protected NullDataCollection(
NullDataGenerator nullDataGenerator,
RangeCollection nullIndexRange,
IEnumerable <Pair <string, Dictionary <string, SufficientStatistics> > > predictorNameAndCaseIdToNonMissingValueEnumeration,
IEnumerable <Pair <string, Dictionary <string, SufficientStatistics> > > targetNameAndCaseIdToNonMissingValueEnumeration
//Dictionary<string, Dictionary<string, SufficientStatistics>> predictorVariableToCaseIdToRealNonMissingValue,
//Dictionary<string, Dictionary<string, SufficientStatistics>> targetVariableToCaseIdToRealNonMissingValue
)
{
Console.WriteLine(nullDataGenerator);
Name = nullDataGenerator.Name;
_nullIndexToNullDataGenerator = new Dictionary <int, NullDataGenerator>();
foreach (int nullIndex in nullIndexRange.Elements)
{
int predCount = SpecialFunctions.Count(predictorNameAndCaseIdToNonMissingValueEnumeration);
int preseed = ~nullIndex.GetHashCode() ^ predCount.GetHashCode()
^ "NullDataCollection".GetHashCode();
NullDataGenerator newNullDataGenerator = (NullDataGenerator)nullDataGenerator.Clone();
newNullDataGenerator.SetPreseed(preseed);
newNullDataGenerator.SetPredictorNameAndCaseIdToNonMissingValueEnumeration(predictorNameAndCaseIdToNonMissingValueEnumeration);
newNullDataGenerator.SetTargetNameAndCaseIdToNonMissingValueEnumeration(targetNameAndCaseIdToNonMissingValueEnumeration);
//newNullDataGenerator.RealPredictorVariableToCaseIdToNonMissingValue = predictorVariableToCaseIdToRealNonMissingValue;
//newNullDataGenerator.RealTargetVariableToCaseIdToNonMissingValue = targetVariableToCaseIdToRealNonMissingValue;
_nullIndexToNullDataGenerator.Add(nullIndex, newNullDataGenerator);
}
}
public static RangeCollection Parse(string ranges, bool mergeOverlappingRanges)
{
RangeCollection aRangeCollection = GetInstance();
int lastBegin = int.MaxValue;
int lastEnd = int.MinValue;
string[] contiguousRanges = ranges.Split(',');
foreach (string r in contiguousRanges)
{
string range = r; // only do this cuz I need to be able to reassign it later and you can't with foreach iterators.
bool beginIsNegative = false;
bool endIsNegative = false;
if (range[0] == '-')
{
beginIsNegative = true;
range = range.Substring(1);
}
if (range.IndexOf("--") > 0)
{
endIsNegative = true;
range = range.Replace("--", "-");
}
string[] rangeBeginAndEnd = range.Split('-');
int begin = int.Parse(rangeBeginAndEnd[0].Trim());
if (beginIsNegative)
{
begin *= -1;
}
int end = int.Parse(rangeBeginAndEnd[1].Trim());
if (endIsNegative)
{
end *= -1;
}
SpecialFunctions.CheckCondition(end > lastEnd, "Illformed Range. " + ranges);
SpecialFunctions.CheckCondition(end >= begin, range + " is not a valid range. End is before begin!");
if (begin > lastEnd + 1 || !mergeOverlappingRanges) // this is the beginning of a new range
{
aRangeCollection.StartItems.Add(begin);
aRangeCollection.ItemToLength.Add(begin, end - begin + 1);
}
else // we're really just extending the previous range
{
aRangeCollection.ItemToLength[lastBegin] = end - lastBegin + 1;
}
lastBegin = begin;
lastEnd = end;
}
return(aRangeCollection);
}
public static NullDataCollection GetInstance(
NullDataGenerator nullDataGenerator,
RangeCollection nullIndexRange,
IEnumerable <Pair <string, Dictionary <string, SufficientStatistics> > > predictorNameAndCaseIdToNonMissingValueEnumeration,
IEnumerable <Pair <string, Dictionary <string, SufficientStatistics> > > targetNameAndCaseIdToNonMissingValueEnumeration)
{
return(new NullDataCollection(nullDataGenerator, nullIndexRange, predictorNameAndCaseIdToNonMissingValueEnumeration, targetNameAndCaseIdToNonMissingValueEnumeration));
}
static public void Test()
{
RangeCollection aRangeCollection = RangeCollection.GetInstance();
aRangeCollection.Add(0);
SpecialFunctions.CheckCondition("0-0" == aRangeCollection.ToString());
aRangeCollection.Add(1);
SpecialFunctions.CheckCondition("0-1" == aRangeCollection.ToString());
aRangeCollection.Add(4);
SpecialFunctions.CheckCondition("0-1,4-4" == aRangeCollection.ToString());
aRangeCollection.Add(5);
SpecialFunctions.CheckCondition("0-1,4-5" == aRangeCollection.ToString());
aRangeCollection.Add(7);
SpecialFunctions.CheckCondition("0-1,4-5,7-7" == aRangeCollection.ToString());
aRangeCollection.Add(2);
SpecialFunctions.CheckCondition("0-2,4-5,7-7" == aRangeCollection.ToString());
aRangeCollection.Add(3);
SpecialFunctions.CheckCondition("0-5,7-7" == aRangeCollection.ToString());
aRangeCollection.Add(6);
SpecialFunctions.CheckCondition("0-7" == aRangeCollection.ToString());
aRangeCollection.Add(-10);
SpecialFunctions.CheckCondition("-10--10,0-7" == aRangeCollection.ToString());
aRangeCollection.Add(-5);
SpecialFunctions.CheckCondition("-10--10,-5--5,0-7" == aRangeCollection.ToString());
aRangeCollection = RangeCollection.Parse("1-5,7-12,13-14");
Console.WriteLine(aRangeCollection);
Console.WriteLine(aRangeCollection.Contains(3));
Console.WriteLine(aRangeCollection.Contains(12));
Console.WriteLine(aRangeCollection.Contains(13));
Console.WriteLine(aRangeCollection.Contains(6));
aRangeCollection = RangeCollection.Parse("-10--5,-1-14");
Console.WriteLine(aRangeCollection);
Console.WriteLine(aRangeCollection.Contains(-12));
Console.WriteLine(aRangeCollection.Contains(-10));
Console.WriteLine(aRangeCollection.Contains(-7));
Console.WriteLine(aRangeCollection.Contains(-5));
Console.WriteLine(aRangeCollection.Contains(-4));
Console.WriteLine(aRangeCollection.Contains(0));
Console.WriteLine(aRangeCollection.Contains(1));
Console.WriteLine(aRangeCollection.Contains(-2));
Console.WriteLine("Count: " + aRangeCollection.Count());
Console.WriteLine("Count -5 to 2: " + aRangeCollection.Count(-5, 2));
RangeCollectionCollection rcc = RangeCollectionCollection.GetInstance(aRangeCollection);
Console.WriteLine(rcc);
Console.WriteLine(rcc.GetContainingRangeCollection(-12));
Console.WriteLine(rcc.GetContainingRangeCollection(-10));
Console.WriteLine(rcc.GetContainingRangeCollection(-5));
Console.WriteLine(rcc.GetContainingRangeCollection(3));
Console.WriteLine(rcc.GetContainingRangeCollection(15));
}
public static UniversalWorkList GetInstance(
IEnumerable <Pair <string, Dictionary <string, SufficientStatistics> > > predictorNameAndCaseIdToNonMissingValueEnumeration,
IEnumerable <Pair <string, Dictionary <string, SufficientStatistics> > > targetNameAndCaseIdToNonMissingValueEnumeration,
//Dictionary<string, Dictionary<string, SufficientStatistics>> predictorVariableToCaseIdToRealNonMissingValue,
NullDataCollection nullDataCollection,
RangeCollection nullIndexRange,
KeepTest <Dictionary <string, string> > keepTest
)
{
//SpecialFunctions.CheckCondition(-1 <= nullIndexStart && nullIndexStart <= nullIndexLast);
bool enumeratePairs = keepTest is KeepPredictorTargetPairs;
if (keepTest is KeepCollection <Dictionary <string, string> > )
{
foreach (KeepTest <Dictionary <string, string> > keepTestInCollection in ((KeepCollection <Dictionary <string, string> >)keepTest).KeepTestCollection)
{
if (keepTestInCollection is KeepPredictorTargetPairs)
{
enumeratePairs = true;
}
}
}
UniversalWorkList aUniversalWorkList;
if (enumeratePairs)
{
aUniversalWorkList = UniversalWorkListPredTargPairs.GetInstance(
predictorNameAndCaseIdToNonMissingValueEnumeration,
targetNameAndCaseIdToNonMissingValueEnumeration,
nullDataCollection,
nullIndexRange,
keepTest
);
}
else
{
aUniversalWorkList = new UniversalWorkList(
predictorNameAndCaseIdToNonMissingValueEnumeration,
targetNameAndCaseIdToNonMissingValueEnumeration,
nullDataCollection,
nullIndexRange,
keepTest
);
}
// aUniversalWorkList._predictorNameAndCaseIdToNonMissingValueEnumeration = predictorNameAndCaseIdToNonMissingValueEnumeration;
// aUniversalWorkList._targetNameAndCaseIdToNonMissingValueEnumeration = targetNameAndCaseIdToNonMissingValueEnumeration;
//// aUniversalWorkList._targetVariables = targetVariables;
//// aUniversalWorkList._predictorVariableToCaseIdToNonMissingValue = predictorVariableToCaseIdToRealNonMissingValue;
// aUniversalWorkList._keepTest = keepTest;
// aUniversalWorkList._nullDataCollection = nullDataCollection;
// aUniversalWorkList._nullIndexRange = nullIndexRange;
return(aUniversalWorkList);
}
protected NullDataCollection CreateNullDataGenerator(
string nullDataGeneratorName,
ModelScorer modelScorer,
PhyloTree phyloTree,
RangeCollection nullIndexRangeCollection,
IEnumerable <Pair <string, Dictionary <string, SufficientStatistics> > > predictorNameAndCaseIdToNonMissingValueEnumeration,
IEnumerable <Pair <string, Dictionary <string, SufficientStatistics> > > targetNameAndCaseIdToNonMissingValueEnumeration)
{
return(NullDataCollection.GetInstance(
NullDataGenerator.GetInstance(nullDataGeneratorName, modelScorer, phyloTree, this),
nullIndexRangeCollection,
predictorNameAndCaseIdToNonMissingValueEnumeration,
targetNameAndCaseIdToNonMissingValueEnumeration));
}
private static bool ProcessRow(RangeCollection skipRowIndexRangeCollectionOrNull, RangeCollection pieceIndexRangeCollection, int rowIndex, int workIndex)
{
bool doTheWork = true;
if (skipRowIndexRangeCollectionOrNull != null && skipRowIndexRangeCollectionOrNull.Contains(rowIndex))
{
doTheWork = false;
}
if (!pieceIndexRangeCollection.Contains(workIndex))
{
doTheWork = false;
}
return(doTheWork);
}
protected UniversalWorkList(
IEnumerable <Pair <string, Dictionary <string, SufficientStatistics> > > predictorNameAndCaseIdToNonMissingValueEnumeration,
IEnumerable <Pair <string, Dictionary <string, SufficientStatistics> > > targetNameAndCaseIdToNonMissingValueEnumeration,
NullDataCollection nullDataCollection,
RangeCollection nullIndexRange,
KeepTest <Dictionary <string, string> > keepTest
)
{
_predictorNameAndCaseIdToNonMissingValueEnumeration = predictorNameAndCaseIdToNonMissingValueEnumeration;
_targetNameAndCaseIdToNonMissingValueEnumeration = targetNameAndCaseIdToNonMissingValueEnumeration;
_keepTest = keepTest;
_nullDataCollection = nullDataCollection;
_nullIndexRange = nullIndexRange;
//Console.WriteLine("In UniversalWorkList constructor.");
}
protected UniversalWorkListPredTargPairs(
IEnumerable <Pair <string, Dictionary <string, SufficientStatistics> > > predictorNameAndCaseIdToNonMissingValueEnumeration,
IEnumerable <Pair <string, Dictionary <string, SufficientStatistics> > > targetNameAndCaseIdToNonMissingValueEnumeration,
NullDataCollection nullDataCollection,
RangeCollection nullIndexRange,
KeepTest <Dictionary <string, string> > keepTest
)
:
base(
predictorNameAndCaseIdToNonMissingValueEnumeration,
targetNameAndCaseIdToNonMissingValueEnumeration,
nullDataCollection, nullIndexRange,
keepTest
)
{
//Console.WriteLine("In UniversalWorkListPredTargPairs constructor.");
}
new public static UniversalWorkList GetInstance(
IEnumerable <Pair <string, Dictionary <string, SufficientStatistics> > > predictorNameAndCaseIdToNonMissingValueEnumeration,
IEnumerable <Pair <string, Dictionary <string, SufficientStatistics> > > targetNameAndCaseIdToNonMissingValueEnumeration,
//Dictionary<string, Dictionary<string, SufficientStatistics>> predictorVariableToCaseIdToRealNonMissingValue,
NullDataCollection nullDataCollection,
RangeCollection nullIndexRange,
KeepTest <Dictionary <string, string> > keepTest
)
{
//SpecialFunctions.CheckCondition(-1 <= nullIndexStart && nullIndexStart <= nullIndexLast);
UniversalWorkList aUniversalWorkList = new UniversalWorkListPredTargPairs(
predictorNameAndCaseIdToNonMissingValueEnumeration,
targetNameAndCaseIdToNonMissingValueEnumeration,
nullDataCollection,
nullIndexRange,
keepTest
);
return(aUniversalWorkList);
}
public void Run(
ModelScorer modelScorer,
PhyloTree phyloTree,
string predictorSparseFileName,
string targetSparseFileName,
string leafDistributionName,
string nullDataGeneratorName,
KeepTest <Dictionary <string, string> > keepTest,
RangeCollection skipRowIndexRangeCollectionOrNull,
string shortName,
string outputDirectoryName,
RangeCollection pieceIndexRangeCollection, int pieceCount,
RangeCollection nullIndexRangeCollection,
string optimizerName)
{
Stopwatch stopwatch = new Stopwatch();
stopwatch.Start();
Directory.CreateDirectory(outputDirectoryName);
string outputFileName = string.Format(@"{0}\{1}.{2}.{3}.{4}.{5}.{6}{7}.txt",
outputDirectoryName, shortName,
leafDistributionName, nullDataGeneratorName,
nullIndexRangeCollection,
pieceCount,
pieceIndexRangeCollection,
skipRowIndexRangeCollectionOrNull == null ? "" : ".Skip" + skipRowIndexRangeCollectionOrNull.Count().ToString()
);
#region from PhyloTree refactor
//Dictionary<string, Dictionary<string, bool>> predictorVariableToCaseIdToRealNonMissingValue = LoadSparseFileInMemory<bool>(predictorSparseFileName);
//IEnumerable<Pair<string, Dictionary<string, T>>> targetNameAndCaseIdToNonMissingValueEnumeration = LoadSparseFileEnumeration<T>(targetSparseFileName);
//NullDataCollection nullDataGenerator =
// NullDataCollection.GetInstance(this, modelTester, nullIndexRangeCollection, predictorVariableToCaseIdToRealNonMissingValue);
//UniversalWorkList<T> workList = UniversalWorkList<T>.GetInstance(
// predictorVariableToCaseIdToRealNonMissingValue,
// targetNameAndCaseIdToNonMissingValueEnumeration,
// nullDataGenerator, nullIndexRangeCollection, keepTest);
#endregion
bool speedOverMemory = true;
IEnumerable <Pair <string, Dictionary <string, SufficientStatistics> > >
predictorNameAndCaseIdToNonMissingValueEnumeration = CreateNameAndCaseIdToNonMissingValueEnumeration(predictorSparseFileName, speedOverMemory);
IEnumerable <Pair <string, Dictionary <string, SufficientStatistics> > >
targetNameAndCaseIdToNonMissingValueEnumeration = CreateNameAndCaseIdToNonMissingValueEnumeration(targetSparseFileName, speedOverMemory);
NullDataCollection nullDataGenerator =
CreateNullDataGenerator(nullDataGeneratorName, modelScorer, phyloTree, nullIndexRangeCollection,
predictorNameAndCaseIdToNonMissingValueEnumeration, targetNameAndCaseIdToNonMissingValueEnumeration);
UniversalWorkList workList = UniversalWorkList.GetInstance(
predictorNameAndCaseIdToNonMissingValueEnumeration,
targetNameAndCaseIdToNonMissingValueEnumeration,
nullDataGenerator, nullIndexRangeCollection, keepTest);
int workListCount = SpecialFunctions.Count(workList.List());
int effectiveWorkListCount;
if (skipRowIndexRangeCollectionOrNull == null)
{
effectiveWorkListCount = workListCount;
}
else
{
effectiveWorkListCount = 0;
for (int iRowIndex = 0; iRowIndex < workListCount; iRowIndex++)
{
if (!skipRowIndexRangeCollectionOrNull.Contains(iRowIndex))
{
effectiveWorkListCount++;
}
}
}
Console.WriteLine("{0} Total rows. Skipping {1} of them.", workListCount, workListCount - effectiveWorkListCount);
using (TextWriter textWriter = File.CreateText(outputFileName))
{
textWriter.WriteLine(Header);
int rowIndex = -1;
int effectiveRowIndex = -1;
foreach (RowData rowAndTargetData in workList.List())
{
//!!!make all these parameters and the calculation a class
++rowIndex;
Debug.Assert(rowIndex < workListCount); // real assert
if (skipRowIndexRangeCollectionOrNull == null || !skipRowIndexRangeCollectionOrNull.Contains(rowIndex))
{
++effectiveRowIndex;
int workIndex = ExtractWorkIndex(effectiveRowIndex, pieceCount, effectiveWorkListCount);
if (pieceIndexRangeCollection.Contains(workIndex))
{
Debug.WriteLine("WorkItemIndex " + rowIndex.ToString());
string reportLine;
try
{
reportLine =
CreateReportLine(modelScorer, phyloTree, rowAndTargetData, workList, rowIndex, workListCount, workIndex);
}
catch (OutOfMemoryException)
{
Console.WriteLine("OUT OF MEMORY!! Clearing cache and trying to recover where we left off.");
modelScorer.ClearCache();
reportLine =
CreateReportLine(modelScorer, phyloTree, rowAndTargetData, workList, rowIndex, workListCount, workIndex);
}
textWriter.WriteLine(reportLine);
textWriter.Flush();
}
}
}
}
stopwatch.Stop();
Console.WriteLine("Running time: " + stopwatch.Elapsed);
}
public void ScoreTree(
ModelScorer modelScorer,
PhyloTree phyloTree,
string predictorSparseFileName,
string targetSparseFileName,
string predictorVariableName,
string targetVariableName,
double[] nullModelArgs,
double[] altModelArgs)
{
//Dictionary<string, Dictionary<string, SufficientStatistics>> predictorVariableToCaseIdToRealNonMissingValue = LoadSparseFileInMemory(predictorSparseFileName);
IEnumerable <Pair <string, Dictionary <string, SufficientStatistics> > > predictorNameAndCaseIdToNonMissingValueEnumeration = LoadSparseFileEnumeration(predictorSparseFileName);
IEnumerable <Pair <string, Dictionary <string, SufficientStatistics> > > targetNameAndCaseIdToNonMissingValueEnumeration = LoadSparseFileEnumeration(targetSparseFileName);
RangeCollection nullIndexRangeCollection = RangeCollection.GetInstance(-1, -1);
NullDataCollection nullDataGenerator =
CreateNullDataGenerator("PredictorPermutation", modelScorer, phyloTree, nullIndexRangeCollection,
predictorNameAndCaseIdToNonMissingValueEnumeration, targetNameAndCaseIdToNonMissingValueEnumeration);
UniversalWorkList workList = UniversalWorkList.GetInstance(
predictorNameAndCaseIdToNonMissingValueEnumeration,
targetNameAndCaseIdToNonMissingValueEnumeration,
//targetNameAndCaseIdToNonMissingValueEnumeration,
nullDataGenerator, nullIndexRangeCollection, AlwaysKeep <Dictionary <string, string> > .GetInstance());
foreach (RowData rowAndTargetData in workList.List())
{
if (rowAndTargetData.Row[PhyloTree.PredictorVariableColumnName] == predictorVariableName &&
rowAndTargetData.Row[PhyloTree.TargetVariableColumnName] == targetVariableName)
{
Dictionary <string, SufficientStatistics> caseIdToNonNullPredictorValue = rowAndTargetData.PredictorData;//workList.GetCaseIdToNonMissingValueForNullIndexAndPredictorVariable(-1, predictorVariableName);
Dictionary <string, SufficientStatistics> caseIdToNonMissingTargetValue = rowAndTargetData.TargetData;
Converter <Leaf, SufficientStatistics> targetDistributionMap = CreateSufficientStatisticsMap(caseIdToNonMissingTargetValue);
Converter <Leaf, SufficientStatistics> predictorDistributionClassFunction = CreateSufficientStatisticsMap(caseIdToNonNullPredictorValue);
Converter <Leaf, SufficientStatistics> altDistributionMap = CreateAlternativeSufficientStatisticsMap(predictorDistributionClassFunction, targetDistributionMap);
double logLikelihood;
Score scoreIndTarget, scoreIndPredictor, scoreAlt;
MessageInitializer messageInitializer;
OptimizationParameterList nullParams = NullModelDistribution.GetParameters(nullModelArgs);
OptimizationParameterList altParams = AltModelDistribution.GetParameters(altModelArgs);
Console.WriteLine(SpecialFunctions.CreateTabString("Variable", nullParams.ToStringHeader(), "LogL"));
messageInitializer = modelScorer.CreateMessageInitializer(predictorDistributionClassFunction, targetDistributionMap, NullModelDistribution);
logLikelihood = modelScorer.ComputeLogLikelihoodModelGivenData(messageInitializer, nullParams);
scoreIndTarget = Score.GetInstance(logLikelihood, nullParams);
Console.WriteLine("Target\t" + scoreIndTarget);
messageInitializer = modelScorer.CreateMessageInitializer(targetDistributionMap, predictorDistributionClassFunction, NullModelDistribution);
logLikelihood = modelScorer.ComputeLogLikelihoodModelGivenData(messageInitializer, nullParams);
modelScorer.ComputeLogLikelihoodModelGivenData(messageInitializer, nullParams);
scoreIndPredictor = Score.GetInstance(logLikelihood, nullParams);
Console.WriteLine("Predictor\t" + scoreIndPredictor);
Console.WriteLine("\n" + SpecialFunctions.CreateTabString("Variable", altParams.ToStringHeader(), "LogL"));
messageInitializer = modelScorer.CreateMessageInitializer(null, altDistributionMap, AltModelDistribution);
logLikelihood = modelScorer.ComputeLogLikelihoodModelGivenData(messageInitializer, altParams);
scoreAlt = Score.GetInstance(logLikelihood, altParams);
Console.WriteLine(SpecialFunctions.CreateTabString(AltModelDistribution, scoreAlt));
}
}
}
