public void ExtractFile(string ArchiveFile, string DestDir, string DestFile = "")
{
if (DestFile == "")
{
DestFile = ArchiveFile;
}
if (DestDir.Length > 0 && DestDir[DestDir.Length - 1] != dsc)
{
DestDir += dsc;
}
DestFile = DestDir + DestFile;
if (DestDir != "" && !Directory.Exists(System.IO.Path.GetDirectoryName(DestFile)))
{
Directory.CreateDirectory(System.IO.Path.GetDirectoryName(DestFile));
}
int idx = zip.FindEntry(ArchiveFile, true);
if (idx < 0)
{
return;
}
ICSharpCode.SharpZipLib.Zip.ZipEntry entry = zip[idx];
var tmpFile = Path.GetTempFileName();
using (Stream stream = zip.GetInputStream(entry))
{
byte[] bytes = new byte[Convert.ToInt32(entry.Size)];
stream.Read(bytes, 0, bytes.Length);
System.IO.File.WriteAllBytes(tmpFile, bytes);
}
Utils.UICopyOverwrite(tmpFile, DestFile);
//if (File.Exists(DestFile))
//{
// Utils.UIDeleteFile(DestFile);
//}
//File.Copy(tmpFile, DestFile, true);
}
public static byte[] GetZipEntry(ICSharpCode.SharpZipLib.Zip.ZipFile file, string entry, bool throwOnError)
{
if (file.FindEntry(entry, false) == -1)
{
if (throwOnError)
{
throw new FormatException("entry not found");
}
else
{
return(null);
}
}
else
{
ICSharpCode.SharpZipLib.Zip.ZipEntry zEntry = file.GetEntry(entry);
System.IO.Stream s = file.GetInputStream(zEntry);
byte[] result = new byte[zEntry.Size];
ICSharpCode.SharpZipLib.Core.StreamUtils.ReadFully(s, result);
return(result);
}
}
private void btnExport_Click(object sender, EventArgs e)
{
//acquire target
var sfd = new SaveFileDialog();
sfd.Filter = "XRNS (*.xrns)|*.xrns";
if (sfd.ShowDialog() != System.Windows.Forms.DialogResult.OK)
return;
//configuration:
var outPath = sfd.FileName;
string templatePath = Path.Combine(Path.GetDirectoryName(outPath), "template.xrns");
int configuredPatternLength = int.Parse(txtPatternLength.Text);
//load template
MemoryStream msSongXml = new MemoryStream();
var zfTemplate = new ICSharpCode.SharpZipLib.Zip.ZipFile(templatePath);
{
int zfSongXmlIndex = zfTemplate.FindEntry("Song.xml", true);
using (var zis = zfTemplate.GetInputStream(zfTemplate.GetEntry("Song.xml")))
{
byte[] buffer = new byte[4096]; // 4K is optimum
ICSharpCode.SharpZipLib.Core.StreamUtils.Copy(zis, msSongXml, buffer);
}
}
XElement templateRoot = XElement.Parse(System.Text.Encoding.UTF8.GetString(msSongXml.ToArray()));
//get the pattern pool, and whack the child nodes
var xPatterns = templateRoot.XPathSelectElement("//Patterns");
var xPatternPool = xPatterns.Parent;
xPatterns.Remove();
var writer = new StringWriter();
writer.WriteLine("<Patterns>");
int pulse0_lastNote = -1;
int pulse0_lastType = -1;
int pulse1_lastNote = -1;
int pulse1_lastType = -1;
int tri_lastNote = -1;
int noise_lastNote = -1;
int patternCount = 0;
int time = 0;
while (time < Log.Count)
{
patternCount++;
//begin writing pattern: open the tracks list
writer.WriteLine("<Pattern>");
writer.WriteLine("<NumberOfLines>{0}</NumberOfLines>", configuredPatternLength);
writer.WriteLine("<Tracks>");
//write the pulse tracks
for (int TRACK = 0; TRACK < 2; TRACK++)
{
writer.WriteLine("<PatternTrack type=\"PatternTrack\">");
writer.WriteLine("<Lines>");
int lastNote = TRACK == 0 ? pulse0_lastNote : pulse1_lastNote;
int lastType = TRACK == 0 ? pulse0_lastType : pulse1_lastType;
for (int i = 0; i < configuredPatternLength; i++)
{
int patLine = i;
int index = i + time;
if (index >= Log.Count) continue;
var rec = Log[index];
PulseState pulse = new PulseState();
if (TRACK == 0) pulse = rec.pulse0;
if (TRACK == 1) pulse = rec.pulse1;
//transform quieted notes to dead notes
//blech its buggy, im tired
//if (pulse.vol == 0)
// pulse.en = false;
bool keyoff = false, keyon = false;
if (lastNote != -1 && !pulse.en)
{
lastNote = -1;
lastType = -1;
keyoff = true;
}
else if (lastNote != pulse.note && pulse.en)
keyon = true;
if (lastType != pulse.type && pulse.note != -1)
keyon = true;
if (pulse.en)
{
lastNote = pulse.note;
lastType = pulse.type;
}
writer.WriteLine("<Line index=\"{0}\">", patLine);
writer.WriteLine("<NoteColumns>");
writer.WriteLine("<NoteColumn>");
if (keyon)
{
writer.WriteLine("<Note>{0}</Note>", NameForNote(pulse.note));
writer.WriteLine("<Instrument>{0:X2}</Instrument>", pulse.type);
}
else if (keyoff) writer.WriteLine("<Note>OFF</Note>");
if(lastNote != -1)
writer.WriteLine("<Volume>{0:X2}</Volume>", pulse.vol * 8);
writer.WriteLine("</NoteColumn>");
writer.WriteLine("</NoteColumns>");
writer.WriteLine("</Line>");
}
//close PatternTrack
writer.WriteLine("</Lines>");
writer.WriteLine("</PatternTrack>");
if (TRACK == 0)
{
pulse0_lastNote = lastNote;
pulse0_lastType = lastType;
}
else
{
pulse1_lastNote = lastNote;
pulse1_lastType = lastType;
}
} //pulse tracks loop
//triangle track generation
{
writer.WriteLine("<PatternTrack type=\"PatternTrack\">");
writer.WriteLine("<Lines>");
for (int i = 0; i < configuredPatternLength; i++)
{
int patLine = i;
int index = i + time;
if (index >= Log.Count) continue;
var rec = Log[index];
TriangleState tri = rec.triangle;
{
bool keyoff = false, keyon = false;
if (tri_lastNote != -1 && !tri.en)
{
tri_lastNote = -1;
keyoff = true;
}
else if (tri_lastNote != tri.note && tri.en)
keyon = true;
if(tri.en)
tri_lastNote = tri.note;
writer.WriteLine("<Line index=\"{0}\">", patLine);
writer.WriteLine("<NoteColumns>");
writer.WriteLine("<NoteColumn>");
if (keyon)
{
writer.WriteLine("<Note>{0}</Note>", NameForNote(tri.note));
writer.WriteLine("<Instrument>08</Instrument>");
}
else if (keyoff) writer.WriteLine("<Note>OFF</Note>");
//no need for tons of these
//if(keyon) writer.WriteLine("<Volume>80</Volume>");
writer.WriteLine("</NoteColumn>");
writer.WriteLine("</NoteColumns>");
writer.WriteLine("</Line>");
}
}
//close PatternTrack
writer.WriteLine("</Lines>");
writer.WriteLine("</PatternTrack>");
}
//noise track generation
{
writer.WriteLine("<PatternTrack type=\"PatternTrack\">");
writer.WriteLine("<Lines>");
for (int i = 0; i < configuredPatternLength; i++)
{
int patLine = i;
int index = i + time;
if (index >= Log.Count) continue;
var rec = Log[index];
NoiseState noise = rec.noise;
//transform quieted notes to dead notes
//blech its buggy, im tired
//if (noise.vol == 0)
// noise.en = false;
{
bool keyoff = false, keyon = false;
if (noise_lastNote != -1 && !noise.en)
{
noise_lastNote = -1;
keyoff = true;
}
else if (noise_lastNote != noise.note && noise.en)
keyon = true;
if (noise.en)
noise_lastNote = noise.note;
writer.WriteLine("<Line index=\"{0}\">", patLine);
writer.WriteLine("<NoteColumns>");
writer.WriteLine("<NoteColumn>");
if (keyon)
{
writer.WriteLine("<Note>{0}</Note>", NameForNote(noise.note));
writer.WriteLine("<Instrument>04</Instrument>");
}
else if (keyoff) writer.WriteLine("<Note>OFF</Note>");
if (noise_lastNote != -1)
writer.WriteLine("<Volume>{0:X2}</Volume>", noise.vol * 8);
writer.WriteLine("</NoteColumn>");
writer.WriteLine("</NoteColumns>");
writer.WriteLine("</Line>");
}
}
//close PatternTrack
writer.WriteLine("</Lines>");
writer.WriteLine("</PatternTrack>");
} //noise track generation
//write empty track for now for pcm
for (int TRACK = 4; TRACK < 5; TRACK++)
{
writer.WriteLine("<PatternTrack type=\"PatternTrack\">");
writer.WriteLine("<Lines>");
writer.WriteLine("</Lines>");
writer.WriteLine("</PatternTrack>");
}
//we definitely need a dummy master track now
writer.WriteLine("<PatternMasterTrack type=\"PatternMasterTrack\">");
writer.WriteLine("</PatternMasterTrack>");
//close tracks
writer.WriteLine("</Tracks>");
//close pattern
writer.WriteLine("</Pattern>");
time += configuredPatternLength;
} //main pattern loop
writer.WriteLine("</Patterns>");
writer.Flush();
var xNewPatternList = XElement.Parse(writer.ToString());
xPatternPool.Add(xNewPatternList);
//write pattern sequence
writer = new StringWriter();
writer.WriteLine("<SequenceEntries>");
for (int i = 0; i < patternCount; i++)
{
writer.WriteLine("<SequenceEntry>");
writer.WriteLine("<IsSectionStart>false</IsSectionStart>");
writer.WriteLine("<Pattern>{0}</Pattern>", i);
writer.WriteLine("</SequenceEntry>");
}
writer.WriteLine("</SequenceEntries>");
var xPatternSequence = templateRoot.XPathSelectElement("//PatternSequence");
xPatternSequence.XPathSelectElement("SequenceEntries").Remove();
xPatternSequence.Add(XElement.Parse(writer.ToString()));
//copy template file to target
File.Delete(outPath);
File.Copy(templatePath, outPath);
var msOutXml = new MemoryStream();
templateRoot.Save(msOutXml);
msOutXml.Flush();
msOutXml.Position = 0;
var zfOutput = new ICSharpCode.SharpZipLib.Zip.ZipFile(outPath);
zfOutput.BeginUpdate();
zfOutput.Add(new Stupid { stream = msOutXml }, "Song.xml");
zfOutput.CommitUpdate();
zfOutput.Close();
//for easier debugging, write patterndata XML
//DUMP_TO_DISK(msOutXml.ToArray())
}
private void btnExport_Click(object sender, EventArgs e)
{
//acquire target
var sfd = new SaveFileDialog();
sfd.Filter = "XRNS (*.xrns)|*.xrns";
if (sfd.ShowDialog() != System.Windows.Forms.DialogResult.OK)
{
return;
}
//configuration:
var outPath = sfd.FileName;
string templatePath = Path.Combine(Path.GetDirectoryName(outPath), "template.xrns");
int configuredPatternLength = int.Parse(txtPatternLength.Text);
//load template
MemoryStream msSongXml = new MemoryStream();
var zfTemplate = new ICSharpCode.SharpZipLib.Zip.ZipFile(templatePath);
{
int zfSongXmlIndex = zfTemplate.FindEntry("Song.xml", true);
using (var zis = zfTemplate.GetInputStream(zfTemplate.GetEntry("Song.xml")))
{
byte[] buffer = new byte[4096]; // 4K is optimum
ICSharpCode.SharpZipLib.Core.StreamUtils.Copy(zis, msSongXml, buffer);
}
}
XElement templateRoot = XElement.Parse(System.Text.Encoding.UTF8.GetString(msSongXml.ToArray()));
//get the pattern pool, and whack the child nodes
var xPatterns = templateRoot.XPathSelectElement("//Patterns");
var xPatternPool = xPatterns.Parent;
xPatterns.Remove();
var writer = new StringWriter();
writer.WriteLine("<Patterns>");
int pulse0_lastNote = -1;
int pulse0_lastType = -1;
int pulse1_lastNote = -1;
int pulse1_lastType = -1;
int tri_lastNote = -1;
int noise_lastNote = -1;
int patternCount = 0;
int time = 0;
while (time < Log.Count)
{
patternCount++;
//begin writing pattern: open the tracks list
writer.WriteLine("<Pattern>");
writer.WriteLine("<NumberOfLines>{0}</NumberOfLines>", configuredPatternLength);
writer.WriteLine("<Tracks>");
//write the pulse tracks
for (int TRACK = 0; TRACK < 2; TRACK++)
{
writer.WriteLine("<PatternTrack type=\"PatternTrack\">");
writer.WriteLine("<Lines>");
int lastNote = TRACK == 0 ? pulse0_lastNote : pulse1_lastNote;
int lastType = TRACK == 0 ? pulse0_lastType : pulse1_lastType;
for (int i = 0; i < configuredPatternLength; i++)
{
int patLine = i;
int index = i + time;
if (index >= Log.Count)
{
continue;
}
var rec = Log[index];
PulseState pulse = new PulseState();
if (TRACK == 0)
{
pulse = rec.pulse0;
}
if (TRACK == 1)
{
pulse = rec.pulse1;
}
//transform quieted notes to dead notes
//blech its buggy, im tired
//if (pulse.vol == 0)
// pulse.en = false;
bool keyoff = false, keyon = false;
if (lastNote != -1 && !pulse.en)
{
lastNote = -1;
lastType = -1;
keyoff = true;
}
else if (lastNote != pulse.note && pulse.en)
{
keyon = true;
}
if (lastType != pulse.type && pulse.note != -1)
{
keyon = true;
}
if (pulse.en)
{
lastNote = pulse.note;
lastType = pulse.type;
}
writer.WriteLine("<Line index=\"{0}\">", patLine);
writer.WriteLine("<NoteColumns>");
writer.WriteLine("<NoteColumn>");
if (keyon)
{
writer.WriteLine("<Note>{0}</Note>", NameForNote(pulse.note));
writer.WriteLine("<Instrument>{0:X2}</Instrument>", pulse.type);
}
else if (keyoff)
{
writer.WriteLine("<Note>OFF</Note>");
}
if (lastNote != -1)
{
writer.WriteLine("<Volume>{0:X2}</Volume>", pulse.vol * 8);
}
writer.WriteLine("</NoteColumn>");
writer.WriteLine("</NoteColumns>");
writer.WriteLine("</Line>");
}
//close PatternTrack
writer.WriteLine("</Lines>");
writer.WriteLine("</PatternTrack>");
if (TRACK == 0)
{
pulse0_lastNote = lastNote;
pulse0_lastType = lastType;
}
else
{
pulse1_lastNote = lastNote;
pulse1_lastType = lastType;
}
} //pulse tracks loop
//triangle track generation
{
writer.WriteLine("<PatternTrack type=\"PatternTrack\">");
writer.WriteLine("<Lines>");
for (int i = 0; i < configuredPatternLength; i++)
{
int patLine = i;
int index = i + time;
if (index >= Log.Count)
{
continue;
}
var rec = Log[index];
TriangleState tri = rec.triangle;
{
bool keyoff = false, keyon = false;
if (tri_lastNote != -1 && !tri.en)
{
tri_lastNote = -1;
keyoff = true;
}
else if (tri_lastNote != tri.note && tri.en)
{
keyon = true;
}
if (tri.en)
{
tri_lastNote = tri.note;
}
writer.WriteLine("<Line index=\"{0}\">", patLine);
writer.WriteLine("<NoteColumns>");
writer.WriteLine("<NoteColumn>");
if (keyon)
{
writer.WriteLine("<Note>{0}</Note>", NameForNote(tri.note));
writer.WriteLine("<Instrument>08</Instrument>");
}
else if (keyoff)
{
writer.WriteLine("<Note>OFF</Note>");
}
//no need for tons of these
//if(keyon) writer.WriteLine("<Volume>80</Volume>");
writer.WriteLine("</NoteColumn>");
writer.WriteLine("</NoteColumns>");
writer.WriteLine("</Line>");
}
}
//close PatternTrack
writer.WriteLine("</Lines>");
writer.WriteLine("</PatternTrack>");
}
//noise track generation
{
writer.WriteLine("<PatternTrack type=\"PatternTrack\">");
writer.WriteLine("<Lines>");
for (int i = 0; i < configuredPatternLength; i++)
{
int patLine = i;
int index = i + time;
if (index >= Log.Count)
{
continue;
}
var rec = Log[index];
NoiseState noise = rec.noise;
//transform quieted notes to dead notes
//blech its buggy, im tired
//if (noise.vol == 0)
// noise.en = false;
{
bool keyoff = false, keyon = false;
if (noise_lastNote != -1 && !noise.en)
{
noise_lastNote = -1;
keyoff = true;
}
else if (noise_lastNote != noise.note && noise.en)
{
keyon = true;
}
if (noise.en)
{
noise_lastNote = noise.note;
}
writer.WriteLine("<Line index=\"{0}\">", patLine);
writer.WriteLine("<NoteColumns>");
writer.WriteLine("<NoteColumn>");
if (keyon)
{
writer.WriteLine("<Note>{0}</Note>", NameForNote(noise.note));
writer.WriteLine("<Instrument>04</Instrument>");
}
else if (keyoff)
{
writer.WriteLine("<Note>OFF</Note>");
}
if (noise_lastNote != -1)
{
writer.WriteLine("<Volume>{0:X2}</Volume>", noise.vol * 8);
}
writer.WriteLine("</NoteColumn>");
writer.WriteLine("</NoteColumns>");
writer.WriteLine("</Line>");
}
}
//close PatternTrack
writer.WriteLine("</Lines>");
writer.WriteLine("</PatternTrack>");
} //noise track generation
//write empty track for now for pcm
for (int TRACK = 4; TRACK < 5; TRACK++)
{
writer.WriteLine("<PatternTrack type=\"PatternTrack\">");
writer.WriteLine("<Lines>");
writer.WriteLine("</Lines>");
writer.WriteLine("</PatternTrack>");
}
//we definitely need a dummy master track now
writer.WriteLine("<PatternMasterTrack type=\"PatternMasterTrack\">");
writer.WriteLine("</PatternMasterTrack>");
//close tracks
writer.WriteLine("</Tracks>");
//close pattern
writer.WriteLine("</Pattern>");
time += configuredPatternLength;
} //main pattern loop
writer.WriteLine("</Patterns>");
writer.Flush();
var xNewPatternList = XElement.Parse(writer.ToString());
xPatternPool.Add(xNewPatternList);
//write pattern sequence
writer = new StringWriter();
writer.WriteLine("<SequenceEntries>");
for (int i = 0; i < patternCount; i++)
{
writer.WriteLine("<SequenceEntry>");
writer.WriteLine("<IsSectionStart>false</IsSectionStart>");
writer.WriteLine("<Pattern>{0}</Pattern>", i);
writer.WriteLine("</SequenceEntry>");
}
writer.WriteLine("</SequenceEntries>");
var xPatternSequence = templateRoot.XPathSelectElement("//PatternSequence");
xPatternSequence.XPathSelectElement("SequenceEntries").Remove();
xPatternSequence.Add(XElement.Parse(writer.ToString()));
//copy template file to target
File.Delete(outPath);
File.Copy(templatePath, outPath);
var msOutXml = new MemoryStream();
templateRoot.Save(msOutXml);
msOutXml.Flush();
msOutXml.Position = 0;
var zfOutput = new ICSharpCode.SharpZipLib.Zip.ZipFile(outPath);
zfOutput.BeginUpdate();
zfOutput.Add(new Stupid {
stream = msOutXml
}, "Song.xml");
zfOutput.CommitUpdate();
zfOutput.Close();
//for easier debugging, write patterndata XML
//DUMP_TO_DISK(msOutXml.ToArray())
}
public static async Task <ClassBuilder?> ProcessFileAsync(Options options)
{
if (options == null)
{
throw new ArgumentNullException(nameof(options));
}
var fileName = options.ApplicationTouchpanelPath;
return(await Task.Run(async() =>
{
TouchpanelCore = new ClassBuilder(ClassType.Touchpanel);
if ((!fileName.EndsWith(".vtz", StringComparison.OrdinalIgnoreCase) &&
!fileName.EndsWith("Environment.xml", StringComparison.OrdinalIgnoreCase) &&
!fileName.EndsWith(".zip", StringComparison.OrdinalIgnoreCase) &&
!fileName.EndsWith(".c3p", StringComparison.OrdinalIgnoreCase)
) || !System.IO.File.Exists(fileName))
{
return null;
}
var contents = "";
if (fileName.EndsWith(".xml", StringComparison.OrdinalIgnoreCase))
{
contents = System.IO.File.ReadAllText(fileName);
}
else
{
var zip = new ICSharpCode.SharpZipLib.Zip.ZipFile(fileName);
if (zip.FindEntry("swf/Environment.xml", true) > -1)
{
var entry = zip.GetEntry("swf/Environment.xml");
using (var reader = new System.IO.StreamReader(zip.GetInputStream(entry)))
{
contents = await reader.ReadToEndAsync();
}
}
else if (zip.FindEntry("Environment.xml", true) > -1)
{
var entry = zip.GetEntry("Environment.xml");
using (var reader = new System.IO.StreamReader(zip.GetInputStream(entry)))
{
contents = await reader.ReadToEndAsync();
}
}
}
if (string.IsNullOrEmpty(contents))
{
return null;
}
var doc = XDocument.Parse(contents);
TouchpanelCore.ClassName = doc?.Root?.Element("ObjectName")?.Value ?? "";
TouchpanelCore.Namespace = options.RootNamespace;
options.PanelNamespace = $"{options.RootNamespace}.{TouchpanelCore.ClassName}";
// Projects potentially have a theme join.
GenericParser.ParseTheme(doc?.Root?.Element("Properties"), TouchpanelCore);
// Try to parse for background joins as well.
GenericParser.ParseBackgroundJoins(doc?.Root?.Element("Properties"), TouchpanelCore);
// Then we have to determine if there are hardkeys in play.
if (options.ParseHardkeys)
{
if (int.TryParse(doc?.Root?.Element("Properties")?.Element("Hardkeys")?.Element("NumHardkeys")?.Value, out var count) && count > 0)
{
var hardkeys = from hk in doc?.Root?.Element("Properties")?.Element("Hardkeys")?.Descendants()
where hk?.Name == "Hardkey"
select hk;
if (hardkeys.Any())
{
foreach (var hk in hardkeys)
{
var key = HardkeyParser.ParseElement(hk, options);
if (key != null)
{
TouchpanelCore.AddJoin(key);
}
}
}
}
}
var pages = from p in doc?.Root?.Element("Properties")?.Element("Pages")?.Descendants()
where p?.Element("TargetControl")?.Value == "Page"
select p;
var subpages = from sp in doc?.Root?.Element("Properties")?.Element("Pages")?.Descendants()
where sp?.Element("TargetControl")?.Value == "Subpage"
select sp;
foreach (var page in pages)
{
var pageBuilder = new ClassBuilder(ClassType.Page)
{
ClassName = page?.Element("ObjectName")?.Value ?? "",
NamespaceBase = $"{options.PanelNamespace}.Components"
};
if (pageBuilder.ClassName == "Subpage Reference" || pageBuilder.ClassName == "Page")
{
pageBuilder.ClassName = page?.Attribute("Name")?.Value ?? "";
}
if (string.IsNullOrEmpty(pageBuilder.ClassName))
{
throw new NullReferenceException("Unable to determine a name for a page or subpage reference.");
}
var props = page?.Element("Properties");
if (ushort.TryParse(props?.Element("DigitalJoin").Value, out var pageJoin) && pageJoin > 0)
{
pageBuilder.AddJoin(new JoinBuilder(pageJoin, pageBuilder.SmartJoin, "IsVisible", JoinType.Digital, JoinDirection.ToPanel));
}
if (props != null)
{
pageBuilder.DigitalOffset = GenericParser.ParseDigitalOffset(props);
pageBuilder.AnalogOffset = GenericParser.ParseAnalogOffset(props);
pageBuilder.SerialOffset = GenericParser.ParseSerialOffset(props);
GenericParser.ParseBackgroundJoins(props, pageBuilder);
var transitionJoin = GenericParser.GetTransitionCompleteJoin(props);
if (transitionJoin != null)
{
pageBuilder.AddJoin(transitionJoin);
}
}
var pageChildren = props?.Element("Children")?.Elements()?.Where(e => e?.Name.LocalName != "Subpage");
if (pageChildren != null)
{
foreach (var c in pageChildren)
{
GenericParser.ParseChildElement(c, pageBuilder);
}
}
var subpageCount = props?.Element("Children")?.Elements().Where(e => e.Name == "Subpage").Count();
if (subpageCount > 0)
{
foreach (var sp in page?.Element("Properties")?.Element("Children")?.Elements()?.Where(e => e.Name == "Subpage") ?? Array.Empty <XElement>())
{
var subElement = subpages.Where(sub => sub.Attribute("uid")?.Value == sp.Element("Properties")?.Element("PageID")?.Value).FirstOrDefault();
if (subElement == null)
{
continue;
}
var subBuilder = new ClassBuilder(ClassType.Page)
{
ClassName = sp?.Element("ObjectName")?.Value ?? "",
Namespace = pageBuilder.Namespace
};
if (subBuilder.ClassName == "Subpage Reference" || subBuilder.ClassName == "SubpageReference" || subBuilder.ClassName == "Page")
{
var rootSubpage = subpages.Where(s => (s.Attribute("uid")?.Value ?? "null1") == (sp?.Attribute("uid").Value ?? "null2")).FirstOrDefault();
subBuilder.ClassName = rootSubpage?.Attribute("Name")?.Value ?? "";
}
if (string.IsNullOrEmpty(subBuilder.ClassName))
{
throw new NullReferenceException("Unable to determine a name for a page or subpage reference.");
}
var subProps = sp?.Element("Properties");
if (subProps != null)
{
if (ushort.TryParse(subProps?.Element("DigitalJoin").Value, out var subpageJoin) && subpageJoin > 0)
{
subBuilder.AddJoin(new JoinBuilder(subpageJoin, subBuilder.SmartJoin, "IsVisible", JoinType.Digital, JoinDirection.ToPanel));
}
subBuilder.DigitalOffset = GenericParser.ParseDigitalOffset(subProps);
subBuilder.AnalogOffset = GenericParser.ParseAnalogOffset(subProps);
subBuilder.SerialOffset = GenericParser.ParseSerialOffset(subProps);
var transitionJoin = GenericParser.GetTransitionCompleteJoin(subProps);
if (transitionJoin != null)
{
subBuilder.AddJoin(transitionJoin);
}
}
subProps = subElement.Element("Properties");
if (subProps != null)
{
GenericParser.ParseBackgroundJoins(subProps, subBuilder);
if (subProps.Element("Children")?.Elements()?.Count() > 0)
{
foreach (var c in subProps.Element("Children").Elements().Where(e => e.Name.LocalName != "Subpage"))
{
GenericParser.ParseChildElement(c, subBuilder);
}
}
}
if (subBuilder.IsValid)
{
pageBuilder.AddPage(subBuilder);
}
}
}
TouchpanelCore.AddPage(pageBuilder);
}
return TouchpanelCore;
}));
}
