Ejemplos de AOUT_FMT_LINEAR en C++ (Cpp)

Ejemplo n.º 1

Archivo: ugly.c Proyecto: RodrigoNieves/vlc

/*****************************************************************************
 * Create: allocate ugly resampler
 *****************************************************************************/
static int Create( vlc_object_t *p_this )
{
    filter_t * p_filter = (filter_t *)p_this;

    if( p_filter->fmt_in.audio.i_rate == p_filter->fmt_out.audio.i_rate
     || p_filter->fmt_in.audio.i_format != p_filter->fmt_out.audio.i_format
     || p_filter->fmt_in.audio.i_physical_channels
                                 != p_filter->fmt_out.audio.i_physical_channels
     || p_filter->fmt_in.audio.i_original_channels
                                 != p_filter->fmt_out.audio.i_original_channels
     || !AOUT_FMT_LINEAR( &p_filter->fmt_in.audio ) )
        return VLC_EGENERIC;

    p_filter->pf_audio_filter = DoWork;
    return VLC_SUCCESS;
}

Ejemplo n.º 2

Archivo: dec.c Proyecto: etix/vlc

/**
 * Creates an audio output
 */
int aout_DecNew( audio_output_t *p_aout,
                 const audio_sample_format_t *p_format,
                 const audio_replay_gain_t *p_replay_gain,
                 const aout_request_vout_t *p_request_vout )
{
    /* Sanitize audio format */
    unsigned i_channels = aout_FormatNbChannels( p_format );
    if( i_channels != p_format->i_channels && AOUT_FMT_LINEAR( p_format ) )
    {
        msg_Err( p_aout, "incompatible audio channels count with layout mask" );
        return -1;
    }

    if( p_format->i_rate > 352800 )
    {
        msg_Err( p_aout, "excessive audio sample frequency (%u)",
                 p_format->i_rate );
        return -1;
    }
    if( p_format->i_rate < 4000 )
    {
        msg_Err( p_aout, "too low audio sample frequency (%u)",
                 p_format->i_rate );
        return -1;
    }

    var_Create (p_aout, "stereo-mode", VLC_VAR_INTEGER | VLC_VAR_DOINHERIT);
    vlc_value_t txt;
    txt.psz_string = _("Stereo audio mode");
    var_Change (p_aout, "stereo-mode", VLC_VAR_SETTEXT, &txt, NULL);

    aout_owner_t *owner = aout_owner(p_aout);

    /* TODO: reduce lock scope depending on decoder's real need */
    aout_OutputLock (p_aout);

    /* Create the audio output stream */
    owner->volume = aout_volume_New (p_aout, p_replay_gain);

    atomic_store (&owner->restart, 0);
    owner->input_format = *p_format;
    owner->mixer_format = owner->input_format;
    owner->request_vout = *p_request_vout;

    if (aout_OutputNew (p_aout, &owner->mixer_format))
        goto error;
    aout_volume_SetFormat (owner->volume, owner->mixer_format.i_format);

    /* Create the audio filtering "input" pipeline */
    owner->filters = aout_FiltersNew (p_aout, p_format, &owner->mixer_format,
                                      &owner->request_vout);
    if (owner->filters == NULL)
    {
        aout_OutputDelete (p_aout);
error:
        aout_volume_Delete (owner->volume);
        owner->volume = NULL;
        aout_OutputUnlock (p_aout);
        var_Destroy (p_aout, "stereo-mode");
        return -1;
    }

    owner->sync.end = VLC_TS_INVALID;
    owner->sync.resamp_type = AOUT_RESAMPLING_NONE;
    owner->sync.discontinuity = true;
    aout_OutputUnlock (p_aout);

    atomic_init (&owner->buffers_lost, 0);
    atomic_init (&owner->buffers_played, 0);
    return 0;
}

Ejemplo n.º 3

Archivo: output.c Proyecto: CSRedRat/vlc

/*****************************************************************************
 * aout_OutputNew : allocate a new output and rework the filter pipeline
 *****************************************************************************
 * This function is entered with the mixer lock.
 *****************************************************************************/
int aout_OutputNew( audio_output_t *p_aout,
                    const audio_sample_format_t * p_format )
{
    aout_owner_t *owner = aout_owner (p_aout);

    aout_assert_locked( p_aout );
    p_aout->format = *p_format;

    aout_FormatPrepare( &p_aout->format );

    /* Find the best output plug-in. */
    owner->module = module_need (p_aout, "audio output", "$aout", false);
    if (owner->module == NULL)
    {
        msg_Err( p_aout, "no suitable audio output module" );
        return -1;
    }

    if ( var_Type( p_aout, "audio-channels" ) ==
             (VLC_VAR_INTEGER | VLC_VAR_HASCHOICE) )
    {
        /* The user may have selected a different channels configuration. */
        switch( var_InheritInteger( p_aout, "audio-channels" ) )
        {
            case AOUT_VAR_CHAN_RSTEREO:
                p_aout->format.i_original_channels |= AOUT_CHAN_REVERSESTEREO;
                break;
            case AOUT_VAR_CHAN_STEREO:
                p_aout->format.i_original_channels =
                                              AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT;
                break;
            case AOUT_VAR_CHAN_LEFT:
                p_aout->format.i_original_channels = AOUT_CHAN_LEFT;
                break;
            case AOUT_VAR_CHAN_RIGHT:
                p_aout->format.i_original_channels = AOUT_CHAN_RIGHT;
                break;
            case AOUT_VAR_CHAN_DOLBYS:
                p_aout->format.i_original_channels =
                      AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT | AOUT_CHAN_DOLBYSTEREO;
                break;
        }
    }
    else if ( p_aout->format.i_physical_channels == AOUT_CHAN_CENTER
              && (p_aout->format.i_original_channels
                   & AOUT_CHAN_PHYSMASK) == (AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT) )
    {
        vlc_value_t val, text;

        /* Mono - create the audio-channels variable. */
        var_Create( p_aout, "audio-channels",
                    VLC_VAR_INTEGER | VLC_VAR_HASCHOICE );
        text.psz_string = _("Audio Channels");
        var_Change( p_aout, "audio-channels", VLC_VAR_SETTEXT, &text, NULL );

        val.i_int = AOUT_VAR_CHAN_STEREO; text.psz_string = _("Stereo");
        var_Change( p_aout, "audio-channels", VLC_VAR_ADDCHOICE, &val, &text );
        val.i_int = AOUT_VAR_CHAN_LEFT; text.psz_string = _("Left");
        var_Change( p_aout, "audio-channels", VLC_VAR_ADDCHOICE, &val, &text );
        val.i_int = AOUT_VAR_CHAN_RIGHT; text.psz_string = _("Right");
        var_Change( p_aout, "audio-channels", VLC_VAR_ADDCHOICE, &val, &text );
        if ( p_aout->format.i_original_channels & AOUT_CHAN_DUALMONO )
        {
            /* Go directly to the left channel. */
            p_aout->format.i_original_channels = AOUT_CHAN_LEFT;
            var_SetInteger( p_aout, "audio-channels", AOUT_VAR_CHAN_LEFT );
        }
        var_AddCallback( p_aout, "audio-channels", aout_ChannelsRestart,
                         NULL );
    }
    else if ( p_aout->format.i_physical_channels ==
               (AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT)
                && (p_aout->format.i_original_channels &
                     (AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT)) )
    {
        vlc_value_t val, text;

        /* Stereo - create the audio-channels variable. */
        var_Create( p_aout, "audio-channels",
                    VLC_VAR_INTEGER | VLC_VAR_HASCHOICE );
        text.psz_string = _("Audio Channels");
        var_Change( p_aout, "audio-channels", VLC_VAR_SETTEXT, &text, NULL );

        if ( p_aout->format.i_original_channels & AOUT_CHAN_DOLBYSTEREO )
        {
            val.i_int = AOUT_VAR_CHAN_DOLBYS;
            text.psz_string = _("Dolby Surround");
        }
        else
        {
            val.i_int = AOUT_VAR_CHAN_STEREO;
            text.psz_string = _("Stereo");
        }
        var_Change( p_aout, "audio-channels", VLC_VAR_ADDCHOICE, &val, &text );
        val.i_int = AOUT_VAR_CHAN_LEFT; text.psz_string = _("Left");
        var_Change( p_aout, "audio-channels", VLC_VAR_ADDCHOICE, &val, &text );
        val.i_int = AOUT_VAR_CHAN_RIGHT; text.psz_string = _("Right");
        var_Change( p_aout, "audio-channels", VLC_VAR_ADDCHOICE, &val, &text );
        val.i_int = AOUT_VAR_CHAN_RSTEREO; text.psz_string=_("Reverse stereo");
        var_Change( p_aout, "audio-channels", VLC_VAR_ADDCHOICE, &val, &text );
        if ( p_aout->format.i_original_channels & AOUT_CHAN_DUALMONO )
        {
            /* Go directly to the left channel. */
            p_aout->format.i_original_channels = AOUT_CHAN_LEFT;
            var_SetInteger( p_aout, "audio-channels", AOUT_VAR_CHAN_LEFT );
        }
        var_AddCallback( p_aout, "audio-channels", aout_ChannelsRestart,
                         NULL );
    }
    var_TriggerCallback( p_aout, "intf-change" );

    aout_FormatPrepare( &p_aout->format );
    aout_FormatPrint( p_aout, "output", &p_aout->format );

    /* Choose the mixer format. */
    owner->mixer_format = p_aout->format;
    if (!AOUT_FMT_LINEAR(&p_aout->format))
        owner->mixer_format.i_format = p_format->i_format;
    else
    /* Most audio filters can only deal with single-precision,
     * so lets always use that when hardware supports floating point. */
    if( HAVE_FPU )
        owner->mixer_format.i_format = VLC_CODEC_FL32;
    else
    /* Otherwise, audio filters will not work. Use fixed-point if the input has
     * more than 16-bits depth. */
    if( p_format->i_bitspersample > 16 || !AOUT_FMT_LINEAR(p_format))
        owner->mixer_format.i_format = VLC_CODEC_FI32;
    else
    /* Fallback to 16-bits. This avoids pointless conversion to and from
     * 32-bits samples for the sole purpose of software mixing. */
        owner->mixer_format.i_format = VLC_CODEC_S16N;

    aout_FormatPrepare (&owner->mixer_format);
    aout_FormatPrint (p_aout, "mixer", &owner->mixer_format);

    /* Create filters. */
    owner->nb_filters = 0;
    if (aout_FiltersCreatePipeline (p_aout, owner->filters,
                                    &owner->nb_filters, &owner->mixer_format,
                                    &p_aout->format) < 0)
    {
        msg_Err( p_aout, "couldn't create audio output pipeline" );
        module_unneed (p_aout, owner->module);
        owner->module = NULL;
        return -1;
    }
    return 0;
}

Ejemplo n.º 4

Archivo: output.c Proyecto: CSRedRat/vlc

/**
 * Dequeues the next audio packet (a.k.a. audio fragment).
 * The audio output plugin must first call aout_PacketPlay() to queue the
 * decoded audio samples. Typically, audio_output_t.pf_play is set to, or calls
 * aout_PacketPlay().
 * @note This function is considered legacy. Please do not use this function in
 * new audio output plugins.
 * @param p_aout audio output instance
 * @param start_date expected PTS of the audio packet
 */
block_t *aout_PacketNext (audio_output_t *p_aout, mtime_t start_date)
{
    aout_packet_t *p = aout_packet (p_aout);
    aout_fifo_t *p_fifo = &p->fifo;
    block_t *p_buffer;
    const bool b_can_sleek = !AOUT_FMT_LINEAR(&p_aout->format);
    const mtime_t now = mdate ();
    const mtime_t threshold =
        (b_can_sleek ? start_date : now) - AOUT_MAX_PTS_DELAY;

    vlc_mutex_lock( &p->lock );
    if( p->pause_date != VLC_TS_INVALID )
        goto out; /* paused: do not dequeue buffers */

    for (;;)
    {
        p_buffer = p_fifo->p_first;
        if (p_buffer == NULL)
            goto out; /* nothing to play */

        if (p_buffer->i_pts >= threshold)
            break;

        /* Drop the audio sample if the audio output is really late.
         * In the case of b_can_sleek, we don't use a resampler so we need to
         * be a lot more severe. */
        msg_Dbg (p_aout, "audio output is too slow (%"PRId64" us): "
                 " trashing %"PRId64" us", threshold - p_buffer->i_pts,
                 p_buffer->i_length);
        block_Release (aout_FifoPop (p_fifo));
    }

    mtime_t delta = start_date - p_buffer->i_pts;
    /* This assumes that all buffers have the same duration. This is true
     * since aout_PacketPlay() (aout_OutputSlice()) is used. */
    if (0 >= delta + p_buffer->i_length)
    {
        if (!p->starving)
        {
            msg_Dbg (p_aout, "audio output is starving (%"PRId64"), "
                     "playing silence", delta);
            p->starving = true;
        }
        goto out; /* nothing to play _yet_ */
    }

    p->starving = false;
    p_buffer = aout_FifoPop( p_fifo );

    if (!b_can_sleek
     && (delta < -AOUT_MAX_PTS_ADVANCE || AOUT_MAX_PTS_DELAY < delta))
    {
        msg_Warn (p_aout, "audio output out of sync, "
                          "adjusting dates (%"PRId64" us)", delta);
        aout_FifoMoveDates (&p->partial, delta);
        aout_FifoMoveDates (p_fifo, delta);
        p->time_report = delta;
    }
    vlc_mutex_unlock( &p->lock );
    return p_buffer;
out:
    vlc_mutex_unlock( &p->lock );
    return NULL;
}

Ejemplo n.º 5

Archivo: output.c Proyecto: CSRedRat/vlc

/**
 * Rearranges audio blocks in correct number of samples.
 * @note (FIXME) This is left here for historical reasons. It belongs in the
 * output code. Besides, this operation should be avoided if possible.
 */
static block_t *aout_OutputSlice (audio_output_t *p_aout)
{
    aout_packet_t *p = aout_packet (p_aout);
    aout_fifo_t *p_fifo = &p->partial;
    const unsigned samples = p->samples;
    assert( samples > 0 );

    vlc_assert_locked( &p->lock );

    /* Retrieve the date of the next buffer. */
    date_t exact_start_date = p->fifo.end_date;
    mtime_t start_date = date_Get( &exact_start_date );

    /* See if we have enough data to prepare a new buffer for the audio output. */
    aout_buffer_t *p_buffer = p_fifo->p_first;
    if( p_buffer == NULL )
        return NULL;

    /* Find the earliest start date available. */
    if ( start_date == VLC_TS_INVALID )
    {
        start_date = p_buffer->i_pts;
        date_Set( &exact_start_date, start_date );
    }
    /* Compute the end date for the new buffer. */
    mtime_t end_date = date_Increment( &exact_start_date, samples );

    /* Check that we have enough samples (TODO merge with next loop). */
    for( unsigned available = 0; available < samples; )
    {
        p_buffer = p_buffer->p_next;
        if( p_buffer == NULL )
            return NULL;

        available += p_buffer->i_nb_samples;
    }

    if( AOUT_FMT_LINEAR( &p_aout->format ) )
    {
        const unsigned framesize = p_aout->format.i_bytes_per_frame;
        /* Build packet with adequate number of samples */
        unsigned needed = samples * framesize;

        p_buffer = block_Alloc( needed );
        if( unlikely(p_buffer == NULL) )
            /* XXX: should free input buffers */
            return NULL;
        p_buffer->i_nb_samples = samples;

        for( uint8_t *p_out = p_buffer->p_buffer; needed > 0; )
        {
            aout_buffer_t *p_inbuf = p_fifo->p_first;
            if( unlikely(p_inbuf == NULL) )
            {
                msg_Err( p_aout, "packetization error" );
                vlc_memset( p_out, 0, needed );
                break;
            }

            const uint8_t *p_in = p_inbuf->p_buffer;
            size_t avail = p_inbuf->i_nb_samples * framesize;
            if( avail > needed )
            {
                vlc_memcpy( p_out, p_in, needed );
                p_fifo->p_first->p_buffer += needed;
                p_fifo->p_first->i_buffer -= needed;
                needed /= framesize;
                p_fifo->p_first->i_nb_samples -= needed;

                mtime_t t = needed * CLOCK_FREQ / p_aout->format.i_rate;
                p_fifo->p_first->i_pts += t;
                p_fifo->p_first->i_length -= t;
                break;
            }

            vlc_memcpy( p_out, p_in, avail );
            needed -= avail;
            p_out += avail;
            /* Next buffer */
            aout_BufferFree( aout_FifoPop( p_fifo ) );
        }
    }
    else
        p_buffer = aout_FifoPop( p_fifo );

    p_buffer->i_pts = start_date;
    p_buffer->i_length = end_date - start_date;

    return p_buffer;
}