150 lines
4.7 KiB
C++
150 lines
4.7 KiB
C++
// sherpa-onnx/csrc/sherpa-onnx-offline-source-separation.cc
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//
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// Copyright (c) 2025 Xiaomi Corporation
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#include <stdio.h>
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#include <chrono> // NOLINT
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#include <string>
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#include "sherpa-onnx/csrc/offline-source-separation.h"
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#include "sherpa-onnx/csrc/wave-reader.h"
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#include "sherpa-onnx/csrc/wave-writer.h"
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int main(int32_t argc, char *argv[]) {
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const char *kUsageMessage = R"usage(
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Non-streaming source separation with sherpa-onnx.
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Please visit
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https://github.com/k2-fsa/sherpa-onnx/releases/tag/source-separation-models
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to download models.
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Usage:
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(1) Use spleeter models
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wget https://github.com/k2-fsa/sherpa-onnx/releases/download/source-separation-models/sherpa-onnx-spleeter-2stems-fp16.tar.bz2
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tar xvf sherpa-onnx-spleeter-2stems-fp16.tar.bz2
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wget https://github.com/k2-fsa/sherpa-onnx/releases/download/source-separation-models/audio_example.wav
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./bin/sherpa-onnx-offline-source-separation \
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--spleeter-vocals=sherpa-onnx-spleeter-2stems-fp16/vocals.fp16.onnx \
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--spleeter-accompaniment=sherpa-onnx-spleeter-2stems-fp16/accompaniment.fp16.onnx \
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--input-wav=audio_example.wav \
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--output-vocals-wav=output_vocals.wav \
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--output-accompaniment-wav=output_accompaniment.wav
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(2) Use UVR models
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wget https://github.com/k2-fsa/sherpa-onnx/releases/download/source-separation-models/UVR_MDXNET_1_9703.onnx
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wget https://github.com/k2-fsa/sherpa-onnx/releases/download/source-separation-models/audio_example.wav
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./bin/sherpa-onnx-offline-source-separation \
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--uvr-model=./UVR_MDXNET_1_9703.onnx \
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--input-wav=audio_example.wav \
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--output-vocals-wav=output_vocals.wav \
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--output-accompaniment-wav=output_accompaniment.wav
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)usage";
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sherpa_onnx::ParseOptions po(kUsageMessage);
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sherpa_onnx::OfflineSourceSeparationConfig config;
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std::string input_wave;
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std::string output_vocals_wave;
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std::string output_accompaniment_wave;
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config.Register(&po);
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po.Register("input-wav", &input_wave, "Path to input wav.");
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po.Register("output-vocals-wav", &output_vocals_wave,
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"Path to output vocals wav");
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po.Register("output-accompaniment-wav", &output_accompaniment_wave,
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"Path to output accompaniment wav");
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po.Read(argc, argv);
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if (po.NumArgs() != 0) {
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fprintf(stderr, "Please don't give positional arguments\n");
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po.PrintUsage();
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exit(EXIT_FAILURE);
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}
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fprintf(stderr, "%s\n", config.ToString().c_str());
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if (input_wave.empty()) {
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fprintf(stderr, "Please provide --input-wav\n");
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po.PrintUsage();
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exit(EXIT_FAILURE);
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}
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if (output_vocals_wave.empty()) {
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fprintf(stderr, "Please provide --output-vocals-wav\n");
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po.PrintUsage();
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exit(EXIT_FAILURE);
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}
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if (output_accompaniment_wave.empty()) {
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fprintf(stderr, "Please provide --output-accompaniment-wav\n");
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po.PrintUsage();
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exit(EXIT_FAILURE);
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}
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if (!config.Validate()) {
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fprintf(stderr, "Errors in config!\n");
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exit(EXIT_FAILURE);
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}
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bool is_ok = false;
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sherpa_onnx::OfflineSourceSeparationInput input;
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input.samples.data =
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sherpa_onnx::ReadWaveMultiChannel(input_wave, &input.sample_rate, &is_ok);
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if (!is_ok) {
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fprintf(stderr, "Failed to read '%s'\n", input_wave.c_str());
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return -1;
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}
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fprintf(stderr, "Started\n");
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sherpa_onnx::OfflineSourceSeparation sp(config);
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const auto begin = std::chrono::steady_clock::now();
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auto output = sp.Process(input);
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const auto end = std::chrono::steady_clock::now();
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float elapsed_seconds =
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std::chrono::duration_cast<std::chrono::milliseconds>(end - begin)
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.count() /
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1000.;
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is_ok = sherpa_onnx::WriteWave(
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output_vocals_wave, output.sample_rate, output.stems[0].data[0].data(),
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output.stems[0].data[1].data(), output.stems[0].data[0].size());
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if (!is_ok) {
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fprintf(stderr, "Failed to write to '%s'\n", output_vocals_wave.c_str());
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exit(EXIT_FAILURE);
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}
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is_ok = sherpa_onnx::WriteWave(output_accompaniment_wave, output.sample_rate,
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output.stems[1].data[0].data(),
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output.stems[1].data[1].data(),
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output.stems[1].data[0].size());
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if (!is_ok) {
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fprintf(stderr, "Failed to write to '%s'\n",
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output_accompaniment_wave.c_str());
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exit(EXIT_FAILURE);
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}
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fprintf(stderr, "Done\n");
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fprintf(stderr, "Saved to write to '%s' and '%s'\n",
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output_vocals_wave.c_str(), output_accompaniment_wave.c_str());
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float duration =
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input.samples.data[0].size() / static_cast<float>(input.sample_rate);
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fprintf(stderr, "num threads: %d\n", config.model.num_threads);
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fprintf(stderr, "Elapsed seconds: %.3f s\n", elapsed_seconds);
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float rtf = elapsed_seconds / duration;
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fprintf(stderr, "Real time factor (RTF): %.3f / %.3f = %.3f\n",
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elapsed_seconds, duration, rtf);
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return 0;
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}
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