/* * Copyright (C) 2016 Jared Boone, ShareBrained Technology, Inc. * * This file is part of PortaPack. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, * Boston, MA 02110-1301, USA. */ #include "ui_record_view.hpp" #include "portapack.hpp" using namespace portapack; #include "file.hpp" #include "time.hpp" #include "string_format.hpp" #include "utility.hpp" #include class FileWriter : public Writer { public: FileWriter() = default; FileWriter(const FileWriter&) = delete; FileWriter& operator=(const FileWriter&) = delete; FileWriter(FileWriter&& file) = delete; FileWriter& operator=(FileWriter&&) = delete; Optional create(const std::string& filename) { return file.create(filename); } File::Result write(const void* const buffer, const size_t bytes) override { auto write_result = file.write(buffer, bytes) ; if( write_result.is_ok() ) { bytes_written += write_result.value(); } return write_result; } protected: File file; uint64_t bytes_written { 0 }; }; using RawFileWriter = FileWriter; class WAVFileWriter : public FileWriter { public: WAVFileWriter( size_t sampling_rate ) : header { sampling_rate } { } WAVFileWriter(const WAVFileWriter&) = delete; WAVFileWriter& operator=(const WAVFileWriter&) = delete; WAVFileWriter(WAVFileWriter&&) = delete; WAVFileWriter& operator=(WAVFileWriter&&) = delete; ~WAVFileWriter() { update_header(); } Optional create( const std::string& filename ) { const auto create_error = FileWriter::create(filename); if( create_error.is_valid() ) { return create_error; } else { update_header(); return { }; } } private: struct fmt_pcm_t { constexpr fmt_pcm_t( const uint32_t sampling_rate ) : nSamplesPerSec { sampling_rate }, nAvgBytesPerSec { nSamplesPerSec * nBlockAlign } { } private: const uint8_t ckID[4] { 'f', 'm', 't', ' ' }; const uint32_t cksize { 16 }; const uint16_t wFormatTag { 0x0001 }; const uint16_t nChannels { 1 }; const uint32_t nSamplesPerSec; const uint32_t nAvgBytesPerSec; const uint16_t nBlockAlign { 2 }; const uint16_t wBitsPerSample { 16 }; }; struct data_t { void set_size(const uint32_t value) { cksize = value; } private: const uint8_t ckID[4] { 'd', 'a', 't', 'a' }; uint32_t cksize { 0 }; }; struct header_t { constexpr header_t( const uint32_t sampling_rate ) : fmt { sampling_rate } { } void set_data_size(const uint32_t value) { data.set_size(value); cksize = sizeof(header_t) + value - 8; } private: const uint8_t riff_id[4] { 'R', 'I', 'F', 'F' }; uint32_t cksize { 0 }; const uint8_t wave_id[4] { 'W', 'A', 'V', 'E' }; fmt_pcm_t fmt; data_t data; }; header_t header; void update_header() { header.set_data_size(bytes_written); auto seek_result = file.seek(0); if( seek_result.is_error() ) { return; } const auto old_position = seek_result.value(); file.write(&header, sizeof(header)); file.seek(old_position); } }; namespace ui { RecordView::RecordView( const Rect parent_rect, std::string filename_stem_pattern, const FileType file_type, const size_t write_size, const size_t buffer_count ) : View { parent_rect }, filename_stem_pattern { filename_stem_pattern }, file_type { file_type }, write_size { write_size }, buffer_count { buffer_count } { add_children({ { &rect_background, &button_record, &text_record_filename, &text_record_dropped, &text_time_available, } }); rect_background.set_parent_rect({ { 0, 0 }, size() }); button_record.on_select = [this](ImageButton&) { this->toggle(); }; signal_token_tick_second = time::signal_tick_second += [this]() { this->on_tick_second(); }; } RecordView::~RecordView() { time::signal_tick_second -= signal_token_tick_second; } void RecordView::focus() { button_record.focus(); } void RecordView::set_sampling_rate(const size_t new_sampling_rate) { if( new_sampling_rate != sampling_rate ) { stop(); sampling_rate = new_sampling_rate; button_record.hidden(sampling_rate == 0); text_record_filename.hidden(sampling_rate == 0); text_record_dropped.hidden(sampling_rate == 0); text_time_available.hidden(sampling_rate == 0); rect_background.hidden(sampling_rate != 0); } } bool RecordView::is_active() const { return (bool)capture_thread; } void RecordView::toggle() { if( is_active() ) { stop(); } else { start(); } } void RecordView::start() { stop(); text_record_filename.set(""); text_record_dropped.set(""); if( sampling_rate == 0 ) { return; } const auto filename_stem = next_filename_stem_matching_pattern(filename_stem_pattern); if( filename_stem.empty() ) { return; } std::unique_ptr writer; switch(file_type) { case FileType::WAV: { auto p = std::make_unique( sampling_rate ); auto create_error = p->create( filename_stem + ".WAV" ); if( create_error.is_valid() ) { handle_error(create_error.value()); } else { writer = std::move(p); } } break; case FileType::RawS16: { const auto metadata_file_error = write_metadata_file(filename_stem + ".TXT"); if( metadata_file_error.is_valid() ) { handle_error(metadata_file_error.value()); return; } auto p = std::make_unique(); auto create_error = p->create( filename_stem + ".C16" ); if( create_error.is_valid() ) { handle_error(create_error.value()); } else { writer = std::move(p); } } break; default: break; }; if( writer ) { text_record_filename.set(filename_stem); button_record.set_bitmap(&bitmap_stop); capture_thread = std::make_unique( std::move(writer), write_size, buffer_count, [](File::Error error) { CaptureThreadErrorMessage message { error.code() }; EventDispatcher::send_message(message); } ); } } void RecordView::stop() { if( is_active() ) { capture_thread.reset(); button_record.set_bitmap(&bitmap_record); } } Optional RecordView::write_metadata_file(const std::string& filename) { File file; const auto create_error = file.create(filename); if( create_error.is_valid() ) { return create_error; } else { const auto puts_result1 = file.puts("sample_rate=" + to_string_dec_uint(sampling_rate) + "\n"); if( puts_result1.is_error() ) { return { puts_result1.error() }; } const auto puts_result2 = file.puts("center_frequency=" + to_string_dec_uint(receiver_model.tuning_frequency()) + "\n"); if( puts_result2.is_error() ) { return { puts_result2.error() }; } return { }; } } void RecordView::on_tick_second() { update_status_display(); } void RecordView::update_status_display() { if( is_active() ) { const auto dropped_percent = std::min(99U, capture_thread->state().dropped_percent()); const auto s = to_string_dec_uint(dropped_percent, 2, ' ') + "\%"; text_record_dropped.set(s); } if( sampling_rate ) { const auto space_info = std::filesystem::space(""); const uint32_t bytes_per_second = file_type == FileType::WAV ? (sampling_rate * 2) : (sampling_rate * 4); const uint32_t available_seconds = space_info.free / bytes_per_second; const uint32_t seconds = available_seconds % 60; const uint32_t available_minutes = available_seconds / 60; const uint32_t minutes = available_minutes % 60; const uint32_t hours = available_minutes / 60; const std::string available_time = to_string_dec_uint(hours, 3, ' ') + ":" + to_string_dec_uint(minutes, 2, '0') + ":" + to_string_dec_uint(seconds, 2, '0'); text_time_available.set(available_time); } } void RecordView::handle_error(const File::Error error) { stop(); if( on_error ) { on_error(error.what()); } } } /* namespace ui */