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/* QueryParser.cs $
This file is part of the HandBrake source code.
Homepage: <http://handbrake.fr>.
It may be used under the terms of the GNU General Public License. */
namespace Handbrake.Functions
{
using System;
using System.Collections;
using System.Globalization;
using System.Text.RegularExpressions;
using System.Windows.Forms;
using Model;
/// <summary>
/// Parse a CLI Query
/// </summary>
public class QueryParser
{
/// <summary>
/// The Culture
/// </summary>
private static readonly CultureInfo Culture = new CultureInfo("en-US", false);
#region Varibles
// Source
public int DVDTitle { get; set; }
public int DVDChapterStart { get; set; }
public int DVDChapterFinish { get; set; }
// Output Settings
public string Format { get; set; }
public bool LargeMP4 { get; set; }
public bool IpodAtom { get; set; }
public bool OptimizeMP4 { get; set; }
// Picture Settings
public int Width { get; set; }
public int Height { get; set; }
public int MaxWidth { get; set; }
public int MaxHeight { get; set; }
public string CropValues { get; set; }
public string CropTop { get; set; }
public string CropBottom { get; set; }
public string CropLeft { get; set; }
public string CropRight { get; set; }
public int AnamorphicMode { get; set; }
public bool KeepDisplayAsect { get; set; }
public double DisplayWidthValue { get; set; }
public int PixelAspectWidth { get; set; }
public int PixelAspectHeight { get; set; }
public int AnamorphicModulus { get; set; }
// Video Filters
public string DeTelecine { get; set; }
public int DeBlock { get; set; }
public string DeInterlace { get; set; }
public string DeNoise { get; set; }
public string Decomb { get; set; }
// Video Settings
public string VideoEncoder { get; set; }
public bool Grayscale { get; set; }
public bool TwoPass { get; set; }
public bool TurboFirstPass { get; set; }
public string VideoFramerate { get; set; }
public string AverageVideoBitrate { get; set; }
public string VideoTargetSize { get; set; }
public float VideoQuality { get; set; }
// Audio Settings
public ArrayList AudioInformation { get; set; }
public string Subtitles { get; set; }
public bool ForcedSubtitles { get; set; }
// Chapter Markers
public bool ChapterMarkers { get; set; }
// Other
public string H264Query { get; set; }
public bool Verbose { get; set; }
// Preset Information
public int PresetBuildNumber { get; set; }
public string PresetDescription { get; set; }
public string PresetName { get; set; }
public string Type { get; set; }
public bool UsesMaxPictureSettings { get; set; }
public bool UsesPictureFilters { get; set; }
public bool UsesPictureSettings { get; set; }
#endregion
/// <summary>
/// Takes in a query which can be in any order and parses it.
/// All varibles are then set so they can be used elsewhere.
/// </summary>
/// <param name="input">A ClI Query</param>
/// <returns>A Parsed Query</returns>
public static QueryParser Parse(string input)
{
var thisQuery = new QueryParser();
#region Regular Expressions
// Source
Match title = Regex.Match(input, @"-t ([0-9]*)");
Match chapters = Regex.Match(input, @"-c ([0-9-]*)");
// Output Settings
Match format = Regex.Match(input, @"-f ([a-z0-9a-z0-9a-z0-9]*)");
Match grayscale = Regex.Match(input, @" -g");
Match largerMp4 = Regex.Match(input, @" -4");
Match ipodAtom = Regex.Match(input, @" -I");
// Picture Settings Tab
Match width = Regex.Match(input, @"-w ([0-9]*)");
Match height = Regex.Match(input, @"-l ([0-9]*)");
Match maxWidth = Regex.Match(input, @"-X ([0-9]*)");
Match maxHeight = Regex.Match(input, @"-Y ([0-9]*)");
Match crop = Regex.Match(input, @"--crop ([0-9]*):([0-9]*):([0-9]*):([0-9]*)");
Match looseAnamorphic = Regex.Match(input, @"--loose-anamorphic");
Match strictAnamorphic = Regex.Match(input, @"--strict-anamorphic");
Match customAnamorphic = Regex.Match(input, @"--custom-anamorphic");
Match keepDisplayAsect = Regex.Match(input, @"--keep-display-aspect");
Match displayWidth = Regex.Match(input, @"--display-width ([0-9]*)");
Match pixelAspect = Regex.Match(input, @"--pixel-aspect ([0-9]*):([0-9]*)");
Match modulus = Regex.Match(input, @"--modulus ([0-9]*)");
// Picture Settings - Filters
Match decomb = Regex.Match(input, @" --decomb");
Match decombValue = Regex.Match(input, @" --decomb=\""([a-zA-Z0-9.:]*)\""");
Match deinterlace = Regex.Match(input, @"--deinterlace=\""([a-zA-Z0-9.:]*)\""");
Match denoise = Regex.Match(input, @"--denoise=\""([a-zA-Z0-9.:]*)\""");
Match deblock = Regex.Match(input, @"--deblock=([0-9:]*)");
Match detelecine = Regex.Match(input, @"--detelecine");
Match detelecineValue = Regex.Match(input, @" --detelecine=\""([a-zA-Z0-9.:]*)\""");
// Video Settings Tab
Match videoEncoder = Regex.Match(input, @"-e ([a-zA-Z0-9]*)");
Match videoFramerate = Regex.Match(input, @"-r ([0-9.]*)");
Match videoBitrate = Regex.Match(input, @"-b ([0-9]*)");
Match videoQuality = Regex.Match(input, @"-q ([0-9.]*)");
Match videoFilesize = Regex.Match(input, @"-S ([0-9.]*)");
Match twoPass = Regex.Match(input, @" -2");
Match turboFirstPass = Regex.Match(input, @" -T");
Match optimizeMP4 = Regex.Match(input, @" -O");
// Audio Settings Tab
Match noAudio = Regex.Match(input, @"-a none");
Match audioTracks = Regex.Match(input, @"-a ([0-9,]*)");
Match audioTrackMixes = Regex.Match(input, @"-6 ([0-9a-zA-Z,]*)");
Match audioEncoders = Regex.Match(input, @"-E ([a-zA-Z0-9+,]*)");
Match audioBitrates = Regex.Match(input, @"-B ([0-9a-zA-Z,]*)"); // Auto = a-z
Match audioSampleRates = Regex.Match(input, @"-R ([0-9a-zA-Z.,]*)"); // Auto = a-z
Match drcValues = Regex.Match(input, @"-D ([0-9.,]*)");
Match subtitles = Regex.Match(input, @"-s ([0-9a-zA-Z]*)");
Match subScan = Regex.Match(input, @" -U");
Match forcedSubtitles = Regex.Match(input, @" -F");
// Chapters Tab
Match chapterMarkers = Regex.Match(input, @" -m");
Match chapterMarkersFileMode = Regex.Match(input, @"--markers");
// H264 Tab
Match x264 = Regex.Match(input, @"-x ([.,/a-zA-Z0-9=:-]*)");
// Program Options
Match verbose = Regex.Match(input, @" -v");
#endregion
#region Set Varibles
try
{
#region Source Tab
if (title.Success)
thisQuery.DVDTitle = int.Parse(title.ToString().Replace("-t ", string.Empty));
if (chapters.Success)
{
string[] actTitles = chapters.ToString().Replace("-c ", string.Empty).Split('-');
thisQuery.DVDChapterStart = int.Parse(actTitles[0]);
if (actTitles.Length > 1)
{
thisQuery.DVDChapterFinish = int.Parse(actTitles[1]);
}
if ((thisQuery.DVDChapterStart == 1) && (thisQuery.DVDChapterFinish == 0))
thisQuery.DVDChapterFinish = thisQuery.DVDChapterStart;
}
#endregion
#region Output Settings
if (format.Success)
thisQuery.Format = format.ToString().Replace("-f ", string.Empty);
thisQuery.LargeMP4 = largerMp4.Success;
thisQuery.IpodAtom = ipodAtom.Success;
thisQuery.OptimizeMP4 = optimizeMP4.Success;
#endregion
#region Picture Tab
if (width.Success)
thisQuery.Width = int.Parse(width.Groups[0].Value.Replace("-w ", string.Empty));
if (height.Success)
thisQuery.Height = int.Parse(height.Groups[0].Value.Replace("-l ", string.Empty));
if (maxWidth.Success)
thisQuery.MaxWidth = int.Parse(maxWidth.Groups[0].Value.Replace("-X ", string.Empty));
if (maxHeight.Success)
thisQuery.MaxHeight = int.Parse(maxHeight.Groups[0].Value.Replace("-Y ", string.Empty));
if (crop.Success)
{
thisQuery.CropValues = crop.ToString().Replace("--crop ", string.Empty);
string[] actCropValues = thisQuery.CropValues.Split(':');
thisQuery.CropTop = actCropValues[0];
thisQuery.CropBottom = actCropValues[1];
thisQuery.CropLeft = actCropValues[2];
thisQuery.CropRight = actCropValues[3];
}
if (strictAnamorphic.Success)
thisQuery.AnamorphicMode = 1;
else if (looseAnamorphic.Success)
thisQuery.AnamorphicMode = 2;
else if (customAnamorphic.Success)
thisQuery.AnamorphicMode = 3;
else
thisQuery.AnamorphicMode = 0;
thisQuery.KeepDisplayAsect = keepDisplayAsect.Success;
if (displayWidth.Success)
thisQuery.DisplayWidthValue =
double.Parse(displayWidth.Groups[0].Value.Replace("--display-width ", string.Empty));
if (pixelAspect.Success)
thisQuery.PixelAspectWidth = int.Parse(pixelAspect.Groups[1].Value.Replace("--pixel-aspect ", string.Empty));
if (pixelAspect.Success && pixelAspect.Groups.Count >= 3)
thisQuery.PixelAspectHeight = int.Parse(pixelAspect.Groups[2].Value.Replace("--pixel-aspect ", string.Empty));
if (modulus.Success)
thisQuery.AnamorphicModulus = int.Parse(modulus.Groups[0].Value.Replace("--modulus ", string.Empty));
#endregion
#region Filters
thisQuery.Decomb = "Off";
if (decomb.Success)
{
thisQuery.Decomb = "Default";
if (decombValue.Success)
thisQuery.Decomb = decombValue.ToString().Replace("--decomb=", string.Empty).Replace("\"", string.Empty);
}
thisQuery.DeInterlace = "Off";
if (deinterlace.Success)
{
thisQuery.DeInterlace = deinterlace.ToString().Replace("--deinterlace=", string.Empty).Replace("\"", string.Empty);
thisQuery.DeInterlace =
thisQuery.DeInterlace.Replace("fast", "Fast").Replace("slow", "Slow").Replace("slower", "Slower");
thisQuery.DeInterlace = thisQuery.DeInterlace.Replace("slowest", "Slowest");
}
thisQuery.DeNoise = "Off";
if (denoise.Success)
{
thisQuery.DeNoise = denoise.ToString().Replace("--denoise=", string.Empty).Replace("\"", string.Empty);
thisQuery.DeNoise =
thisQuery.DeNoise.Replace("weak", "Weak").Replace("medium", "Medium").Replace("strong", "Strong");
}
string deblockValue = string.Empty;
thisQuery.DeBlock = 0;
if (deblock.Success)
deblockValue = deblock.ToString().Replace("--deblock=", string.Empty);
int dval = 0;
if (deblockValue != string.Empty)
int.TryParse(deblockValue, out dval);
thisQuery.DeBlock = dval;
thisQuery.DeTelecine = "Off";
if (detelecine.Success)
{
thisQuery.DeTelecine = "Default";
if (detelecineValue.Success)
thisQuery.DeTelecine = detelecineValue.ToString().Replace("--detelecine=", string.Empty).Replace("\"", string.Empty);
}
#endregion
#region Video Settings Tab
string videoEncoderConvertion = videoEncoder.ToString().Replace("-e ", string.Empty);
switch (videoEncoderConvertion)
{
case "ffmpeg":
videoEncoderConvertion = "MPEG-4 (FFmpeg)";
break;
case "x264":
videoEncoderConvertion = "H.264 (x264)";
break;
case "theora":
videoEncoderConvertion = "VP3 (Theora)";
break;
default:
videoEncoderConvertion = "MPEG-4 (FFmpeg)";
break;
}
thisQuery.VideoEncoder = videoEncoderConvertion;
thisQuery.VideoFramerate = videoFramerate.Success
? videoFramerate.ToString().Replace("-r ", string.Empty)
: "Same as source";
thisQuery.Grayscale = grayscale.Success;
thisQuery.TwoPass = twoPass.Success;
thisQuery.TurboFirstPass = turboFirstPass.Success;
if (videoBitrate.Success)
thisQuery.AverageVideoBitrate = videoBitrate.ToString().Replace("-b ", string.Empty);
if (videoFilesize.Success)
thisQuery.VideoTargetSize = videoFilesize.ToString().Replace("-S ", string.Empty);
if (videoQuality.Success)
{
float qConvert = float.Parse(videoQuality.ToString().Replace("-q ", string.Empty), Culture);
thisQuery.VideoQuality = qConvert;
}
else
thisQuery.VideoQuality = -1;
#endregion
#region Audio Tab
// Find out how many tracks we need to add by checking how many encoders or audio tracks are selected.
int encoderCount = 0;
if (audioEncoders.Success)
{
string[] audioDataCounters = audioEncoders.ToString().Replace("-E ", string.Empty).Split(',');
encoderCount = audioDataCounters.Length;
}
// Get the data from the regular expression results
string[] trackData = null;
string[] trackMixes = null;
string[] trackEncoders = null;
string[] trackBitrates = null;
string[] trackSamplerates = null;
string[] trackDRCvalues = null;
if (audioTracks.Success)
trackData = audioTracks.ToString().Replace("-a ", string.Empty).Split(',');
if (audioTrackMixes.Success)
trackMixes = audioTrackMixes.ToString().Replace("-6 ", string.Empty).Split(',');
if (audioEncoders.Success)
trackEncoders = audioEncoders.ToString().Replace("-E ", string.Empty).Split(',');
if (audioBitrates.Success)
trackBitrates = audioBitrates.ToString().Replace("-B ", string.Empty).Split(',');
if (audioSampleRates.Success)
trackSamplerates = audioSampleRates.ToString().Replace("-R ", string.Empty).Split(',');
if (drcValues.Success)
trackDRCvalues = drcValues.ToString().Replace("-D ", string.Empty).Split(',');
// Create new Audio Track Classes and store them in the ArrayList
ArrayList allAudioTrackInfo = new ArrayList();
for (int x = 0; x < encoderCount; x++)
{
AudioTrack track = new AudioTrack();
if (trackData != null)
if (trackData.Length >= (x + 1)) // Audio Track
track.Track = trackData[x].Trim();
if (trackMixes != null)
if (trackMixes.Length >= (x + 1)) // Audio Mix
track.MixDown = GetMixDown(trackMixes[x].Trim());
if (trackEncoders != null)
if (trackEncoders.Length >= (x + 1)) // Audio Mix
track.Encoder = GetAudioEncoder(trackEncoders[x].Trim());
if (trackBitrates != null)
if (trackBitrates.Length >= (x + 1)) // Audio Encoder
track.Bitrate = trackBitrates[x].Trim() == "auto" ? "Auto" : trackBitrates[x].Trim();
if (trackSamplerates != null)
if (trackSamplerates.Length >= (x + 1)) // Audio SampleRate
track.SampleRate = trackSamplerates[x].Trim() == "0" ? "Auto" : trackSamplerates[x].Trim();
if (trackDRCvalues != null)
if (trackDRCvalues.Length >= (x + 1)) // Audio DRC Values
track.DRC = trackDRCvalues[x].Trim();
allAudioTrackInfo.Add(track);
}
thisQuery.AudioInformation = allAudioTrackInfo;
// Subtitle Stuff
if (subtitles.Success)
thisQuery.Subtitles = subtitles.ToString().Replace("-s ", string.Empty);
else
thisQuery.Subtitles = subScan.Success ? "Autoselect" : "None";
thisQuery.ForcedSubtitles = forcedSubtitles.Success;
#endregion
#region Chapters Tab
if (chapterMarkersFileMode.Success || chapterMarkers.Success)
thisQuery.ChapterMarkers = true;
#endregion
#region H.264 and other
if (x264.Success)
thisQuery.H264Query = x264.ToString().Replace("-x ", string.Empty);
thisQuery.Verbose = verbose.Success;
#endregion
}
catch (Exception exc)
{
MessageBox.Show("An error has occured in the Query Parser.\n\n" + exc, "Error", MessageBoxButtons.OK, MessageBoxIcon.Error);
}
#endregion
return thisQuery;
}
/// <summary>
/// Get the GUI equiv to a CLI mixdown
/// </summary>
/// <param name="mixdown">The Audio Mixdown</param>
/// <returns>The GUI representation of the mixdown</returns>
private static string GetMixDown(string mixdown)
{
switch (mixdown.Trim())
{
case "mono":
return "Mono";
case "stereo":
return "Stereo";
case "dpl1":
return "Dolby Surround";
case "dpl2":
return "Dolby Pro Logic II";
case "6ch":
return "6 Channel Discrete";
default:
return "Automatic";
}
}
/// <summary>
/// Get the GUI equiv to a CLI audio encoder
/// </summary>
/// <param name="audioEnc">The Audio Encoder</param>
/// <returns>The GUI representation of that audio encoder</returns>
private static string GetAudioEncoder(string audioEnc)
{
switch (audioEnc)
{
case "faac":
return "AAC (faac)";
case "lame":
return "MP3 (lame)";
case "vorbis":
return "Vorbis (vorbis)";
case "ac3":
return "AC3 Passthru";
case "dts":
return "DTS Passthru";
default:
return "AAC (faac)";
}
}
}
}
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