C++ (Cpp) Param_Info2の例

コード例 #1

ファイル: File_Als.cpp プロジェクト: MediaArea/MediaInfoLib

//---------------------------------------------------------------------------
void File_Als::FileHeader_Parse()
{
    //Parsing
    int32u SampleRate, Samples;
    int16u Channels;
    int8u BitsPerSample, FileType;
    Skip_C4(                                                    "signature");
    Get_B4 (SampleRate,                                         "sample rate");
    Get_B4 (Samples,                                            "samples");
    Get_B2 (Channels,                                           "channels-1"); Param_Info2(Channels+1, " channel(s)");
    BS_Begin();
    Get_S1 (3, FileType,                                        "file type"); // WAV, RIFF, AIFF
    Get_S1 (3, BitsPerSample,                                   "bits per sample"); Param_Info2((BitsPerSample+1)*8, " bits");
    Skip_SB(                                                    "floating point");
    Skip_SB(                                                    "samples are big-endian");
    BS_End();

    FILLING_BEGIN();
        if (!CalcDurationUncompressedSize(Samples, SampleRate, (BitsPerSample+1)*8, Channels))
            return;

        File__Tags_Helper::Accept("ALS");

        File__Tags_Helper::Stream_Prepare(Stream_Audio);
        Fill(Stream_Audio, 0, Audio_Format, "ALS");
        Fill(Stream_Audio, 0, Audio_Codec, "ALS");
        Fill(Stream_Audio, 0, Audio_BitDepth, (BitsPerSample+1)*8);
        Fill(Stream_Audio, StreamPos_Last, Audio_Channel_s_, Channels+1);
        Fill(Stream_Audio, StreamPos_Last, Audio_SamplingRate, SampleRate);
        Fill(Stream_Audio, 0, Audio_Duration, Duration);

        //No more need data
        File__Tags_Helper::Finish("ALS");
    FILLING_END();
}

コード例 #2

ファイル: File_OpenMG.cpp プロジェクト: Grimace1975/mpc-hc

//---------------------------------------------------------------------------
void File_OpenMG::FileHeader_Parse()
{
    //Parsing
    int16u Size, FrameSize=0;
    int8u  Flags, CodecID, SamplingRate_Code=0, Channels_Code=0;
    bool  JointStereo=false;
    Skip_C3(                                                    "Code");
    Get_B1 (Flags,                                              "Flags");
    Get_B2 (Size,                                               "Size");
    Skip_XX(26,                                                 "Unknown");
    Get_B1 (CodecID,                                            "Coded ID"); Param_Info1(OpenMG_CodecID_Format(CodecID));
    if (CodecID<=1) //Atrac3
    {
        BS_Begin();
        Skip_S1(7,                                              "Unknown");
        Get_SB (   JointStereo,                                 "Joint Stereo");
        Get_S1 (3, SamplingRate_Code,                           "Sampling Rate"); Param_Info2(OpenMG_SamplingRate(SamplingRate_Code), " Hz");
        Get_S1 (3, Channels_Code,                               "Channels"); Param_Info2(OpenMG_Channels(Channels_Code), " channel(s)");
        Get_S2 (10, FrameSize,                                  "Frame size");
        BS_End();
    }
    Skip_XX(Size-Element_Offset,                                "Unknown");

    FILLING_BEGIN();
        if (!Status[IsAccepted])
        {
            File__Tags_Helper::Accept();

            Fill(Stream_Audio, 0, Audio_Format, OpenMG_CodecID_Format(CodecID));
            Fill(Stream_Audio, 0, Audio_Encryption, OpenMG_CodecID_Encryption(CodecID));
            int64u StreamSize=(int64u)-1;
            if (File_Size!=(int64u)-1)
            {
                StreamSize=File_Size-(Buffer_Offset+Element_Size);
                Fill(Stream_Audio, 0, Audio_StreamSize, StreamSize);
            }
            if (CodecID<=1) // Atrac3
            {
                Fill(Stream_Audio, 0, Audio_Channel_s_, OpenMG_Channels(Channels_Code));
                Fill(Stream_Audio, 0, Audio_ChannelPositions, OpenMG_ChannelPositions(Channels_Code));
                if (Channels_Code==1 && JointStereo)
                    Fill(Stream_Audio, 0, Audio_Format_Settings_Mode, "Joint Stereo");
                Fill(Stream_Audio, 0, Audio_SamplingRate, OpenMG_SamplingRate(SamplingRate_Code));

                if (CodecID==1) //Protected
                    FrameSize++; //Not sure
                FrameSize<<=3; //8-byte  blocks
                int64u BitRate=OpenMG_SamplingRate(SamplingRate_Code)*FrameSize/256;
                Fill(Stream_Audio, 0, Audio_BitRate, BitRate);
                if (StreamSize!=(int64u)-1 && BitRate)
                    Fill(Stream_Audio, 0, Audio_Duration, StreamSize*8*1000/BitRate);
            }
        }
    FILLING_END();
}

コード例 #3

ファイル: File_Pcm_M2ts.cpp プロジェクト: MediaArea/MediaInfoLib

//---------------------------------------------------------------------------
void File_Pcm_M2ts::Read_Buffer_Continue()
{
    if (Buffer_Size==0)
        return;

    //Parsing
    int16u  audio_data_payload_size;
    Get_B2 (   audio_data_payload_size,                         "audio_data_payload_size");
    BS_Begin();
    Get_S1 (4, channel_assignment,                              "channel_assignment"); Param_Info2(Pcm_M2TS_channel_assignment[channel_assignment], " channel(s)");
    Get_S1 (4, sampling_frequency,                              "sampling_frequency"); Param_Info2(Pcm_M2TS_sampling_frequency[sampling_frequency], " Hz");
    Get_S1 (2, bits_per_sample,                                 "bits_per_sample"); Param_Info2(Pcm_M2TS_bits_per_sample[bits_per_sample], " bits");
    Skip_SB(                                                    "start_flag");
    Skip_S1(5,                                                  "reserved");
    BS_End();
    Skip_XX(audio_data_payload_size,                            "audio_data_payload");

    FILLING_BEGIN_PRECISE();
        if (!Status[IsAccepted])
        {
            Accept();
            Finish();
        }
    FILLING_END();
}

コード例 #4

//---------------------------------------------------------------------------
void File_DvbSubtitle::region_composition_segment()
{
    Element_Name("region composition segment");

    //Parsing
    int16u region_width, region_height;
    int8u  region_id, region_depth;
    Get_B1 (   region_id,                                       "region_id");
    BS_Begin();
    Skip_S1(4,                                                  "region_version_number");
    Skip_S1(1,                                                  "region_fill_flag");
    Skip_S1(3,                                                  "reserved");
    BS_End();
    Get_B2 (   region_width,                                    "region_width");
    Get_B2 (   region_height,                                   "region_height");
    BS_Begin();
    Skip_S1(3,                                                  "region_level_of_compatibility");
    Get_S1 (3, region_depth,                                    "region_depth"); Param_Info2(DvbSubtitle_region_depth[region_depth], " bits");
    Skip_S1(2,                                                  "reserved");
    BS_End();
    Skip_B1(                                                    "CLUT_id");
    Skip_B1(                                                    "region_8-bit_pixel_code");
    BS_Begin();
    Skip_S1(4,                                                  "region_4-bit_pixel-code");
    Skip_S1(2,                                                  "region_2-bit_pixel-code");
    Skip_S1(2,                                                  "reserved");
    BS_End();
    while(Element_Offset<Element_Size)
    {
        Element_Begin1("Object");
        int8u object_type;
        Skip_B2(                                                "object_id");
        BS_Begin();
        Get_S1 ( 2, object_type,                                "object_type");
        Skip_S1( 2,                                             "object_provider_flag");
        Skip_S1(12,                                             "object_horizontal_position");
        Skip_S1( 4,                                             "reserved");
        Skip_S1(12,                                             "object_vertical_position");
        BS_End();
        switch (object_type)
        {
            case 0x01 :
            case 0x02 :
                        Skip_B2(                                 "foreground_pixel_code");
                        Skip_B2(                                 "background_pixel_code");
                        break;
            default   : ;
        }
        Element_End0();
    }

    FILLING_BEGIN();
        region_data& region = subtitle_streams[subtitle_stream_id].pages[page_id].regions[region_id];
        region.region_composition_segment=true;
        region.region_width=region_width;
        region.region_height=region_height;
        region.region_depth=region_depth;
    FILLING_END();
}

コード例 #5

ファイル: File_Tak.cpp プロジェクト: AeonAxan/mpc-hc

//---------------------------------------------------------------------------
void File_Tak::STREAMINFO()
{
    //Parsing
    int32u num_samples_hi, samplerate;
    int8u  num_samples_lo, framesizecode, samplesize;
    bool   channels;

    Skip_L1 (                                                   "unknown");
    BS_Begin();
    Get_S1 ( 2, num_samples_lo,                                 "num_samples (lo)");
    Get_S1 ( 3, framesizecode,                                  "framesizecode");
    Skip_S1( 2,                                                 "unknown");
    BS_End();
    Get_L4 (num_samples_hi,                                     "num_samples (hi)"); Param_Info2((((int64u)num_samples_hi)<<2 | num_samples_lo), " samples");
    Get_L3 (samplerate,                                         "samplerate"); Param_Info2((samplerate/16)+6000, " Hz");
    BS_Begin();
    Skip_S1( 4,                                                 "unknown");
    Get_SB (    channels,                                       "channels"); Param_Info1(channels?"Stereo":"Mono");
    Get_S1 ( 2, samplesize,                                     "samplesize"); Param_Info1(Tak_samplesize[samplesize]);
    Skip_SB(                                                    "unknown");
    BS_End();
    Skip_L3(                                                    "crc");

    FILLING_BEGIN()
        //Coherency
        if (samplerate==0)
            return;

        //Computing
        int64u Samples=((int64u)num_samples_hi)<<2 | num_samples_lo;
        int32u SamplingRate=(samplerate/16)+6000;

        //Filling
        File__Tags_Helper::Accept("TAK");

        File__Tags_Helper::Stream_Prepare(Stream_Audio);
        Fill(Stream_Audio, 0, Audio_Format, "TAK");
        Fill(Stream_Audio, 0, Audio_Codec, "TAK");
        Fill(Stream_Audio, 0, Audio_SamplingRate, SamplingRate);
        Fill(Stream_Audio, 0, Audio_Channel_s_, channels?2:1);
        if (Tak_samplesize[samplesize])
            Fill(Stream_Audio, 0, Audio_BitDepth, Tak_samplesize[samplesize]);
        Fill(Stream_Audio, 0, Audio_Duration, Samples*1000/SamplingRate);
    FILLING_END();
}

コード例 #6

ファイル: File_AvsV.cpp プロジェクト: Azpidatziak/mpc-hc

//---------------------------------------------------------------------------
// Packet "B0"
void File_AvsV::video_sequence_start()
{
    Element_Name("video_sequence_start");

    //Parsing
    int32u bit_rate_upper, bit_rate_lower;
    Get_B1 (    profile_id,                                     "profile_id");
    Get_B1 (    level_id,                                       "level_id");
    BS_Begin();
    Get_SB (    progressive_sequence,                           "progressive_sequence");
    Get_S2 (14, horizontal_size,                                "horizontal_size");
    Get_S2 (14, vertical_size,                                  "vertical_size");
    Get_S1 ( 2, chroma_format,                                  "chroma_format");
    Skip_S1( 3,                                                 "sample_precision");
    Get_S1 ( 4, aspect_ratio,                                   "aspect_ratio"); Param_Info1(AvsV_aspect_ratio[aspect_ratio]);
    Get_S1 ( 4, frame_rate_code,                                "frame_rate_code"); Param_Info1(AvsV_frame_rate[frame_rate_code]);
    Get_S3 (18, bit_rate_lower,                                 "bit_rate_lower");
    Mark_1 ();
    Get_S3 (12, bit_rate_upper,                                 "bit_rate_upper");
    bit_rate=(bit_rate_upper<<18)+bit_rate_lower; Param_Info2(bit_rate*8, " bps");
    Get_SB (    low_delay,                                      "low_delay");
    Mark_1 ();
    Skip_S3(18,                                                 "bbv_buffer_size");
    Skip_SB(                                                    "reserved");
    Skip_SB(                                                    "reserved");
    Skip_SB(                                                    "reserved");
    BS_End();

    //Not sure, but the 3 first official files have this
    if (Element_Size-Element_Offset)
    {
        BS_Begin();
        Mark_1();
        BS_End();
    }

    FILLING_BEGIN();
        //NextCode
        NextCode_Clear();
        NextCode_Add(0xB2); //user_data_start
        NextCode_Add(0xB3); //picture_start (I)
        NextCode_Add(0xB5); //extension_start

        //Autorisation of other streams
        Streams[0xB1].Searching_Payload=true, //video_sequence_end
        Streams[0xB2].Searching_Payload=true; //user_data_start
        Streams[0xB3].Searching_Payload=true, //picture_start (I)
        Streams[0xB4].Searching_Payload=true, //reserved
        Streams[0xB5].Searching_Payload=true; //extension_start
        Streams[0xB6].Searching_Payload=true, //picture_start (P or B)
        Streams[0xB7].Searching_Payload=true; //video_edit
        Streams[0xB8].Searching_Payload=true, //reserved

        video_sequence_start_IsParsed=true;
    FILLING_END();
}

コード例 #7

ファイル: File_Flac.cpp プロジェクト: Kyouju/mpc-hc

//---------------------------------------------------------------------------
void File_Flac::STREAMINFO()
{
    //Parsing
    int64u Samples;
    int32u FrameSize_Min, FrameSize_Max, SampleRate;
    int8u  Channels, BitPerSample;
    Skip_B2(                                                    "BlockSize_Min"); //The minimum block size (in samples) used in the stream.
    Skip_B2(                                                    "BlockSize_Max"); //The maximum block size (in samples) used in the stream. (Minimum blocksize == maximum blocksize) implies a fixed-blocksize stream.
    Get_B3 (    FrameSize_Min,                                  "FrameSize_Min"); //The minimum frame size (in bytes) used in the stream. May be 0 to imply the value is not known.
    Get_B3 (    FrameSize_Max,                                  "FrameSize_Max"); //The maximum frame size (in bytes) used in the stream. May be 0 to imply the value is not known.
    BS_Begin();
    Get_S3 (20, SampleRate,                                     "SampleRate"); //Sample rate in Hz. Though 20 bits are available, the maximum sample rate is limited by the structure of frame headers to 1048570Hz. Also, a value of 0 is invalid.
    Get_S1 ( 3, Channels,                                       "Channels"); Param_Info2(Channels+1, " channels"); //(number of channels)-1. FLAC supports from 1 to 8 channels
    Get_S1 ( 5, BitPerSample,                                   "BitPerSample"); Param_Info2(BitPerSample+1, " bits"); //(bits per sample)-1. FLAC supports from 4 to 32 bits per sample. Currently the reference encoder and decoders only support up to 24 bits per sample.
    Get_S5 (36, Samples,                                        "Samples");
    BS_End();
    Skip_B16(                                                   "MD5 signature of the unencoded audio data");

    FILLING_BEGIN()
        if (SampleRate==0)
            return;
        File__Tags_Helper::Accept("FLAC");

        File__Tags_Helper::Streams_Fill();

        File__Tags_Helper::Stream_Prepare(Stream_Audio);
        Fill(Stream_Audio, 0, Audio_Format, "FLAC");
        Fill(Stream_Audio, 0, Audio_Codec, "FLAC");
        if (FrameSize_Min==FrameSize_Max && FrameSize_Min!=0 ) // 0 means it is unknown
            Fill(Stream_Audio, 0, Audio_BitRate_Mode, "CBR");
         else
            Fill(Stream_Audio, 0, Audio_BitRate_Mode, "VBR");
        Fill(Stream_Audio, 0, Audio_SamplingRate, SampleRate);
        Fill(Stream_Audio, 0, Audio_Channel_s_, Channels+1);
        Fill(Stream_Audio, 0, Audio_BitDepth, BitPerSample+1);
        if (!IsSub)
            Fill(Stream_Audio, 0, Audio_Duration, Samples*1000/SampleRate);

        Buffer_MaximumSize=4*1024*1024;
    FILLING_END();
}

コード例 #8

ファイル: File_La.cpp プロジェクト: AeonAxan/mpc-hc

//---------------------------------------------------------------------------
void File_La::FileHeader_Parse()
{
    //Parsing
    Ztring Major, Minor;
    int32u SampleRate, Samples, BytesPerSecond, UnCompSize, WAVEChunk, FmtSize, FmtChunk, CRC32;
    int16u RawFormat, Channels, BytesPerSample, BitsPerSample;

    Skip_Local(2,                                               "signature");
    Get_Local (1, Major,                                        "major_version");
    Get_Local (1, Minor,                                        "minor_version");
    Get_L4 (UnCompSize,                                         "uncompressed_size");
    Get_L4 (WAVEChunk,                                          "chunk");
    Skip_L4(                                                    "fmt_size");
    Get_L4 (FmtChunk,                                           "fmt_chunk");
    Get_L4 (FmtSize,                                            "fmt_size");
    Get_L2 (RawFormat,                                          "raw_format");
    Get_L2 (Channels,                                           "channels"); Param_Info2(Channels, " channel(s)");
    Get_L4 (SampleRate,                                         "sample_rate");
    Get_L4 (BytesPerSecond,                                     "bytes_per_second");
    Get_L2 (BytesPerSample,                                     "bytes_per_sample");
    Get_L2 (BitsPerSample,                                      "bits_per_sample");
    Get_L4 (Samples,                                            "samples");
    Skip_L1(                                                    "flags");
    Get_L4 (CRC32,                                              "crc");

    FILLING_BEGIN()
        if (SampleRate==0)
            return;
        Duration=((int64u)Samples/Channels)*1000/SampleRate; // Seems that it's samples per channels otherwise Duration is doubled ??!!
        if (Duration==0)
            return;
        UncompressedSize=(Samples)*Channels*(BitsPerSample/8);
        if (UncompressedSize==0)
            return;

        File__Tags_Helper::Accept("LA");
        Fill(Stream_General, 0, General_Format_Version, Major+__T('.')+Minor);

        File__Tags_Helper::Stream_Prepare(Stream_Audio);
        Fill(Stream_Audio, 0, Audio_Format, "LA");
        Fill(Stream_Audio, 0, Audio_Codec, "LA");
        Fill(Stream_Audio, 0, Audio_Format_Version, Major+__T('.')+Minor);
        Fill(Stream_Audio, 0, Audio_BitDepth, BitsPerSample);
        Fill(Stream_Audio, 0, Audio_Channel_s_, Channels);
        Fill(Stream_Audio, 0, Audio_SamplingRate, SampleRate);
        Fill(Stream_Audio, 0, Audio_Duration, Duration);

        //No more need data
        File__Tags_Helper::Finish("LA");
    FILLING_END();
}

コード例 #9

ファイル: File_Dpg.cpp プロジェクト: Chlara/MediaConch

//---------------------------------------------------------------------------
void File_Dpg::FileHeader_Parse()
{
    //Parsing
    int32u  FrameCount, FrameRate, SamplingRate;
    Skip_C4(                                                    "Signature");
    Get_L4 (FrameCount,                                         "Frame count");
    Get_L4 (FrameRate,                                          "Frame rate"); Param_Info2(FrameRate/0x100, " fps");
    Get_L4 (SamplingRate,                                       "Sampling rate");
    Skip_L4(                                                    "0x00000000");
    Get_L4 (Audio_Offset,                                       "Audio Offset");
    Get_L4 (Audio_Size,                                         "Audio Size");
    Get_L4 (Video_Offset,                                       "Video Offset");
    Get_L4 (Video_Size,                                         "Video Size");

    FILLING_BEGIN();
        Accept("DPG");

        Fill(Stream_General, 0, General_Format, "DPG");

        Stream_Prepare(Stream_Video);
        Fill(Stream_Video, 0, Video_FrameRate, (float)(FrameRate/0x100), 3);
        Fill(Stream_Video, 0, Video_FrameCount, FrameCount);
        Fill(Stream_Video, 0, Video_StreamSize, Video_Size);

        Stream_Prepare(Stream_Audio);
        Fill(Stream_Audio, 0, Audio_SamplingRate, SamplingRate);
        Fill(Stream_Audio, 0, Audio_StreamSize, Audio_Size);

        //Positionning
        #if defined(MEDIAINFO_MPEGA_YES)
            Parser=new File_Mpega();
            Open_Buffer_Init(Parser);
            GoTo(Audio_Offset, "DPG");
        #elif defined(MEDIAINFO_MPEGV_YES)
            Audio_Size=0;
            Parser=new File_Mpegv();
            Open_Buffer_Init(Parser);
            GoTo(Video_Offset, "DPG");
        #else
            Finish("DPG");
        #endif
    FILLING_END();
}

コード例 #10

ファイル: File_Jpeg.cpp プロジェクト: 3F/FlightSDCpp

//---------------------------------------------------------------------------
void File_Jpeg::COD()
{
    //Parsing
    int16u Levels;
    int8u Style, Style2, MultipleComponentTransform;
    bool PrecinctUsed;
    Get_B1 (Style,                                              "Scod - Style");
        Get_Flags (Style, 0, PrecinctUsed,                      "Precinct used");
        Skip_Flags(Style, 1,                                    "Use SOP (start of packet)");
        Skip_Flags(Style, 2,                                    "Use EPH (end of packet header)");
    Skip_B1(                                                    "Number of decomposition levels");
    Skip_B1(                                                    "Progression order");
    Get_B2 (Levels,                                             "Number of layers");
    Info_B1(DimX,                                               "Code-blocks dimensions X (2^(n+2))"); Param_Info2(1<<(DimX+2), " pixels");
    Info_B1(DimY,                                               "Code-blocks dimensions Y (2^(n+2))"); Param_Info2(1<<(DimY+2), " pixels");
    Get_B1 (Style2,                                             "Style of the code-block coding passes");
        Skip_Flags(Style, 0,                                    "Selective arithmetic coding bypass");
        Skip_Flags(Style, 1,                                    "MQ states for all contexts");
        Skip_Flags(Style, 2,                                    "Regular termination");
        Skip_Flags(Style, 3,                                    "Vertically stripe-causal context formation");
        Skip_Flags(Style, 4,                                    "Error resilience info is embedded on MQ termination");
        Skip_Flags(Style, 5,                                    "Segmentation marker is to be inserted at the end of each normalization coding pass");
    Skip_B1(                                                    "Transform");
    Get_B1(MultipleComponentTransform,                          "Multiple component transform");
    if (PrecinctUsed)
    {
        BS_Begin();
        Skip_S1(4,                                              "LL sub-band width");
        Skip_S1(4,                                              "LL sub-band height");
        BS_End();
        for (int16u Pos=0; Pos<Levels; Pos++)
        {
            Element_Begin1("Decomposition level");
            BS_Begin();
            Skip_S1(4,                                          "decomposition level width");
            Skip_S1(4,                                          "decomposition level height");
            BS_End();
            Element_End0();
        }
    }

    FILLING_BEGIN();
        if (Frame_Count==0 && Field_Count==0)
        {
            switch (MultipleComponentTransform)
            {
                case 0x01 : Fill(StreamKind_Last, 0, "Compression_Mode", "Lossless"); break;
                case 0x02 : Fill(StreamKind_Last, 0, "Compression_Mode", "Lossy"); break;
                default   : ;
            }
        }
    FILLING_END();
}

コード例 #11

ファイル: File_Iso9660.cpp プロジェクト: AeonAxan/mpc-hc

//---------------------------------------------------------------------------
void File_Iso9660::Primary_Volume_Descriptor()
{
    int32u Volume_Space_Size;
    Element_Begin1("Volume_Descriptor");
    Skip_B1("Volume Descriptor Type");
    Skip_Local(5,"Standard Identifier");
    Skip_B1("Volume Descriptor Version");
    Skip_B1("Unused field");
    Skip_Local(32,"System Identifier");
    Skip_Local(32,"Volume Identifier");
    Skip_XX(8,"Unused field");
    Get_D4(Volume_Space_Size,                                   "Volume Space Size"); Param_Info2(Volume_Space_Size*(int64u)2048, " bytes");
    Skip_XX(32,"Unused field");
    Skip_B4("Volume Set Size");
    Skip_B4("Volume Sequence Number");
    Skip_B4("Logical Block Size");
    Skip_B8("Path Table Size");
    Skip_B4("Location of Occurrence of Type L Path Table");
    Skip_B4("Location of Optional Occurrence of Type L Path Table");
    Skip_B4("Location of Occurrence of Type M Path Table");
    Skip_B4("Location of Optional Occurrence of Type M Path Table");
    Skip_Local(34,"Directory Record for Root Directory");
    Skip_Local(128,"Volume Set Identifier");
    Skip_Local(128,"Publisher Identifier");
    Skip_Local(128,"Data Preparer Identifier");
    Skip_Local(128,"Application Identifier");
    Skip_Local(37,"Copyright File Identifier");
    Skip_Local(37,"Abstract File Identifier");
    Skip_Local(37,"Bibliographic File Identifier");
    Skip_XX(17,"Volume Creation Date and Time");
    Element_End0();
}

コード例 #12

ファイル: File_Aac_Others.cpp プロジェクト: AeonAxan/mpc-hc

//---------------------------------------------------------------------------
void File_Aac::ALSSpecificConfig()
{
    //Not in spec, but something weird in the example I have
    int32u Junk;
    while (Data_BS_Remain())
    {
        Peek_S4(32, Junk);
        if (Junk!=0x414C5300)
        {
            Skip_SB(                                            "Unknown");
        }
        else
            break;
    }
    if (Data_BS_Remain()==0)
        return; //There is a problem

    Element_Begin1("ALSSpecificConfig");
    bool chan_config,chan_sort,crc_enabled,aux_data_enabled;
    int32u samp_freq, samples;
    int16u channels,frame_length;
    int8u ra_flag,random_access, file_type;
    Skip_BS(32,"als_id");
    Get_BS (32, samp_freq,                                      "samp_freq");
    Get_BS (32, samples,                                        "samples");
    Get_S2 (16, channels,                                       "channels"); Param_Info2(channels+1, " channel(s)");
    Get_S1 (3, file_type,                                       "file_type");
    Skip_S1(3,"resolution");
    Skip_SB("floating");
    Skip_SB("msb_first");
    Get_S2 (16,frame_length,"frame_length");
    Get_S1 (8,random_access,"random_access");
    Get_S1 (2,ra_flag,"ra_flag");
    Skip_SB("adapt_order");
    Skip_S1(2,"coef_table");
    Skip_SB("long_term_prediction");
    Skip_S2(10,"max_order");
    Skip_S1(2,"block_switching");
    Skip_SB("bgmc_mode");
    Skip_SB("sb_part");
    Skip_SB("joint_stereo");
    Skip_SB("mc_coding");
    Get_SB (chan_config,"chan_config");
    Get_SB (chan_sort,"chan_sort");
    Get_SB (crc_enabled,"crc_enabled");
    Skip_SB("RLSLMS");
    Skip_BS(5,"(reserved)");
    Get_SB (aux_data_enabled,"aux_data_enabled");
    if (chan_config)
        Skip_S2(16,"chan_config_info");
    if (chan_sort)
    {
        int16u ChBits=(int16u)ceil(log((double)(channels+1))/log((double)2));
        for (int8u c=0; c<=channels; c++)
            Skip_BS(ChBits,                                     "chan_pos[c]");
    }
    if(Data_BS_Remain()%8)
        Skip_S1(Data_BS_Remain()%8,                             "byte_align");
    BS_End();
    int32u header_size,trailer_size;
    Get_B4(header_size,                                         "header_size");
    Get_B4(trailer_size,                                        "trailer_size");
    #ifdef MEDIAINFO_RIFF_YES
    if (file_type==1) //WAVE file
    {
        Element_Begin1("orig_header");
        File_Riff MI;
        Open_Buffer_Init(&MI);
        Open_Buffer_Continue(&MI, Buffer+Buffer_Offset+(size_t)Element_Offset, header_size);
        Element_Offset+=header_size;
        File__Analyze::Finish(&MI); //No merge of data, only for trace information, because this is the data about the decoded stream, not the encoded stream
        Element_End0();
    }
    else
    #endif //MEDIAINFO_RIFF_YES
        Skip_XX(header_size,                                    "orig_header[]");

    Skip_XX(trailer_size,                                       "orig_trailer[]");
    if (crc_enabled)
        Skip_B4(                                                "crc");
    if ((ra_flag == 2) && (random_access > 0))
        for (int32u f=0; f<((samples-1)/(frame_length+1))+1; f++)
            Skip_B4(                                            "ra_unit_size[f]");
    if (aux_data_enabled)
    {
        int32u aux_size;
        Get_B4(aux_size,                                        "aux_size");
        Skip_XX(aux_size,                                       "aux_data[]");
    }
    Element_End0();
    BS_Begin(); //To be in sync with other objectTypes

    FILLING_BEGIN();
        //Filling
        File__Analyze::Stream_Prepare(Stream_Audio);
        Fill(Stream_Audio, StreamPos_Last, Audio_Channel_s_, channels+1);

        //Forcing default confignuration (something weird in the example I have)
        channelConfiguration=0;
        sampling_frequency_index=(int8u)-1;
        sampling_frequency=samp_freq;
    FILLING_END();
}

コード例 #13

ファイル: File_HuffYuv.cpp プロジェクト: Chlara/MediaConch

//---------------------------------------------------------------------------
void File_HuffYuv::FrameHeader()
{
    //Version
    if (Element_Size<4)
    {
        Reject();
        return;
    }
    int8u Version;
    if (Buffer[3]==0)
    {
        Version=Element_Size>4?2:1;
    }
    else
        Version=3;

    //Parsing
    int8u   bpp_override=0, chroma_v_shift=0, chroma_h_shift=0, interlace;
    bool    alpha=false, chroma=false, rgb=false;
    Element_Begin1("method");
    BS_Begin();
        Skip_SB(                                                "unknown");
        Skip_SB(                                                "decorrelate");
        Skip_S1(6,                                              "predictor");
    Element_End0();
    if (Version<=2)
    {
        Get_S1 (8, bpp_override,                                "bpp_override");
    }
    else
    {
        Get_S1 (4, bpp_override,                                "bit_depth"); Param_Info2(bpp_override+1, "bits");
        Get_S1 (2, chroma_v_shift,                              "chroma_v_shift");
        Get_S1 (2, chroma_h_shift,                              "chroma_h_shift");
    }
    Skip_SB(                                                    "unknown");
    Skip_SB(                                                    "context");
    Get_S1 (2, interlace,                                       "interlace");
    if (Version<=2)
    {
        Skip_S1(4,                                              "unknown");
        Skip_S1(8,                                              "zero");
    }
    else
    {
        Skip_SB(                                                "unknown");
        Get_SB (   alpha,                                       "alpha");
        Get_SB (   rgb,                                         "rgb");
        if (rgb)
            Skip_SB(                                            "unused");
        else
            Get_SB (   chroma,                                  "chroma");
        Skip_S1(7,                                              "unused");
        Skip_SB(                                                "version 3+ indicator");
    }
    BS_End();

    if (Frame_Count==0)
    {
        if (Version==2)
        {
            //BiCount;
            if (bpp_override)
                BitCount=bpp_override;
            Fill(Stream_Video, 0, Video_BitDepth, 8);
        }
        else
        {
            Fill(Stream_Video, 0, Video_BitDepth, bpp_override+1);
        }

        Fill(Stream_Video, 0, Video_Format_Version, __T("Version ")+Ztring::ToZtring(Version));

        if (Version==2)
        {
            Fill(Stream_Video, 0, Video_ColorSpace, HuffYUV_ColorSpace(BitCount));
            Fill(Stream_Video, 0, Video_ChromaSubsampling, HuffYUV_ChromaSubsampling(BitCount));
        }
        else
        {
            Fill(Stream_Video, 0, Video_ColorSpace, HuffYUV_ColorSpace(rgb, chroma, alpha));
            string ChromaSubsampling;
            if (chroma)
            {
                switch (chroma_h_shift)
                {
                    case 0 :
                            switch (chroma_v_shift)
                            {
                                case 0 : ChromaSubsampling="4:4:4"; break;
                                default: ;
                            }
                            break;
                    case 1 :
                            switch (chroma_v_shift)
                            {
                                case 0 : ChromaSubsampling="4:2:2"; break;
                                case 1 : ChromaSubsampling="4:2:0"; break;
                                default: ;
                            }
                            break;
                    case 2 :
                            switch (chroma_v_shift)
                            {
                                case 0 : ChromaSubsampling="4:1:1"; break;
                                case 1 : ChromaSubsampling="4:1:0"; break;
                                case 2 : ChromaSubsampling="4:1:0 (4x4)"; break;
                                default: ;
                            }
                            break;
                    default: ;
                }
            }
            if (!ChromaSubsampling.empty() && alpha)
                ChromaSubsampling+=":4";
            Fill(Stream_Video, 0, Video_ChromaSubsampling, ChromaSubsampling);
        }

        switch (interlace)
        {
            case 0 :
                    if (Version<=2 && Height)
                        Fill(Stream_Video, 0, Video_ScanType, Height>288?"Interlaced":"Progressive");
                    break;
            case 1 :
                    Fill(Stream_Video, 0, Video_ScanType, "Interlaced");
                    break;
            case 2 :
                    Fill(Stream_Video, 0, Video_ScanType, "Progressive");
                    break;
            default:;
        }
    }
}

コード例 #14

//---------------------------------------------------------------------------
void File_H263::Data_Parse()
{
    //Parsing
    int8u Temporal_Reference_Temp;
    BS_Begin();
    Skip_S3(22,                                                 "Picture Start Code (PSC)");
    Get_S1 ( 8, Temporal_Reference_Temp,                        "Temporal Reference (TR)");
    if (!Temporal_Reference_IsValid)
    {
        Temporal_Reference=Temporal_Reference_Temp;
        Temporal_Reference_IsValid=true;
    }
    else
        Temporal_Reference++;
    if (Temporal_Reference_Temp!=Temporal_Reference)
    {
        Trusted_IsNot("Out of Order");
        Open_Buffer_Unsynch();
        return;
    }
    Element_Begin1("Type Information (PTYPE)");
        Mark_1();
        Mark_0();
        Skip_SB(                                                "Split screen indicator");
        Skip_SB(                                                "Document camera indicator");
        Skip_SB(                                                "Full Picture Freeze Release");
        Get_S1 (3, Source_Format,                               "Source Format"); Param_Info1(H263_Source_Format[Source_Format]);
        if (Source_Format!=7)
        {
            Skip_SB(                                            "Picture Coding Type");
            Skip_SB(                                            "Unrestricted Motion Vector mode");
            Skip_SB(                                            "Syntax-based Arithmetic Coding mode");
            Skip_SB(                                            "Advanced Prediction mode");
            Skip_SB(                                            "PB-frames mode");
        }
    Element_End0();
    if (Source_Format==7) // Extended PTYPE
    {
        Element_Begin1("Plus PTYPE (PLUSPTYPE)");
            int8u Ufep, PixelAspectRatioCode=0, Width=0, Height=0;
            Get_S1 ( 3, Ufep,                                   "Update Full Extended PTYPE (UFEP)");
            switch (Ufep)
            {
                case 0  :
                            break;
                case 1  :
                            Element_Begin1("Optional Part of PLUSPTYPE (OPPTYPE)");
                            Get_S1 (3, Source_Format,           "Source Format"); Param_Info1(H263_Source_Format[Source_Format]);
                            Skip_SB(                            "Custom PCF");
                            Skip_SB(                            "Unrestricted Motion Vector (UMV) mode");
                            Skip_SB(                            "Syntax-based Arithmetic Coding (SAC) mode");
                            Skip_SB(                            "Advanced Prediction (AP) mode");
                            Skip_SB(                            "Advanced INTRA Coding (AIC) mode");
                            Skip_SB(                            "Deblocking Filter (DF) mode");
                            Skip_SB(                            "Slice Structured (SS) mode");
                            Skip_SB(                            "Reference Picture Selection (RPS) mode");
                            Skip_SB(                            "Independent Segment Decoding (ISD) mode");
                            Skip_SB(                            "Alternative INTER VLC (AIV) mode");
                            Skip_SB(                            "Modified Quantization (MQ) mode");
                            Mark_1();
                            Mark_0();
                            Mark_0();
                            Mark_0();
                            Element_End0();
                            break;
                default :
                            BS_End();
                            Skip_XX(Element_Size-Element_Offset, "Unknown");
                            return; //TODO: frame count...
            }
            Element_Begin1("mandatory part of PLUSPTYPE when PLUSPTYPE present (MPPTYPE)");
                Skip_S1(3,                                      "Picture Type Code");
                Skip_SB(                                        "Reference Picture Resampling (RPR) mode");
                Skip_SB(                                        "Reduced-Resolution Update (RRU) mode");
                Skip_SB(                                        "Rounding Type (RTYPE)");
                Mark_0();
                Mark_0();
                Mark_1();
            Element_End0();
        Element_End0();
        Skip_SB(                                                "CPM");
        Skip_S1(2,                                              "PSBI");
        Element_Begin1("Custom Picture Format (CPFMT)");
            Get_S1 (4, PixelAspectRatioCode,                    "Pixel Aspect Ratio Code");
            Get_S1 (4, Width,                                   "Picture Width Indication");
            Width++; Width<<=2; Param_Info2(Width, " pixels");
            Mark_1();
            Get_S1 (4, Height,                                  "Picture Height Indication");
            Height<<=2; Param_Info2(Height, " pixels");
        Element_End0();
        if (PixelAspectRatioCode==0xF)
        {
            Element_Begin1("Extended Pixel Aspect Ratio (EPAR)");
            Get_S1 (8, PAR_W,                                   "PAR Width");
            Get_S1 (8, PAR_H,                                   "PAR Height");
            Element_End0();
        }
        else
        {
            PAR_W=H263_PAR_W[PixelAspectRatioCode];
            PAR_H=H263_PAR_H[PixelAspectRatioCode];
        }
    }
    BS_End();
    Skip_XX(Element_Size-Element_Offset,                        "Other data");

    FILLING_BEGIN();
        Element_Info1(Frame_Count);
        Frame_Count++;

        //Filling
        if (!Status[IsFilled] && Frame_Count>=Frame_Count_Valid)
        {
            Accept("H.263");
            Finish("H.263");
        }
    FILLING_END();
}