public List <Message> Parse()
{
List <ValidationError> errors = null;
//validate target
if (!new ParserValidator().Validate(Target, out errors))
{
if (errors != null && errors.Count > 0)
{
ErrorsStack.AddErrors(errors);
}
return(null);
}
var format = Target.Format.FullFormat;
var portions = Regex.Matches(format, @"\[[A-Z][a-z]*\]").Cast <Match>().Select(x => x.Value).ToArray();
var message = new Message();
var messages = new List <Message>();
bool isMessageSpanning = false;
//parse messages
for (int lineIndex = 0; lineIndex < Target.PlainLines.Count; lineIndex++)
{
if (!isMessageSpanning)
{
message = new Message();
for (int portionIndex = 0; portionIndex < portions.Length; portionIndex++)
{
List <PlainLine> spanningLines = null;
isMessageSpanning = IsCurrentMessageSpanning(lineIndex, out spanningLines) ?? false;
if (portions[portionIndex] == AppResources.Parser_Format_Stamp)
{
message.TimeStamp = GetTimeStamp(Target.PlainLines[lineIndex]);
}
if (portions[portionIndex] == AppResources.Parser_Format_Type)
{
message.Type = GetMessageType(Target.PlainLines[lineIndex]) ?? LogType.Undefined;
}
if (portions[portionIndex] == AppResources.Parser_Format_Message)
{
message.MessageBuilder = GetMessageBuilder(Target.PlainLines[lineIndex], spanningLines);
}
}
messages.Add(message);
}
//TODO: find a way to detect spanning messages
//TODO: parse spanned messages by adding it to MessageBuilder
}
return(messages);
}
public List <Message> Filter()
{
List <ValidationError> errors = null;
//validate target
if (!new FilterValidator().Validate(Target, out errors))
{
if (errors != null && errors.Count > 0)
{
ErrorsStack.AddErrors(errors);
}
return(null);
}
#region prepare
var target = this.Target as FilterObject;
var messagesFiltered = target.Messages;
#endregion
#region filtration
if (target.SelectedTypes != null && target.SelectedTypes.Count > 0)
{
messagesFiltered = messagesFiltered.Where(x => target.SelectedTypes.Contains(x.Type)).ToList();
}
if (target.SelectedTimeStamps != null && target.SelectedTimeStamps.Count > 0)
{
var dateStamps = target.SelectedTimeStamps.Select(x => x.Date);
messagesFiltered = messagesFiltered.Where(x => x.TimeStamp.HasValue ? dateStamps.Contains(x.TimeStamp.Value.Date) : false).ToList();
}
if (target.SelectedRange != null)
{
messagesFiltered = messagesFiltered.Where(x => x.TimeStamp.HasValue ?
x.TimeStamp.Value >= target.SelectedRange.From &&
x.TimeStamp.Value < target.SelectedRange.To : false).ToList();
}
if (target.MessageCriteria != null)
{
messagesFiltered = messagesFiltered.Where(x => x.TextMessage.Contains(target.MessageCriteria)).ToList();
}
#endregion
return(messagesFiltered);
}
public List <PlainLine> Read()
{
List <ValidationError> errors = null;
//validate target
if (!new ReaderValidator().Validate(Target, out errors))
{
if (errors != null && errors.Count > 0)
{
ErrorsStack.AddErrors(errors);
}
return(null);
}
var target = this.Target as ReaderObject;
//process target
FileStream fs = new FileStream(target.FileName, FileMode.Open);
StreamReader sr = new StreamReader(fs);
List <PlainLine> lines = new List <PlainLine>();
int lineIndex = 0;
while (!sr.EndOfStream)
{
if (target.PageSize.HasValue && target.PageIndex.HasValue)
{
if (lineIndex >= (target.PageSize.Value * target.PageIndex.Value) &&
lineIndex < target.PageSize.Value + (target.PageSize.Value * target.PageIndex.Value))
{
lines.Add(new PlainLine(sr.ReadLine()));
}
else
{
var dump = sr.ReadLine(); // to skip this line
}
if (lines.Count == target.PageSize.Value)
{
break;
}
}
else
{
lines.Add(new PlainLine(sr.ReadLine()));
}
lineIndex++;
}
return(lines);
}