//Output raw result with probability
private void OutputRawResultToFile(List <List <string> > inbuf, crf_term_out[] crf_out, SegDecoderTagger tagger, StreamWriter sw)
{
for (var k = 0; k < crf_out.Length; k++)
{
if (crf_out[k] == null)
{
//No more result
break;
}
var sb = new StringBuilder();
var crf_seg_out = crf_out[k];
//Show the entire sequence probability
//For each token
for (var i = 0; i < inbuf.Count; i++)
{
//Show all features
for (var j = 0; j < inbuf[i].Count; j++)
{
sb.Append(inbuf[i][j]);
sb.Append("\t");
}
//Show the best result and its probability
sb.Append(crf_seg_out.result_[i]);
if (tagger.vlevel_ > 1)
{
sb.Append("\t");
sb.Append(crf_seg_out.weight_[i]);
//Show the probability of all tags
sb.Append("\t");
for (var j = 0; j < tagger.ysize_; j++)
{
sb.Append(tagger.yname(j));
sb.Append("/");
sb.Append(tagger.prob(i, j));
if (j < tagger.ysize_ - 1)
{
sb.Append("\t");
}
}
}
sb.AppendLine();
}
if (tagger.vlevel_ > 0)
{
sw.WriteLine("#{0}", crf_seg_out.prob);
}
sw.WriteLine(sb.ToString().Trim());
sw.WriteLine();
}
}
bool Decode(CRFSharpWrapper.DecoderArgs options)
{
ParallelOptions parallelOption = new ParallelOptions();
if (File.Exists(options.strInputFileName) == false)
{
Console.WriteLine("FAILED: Open {0} file failed.", options.strInputFileName);
return(false);
}
if (File.Exists(options.strModelFileName) == false)
{
Console.WriteLine("FAILED: Open {0} file failed.", options.strModelFileName);
return(false);
}
StreamReader sr = new StreamReader(options.strInputFileName);
StreamWriter sw = null, swSeg = null;
if (options.strOutputFileName != null && options.strOutputFileName.Length > 0)
{
sw = new StreamWriter(options.strOutputFileName);
}
if (options.strOutputSegFileName != null && options.strOutputSegFileName.Length > 0)
{
swSeg = new StreamWriter(options.strOutputSegFileName);
}
//Create CRFSharp wrapper instance. It's a global instance
CRFSharpWrapper.Decoder crfWrapper = new CRFSharpWrapper.Decoder();
//Load model from file
if (crfWrapper.LoadModel(options.strModelFileName) == false)
{
return(false);
}
ConcurrentQueue <List <List <string> > > queueRecords = new ConcurrentQueue <List <List <string> > >();
ConcurrentQueue <List <List <string> > > queueSegRecords = new ConcurrentQueue <List <List <string> > >();
parallelOption.MaxDegreeOfParallelism = options.thread;
Parallel.For(0, options.thread, parallelOption, t =>
{
//Create decoder tagger instance. If the running environment is multi-threads, each thread needs a separated instance
SegDecoderTagger tagger = crfWrapper.CreateTagger(options.nBest, options.maxword);
tagger.set_vlevel(options.probLevel);
//Initialize result
crf_seg_out[] crf_out = new crf_seg_out[options.nBest];
for (int i = 0; i < options.nBest; i++)
{
crf_out[i] = new crf_seg_out(tagger.crf_max_word_num);
}
List <List <string> > inbuf = new List <List <string> >();
while (true)
{
lock (rdLocker)
{
if (ReadRecord(inbuf, sr) == false)
{
break;
}
queueRecords.Enqueue(inbuf);
queueSegRecords.Enqueue(inbuf);
}
//Call CRFSharp wrapper to predict given string's tags
if (swSeg != null)
{
crfWrapper.Segment(crf_out, tagger, inbuf);
}
else
{
crfWrapper.Segment((crf_term_out[])crf_out, (DecoderTagger)tagger, inbuf);
}
List <List <string> > peek = null;
//Save segmented tagged result into file
if (swSeg != null)
{
List <string> rstList = ConvertCRFTermOutToStringList(inbuf, crf_out);
while (peek != inbuf)
{
queueSegRecords.TryPeek(out peek);
}
foreach (string item in rstList)
{
swSeg.WriteLine(item);
}
queueSegRecords.TryDequeue(out peek);
peek = null;
}
//Save raw tagged result (with probability) into file
if (sw != null)
{
while (peek != inbuf)
{
queueRecords.TryPeek(out peek);
}
OutputRawResultToFile(inbuf, crf_out, tagger, sw);
queueRecords.TryDequeue(out peek);
}
}
});
sr.Close();
if (sw != null)
{
sw.Close();
}
if (swSeg != null)
{
swSeg.Close();
}
return(true);
}