Mercurial > repos > vipints > rdiff
view rDiff/src/tests/rDiff_parametric.m @ 1:08d3a6143873
Deleted selected files
author | vipints |
---|---|
date | Tue, 08 Oct 2013 06:54:25 -0400 |
parents | 0f80a5141704 |
children |
line wrap: on
line source
function [P_VALUE, RET_STRUCT]= rDiff_parametric(CFG,gene,Counts_rDiff_parametric,Gene_expression,variance_function_parametric_1, variance_function_parametric_2) % Calculates the p-Values of a negative binomial test on each % alternative regions and combines the p-values using Bonferroni's correction %Initialize gene.name NR_OF_TRANS=size(gene.transcripts,2); if NR_OF_TRANS<=1 RET_STRUCT='NR_OF_TRANS too small'; P_VALUE=1; return end %get the samples that are expressed (have more than 10 reads) TEMP_SAMPLE1=and(CFG.SAMPLES==1,Gene_expression>=10); TEMP_SAMPLE2=and(CFG.SAMPLES==2,Gene_expression>=10); SAMPLE1=find(TEMP_SAMPLE1); SAMPLE2=find(TEMP_SAMPLE2); %Check wether Counts_rDiff_parametric is nonempty for j=1:length(TEMP_SAMPLE1) TEMP_SAMPLE1(j)=and(not(isempty(Counts_rDiff_parametric{j})),TEMP_SAMPLE1(j)); end for j=1:length(TEMP_SAMPLE2) TEMP_SAMPLE2(j)=and(not(isempty(Counts_rDiff_parametric{j})),TEMP_SAMPLE2(j)); end SAMPLE1=find(TEMP_SAMPLE1); SAMPLE2=find(TEMP_SAMPLE2); SAMPLE_LENGTH1=length(SAMPLE1); SAMPLE_LENGTH2=length(SAMPLE2); if min(SAMPLE_LENGTH1,SAMPLE_LENGTH2)==0 RET_STRUCT='SAMPLE_LENGTH too small'; P_VALUE=1; return end % Get the region counts region_counts_1=zeros(SAMPLE_LENGTH1,length(Counts_rDiff_parametric{1,1})); for j=1:SAMPLE_LENGTH1 region_counts_1(j,:)=Counts_rDiff_parametric{1,SAMPLE1(j)}; end region_counts_2=zeros(SAMPLE_LENGTH2,length(Counts_rDiff_parametric{1,1})); for j=1:SAMPLE_LENGTH2 region_counts_2(j,:)=Counts_rDiff_parametric{1,SAMPLE2(j)}; end % Get the gene expression gene_expression_1=Gene_expression(SAMPLE1); gene_expression_2=Gene_expression(SAMPLE2); % compute the expected mean and the variance under the null % hypothesis [EXPECTED_MEAN,EXPECTED_VARIANCE]=get_mean_variance_seg(gene_expression_1,gene_expression_2,region_counts_1,region_counts_2,variance_function_parametric_1, variance_function_parametric_2); %compute the p-values OBSERVED_COUNTS=round([mean(region_counts_1,1);mean(region_counts_2,1)]); P_LIST=ones(1,size(EXPECTED_MEAN,2)); %Iterate over the regions SKIPPED_TESTS=0; for i=1:length(P_LIST) if sum(OBSERVED_COUNTS(:,i))==0 SKIPPED_TESTS=SKIPPED_TESTS+1; continue end [P_VALUE,FL]=comp_nbin_p_value_mean_variance(EXPECTED_MEAN(1,i),EXPECTED_MEAN(2,i),EXPECTED_VARIANCE(1,i),EXPECTED_VARIANCE(2,i),OBSERVED_COUNTS(1,i),OBSERVED_COUNTS(2,i)); P_LIST(i)=P_VALUE; end if length(P_LIST)-SKIPPED_TESTS<=0 P_VALUE=1; else P_VALUE=min(P_LIST)*(length(P_LIST)-SKIPPED_TESTS); end RET_STRUCT={}; return