
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#define RTC_TOOLS_FRAME_ANALYZER_VIDEO_QUALITY_ANALYSIS_H_
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#include <string>
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#include <vector>
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#include <utility>
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#include "third_party/libyuv/include/libyuv/compare.h"
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#include "third_party/libyuv/include/libyuv/convert.h"
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namespace webrtc {
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namespace test {
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struct AnalysisResult {
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AnalysisResult() {}
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AnalysisResult(int frame_number, double psnr_value, double ssim_value)
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: frame_number(frame_number),
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psnr_value(psnr_value),
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ssim_value(ssim_value) {}
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int frame_number;
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double psnr_value;
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double ssim_value;
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};
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struct ResultsContainer {
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ResultsContainer();
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~ResultsContainer();
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std::vector<AnalysisResult> frames;
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};
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enum VideoAnalysisMetricsType {kPSNR, kSSIM};
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// A function to run the PSNR and SSIM analysis on the test file. The test file
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// comprises the frames that were captured during the quality measurement test.
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// There may be missing or duplicate frames. Also the frames start at a random
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// position in the original video. We should provide a statistics file along
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// with the test video. The stats file contains the connection between the
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// actual frames in the test file and their bar code number. There is one file
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// for the reference video and one for the test video. The stats file should
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// be in the form 'frame_xxxx yyyy', where xxxx is the consecutive
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// number of the frame in the test video, and yyyy is the barcode number.
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// The stats file could be produced by
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// tools/barcode_tools/barcode_decoder.py. This script decodes the barcodes
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// integrated in every video and generates the stats file. If three was some
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// problem with the decoding there would be 'Barcode error' instead of yyyy.
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// The stat files are used to compare the right frames with each other and
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// to calculate statistics.
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void RunAnalysis(const char* reference_file_name,
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const char* test_file_name,
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const char* stats_file_reference_name,
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const char* stats_file_test_name,
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int width,
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int height,
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ResultsContainer* results);
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// Compute PSNR or SSIM for an I420 frame (all planes). When we are calculating
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// PSNR values, the max return value (in the case where the test and reference
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// frames are exactly the same) will be 48. In the case of SSIM the max return
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// value will be 1.
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double CalculateMetrics(VideoAnalysisMetricsType video_metrics_type,
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const uint8_t* ref_frame,
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const uint8_t* test_frame,
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int width,
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int height);
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// Prints the result from the analysis in Chromium performance
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// numbers compatible format to stdout. If the results object contains no frames
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// no output will be written.
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void PrintAnalysisResults(const std::string& label, ResultsContainer* results);
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// Similar to the above, but will print to the specified file handle.
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void PrintAnalysisResults(FILE* output, const std::string& label,
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ResultsContainer* results);
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// The barcode number that means that the barcode could not be decoded.
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const int DECODE_ERROR = -1;
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// Clusters the frames in the file. First in the pair is the frame number and
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// second is the number of frames in that cluster. So if first frame in video
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// has number 100 and it is repeated 3 after each other, then the first entry
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// in the returned vector has first set to 100 and second set to 3.
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// Decode errors between two frames with same barcode, then it interprets
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// the frame with the decode error as having the same id as the two frames
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// around it. Eg. [400, DECODE_ERROR, DECODE_ERROR, 400] is becomes an entry
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// in return vector with first==400 and second==4. In other cases with decode
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// errors like [400, DECODE_ERROR, 401] becomes three entries, each with
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// second==1 and the middle has first==DECODE_ERROR.
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std::vector<std::pair<int, int> > CalculateFrameClusters(
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FILE* file,
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int* num_decode_errors);
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// Calculates max repeated and skipped frames and prints them to stdout in a
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// format that is compatible with Chromium performance numbers.
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void PrintMaxRepeatedAndSkippedFrames(const std::string& label,
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const std::string& stats_file_ref_name,
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const std::string& stats_file_test_name);
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// Similar to the above, but will print to the specified file handle.
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void PrintMaxRepeatedAndSkippedFrames(FILE* output,
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const std::string& label,
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const std::string& stats_file_ref_name,
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const std::string& stats_file_test_name);
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// Gets the next line from an open stats file.
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bool GetNextStatsLine(FILE* stats_file, char* line);
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// Calculates the size of a I420 frame if given the width and height.
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int GetI420FrameSize(int width, int height);
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// Extract the sequence of the frame in the video. I.e. if line is
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// frame_0023 0284, we will get 23.
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int ExtractFrameSequenceNumber(std::string line);
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// Checks if there is 'Barcode error' for the given line.
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bool IsThereBarcodeError(std::string line);
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// Extract the frame number in the reference video. I.e. if line is
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// frame_0023 0284, we will get 284.
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int ExtractDecodedFrameNumber(std::string line);
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// Extracts an I420 frame at position frame_number from the raw YUV file.
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bool ExtractFrameFromYuvFile(const char* i420_file_name,
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int width,
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int height,
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int frame_number,
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uint8_t* result_frame);
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// Extracts an I420 frame at position frame_number from the Y4M file. The first
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// frame has corresponded |frame_number| 0.
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bool ExtractFrameFromY4mFile(const char* i420_file_name,
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int width,
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int height,
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int frame_number,
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uint8_t* result_frame);
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} // namespace test
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} // namespace webrtc
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#endif // RTC_TOOLS_FRAME_ANALYZER_VIDEO_QUALITY_ANALYSIS_H_
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