ref: 33176fef872c5d812d7ce8f9875d5166de460c5d
dir: /test/video_source.h/
/* * Copyright (c) 2012 The WebM project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #ifndef TEST_VIDEO_SOURCE_H_ #define TEST_VIDEO_SOURCE_H_ #if defined(_WIN32) #include <windows.h> #endif #include <cstdio> #include <cstdlib> #include <string> #include "test/acm_random.h" #include "vpx/vpx_encoder.h" namespace libvpx_test { // Helper macros to ensure LIBVPX_TEST_DATA_PATH is a quoted string. // These are undefined right below GetDataPath // NOTE: LIBVPX_TEST_DATA_PATH MUST NOT be a quoted string before // Stringification or the GetDataPath will fail at runtime #define TO_STRING(S) #S #define STRINGIFY(S) TO_STRING(S) // A simple function to encapsulate cross platform retrieval of test data path static std::string GetDataPath() { const char *const data_path = getenv("LIBVPX_TEST_DATA_PATH"); if (data_path == NULL) { #ifdef LIBVPX_TEST_DATA_PATH // In some environments, we cannot set environment variables // Instead, we set the data path by using a preprocessor symbol // which can be set from make files return STRINGIFY(LIBVPX_TEST_DATA_PATH); #else return "."; #endif } return data_path; } // Undefining stringification macros because they are not used elsewhere #undef TO_STRING #undef STRINGIFY static FILE *OpenTestDataFile(const std::string& file_name) { const std::string path_to_source = GetDataPath() + "/" + file_name; return fopen(path_to_source.c_str(), "rb"); } static FILE *GetTempOutFile(std::string *file_name) { file_name->clear(); #if defined(_WIN32) char fname[MAX_PATH]; char tmppath[MAX_PATH]; if (GetTempPathA(MAX_PATH, tmppath)) { // Assume for now that the filename generated is unique per process if (GetTempFileNameA(tmppath, "lvx", 0, fname)) { file_name->assign(fname); return fopen(fname, "wb+"); } } return NULL; #else return tmpfile(); #endif } class TempOutFile { public: TempOutFile() { file_ = GetTempOutFile(&file_name_); } ~TempOutFile() { CloseFile(); if (!file_name_.empty()) { EXPECT_EQ(0, remove(file_name_.c_str())); } } FILE *file() { return file_; } const std::string& file_name() { return file_name_; } protected: void CloseFile() { if (file_) { fclose(file_); file_ = NULL; } } FILE *file_; std::string file_name_; }; // Abstract base class for test video sources, which provide a stream of // vpx_image_t images with associated timestamps and duration. class VideoSource { public: virtual ~VideoSource() {} // Prepare the stream for reading, rewind/open as necessary. virtual void Begin() = 0; // Advance the cursor to the next frame virtual void Next() = 0; // Get the current video frame, or NULL on End-Of-Stream. virtual vpx_image_t *img() const = 0; // Get the presentation timestamp of the current frame. virtual vpx_codec_pts_t pts() const = 0; // Get the current frame's duration virtual unsigned long duration() const = 0; // Get the timebase for the stream virtual vpx_rational_t timebase() const = 0; // Get the current frame counter, starting at 0. virtual unsigned int frame() const = 0; // Get the current file limit. virtual unsigned int limit() const = 0; }; class DummyVideoSource : public VideoSource { public: DummyVideoSource() : img_(NULL), limit_(100), width_(0), height_(0) { SetSize(80, 64); } virtual ~DummyVideoSource() { vpx_img_free(img_); } virtual void Begin() { frame_ = 0; FillFrame(); } virtual void Next() { ++frame_; FillFrame(); } virtual vpx_image_t *img() const { return (frame_ < limit_) ? img_ : NULL; } // Models a stream where Timebase = 1/FPS, so pts == frame. virtual vpx_codec_pts_t pts() const { return frame_; } virtual unsigned long duration() const { return 1; } virtual vpx_rational_t timebase() const { const vpx_rational_t t = {1, 30}; return t; } virtual unsigned int frame() const { return frame_; } virtual unsigned int limit() const { return limit_; } void set_limit(unsigned int limit) { limit_ = limit; } void SetSize(unsigned int width, unsigned int height) { if (width != width_ || height != height_) { vpx_img_free(img_); raw_sz_ = ((width + 31)&~31) * height * 3 / 2; img_ = vpx_img_alloc(NULL, VPX_IMG_FMT_I420, width, height, 32); width_ = width; height_ = height; } } protected: virtual void FillFrame() { if (img_) memset(img_->img_data, 0, raw_sz_); } vpx_image_t *img_; size_t raw_sz_; unsigned int limit_; unsigned int frame_; unsigned int width_; unsigned int height_; }; class RandomVideoSource : public DummyVideoSource { public: RandomVideoSource(int seed = ACMRandom::DeterministicSeed()) : rnd_(seed), seed_(seed) { } protected: // Reset the RNG to get a matching stream for the second pass virtual void Begin() { frame_ = 0; rnd_.Reset(seed_); FillFrame(); } // 15 frames of noise, followed by 15 static frames. Reset to 0 rather // than holding previous frames to encourage keyframes to be thrown. virtual void FillFrame() { if (img_) { if (frame_ % 30 < 15) for (size_t i = 0; i < raw_sz_; ++i) img_->img_data[i] = rnd_.Rand8(); else memset(img_->img_data, 0, raw_sz_); } } ACMRandom rnd_; int seed_; }; // Abstract base class for test video sources, which provide a stream of // decompressed images to the decoder. class CompressedVideoSource { public: virtual ~CompressedVideoSource() {} virtual void Init() = 0; // Prepare the stream for reading, rewind/open as necessary. virtual void Begin() = 0; // Advance the cursor to the next frame virtual void Next() = 0; virtual const uint8_t *cxdata() const = 0; virtual size_t frame_size() const = 0; virtual unsigned int frame_number() const = 0; }; } // namespace libvpx_test #endif // TEST_VIDEO_SOURCE_H_