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winamp/Src/external_dependencies/openmpt-trunk/openmpt123/openmpt123.hpp
2024-09-24 14:54:57 +02:00

727 lines
18 KiB
C++

/*
* openmpt123.hpp
* --------------
* Purpose: libopenmpt command line player
* Notes : (currently none)
* Authors: OpenMPT Devs
* The OpenMPT source code is released under the BSD license. Read LICENSE for more details.
*/
#ifndef OPENMPT123_HPP
#define OPENMPT123_HPP
#include "openmpt123_config.hpp"
#include "mpt/base/compiletime_warning.hpp"
#include "mpt/base/floatingpoint.hpp"
#include "mpt/base/preprocessor.hpp"
#include "mpt/string_transcode/transcode.hpp"
#include <string>
namespace openmpt123 {
struct exception : public openmpt::exception {
exception( const std::string & text ) : openmpt::exception(text) { }
};
struct show_help_exception {
std::string message;
bool longhelp;
show_help_exception( const std::string & msg = "", bool longhelp_ = true ) : message(msg), longhelp(longhelp_) { }
};
struct args_error_exception {
args_error_exception() { }
};
struct show_help_keyboard_exception { };
#if defined(WIN32)
bool IsConsole( DWORD stdHandle );
#endif
bool IsTerminal( int fd );
struct field {
std::string key;
std::string val;
field( const std::string & key )
: key(key)
{
return;
}
};
class textout : public std::ostringstream {
public:
textout() {
return;
}
virtual ~textout() {
return;
}
protected:
std::string pop() {
std::string text = str();
str(std::string());
return text;
}
public:
virtual void writeout() = 0;
virtual void cursor_up( std::size_t lines ) {
static_cast<void>( lines );
}
};
class textout_dummy : public textout {
public:
textout_dummy() {
return;
}
virtual ~textout_dummy() {
return;
}
public:
void writeout() override {
static_cast<void>( pop() );
}
};
class textout_ostream : public textout {
private:
std::ostream & s;
#if defined(__DJGPP__)
mpt::common_encoding codepage;
#endif
public:
textout_ostream( std::ostream & s_ )
: s(s_)
#if defined(__DJGPP__)
, codepage(mpt::common_encoding::cp437)
#endif
{
#if defined(__DJGPP__)
codepage = mpt::djgpp_get_locale_encoding();
#endif
return;
}
virtual ~textout_ostream() {
writeout_impl();
}
private:
void writeout_impl() {
std::string text = pop();
if ( text.length() > 0 ) {
#if defined(__DJGPP__)
s << mpt::transcode<std::string>( codepage, mpt::common_encoding::utf8, text );
#elif defined(__EMSCRIPTEN__)
s << text;
#else
s << mpt::transcode<std::string>( mpt::logical_encoding::locale, mpt::common_encoding::utf8, text );
#endif
s.flush();
}
}
public:
void writeout() override {
writeout_impl();
}
void cursor_up( std::size_t lines ) override {
s.flush();
for ( std::size_t line = 0; line < lines; ++line ) {
*this << "\x1b[1A";
}
}
};
#if defined(WIN32)
class textout_ostream_console : public textout {
private:
#if defined(UNICODE)
std::wostream & s;
#else
std::ostream & s;
#endif
HANDLE handle;
bool console;
public:
#if defined(UNICODE)
textout_ostream_console( std::wostream & s_, DWORD stdHandle_ )
#else
textout_ostream_console( std::ostream & s_, DWORD stdHandle_ )
#endif
: s(s_)
, handle(GetStdHandle( stdHandle_ ))
, console(IsConsole( stdHandle_ ))
{
return;
}
virtual ~textout_ostream_console() {
writeout_impl();
}
private:
void writeout_impl() {
std::string text = pop();
if ( text.length() > 0 ) {
if ( console ) {
#if defined(UNICODE)
std::wstring wtext = mpt::transcode<std::wstring>( mpt::common_encoding::utf8, text );
WriteConsole( handle, wtext.data(), static_cast<DWORD>( wtext.size() ), NULL, NULL );
#else
std::string ltext = mpt::transcode<std::string>( mpt::logical_encoding::locale, mpt::common_encoding::utf8, text );
WriteConsole( handle, ltext.data(), static_cast<DWORD>( ltext.size() ), NULL, NULL );
#endif
} else {
#if defined(UNICODE)
s << mpt::transcode<std::wstring>( mpt::common_encoding::utf8, text );
#else
s << mpt::transcode<std::string>( mpt::logical_encoding::locale, mpt::common_encoding::utf8, text );
#endif
s.flush();
}
}
}
public:
void writeout() override {
writeout_impl();
}
void cursor_up( std::size_t lines ) override {
if ( console ) {
s.flush();
CONSOLE_SCREEN_BUFFER_INFO csbi;
ZeroMemory( &csbi, sizeof( CONSOLE_SCREEN_BUFFER_INFO ) );
COORD coord_cursor = COORD();
if ( GetConsoleScreenBufferInfo( handle, &csbi ) != FALSE ) {
coord_cursor = csbi.dwCursorPosition;
coord_cursor.X = 1;
coord_cursor.Y -= static_cast<SHORT>( lines );
SetConsoleCursorPosition( handle, coord_cursor );
}
}
}
};
#endif // WIN32
static inline float mpt_round( float val ) {
if ( val >= 0.0f ) {
return std::floor( val + 0.5f );
} else {
return std::ceil( val - 0.5f );
}
}
static inline long mpt_lround( float val ) {
return static_cast< long >( mpt_round( val ) );
}
static inline std::string append_software_tag( std::string software ) {
std::string openmpt123 = std::string() + "openmpt123 " + OPENMPT123_VERSION_STRING + " (libopenmpt " + openmpt::string::get( "library_version" ) + ", OpenMPT " + openmpt::string::get( "core_version" ) + ")";
if ( software.empty() ) {
software = openmpt123;
} else {
software += " (via " + openmpt123 + ")";
}
return software;
}
static inline std::string get_encoder_tag() {
return std::string() + "openmpt123 " + OPENMPT123_VERSION_STRING + " (libopenmpt " + openmpt::string::get( "library_version" ) + ", OpenMPT " + openmpt::string::get( "core_version" ) + ")";
}
static inline std::string get_extension( std::string filename ) {
if ( filename.find_last_of( "." ) != std::string::npos ) {
return filename.substr( filename.find_last_of( "." ) + 1 );
}
return "";
}
enum class Mode {
None,
Probe,
Info,
UI,
Batch,
Render
};
static inline std::string mode_to_string( Mode mode ) {
switch ( mode ) {
case Mode::None: return "none"; break;
case Mode::Probe: return "probe"; break;
case Mode::Info: return "info"; break;
case Mode::UI: return "ui"; break;
case Mode::Batch: return "batch"; break;
case Mode::Render: return "render"; break;
}
return "";
}
static const std::int32_t default_low = -2;
static const std::int32_t default_high = -1;
struct commandlineflags {
Mode mode;
bool canUI;
std::int32_t ui_redraw_interval;
bool canProgress;
std::string driver;
std::string device;
std::int32_t buffer;
std::int32_t period;
std::int32_t samplerate;
std::int32_t channels;
std::int32_t gain;
std::int32_t separation;
std::int32_t filtertaps;
std::int32_t ramping; // ramping strength : -1:default 0:off 1 2 3 4 5 // roughly milliseconds
std::int32_t tempo;
std::int32_t pitch;
std::int32_t dither;
std::int32_t repeatcount;
std::int32_t subsong;
std::map<std::string, std::string> ctls;
double seek_target;
double end_time;
bool quiet;
bool verbose;
int terminal_width;
int terminal_height;
bool show_details;
bool show_message;
bool show_ui;
bool show_progress;
bool show_meters;
bool show_channel_meters;
bool show_pattern;
bool use_float;
bool use_stdout;
bool randomize;
bool shuffle;
bool restart;
std::size_t playlist_index;
std::vector<std::string> filenames;
std::string output_filename;
std::string output_extension;
bool force_overwrite;
bool paused;
std::string warnings;
void apply_default_buffer_sizes() {
if ( ui_redraw_interval == default_high ) {
ui_redraw_interval = 50;
} else if ( ui_redraw_interval == default_low ) {
ui_redraw_interval = 10;
}
if ( buffer == default_high ) {
buffer = 250;
} else if ( buffer == default_low ) {
buffer = 50;
}
if ( period == default_high ) {
period = 50;
} else if ( period == default_low ) {
period = 10;
}
}
commandlineflags() {
mode = Mode::UI;
ui_redraw_interval = default_high;
driver = "";
device = "";
buffer = default_high;
period = default_high;
#if defined(__DJGPP__)
samplerate = 44100;
channels = 2;
use_float = false;
#else
samplerate = 48000;
channels = 2;
use_float = mpt::float_traits<float>::is_hard && mpt::float_traits<float>::is_ieee754_binary;
#endif
gain = 0;
separation = 100;
filtertaps = 8;
ramping = -1;
tempo = 0;
pitch = 0;
dither = 1;
repeatcount = 0;
subsong = -1;
seek_target = 0.0;
end_time = 0.0;
quiet = false;
verbose = false;
#if defined(__DJGPP__)
terminal_width = 80;
terminal_height = 25;
#else
terminal_width = 72;
terminal_height = 23;
#endif
#if defined(WIN32)
terminal_width = 72;
terminal_height = 23;
HANDLE hStdOutput = GetStdHandle( STD_OUTPUT_HANDLE );
if ( ( hStdOutput != NULL ) && ( hStdOutput != INVALID_HANDLE_VALUE ) ) {
CONSOLE_SCREEN_BUFFER_INFO csbi;
ZeroMemory( &csbi, sizeof( CONSOLE_SCREEN_BUFFER_INFO ) );
if ( GetConsoleScreenBufferInfo( hStdOutput, &csbi ) != FALSE ) {
terminal_width = std::min( static_cast<int>( 1 + csbi.srWindow.Right - csbi.srWindow.Left ), static_cast<int>( csbi.dwSize.X ) );
terminal_height = std::min( static_cast<int>( 1 + csbi.srWindow.Bottom - csbi.srWindow.Top ), static_cast<int>( csbi.dwSize.Y ) );
}
}
#else // WIN32
if ( isatty( STDERR_FILENO ) ) {
const char * env_columns = std::getenv( "COLUMNS" );
if ( env_columns ) {
std::istringstream istr( env_columns );
int tmp = 0;
istr >> tmp;
if ( tmp > 0 ) {
terminal_width = tmp;
}
}
const char * env_rows = std::getenv( "ROWS" );
if ( env_rows ) {
std::istringstream istr( env_rows );
int tmp = 0;
istr >> tmp;
if ( tmp > 0 ) {
terminal_height = tmp;
}
}
#if defined(TIOCGWINSZ)
struct winsize ts;
if ( ioctl( STDERR_FILENO, TIOCGWINSZ, &ts ) >= 0 ) {
terminal_width = ts.ws_col;
terminal_height = ts.ws_row;
}
#elif defined(TIOCGSIZE)
struct ttysize ts;
if ( ioctl( STDERR_FILENO, TIOCGSIZE, &ts ) >= 0 ) {
terminal_width = ts.ts_cols;
terminal_height = ts.ts_rows;
}
#endif
}
#endif
show_details = true;
show_message = false;
#if defined(WIN32)
canUI = IsTerminal( 0 ) ? true : false;
canProgress = IsTerminal( 2 ) ? true : false;
#else // !WIN32
canUI = isatty( STDIN_FILENO ) ? true : false;
canProgress = isatty( STDERR_FILENO ) ? true : false;
#endif // WIN32
show_ui = canUI;
show_progress = canProgress;
show_meters = canUI && canProgress;
show_channel_meters = false;
show_pattern = false;
use_stdout = false;
randomize = false;
shuffle = false;
restart = false;
playlist_index = 0;
output_extension = "auto";
force_overwrite = false;
paused = false;
}
void check_and_sanitize() {
if ( filenames.size() == 0 ) {
throw args_error_exception();
}
if ( use_stdout && ( device != commandlineflags().device || !output_filename.empty() ) ) {
throw args_error_exception();
}
if ( !output_filename.empty() && ( device != commandlineflags().device || use_stdout ) ) {
throw args_error_exception();
}
for ( const auto & filename : filenames ) {
if ( filename == "-" ) {
canUI = false;
}
}
show_ui = canUI;
if ( mode == Mode::None ) {
if ( canUI ) {
mode = Mode::UI;
} else {
mode = Mode::Batch;
}
}
if ( mode == Mode::UI && !canUI ) {
throw args_error_exception();
}
if ( show_progress && !canProgress ) {
throw args_error_exception();
}
switch ( mode ) {
case Mode::None:
throw args_error_exception();
break;
case Mode::Probe:
show_ui = false;
show_progress = false;
show_meters = false;
show_channel_meters = false;
show_pattern = false;
break;
case Mode::Info:
show_ui = false;
show_progress = false;
show_meters = false;
show_channel_meters = false;
show_pattern = false;
break;
case Mode::UI:
break;
case Mode::Batch:
show_meters = false;
show_channel_meters = false;
show_pattern = false;
break;
case Mode::Render:
show_meters = false;
show_channel_meters = false;
show_pattern = false;
show_ui = false;
break;
}
if ( quiet ) {
verbose = false;
show_ui = false;
show_details = false;
show_progress = false;
show_channel_meters = false;
}
if ( verbose ) {
show_details = true;
}
if ( channels != 1 && channels != 2 && channels != 4 ) {
channels = commandlineflags().channels;
}
if ( samplerate < 0 ) {
samplerate = commandlineflags().samplerate;
}
if ( output_extension == "auto" ) {
output_extension = "";
}
if ( mode != Mode::Render && !output_extension.empty() ) {
throw args_error_exception();
}
if ( mode == Mode::Render && !output_filename.empty() ) {
throw args_error_exception();
}
if ( mode != Mode::Render && !output_filename.empty() ) {
output_extension = get_extension( output_filename );
}
if ( output_extension.empty() ) {
output_extension = "wav";
}
}
};
template < typename Tsample > Tsample convert_sample_to( float val );
template < > float convert_sample_to( float val ) {
return val;
}
template < > std::int16_t convert_sample_to( float val ) {
std::int32_t tmp = static_cast<std::int32_t>( val * 32768.0f );
tmp = std::min( tmp, std::int32_t( 32767 ) );
tmp = std::max( tmp, std::int32_t( -32768 ) );
return static_cast<std::int16_t>( tmp );
}
class write_buffers_interface {
protected:
virtual ~write_buffers_interface() {
return;
}
public:
virtual void write_metadata( std::map<std::string,std::string> metadata ) {
(void)metadata;
return;
}
virtual void write_updated_metadata( std::map<std::string,std::string> metadata ) {
(void)metadata;
return;
}
virtual void write( const std::vector<float*> buffers, std::size_t frames ) = 0;
virtual void write( const std::vector<std::int16_t*> buffers, std::size_t frames ) = 0;
virtual bool pause() {
return false;
}
virtual bool unpause() {
return false;
}
virtual bool sleep( int /*ms*/ ) {
return false;
}
virtual bool is_dummy() const {
return false;
}
};
class write_buffers_polling_wrapper : public write_buffers_interface {
protected:
std::size_t channels;
std::size_t sampleQueueMaxFrames;
std::deque<float> sampleQueue;
protected:
virtual ~write_buffers_polling_wrapper() {
return;
}
protected:
write_buffers_polling_wrapper( const commandlineflags & flags )
: channels(flags.channels)
, sampleQueueMaxFrames(0)
{
return;
}
void set_queue_size_frames( std::size_t frames ) {
sampleQueueMaxFrames = frames;
}
template < typename Tsample >
Tsample pop_queue() {
float val = 0.0f;
if ( !sampleQueue.empty() ) {
val = sampleQueue.front();
sampleQueue.pop_front();
}
return convert_sample_to<Tsample>( val );
}
public:
void write( const std::vector<float*> buffers, std::size_t frames ) override {
for ( std::size_t frame = 0; frame < frames; ++frame ) {
for ( std::size_t channel = 0; channel < channels; ++channel ) {
sampleQueue.push_back( buffers[channel][frame] );
}
while ( sampleQueue.size() >= sampleQueueMaxFrames * channels ) {
while ( !forward_queue() ) {
sleep( 1 );
}
}
}
}
void write( const std::vector<std::int16_t*> buffers, std::size_t frames ) override {
for ( std::size_t frame = 0; frame < frames; ++frame ) {
for ( std::size_t channel = 0; channel < channels; ++channel ) {
sampleQueue.push_back( buffers[channel][frame] * (1.0f/32768.0f) );
}
while ( sampleQueue.size() >= sampleQueueMaxFrames * channels ) {
while ( !forward_queue() ) {
sleep( 1 );
}
}
}
}
virtual bool forward_queue() = 0;
bool sleep( int ms ) override = 0;
};
class write_buffers_polling_wrapper_int : public write_buffers_interface {
protected:
std::size_t channels;
std::size_t sampleQueueMaxFrames;
std::deque<std::int16_t> sampleQueue;
protected:
virtual ~write_buffers_polling_wrapper_int() {
return;
}
protected:
write_buffers_polling_wrapper_int( const commandlineflags & flags )
: channels(flags.channels)
, sampleQueueMaxFrames(0)
{
return;
}
void set_queue_size_frames( std::size_t frames ) {
sampleQueueMaxFrames = frames;
}
std::int16_t pop_queue() {
std::int16_t val = 0;
if ( !sampleQueue.empty() ) {
val = sampleQueue.front();
sampleQueue.pop_front();
}
return val;
}
public:
void write( const std::vector<float*> buffers, std::size_t frames ) override {
for ( std::size_t frame = 0; frame < frames; ++frame ) {
for ( std::size_t channel = 0; channel < channels; ++channel ) {
sampleQueue.push_back( convert_sample_to<std::int16_t>( buffers[channel][frame] ) );
}
while ( sampleQueue.size() >= sampleQueueMaxFrames * channels ) {
while ( !forward_queue() ) {
sleep( 1 );
}
}
}
}
void write( const std::vector<std::int16_t*> buffers, std::size_t frames ) override {
for ( std::size_t frame = 0; frame < frames; ++frame ) {
for ( std::size_t channel = 0; channel < channels; ++channel ) {
sampleQueue.push_back( buffers[channel][frame] );
}
while ( sampleQueue.size() >= sampleQueueMaxFrames * channels ) {
while ( !forward_queue() ) {
sleep( 1 );
}
}
}
}
virtual bool forward_queue() = 0;
bool sleep( int ms ) override = 0;
};
class void_audio_stream : public write_buffers_interface {
public:
virtual ~void_audio_stream() {
return;
}
public:
void write( const std::vector<float*> buffers, std::size_t frames ) override {
(void)buffers;
(void)frames;
}
void write( const std::vector<std::int16_t*> buffers, std::size_t frames ) override {
(void)buffers;
(void)frames;
}
bool is_dummy() const override {
return true;
}
};
class file_audio_stream_base : public write_buffers_interface {
protected:
file_audio_stream_base() {
return;
}
public:
void write_metadata( std::map<std::string,std::string> metadata ) override {
(void)metadata;
return;
}
void write_updated_metadata( std::map<std::string,std::string> metadata ) override {
(void)metadata;
return;
}
void write( const std::vector<float*> buffers, std::size_t frames ) override = 0;
void write( const std::vector<std::int16_t*> buffers, std::size_t frames ) override = 0;
virtual ~file_audio_stream_base() {
return;
}
};
} // namespace openmpt123
#endif // OPENMPT123_HPP