/* * 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 #include #include #include #include "webrtc/modules/audio_processing/transient/transient_detector.h" #include "webrtc/modules/audio_processing/transient/file_utils.h" #include "webrtc/base/scoped_ptr.h" #include "webrtc/system_wrappers/include/file_wrapper.h" using rtc::scoped_ptr; using webrtc::FileWrapper; using webrtc::TransientDetector; // Application to generate a RTP timing file. // Opens the PCM file and divides the signal in frames. // Creates a send times array, one for each step. // Each block that contains a transient, has an infinite send time. // The resultant array is written to a DAT file // Returns -1 on error or |lost_packets| otherwise. int main(int argc, char* argv[]) { if (argc != 5) { printf("\n%s - Application to generate a RTP timing file.\n\n", argv[0]); printf("%s PCMfile DATfile chunkSize sampleRate\n\n", argv[0]); printf("Opens the PCMfile with sampleRate in Hertz.\n"); printf("Creates a send times array, one for each chunkSize "); printf("milliseconds step.\n"); printf("Each block that contains a transient, has an infinite send time. "); printf("The resultant array is written to a DATfile.\n\n"); return 0; } scoped_ptr pcm_file(FileWrapper::Create()); pcm_file->OpenFile(argv[1], true, false, false); if (!pcm_file->Open()) { printf("\nThe %s could not be opened.\n\n", argv[1]); return -1; } scoped_ptr dat_file(FileWrapper::Create()); dat_file->OpenFile(argv[2], false, false, false); if (!dat_file->Open()) { printf("\nThe %s could not be opened.\n\n", argv[2]); return -1; } int chunk_size_ms = atoi(argv[3]); if (chunk_size_ms <= 0) { printf("\nThe chunkSize must be a positive integer\n\n"); return -1; } int sample_rate_hz = atoi(argv[4]); if (sample_rate_hz <= 0) { printf("\nThe sampleRate must be a positive integer\n\n"); return -1; } TransientDetector detector(sample_rate_hz); int lost_packets = 0; size_t audio_buffer_length = chunk_size_ms * sample_rate_hz / 1000; scoped_ptr audio_buffer(new float[audio_buffer_length]); std::vector send_times; // Read first buffer from the PCM test file. size_t file_samples_read = ReadInt16FromFileToFloatBuffer( pcm_file.get(), audio_buffer_length, audio_buffer.get()); for (int time = 0; file_samples_read > 0; time += chunk_size_ms) { // Pad the rest of the buffer with zeros. for (size_t i = file_samples_read; i < audio_buffer_length; ++i) { audio_buffer[i] = 0.0; } float value = detector.Detect(audio_buffer.get(), audio_buffer_length, NULL, 0); if (value < 0.5f) { value = time; } else { value = FLT_MAX; ++lost_packets; } send_times.push_back(value); // Read next buffer from the PCM test file. file_samples_read = ReadInt16FromFileToFloatBuffer(pcm_file.get(), audio_buffer_length, audio_buffer.get()); } size_t floats_written = WriteFloatBufferToFile(dat_file.get(), send_times.size(), &send_times[0]); if (floats_written == 0) { printf("\nThe send times could not be written to DAT file\n\n"); return -1; } pcm_file->CloseFile(); dat_file->CloseFile(); return lost_packets; }