gatk-3.8/java/src/org/broadinstitute/sting/utils/fasta/IndexedFastaSequenceFile.java

package org.broadinstitute.sting.utils.fasta;

import edu.mit.broad.picard.reference.ReferenceSequenceFile;
import edu.mit.broad.picard.reference.ReferenceSequence;
import edu.mit.broad.picard.PicardException;

import java.io.File;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.IOException;
import java.nio.channels.FileChannel;
import java.nio.ByteBuffer;
import java.nio.charset.CharsetDecoder;
import java.nio.charset.Charset;
import java.nio.charset.CharacterCodingException;
import java.util.Scanner;

import net.sf.samtools.SAMSequenceDictionary;

/**
 * Created by IntelliJ IDEA.
 * User: hanna
 * Date: Apr 14, 2009
 * Time: 2:14:26 PM
 *
 * A fasta file driven by an index for fast, concurrent lookups.  Supports two interfaces:
 * the ReferenceSequenceFile for old-style, stateful lookups and a direct getter.
 */
public class IndexedFastaSequenceFile implements ReferenceSequenceFile {
    // Using buffer size of 4k because that's what Picard uses; no thought went into this.
    private static final int BUFFERSIZE = 4096;

    private final File file;
    private FileInputStream in;
    private FileChannel channel;

    private final FastaSequenceIndex index;

    private String currentContigName = null;

    public IndexedFastaSequenceFile(File file) throws FileNotFoundException {
        this.file = file;
        // TODO: Add support for gzipped files
        in = new FileInputStream(file);
        channel = in.getChannel();

        File indexFile = new File(file.getAbsolutePath() + ".fai");
        index = new FastaSequenceIndex(indexFile);
    }

    public SAMSequenceDictionary getSequenceDictionary() {
        throw new UnsupportedOperationException("Indexed fasta files do not require dictionaries");
    }

    public ReferenceSequence getSequence( String contig ) {
        return getSubsequenceAt( contig, 0, (int)index.getIndexEntry(contig).getSize() );
    }

    public ReferenceSequence getSubsequenceAt( String contig, int pos, int length ) {
        FastaSequenceIndexEntry indexEntry = index.getIndexEntry(contig);

        final int basesPerLine = indexEntry.getBasesPerLine();

        // Start reading at the closest start-of-line to our data.
        long readStart = indexEntry.getLocation() + (pos / basesPerLine);
        int dataOfInterestStart = pos % basesPerLine;

        byte[] accumulator = new byte[length];
        int nextAccumulatorSlot = 0;        

        while(length > 0) {
            ByteBuffer buffer = ByteBuffer.allocateDirect(BUFFERSIZE);
            try {
                channel.read(buffer, readStart);
                readStart += BUFFERSIZE;
            }
            catch( IOException ex ) {
                throw new PicardException("Unable to read directly from fasta", ex);
            }

            final int basesTransferred = transferToBuffer( buffer,
                                                           dataOfInterestStart,
                                                           accumulator,
                                                           nextAccumulatorSlot,
                                                           length );

            nextAccumulatorSlot += basesTransferred;
            length -= basesTransferred;
            dataOfInterestStart = 0;
        }

        return new ReferenceSequence( contig, pos, accumulator );
    }

    /**
     * Transfers the contents of the given ByteBuffer to the given byte array, discarding
     * line breaks at regular intervals.  Copies as many as length bases, depending on the
     * buffer size.  Returns the number of bytes actually copied.
     * @param source The source ByteBuffer.
     * @param sourceStart The starting position to copy within the byte buffer
     * @param target Destination for the data
     * @param targetStart Index into target buffer.
     * @param length How much data to move.
     * @return How many bytes were actually transferred.
     */
    private int transferToBuffer( ByteBuffer source,
                                  int sourceStart,
                                  byte[] target,
                                  int targetStart,
                                  int length ) {
        source.position(sourceStart);
        int basesRead = 0;
        CharsetDecoder decoder = Charset.forName("US-ASCII").newDecoder();

        Scanner scanner = null;
        try {
            scanner = new Scanner(decoder.decode(source).toString());
        }
        catch(CharacterCodingException ex) {
            throw new PicardException("Malformed subsequence",ex);
        }

        while( scanner.hasNext() && basesRead < length ) {
            String sourceLine = scanner.nextLine();
            byte[] sourceData = sourceLine.getBytes();
            int basesToTransfer = Math.min(sourceData.length,length - basesRead);
            System.arraycopy(sourceData,0,target,targetStart+basesRead,basesToTransfer);

            basesRead += basesToTransfer;
        }
        return basesRead;
    }


    public ReferenceSequence nextSequence() {
        return getSubsequenceAt("chrM", 0, 20);
    }

    public String toString() {
        return this.file.getAbsolutePath();
    }
}
Basic indexed fasta POC in place. Requires a more complete implementation of the ReferenceSequenceFile interface, and much more testing. git-svn-id: file:///humgen/gsa-scr1/gsa-engineering/svn_contents/trunk@425 348d0f76-0448-11de-a6fe-93d51630548a 2009-04-15 21:46:56 +08:00			`package org.broadinstitute.sting.utils.fasta;`

			`import edu.mit.broad.picard.reference.ReferenceSequenceFile;`
			`import edu.mit.broad.picard.reference.ReferenceSequence;`
			`import edu.mit.broad.picard.PicardException;`

			`import java.io.File;`
			`import java.io.FileInputStream;`
			`import java.io.FileNotFoundException;`
			`import java.io.IOException;`
			`import java.nio.channels.FileChannel;`
			`import java.nio.ByteBuffer;`
			`import java.nio.charset.CharsetDecoder;`
			`import java.nio.charset.Charset;`
			`import java.nio.charset.CharacterCodingException;`
			`import java.util.Scanner;`

			`import net.sf.samtools.SAMSequenceDictionary;`

			`/**`
			`* Created by IntelliJ IDEA.`
			`* User: hanna`
			`* Date: Apr 14, 2009`
			`* Time: 2:14:26 PM`
			`*`
			`* A fasta file driven by an index for fast, concurrent lookups. Supports two interfaces:`
			`* the ReferenceSequenceFile for old-style, stateful lookups and a direct getter.`
			`*/`
			`public class IndexedFastaSequenceFile implements ReferenceSequenceFile {`
			`// Using buffer size of 4k because that's what Picard uses; no thought went into this.`
			`private static final int BUFFERSIZE = 4096;`

			`private final File file;`
			`private FileInputStream in;`
			`private FileChannel channel;`

			`private final FastaSequenceIndex index;`

			`private String currentContigName = null;`

			`public IndexedFastaSequenceFile(File file) throws FileNotFoundException {`
			`this.file = file;`
			`// TODO: Add support for gzipped files`
			`in = new FileInputStream(file);`
			`channel = in.getChannel();`

			`File indexFile = new File(file.getAbsolutePath() + ".fai");`
			`index = new FastaSequenceIndex(indexFile);`
			`}`

			`public SAMSequenceDictionary getSequenceDictionary() {`
			`throw new UnsupportedOperationException("Indexed fasta files do not require dictionaries");`
			`}`

			`public ReferenceSequence getSequence( String contig ) {`
			`return getSubsequenceAt( contig, 0, (int)index.getIndexEntry(contig).getSize() );`
			`}`

			`public ReferenceSequence getSubsequenceAt( String contig, int pos, int length ) {`
			`FastaSequenceIndexEntry indexEntry = index.getIndexEntry(contig);`

			`final int basesPerLine = indexEntry.getBasesPerLine();`

			`// Start reading at the closest start-of-line to our data.`
			`long readStart = indexEntry.getLocation() + (pos / basesPerLine);`
			`int dataOfInterestStart = pos % basesPerLine;`

			`byte[] accumulator = new byte[length];`
			`int nextAccumulatorSlot = 0;`

			`while(length > 0) {`
			`ByteBuffer buffer = ByteBuffer.allocateDirect(BUFFERSIZE);`
			`try {`
			`channel.read(buffer, readStart);`
			`readStart += BUFFERSIZE;`
			`}`
			`catch( IOException ex ) {`
			`throw new PicardException("Unable to read directly from fasta", ex);`
			`}`

			`final int basesTransferred = transferToBuffer( buffer,`
			`dataOfInterestStart,`
			`accumulator,`
			`nextAccumulatorSlot,`
			`length );`

			`nextAccumulatorSlot += basesTransferred;`
			`length -= basesTransferred;`
			`dataOfInterestStart = 0;`
			`}`

			`return new ReferenceSequence( contig, pos, accumulator );`
			`}`

			`/**`
			`* Transfers the contents of the given ByteBuffer to the given byte array, discarding`
			`* line breaks at regular intervals. Copies as many as length bases, depending on the`
			`* buffer size. Returns the number of bytes actually copied.`
			`* @param source The source ByteBuffer.`
			`* @param sourceStart The starting position to copy within the byte buffer`
			`* @param target Destination for the data`
			`* @param targetStart Index into target buffer.`
			`* @param length How much data to move.`
			`* @return How many bytes were actually transferred.`
			`*/`
			`private int transferToBuffer( ByteBuffer source,`
			`int sourceStart,`
			`byte[] target,`
			`int targetStart,`
			`int length ) {`
			`source.position(sourceStart);`
			`int basesRead = 0;`
			`CharsetDecoder decoder = Charset.forName("US-ASCII").newDecoder();`

			`Scanner scanner = null;`
			`try {`
			`scanner = new Scanner(decoder.decode(source).toString());`
			`}`
			`catch(CharacterCodingException ex) {`
			`throw new PicardException("Malformed subsequence",ex);`
			`}`

			`while( scanner.hasNext() && basesRead < length ) {`
			`String sourceLine = scanner.nextLine();`
			`byte[] sourceData = sourceLine.getBytes();`
			`int basesToTransfer = Math.min(sourceData.length,length - basesRead);`
			`System.arraycopy(sourceData,0,target,targetStart+basesRead,basesToTransfer);`

			`basesRead += basesToTransfer;`
			`}`
			`return basesRead;`
			`}`


			`public ReferenceSequence nextSequence() {`
			`return getSubsequenceAt("chrM", 0, 20);`
			`}`

			`public String toString() {`
			`return this.file.getAbsolutePath();`
			`}`
			`}`