/// <summary>
/// Parses the source-code in the csharpFileText.
/// </summary>
/// <param name="vbFileText"></param>
/// <returns></returns>
public static CodeRoot ParseVbCode(string vbFileText)
{
var parser = new CSharpParser();
var parseResults = new ParseResults();
parser.Reset();
parser.ParseCode(vbFileText);
return((CodeRoot)parser.CreatedCodeRoot);
}
public static ParseResults ParseCSharpFiles(IEnumerable <string> csharpFiles)
{
var parser = new CSharpParser();
var parseResults = new ParseResults();
foreach (var file in csharpFiles)
{
if (File.Exists(file) == false)
{
continue;
}
parser.Reset();
parser.ParseCode(file, File.ReadAllText(file));
parseResults.AddParsedFile(file, parser.CreatedCodeRoot as CodeRoot);
}
return(parseResults);
}
/// <summary>
/// Performs an in depth diff by breaking code files into their constituent parts (functions, properties
/// etc, so that these elements can be diffed without regard to their ordering.
/// </summary>
/// <remarks>
/// I've put some Thread.Sleep(1) calls in here to ensure that this processing doesn't bring a single core machine
/// to its knees. This should ensure that any GUI or other background threads can still get some CPU time,
/// as there is not much in here that could cause a context switch.
/// </remarks>
public bool PerformSuperDiff()
{
SetupPerformDiff();
try
{
switch (IntelliMerge)
{
case IntelliMergeType.CSharp:
CSharpParser formatter = new CSharpParser();
try
{
// Reset the DiffType
CurrentDiffResult.DiffType = TypeOfDiff.ExactCopy;
if (diffCodeRootMap.PrevGenCodeRoot == null && PrevGenFile.HasContents || ReloadFiles)
{
formatter.Reset();
string filename = string.IsNullOrEmpty(PrevGenFile.FilePath) ? "Prev Gen File" : PrevGenFile.FilePath;
formatter.ParseCode(filename, PrevGenFile.GetContents());
if (formatter.ErrorOccurred)
{
return(false);
}
diffCodeRootMap.AddCodeRoot(formatter.CreatedCodeRoot, Version.PrevGen);
}
// Force a context switch
Thread.Sleep(1);
if (diffCodeRootMap.NewGenCodeRoot == null && NewGenFile.HasContents || ReloadFiles)
{
formatter.Reset();
string filename = string.IsNullOrEmpty(NewGenFile.FilePath) ? "New Gen File" : NewGenFile.FilePath;
formatter.ParseCode(filename, NewGenFile.GetContents());
if (formatter.ErrorOccurred)
{
return(false);
}
diffCodeRootMap.AddCodeRoot(formatter.CreatedCodeRoot, Version.NewGen);
}
// Force a context switch
Thread.Sleep(1);
if (diffCodeRootMap.UserCodeRoot == null && UserFile.HasContents || ReloadFiles)
{
formatter.Reset();
string filename = string.IsNullOrEmpty(UserFile.FilePath) ? "User File" : UserFile.FilePath;
formatter.ParseCode(filename, UserFile.GetContents());
if (formatter.ErrorOccurred)
{
return(false);
}
diffCodeRootMap.AddCodeRoot(formatter.CreatedCodeRoot, Version.User);
}
// Force a context switch
Thread.Sleep(1);
// Set this back to false. If it was true, we have reloaded the files, if it was already false this
// does nothing.
ReloadFiles = false;
}
catch (Exception ex)
{
CurrentDiffResult.ParserWarningDescription = ex.Message;
return(false);
}
finally
{
if (formatter.ErrorOccurred)
{
CurrentDiffResult.ParserWarningDescription = formatter.GetFormattedErrors();
}
}
if (string.IsNullOrEmpty(temporaryManifestFile) == false && manifestFileApplied == false)
{
CodeRootMapMatchProcessor processor = new CodeRootMapMatchProcessor();
processor.LoadCustomMappings(ManifestConstants.LoadManifestDocument(temporaryManifestFile), diffCodeRootMap, Path.GetFileName(RelativeFilePath));
manifestFileApplied = true;
}
CurrentDiffResult.DiffType = diffCodeRootMap.Diff();
if (CurrentDiffResult.DiffType != TypeOfDiff.Conflict && CurrentDiffResult.DiffType != TypeOfDiff.Warning)
{
//mergedFile = new TextFile(CodeRootMap.GetMergedCodeRoot().ToString());
// Slyce.Common.Utility.WriteToFile(newFile, userFile.GetContents());
}
break;
default:
// No SuperDiff available for this type of file (no parser created yet).
break;
}
}
catch (Exception ex)
{
throw new DiffException(ex);
}
return(true);
}