Mercurial > repos > vipints > rdiff
view rDiff/src/rdiff_caller.m @ 1:08d3a6143873
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author | vipints |
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date | Tue, 08 Oct 2013 06:54:25 -0400 |
parents | 0f80a5141704 |
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function STAT = rDiff_caller(PAR) % genes = opt_transcripts_caller(PAR) % % -- input -- % PAR contains % CFG: configuration struct % genes: struct defining genes with start, stops, exons etc. % profile_weights: weights of profile functions % intron_dists: distances to closest intron % % -- output -- % genes: struct with additional fields of eg. estimated transcript weights addpath ../../tests addpath ../../variance/final addpath ../../experimental samtools='/fml/ag-raetsch/home/drewe/svn/projects/RNASeq/difftest/samtools/'; CFG = PAR.CFG; SUFF_NAME=CFG.SUFF_NAME; %load(CFG.genes_path , 'genes'); %[genes]=mask_dubl(genes,0); load(CFG.genes_path , 'genes'); [genes]=mask_dubl(genes,0); %[genes]=remove_transcripts(genes); genes=genes(PAR.genes_idx); BAM_FILES=CFG.BAM_FILES; JB_NR=CFG.JB_NR; %clear PAR; %%%% paths addpath(CFG.paths); addpath('/fml/ag-raetsch/home/drewe/svn/projects/RNASeq/difftest/variance/nbin'); addpath('/fml/ag-raetsch/home/drewe/svn/projects/RNASeq/difftest/experiments/'); addpath('/fml/ag-raetsch/home/drewe/svn/projects/RNASeq/difftest/tests/'); addpath('/fml/ag-raetsch/home/drewe/svn/projects/RNASeq/difftest/read_utils/'); addpath('/fml/ag-raetsch/home/drewe/svn/projects/RNASeq/difftest/tests/sequence_tools/'); addpath(genpath('/fml/ag-raetsch/home/drewe/svn/tools/chronux/')) addpath('/fml/ag-raetsch/home/drewe/svn/projects/RNASeq/difftest/tests/functions/'); out_base=CFG.out_base; %sim_data_base=CFG.sim_data_base; real_data_base=CFG.real_data_base; expr12_bam=CFG.expr12_bam; expr11_bam=CFG.expr11_bam; expr22_bam=CFG.expr22_bam; expr21_bam=CFG.expr21_bam; CFG.SEQUENCED_LENGTH=80; SEQUENCED_LENGTH=80; %make map: gene->file IDX1=CFG.IDX11; IDX2=CFG.IDX22; %BAM_FILES{IDX1} %BAM_FILES{IDX2} %genes=PAR.genes; clear PAR STAT=cell(size(genes)); do_save = 0; out_base = '/fml/ag-raetsch/home/drewe/svn/projects/RNASeq/difftest/out'; save_dir=fullfile(out_base,'cache'); for i=1:size(genes,2) %try RESULT=cell(1,7) gene = genes(i); RESULT{7}=JB_NR; RESULT{1}=gene.name load_only = false; if or(isempty(gene.exons),gene.stop-gene.start<=SEQUENCED_LENGTH) PV=1; RESULT{2}={PV,''}; RESULT{3}={PV,''}; RESULT{4}={PV,''}; RESULT{5}=[Inf,Inf]; RESULT{6}=[Inf,Inf]; RESULT{7}={'empty gene exons'}; RESULT{8}={PV,''}; continue; end PV1=1; for l=1:size(gene.transcripts,2) EXONS=gene.exons{l} if sum(EXONS(:,2)-EXONS(:,1))<=SEQUENCED_LENGTH PV=1; RESULT{2}={PV,''}; RESULT{3}={PV,''}; RESULT{4}={PV,''}; RESULT{5}=[Inf,Inf]; RESULT{6}=[Inf,Inf]; RESULT{7}={'empty gene exons'}; RESULT{8}={PV,''}; PV1=2; continue; end end if PV1==2 continue; end gene.name %adjust start and stop positions on the negative strand if strcmp(gene.strand,'-') gene.start=gene.start+1; gene.stop=gene.stop+1; [reads11,reads12,intron11,intron12] = get_reads_dual2_intron(expr11_bam,expr12_bam,gene,samtools,false,10); [reads11,FLAG]=remove_reads_from_other_genes(reads11,gene); [reads12,FLAG]=remove_reads_from_other_genes(reads12,gene); [reads21,reads22,intron21,intron22] = get_reads_dual2_intron(expr21_bam,expr22_bam,gene,samtools,false,10); [reads21,FLAG]=remove_reads_from_other_genes(reads21,gene); [reads22,FLAG]=remove_reads_from_other_genes(reads22,gene); gene.start=gene.start-1; gene.stop=gene.stop-1; else [reads11,reads12,intron11,intron12] = get_reads_dual2_intron(expr11_bam,expr12_bam,gene,samtools,false,10); [reads11,FLAG]=remove_reads_from_other_genes(reads11,gene); [reads12,FLAG]=remove_reads_from_other_genes(reads12,gene); [reads21,reads22,intron21,intron22] = get_reads_dual2_intron(expr21_bam,expr22_bam,gene,samtools,false,10); [reads21,FLAG]=remove_reads_from_other_genes(reads21,gene); [reads22,FLAG]=remove_reads_from_other_genes(reads22,gene); end reads11=reads11(sum(reads11,2)>70,:); reads12=reads12(sum(reads12,2)>70,:); reads21=reads21(sum(reads21,2)>70,:); reads22=reads22(sum(reads22,2)>70,:); %% TEST with read cliping READS1={reads11,reads12}; READS2={reads21,reads22}; reads1=[reads11;reads12]; reads2=[reads21;reads22]; TOTAL_SIZE=(size(reads12,1)+size(reads12,1)+(size(reads21,1)+size(reads22,1))); MIN_SIZE=min(size(reads12,1)+size(reads12,1),(size(reads21,1)+size(reads22,1))); %keyboard CLIP=0; if 1==0 if (size(reads1,1)>0) for i=1:size(reads1,1) reads1(i,find(reads1(i,:),2,'first'))=0; end for i=1:size(reads1,1) reads1(i,find(reads1(i,:),2,'last'))=0; end end if (size(reads2,1)>0) for i=1:size(reads2,1) reads2(i,find(reads2(i,:),2,'first'))=0; end for i=1:size(reads2,1) reads2(i,find(reads2(i,:),2,'last'))=0; end end CLIP=4; end % keybloard %% END TEST COUNTER=3; FLAG=0; for k=1:size(gene.transcripts,2) if sum(gene.exons{k}(:,2)-gene.exons{k}(:,1))<75 FLAG=1; end end if FLAG==1 RESULT{2}={'gene shorter than 75 bp'}; STAT{i}=RESULT; continue end if 1==0 for V_COUNTER=2%:length(CFG.VARIANCES1) if (TOTAL_SIZE>0) if(MIN_SIZE>0) PV=1; INFO=''; [PV,INFO] =diff_mmd([reads11;reads12],[reads21;reads22],gene); PV RESULT{COUNTER}={PV,INFO}; COUNTER=COUNTER+1; else PV=1; RESULT{COUNTER}={PV,2}; COUNTER=COUNTER+1; end else PV=1; RESULT{COUNTER}={PV,1}; COUNTER=COUNTER+1; end end end % keyboard VAR_FACT=1; COV_POS=1; REWEIGHT=0; if 1==1 for V_COUNTER=2%:length(CFG.VARIANCES1) if (TOTAL_SIZE>0) if(MIN_SIZE>0) cen_ARR=0.1:0.1:1; REWEIGHT_WEIGHTS=zeros(length( cen_ARR),size(reads1,2)); cen_count=1; for censor_frac= cen_ARR %if strcmp(gene.name,'AT1G01073') % keyboard %end censor_frac temp_reads1=reads1; temp_reads2=reads2; %cut to relevant positions COVERAGE=sum(temp_reads1,1)+sum(temp_reads2,1); NONZERO=COVERAGE>0; SORTED_COVERAGES=sort(COVERAGE(NONZERO)); NR_OF_NONZERO=sum(NONZERO); CHOSEN_POSITIONS=COVERAGE<=SORTED_COVERAGES(ceil(NR_OF_NONZERO*censor_frac)); REWEIGHT_WEIGHTS(cen_count,CHOSEN_POSITIONS)=1; cen_count=cen_count+1; %temp_reads1=temp_reads1(:,CHOSEN_POSITIONS); %temp_reads2=temp_reads2(:,CHOSEN_POSITIONS); %remove reads which have no coverage; %temp_reads1=temp_reads1(sum(temp_reads1,2)>0,:); %temp_reads2=temp_reads2(sum(temp_reads2,2)>0,:); %SIZE1=size(temp_reads1,1); %SIZE2=size(temp_reads2,1); %MIN_SIZE=min(SIZE1,SIZE2); %TOTAL_SIZE=SIZE1+SIZE2; end if (TOTAL_SIZE>0) if(MIN_SIZE>0) PV=1; INFO=''; REWEIGHT=1; [PV,INFO] =diff_mmd_variance_subsample3({reads11,reads12},{reads21,reads22},gene,CFG.VARIANCES1{V_COUNTER},CFG.VARIANCES2{V_COUNTER},1,1,REWEIGHT, REWEIGHT_WEIGHTS) RESULT{COUNTER}={PV,INFO}; COUNTER=COUNTER+1; else PV=1; RESULT{COUNTER}={PV,2}; COUNTER=COUNTER+1; end else PV=1; RESULT{COUNTER}={PV,1}; COUNTER=COUNTER+1; end end end end end if 1==0 VAR_FACT=1; COV_POS=1; REWEIGHT=0; for V_COUNTER=2%:length(CFG.VARIANCES1) for cov_fact_ix=1:length(COV_POS) if (TOTAL_SIZE>0) if(MIN_SIZE>0) PV=1; INFO=''; [PV,INFO] =diff_mmd_variance_subsample2({reads11,reads12},{reads21,reads22},gene,CFG.VARIANCES1{V_COUNTER},CFG.VARIANCES2{V_COUNTER},VAR_FACT(var_fact_ix),COV_POS,REWEIGHT); RESULT{COUNTER}={PV,INFO}; COUNTER=COUNTER+1; else PV=1; RESULT{COUNTER}={PV,2}; COUNTER=COUNTER+1; end else PV=1; RESULT{COUNTER}={PV,1}; COUNTER=COUNTER+1; end end end if 1==1 VAR_FACT=1; COV_POS=1; REWEIGHT=1; for V_COUNTER=2%:length(CFG.VARIANCES1) for var_fact_ix=1:length(VAR_FACT) if (TOTAL_SIZE>0) if(MIN_SIZE>0) PV=1; INFO=''; [PV,INFO] =diff_mmd_variance_subsample2({reads11,reads12},{reads21,reads22},gene,CFG.VARIANCES1{V_COUNTER},CFG.VARIANCES2{V_COUNTER},VAR_FACT(var_fact_ix),COV_POS,REWEIGHT) RESULT{COUNTER}={PV,INFO}; COUNTER=COUNTER+1; else PV=1; RESULT{COUNTER}={PV,2}; COUNTER=COUNTER+1; end else PV=1; RESULT{COUNTER}={PV,1}; COUNTER=COUNTER+1; end end end end end %keyboard TOTAL_SIZE=(size(reads12,1)+size(reads12,1)+(size(reads21,1)+size(reads22,1))); MIN_SIZE=min(size(reads12,1)+size(reads12,1),(size(reads21,1)+size(reads22,1))); if 1==0 for V_COUNTER=1 if (TOTAL_SIZE>0) if(MIN_SIZE>0) PV=1; INFO=''; if isempty([intron11,intron12])|isempty([intron21,intron22]) [PV,INFO] =diff_mmd_variance_NB_NB_simple([reads11;reads12],[reads21;reads22],gene,CFG.VARIANCES1{V_COUNTER},CFG.VARIANCES2{V_COUNTER}); else [PV,INFO] =diff_mmd_variance_splice([reads11;reads12],[reads21;reads22],0.5,[intron11,intron12],[intron21,intron22],gene,CFG.VARIANCES1{V_COUNTER},CFG.VARIANCES2{V_COUNTER}); end RESULT{COUNTER}={PV,INFO}; COUNTER=COUNTER+1; else PV=1; RESULT{COUNTER}={PV,2}; COUNTER=COUNTER+1; end else PV=1; RESULT{COUNTER}={PV,1}; COUNTER=COUNTER+1; end end end PV=1; %keyboard for V_COUNTER=length(CFG.VARIANCES1) if (TOTAL_SIZE>0) if(MIN_SIZE>0) [P_VALUE, INFO]= diff_nbin7(READS1,READS2,gene,SEQUENCED_LENGTH,CFG.VARIANCES1{V_COUNTER},CFG.VARIANCES2{V_COUNTER}); RESULT{COUNTER}={P_VALUE,INFO}; if not(isempty(INFO)) if iscell(INFO) RESULT{COUNTER}=INFO{5}; COUNTER=COUNTER+1; end end else PV=1; RESULT{COUNTER}={PV,2}; COUNTER=COUNTER+1; end else PV=1; RESULT{COUNTER}={PV,1}; COUNTER=COUNTER+1; end end [SPLICINGEVENTS,SEQUENCE,EXONSEQUENCE]=splicingsequence(gene); [UNIQUE_NEW_EXONS,GRAPHNODES,ORDER_OF_GRAPHNODE,EIRS_IN_SEQ]=transform_single_end_reads(SPLICINGEVENTS,SEQUENCE,EXONSEQUENCE,CFG.SEQUENCED_LENGTH-CLIP); [NEW_READS1,UNEXPLAINED_READS1,UNEXPLAINED_INDEX1]= convert_reads_to_region_indicators([reads11;reads12],UNIQUE_NEW_EXONS,GRAPHNODES,ORDER_OF_GRAPHNODE,EIRS_IN_SEQ,gene); [NEW_READS2,UNEXPLAINED_READS2,UNEXPLAINED_INDEX2]= convert_reads_to_region_indicators([reads21;reads22],UNIQUE_NEW_EXONS,GRAPHNODES,ORDER_OF_GRAPHNODE,EIRS_IN_SEQ,gene); % keyboard TOTAL_SIZE=(size(NEW_READS1,1)+(size(NEW_READS2,1))); MIN_SIZE=min(size(NEW_READS1,1),(size(NEW_READS2,1))); if (TOTAL_SIZE>0) if(MIN_SIZE>0) [PV,INFO] = diff_poisson_bonf_3_unequal_segment(NEW_READS1,NEW_READS2,gene,CFG.SEQUENCED_LENGTH-CLIP); RESULT{COUNTER}={PV,INFO}; COUNTER=COUNTER+1; else PV=1; RESULT{COUNTER}={PV,2}; COUNTER=COUNTER+1; end else PV=1; RESULT{COUNTER}={PV,1}; COUNTER=COUNTER+1; end PV=1 if 1==0 if (TOTAL_SIZE>0) if(MIN_SIZE>0) [PV,INFO] = diff_poisson_bonf_4_unequal_segment(NEW_READS1,NEW_READS2,gene,CFG.SEQUENCED_LENGTH-CLIP); RESULT{COUNTER}={PV,INFO}; COUNTER=COUNTER+1; else PV=1; RESULT{COUNTER}={PV,2}; COUNTER=COUNTER+1; end else PV=1; RESULT{COUNTER}={PV,1}; COUNTER=COUNTER+1; end %keyboard end STAT{i}=RESULT; end; %keyboard OUT_FILENAME=['/fml/ag-raetsch/home/drewe/svn/projects/RNASeq/difftest/out/analysis_artificial_variance_03_08_2012/' SUFF_NAME '_rep_mmd_07_07_2012_' int2str(JB_NR) '.mat']; save(OUT_FILENAME,'STAT')