[1] "ofn"        "-oTLAML-TB"
[1] "opt"       "-OPMUTSIG"
[1] "tl" ""  
[1] "dx" ""  
[1] "opt"    "MUTSIG"
[1] "dx" ""  
[1] "cfn:"
[1] "/xchip/cga/gdac-prod/tcga-gdac/jobResults/GDAC_mergedClustering/LAML-TB/22541002/LAML-TB.transferedmergedcluster.txt"
[1] "dfn:"
[1] "/xchip/cga/gdac-prod/tcga-gdac/jobResults/GDAC_Correlate_Genomic_Events_Preprocess/LAML-TB/22570965/transformed.cor.cli.txt"

nPatients in clinical file=200, in cluster file=193, common to both=193
[1] "Reduce the number of clustering variables from 25 to 23."
[1]  23 193
[1] "FLT3 MUTATION ANALYSIS"
[1] 3
  FLT3 MUTATED FLT3 WILD-TYPE 
            52            141 
  FLT3 MUTATED FLT3 WILD-TYPE 
            52            141 
[1] "DNMT3A MUTATION ANALYSIS"
[1] 3
  DNMT3A MUTATED DNMT3A WILD-TYPE 
              48              145 
  DNMT3A MUTATED DNMT3A WILD-TYPE 
              48              145 
[1] "NPM1 MUTATION ANALYSIS"
[1] 3
  NPM1 MUTATED NPM1 WILD-TYPE 
            33            160 
  NPM1 MUTATED NPM1 WILD-TYPE 
            33            160 
[1] "IDH2 MUTATION ANALYSIS"
[1] 3
  IDH2 MUTATED IDH2 WILD-TYPE 
            20            173 
  IDH2 MUTATED IDH2 WILD-TYPE 
            20            173 
[1] "IDH1 MUTATION ANALYSIS"
[1] 3
  IDH1 MUTATED IDH1 WILD-TYPE 
            18            175 
  IDH1 MUTATED IDH1 WILD-TYPE 
            18            175 
[1] "TET2 MUTATION ANALYSIS"
[1] 3
  TET2 MUTATED TET2 WILD-TYPE 
            17            176 
  TET2 MUTATED TET2 WILD-TYPE 
            17            176 
[1] "NRAS MUTATION ANALYSIS"
[1] 3
  NRAS MUTATED NRAS WILD-TYPE 
            15            178 
  NRAS MUTATED NRAS WILD-TYPE 
            15            178 
[1] "WT1 MUTATION ANALYSIS"
[1] 3
  WT1 MUTATED WT1 WILD-TYPE 
           12           181 
  WT1 MUTATED WT1 WILD-TYPE 
           12           181 
[1] "U2AF1 MUTATION ANALYSIS"
[1] 3
  U2AF1 MUTATED U2AF1 WILD-TYPE 
              8             185 
  U2AF1 MUTATED U2AF1 WILD-TYPE 
              8             185 
[1] "RUNX1 MUTATION ANALYSIS"
[1] 3
  RUNX1 MUTATED RUNX1 WILD-TYPE 
             16             177 
  RUNX1 MUTATED RUNX1 WILD-TYPE 
             16             177 
[1] "CEBPA MUTATION ANALYSIS"
[1] 3
  CEBPA MUTATED CEBPA WILD-TYPE 
             13             180 
  CEBPA MUTATED CEBPA WILD-TYPE 
             13             180 
[1] "TP53 MUTATION ANALYSIS"
[1] 3
  TP53 MUTATED TP53 WILD-TYPE 
            15            178 
  TP53 MUTATED TP53 WILD-TYPE 
            15            178 
[1] "KRAS MUTATION ANALYSIS"
[1] 3
  KRAS MUTATED KRAS WILD-TYPE 
             8            185 
  KRAS MUTATED KRAS WILD-TYPE 
             8            185 
[1] "PHF6 MUTATION ANALYSIS"
[1] 3
  PHF6 MUTATED PHF6 WILD-TYPE 
             6            187 
  PHF6 MUTATED PHF6 WILD-TYPE 
             6            187 
[1] "STAG2 MUTATION ANALYSIS"
[1] 3
  STAG2 MUTATED STAG2 WILD-TYPE 
              6             187 
  STAG2 MUTATED STAG2 WILD-TYPE 
              6             187 
[1] "KIT MUTATION ANALYSIS"
[1] 3
  KIT MUTATED KIT WILD-TYPE 
            8           185 
  KIT MUTATED KIT WILD-TYPE 
            8           185 
[1] "RAD21 MUTATION ANALYSIS"
[1] 3
  RAD21 MUTATED RAD21 WILD-TYPE 
              5             188 
  RAD21 MUTATED RAD21 WILD-TYPE 
              5             188 
[1] "EZH2 MUTATION ANALYSIS"
[1] 3
  EZH2 MUTATED EZH2 WILD-TYPE 
             3            190 
  EZH2 MUTATED EZH2 WILD-TYPE 
             3            190 
[1] "SMC3 MUTATION ANALYSIS"
[1] 3
  SMC3 MUTATED SMC3 WILD-TYPE 
             7            186 
  SMC3 MUTATED SMC3 WILD-TYPE 
             7            186 
[1] "ASXL1 MUTATION ANALYSIS"
[1] 3
  ASXL1 MUTATED ASXL1 WILD-TYPE 
              5             188 
  ASXL1 MUTATED ASXL1 WILD-TYPE 
              5             188 
[1] "SMC1A MUTATION ANALYSIS"
[1] 3
  SMC1A MUTATED SMC1A WILD-TYPE 
              6             187 
  SMC1A MUTATED SMC1A WILD-TYPE 
              6             187 
[1] "PTPN11 MUTATION ANALYSIS"
[1] 3
  PTPN11 MUTATED PTPN11 WILD-TYPE 
               9              184 
  PTPN11 MUTATED PTPN11 WILD-TYPE 
               9              184 
[1] "SUZ12 MUTATION ANALYSIS"
[1] 3
  SUZ12 MUTATED SUZ12 WILD-TYPE 
              3             190 
  SUZ12 MUTATED SUZ12 WILD-TYPE 
              3             190 
[1] "data2feature, selection=ALL"
[1] "CN_CNMF"               "METHLYATION_CNMF"      "MRNASEQ_CNMF"         
[4] "MRNASEQ_CHIERARCHICAL" "MIRSEQ_CNMF"           "MIRSEQ_CHIERARCHICAL" 

Input Data has 6 rows and 193 columns.

Variable 1:'CN_CNMF':	nDistinctValues=4,	numeric=FALSE,	binary=FALSE,	exclude=FALSE.
Variable 2:'METHLYATION_CNMF':	nDistinctValues=5,	numeric=FALSE,	binary=FALSE,	exclude=FALSE.
Variable 3:'MRNASEQ_CNMF':	nDistinctValues=3,	numeric=FALSE,	binary=FALSE,	exclude=FALSE.
Variable 4:'MRNASEQ_CHIERARCHICAL':	nDistinctValues=6,	numeric=FALSE,	binary=FALSE,	exclude=FALSE.
Variable 5:'MIRSEQ_CNMF':	nDistinctValues=5,	numeric=FALSE,	binary=FALSE,	exclude=FALSE.
Variable 6:'MIRSEQ_CHIERARCHICAL':	nDistinctValues=3,	numeric=FALSE,	binary=FALSE,	exclude=FALSE.
[1] "## **** detect survival parameters (defined in index such as ind_OS, ind_MFS, ind_RFS, ind_RFS, ind_BCR and ind_d2ssd) *** ##"
[1] "detected survival parameters using [ind_OS, overall_survival]"
[1] "survival parameters accumulated so far"
NULL
[1] "detected survival parameters using [ind_OS, curated_overall_survival]"
[1] "survival parameters accumulated so far"
NULL
[1] "detected survival parameters using [ind_TCGAOS]"
[1] "survival parameters accumulated so far"
NULL
[1] "detected survivial parameters using [ind_MFS]"
[1] "survival parameters accumulated so far"
NULL
[1] "detected survival parameters using [ind_RFS]"
[1] "survival parameters accumulated so far"
NULL
[1] "detected survival parameters using [ind_BCR]"
[1] "survival parameters accumulated so far"
NULL
[1] "detected survival parameters using [ind_Progression]"
[1] "survival parameters accumulated so far"
NULL
[1] "detected survival parameters using [index_additional_survival_time]"
[1] "survival parameters accumulated so far"
NULL
[1] "detected survival parameters using condition: [is.null(surv.mat)&&(selection=='SURV')]"
[1] "survival parameters accumulated so far"
NULL
[1] "************ conversion from categorical data to rank data ********** "
[1] "****** SUMMARY ***** "
Output Data has 193 columns, 0 survival variables, and 6 non-survival variables.
[1] "* survival variables: "
NULL
[1] "* non-survival variables: "
[1] "CN_CNMF"               "METHLYATION_CNMF"      "MRNASEQ_CNMF"         
[4] "MRNASEQ_CHIERARCHICAL" "MIRSEQ_CNMF"           "MIRSEQ_CHIERARCHICAL" 
CN_CNMF, nv=4, binary=FALSE, numeric=FALSE
METHLYATION_CNMF, nv=5, binary=FALSE, numeric=FALSE
MRNASEQ_CNMF, nv=3, binary=FALSE, numeric=FALSE
MRNASEQ_CHIERARCHICAL, nv=6, binary=FALSE, numeric=FALSE
MIRSEQ_CNMF, nv=5, binary=FALSE, numeric=FALSE
MIRSEQ_CHIERARCHICAL, nv=3, binary=FALSE, numeric=FALSE

Clustering(1) Variable = FLT3 MUTATION ANALYSIS
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4
  FLT3 MUTATED       12     11     18      9
  FLT3 WILD-TYPE     37     31     36     30
D1V1, multiclass
        clus
vv       FLT3 MUTATED FLT3 WILD-TYPE
  CLUS_1           12             37
  CLUS_2           11             31
  CLUS_3           18             36
  CLUS_4            9             30
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  FLT3 MUTATED       11      5      7      7     21
  FLT3 WILD-TYPE     11     20     55     30     20
D1V2, multiclass
        clus
vv       FLT3 MUTATED FLT3 WILD-TYPE
  CLUS_1           11             11
  CLUS_2            5             20
  CLUS_3            7             55
  CLUS_4            7             30
  CLUS_5           21             20
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  FLT3 MUTATED        6     17     22
  FLT3 WILD-TYPE     68     31     23
D1V3, multiclass
        clus
vv       FLT3 MUTATED FLT3 WILD-TYPE
  CLUS_1            6             68
  CLUS_2           17             31
  CLUS_3           22             23
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  FLT3 MUTATED        5      3      2      6     13     16
  FLT3 WILD-TYPE     11     10     13     51     13     24
D1V4, multiclass
        clus
vv       FLT3 MUTATED FLT3 WILD-TYPE
  CLUS_1            5             11
  CLUS_2            3             10
  CLUS_3            2             13
  CLUS_4            6             51
  CLUS_5           13             13
  CLUS_6           16             24
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  FLT3 MUTATED       21      4     14      7      4
  FLT3 WILD-TYPE     34     27     28     25     17
D1V5, multiclass
        clus
vv       FLT3 MUTATED FLT3 WILD-TYPE
  CLUS_1           21             34
  CLUS_2            4             27
  CLUS_3           14             28
  CLUS_4            7             25
  CLUS_5            4             17
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  FLT3 MUTATED       29      5     16
  FLT3 WILD-TYPE     36     30     65
D1V6, multiclass
        clus
vv       FLT3 MUTATED FLT3 WILD-TYPE
  CLUS_1           29             36
  CLUS_2            5             30
  CLUS_3           16             65
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(2) Variable = DNMT3A MUTATION ANALYSIS
                  vv
clus               CLUS_1 CLUS_2 CLUS_3 CLUS_4
  DNMT3A MUTATED       13      6     16      9
  DNMT3A WILD-TYPE     36     36     38     30
D2V1, multiclass
        clus
vv       DNMT3A MUTATED DNMT3A WILD-TYPE
  CLUS_1             13               36
  CLUS_2              6               36
  CLUS_3             16               38
  CLUS_4              9               30
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                  vv
clus               CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  DNMT3A MUTATED       16      2     13      6      9
  DNMT3A WILD-TYPE      6     23     49     31     32
D2V2, multiclass
        clus
vv       DNMT3A MUTATED DNMT3A WILD-TYPE
  CLUS_1             16                6
  CLUS_2              2               23
  CLUS_3             13               49
  CLUS_4              6               31
  CLUS_5              9               32
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                  vv
clus               CLUS_1 CLUS_2 CLUS_3
  DNMT3A MUTATED       12     17     12
  DNMT3A WILD-TYPE     62     31     33
D2V3, multiclass
        clus
vv       DNMT3A MUTATED DNMT3A WILD-TYPE
  CLUS_1             12               62
  CLUS_2             17               31
  CLUS_3             12               33
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                  vv
clus               CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  DNMT3A MUTATED        0      3      0     14     11     13
  DNMT3A WILD-TYPE     16     10     15     43     15     27
D2V4, multiclass
        clus
vv       DNMT3A MUTATED DNMT3A WILD-TYPE
  CLUS_1              0               16
  CLUS_2              3               10
  CLUS_3              0               15
  CLUS_4             14               43
  CLUS_5             11               15
  CLUS_6             13               27
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                  vv
clus               CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  DNMT3A MUTATED       23      2     11      3      5
  DNMT3A WILD-TYPE     32     29     31     29     16
D2V5, multiclass
        clus
vv       DNMT3A MUTATED DNMT3A WILD-TYPE
  CLUS_1             23               32
  CLUS_2              2               29
  CLUS_3             11               31
  CLUS_4              3               29
  CLUS_5              5               16
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                  vv
clus               CLUS_1 CLUS_2 CLUS_3
  DNMT3A MUTATED       25      3     16
  DNMT3A WILD-TYPE     40     32     65
D2V6, multiclass
        clus
vv       DNMT3A MUTATED DNMT3A WILD-TYPE
  CLUS_1             25               40
  CLUS_2              3               32
  CLUS_3             16               65
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(3) Variable = NPM1 MUTATION ANALYSIS
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4
  NPM1 MUTATED       12      8      7      4
  NPM1 WILD-TYPE     37     34     47     35
D3V1, multiclass
        clus
vv       NPM1 MUTATED NPM1 WILD-TYPE
  CLUS_1           12             37
  CLUS_2            8             34
  CLUS_3            7             47
  CLUS_4            4             35
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  NPM1 MUTATED        9      3      2      0     18
  NPM1 WILD-TYPE     13     22     60     37     23
D3V2, multiclass
        clus
vv       NPM1 MUTATED NPM1 WILD-TYPE
  CLUS_1            9             13
  CLUS_2            3             22
  CLUS_3            2             60
  CLUS_4            0             37
  CLUS_5           18             23
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  NPM1 MUTATED        1     10     17
  NPM1 WILD-TYPE     73     38     28
D3V3, multiclass
        clus
vv       NPM1 MUTATED NPM1 WILD-TYPE
  CLUS_1            1             73
  CLUS_2           10             38
  CLUS_3           17             28
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  NPM1 MUTATED        0      0      0      1     15     12
  NPM1 WILD-TYPE     16     13     15     56     11     28
D3V4, multiclass
        clus
vv       NPM1 MUTATED NPM1 WILD-TYPE
  CLUS_1            0             16
  CLUS_2            0             13
  CLUS_3            0             15
  CLUS_4            1             56
  CLUS_5           15             11
  CLUS_6           12             28
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  NPM1 MUTATED       21      0      6      1      4
  NPM1 WILD-TYPE     34     31     36     31     17
D3V5, multiclass
        clus
vv       NPM1 MUTATED NPM1 WILD-TYPE
  CLUS_1           21             34
  CLUS_2            0             31
  CLUS_3            6             36
  CLUS_4            1             31
  CLUS_5            4             17
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  NPM1 MUTATED       30      1      1
  NPM1 WILD-TYPE     35     34     80
D3V6, multiclass
        clus
vv       NPM1 MUTATED NPM1 WILD-TYPE
  CLUS_1           30             35
  CLUS_2            1             34
  CLUS_3            1             80
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(4) Variable = IDH2 MUTATION ANALYSIS
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4
  IDH2 MUTATED        6      2      8      3
  IDH2 WILD-TYPE     43     40     46     36
D4V1, multiclass
        clus
vv       IDH2 MUTATED IDH2 WILD-TYPE
  CLUS_1            6             43
  CLUS_2            2             40
  CLUS_3            8             46
  CLUS_4            3             36
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  IDH2 MUTATED        0      2     10      2      4
  IDH2 WILD-TYPE     22     23     52     35     37
D4V2, multiclass
        clus
vv       IDH2 MUTATED IDH2 WILD-TYPE
  CLUS_1            0             22
  CLUS_2            2             23
  CLUS_3           10             52
  CLUS_4            2             35
  CLUS_5            4             37
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  IDH2 MUTATED        8      6      3
  IDH2 WILD-TYPE     66     42     42
D4V3, multiclass
        clus
vv       IDH2 MUTATED IDH2 WILD-TYPE
  CLUS_1            8             66
  CLUS_2            6             42
  CLUS_3            3             42
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  IDH2 MUTATED        0      2      0      9      2      4
  IDH2 WILD-TYPE     16     11     15     48     24     36
D4V4, multiclass
        clus
vv       IDH2 MUTATED IDH2 WILD-TYPE
  CLUS_1            0             16
  CLUS_2            2             11
  CLUS_3            0             15
  CLUS_4            9             48
  CLUS_5            2             24
  CLUS_6            4             36
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  IDH2 MUTATED        6      1      4      4      2
  IDH2 WILD-TYPE     49     30     38     28     19
D4V5, multiclass
        clus
vv       IDH2 MUTATED IDH2 WILD-TYPE
  CLUS_1            6             49
  CLUS_2            1             30
  CLUS_3            4             38
  CLUS_4            4             28
  CLUS_5            2             19
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  IDH2 MUTATED        5      1     11
  IDH2 WILD-TYPE     60     34     70
D4V6, multiclass
        clus
vv       IDH2 MUTATED IDH2 WILD-TYPE
  CLUS_1            5             60
  CLUS_2            1             34
  CLUS_3           11             70
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(5) Variable = IDH1 MUTATION ANALYSIS
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4
  IDH1 MUTATED        7      1      2      7
  IDH1 WILD-TYPE     42     41     52     32
D5V1, multiclass
        clus
vv       IDH1 MUTATED IDH1 WILD-TYPE
  CLUS_1            7             42
  CLUS_2            1             41
  CLUS_3            2             52
  CLUS_4            7             32
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  IDH1 MUTATED        3      5     10      0      0
  IDH1 WILD-TYPE     19     20     52     37     41
D5V2, multiclass
        clus
vv       IDH1 MUTATED IDH1 WILD-TYPE
  CLUS_1            3             19
  CLUS_2            5             20
  CLUS_3           10             52
  CLUS_4            0             37
  CLUS_5            0             41
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  IDH1 MUTATED        8      1      6
  IDH1 WILD-TYPE     66     47     39
D5V3, multiclass
        clus
vv       IDH1 MUTATED IDH1 WILD-TYPE
  CLUS_1            8             66
  CLUS_2            1             47
  CLUS_3            6             39
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  IDH1 MUTATED        0      0      0      8      4      3
  IDH1 WILD-TYPE     16     13     15     49     22     37
D5V4, multiclass
        clus
vv       IDH1 MUTATED IDH1 WILD-TYPE
  CLUS_1            0             16
  CLUS_2            0             13
  CLUS_3            0             15
  CLUS_4            8             49
  CLUS_5            4             22
  CLUS_6            3             37
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  IDH1 MUTATED        5      3      7      1      2
  IDH1 WILD-TYPE     50     28     35     31     19
D5V5, multiclass
        clus
vv       IDH1 MUTATED IDH1 WILD-TYPE
  CLUS_1            5             50
  CLUS_2            3             28
  CLUS_3            7             35
  CLUS_4            1             31
  CLUS_5            2             19
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  IDH1 MUTATED        8      3      7
  IDH1 WILD-TYPE     57     32     74
D5V6, multiclass
        clus
vv       IDH1 MUTATED IDH1 WILD-TYPE
  CLUS_1            8             57
  CLUS_2            3             32
  CLUS_3            7             74
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(6) Variable = TET2 MUTATION ANALYSIS
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4
  TET2 MUTATED        3      4      4      5
  TET2 WILD-TYPE     46     38     50     34
D6V1, multiclass
        clus
vv       TET2 MUTATED TET2 WILD-TYPE
  CLUS_1            3             46
  CLUS_2            4             38
  CLUS_3            4             50
  CLUS_4            5             34
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  TET2 MUTATED        1      2      8      1      4
  TET2 WILD-TYPE     21     23     54     36     37
D6V2, multiclass
        clus
vv       TET2 MUTATED TET2 WILD-TYPE
  CLUS_1            1             21
  CLUS_2            2             23
  CLUS_3            8             54
  CLUS_4            1             36
  CLUS_5            4             37
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  TET2 MUTATED        9      2      4
  TET2 WILD-TYPE     65     46     41
D6V3, multiclass
        clus
vv       TET2 MUTATED TET2 WILD-TYPE
  CLUS_1            9             65
  CLUS_2            2             46
  CLUS_3            4             41
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  TET2 MUTATED        0      0      2      7      3      3
  TET2 WILD-TYPE     16     13     13     50     23     37
D6V4, multiclass
        clus
vv       TET2 MUTATED TET2 WILD-TYPE
  CLUS_1            0             16
  CLUS_2            0             13
  CLUS_3            2             13
  CLUS_4            7             50
  CLUS_5            3             23
  CLUS_6            3             37
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  TET2 MUTATED        5      2      5      1      4
  TET2 WILD-TYPE     50     29     37     31     17
D6V5, multiclass
        clus
vv       TET2 MUTATED TET2 WILD-TYPE
  CLUS_1            5             50
  CLUS_2            2             29
  CLUS_3            5             37
  CLUS_4            1             31
  CLUS_5            4             17
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  TET2 MUTATED        7      2      8
  TET2 WILD-TYPE     58     33     73
D6V6, multiclass
        clus
vv       TET2 MUTATED TET2 WILD-TYPE
  CLUS_1            7             58
  CLUS_2            2             33
  CLUS_3            8             73
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(7) Variable = NRAS MUTATION ANALYSIS
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4
  NRAS MUTATED        3      2      3      7
  NRAS WILD-TYPE     46     40     51     32
D7V1, multiclass
        clus
vv       NRAS MUTATED NRAS WILD-TYPE
  CLUS_1            3             46
  CLUS_2            2             40
  CLUS_3            3             51
  CLUS_4            7             32
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  NRAS MUTATED        0      1      5      3      6
  NRAS WILD-TYPE     22     24     57     34     35
D7V2, multiclass
        clus
vv       NRAS MUTATED NRAS WILD-TYPE
  CLUS_1            0             22
  CLUS_2            1             24
  CLUS_3            5             57
  CLUS_4            3             34
  CLUS_5            6             35
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  NRAS MUTATED        5      5      2
  NRAS WILD-TYPE     69     43     43
D7V3, multiclass
        clus
vv       NRAS MUTATED NRAS WILD-TYPE
  CLUS_1            5             69
  CLUS_2            5             43
  CLUS_3            2             43
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  NRAS MUTATED        0      1      1      4      2      4
  NRAS WILD-TYPE     16     12     14     53     24     36
D7V4, multiclass
        clus
vv       NRAS MUTATED NRAS WILD-TYPE
  CLUS_1            0             16
  CLUS_2            1             12
  CLUS_3            1             14
  CLUS_4            4             53
  CLUS_5            2             24
  CLUS_6            4             36
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  NRAS MUTATED        5      2      2      3      2
  NRAS WILD-TYPE     50     29     40     29     19
D7V5, multiclass
        clus
vv       NRAS MUTATED NRAS WILD-TYPE
  CLUS_1            5             50
  CLUS_2            2             29
  CLUS_3            2             40
  CLUS_4            3             29
  CLUS_5            2             19
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  NRAS MUTATED        7      2      5
  NRAS WILD-TYPE     58     33     76
D7V6, multiclass
        clus
vv       NRAS MUTATED NRAS WILD-TYPE
  CLUS_1            7             58
  CLUS_2            2             33
  CLUS_3            5             76
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(8) Variable = WT1 MUTATION ANALYSIS
               vv
clus            CLUS_1 CLUS_2 CLUS_3 CLUS_4
  WT1 MUTATED        3      2      3      4
  WT1 WILD-TYPE     46     40     51     35
D8V1, multiclass
        clus
vv       WT1 MUTATED WT1 WILD-TYPE
  CLUS_1           3            46
  CLUS_2           2            40
  CLUS_3           3            51
  CLUS_4           4            35
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
               vv
clus            CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  WT1 MUTATED        0      2      0      2      7
  WT1 WILD-TYPE     22     23     62     35     34
D8V2, multiclass
        clus
vv       WT1 MUTATED WT1 WILD-TYPE
  CLUS_1           0            22
  CLUS_2           2            23
  CLUS_3           0            62
  CLUS_4           2            35
  CLUS_5           7            34
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
               vv
clus            CLUS_1 CLUS_2 CLUS_3
  WT1 MUTATED        2      2      6
  WT1 WILD-TYPE     72     46     39
D8V3, multiclass
        clus
vv       WT1 MUTATED WT1 WILD-TYPE
  CLUS_1           2            72
  CLUS_2           2            46
  CLUS_3           6            39
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
               vv
clus            CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  WT1 MUTATED        0      1      0      3      4      2
  WT1 WILD-TYPE     16     12     15     54     22     38
D8V4, multiclass
        clus
vv       WT1 MUTATED WT1 WILD-TYPE
  CLUS_1           0            16
  CLUS_2           1            12
  CLUS_3           0            15
  CLUS_4           3            54
  CLUS_5           4            22
  CLUS_6           2            38
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
               vv
clus            CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  WT1 MUTATED        2      0      6      3      0
  WT1 WILD-TYPE     53     31     36     29     21
D8V5, multiclass
        clus
vv       WT1 MUTATED WT1 WILD-TYPE
  CLUS_1           2            53
  CLUS_2           0            31
  CLUS_3           6            36
  CLUS_4           3            29
  CLUS_5           0            21
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
               vv
clus            CLUS_1 CLUS_2 CLUS_3
  WT1 MUTATED        5      0      6
  WT1 WILD-TYPE     60     35     75
D8V6, multiclass
        clus
vv       WT1 MUTATED WT1 WILD-TYPE
  CLUS_1           5            60
  CLUS_2           0            35
  CLUS_3           6            75
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(9) Variable = U2AF1 MUTATION ANALYSIS
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4
  U2AF1 MUTATED        2      0      1      3
  U2AF1 WILD-TYPE     47     42     53     36
D9V1, multiclass
        clus
vv       U2AF1 MUTATED U2AF1 WILD-TYPE
  CLUS_1             2              47
  CLUS_2             0              42
  CLUS_3             1              53
  CLUS_4             3              36
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  U2AF1 MUTATED        1      0      6      1      0
  U2AF1 WILD-TYPE     21     25     56     36     41
D9V2, multiclass
        clus
vv       U2AF1 MUTATED U2AF1 WILD-TYPE
  CLUS_1             1              21
  CLUS_2             0              25
  CLUS_3             6              56
  CLUS_4             1              36
  CLUS_5             0              41
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3
  U2AF1 MUTATED        5      2      0
  U2AF1 WILD-TYPE     69     46     45
D9V3, multiclass
        clus
vv       U2AF1 MUTATED U2AF1 WILD-TYPE
  CLUS_1             5              69
  CLUS_2             2              46
  CLUS_3             0              45
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  U2AF1 MUTATED        0      0      0      6      0      1
  U2AF1 WILD-TYPE     16     13     15     51     26     39
D9V4, multiclass
        clus
vv       U2AF1 MUTATED U2AF1 WILD-TYPE
  CLUS_1             0              16
  CLUS_2             0              13
  CLUS_3             0              15
  CLUS_4             6              51
  CLUS_5             0              26
  CLUS_6             1              39
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  U2AF1 MUTATED        1      1      0      2      3
  U2AF1 WILD-TYPE     54     30     42     30     18
D9V5, multiclass
        clus
vv       U2AF1 MUTATED U2AF1 WILD-TYPE
  CLUS_1             1              54
  CLUS_2             1              30
  CLUS_3             0              42
  CLUS_4             2              30
  CLUS_5             3              18
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3
  U2AF1 MUTATED        1      2      4
  U2AF1 WILD-TYPE     64     33     77
D9V6, multiclass
        clus
vv       U2AF1 MUTATED U2AF1 WILD-TYPE
  CLUS_1             1              64
  CLUS_2             2              33
  CLUS_3             4              77
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(10) Variable = RUNX1 MUTATION ANALYSIS
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4
  RUNX1 MUTATED        2      4      7      3
  RUNX1 WILD-TYPE     47     38     47     36
D10V1, multiclass
        clus
vv       RUNX1 MUTATED RUNX1 WILD-TYPE
  CLUS_1             2              47
  CLUS_2             4              38
  CLUS_3             7              47
  CLUS_4             3              36
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  RUNX1 MUTATED        0      0     11      2      1
  RUNX1 WILD-TYPE     22     25     51     35     40
D10V2, multiclass
        clus
vv       RUNX1 MUTATED RUNX1 WILD-TYPE
  CLUS_1             0              22
  CLUS_2             0              25
  CLUS_3            11              51
  CLUS_4             2              35
  CLUS_5             1              40
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3
  RUNX1 MUTATED       11      3      0
  RUNX1 WILD-TYPE     63     45     45
D10V3, multiclass
        clus
vv       RUNX1 MUTATED RUNX1 WILD-TYPE
  CLUS_1            11              63
  CLUS_2             3              45
  CLUS_3             0              45
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  RUNX1 MUTATED        0      1      0     13      0      0
  RUNX1 WILD-TYPE     16     12     15     44     26     40
D10V4, multiclass
        clus
vv       RUNX1 MUTATED RUNX1 WILD-TYPE
  CLUS_1             0              16
  CLUS_2             1              12
  CLUS_3             0              15
  CLUS_4            13              44
  CLUS_5             0              26
  CLUS_6             0              40
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  RUNX1 MUTATED        1      3      2      4      4
  RUNX1 WILD-TYPE     54     28     40     28     17
D10V5, multiclass
        clus
vv       RUNX1 MUTATED RUNX1 WILD-TYPE
  CLUS_1             1              54
  CLUS_2             3              28
  CLUS_3             2              40
  CLUS_4             4              28
  CLUS_5             4              17
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3
  RUNX1 MUTATED        0      3     11
  RUNX1 WILD-TYPE     65     32     70
D10V6, multiclass
        clus
vv       RUNX1 MUTATED RUNX1 WILD-TYPE
  CLUS_1             0              65
  CLUS_2             3              32
  CLUS_3            11              70
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(11) Variable = CEBPA MUTATION ANALYSIS
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4
  CEBPA MUTATED        3      3      4      2
  CEBPA WILD-TYPE     46     39     50     37
D11V1, multiclass
        clus
vv       CEBPA MUTATED CEBPA WILD-TYPE
  CLUS_1             3              46
  CLUS_2             3              39
  CLUS_3             4              50
  CLUS_4             2              37
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  CEBPA MUTATED        0      2      2      7      2
  CEBPA WILD-TYPE     22     23     60     30     39
D11V2, multiclass
        clus
vv       CEBPA MUTATED CEBPA WILD-TYPE
  CLUS_1             0              22
  CLUS_2             2              23
  CLUS_3             2              60
  CLUS_4             7              30
  CLUS_5             2              39
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3
  CEBPA MUTATED        9      2      2
  CEBPA WILD-TYPE     65     46     43
D11V3, multiclass
        clus
vv       CEBPA MUTATED CEBPA WILD-TYPE
  CLUS_1             9              65
  CLUS_2             2              46
  CLUS_3             2              43
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  CEBPA MUTATED        0      0      7      4      1      1
  CEBPA WILD-TYPE     16     13      8     53     25     39
D11V4, multiclass
        clus
vv       CEBPA MUTATED CEBPA WILD-TYPE
  CLUS_1             0              16
  CLUS_2             0              13
  CLUS_3             7               8
  CLUS_4             4              53
  CLUS_5             1              25
  CLUS_6             1              39
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  CEBPA MUTATED        1      0      7      4      1
  CEBPA WILD-TYPE     54     31     35     28     20
D11V5, multiclass
        clus
vv       CEBPA MUTATED CEBPA WILD-TYPE
  CLUS_1             1              54
  CLUS_2             0              31
  CLUS_3             7              35
  CLUS_4             4              28
  CLUS_5             1              20
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3
  CEBPA MUTATED        2      0     11
  CEBPA WILD-TYPE     63     35     70
D11V6, multiclass
        clus
vv       CEBPA MUTATED CEBPA WILD-TYPE
  CLUS_1             2              63
  CLUS_2             0              35
  CLUS_3            11              70
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(12) Variable = TP53 MUTATION ANALYSIS
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4
  TP53 MUTATED        0      7      5      3
  TP53 WILD-TYPE     49     35     49     36
D12V1, multiclass
        clus
vv       TP53 MUTATED TP53 WILD-TYPE
  CLUS_1            0             49
  CLUS_2            7             35
  CLUS_3            5             49
  CLUS_4            3             36
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  TP53 MUTATED        0      0     15      0      0
  TP53 WILD-TYPE     22     25     47     37     41
D12V2, multiclass
        clus
vv       TP53 MUTATED TP53 WILD-TYPE
  CLUS_1            0             22
  CLUS_2            0             25
  CLUS_3           15             47
  CLUS_4            0             37
  CLUS_5            0             41
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  TP53 MUTATED       12      1      0
  TP53 WILD-TYPE     62     47     45
D12V3, multiclass
        clus
vv       TP53 MUTATED TP53 WILD-TYPE
  CLUS_1           12             62
  CLUS_2            1             47
  CLUS_3            0             45
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  TP53 MUTATED        0      0      0     12      0      1
  TP53 WILD-TYPE     16     13     15     45     26     39
D12V4, multiclass
        clus
vv       TP53 MUTATED TP53 WILD-TYPE
  CLUS_1            0             16
  CLUS_2            0             13
  CLUS_3            0             15
  CLUS_4           12             45
  CLUS_5            0             26
  CLUS_6            1             39
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  TP53 MUTATED        0      6      0      2      6
  TP53 WILD-TYPE     55     25     42     30     15
D12V5, multiclass
        clus
vv       TP53 MUTATED TP53 WILD-TYPE
  CLUS_1            0             55
  CLUS_2            6             25
  CLUS_3            0             42
  CLUS_4            2             30
  CLUS_5            6             15
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  TP53 MUTATED        0      8      6
  TP53 WILD-TYPE     65     27     75
D12V6, multiclass
        clus
vv       TP53 MUTATED TP53 WILD-TYPE
  CLUS_1            0             65
  CLUS_2            8             27
  CLUS_3            6             75
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(13) Variable = KRAS MUTATION ANALYSIS
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4
  KRAS MUTATED        3      1      2      2
  KRAS WILD-TYPE     46     41     52     37
D13V1, multiclass
        clus
vv       KRAS MUTATED KRAS WILD-TYPE
  CLUS_1            3             46
  CLUS_2            1             41
  CLUS_3            2             52
  CLUS_4            2             37
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  KRAS MUTATED        2      0      2      1      1
  KRAS WILD-TYPE     20     25     60     36     40
D13V2, multiclass
        clus
vv       KRAS MUTATED KRAS WILD-TYPE
  CLUS_1            2             20
  CLUS_2            0             25
  CLUS_3            2             60
  CLUS_4            1             36
  CLUS_5            1             40
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  KRAS MUTATED        4      3      0
  KRAS WILD-TYPE     70     45     45
D13V3, multiclass
        clus
vv       KRAS MUTATED KRAS WILD-TYPE
  CLUS_1            4             70
  CLUS_2            3             45
  CLUS_3            0             45
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  KRAS MUTATED        0      0      0      4      0      3
  KRAS WILD-TYPE     16     13     15     53     26     37
D13V4, multiclass
        clus
vv       KRAS MUTATED KRAS WILD-TYPE
  CLUS_1            0             16
  CLUS_2            0             13
  CLUS_3            0             15
  CLUS_4            4             53
  CLUS_5            0             26
  CLUS_6            3             37
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  KRAS MUTATED        3      3      1      0      0
  KRAS WILD-TYPE     52     28     41     32     21
D13V5, multiclass
        clus
vv       KRAS MUTATED KRAS WILD-TYPE
  CLUS_1            3             52
  CLUS_2            3             28
  CLUS_3            1             41
  CLUS_4            0             32
  CLUS_5            0             21
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  KRAS MUTATED        3      2      2
  KRAS WILD-TYPE     62     33     79
D13V6, multiclass
        clus
vv       KRAS MUTATED KRAS WILD-TYPE
  CLUS_1            3             62
  CLUS_2            2             33
  CLUS_3            2             79
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(14) Variable = PHF6 MUTATION ANALYSIS
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4
  PHF6 MUTATED        1      2      3      0
  PHF6 WILD-TYPE     48     40     51     39
D14V1, multiclass
        clus
vv       PHF6 MUTATED PHF6 WILD-TYPE
  CLUS_1            1             48
  CLUS_2            2             40
  CLUS_3            3             51
  CLUS_4            0             39
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  PHF6 MUTATED        0      1      1      3      1
  PHF6 WILD-TYPE     22     24     61     34     40
D14V2, multiclass
        clus
vv       PHF6 MUTATED PHF6 WILD-TYPE
  CLUS_1            0             22
  CLUS_2            1             24
  CLUS_3            1             61
  CLUS_4            3             34
  CLUS_5            1             40
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  PHF6 MUTATED        2      1      2
  PHF6 WILD-TYPE     72     47     43
D14V3, multiclass
        clus
vv       PHF6 MUTATED PHF6 WILD-TYPE
  CLUS_1            2             72
  CLUS_2            1             47
  CLUS_3            2             43
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  PHF6 MUTATED        0      0      0      4      1      0
  PHF6 WILD-TYPE     16     13     15     53     25     40
D14V4, multiclass
        clus
vv       PHF6 MUTATED PHF6 WILD-TYPE
  CLUS_1            0             16
  CLUS_2            0             13
  CLUS_3            0             15
  CLUS_4            4             53
  CLUS_5            1             25
  CLUS_6            0             40
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  PHF6 MUTATED        2      0      1      1      1
  PHF6 WILD-TYPE     53     31     41     31     20
D14V5, multiclass
        clus
vv       PHF6 MUTATED PHF6 WILD-TYPE
  CLUS_1            2             53
  CLUS_2            0             31
  CLUS_3            1             41
  CLUS_4            1             31
  CLUS_5            1             20
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  PHF6 MUTATED        1      0      4
  PHF6 WILD-TYPE     64     35     77
D14V6, multiclass
        clus
vv       PHF6 MUTATED PHF6 WILD-TYPE
  CLUS_1            1             64
  CLUS_2            0             35
  CLUS_3            4             77
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(15) Variable = STAG2 MUTATION ANALYSIS
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4
  STAG2 MUTATED        2      1      2      1
  STAG2 WILD-TYPE     47     41     52     38
D15V1, multiclass
        clus
vv       STAG2 MUTATED STAG2 WILD-TYPE
  CLUS_1             2              47
  CLUS_2             1              41
  CLUS_3             2              52
  CLUS_4             1              38
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  STAG2 MUTATED        0      0      2      0      3
  STAG2 WILD-TYPE     22     25     60     37     38
D15V2, multiclass
        clus
vv       STAG2 MUTATED STAG2 WILD-TYPE
  CLUS_1             0              22
  CLUS_2             0              25
  CLUS_3             2              60
  CLUS_4             0              37
  CLUS_5             3              38
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3
  STAG2 MUTATED        2      0      3
  STAG2 WILD-TYPE     72     48     42
D15V3, multiclass
        clus
vv       STAG2 MUTATED STAG2 WILD-TYPE
  CLUS_1             2              72
  CLUS_2             0              48
  CLUS_3             3              42
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  STAG2 MUTATED        0      0      0      1      4      0
  STAG2 WILD-TYPE     16     13     15     56     22     40
D15V4, multiclass
        clus
vv       STAG2 MUTATED STAG2 WILD-TYPE
  CLUS_1             0              16
  CLUS_2             0              13
  CLUS_3             0              15
  CLUS_4             1              56
  CLUS_5             4              22
  CLUS_6             0              40
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  STAG2 MUTATED        0      1      2      0      2
  STAG2 WILD-TYPE     55     30     40     32     19
D15V5, multiclass
        clus
vv       STAG2 MUTATED STAG2 WILD-TYPE
  CLUS_1             0              55
  CLUS_2             1              30
  CLUS_3             2              40
  CLUS_4             0              32
  CLUS_5             2              19
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3
  STAG2 MUTATED        4      1      0
  STAG2 WILD-TYPE     61     34     81
D15V6, multiclass
        clus
vv       STAG2 MUTATED STAG2 WILD-TYPE
  CLUS_1             4              61
  CLUS_2             1              34
  CLUS_3             0              81
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(16) Variable = KIT MUTATION ANALYSIS
               vv
clus            CLUS_1 CLUS_2 CLUS_3 CLUS_4
  KIT MUTATED        1      1      3      2
  KIT WILD-TYPE     48     41     51     37
D16V1, multiclass
        clus
vv       KIT MUTATED KIT WILD-TYPE
  CLUS_1           1            48
  CLUS_2           1            41
  CLUS_3           3            51
  CLUS_4           2            37
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
               vv
clus            CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  KIT MUTATED        1      0      1      6      0
  KIT WILD-TYPE     21     25     61     31     41
D16V2, multiclass
        clus
vv       KIT MUTATED KIT WILD-TYPE
  CLUS_1           1            21
  CLUS_2           0            25
  CLUS_3           1            61
  CLUS_4           6            31
  CLUS_5           0            41
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
               vv
clus            CLUS_1 CLUS_2 CLUS_3
  KIT MUTATED        4      3      0
  KIT WILD-TYPE     70     45     45
D16V3, multiclass
        clus
vv       KIT MUTATED KIT WILD-TYPE
  CLUS_1           4            70
  CLUS_2           3            45
  CLUS_3           0            45
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
               vv
clus            CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  KIT MUTATED        0      3      2      2      0      0
  KIT WILD-TYPE     16     10     13     55     26     40
D16V4, multiclass
        clus
vv       KIT MUTATED KIT WILD-TYPE
  CLUS_1           0            16
  CLUS_2           3            10
  CLUS_3           2            13
  CLUS_4           2            55
  CLUS_5           0            26
  CLUS_6           0            40
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
               vv
clus            CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  KIT MUTATED        1      2      3      1      1
  KIT WILD-TYPE     54     29     39     31     20
D16V5, multiclass
        clus
vv       KIT MUTATED KIT WILD-TYPE
  CLUS_1           1            54
  CLUS_2           2            29
  CLUS_3           3            39
  CLUS_4           1            31
  CLUS_5           1            20
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
               vv
clus            CLUS_1 CLUS_2 CLUS_3
  KIT MUTATED        1      3      4
  KIT WILD-TYPE     64     32     77
D16V6, multiclass
        clus
vv       KIT MUTATED KIT WILD-TYPE
  CLUS_1           1            64
  CLUS_2           3            32
  CLUS_3           4            77
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(17) Variable = RAD21 MUTATION ANALYSIS
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4
  RAD21 MUTATED        2      1      1      1
  RAD21 WILD-TYPE     47     41     53     38
D17V1, multiclass
        clus
vv       RAD21 MUTATED RAD21 WILD-TYPE
  CLUS_1             2              47
  CLUS_2             1              41
  CLUS_3             1              53
  CLUS_4             1              38
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  RAD21 MUTATED        0      0      1      1      3
  RAD21 WILD-TYPE     22     25     61     36     38
D17V2, multiclass
        clus
vv       RAD21 MUTATED RAD21 WILD-TYPE
  CLUS_1             0              22
  CLUS_2             0              25
  CLUS_3             1              61
  CLUS_4             1              36
  CLUS_5             3              38
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3
  RAD21 MUTATED        1      2      2
  RAD21 WILD-TYPE     73     46     43
D17V3, multiclass
        clus
vv       RAD21 MUTATED RAD21 WILD-TYPE
  CLUS_1             1              73
  CLUS_2             2              46
  CLUS_3             2              43
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  RAD21 MUTATED        0      0      1      0      2      2
  RAD21 WILD-TYPE     16     13     14     57     24     38
D17V4, multiclass
        clus
vv       RAD21 MUTATED RAD21 WILD-TYPE
  CLUS_1             0              16
  CLUS_2             0              13
  CLUS_3             1              14
  CLUS_4             0              57
  CLUS_5             2              24
  CLUS_6             2              38
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  RAD21 MUTATED        2      0      3      0      0
  RAD21 WILD-TYPE     53     31     39     32     21
D17V5, multiclass
        clus
vv       RAD21 MUTATED RAD21 WILD-TYPE
  CLUS_1             2              53
  CLUS_2             0              31
  CLUS_3             3              39
  CLUS_4             0              32
  CLUS_5             0              21
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3
  RAD21 MUTATED        3      0      2
  RAD21 WILD-TYPE     62     35     79
D17V6, multiclass
        clus
vv       RAD21 MUTATED RAD21 WILD-TYPE
  CLUS_1             3              62
  CLUS_2             0              35
  CLUS_3             2              79
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(18) Variable = EZH2 MUTATION ANALYSIS
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4
  EZH2 MUTATED        0      1      0      2
  EZH2 WILD-TYPE     49     41     54     37
D18V1, multiclass
        clus
vv       EZH2 MUTATED EZH2 WILD-TYPE
  CLUS_1            0             49
  CLUS_2            1             41
  CLUS_3            0             54
  CLUS_4            2             37
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  EZH2 MUTATED        0      0      2      0      0
  EZH2 WILD-TYPE     22     25     60     37     41
D18V2, multiclass
[1] "Remove cluster labels:" "EZH2 MUTATED"          
clus
  EZH2 MUTATED EZH2 WILD-TYPE 
             2            185 
    TCGA-AB-2802     TCGA-AB-2803     TCGA-AB-2804     TCGA-AB-2805 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2806     TCGA-AB-2807     TCGA-AB-2808     TCGA-AB-2809 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2810     TCGA-AB-2812     TCGA-AB-2813     TCGA-AB-2814 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2816     TCGA-AB-2818     TCGA-AB-2819     TCGA-AB-2820 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2821     TCGA-AB-2822     TCGA-AB-2823     TCGA-AB-2824 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2825     TCGA-AB-2826     TCGA-AB-2827     TCGA-AB-2828 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2829     TCGA-AB-2830     TCGA-AB-2831     TCGA-AB-2832 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2833     TCGA-AB-2834     TCGA-AB-2835     TCGA-AB-2836 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2838     TCGA-AB-2839     TCGA-AB-2840     TCGA-AB-2841 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2842     TCGA-AB-2843     TCGA-AB-2844     TCGA-AB-2845 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2846     TCGA-AB-2847     TCGA-AB-2848     TCGA-AB-2849 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2851     TCGA-AB-2853     TCGA-AB-2854     TCGA-AB-2855 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2857     TCGA-AB-2858     TCGA-AB-2860     TCGA-AB-2861 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2862     TCGA-AB-2863     TCGA-AB-2866     TCGA-AB-2867 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2868     TCGA-AB-2869     TCGA-AB-2870     TCGA-AB-2871 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2872     TCGA-AB-2873     TCGA-AB-2874     TCGA-AB-2875 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2876     TCGA-AB-2877     TCGA-AB-2878     TCGA-AB-2879 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2880     TCGA-AB-2881     TCGA-AB-2882     TCGA-AB-2883 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2884     TCGA-AB-2885     TCGA-AB-2886     TCGA-AB-2888 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2889     TCGA-AB-2890     TCGA-AB-2891     TCGA-AB-2892 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2894     TCGA-AB-2895     TCGA-AB-2896     TCGA-AB-2897 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2898     TCGA-AB-2899     TCGA-AB-2900     TCGA-AB-2901 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2903     TCGA-AB-2904     TCGA-AB-2906     TCGA-AB-2907 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2908     TCGA-AB-2909     TCGA-AB-2910     TCGA-AB-2911 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2912     TCGA-AB-2913     TCGA-AB-2914     TCGA-AB-2915 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2916     TCGA-AB-2917     TCGA-AB-2918     TCGA-AB-2919 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2920     TCGA-AB-2921     TCGA-AB-2922     TCGA-AB-2923 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2924     TCGA-AB-2925     TCGA-AB-2926     TCGA-AB-2927 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2928     TCGA-AB-2929     TCGA-AB-2930     TCGA-AB-2931 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2932     TCGA-AB-2933     TCGA-AB-2934     TCGA-AB-2935 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2936     TCGA-AB-2937     TCGA-AB-2938     TCGA-AB-2939 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2940     TCGA-AB-2941     TCGA-AB-2942     TCGA-AB-2943 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2945     TCGA-AB-2946     TCGA-AB-2947     TCGA-AB-2948 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2949     TCGA-AB-2950     TCGA-AB-2952     TCGA-AB-2954 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2955     TCGA-AB-2956     TCGA-AB-2957     TCGA-AB-2959 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2963     TCGA-AB-2964     TCGA-AB-2965     TCGA-AB-2966 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2967     TCGA-AB-2968     TCGA-AB-2970     TCGA-AB-2971 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2972     TCGA-AB-2973     TCGA-AB-2974     TCGA-AB-2975 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2976     TCGA-AB-2977     TCGA-AB-2978     TCGA-AB-2979 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2980     TCGA-AB-2981     TCGA-AB-2982     TCGA-AB-2983 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2984     TCGA-AB-2985     TCGA-AB-2986     TCGA-AB-2987 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2988     TCGA-AB-2989     TCGA-AB-2990     TCGA-AB-2991 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2992     TCGA-AB-2993     TCGA-AB-2995     TCGA-AB-2996 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-2997     TCGA-AB-2998     TCGA-AB-2999     TCGA-AB-3000 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-3001     TCGA-AB-3002     TCGA-AB-3005     TCGA-AB-3006 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-3007     TCGA-AB-3008     TCGA-AB-3009     TCGA-AB-3011 
"EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" "EZH2 WILD-TYPE" 
    TCGA-AB-3012 
"EZH2 WILD-TYPE" 
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  EZH2 MUTATED        3      0      0
  EZH2 WILD-TYPE     71     48     45
D18V3, multiclass
        clus
vv       EZH2 MUTATED EZH2 WILD-TYPE
  CLUS_1            3             71
  CLUS_2            0             48
  CLUS_3            0             45
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  EZH2 MUTATED        0      0      0      3      0      0
  EZH2 WILD-TYPE     16     13     15     54     26     40
D18V4, multiclass
        clus
vv       EZH2 MUTATED EZH2 WILD-TYPE
  CLUS_1            0             16
  CLUS_2            0             13
  CLUS_3            0             15
  CLUS_4            3             54
  CLUS_5            0             26
  CLUS_6            0             40
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  EZH2 MUTATED        0      1      0      1      1
  EZH2 WILD-TYPE     55     30     42     31     20
D18V5, multiclass
        clus
vv       EZH2 MUTATED EZH2 WILD-TYPE
  CLUS_1            0             55
  CLUS_2            1             30
  CLUS_3            0             42
  CLUS_4            1             31
  CLUS_5            1             20
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  EZH2 MUTATED        0      1      2
  EZH2 WILD-TYPE     65     34     79
D18V6, multiclass
        clus
vv       EZH2 MUTATED EZH2 WILD-TYPE
  CLUS_1            0             65
  CLUS_2            1             34
  CLUS_3            2             79
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(19) Variable = SMC3 MUTATION ANALYSIS
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4
  SMC3 MUTATED        3      1      2      1
  SMC3 WILD-TYPE     46     41     52     38
D19V1, multiclass
        clus
vv       SMC3 MUTATED SMC3 WILD-TYPE
  CLUS_1            3             46
  CLUS_2            1             41
  CLUS_3            2             52
  CLUS_4            1             38
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  SMC3 MUTATED        1      0      1      2      3
  SMC3 WILD-TYPE     21     25     61     35     38
D19V2, multiclass
        clus
vv       SMC3 MUTATED SMC3 WILD-TYPE
  CLUS_1            1             21
  CLUS_2            0             25
  CLUS_3            1             61
  CLUS_4            2             35
  CLUS_5            3             38
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  SMC3 MUTATED        2      2      3
  SMC3 WILD-TYPE     72     46     42
D19V3, multiclass
        clus
vv       SMC3 MUTATED SMC3 WILD-TYPE
  CLUS_1            2             72
  CLUS_2            2             46
  CLUS_3            3             42
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  SMC3 MUTATED        0      0      1      2      3      1
  SMC3 WILD-TYPE     16     13     14     55     23     39
D19V4, multiclass
        clus
vv       SMC3 MUTATED SMC3 WILD-TYPE
  CLUS_1            0             16
  CLUS_2            0             13
  CLUS_3            1             14
  CLUS_4            2             55
  CLUS_5            3             23
  CLUS_6            1             39
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  SMC3 MUTATED        2      0      2      2      1
  SMC3 WILD-TYPE     53     31     40     30     20
D19V5, multiclass
        clus
vv       SMC3 MUTATED SMC3 WILD-TYPE
  CLUS_1            2             53
  CLUS_2            0             31
  CLUS_3            2             40
  CLUS_4            2             30
  CLUS_5            1             20
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                vv
clus             CLUS_1 CLUS_2 CLUS_3
  SMC3 MUTATED        4      0      3
  SMC3 WILD-TYPE     61     35     78
D19V6, multiclass
        clus
vv       SMC3 MUTATED SMC3 WILD-TYPE
  CLUS_1            4             61
  CLUS_2            0             35
  CLUS_3            3             78
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(20) Variable = ASXL1 MUTATION ANALYSIS
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4
  ASXL1 MUTATED        2      0      2      1
  ASXL1 WILD-TYPE     47     42     52     38
D20V1, multiclass
        clus
vv       ASXL1 MUTATED ASXL1 WILD-TYPE
  CLUS_1             2              47
  CLUS_2             0              42
  CLUS_3             2              52
  CLUS_4             1              38
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  ASXL1 MUTATED        0      0      4      0      0
  ASXL1 WILD-TYPE     22     25     58     37     41
D20V2, multiclass
        clus
vv       ASXL1 MUTATED ASXL1 WILD-TYPE
  CLUS_1             0              22
  CLUS_2             0              25
  CLUS_3             4              58
  CLUS_4             0              37
  CLUS_5             0              41
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3
  ASXL1 MUTATED        3      0      0
  ASXL1 WILD-TYPE     71     48     45
D20V3, multiclass
        clus
vv       ASXL1 MUTATED ASXL1 WILD-TYPE
  CLUS_1             3              71
  CLUS_2             0              48
  CLUS_3             0              45
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  ASXL1 MUTATED        0      0      0      3      0      0
  ASXL1 WILD-TYPE     16     13     15     54     26     40
D20V4, multiclass
        clus
vv       ASXL1 MUTATED ASXL1 WILD-TYPE
  CLUS_1             0              16
  CLUS_2             0              13
  CLUS_3             0              15
  CLUS_4             3              54
  CLUS_5             0              26
  CLUS_6             0              40
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  ASXL1 MUTATED        0      1      0      2      0
  ASXL1 WILD-TYPE     55     30     42     30     21
D20V5, multiclass
        clus
vv       ASXL1 MUTATED ASXL1 WILD-TYPE
  CLUS_1             0              55
  CLUS_2             1              30
  CLUS_3             0              42
  CLUS_4             2              30
  CLUS_5             0              21
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3
  ASXL1 MUTATED        0      1      2
  ASXL1 WILD-TYPE     65     34     79
D20V6, multiclass
        clus
vv       ASXL1 MUTATED ASXL1 WILD-TYPE
  CLUS_1             0              65
  CLUS_2             1              34
  CLUS_3             2              79
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(21) Variable = SMC1A MUTATION ANALYSIS
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4
  SMC1A MUTATED        2      2      1      1
  SMC1A WILD-TYPE     47     40     53     38
D21V1, multiclass
        clus
vv       SMC1A MUTATED SMC1A WILD-TYPE
  CLUS_1             2              47
  CLUS_2             2              40
  CLUS_3             1              53
  CLUS_4             1              38
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  SMC1A MUTATED        0      1      0      1      4
  SMC1A WILD-TYPE     22     24     62     36     37
D21V2, multiclass
        clus
vv       SMC1A MUTATED SMC1A WILD-TYPE
  CLUS_1             0              22
  CLUS_2             1              24
  CLUS_3             0              62
  CLUS_4             1              36
  CLUS_5             4              37
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3
  SMC1A MUTATED        2      3      1
  SMC1A WILD-TYPE     72     45     44
D21V3, multiclass
        clus
vv       SMC1A MUTATED SMC1A WILD-TYPE
  CLUS_1             2              72
  CLUS_2             3              45
  CLUS_3             1              44
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  SMC1A MUTATED        0      0      1      1      0      4
  SMC1A WILD-TYPE     16     13     14     56     26     36
D21V4, multiclass
        clus
vv       SMC1A MUTATED SMC1A WILD-TYPE
  CLUS_1             0              16
  CLUS_2             0              13
  CLUS_3             1              14
  CLUS_4             1              56
  CLUS_5             0              26
  CLUS_6             4              36
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  SMC1A MUTATED        3      0      3      0      0
  SMC1A WILD-TYPE     52     31     39     32     21
D21V5, multiclass
        clus
vv       SMC1A MUTATED SMC1A WILD-TYPE
  CLUS_1             3              52
  CLUS_2             0              31
  CLUS_3             3              39
  CLUS_4             0              32
  CLUS_5             0              21
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3
  SMC1A MUTATED        3      0      3
  SMC1A WILD-TYPE     62     35     78
D21V6, multiclass
        clus
vv       SMC1A MUTATED SMC1A WILD-TYPE
  CLUS_1             3              62
  CLUS_2             0              35
  CLUS_3             3              78
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(22) Variable = PTPN11 MUTATION ANALYSIS
                  vv
clus               CLUS_1 CLUS_2 CLUS_3 CLUS_4
  PTPN11 MUTATED        3      4      1      0
  PTPN11 WILD-TYPE     46     38     53     39
D22V1, multiclass
        clus
vv       PTPN11 MUTATED PTPN11 WILD-TYPE
  CLUS_1              3               46
  CLUS_2              4               38
  CLUS_3              1               53
  CLUS_4              0               39
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                  vv
clus               CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  PTPN11 MUTATED        2      0      1      2      4
  PTPN11 WILD-TYPE     20     25     61     35     37
D22V2, multiclass
        clus
vv       PTPN11 MUTATED PTPN11 WILD-TYPE
  CLUS_1              2               20
  CLUS_2              0               25
  CLUS_3              1               61
  CLUS_4              2               35
  CLUS_5              4               37
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                  vv
clus               CLUS_1 CLUS_2 CLUS_3
  PTPN11 MUTATED        1      2      5
  PTPN11 WILD-TYPE     73     46     40
D22V3, multiclass
        clus
vv       PTPN11 MUTATED PTPN11 WILD-TYPE
  CLUS_1              1               73
  CLUS_2              2               46
  CLUS_3              5               40
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                  vv
clus               CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  PTPN11 MUTATED        0      1      0      2      3      2
  PTPN11 WILD-TYPE     16     12     15     55     23     38
D22V4, multiclass
        clus
vv       PTPN11 MUTATED PTPN11 WILD-TYPE
  CLUS_1              0               16
  CLUS_2              1               12
  CLUS_3              0               15
  CLUS_4              2               55
  CLUS_5              3               23
  CLUS_6              2               38
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                  vv
clus               CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  PTPN11 MUTATED        4      1      2      0      2
  PTPN11 WILD-TYPE     51     30     40     32     19
D22V5, multiclass
        clus
vv       PTPN11 MUTATED PTPN11 WILD-TYPE
  CLUS_1              4               51
  CLUS_2              1               30
  CLUS_3              2               40
  CLUS_4              0               32
  CLUS_5              2               19
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                  vv
clus               CLUS_1 CLUS_2 CLUS_3
  PTPN11 MUTATED        6      1      2
  PTPN11 WILD-TYPE     59     34     79
D22V6, multiclass
        clus
vv       PTPN11 MUTATED PTPN11 WILD-TYPE
  CLUS_1              6               59
  CLUS_2              1               34
  CLUS_3              2               79
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"

Clustering(23) Variable = SUZ12 MUTATION ANALYSIS
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4
  SUZ12 MUTATED        0      1      1      1
  SUZ12 WILD-TYPE     49     41     53     38
D23V1, multiclass
        clus
vv       SUZ12 MUTATED SUZ12 WILD-TYPE
  CLUS_1             0              49
  CLUS_2             1              41
  CLUS_3             1              53
  CLUS_4             1              38
[1] 4 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  SUZ12 MUTATED        0      0      2      1      0
  SUZ12 WILD-TYPE     22     25     60     36     41
D23V2, multiclass
        clus
vv       SUZ12 MUTATED SUZ12 WILD-TYPE
  CLUS_1             0              22
  CLUS_2             0              25
  CLUS_3             2              60
  CLUS_4             1              36
  CLUS_5             0              41
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3
  SUZ12 MUTATED        3      0      0
  SUZ12 WILD-TYPE     71     48     45
D23V3, multiclass
        clus
vv       SUZ12 MUTATED SUZ12 WILD-TYPE
  CLUS_1             3              71
  CLUS_2             0              48
  CLUS_3             0              45
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5 CLUS_6
  SUZ12 MUTATED        0      0      0      3      0      0
  SUZ12 WILD-TYPE     16     13     15     54     26     40
D23V4, multiclass
        clus
vv       SUZ12 MUTATED SUZ12 WILD-TYPE
  CLUS_1             0              16
  CLUS_2             0              13
  CLUS_3             0              15
  CLUS_4             3              54
  CLUS_5             0              26
  CLUS_6             0              40
[1] 6 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3 CLUS_4 CLUS_5
  SUZ12 MUTATED        0      1      1      0      1
  SUZ12 WILD-TYPE     55     30     41     32     20
D23V5, multiclass
        clus
vv       SUZ12 MUTATED SUZ12 WILD-TYPE
  CLUS_1             0              55
  CLUS_2             1              30
  CLUS_3             1              41
  CLUS_4             0              32
  CLUS_5             1              20
[1] 5 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
                 vv
clus              CLUS_1 CLUS_2 CLUS_3
  SUZ12 MUTATED        0      2      1
  SUZ12 WILD-TYPE     65     33     80
D23V6, multiclass
        clus
vv       SUZ12 MUTATED SUZ12 WILD-TYPE
  CLUS_1             0              65
  CLUS_2             2              33
  CLUS_3             1              80
[1] 3 2
[1] TRUE
[1] "dimension of contingency table is larger than 2 by 2 --- so will do fisher test with simulate.p.value=TRUE"
