blob: 782e39218be49ef192a116c82065c5a3dfd48fa3 [file] [log] [blame]
/*
* Copyright (c) 2013 The WebRTC 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.
*/
#include "webrtc/test/frame_generator.h"
#include <math.h>
#include <stdio.h>
#include <string.h>
#include "webrtc/base/checks.h"
#include "webrtc/common_video/libyuv/include/webrtc_libyuv.h"
#include "webrtc/system_wrappers/interface/clock.h"
namespace webrtc {
namespace test {
namespace {
class ChromaGenerator : public FrameGenerator {
public:
ChromaGenerator(size_t width, size_t height)
: angle_(0.0), width_(width), height_(height) {
assert(width > 0);
assert(height > 0);
}
VideoFrame* NextFrame() override {
frame_.CreateEmptyFrame(static_cast<int>(width_),
static_cast<int>(height_),
static_cast<int>(width_),
static_cast<int>((width_ + 1) / 2),
static_cast<int>((width_ + 1) / 2));
angle_ += 30.0;
uint8_t u = fabs(sin(angle_)) * 0xFF;
uint8_t v = fabs(cos(angle_)) * 0xFF;
memset(frame_.buffer(kYPlane), 0x80, frame_.allocated_size(kYPlane));
memset(frame_.buffer(kUPlane), u, frame_.allocated_size(kUPlane));
memset(frame_.buffer(kVPlane), v, frame_.allocated_size(kVPlane));
return &frame_;
}
private:
double angle_;
size_t width_;
size_t height_;
VideoFrame frame_;
};
class YuvFileGenerator : public FrameGenerator {
public:
YuvFileGenerator(std::vector<FILE*> files,
size_t width,
size_t height,
int frame_repeat_count)
: file_index_(0),
files_(files),
width_(width),
height_(height),
frame_size_(CalcBufferSize(kI420,
static_cast<int>(width_),
static_cast<int>(height_))),
frame_buffer_(new uint8_t[frame_size_]),
frame_display_count_(frame_repeat_count),
current_display_count_(0) {
assert(width > 0);
assert(height > 0);
assert(frame_repeat_count > 0);
}
virtual ~YuvFileGenerator() {
for (FILE* file : files_)
fclose(file);
}
VideoFrame* NextFrame() override {
if (current_display_count_ == 0)
ReadNextFrame();
if (++current_display_count_ >= frame_display_count_)
current_display_count_ = 0;
// If this is the last repeatition of this frame, it's OK to use the
// original instance, otherwise use a copy.
if (current_display_count_ == frame_display_count_)
return &last_read_frame_;
temp_frame_copy_.CopyFrame(last_read_frame_);
return &temp_frame_copy_;
}
void ReadNextFrame() {
size_t bytes_read =
fread(frame_buffer_.get(), 1, frame_size_, files_[file_index_]);
if (bytes_read < frame_size_) {
// No more frames to read in this file, rewind and move to next file.
rewind(files_[file_index_]);
file_index_ = (file_index_ + 1) % files_.size();
bytes_read = fread(frame_buffer_.get(), 1, frame_size_,
files_[file_index_]);
assert(bytes_read >= frame_size_);
}
last_read_frame_.CreateEmptyFrame(
static_cast<int>(width_), static_cast<int>(height_),
static_cast<int>(width_), static_cast<int>((width_ + 1) / 2),
static_cast<int>((width_ + 1) / 2));
ConvertToI420(kI420, frame_buffer_.get(), 0, 0, static_cast<int>(width_),
static_cast<int>(height_), 0, kVideoRotation_0,
&last_read_frame_);
}
private:
size_t file_index_;
const std::vector<FILE*> files_;
const size_t width_;
const size_t height_;
const size_t frame_size_;
const rtc::scoped_ptr<uint8_t[]> frame_buffer_;
const int frame_display_count_;
int current_display_count_;
VideoFrame last_read_frame_;
VideoFrame temp_frame_copy_;
};
class ScrollingImageFrameGenerator : public FrameGenerator {
public:
ScrollingImageFrameGenerator(Clock* clock,
const std::vector<FILE*>& files,
size_t source_width,
size_t source_height,
size_t target_width,
size_t target_height,
int64_t scroll_time_ms,
int64_t pause_time_ms)
: clock_(clock),
start_time_(clock->TimeInMilliseconds()),
scroll_time_(scroll_time_ms),
pause_time_(pause_time_ms),
num_frames_(files.size()),
current_frame_num_(num_frames_ - 1),
current_source_frame_(nullptr),
file_generator_(files, source_width, source_height, 1) {
DCHECK(clock_ != nullptr);
DCHECK_GT(num_frames_, 0u);
DCHECK_GE(source_height, target_height);
DCHECK_GE(source_width, target_width);
DCHECK_GE(scroll_time_ms, 0);
DCHECK_GE(pause_time_ms, 0);
DCHECK_GT(scroll_time_ms + pause_time_ms, 0);
current_frame_.CreateEmptyFrame(static_cast<int>(target_width),
static_cast<int>(target_height),
static_cast<int>(target_width),
static_cast<int>((target_width + 1) / 2),
static_cast<int>((target_width + 1) / 2));
}
virtual ~ScrollingImageFrameGenerator() {}
VideoFrame* NextFrame() override {
const int64_t kFrameDisplayTime = scroll_time_ + pause_time_;
const int64_t now = clock_->TimeInMilliseconds();
int64_t ms_since_start = now - start_time_;
size_t frame_num = (ms_since_start / kFrameDisplayTime) % num_frames_;
UpdateSourceFrame(frame_num);
double scroll_factor;
int64_t time_into_frame = ms_since_start % kFrameDisplayTime;
if (time_into_frame < scroll_time_) {
scroll_factor = static_cast<double>(time_into_frame) / scroll_time_;
} else {
scroll_factor = 1.0;
}
CropSourceToScrolledImage(scroll_factor);
return &current_frame_;
}
void UpdateSourceFrame(size_t frame_num) {
while (current_frame_num_ != frame_num) {
current_source_frame_ = file_generator_.NextFrame();
current_frame_num_ = (current_frame_num_ + 1) % num_frames_;
}
DCHECK(current_source_frame_ != nullptr);
}
void CropSourceToScrolledImage(double scroll_factor) {
const int kTargetWidth = current_frame_.width();
const int kTargetHeight = current_frame_.height();
int scroll_margin_x = current_source_frame_->width() - kTargetWidth;
int pixels_scrolled_x =
static_cast<int>(scroll_margin_x * scroll_factor + 0.5);
int scroll_margin_y = current_source_frame_->height() - kTargetHeight;
int pixels_scrolled_y =
static_cast<int>(scroll_margin_y * scroll_factor + 0.5);
int offset_y = (current_source_frame_->stride(PlaneType::kYPlane) *
pixels_scrolled_y) +
pixels_scrolled_x;
int offset_u = (current_source_frame_->stride(PlaneType::kUPlane) *
(pixels_scrolled_y / 2)) +
(pixels_scrolled_x / 2);
int offset_v = (current_source_frame_->stride(PlaneType::kVPlane) *
(pixels_scrolled_y / 2)) +
(pixels_scrolled_x / 2);
current_frame_.CreateFrame(
&current_source_frame_->buffer(PlaneType::kYPlane)[offset_y],
&current_source_frame_->buffer(PlaneType::kUPlane)[offset_u],
&current_source_frame_->buffer(PlaneType::kVPlane)[offset_v],
kTargetWidth, kTargetHeight,
current_source_frame_->stride(PlaneType::kYPlane),
current_source_frame_->stride(PlaneType::kUPlane),
current_source_frame_->stride(PlaneType::kVPlane));
}
Clock* const clock_;
const int64_t start_time_;
const int64_t scroll_time_;
const int64_t pause_time_;
const size_t num_frames_;
size_t current_frame_num_;
VideoFrame* current_source_frame_;
VideoFrame current_frame_;
YuvFileGenerator file_generator_;
};
} // namespace
FrameGenerator* FrameGenerator::CreateChromaGenerator(size_t width,
size_t height) {
return new ChromaGenerator(width, height);
}
FrameGenerator* FrameGenerator::CreateFromYuvFile(
std::vector<std::string> filenames,
size_t width,
size_t height,
int frame_repeat_count) {
assert(!filenames.empty());
std::vector<FILE*> files;
for (const std::string& filename : filenames) {
FILE* file = fopen(filename.c_str(), "rb");
DCHECK(file != nullptr);
files.push_back(file);
}
return new YuvFileGenerator(files, width, height, frame_repeat_count);
}
FrameGenerator* FrameGenerator::CreateScrollingInputFromYuvFiles(
Clock* clock,
std::vector<std::string> filenames,
size_t source_width,
size_t source_height,
size_t target_width,
size_t target_height,
int64_t scroll_time_ms,
int64_t pause_time_ms) {
assert(!filenames.empty());
std::vector<FILE*> files;
for (const std::string& filename : filenames) {
FILE* file = fopen(filename.c_str(), "rb");
DCHECK(file != nullptr);
files.push_back(file);
}
return new ScrollingImageFrameGenerator(
clock, files, source_width, source_height, target_width, target_height,
scroll_time_ms, pause_time_ms);
}
} // namespace test
} // namespace webrtc