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bt2_util.cpp
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bt2_util.cpp
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/*
* Copyright 2011, Ben Langmead <langmea@cs.jhu.edu>
*
* This file is part of Bowtie 2.
*
* Bowtie 2 is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Bowtie 2 is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Bowtie 2. If not, see <http://www.gnu.org/licenses/>.
*/
#include <string>
#include <stdexcept>
#include <iostream>
#include <fstream>
#include <stdlib.h>
#include <string.h>
#include "bt2_idx.h"
///////////////////////////////////////////////////////////////////////
//
// Functions for printing and sanity-checking Ebwts
//
///////////////////////////////////////////////////////////////////////
/**
* Check that the ebwt array is internally consistent up to (and not
* including) the given side index by re-counting the chars and
* comparing against the embedded occ[] arrays.
*/
void Ebwt::sanityCheckUpToSide(TIndexOff upToSide) const {
assert(isInMemory());
TIndexOffU occ[] = {0, 0, 0, 0};
ASSERT_ONLY(TIndexOffU occ_save[] = {0, 0, 0, 0});
TIndexOffU cur = 0; // byte pointer
const EbwtParams& eh = this->_eh;
bool fw = false;
while(cur < (TIndexOffU)(upToSide * eh._sideSz)) {
assert_leq(cur + eh._sideSz, eh._ebwtTotLen);
for(uint32_t i = 0; i < eh._sideBwtSz; i++) {
uint8_t by = this->ebwt()[cur + (fw ? i : eh._sideBwtSz-i-1)];
for(int j = 0; j < 4; j++) {
// Unpack from lowest to highest bit pair
int twoBit = unpack_2b_from_8b(by, fw ? j : 3-j);
occ[twoBit]++;
}
assert_eq(0, (occ[0] + occ[1] + occ[2] + occ[3]) % 4);
}
assert_eq(0, (occ[0] + occ[1] + occ[2] + occ[3]) % eh._sideBwtLen);
// Finished forward bucket; check saved [A], [C], [G] and [T]
// against the uint32_ts encoded here
ASSERT_ONLY(const TIndexOffU *u_ebwt = reinterpret_cast<const TIndexOffU*>(&ebwt()[cur + eh._sideBwtSz]));
ASSERT_ONLY(TIndexOffU as = u_ebwt[0]);
ASSERT_ONLY(TIndexOffU cs = u_ebwt[1]);
ASSERT_ONLY(TIndexOffU gs = u_ebwt[2]);
ASSERT_ONLY(TIndexOffU ts = u_ebwt[3]);
assert(as == occ_save[0] || as == occ_save[0]-1);
assert_eq(cs, occ_save[1]);
assert_eq(gs, occ_save[2]);
assert_eq(ts, occ_save[3]);
#ifndef NDEBUG
occ_save[0] = occ[0];
occ_save[1] = occ[1];
occ_save[2] = occ[2];
occ_save[3] = occ[3];
#endif
cur += eh._sideSz;
}
}
/**
* Sanity-check various pieces of the Ebwt
*/
void Ebwt::sanityCheckAll(int reverse) const {
const EbwtParams& eh = this->_eh;
assert(isInMemory());
// Check ftab
for(TIndexOffU i = 1; i < eh._ftabLen; i++) {
assert_geq(this->ftabHi(i), this->ftabLo(i-1));
assert_geq(this->ftabLo(i), this->ftabHi(i-1));
assert_leq(this->ftabHi(i), eh._bwtLen+1);
}
assert_eq(this->ftabHi(eh._ftabLen-1), eh._bwtLen);
// Check offs
TIndexOff seenLen = (eh._bwtLen + 31) >> ((TIndexOffU)5);
TIndexOff *seen;
try {
seen = new TIndexOff[seenLen]; // bitvector marking seen offsets
} catch(bad_alloc& e) {
cerr << "Out of memory allocating seen[] at " << __FILE__ << ":" << __LINE__ << endl;
throw e;
}
memset(seen, 0, OFF_SIZE * seenLen);
TIndexOffU offsLen = eh._offsLen;
for(TIndexOffU i = 0; i < offsLen; i++) {
assert_lt(this->offs()[i], eh._bwtLen);
TIndexOff w = this->offs()[i] >> 5;
TIndexOff r = this->offs()[i] & 31;
assert_eq(0, (seen[w] >> r) & 1); // shouldn't have been seen before
seen[w] |= (1 << r);
}
delete[] seen;
// Check nPat
assert_gt(this->_nPat, 0);
// Check plen, flen
for(TIndexOffU i = 0; i < this->_nPat; i++) {
assert_geq(this->plen()[i], 0);
}
// Check rstarts
if(this->rstarts() != NULL) {
for(TIndexOffU i = 0; i < this->_nFrag-1; i++) {
assert_gt(this->rstarts()[(i+1)*3], this->rstarts()[i*3]);
if(reverse == REF_READ_REVERSE) {
assert(this->rstarts()[(i*3)+1] >= this->rstarts()[((i+1)*3)+1]);
} else {
assert(this->rstarts()[(i*3)+1] <= this->rstarts()[((i+1)*3)+1]);
}
}
}
// Check ebwt
sanityCheckUpToSide(eh._numSides);
VMSG_NL("Ebwt::sanityCheck passed");
}
/**
* Transform this Ebwt into the original string in linear time by using
* the LF mapping to walk backwards starting at the row correpsonding
* to the end of the string. The result is written to s. The Ebwt
* must be in memory.
*/
void Ebwt::restore(SString<char>& s) const {
assert(isInMemory());
s.resize(this->_eh._len);
TIndexOffU jumps = 0;
TIndexOffU i = this->_eh._len; // should point to final SA elt (starting with '$')
SideLocus l(i, this->_eh, this->ebwt());
while(i != _zOff) {
assert_lt(jumps, this->_eh._len);
//if(_verbose) cout << "restore: i: " << i << endl;
// Not a marked row; go back a char in the original string
TIndexOffU newi = mapLF(l ASSERT_ONLY(, false));
assert_neq(newi, i);
s[this->_eh._len - jumps - 1] = rowL(l);
i = newi;
l.initFromRow(i, this->_eh, this->ebwt());
jumps++;
}
assert_eq(jumps, this->_eh._len);
}
/**
* Check that this Ebwt, when restored via restore(), matches up with
* the given array of reference sequences. For sanity checking.
*/
void Ebwt::checkOrigs(
const EList<SString<char> >& os,
bool color,
bool mirror) const
{
SString<char> rest;
restore(rest);
TIndexOffU restOff = 0;
size_t i = 0, j = 0;
if(mirror) {
// TODO: FIXME
return;
}
while(i < os.size()) {
size_t olen = os[i].length();
int lastorig = -1;
for(; j < olen; j++) {
size_t joff = j;
if(mirror) joff = olen - j - 1;
if((int)os[i][joff] == 4) {
// Skip over Ns
lastorig = -1;
if(!mirror) {
while(j < olen && (int)os[i][j] == 4) j++;
} else {
while(j < olen && (int)os[i][olen-j-1] == 4) j++;
}
j--;
continue;
}
if(lastorig == -1 && color) {
lastorig = os[i][joff];
continue;
}
if(color) {
assert_neq(-1, lastorig);
assert_eq(dinuc2color[(int)os[i][joff]][lastorig], rest[restOff]);
} else {
assert_eq(os[i][joff], rest[restOff]);
}
lastorig = (int)os[i][joff];
restOff++;
}
if(j == os[i].length()) {
// Moved to next sequence
i++;
j = 0;
} else {
// Just jumped over a gap
}
}
}