Пример #1
0
// Attempts to left-realign all the indels represented by the alignment cigar.
//
// This is done by shifting all indels as far left as they can go without
// mismatch, then merging neighboring indels of the same class.  leftAlign
// updates the alignment cigar with changes, and returns true if realignment
// changed the alignment cigar.
//
// To left-align, we move multi-base indels left by their own length as long as
// the preceding bases match the inserted or deleted sequence.  After this
// step, we handle multi-base homopolymer indels by shifting them one base to
// the left until they mismatch the reference.
//
// To merge neighboring indels, we iterate through the set of left-stabilized
// indels.  For each indel we add a new cigar element to the new cigar.  If a
// deletion follows a deletion, or an insertion occurs at the same place as
// another insertion, we merge the events by extending the previous cigar
// element.
//
// In practice, we must call this function until the alignment is stabilized.
//
bool leftAlign(BAMALIGN& alignment, string& referenceSequence, bool debug) {
    string alignmentAlignedBases = alignment.QUERYBASES;
  const string alignmentSequence = alignment.QUERYBASES;

    int arsOffset = 0; // pointer to insertion point in aligned reference sequence
    string alignedReferenceSequence = referenceSequence;
    int aabOffset = 0;

    // store information about the indels
    vector<FBIndelAllele> indels;

    int rp = 0;  // read position, 0-based relative to read
    int sp = 0;  // sequence position

    string softBegin;
    string softEnd;

    stringstream cigar_before, cigar_after;
    CIGAR cigar = alignment.GETCIGAR;
    for (CIGAR::const_iterator c = cigar.begin();
        c != cigar.end(); ++c) {
        unsigned int l = c->CIGLEN;
        char t = c->CIGTYPE;
        cigar_before << l << t;
        if (t == 'M' || t == 'X' || t == '=') { // match or mismatch
            sp += l;
            rp += l;
        } else if (t == 'D') { // deletion
            indels.push_back(FBIndelAllele(false, l, sp, rp, referenceSequence.substr(sp, l), false));
            alignmentAlignedBases.insert(rp + aabOffset, string(l, '-'));
            aabOffset += l;
            sp += l;  // update reference sequence position
        } else if (t == 'N') {
            indels.push_back(FBIndelAllele(false, l, sp, rp, referenceSequence.substr(sp, l), true));
            alignmentAlignedBases.insert(rp + aabOffset, string(l, '-'));
            aabOffset += l;
            sp += l;  // update reference sequence position
        } else if (t == 'I') { // insertion
            indels.push_back(FBIndelAllele(true, l, sp, rp, alignmentSequence.substr(rp, l), false));
            alignedReferenceSequence.insert(sp + softBegin.size() + arsOffset, string(l, '-'));
            arsOffset += l;
            rp += l;
        } else if (t == 'S') { // soft clip, clipped sequence present in the read not matching the reference
            // remove these bases from the refseq and read seq, but don't modify the alignment sequence
            if (rp == 0) {
                alignedReferenceSequence = string(l, '*') + alignedReferenceSequence;
                softBegin = alignmentAlignedBases.substr(0, l);
            } else {
                alignedReferenceSequence = alignedReferenceSequence + string(l, '*');
                softEnd = alignmentAlignedBases.substr(alignmentAlignedBases.size() - l, l);
            }
            rp += l;
        } else if (t == 'H') { // hard clip on the read, clipped sequence is not present in the read
            //} else if (t == 'N') { // skipped region in the reference not present in read, aka splice
            //sp += l;
        }
    }


    int alignedLength = sp;

    LEFTALIGN_DEBUG("| " << cigar_before.str() << endl
       << "| " << alignedReferenceSequence << endl
       << "| " << alignmentAlignedBases << endl);

    // if no indels, return the alignment
    if (indels.empty()) { return false; }

    // for each indel, from left to right
    //     while the indel sequence repeated to the left and we're not matched up with the left-previous indel
    //         move the indel left

    vector<FBIndelAllele>::iterator previous = indels.begin();
    for (vector<FBIndelAllele>::iterator id = indels.begin(); id != indels.end(); ++id) {

        // left shift by repeats
        //
        // from 1 base to the length of the indel, attempt to shift left
        // if the move would cause no change in alignment optimality (no
        // introduction of mismatches, and by definition no change in gap
        // length), move to the new position.
        // in practice this moves the indel left when we reach the size of
        // the repeat unit.
        //
        int steppos, readsteppos;
        FBIndelAllele& indel = *id;
        int i = 1;
        while (i <= indel.length) {

            int steppos = indel.position - i;
            int readsteppos = indel.readPosition - i;

#ifdef VERBOSE_DEBUG
            if (debug) {
                if (steppos >= 0 && readsteppos >= 0) {
                    cerr << referenceSequence.substr(steppos, indel.length) << endl;
                    cerr << alignmentSequence.substr(readsteppos, indel.length) << endl;
                    cerr << indel.sequence << endl;
                }
            }
#endif
            while (steppos >= 0 && readsteppos >= 0
                   && !indel.splice
                   && indel.sequence == referenceSequence.substr(steppos, indel.length)
                   && indel.sequence == alignmentSequence.substr(readsteppos, indel.length)
                   //&& indel.sequence == alignment.QueryBases.substr(readsteppos, indel.length)
                   && (id == indels.begin()
                       || (previous->insertion && steppos >= previous->position)
                       || (!previous->insertion && steppos >= previous->position + previous->length))) {
                LEFTALIGN_DEBUG((indel.insertion ? "insertion " : "deletion ") << indel << " shifting " << i << "bp left" << endl);
                indel.position -= i;
                indel.readPosition -= i;
                steppos = indel.position - i;
                readsteppos = indel.readPosition - i;
            }
            do {
                ++i;
            } while (i <= indel.length && indel.length % i != 0);
        }

        // left shift indels with exchangeable flanking sequence
        //
        // for example:
        //
        //    GTTACGTT           GTTACGTT
        //    GT-----T   ---->   G-----TT
        //
        // GTGTGACGTGT           GTGTGACGTGT
        // GTGTG-----T   ---->   GTG-----TGT
        //
        // GTGTG-----T           GTG-----TGT
        // GTGTGACGTGT   ---->   GTGTGACGTGT
        //
        //
        steppos = indel.position - 1;
        readsteppos = indel.readPosition - 1;
        while (steppos >= 0 && readsteppos >= 0
               //&& alignment.QueryBases.at(readsteppos) == referenceSequence.at(steppos)
               //&& alignment.QueryBases.at(readsteppos) == indel.sequence.at(indel.sequence.size() - 1)
               && alignmentSequence.at(readsteppos) == referenceSequence.at(steppos)
               && alignmentSequence.at(readsteppos) == indel.sequence.at(indel.sequence.size() - 1)
               && (id == indels.begin()
                   || (previous->insertion && indel.position - 1 >= previous->position)
                   || (!previous->insertion && indel.position - 1 >= previous->position + previous->length))) {
            LEFTALIGN_DEBUG((indel.insertion ? "insertion " : "deletion ") << indel << " exchanging bases " << 1 << "bp left" << endl);
            indel.sequence = indel.sequence.at(indel.sequence.size() - 1) + indel.sequence.substr(0, indel.sequence.size() - 1);
            indel.position -= 1;
            indel.readPosition -= 1;
            steppos = indel.position - 1;
            readsteppos = indel.readPosition - 1;
        }
        // tracks previous indel, so we don't run into it with the next shift
        previous = id;
    }

    // bring together floating indels
    // from left to right
    // check if we could merge with the next indel
    // if so, adjust so that we will merge in the next step
    if (indels.size() > 1) {
        previous = indels.begin();
        for (vector<FBIndelAllele>::iterator id = (indels.begin() + 1); id != indels.end(); ++id) {
            FBIndelAllele& indel = *id;
            // parsimony: could we shift right and merge with the previous indel?
            // if so, do it
            int prev_end_ref = previous->insertion ? previous->position : previous->position + previous->length;
            int prev_end_read = !previous->insertion ? previous->readPosition : previous->readPosition + previous->length;
            if (!previous->splice && !indel.splice &&
                previous->insertion == indel.insertion
                    && ((previous->insertion
                        && (previous->position < indel.position
                        && previous->readPosition + previous->readPosition < indel.readPosition))
                        ||
                        (!previous->insertion
                        && (previous->position + previous->length < indel.position)
                        && (previous->readPosition < indel.readPosition)
                        ))) {
                if (previous->homopolymer()) {
                    string seq = referenceSequence.substr(prev_end_ref, indel.position - prev_end_ref);
                    //string readseq = alignment.QueryBases.substr(prev_end_read, indel.position - prev_end_ref);
                    string readseq = alignmentSequence.substr(prev_end_read, indel.position - prev_end_ref);
                    LEFTALIGN_DEBUG("seq: " << seq << endl << "readseq: " << readseq << endl);
                    if (previous->sequence.at(0) == seq.at(0)
                            && FBhomopolymer(seq)
                            && FBhomopolymer(readseq)) {
                        LEFTALIGN_DEBUG("moving " << *previous << " right to " 
                                << (indel.insertion ? indel.position : indel.position - previous->length) << endl);
                        previous->position = indel.insertion ? indel.position : indel.position - previous->length;
                    }
                } 
                else {
                    int pos = previous->position;
                    while (pos < (int) referenceSequence.length() &&
                            ((previous->insertion && pos + previous->length <= indel.position)
                            ||
                            (!previous->insertion && pos + previous->length < indel.position))
                            && previous->sequence 
                                == referenceSequence.substr(pos + previous->length, previous->length)) {
                        pos += previous->length;
                    }
                    if (pos < previous->position &&
                        ((previous->insertion && pos + previous->length == indel.position)
                        ||
                        (!previous->insertion && pos == indel.position - previous->length))
                       ) {
                        LEFTALIGN_DEBUG("right-merging tandem repeat: moving " << *previous << " right to " << pos << endl);
                        previous->position = pos;
                    }
                }
            }
            previous = id;
        }
    }

    // for each indel
    //     if ( we're matched up to the previous insertion (or deletion) 
    //          and it's also an insertion or deletion )
    //         merge the indels
    //
    // and simultaneously reconstruct the cigar

    CIGAR newCigar;

    if (!softBegin.empty()) {
      newCigar.ADDCIGAR(CIGOP('S', softBegin.size()));
    }

    vector<FBIndelAllele>::iterator id = indels.begin();
    FBIndelAllele last = *id++;
    if (last.position > 0) {
        newCigar.ADDCIGAR(CIGOP('M', last.position));
    }
    if (last.insertion) {
        newCigar.ADDCIGAR(CIGOP('I', last.length));
    } else if (last.splice) {
        newCigar.ADDCIGAR(CIGOP('N', last.length));
    } else {
        newCigar.ADDCIGAR(CIGOP('D', last.length));
    }
    int lastend = last.insertion ? last.position : (last.position + last.length);
    LEFTALIGN_DEBUG(last << ",");

    for (; id != indels.end(); ++id) {
        FBIndelAllele& indel = *id;
        LEFTALIGN_DEBUG(indel << ",");
        if (indel.position < lastend) {
            cerr << "impossibility?: indel realigned left of another indel" << endl << alignment.QNAME
                << " " << alignment.POSITION << endl << alignment.QUERYBASES << endl;
            exit(1);

        } else if (indel.position == lastend && indel.insertion == last.insertion) {
            CIGOP& op = newCigar.back();
#ifdef HAVE_BAMTOOLS
            op.Length += indel.length;
#else
	    op = SeqLib::CigarField(op.Type(), op.Length() + indel.length);
#endif
        } else if (indel.position >= lastend) {  // also catches differential indels, but with the same position
	    newCigar.ADDCIGAR(CIGOP('M', indel.position - lastend));
            if (indel.insertion) {
                newCigar.ADDCIGAR(CIGOP('I', indel.length));
            } else if (indel.splice) {
                newCigar.ADDCIGAR(CIGOP('N', indel.length));
            } else { // deletion
                newCigar.ADDCIGAR(CIGOP('D', indel.length));
            }

        }
        last = *id;
        lastend = last.insertion ? last.position : (last.position + last.length);
    }
    
    if (lastend < alignedLength) {
        newCigar.ADDCIGAR(CIGOP('M', alignedLength - lastend));
    }

    if (!softEnd.empty()) {
        newCigar.ADDCIGAR(CIGOP('S', softEnd.size()));
    }

    LEFTALIGN_DEBUG(endl);

#ifdef VERBOSE_DEBUG
    if (debug) {
      CIGAR cigar = alignment.GETCIGAR;
        for (CIGAR::const_iterator c = cigar.begin();
            c != cigar.end(); ++c) {
            unsigned int l = c->CIGLEN;
            char t = c->CIGTYPE;
            cerr << l << t;
        }
        cerr << endl;
    }
#endif

#ifdef HAVE_BAMTOOLS
    alignment.CigarData = newCigar;
#else
    alignment.SetCigar(newCigar);
#endif

    cigar = alignment.GETCIGAR;
    for (CIGAR::const_iterator c = cigar.begin();
	 c != cigar.end(); ++c) {
      unsigned int l = c->CIGLEN;
      char t = c->CIGTYPE;
      cigar_after << l << t;
    }
    LEFTALIGN_DEBUG(cigar_after.str() << endl);

    // check if we're realigned
    if (cigar_after.str() == cigar_before.str()) {
        return false;
    } else {
        return true;
    }

}
Пример #2
0
// Attempts to left-realign all the indels represented by the alignment cigar.
//
// This is done by shifting all indels as far left as they can go without
// mismatch, then merging neighboring indels of the same class.  leftAlign
// updates the alignment cigar with changes, and returns true if realignment
// changed the alignment cigar.
//
// To left-align, we move multi-base indels left by their own length as long as
// the preceding bases match the inserted or deleted sequence.  After this
// step, we handle multi-base homopolymer indels by shifting them one base to
// the left until they mismatch the reference.
//
// To merge neighboring indels, we iterate through the set of left-stabilized
// indels.  For each indel we add a new cigar element to the new cigar.  If a
// deletion follows a deletion, or an insertion occurs at the same place as
// another insertion, we merge the events by extending the previous cigar
// element.
//
// In practice, we must call this function until the alignment is stabilized.
//
bool leftAlign(BamAlignment& alignment, string& referenceSequence) {

	int arsOffset = 0; // pointer to insertion point in aligned reference sequence
	string alignedReferenceSequence = referenceSequence;
	int aabOffset = 0;
	string alignmentAlignedBases = alignment.QueryBases;

	// store information about the indels
	vector<FBIndelAllele> indels;

	int rp = 0;  // read position, 0-based relative to read
	int sp = 0;  // sequence position

	string softBegin;
	string softEnd;

	stringstream cigar_before, cigar_after;
	for (vector<CigarOp>::const_iterator c = alignment.CigarData.begin();
		 c != alignment.CigarData.end(); ++c) {
		unsigned int l = c->Length;
		char t = c->Type;
		cigar_before << l << t;
		if (t == 'M') { // match or mismatch
			sp += l;
			rp += l;
		} else if (t == 'D') { // deletion
			indels.push_back(FBIndelAllele(false, l, sp, rp, referenceSequence.substr(sp, l)));
			alignmentAlignedBases.insert(rp + aabOffset, string(l, '-'));
			aabOffset += l;
			sp += l;  // update reference sequence position
		} else if (t == 'I') { // insertion
			indels.push_back(FBIndelAllele(true, l, sp, rp, alignment.QueryBases.substr(rp, l)));
			alignedReferenceSequence.insert(sp + softBegin.size() + arsOffset, string(l, '-'));
			arsOffset += l;
			rp += l;
		} else if (t == 'S') { // soft clip, clipped sequence present in the read not matching the reference
			// remove these bases from the refseq and read seq, but don't modify the alignment sequence
			if (rp == 0) {
				alignedReferenceSequence = string(l, '*') + alignedReferenceSequence;
				softBegin = alignmentAlignedBases.substr(0, l);
			} else {
				alignedReferenceSequence = alignedReferenceSequence + string(l, '*');
				softEnd = alignmentAlignedBases.substr(alignmentAlignedBases.size() - l, l);
			}
			rp += l;
		} else if (t == 'H') { // hard clip on the read, clipped sequence is not present in the read
		} else if (t == 'N') { // skipped region in the reference not present in read, aka splice
			sp += l;
		}
	}


	int alignedLength = sp;

	// if no indels, return the alignment
	if (indels.empty()) { return false; }

	// for each indel, from left to right
	//     while the indel sequence repeated to the left and we're not matched up with the left-previous indel
	//         move the indel left

	vector<FBIndelAllele>::iterator previous = indels.begin();
	for (vector<FBIndelAllele>::iterator id = indels.begin(); id != indels.end(); ++id) {

		// left shift by repeats
		//
		// from 1 base to the length of the indel, attempt to shift left
		// if the move would cause no change in alignment optimality (no
		// introduction of mismatches, and by definition no change in gap
		// length), move to the new position.
		// in practice this moves the indel left when we reach the size of
		// the repeat unit.
		//
		int steppos, readsteppos;
		FBIndelAllele& indel = *id;
		int i = 1;
		while (i <= indel.length) {

			int steppos = indel.position - i;
			int readsteppos = indel.readPosition - i;

			while (steppos >= 0 && readsteppos >= 0
				   && indel.sequence == referenceSequence.substr(steppos, indel.length)
				   && indel.sequence == alignment.QueryBases.substr(readsteppos, indel.length)
				   && (id == indels.begin()
					   || (previous->insertion && steppos >= previous->position)
					   || (!previous->insertion && steppos >= previous->position + previous->length))) {
				indel.position -= i;
				indel.readPosition -= i;
				steppos = indel.position - i;
				readsteppos = indel.readPosition - i;
			}
			do {
				++i;
			} while (i <= indel.length && indel.length % i != 0);
		}

		// left shift indels with exchangeable flanking sequence
		//
		// for example:
		//
		//    GTTACGTT           GTTACGTT
		//    GT-----T   ---->   G-----TT
		//
		// GTGTGACGTGT           GTGTGACGTGT
		// GTGTG-----T   ---->   GTG-----TGT
		//
		// GTGTG-----T           GTG-----TGT
		// GTGTGACGTGT   ---->   GTGTGACGTGT
		//
		//
		steppos = indel.position - 1;
		readsteppos = indel.readPosition - 1;
		while (steppos >= 0 && readsteppos >= 0
			   && alignment.QueryBases.at(readsteppos) == referenceSequence.at(steppos)
			   && alignment.QueryBases.at(readsteppos) == indel.sequence.at(indel.sequence.size() - 1)
			   && (id == indels.begin()
				   || (previous->insertion && indel.position - 1 >= previous->position)
				   || (!previous->insertion && indel.position - 1 >= previous->position + previous->length))) {
			indel.sequence = indel.sequence.at(indel.sequence.size() - 1) + indel.sequence.substr(0, indel.sequence.size() - 1);
			indel.position -= 1;
			indel.readPosition -= 1;
			steppos = indel.position - 1;
			readsteppos = indel.readPosition - 1;
		}
		// tracks previous indel, so we don't run into it with the next shift
		previous = id;
	}

	// bring together floating indels
	// from left to right
	// check if we could merge with the next indel
	// if so, adjust so that we will merge in the next step
	if (indels.size() > 1) {
		previous = indels.begin();
		for (vector<FBIndelAllele>::iterator id = (indels.begin() + 1); id != indels.end(); ++id) {
			FBIndelAllele& indel = *id;
			// parsimony: could we shift right and merge with the previous indel?
			// if so, do it
			int prev_end_ref = previous->insertion ? previous->position : previous->position + previous->length;
			int prev_end_read = !previous->insertion ? previous->readPosition : previous->readPosition + previous->length;
			if (previous->insertion == indel.insertion
				&& ((previous->insertion
					 && (previous->position < indel.position
						 && previous->readPosition + previous->readPosition < indel.readPosition))
					||
					(!previous->insertion
					 && (previous->position + previous->length < indel.position)
					 && (previous->readPosition < indel.readPosition)
					 ))) {
				if (previous->homopolymer()) {
					string seq = referenceSequence.substr(prev_end_ref, indel.position - prev_end_ref);
					string readseq = alignment.QueryBases.substr(prev_end_read, indel.position - prev_end_ref);
					if (previous->sequence.at(0) == seq.at(0)
						&& FBhomopolymer(seq)
						&& FBhomopolymer(readseq)) {
						previous->position = indel.insertion ? indel.position : indel.position - previous->length;
					}
				}
				else {
					int pos = previous->position;
					while (pos < (int) referenceSequence.length() &&
						   ((previous->insertion && pos + previous->length <= indel.position)
							||
							(!previous->insertion && pos + previous->length < indel.position))
						   && previous->sequence
						   == referenceSequence.substr(pos + previous->length, previous->length)) {
						pos += previous->length;
					}
					if (pos < previous->position &&
						((previous->insertion && pos + previous->length == indel.position)
						 ||
						 (!previous->insertion && pos == indel.position - previous->length))
						) {
						previous->position = pos;
					}
				}
			}
			previous = id;
		}
	}

	// for each indel
	//     if ( we're matched up to the previous insertion (or deletion)
	//          and it's also an insertion or deletion )
	//         merge the indels
	//
	// and simultaneously reconstruct the cigar

	vector<CigarOp> newCigar;

	if (!softBegin.empty()) {
		newCigar.push_back(CigarOp('S', softBegin.size()));
	}

	vector<FBIndelAllele>::iterator id = indels.begin();
	FBIndelAllele last = *id++;
	if (last.position > 0) {
		newCigar.push_back(CigarOp('M', last.position));
		newCigar.push_back(CigarOp((last.insertion ? 'I' : 'D'), last.length));
	} else {
		newCigar.push_back(CigarOp((last.insertion ? 'I' : 'D'), last.length));
	}
	int lastend = last.insertion ? last.position : (last.position + last.length);

	for (; id != indels.end(); ++id) {
		FBIndelAllele& indel = *id;
		if (indel.position < lastend) {
			cerr << "impossibility?: indel realigned left of another indel" << endl << alignment.Name
				 << " " << alignment.Position << endl << alignment.QueryBases << endl;
			exit(1);
		} else if (indel.position == lastend && indel.insertion == last.insertion) {
			CigarOp& op = newCigar.back();
			op.Length += indel.length;
		} else if (indel.position >= lastend) {  // also catches differential indels, but with the same position
			newCigar.push_back(CigarOp('M', indel.position - lastend));
			newCigar.push_back(CigarOp((indel.insertion ? 'I' : 'D'), indel.length));
		}
		last = *id;
		lastend = last.insertion ? last.position : (last.position + last.length);
	}

	if (lastend < alignedLength) {
		newCigar.push_back(CigarOp('M', alignedLength - lastend));
	}

	if (!softEnd.empty()) {
		newCigar.push_back(CigarOp('S', softEnd.size()));
	}

	alignment.CigarData = newCigar;

	for (vector<CigarOp>::const_iterator c = alignment.CigarData.begin();
		 c != alignment.CigarData.end(); ++c) {
		unsigned int l = c->Length;
		char t = c->Type;
		cigar_after << l << t;
	}

	// check if we're realigned
	if (cigar_after.str() == cigar_before.str()) {
		return false;
	} else {
		return true;
	}

}