/* PlistPresetHandler.cs $
This file is part of the HandBrake source code.
Homepage: .
It may be used under the terms of the GNU General Public License. */
namespace Handbrake.Presets
{
using System;
using System.Collections;
using System.IO;
using System.Text;
using System.Windows.Forms;
using System.Xml;
using Functions;
using Model;
///
/// Plist Preset Converter
///
public class PlistPresetHandler
{
#region Import
public static QueryParser Import(string filename)
{
XmlNode root = loadFile(filename);
if (root == null) return null;
// We'll query a query parser object and use it's public var structures to store all the data.
// This will allow the preset loader logic to be used instead of writing custom logic just for this file.
QueryParser queryParsed = new QueryParser();
string qualityMode = string.Empty;
#region Get a List of Audio Track Objects
XmlNode audioListDict = root.ChildNodes[2].ChildNodes[0].FirstChild.ChildNodes[1];
ArrayList audioTracks = new ArrayList();
for (int i = 0; i < audioListDict.ChildNodes.Count; i++)
{
XmlNode audioChannel = audioListDict.ChildNodes[i];
AudioTrack track = new AudioTrack();
for (int subi = 0; subi < audioChannel.ChildNodes.Count; subi += 2)
{
// Audio Channel Information is here.
string key = audioChannel.ChildNodes[subi].InnerText;
string value = audioChannel.ChildNodes[subi + 1].InnerText;
switch (key)
{
case "AudioBitrate":
track.Bitrate = value;
break;
case "AudioEncoder":
track.Encoder = value.Replace("AAC (CoreAudio)", "AAC (faac)");
break;
case "AudioMixdown":
track.MixDown = value;
break;
case "AudioSamplerate":
track.SampleRate = value;
break;
case "AudioTrack":
track.Track = value;
break;
case "AudioTrackDRCSlider":
track.DRC = value;
break;
}
}
audioTracks.Add(track);
queryParsed.AudioInformation = audioTracks;
}
#endregion
#region Parse the reset of the plist keys into local variables
XmlNode presetSettings = root.ChildNodes[2].ChildNodes[0].FirstChild;
// Start from 2 to avoid the audio settings which we don't need.
for (int i = 2; i < presetSettings.ChildNodes.Count; i += 2)
{
string key = presetSettings.ChildNodes[i].InnerText;
string value = presetSettings.ChildNodes[i + 1].InnerText;
switch (key)
{
// Output Settings
case "FileFormat":
queryParsed.Format = value;
break;
case "Mp4HttpOptimize":
queryParsed.OptimizeMP4 = value == "1";
break;
case "Mp4LargeFile":
queryParsed.LargeMP4 = value == "1";
break;
case "Mp4iPodCompatible":
queryParsed.IpodAtom = value == "1";
break;
// Picture Settings
case "PictureAutoCrop":
// Not used
break;
case "PictureTopCrop":
queryParsed.CropTop = value;
break;
case "PictureBottomCrop":
queryParsed.CropBottom = value;
break;
case "PictureLeftCrop":
queryParsed.CropLeft = value;
break;
case "PictureRightCrop":
queryParsed.CropRight = value;
break;
case "PictureHeight":
queryParsed.Height = int.Parse(value);
break;
case "PictureWidth":
queryParsed.Width = int.Parse(value);
break;
case "PictureKeepRatio":
queryParsed.KeepDisplayAsect = value == "1";
break;
case "PicturePAR":
queryParsed.AnamorphicMode = int.Parse(value);
break;
// Filters
case "PictureDeblock":
queryParsed.DeBlock = int.Parse(value);
break;
case "PictureDecomb":
queryParsed.Decomb = "Off";
// Don't place custom here as it's handled in the filter panel
if (value == "2") queryParsed.Decomb = "Default";
break;
case "PictureDecombCustom":
if (value != string.Empty)
queryParsed.Decomb = value;
break;
case "PictureDecombDeinterlace":
// Not Used
break;
case "PictureDeinterlace":
switch (value)
{
case "0":
queryParsed.DeInterlace = "Off";
break;
// Don't place custom here as it's handled in the filter panel
case "2":
queryParsed.DeInterlace = "Fast";
break;
case "3":
queryParsed.DeInterlace = "Slow";
break;
case "4":
queryParsed.DeInterlace = "Slowest";
break;
}
break;
case "PictureDeinterlaceCustom":
if (value != string.Empty)
queryParsed.DeInterlace = value;
break;
case "PictureDenoise":
switch (value)
{
case "0":
queryParsed.DeNoise = "Off";
break;
// Don't place custom here as it's handled in the filter panel
case "2":
queryParsed.DeNoise = "Weak";
break;
case "3":
queryParsed.DeNoise = "Medium";
break;
case "4":
queryParsed.DeNoise = "Strong";
break;
}
break;
case "PictureDenoiseCustom":
if (value != string.Empty)
queryParsed.DeNoise = value;
break;
case "PictureDetelecine":
queryParsed.DeTelecine = "Off";
if (value == "1") queryParsed.DeTelecine = "Default";
break;
case "PictureDetelecineCustom":
if (value != string.Empty)
queryParsed.DeTelecine = value;
break;
// Video Tab
case "VideoAvgBitrate":
queryParsed.AverageVideoBitrate = value;
break;
case "VideoEncoder":
queryParsed.VideoEncoder = value;
break;
case "VideoFramerate":
queryParsed.VideoFramerate = value;
break;
case "VideoGrayScale":
queryParsed.Grayscale = value == "1";
break;
case "VideoQualitySlider":
queryParsed.VideoQuality = float.Parse(value);
break;
case "VideoQualityType": // The Type of Quality Mode used
qualityMode = value;
break;
case "VideoTargetSize":
queryParsed.VideoTargetSize = value;
break;
case "VideoTurboTwoPass":
queryParsed.TurboFirstPass = value == "1";
break;
case "VideoTwoPass":
queryParsed.TwoPass = value == "1";
break;
// Chapter Markers Tab
case "ChapterMarkers":
queryParsed.ChapterMarkers = value == "1";
break;
// Advanced x264 tab
case "x264Option":
queryParsed.H264Query = value;
break;
// Preset Information
case "PresetBuildNumber":
queryParsed.PresetBuildNumber = int.Parse(value);
break;
case "PresetDescription":
queryParsed.PresetDescription = value;
break;
case "PresetName":
queryParsed.PresetName = value;
break;
case "Type":
queryParsed.Type = value;
break;
case "UsesMaxPictureSettings":
queryParsed.UsesMaxPictureSettings = value == "1";
break;
case "UsesPictureFilters":
queryParsed.UsesPictureFilters = value == "1";
break;
case "UsesPictureSettings":
queryParsed.UsesPictureSettings = value == "1";
break;
}
}
// Kill any Quality values we don't need.
switch (qualityMode)
{
case "0": // FileSize
queryParsed.VideoQuality = -1;
queryParsed.AverageVideoBitrate = null;
break;
case "1": // Avg Bitrate
queryParsed.VideoQuality = -1;
queryParsed.VideoTargetSize = null;
break;
case "2": // CQ
queryParsed.AverageVideoBitrate = null;
queryParsed.VideoTargetSize = null;
break;
}
#endregion
return queryParsed;
}
private static XmlNode loadFile(string filename)
{
try
{
XmlNode root;
if (!File.Exists(filename))
return null;
StreamReader sr = File.OpenText(filename);
string fromfile = string.Empty;
int fileChar;
while ((fileChar = sr.Read()) != -1)
fromfile += Convert.ToChar(fileChar);
XmlDocument doc = new XmlDocument();
doc.LoadXml(fromfile);
root = doc;
if (!root.HasChildNodes)
{
MessageBox.Show(
"The Preset file you selected appears to be invlaid or from an older version of HandBrake",
"Error",
MessageBoxButtons.OK, MessageBoxIcon.Error);
return null;
}
return root;
}
catch (Exception)
{
MessageBox.Show(
"The Preset file you selected appears to be invlaid or from an older version of HandBrake.\n\n Please note, if you are exporting from the MacGui you may need to rebuild your preset so that it uses the current preset plist format.\n The MacGui does not currently update user presets automatically.",
"Error",
MessageBoxButtons.OK, MessageBoxIcon.Error);
return null;
}
}
#endregion
#region Export
///
/// Export a MacGui style plist preset.
///
///
/// The path.
///
///
/// The preset.
///
public static void Export(string path, Preset preset)
{
QueryParser parsed = QueryParser.Parse(preset.Query);
XmlTextWriter xmlWriter = new XmlTextWriter(path, Encoding.UTF8) { Formatting = Formatting.Indented };
// Header
xmlWriter.WriteStartDocument();
xmlWriter.WriteDocType("plist", "-//Apple//DTD PLIST 1.0//EN",
@"http://www.apple.com/DTDs/PropertyList-1.0.dtd", null);
xmlWriter.WriteStartElement("plist");
xmlWriter.WriteStartElement("array");
// Add New Preset Here. Can write multiple presets here if required in future.
WritePreset(xmlWriter, parsed, preset);
// Footer
xmlWriter.WriteEndElement();
xmlWriter.WriteEndElement();
xmlWriter.WriteEndDocument();
// Closeout
xmlWriter.Close();
}
///
/// Write the Preset to a file
///
///
/// The xml writer.
///
///
/// The parsed.
///
///
/// The preset.
///
private static void WritePreset(XmlTextWriter xmlWriter, QueryParser parsed, Preset preset)
{
xmlWriter.WriteStartElement("dict");
AudioListArrayDict(xmlWriter, parsed);
AddEncodeSettings(xmlWriter, parsed, preset);
xmlWriter.WriteEndElement();
}
///
/// Add the encode settings to the preset
///
///
/// The xml writer.
///
///
/// The parsed.
///
///
/// The preset.
///
private static void AddEncodeSettings(XmlTextWriter xmlWriter, QueryParser parsed, Preset preset)
{
AddEncodeElement(xmlWriter, "ChapterMarkers", "integer", parsed.ChapterMarkers ? "1" : "0");
AddEncodeElement(xmlWriter, "Default", "integer", "0");
AddEncodeElement(xmlWriter, "FileFormat", "string", parsed.Format.ToUpper() + " file");
AddBooleanElement(xmlWriter, "Folder", false);
AddEncodeElement(xmlWriter, "Mp4HttpOptimize", "integer", parsed.OptimizeMP4 ? "1" : "0");
AddEncodeElement(xmlWriter, "Mp4LargeFile", "integer", parsed.LargeMP4 ? "1" : "0");
AddEncodeElement(xmlWriter, "Mp4iPodCompatible", "integer", parsed.IpodAtom ? "1" : "0");
AddEncodeElement(xmlWriter, "PictureAutoCrop", "integer", "1");
AddEncodeElement(xmlWriter, "PictureBottomCrop", "integer", parsed.CropBottom);
// Filters
AddEncodeElement(xmlWriter, "PictureDeblock", "integer", parsed.DeBlock.ToString());
switch (parsed.Decomb)
{
case "Off":
AddEncodeElement(xmlWriter, "PictureDecomb", "integer", "0");
AddEncodeElement(xmlWriter, "PictureDecombCustom", "string", string.Empty);
break;
case "Default":
AddEncodeElement(xmlWriter, "PictureDecomb", "integer", "1");
AddEncodeElement(xmlWriter, "PictureDecombCustom", "string", string.Empty);
break;
default:
AddEncodeElement(xmlWriter, "PictureDecomb", "integer", "2");
AddEncodeElement(xmlWriter, "PictureDecombCustom", "string", parsed.Decomb);
break;
}
AddEncodeElement(xmlWriter, "PictureDecombDeinterlace", "integer", parsed.Decomb != "Off" ? "0" : "1");
switch (parsed.DeInterlace)
{
case "Off":
AddEncodeElement(xmlWriter, "PictureDeinterlace", "integer", "0");
AddEncodeElement(xmlWriter, "PictureDeinterlaceCustom", "string", string.Empty);
break;
case "Fast":
AddEncodeElement(xmlWriter, "PictureDeinterlace", "integer", "1");
AddEncodeElement(xmlWriter, "PictureDeinterlaceCustom", "string", string.Empty);
break;
case "Slow":
AddEncodeElement(xmlWriter, "PictureDeinterlace", "integer", "2");
AddEncodeElement(xmlWriter, "PictureDeinterlaceCustom", "string", string.Empty);
break;
case "Slower":
AddEncodeElement(xmlWriter, "PictureDeinterlace", "integer", "3");
AddEncodeElement(xmlWriter, "PictureDeinterlaceCustom", "string", string.Empty);
break;
default:
AddEncodeElement(xmlWriter, "PictureDeinterlace", "integer", "4");
AddEncodeElement(xmlWriter, "PictureDeinterlaceCustom", "string", parsed.DeInterlace);
break;
}
switch (parsed.DeNoise)
{
case "Off":
AddEncodeElement(xmlWriter, "PictureDenoise", "integer", "0");
AddEncodeElement(xmlWriter, "PictureDenoiseCustom", "string", string.Empty);
break;
case "Weak":
AddEncodeElement(xmlWriter, "PictureDenoise", "integer", "1");
AddEncodeElement(xmlWriter, "PictureDenoiseCustom", "string", string.Empty);
break;
case "Medium":
AddEncodeElement(xmlWriter, "PictureDenoise", "integer", "2");
AddEncodeElement(xmlWriter, "PictureDenoiseCustom", "string", string.Empty);
break;
case "Strong":
AddEncodeElement(xmlWriter, "PictureDenoise", "integer", "3");
AddEncodeElement(xmlWriter, "PictureDenoiseCustom", "string", string.Empty);
break;
default:
AddEncodeElement(xmlWriter, "PictureDenoise", "integer", "4");
AddEncodeElement(xmlWriter, "PictureDenoiseCustom", "string", parsed.DeNoise);
break;
}
int detelecine;
switch (parsed.DeTelecine)
{
case "Off":
detelecine = 0;
break;
case "Default":
detelecine = 2;
break;
default:
detelecine = 1;
break;
}
AddEncodeElement(xmlWriter, "PictureDetelecine", "integer", detelecine.ToString());
AddEncodeElement(xmlWriter, "PictureDetelecineCustom", "string", detelecine == 1 ? parsed.DeTelecine : string.Empty);
// Picture Settings
AddEncodeElement(xmlWriter, "PictureHeight", "integer", parsed.Height.ToString());
AddEncodeElement(xmlWriter, "PictureKeepRatio", "integer", parsed.KeepDisplayAsect ? "1" : "0");
AddEncodeElement(xmlWriter, "PictureLeftCrop", "integer", parsed.CropLeft);
AddEncodeElement(xmlWriter, "PictureModulus", "integer", parsed.AnamorphicModulus.ToString());
AddEncodeElement(xmlWriter, "PicturePAR", "integer", parsed.AnamorphicMode.ToString());
AddEncodeElement(xmlWriter, "PictureRightCrop", "integer", parsed.CropRight);
AddEncodeElement(xmlWriter, "PictureTopCrop", "integer", parsed.CropTop);
AddEncodeElement(xmlWriter, "PictureWidth", "integer", parsed.Width.ToString());
// Preset Information
AddEncodeElement(xmlWriter, "PresetBuildNumber", "string", Properties.Settings.Default.hb_build.ToString());
AddEncodeElement(xmlWriter, "PresetDescription", "string", "No Description");
AddEncodeElement(xmlWriter, "PresetName", "string", preset.Name);
AddEncodeElement(xmlWriter, "Type", "integer", "1"); // 1 is user preset, 0 is built in
// Preset Settings
AddEncodeElement(xmlWriter, "UsesMaxPictureSettings", "integer", (parsed.MaxWidth != 0 || parsed.MaxHeight != 0) ? "1" : "0");
AddEncodeElement(xmlWriter, "UsesPictureFilters", "integer", "1");
AddEncodeElement(xmlWriter, "UsesPictureSettings", "integer", "2");
// Video Settings
AddEncodeElement(xmlWriter, "VideoAvgBitrate", "string", parsed.AverageVideoBitrate);
AddEncodeElement(xmlWriter, "VideoEncoder", "string", parsed.VideoEncoder);
AddEncodeElement(xmlWriter, "VideoFramerate", "string", parsed.VideoFramerate);
AddEncodeElement(xmlWriter, "VideFrameratePFR", "integer", parsed.Pfr ? "1" : "0");
AddEncodeElement(xmlWriter, "VideoGrayScale", "integer", parsed.Grayscale ? "1" : "0");
AddEncodeElement(xmlWriter, "VideoQualitySlider", "real", parsed.VideoQuality.ToString());
int videoQualityType = 0;
if (!string.IsNullOrEmpty(parsed.VideoTargetSize)) videoQualityType = 0;
else if (!string.IsNullOrEmpty(parsed.AverageVideoBitrate)) videoQualityType = 1;
else if (parsed.VideoQuality != 0) videoQualityType = 2;
AddEncodeElement(xmlWriter, "VideoQualityType", "integer", videoQualityType.ToString());
AddEncodeElement(xmlWriter, "VideoTargetSize", "string", parsed.VideoTargetSize);
AddEncodeElement(xmlWriter, "VideoTurboTwoPass", "integer", parsed.TurboFirstPass ? "1" : "0");
AddEncodeElement(xmlWriter, "VideoTwoPass", "integer", parsed.TwoPass ? "1" : "0");
// x264 string
AddEncodeElement(xmlWriter, "x264Option", "string", parsed.H264Query);
}
///
/// Add a boolean element
///
///
/// The xml writer.
///
///
/// The key name.
///
///
/// The value.
///
private static void AddBooleanElement(XmlTextWriter xmlWriter, string keyName, bool value)
{
xmlWriter.WriteStartElement("key");
xmlWriter.WriteString(keyName);
xmlWriter.WriteEndElement();
if (value)
{
xmlWriter.WriteStartElement("true");
xmlWriter.WriteEndElement();
}
else
{
xmlWriter.WriteStartElement("false");
xmlWriter.WriteEndElement();
}
}
///
/// Add an encode setting element
///
///
/// The xml writer.
///
///
/// The key name.
///
///
/// The type.
///
///
/// The value.
///
private static void AddEncodeElement(XmlTextWriter xmlWriter, string keyName, string type, string value)
{
xmlWriter.WriteElementString("key", keyName);
// This is a hack for Apples XML parser. It doesn't understand so instead, always set a default value
// of 0 if the value is empty.
if (type == "integer" && string.IsNullOrEmpty(value))
{
value = "0";
}
xmlWriter.WriteElementString(type, value);
}
///
/// Add an Audio Track Array Dict
///
///
/// The xml writer.
///
///
/// The parsed.
///
private static void AudioListArrayDict(XmlTextWriter xmlWriter, QueryParser parsed)
{
xmlWriter.WriteStartElement("key");
xmlWriter.WriteString("AudioList");
xmlWriter.WriteEndElement();
xmlWriter.WriteStartElement("array");
foreach (AudioTrack track in parsed.AudioInformation)
{
AddAudioItem(xmlWriter, track);
}
xmlWriter.WriteEndElement();
}
///
/// Add an audio track
///
///
/// The xml writer.
///
///
/// The audio track.
///
private static void AddAudioItem(XmlTextWriter xmlWriter, AudioTrack audioTrack)
{
xmlWriter.WriteStartElement("dict");
xmlWriter.WriteElementString("key", "AudioBitrate");
xmlWriter.WriteElementString("string", audioTrack.Bitrate);
xmlWriter.WriteElementString("key", "AudioEncoder");
xmlWriter.WriteElementString("string", audioTrack.Encoder);
xmlWriter.WriteElementString("key", "AudioMixdown");
xmlWriter.WriteElementString("string", audioTrack.MixDown);
xmlWriter.WriteElementString("key", "AudioSamplerate");
xmlWriter.WriteElementString("string", audioTrack.SampleRate);
xmlWriter.WriteElementString("key", "AudioTrack");
xmlWriter.WriteElementString("integer", audioTrack.Track);
xmlWriter.WriteElementString("key", "AudioTrackDRCSlider");
xmlWriter.WriteElementString("real", audioTrack.DRC);
xmlWriter.WriteElementString("key", "AudioTrackDescription");
xmlWriter.WriteElementString("string", "Unknown");
xmlWriter.WriteEndElement();
}
#endregion
}
}