Mercurial > repos > rliterman > csp2
view CSP2/CSP2_env/env-d9b9114564458d9d-741b3de822f2aaca6c6caa4325c4afce/opt/bbmap-39.01-1/current/icecream/IceCreamGrader.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 icecream; import java.io.File; import java.io.PrintStream; import java.util.ArrayList; import fileIO.ByteFile; import fileIO.ByteFile1; import fileIO.ByteFile2; import fileIO.FileFormat; import fileIO.ReadWrite; import shared.Parse; import shared.Parser; import shared.PreParser; import shared.ReadStats; import shared.Shared; import shared.Timer; import shared.Tools; import stream.ConcurrentGenericReadInputStream; import stream.ConcurrentReadInputStream; import stream.FASTQ; import stream.FastaReadInputStream; import stream.Read; import stream.SamLine; import structures.ListNum; /** * @author Brian Bushnell * @date June 11, 2019 * */ public class IceCreamGrader { public static void main(String[] args){ //Start a timer immediately upon code entrance. Timer t=new Timer(); //Create an instance of this class IceCreamGrader x=new IceCreamGrader(args); //Run the object x.process(t); //Close the print stream if it was redirected Shared.closeStream(x.outstream); } public IceCreamGrader(String[] args){ {//Preparse block for help, config files, and outstream PreParser pp=new PreParser(args, getClass(), false); args=pp.args; outstream=pp.outstream; } //Set shared static variables Shared.capBuffers(4); //Only for singlethreaded programs ReadWrite.USE_PIGZ=ReadWrite.USE_UNPIGZ=true; ReadWrite.MAX_ZIP_THREADS=Shared.threads(); FASTQ.TEST_INTERLEAVED=FASTQ.FORCE_INTERLEAVED=false; SamLine.SET_FROM_OK=true; Parser parser=new Parser(); for(int i=0; i<args.length; i++){ String arg=args[i]; String[] split=arg.split("="); String a=split[0].toLowerCase(); String b=split.length>1 ? split[1] : null; if(b!=null && b.equalsIgnoreCase("null")){b=null;} if(a.equals("verbose")){ verbose=Parse.parseBoolean(b); ByteFile1.verbose=verbose; ByteFile2.verbose=verbose; stream.FastaReadInputStream.verbose=verbose; ConcurrentGenericReadInputStream.verbose=verbose; stream.FastqReadInputStream.verbose=verbose; ReadWrite.verbose=verbose; }else if(parser.parse(arg, a, b)){ //do nothing } else if(parser.in1==null && i==0 && !arg.contains("=") && (arg.toLowerCase().startsWith("stdin") || new File(arg).exists())){ parser.in1=arg; }else if(parser.out1==null && i==1 && !arg.contains("=")){ parser.out1=arg; }else{ outstream.println("Unknown parameter "+args[i]); assert(false) : "Unknown parameter "+args[i]; // throw new RuntimeException("Unknown parameter "+args[i]); } } {//Process parser fields Parser.processQuality(); maxReads=parser.maxReads; overwrite=ReadStats.overwrite=parser.overwrite; append=ReadStats.append=parser.append; in1=parser.in1; extin=parser.extin; } assert(FastaReadInputStream.settingsOK()); if(in1==null){throw new RuntimeException("Error - at least one input file is required.");} if(!ByteFile.FORCE_MODE_BF1 && !ByteFile.FORCE_MODE_BF2){ ByteFile.FORCE_MODE_BF2=false; ByteFile.FORCE_MODE_BF1=true; } ffin1=FileFormat.testInput(in1, FileFormat.FASTQ, extin, true, true); } void process(Timer t){ final ConcurrentReadInputStream cris; { cris=ConcurrentReadInputStream.getReadInputStream(maxReads, true, ffin1, null); cris.start(); if(verbose){outstream.println("Started cris");} } long readsProcessed=0, readsOut=0; long basesProcessed=0, basesOut=0; { ListNum<Read> ln=cris.nextList(); ArrayList<Read> reads=(ln!=null ? ln.list : null); // outstream.println("Fetched "+reads); if(reads!=null && !reads.isEmpty()){ Read r=reads.get(0); assert((ffin1==null || ffin1.samOrBam()) || (r.mate!=null)==cris.paired()); } while(ln!=null && reads!=null && reads.size()>0){//ln!=null prevents a compiler potential null access warning final ArrayList<Read> listOut=new ArrayList<Read>(reads.size()); for(int idx=0; idx<reads.size(); idx++){ final Read r1=reads.get(idx); final int initialLength1=r1.length(); final boolean keep=process(r1); if(keep){ listOut.add(r1); readsOut++; basesOut+=r1.length(); } readsProcessed++; basesProcessed+=initialLength1; } cris.returnList(ln); ln=cris.nextList(); reads=(ln!=null ? ln.list : null); } if(ln!=null){ cris.returnList(ln.id, ln.list==null || ln.list.isEmpty()); } } errorState|=ReadStats.writeAll(); errorState|=ReadWrite.closeStreams(cris); t.stop(); outstream.println(Tools.timeReadsBasesProcessed(t, readsProcessed, basesProcessed, 8)); // outstream.println(Tools.readsBasesOut(readsProcessed, basesProcessed, readsOut, basesOut, 8, false)); outstream.println(); outstream.println(Tools.numberPercent("Good Reads:", goodReads, goodReads*100.0/readsProcessed, 3, 8)); outstream.println(Tools.numberPercent("Good Bases:", goodBases, goodBases*100.0/basesProcessed, 3, 8)); outstream.println(Tools.numberPercent("Bad Reads:", badReads, badReads*100.0/readsProcessed, 3, 8)); outstream.println(Tools.numberPercent("Bad Bases:", badBases, badBases*100.0/basesProcessed, 3, 8)); if(errorState){ throw new RuntimeException(getClass().getName()+" terminated in an error state; the output may be corrupt."); } } /*--------------------------------------------------------------*/ private boolean process(Read r){ boolean iceCream=ReadBuilder.isIceCream(r.id); if(iceCream){ badReads++; badBases+=r.length(); }else{ goodReads++; goodBases+=r.length(); } return true; } /*--------------------------------------------------------------*/ private String in1=null; private String extin=null; /*--------------------------------------------------------------*/ private long maxReads=-1; private long goodReads=0; private long goodBases=0; private long badReads=0; private long badBases=0; /*--------------------------------------------------------------*/ private final FileFormat ffin1; /*--------------------------------------------------------------*/ private PrintStream outstream=System.err; public static boolean verbose=false; public boolean errorState=false; private boolean overwrite=false; private boolean append=false; }