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#include <math.h>
#include <memory>
#include <vector>
#include "third_party/googletest/src/include/gtest/gtest.h"
#include "vp9/simple_encode.h"
namespace vp9 {
namespace {
// TODO(angirbid): Find a better way to construct encode info
const int w = 352;
const int h = 288;
const int frame_rate_num = 30;
const int frame_rate_den = 1;
const int target_bitrate = 1000;
const int num_frames = 17;
const char infile_path[] = "bus_352x288_420_f20_b8.yuv";
double GetBitrateInKbps(size_t bit_size, int num_frames, int frame_rate_num,
int frame_rate_den) {
return static_cast<double>(bit_size) / num_frames * frame_rate_num /
frame_rate_den / 1000.0;
}
TEST(SimpleEncode, ComputeFirstPassStats) {
SimpleEncode simple_encode(w, h, frame_rate_num, frame_rate_den,
target_bitrate, num_frames, infile_path);
simple_encode.ComputeFirstPassStats();
std::vector<std::vector<double>> frame_stats =
simple_encode.ObserveFirstPassStats();
EXPECT_EQ(frame_stats.size(), static_cast<size_t>(num_frames));
size_t data_num = frame_stats[0].size();
// Read ObserveFirstPassStats before changing FIRSTPASS_STATS.
EXPECT_EQ(data_num, static_cast<size_t>(25));
for (size_t i = 0; i < frame_stats.size(); ++i) {
EXPECT_EQ(frame_stats[i].size(), data_num);
// FIRSTPASS_STATS's first element is frame
EXPECT_EQ(frame_stats[i][0], i);
// FIRSTPASS_STATS's last element is count, and the count is 1 for single
// frame stats
EXPECT_EQ(frame_stats[i][data_num - 1], 1);
}
}
TEST(SimpleEncode, GetCodingFrameNum) {
SimpleEncode simple_encode(w, h, frame_rate_num, frame_rate_den,
target_bitrate, num_frames, infile_path);
simple_encode.ComputeFirstPassStats();
int num_coding_frames = simple_encode.GetCodingFrameNum();
EXPECT_EQ(num_coding_frames, 19);
}
TEST(SimpleEncode, EncodeFrame) {
SimpleEncode simple_encode(w, h, frame_rate_num, frame_rate_den,
target_bitrate, num_frames, infile_path);
simple_encode.ComputeFirstPassStats();
int num_coding_frames = simple_encode.GetCodingFrameNum();
EXPECT_GE(num_coding_frames, num_frames);
// The coding frames include actual show frames and alternate reference
// frames, i.e. no show frame.
int ref_num_alternate_refereces = num_coding_frames - num_frames;
int num_alternate_refereces = 0;
simple_encode.StartEncode();
size_t total_data_bit_size = 0;
for (int i = 0; i < num_coding_frames; ++i) {
EncodeFrameResult encode_frame_result;
simple_encode.EncodeFrame(&encode_frame_result);
if (i == 0) {
EXPECT_EQ(encode_frame_result.show_idx, 0);
EXPECT_EQ(encode_frame_result.frame_type, kKeyFrame)
<< "The first coding frame should be key frame";
}
if (encode_frame_result.frame_type == kAlternateReference) {
++num_alternate_refereces;
}
EXPECT_GE(encode_frame_result.show_idx, 0);
EXPECT_LT(encode_frame_result.show_idx, num_frames);
if (i == num_coding_frames - 1) {
EXPECT_EQ(encode_frame_result.show_idx, num_frames - 1)
<< "The last coding frame should be the last display order";
}
EXPECT_GE(encode_frame_result.psnr, 34)
<< "The psnr is supposed to be greater than 34 given the "
"target_bitrate 1000 kbps";
total_data_bit_size += encode_frame_result.coding_data_bit_size;
}
EXPECT_EQ(num_alternate_refereces, ref_num_alternate_refereces);
const double bitrate = GetBitrateInKbps(total_data_bit_size, num_frames,
frame_rate_num, frame_rate_den);
const double off_target_threshold = 150;
EXPECT_LE(fabs(target_bitrate - bitrate), off_target_threshold);
simple_encode.EndEncode();
}
TEST(SimpleEncode, EncodeFrameWithQuantizeIndex) {
SimpleEncode simple_encode(w, h, frame_rate_num, frame_rate_den,
target_bitrate, num_frames, infile_path);
simple_encode.ComputeFirstPassStats();
int num_coding_frames = simple_encode.GetCodingFrameNum();
simple_encode.StartEncode();
for (int i = 0; i < num_coding_frames; ++i) {
const int assigned_quantize_index = 100 + i;
EncodeFrameResult encode_frame_result;
simple_encode.EncodeFrameWithQuantizeIndex(&encode_frame_result,
assigned_quantize_index);
EXPECT_EQ(encode_frame_result.quantize_index, assigned_quantize_index);
}
simple_encode.EndEncode();
}
} // namespace
} // namespace vp9
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