static audio_decoder_t *open_plugin (audio_decoder_class_t *class_gen, xine_stream_t *stream) { mad_decoder_t *this ; this = (mad_decoder_t *) malloc (sizeof (mad_decoder_t)); this->audio_decoder.decode_data = mad_decode_data; this->audio_decoder.reset = mad_reset; this->audio_decoder.discontinuity = mad_discontinuity; this->audio_decoder.dispose = mad_dispose; this->output_open = 0; this->bytes_in_buffer = 0; this->preview_mode = 0; this->xstream = stream; mad_synth_init (&this->synth); mad_stream_init (&this->stream); mad_frame_init (&this->frame); #ifdef LOG printf ("libmad: init\n"); #endif return &this->audio_decoder; }
static void mp3_data_init(struct mp3_data *data, struct decoder *decoder, struct input_stream *input_stream) { data->mute_frame = MUTEFRAME_NONE; data->highest_frame = 0; data->max_frames = 0; data->frame_offsets = NULL; data->times = NULL; data->current_frame = 0; data->drop_start_frames = 0; data->drop_end_frames = 0; data->drop_start_samples = 0; data->drop_end_samples = 0; data->found_xing = false; data->found_first_frame = false; data->decoded_first_frame = false; data->decoder = decoder; data->input_stream = input_stream; data->layer = 0; mad_stream_init(&data->stream); mad_stream_options(&data->stream, MAD_OPTION_IGNORECRC); mad_frame_init(&data->frame); mad_synth_init(&data->synth); mad_timer_reset(&data->timer); }
void mp3_mad_init (mp3_info_t *info) { mad_stream_init(&info->mad_stream); mad_stream_options (&info->mad_stream, MAD_OPTION_IGNORECRC); mad_frame_init(&info->mad_frame); mad_synth_init(&info->mad_synth); }
size_t MadDecoder::start(FILE* handle) { handle_ = handle; decodeBuffer_.resize(bufferSize_, false); ASSERT(decodeBuffer_.size() == bufferSize_); unsigned char* buffer = decodeBuffer_.getHead(); int64 durationMsec = getDurationMs(buffer, bufferSize_); mad_stream_init(&madStream_); mad_frame_init(&madFrame_); mad_synth_init(&madSynth_); mad_timer_reset(&madTimer_); // Decode at least one valid frame to find out the input format. // The decoded frame will be saved off so that it can be processed later. // size_t bytesRead = fread(buffer, (size_t)1, bufferSize_, handle_); if (bytesRead != bufferSize_ && ferror(handle_)) THROW(std::exception, "%s", strerror(errno)); mad_stream_buffer(&madStream_, buffer, bytesRead); // Find a valid frame before starting up. // This make sure that we have a valid MP3 // and also skips past ID3v2 tags at the beginning of the audio file. // madStream_.error = MAD_ERROR_NONE; while (mad_frame_decode(&madFrame_, &madStream_)) { // check whether input buffer needs a refill if (madStream_.error == MAD_ERROR_BUFLEN) { if (readMpgFile() == false) break; // eof else continue; } consumeId3Tag(); // consume any ID3 tags // FIXME: We should probably detect when we've read // a bunch of non-ID3 data and still haven't found a // frame. In that case we can abort early without // scanning the whole file. // madStream_.error = MAD_ERROR_NONE; } if (madStream_.error) { THROW(std::exception, "No valid MP3 frame found"); } mad_timer_add(&madTimer_, madFrame_.header.duration); mad_synth_frame(&madSynth_, &madFrame_); //unsigned int precision_ = 16; currentFrame_ = 0; numMpegFrames_ = 0; initialized_ = true; return (size_t)(durationMsec * .001 * getSampleRate() + .5); // number of sample frames }
static void *mp3_open_stream (struct io_stream *stream) { struct mp3_data *data; data = (struct mp3_data *)xmalloc (sizeof(struct mp3_data)); data->ok = 1; decoder_error_init (&data->error); /* Reset information about the file */ data->freq = 0; data->channels = 0; data->skip_frames = 0; data->bitrate = -1; data->io_stream = stream; data->duration = -1; data->size = (off_t)-1; mad_stream_init (&data->stream); mad_frame_init (&data->frame); mad_synth_init (&data->synth); if (options_get_int("Mp3IgnoreCRCErrors")) mad_stream_options (&data->stream, MAD_OPTION_IGNORECRC); return data; }
static audio_decoder_t *open_plugin (audio_decoder_class_t *class_gen, xine_stream_t *stream) { mad_decoder_t *this ; this = (mad_decoder_t *) calloc(1, sizeof(mad_decoder_t)); this->audio_decoder.decode_data = mad_decode_data; this->audio_decoder.reset = mad_reset; this->audio_decoder.discontinuity = mad_discontinuity; this->audio_decoder.dispose = mad_dispose; this->output_open = 0; this->bytes_in_buffer = 0; this->preview_mode = 0; this->xstream = stream; mad_synth_init (&this->synth); mad_stream_init (&this->stream); mad_frame_init (&this->frame); this->stream.options = MAD_OPTION_IGNORECRC; lprintf ("init\n"); return &this->audio_decoder; }
bool CodecMpeg1::LoadLibmad() { #ifdef HAVE_LIBMAD if((mpeg1_mad_handle=dlopen("libmad.so",RTLD_NOW))!=NULL) { // // Initialize Library // *(void **)(&mad_stream_init)=dlsym(mpeg1_mad_handle,"mad_stream_init"); *(void **)(&mad_frame_init)=dlsym(mpeg1_mad_handle,"mad_frame_init"); *(void **)(&mad_synth_init)=dlsym(mpeg1_mad_handle,"mad_synth_init"); *(void **)(&mad_stream_buffer)=dlsym(mpeg1_mad_handle,"mad_stream_buffer"); *(void **)(&mad_frame_decode)=dlsym(mpeg1_mad_handle,"mad_frame_decode"); *(void **)(&mad_header_decode)=dlsym(mpeg1_mad_handle,"mad_header_decode"); *(void **)(&mad_synth_frame)=dlsym(mpeg1_mad_handle,"mad_synth_frame"); *(void **)(&mad_frame_mute)=dlsym(mpeg1_mad_handle,"mad_frame_mute"); *(void **)(&mad_synth_mute)=dlsym(mpeg1_mad_handle,"mad_synth_mute"); *(void **)(&mad_stream_sync)=dlsym(mpeg1_mad_handle,"mad_stream_sync"); *(void **)(&mad_frame_finish)=dlsym(mpeg1_mad_handle,"mad_frame_finish"); *(void **)(&mad_stream_finish)=dlsym(mpeg1_mad_handle,"mad_stream_finish"); *(void **)(&mad_header_init)=dlsym(mpeg1_mad_handle,"mad_header_init"); // // Initialize Instance // mad_stream_init(&mpeg1_mad_stream); mad_synth_init(&mpeg1_mad_synth); mad_frame_init(&mpeg1_mad_frame); memset(&mpeg1_mad_header,0,sizeof(mpeg1_mad_header)); return true; } #endif // HAVE_LIBMAD return false; }
uint8_t ADM_AudiocodecMP3::beginDecompress( void ) { mad_stream_init(Stream); mad_frame_init(Frame); mad_synth_init(Synth); _head=_tail=0; return 1; }
static int mp_init (int samplerate) { mad_stream_init (&Stream); mad_frame_init (&Frame); mad_synth_init (&Synth); mad_header_init (&Header); mp_samplerate_target = samplerate; return 1; }
static void init_mad_decoder (mp3d_prc_t * ap_prc) { assert (ap_prc); mad_stream_init (&ap_prc->stream_); mad_frame_init (&ap_prc->frame_); mad_synth_init (&ap_prc->synth_); mad_timer_reset (&ap_prc->timer_); }
static struct mp3_data *mp3_open_internal (const char *file, const int buffered) { struct mp3_data *data; data = (struct mp3_data *)xmalloc (sizeof(struct mp3_data)); data->ok = 0; decoder_error_init (&data->error); /* Reset information about the file */ data->freq = 0; data->channels = 0; data->skip_frames = 0; data->bitrate = -1; data->avg_bitrate = -1; /* Open the file */ data->io_stream = io_open (file, buffered); if (io_ok(data->io_stream)) { data->ok = 1; data->size = io_file_size (data->io_stream); mad_stream_init (&data->stream); mad_frame_init (&data->frame); mad_synth_init (&data->synth); if (options_get_int("Mp3IgnoreCRCErrors")) mad_stream_options (&data->stream, MAD_OPTION_IGNORECRC); data->duration = count_time_internal (data); mad_frame_mute (&data->frame); data->stream.next_frame = NULL; data->stream.sync = 0; data->stream.error = MAD_ERROR_NONE; if (io_seek(data->io_stream, SEEK_SET, 0) == (off_t)-1) { decoder_error (&data->error, ERROR_FATAL, 0, "seek failed"); io_close (data->io_stream); mad_stream_finish (&data->stream); mad_frame_finish (&data->frame); mad_synth_finish (&data->synth); data->ok = 0; } data->stream.error = MAD_ERROR_BUFLEN; } else { decoder_error (&data->error, ERROR_FATAL, 0, "Can't open: %s", io_strerror(data->io_stream)); io_close (data->io_stream); } return data; }
static void mad_init_decoder(struct mad_local_data *data) { if (!data) return; mad_synth_init (&data->synth); mad_stream_init (&data->stream); mad_frame_init (&data->frame); }
MADDecoder::MADDecoder() : stereo(false), bytes_per_frame(0), rate(0), sample(0) { mad_stream_init(&Stream); mad_frame_init(&Frame); mad_synth_init(&Synth); }
void MP3Decoder::mp3_init() { if (!_isInited) { /* libmad初始化 */ mad_stream_init(&Stream); mad_frame_init(&Frame); mad_synth_init(&Synth); _isInited = true; } }
void XMp3Decomp::initMad() { finishMad(); m_isInitMad = true; m_firstBuf = true; mad_stream_init(&Stream); mad_frame_init(&Frame); mad_synth_init(&Synth); mad_timer_reset(&Timer); }
static int mp_init (music_player_t *music, int samplerate) { mp_player_t *mp = (mp_player_t*)music; mad_stream_init (&mp->Stream); mad_frame_init (&mp->Frame); mad_synth_init (&mp->Synth); mad_header_init (&mp->Header); mp->mp_samplerate_target = samplerate; return 1; }
static void mp3_init (mp3_s *mp3) { mp3->out_ptr = mp3->out_buf; mp3->out_buf_end = mp3->out_buf + BUF_SIZE; mp3->frame_count = 0; mp3->status = 0; mp3->start = 0; mad_stream_init (&mp3->stream); mad_frame_init (&mp3->frame); mad_synth_init (&mp3->synth); mad_timer_reset (&mp3->timer); }
MADTranscode::MADTranscode() : m_decodedBufferCapacity( 32 * 1024 ), m_mpegInitialised( false ) { qDebug() << "Initialising MAD Transcoding"; mad_stream_init( &stream ); mad_frame_init( &frame ); mad_synth_init( &synth ); timer = mad_timer_zero; last_timer = mad_timer_zero; }
madfile_t *mad_js_init() { madfile_t *mf; mf = malloc(sizeof(madfile_t)); mf->position = 0; mad_stream_init(&mf->stream); mad_frame_init(&mf->frame); mad_synth_init(&mf->synth); mf->buf = (unsigned char*)malloc(BUFFER_SIZE); return mf; }
bool ADM_AudiocodecMP3::resetAfterSeek( void ) { mad_synth_finish(Synth); mad_frame_finish(Frame); mad_stream_finish(Stream); mad_stream_init(Stream); mad_frame_init(Frame); mad_synth_init(Synth); _head=_tail=0; return 1; }
void MP3_Init() { # ifndef LINUX_MODE samplesInOutput = 0; isPlaying = 0; /* First the structures used by libmad must be initialized. */ mad_stream_init(&Stream); mad_frame_init(&Frame); mad_synth_init(&Synth); mad_timer_reset(&Timer); # endif }
static void MP3_Restart() { memset(OutputBuffer, 0, OUTPUT_BUFFER_SIZE); samplesInOutput = 0; mad_stream_init(&Stream); mad_frame_init(&Frame); mad_synth_init(&Synth); mad_timer_reset(&Timer); MP3_getInfo(); }
bool CMpegAudioDecoder::OpenDecoder() { CloseDecoder(); mad_stream_init(&m_MadStream); mad_frame_init(&m_MadFrame); mad_synth_init(&m_MadSynth); m_bInitialized = true; m_bDecodeError = false; return true; }
static int preinit(sh_audio_t *sh){ mad_decoder_t *this = calloc(1, sizeof(mad_decoder_t)); sh->context = this; mad_synth_init (&this->synth); mad_stream_init (&this->stream); mad_frame_init (&this->frame); sh->audio_out_minsize=2*4608; sh->audio_in_minsize=4096; return 1; }
Mp3Decoder::Mp3Decoder(const u8 * snd, int len) : SoundDecoder(snd, len) { SoundType = SOUND_MP3; ReadBuffer = NULL; mad_timer_reset(&Timer); mad_stream_init(&Stream); mad_frame_init(&Frame); mad_synth_init(&Synth); if(!file_fd) return; OpenFile(); }
static int control(sh_audio_t *sh,int cmd,void* arg, ...){ mad_decoder_t *this = sh->context; // various optional functions you MAY implement: switch(cmd){ case ADCTRL_RESYNC_STREAM: this->have_frame=0; mad_synth_init (&this->synth); mad_stream_init (&this->stream); mad_frame_init (&this->frame); return CONTROL_TRUE; case ADCTRL_SKIP_FRAME: this->have_frame=read_frame(sh); return CONTROL_TRUE; } return CONTROL_UNKNOWN; }
static void mad_reset (audio_decoder_t *this_gen) { mad_decoder_t *this = (mad_decoder_t *) this_gen; mad_synth_finish (&this->synth); mad_frame_finish (&this->frame); mad_stream_finish(&this->stream); this->pts = 0; this->bytes_in_buffer = 0; this->preview_mode = 0; mad_synth_init (&this->synth); mad_stream_init (&this->stream); mad_frame_init (&this->frame); }
int Mp3Decoder::Rewind() { mad_synth_finish(&Synth); mad_frame_finish(&Frame); mad_stream_finish(&Stream); mad_timer_reset(&Timer); mad_stream_init(&Stream); mad_frame_init(&Frame); mad_synth_init(&Synth); SynthPos = 0; GuardPtr = NULL; if(!file_fd) return -1; return SoundDecoder::Rewind(); }
ADM_AudiocodecMP3::ADM_AudiocodecMP3( uint32_t fourcc,WAVHeader *info,uint32_t extraLength,uint8_t *extraData) : ADM_Audiocodec(fourcc) { if((fourcc!=WAV_MP3) && (fourcc!=WAV_MP2)) ADM_assert(0); if(fourcc==WAV_MP2) printf("Mpeg1/2 audio codec created\n"); _stream=(void *)ADM_alloc(sizeof( mad_stream)); _frame=(void *)ADM_alloc(sizeof( mad_frame)); _synth=(void *)ADM_alloc(sizeof( mad_synth)); mad_stream_init(Stream); mad_frame_init(Frame); mad_synth_init(Synth); _head=_tail=0; }
int Init(int channel) { pspAudioInit(); // init the audio psp mad_stream_init(&stream); // create the mad variables, streams etc. mad_frame_init(&frame); mad_synth_init(&synth); mad_timer_reset(&timer); pspAudioSetChannelCallback(channel, fillOutputBuffer, 0); // set the callback to the function. mutex = sceKernelCreateSema("myMutexName", 0, 1, 1, 0); // create the mutex for threading secure. pausesong = 1; // set the variable to pause so no sound is played. started = 0; // the mp3 has not yet started. file = 0; // set the file to zero fileSize = 1; filePos = 0; printf("MusicEngine is initialized.\n"); return 1; };