Mercurial > repos > rliterman > csp2
view CSP2/CSP2_env/env-d9b9114564458d9d-741b3de822f2aaca6c6caa4325c4afce/opt/bbmap-39.01-1/current/bloom/LargeKmerCount.java @ 68:5028fdace37b
planemo upload commit 2e9511a184a1ca667c7be0c6321a36dc4e3d116d
| author | jpayne |
|---|---|
| date | Tue, 18 Mar 2025 16:23:26 -0400 |
| parents | |
| children |
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package bloom; import java.util.ArrayList; import java.util.Locale; import dna.AminoAcid; import fileIO.ReadWrite; import shared.Timer; import stream.ConcurrentGenericReadInputStream; import stream.FastqReadInputStream; import stream.Read; import structures.ListNum; /** * @author Brian Bushnell * @date Jul 6, 2012 * */ public class LargeKmerCount { public static void main(String[] args){ Timer t=new Timer(); String fname1=args[0]; String fname2=(args.length>4 || args[1].contains(".") ? args[1] : null); int indexbits=Integer.parseInt(args[args.length-3]); int cbits=Integer.parseInt(args[args.length-2]); int k=Integer.parseInt(args[args.length-1]); KCountArray2 count=countFastq(fname1, fname2, indexbits, cbits, k); t.stop(); System.out.println("Finished counting; time = "+t); long[] freq=count.transformToFrequency(); // System.out.println(count+"\n"); // System.out.println(Arrays.toString(freq)+"\n"); long sum=sum(freq); System.out.println("Kmer fraction:"); int lim1=8, lim2=16; for(int i=0; i<lim1; i++){ String prefix=i+""; while(prefix.length()<8){prefix=prefix+" ";} System.out.println(prefix+"\t"+String.format(Locale.ROOT, "%.3f%% ",(100l*freq[i]/(double)sum))+"\t"+freq[i]); } while(lim1<=freq.length){ int x=0; for(int i=lim1; i<lim2; i++){ x+=freq[i]; } String prefix=lim1+"-"+(lim2-1); if(lim2>=freq.length){prefix=lim1+"+";} while(prefix.length()<8){prefix=prefix+" ";} System.out.println(prefix+"\t"+String.format(Locale.ROOT, "%.3f%% ",(100l*x/(double)sum))+"\t"+x); lim1*=2; lim2=min(lim2*2, freq.length); } long sum2=sum-freq[0]; long x=freq[1]; System.out.println(); System.out.println("Unique: \t \t"+sum2); System.out.println("CollisionsA:\t \t"+collisionsA); System.out.println("CollisionsB:\t \t"+collisionsB); double modifier=(collisionsB)/(double)(32*collisionsA+8*collisionsB); System.out.println("Estimate: \t \t"+(sum2+collisionsA+collisionsB-(long)(collisionsA*modifier))); System.out.println(); System.out.println("Singleton: \t"+String.format(Locale.ROOT, "%.3f%% ",(100l*x/(double)sum2))+"\t"+x); x=sum2-x; System.out.println("Useful: \t"+String.format(Locale.ROOT, "%.3f%% ",(100l*x/(double)sum2))+"\t"+x); } public static KCountArray2 countFastq(String reads1, String reads2, int indexbits, int cbits, int k){ assert(indexbits>=1 && indexbits<40); collisionsA=0; collisionsB=0; final long cells=1L<<indexbits; final int kbits=ROTATE_DIST*k; final int xorShift=kbits%64; final long[] rotMasks=makeRotMasks(xorShift); final int[] buffer=new int[k]; if(verbose){System.err.println("k="+k+", kbits="+kbits+", indexbits="+indexbits+", cells="+cells+", cbits="+cbits);} if(verbose){System.err.println("xorShift="+xorShift+", rotMasks[3]="+Long.toHexString(rotMasks[3]));} final KCountArray2 count=new KCountArray2(cells, cbits); FastqReadInputStream fris1=new FastqReadInputStream(reads1, false); FastqReadInputStream fris2=(reads2==null ? null : new FastqReadInputStream(reads2, false)); ConcurrentGenericReadInputStream cris=new ConcurrentGenericReadInputStream(fris1, fris2, maxReads); cris.start(); System.err.println("Started cris"); boolean paired=cris.paired(); System.err.println("Paired: "+paired); long kmer=0; //current kmer int len=0; //distance since last contig start or ambiguous base { ListNum<Read> ln=cris.nextList(); ArrayList<Read> reads=(ln!=null ? ln.list : null); if(reads!=null && !reads.isEmpty()){ Read r=reads.get(0); assert(paired==(r.mate!=null)); } while(ln!=null && reads!=null && reads.size()>0){//ln!=null prevents a compiler potential null access warning //System.err.println("reads.size()="+reads.size()); for(Read r : reads){ readsProcessed++; len=0; kmer=0; byte[] bases=r.bases; byte[] quals=r.quality; for(int i=0; i<bases.length; i++){ byte b=bases[i]; int x=AminoAcid.baseToNumber[b]; int x2=buffer[len%buffer.length]; buffer[len%buffer.length]=x; if(x<0){ len=0; kmer=0; }else{ kmer=(Long.rotateLeft(kmer,ROTATE_DIST)^x); len++; if(len>=k){ if(len>k){kmer=kmer^rotMasks[x2];} long hashcode=kmer&0x7fffffffffffffffL; long code1=hashcode%(cells-3); long code2=((~hashcode)&0x7fffffffffffffffL)%(cells-5); int value=count.increment2(code1, 1); long temp=count.read(code2); if(temp>0){ if(value==0){collisionsA++;} else{collisionsB++;} } } } } if(r.mate!=null){ len=0; kmer=0; bases=r.mate.bases; quals=r.mate.quality; for(int i=0; i<bases.length; i++){ byte b=bases[i]; int x=AminoAcid.baseToNumber[b]; int x2=buffer[len%buffer.length]; buffer[len%buffer.length]=x; if(x<0){ len=0; kmer=0; }else{ kmer=(Long.rotateLeft(kmer,ROTATE_DIST)^x); len++; if(len>=k){ if(len>k){kmer=kmer^rotMasks[x2];} long hashcode=kmer&0x7fffffffffffffffL; long code1=hashcode%(cells-3); long code2=((~hashcode)&0x7fffffffffffffffL)%(cells-5); int value=count.increment2(code1, 1); long temp=count.read(code2); if(temp>0){ if(value==0){collisionsA++;} else{collisionsB++;} } } } } } } //System.err.println("returning list"); cris.returnList(ln); //System.err.println("fetching list"); ln=cris.nextList(); reads=(ln!=null ? ln.list : null); } System.err.println("Finished reading"); cris.returnList(ln); System.err.println("Returned list"); ReadWrite.closeStream(cris); System.err.println("Closed stream"); System.err.println("Processed "+readsProcessed+" reads."); } return count; } public static final long[] makeRotMasks(int rotDist){ long[] masks=new long[4]; for(long i=0; i<4; i++){ masks[(int)i]=Long.rotateLeft(i, rotDist); } return masks; } public static long[] transformToFrequency(int[] count){ long[] freq=new long[2000]; int max=freq.length-1; for(int i=0; i<count.length; i++){ int x=count[i]; x=min(x, max); freq[x]++; } return freq; } public static long sum(int[] array){ long x=0; for(int y : array){x+=y;} return x; } public static long sum(long[] array){ long x=0; for(long y : array){x+=y;} return x; } public static final int min(int x, int y){return x<y ? x : y;} public static final int max(int x, int y){return x>y ? x : y;} public static boolean verbose=true; public static byte minQuality=-5; public static long readsProcessed=0; public static long maxReads=1000000L; public static final int ROTATE_DIST=2; public static long collisionsA=0; public static long collisionsB=0; }