/// <summary>
/// Parse out the subchanges from the base changelist
/// </summary>
private void ParseSubchanges()
{
// Split the base changelist description into pieces according to the start tag regex pattern.
// This results in an array of the format [potentialStringNotRelevantToTagging][StartTag][SubchangeString][StartTag]
// [SubchangeString], etc.
Regex SubchangeSplitter = new Regex(P4StartTag.StartTagPattern, RegexOptions.IgnoreCase);
String[] Subchanges = SubchangeSplitter.Split(mBaseChangelist.Description);
// Iterate over the split strings
for (int StringIndex = 0; StringIndex < Subchanges.Length; ++StringIndex)
{
// If the current string is a start tag and it has a string in the array after it, parse it as a subchange
String CurString = Subchanges[StringIndex];
if (P4StartTag.IsStringAStartTag(CurString) && StringIndex + 1 < Subchanges.Length)
{
mSubchanges.Add(new P4ParsedSubchange(CurString, Subchanges[++StringIndex]));
}
}
}
/// <summary>
/// Construct a P4ParsedSubchange with the provided start tag name and subchange string
/// </summary>
/// <param name="InStartTagName">Name/type of the start tag</param>
/// <param name="InSubchangeString">String comprised of the rest of the subchange data</param>
public P4ParsedSubchange(String InStartTagName, String InSubchangeString)
{
// Split the subchange string using the regex pattern for tags. This results in an array of items
// consisting of [startTagDescription][tag][stringOfInfoForTag][tag][stringOfInfoForTag], etc.
Regex TagSplitter = new Regex(P4Tag.GenericTagPattern, RegexOptions.IgnoreCase);
String[] AuxiliaryTags = TagSplitter.Split(InSubchangeString);
//Remove blank lines
var NonEmptyAuxiliaryTags = new List<string>();
foreach (var Tag in AuxiliaryTags)
{
if (!string.IsNullOrEmpty(Tag))
NonEmptyAuxiliaryTags.Add(Tag);
}
AuxiliaryTags = NonEmptyAuxiliaryTags.ToArray();
// Split the possible description string on newlines to prevent the possibility of non-relevant junk being included as part
// of the start description.
String[] NewLineDelimiter = new String[] { "\n" };
String[] StartDescriptionArgs = AuxiliaryTags[0].Split(NewLineDelimiter, StringSplitOptions.RemoveEmptyEntries);
// The first item in the split array should be the start tag's description; if it's a tag instead, use the empty string as the description (this case should be
// validated against during submission)
String StartDescription = !P4Tag.IsStringInTagFormat(StartDescriptionArgs[0]) ? StartDescriptionArgs[0].Trim() : String.Empty;
mStartTag = new P4StartTag(InStartTagName, StartDescription);
// Iterate through the array, constructing auxiliary tags as appropriate
for (int AuxStringIndex = 0; AuxStringIndex < AuxiliaryTags.Length; ++AuxStringIndex)
{
String CurString = AuxiliaryTags[AuxStringIndex];
// Check if the current string is an auxiliary tag, and if so, if there's another non-tag string in the array after it.
// If there is, it should be the string to use to populate the tag info from.
if (P4AuxiliaryTag.IsStringAnAuxiliaryTag(CurString) && AuxStringIndex + 1 < AuxiliaryTags.Length && !P4Tag.IsStringInTagFormat(AuxiliaryTags[AuxStringIndex+1]))
{
// Using the tag's name, try to find the correct type of auxiliary tag to use
Type TagType = P4AuxiliaryTag.GetTagTypeFromString(CurString);
if (TagType != null)
{
// Split the population string on new lines. The newly created tag will only utilize the part of the population string
// that occurs before the first newline, eliminating the possibility of junk in between tags getting incorrectly put into
// a valid tag.
String[] TagArgs = AuxiliaryTags[++AuxStringIndex].Split(NewLineDelimiter, StringSplitOptions.RemoveEmptyEntries);
// If the type was found, create a new instance of it and populate it from the population string
P4AuxiliaryTag NewTag = (P4AuxiliaryTag)Activator.CreateInstance(TagType);
if (NewTag != null && NewTag.PopulateFromString(TagArgs[0].Trim()))
{
// If one of these tag types already existed, add the new tag to the correct array in the dictionary
if (mAuxiliaryTags.ContainsKey(CurString))
{
mAuxiliaryTags[CurString].Add(NewTag);
}
// If this is the first occurrence of this kind of tag type, create a new array for it and put it in
// the dictionary
else
{
List<P4AuxiliaryTag> AuxTagList = new List<P4AuxiliaryTag>();
AuxTagList.Add(NewTag);
mAuxiliaryTags.Add(CurString, AuxTagList);
}
}
// Tell the user of a malformed tag, if the tag couldn't be constructed from the string
else
{
Console.WriteLine("Encountered malformed tag of type {0}; not added to subchange.", CurString);
}
}
}
}
}
/// <summary>
/// Construct a P4ParsedSubchange with the provided start tag name and subchange string
/// </summary>
/// <param name="InStartTagName">Name/type of the start tag</param>
/// <param name="InSubchangeString">String comprised of the rest of the subchange data</param>
public P4ParsedSubchange(String InStartTagName, String InSubchangeString)
{
// Split the subchange string using the regex pattern for tags. This results in an array of items
// consisting of [startTagDescription][tag][stringOfInfoForTag][tag][stringOfInfoForTag], etc.
Regex TagSplitter = new Regex(P4Tag.GenericTagPattern, RegexOptions.IgnoreCase);
String[] AuxiliaryTags = TagSplitter.Split(InSubchangeString);
//Remove blank lines
var NonEmptyAuxiliaryTags = new List <string>();
foreach (var Tag in AuxiliaryTags)
{
if (!string.IsNullOrEmpty(Tag))
{
NonEmptyAuxiliaryTags.Add(Tag);
}
}
AuxiliaryTags = NonEmptyAuxiliaryTags.ToArray();
// Split the possible description string on newlines to prevent the possibility of non-relevant junk being included as part
// of the start description.
String[] NewLineDelimiter = new String[] { "\n" };
String[] StartDescriptionArgs = AuxiliaryTags[0].Split(NewLineDelimiter, StringSplitOptions.RemoveEmptyEntries);
// The first item in the split array should be the start tag's description; if it's a tag instead, use the empty string as the description (this case should be
// validated against during submission)
String StartDescription = !P4Tag.IsStringInTagFormat(StartDescriptionArgs[0]) ? StartDescriptionArgs[0].Trim() : String.Empty;
mStartTag = new P4StartTag(InStartTagName, StartDescription);
// Iterate through the array, constructing auxiliary tags as appropriate
for (int AuxStringIndex = 0; AuxStringIndex < AuxiliaryTags.Length; ++AuxStringIndex)
{
String CurString = AuxiliaryTags[AuxStringIndex];
// Check if the current string is an auxiliary tag, and if so, if there's another non-tag string in the array after it.
// If there is, it should be the string to use to populate the tag info from.
if (P4AuxiliaryTag.IsStringAnAuxiliaryTag(CurString) && AuxStringIndex + 1 < AuxiliaryTags.Length && !P4Tag.IsStringInTagFormat(AuxiliaryTags[AuxStringIndex + 1]))
{
// Using the tag's name, try to find the correct type of auxiliary tag to use
Type TagType = P4AuxiliaryTag.GetTagTypeFromString(CurString);
if (TagType != null)
{
// Split the population string on new lines. The newly created tag will only utilize the part of the population string
// that occurs before the first newline, eliminating the possibility of junk in between tags getting incorrectly put into
// a valid tag.
String[] TagArgs = AuxiliaryTags[++AuxStringIndex].Split(NewLineDelimiter, StringSplitOptions.RemoveEmptyEntries);
// If the type was found, create a new instance of it and populate it from the population string
P4AuxiliaryTag NewTag = (P4AuxiliaryTag)Activator.CreateInstance(TagType);
if (NewTag != null && NewTag.PopulateFromString(TagArgs[0].Trim()))
{
// If one of these tag types already existed, add the new tag to the correct array in the dictionary
if (mAuxiliaryTags.ContainsKey(CurString))
{
mAuxiliaryTags[CurString].Add(NewTag);
}
// If this is the first occurrence of this kind of tag type, create a new array for it and put it in
// the dictionary
else
{
List <P4AuxiliaryTag> AuxTagList = new List <P4AuxiliaryTag>();
AuxTagList.Add(NewTag);
mAuxiliaryTags.Add(CurString, AuxTagList);
}
}
// Tell the user of a malformed tag, if the tag couldn't be constructed from the string
else
{
Console.WriteLine("Encountered malformed tag of type {0}; not added to subchange.", CurString);
}
}
}
}
}
