#include #include #include #include #include using namespace torch::indexing; namespace torchaudio::sox { std::tuple get_info_file( const std::string& path, const std::optional& format) { SoxFormat sf(sox_open_read( path.c_str(), /*signal=*/nullptr, /*encoding=*/nullptr, /*filetype=*/format.has_value() ? format.value().c_str() : nullptr)); validate_input_file(sf, path); return std::make_tuple( static_cast(sf->signal.rate), static_cast(sf->signal.length / sf->signal.channels), static_cast(sf->signal.channels), static_cast(sf->encoding.bits_per_sample), get_encoding(sf->encoding.encoding)); } std::vector> get_effects( const std::optional& frame_offset, const std::optional& num_frames) { const auto offset = frame_offset.value_or(0); TORCH_CHECK( offset >= 0, "Invalid argument: frame_offset must be non-negative. Found: ", offset); const auto frames = num_frames.value_or(-1); TORCH_CHECK( frames > 0 || frames == -1, "Invalid argument: num_frames must be -1 or greater than 0."); std::vector> effects; if (frames != -1) { std::ostringstream os_offset, os_frames; os_offset << offset << "s"; os_frames << "+" << frames << "s"; effects.emplace_back( std::vector{"trim", os_offset.str(), os_frames.str()}); } else if (offset != 0) { std::ostringstream os_offset; os_offset << offset << "s"; effects.emplace_back(std::vector{"trim", os_offset.str()}); } return effects; } std::tuple load_audio_file( const std::string& path, const std::optional& frame_offset, const std::optional& num_frames, std::optional normalize, std::optional channels_first, const std::optional& format) { auto effects = get_effects(frame_offset, num_frames); return apply_effects_file(path, effects, normalize, channels_first, format); } void save_audio_file( const std::string& path, torch::Tensor tensor, int64_t sample_rate, bool channels_first, std::optional compression, std::optional format, std::optional encoding, std::optional bits_per_sample) { validate_input_tensor(tensor); const auto filetype = [&]() { if (format.has_value()) { return format.value(); } return get_filetype(path); }(); if (filetype == "amr-nb") { const auto num_channels = tensor.size(channels_first ? 0 : 1); TORCH_CHECK( num_channels == 1, "amr-nb format only supports single channel audio."); } else if (filetype == "htk") { const auto num_channels = tensor.size(channels_first ? 0 : 1); TORCH_CHECK( num_channels == 1, "htk format only supports single channel audio."); } else if (filetype == "gsm") { const auto num_channels = tensor.size(channels_first ? 0 : 1); TORCH_CHECK( num_channels == 1, "gsm format only supports single channel audio."); TORCH_CHECK( sample_rate == 8000, "gsm format only supports a sampling rate of 8kHz."); } const auto signal_info = get_signalinfo(&tensor, sample_rate, filetype, channels_first); const auto encoding_info = get_encodinginfo_for_save( filetype, tensor.dtype(), compression, encoding, bits_per_sample); SoxFormat sf(sox_open_write( path.c_str(), &signal_info, &encoding_info, /*filetype=*/filetype.c_str(), /*oob=*/nullptr, /*overwrite_permitted=*/nullptr)); TORCH_CHECK( static_cast(sf) != nullptr, "Error saving audio file: failed to open file ", path); SoxEffectsChain chain( /*input_encoding=*/get_tensor_encodinginfo(tensor.dtype()), /*output_encoding=*/sf->encoding); chain.addInputTensor(&tensor, sample_rate, channels_first); chain.addOutputFile(sf); chain.run(); } } // namespace torchaudio::sox