forced rarefaction.single to output ending line for all groups. added subsample...

[mothur.git] / indicatorcommand.h

diff --git a/indicatorcommand.h b/indicatorcommand.h
index 05db05c414de9e0917c68050aebc655afe3aa846..c5112e683dbf78a074aa1df6c1978d3b1fb0756d 100644 (file)
--- a/indicatorcommand.h
+++ b/indicatorcommand.h
@@ -27,7 +27,9 @@ public:
        string getCommandName()                 { return "indicator";                           }
        string getCommandCategory()             { return "Hypothesis Testing";          }
        string getHelpString(); 
-       
+       string getCitation() { return "Dufrene M, Legendre P (1997). Species assemblages and indicator species: The need for a flexible asymmetrical approach. Ecol Monogr 67: 345-66.\n McCune B, Grace JB, Urban DL (2002). Analysis of ecological communities. MjM Software Design: Gleneden Beach, OR. \nLegendre P, Legendre L (1998). Numerical Ecology. Elsevier: New York. \nhttp://www.mothur.org/wiki/Indicator"; }
+       string getDescription()         { return "calculate the indicator value for each OTU"; }
+
        int execute();
        void help() { m->mothurOut(getHelpString()); }  
        
@@ -37,6 +39,7 @@ private:
        GroupMap* designMap;
        string treefile, sharedfile, relabundfile, groups, label, inputFileName, outputDir, designfile;
        bool abort;
+       int iters, processors;
        vector<string> outputNames, Groups;
        vector<SharedRAbundVector*> lookup;
        vector<SharedRAbundFloatVector*> lookupFloat;
@@ -44,10 +47,18 @@ private:
        int getShared();
        int getSharedFloat();
        int GetIndicatorSpecies(Tree*&);
+       int GetIndicatorSpecies();
        set<string> getDescendantList(Tree*&, int, map<int, set<string> >, map<int, set<int> >&);
-       vector<float> getValues(vector< vector<SharedRAbundVector*> >&);
-       vector<float> getValues(vector< vector<SharedRAbundFloatVector*> >&);
+       vector<float> getValues(vector< vector<SharedRAbundVector*> >&, map< vector<int>, vector<int> >);
+       vector<float> getValues(vector< vector<SharedRAbundFloatVector*> >&, map< vector<int>, vector<int> >);
        map<int, float> getDistToRoot(Tree*&);
+       map< vector<int>, vector<int> > randomizeGroupings(vector< vector<SharedRAbundVector*> >&, int);
+       map< vector<int>, vector<int> > randomizeGroupings(vector< vector<SharedRAbundFloatVector*> >&, int);
+       vector<float> driver(vector< vector<SharedRAbundFloatVector*> >&, map< vector<int>, vector<int> >, int, vector<float>, int);
+       vector<float> driver(vector< vector<SharedRAbundVector*> >&, map< vector<int>, vector<int> >, int, vector<float>, int);
+       vector<float> getPValues(vector< vector<SharedRAbundFloatVector*> >&, map< vector<int>, vector<int> >, int, vector<float>);
+       vector<float> getPValues(vector< vector<SharedRAbundVector*> >&, map< vector<int>, vector<int> >, int, vector<float>);
+
        
 };