--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/pyPRADA_1.2/tools/bwa-0.5.7-mh/bwt.c	Thu Feb 20 00:44:58 2014 -0500
@@ -0,0 +1,250 @@
+/* The MIT License
+
+   Copyright (c) 2008 Genome Research Ltd (GRL).
+
+   Permission is hereby granted, free of charge, to any person obtaining
+   a copy of this software and associated documentation files (the
+   "Software"), to deal in the Software without restriction, including
+   without limitation the rights to use, copy, modify, merge, publish,
+   distribute, sublicense, and/or sell copies of the Software, and to
+   permit persons to whom the Software is furnished to do so, subject to
+   the following conditions:
+
+   The above copyright notice and this permission notice shall be
+   included in all copies or substantial portions of the Software.
+
+   THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
+   EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
+   MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
+   NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
+   BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
+   ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
+   CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+   SOFTWARE.
+*/
+
+/* Contact: Heng Li <lh3@sanger.ac.uk> */
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <assert.h>
+#include <stdint.h>
+#include "utils.h"
+#include "bwt.h"
+
+void bwt_gen_cnt_table(bwt_t *bwt)
+{
+	int i, j;
+	for (i = 0; i != 256; ++i) {
+		uint32_t x = 0;
+		for (j = 0; j != 4; ++j)
+			x |= (((i&3) == j) + ((i>>2&3) == j) + ((i>>4&3) == j) + (i>>6 == j)) << (j<<3);
+		bwt->cnt_table[i] = x;
+	}
+}
+
+// bwt->bwt and bwt->occ must be precalculated
+void bwt_cal_sa(bwt_t *bwt, int intv)
+{
+	bwtint_t isa, sa, i; // S(isa) = sa
+
+	xassert(bwt->bwt, "bwt_t::bwt is not initialized.");
+
+	if (bwt->sa) free(bwt->sa);
+	bwt->sa_intv = intv;
+	bwt->n_sa = (bwt->seq_len + intv) / intv;
+	bwt->sa = (bwtint_t*)calloc(bwt->n_sa, sizeof(bwtint_t));
+	// calculate SA value
+	isa = 0; sa = bwt->seq_len;
+	for (i = 0; i < bwt->seq_len; ++i) {
+		if (isa % intv == 0) bwt->sa[isa/intv] = sa;
+		--sa;
+		isa = bwt_invPsi(bwt, isa);
+	}
+	if (isa % intv == 0) bwt->sa[isa/intv] = sa;
+	bwt->sa[0] = (bwtint_t)-1; // before this line, bwt->sa[0] = bwt->seq_len
+}
+
+bwtint_t bwt_sa(const bwt_t *bwt, bwtint_t k)
+{
+	bwtint_t sa = 0;
+	while (k % bwt->sa_intv != 0) {
+		++sa;
+		k = bwt_invPsi(bwt, k);
+	}
+	/* without setting bwt->sa[0] = -1, the following line should be
+	   changed to (sa + bwt->sa[k/bwt->sa_intv]) % (bwt->seq_len + 1) */
+	return sa + bwt->sa[k/bwt->sa_intv];
+}
+
+static inline int __occ_aux(uint64_t y, int c)
+{
+	// reduce nucleotide counting to bits counting
+	y = ((c&2)? y : ~y) >> 1 & ((c&1)? y : ~y) & 0x5555555555555555ull;
+	// count the number of 1s in y
+	y = (y & 0x3333333333333333ull) + (y >> 2 & 0x3333333333333333ull);
+	return ((y + (y >> 4)) & 0xf0f0f0f0f0f0f0full) * 0x101010101010101ull >> 56;
+}
+
+inline bwtint_t bwt_occ(const bwt_t *bwt, bwtint_t k, ubyte_t c)
+{
+	bwtint_t n, l, j;
+	uint32_t *p;
+
+	if (k == bwt->seq_len) return bwt->L2[c+1] - bwt->L2[c];
+	if (k == (bwtint_t)(-1)) return 0;
+	if (k >= bwt->primary) --k; // because $ is not in bwt
+
+	// retrieve Occ at k/OCC_INTERVAL
+	n = (p = bwt_occ_intv(bwt, k))[c];
+	p += 4; // jump to the start of the first BWT cell
+
+	// calculate Occ up to the last k/32
+	j = k >> 5 << 5;
+	for (l = k/OCC_INTERVAL*OCC_INTERVAL; l < j; l += 32, p += 2)
+		n += __occ_aux((uint64_t)p[0]<<32 | p[1], c);
+
+	// calculate Occ
+	n += __occ_aux(((uint64_t)p[0]<<32 | p[1]) & ~((1ull<<((~k&31)<<1)) - 1), c);
+	if (c == 0) n -= ~k&31; // corrected for the masked bits
+
+	return n;
+}
+
+// an analogy to bwt_occ() but more efficient, requiring k <= l
+inline void bwt_2occ(const bwt_t *bwt, bwtint_t k, bwtint_t l, ubyte_t c, bwtint_t *ok, bwtint_t *ol)
+{
+	bwtint_t _k, _l;
+	if (k == l) {
+		*ok = *ol = bwt_occ(bwt, k, c);
+		return;
+	}
+	_k = (k >= bwt->primary)? k-1 : k;
+	_l = (l >= bwt->primary)? l-1 : l;
+	if (_l/OCC_INTERVAL != _k/OCC_INTERVAL || k == (bwtint_t)(-1) || l == (bwtint_t)(-1)) {
+		*ok = bwt_occ(bwt, k, c);
+		*ol = bwt_occ(bwt, l, c);
+	} else {
+		bwtint_t m, n, i, j;
+		uint32_t *p;
+		if (k >= bwt->primary) --k;
+		if (l >= bwt->primary) --l;
+		n = (p = bwt_occ_intv(bwt, k))[c];
+		p += 4;
+		// calculate *ok
+		j = k >> 5 << 5;
+		for (i = k/OCC_INTERVAL*OCC_INTERVAL; i < j; i += 32, p += 2)
+			n += __occ_aux((uint64_t)p[0]<<32 | p[1], c);
+		m = n;
+		n += __occ_aux(((uint64_t)p[0]<<32 | p[1]) & ~((1ull<<((~k&31)<<1)) - 1), c);
+		if (c == 0) n -= ~k&31; // corrected for the masked bits
+		*ok = n;
+		// calculate *ol
+		j = l >> 5 << 5;
+		for (; i < j; i += 32, p += 2)
+			m += __occ_aux((uint64_t)p[0]<<32 | p[1], c);
+		m += __occ_aux(((uint64_t)p[0]<<32 | p[1]) & ~((1ull<<((~l&31)<<1)) - 1), c);
+		if (c == 0) m -= ~l&31; // corrected for the masked bits
+		*ol = m;
+	}
+}
+
+#define __occ_aux4(bwt, b)											\
+	((bwt)->cnt_table[(b)&0xff] + (bwt)->cnt_table[(b)>>8&0xff]		\
+	 + (bwt)->cnt_table[(b)>>16&0xff] + (bwt)->cnt_table[(b)>>24])
+
+inline void bwt_occ4(const bwt_t *bwt, bwtint_t k, bwtint_t cnt[4])
+{
+	bwtint_t l, j, x;
+	uint32_t *p;
+	if (k == (bwtint_t)(-1)) {
+		memset(cnt, 0, 4 * sizeof(bwtint_t));
+		return;
+	}
+	if (k >= bwt->primary) --k; // because $ is not in bwt
+	p = bwt_occ_intv(bwt, k);
+	memcpy(cnt, p, 16);
+	p += 4;
+	j = k >> 4 << 4;
+	for (l = k / OCC_INTERVAL * OCC_INTERVAL, x = 0; l < j; l += 16, ++p)
+		x += __occ_aux4(bwt, *p);
+	x += __occ_aux4(bwt, *p & ~((1U<<((~k&15)<<1)) - 1)) - (~k&15);
+	cnt[0] += x&0xff; cnt[1] += x>>8&0xff; cnt[2] += x>>16&0xff; cnt[3] += x>>24;
+}
+
+// an analogy to bwt_occ4() but more efficient, requiring k <= l
+inline void bwt_2occ4(const bwt_t *bwt, bwtint_t k, bwtint_t l, bwtint_t cntk[4], bwtint_t cntl[4])
+{
+	bwtint_t _k, _l;
+	if (k == l) {
+		bwt_occ4(bwt, k, cntk);
+		memcpy(cntl, cntk, 4 * sizeof(bwtint_t));
+		return;
+	}
+	_k = (k >= bwt->primary)? k-1 : k;
+	_l = (l >= bwt->primary)? l-1 : l;
+	if (_l/OCC_INTERVAL != _k/OCC_INTERVAL || k == (bwtint_t)(-1) || l == (bwtint_t)(-1)) {
+		bwt_occ4(bwt, k, cntk);
+		bwt_occ4(bwt, l, cntl);
+	} else {
+		bwtint_t i, j, x, y;
+		uint32_t *p;
+		int cl[4];
+		if (k >= bwt->primary) --k; // because $ is not in bwt
+		if (l >= bwt->primary) --l;
+		cl[0] = cl[1] = cl[2] = cl[3] = 0;
+		p = bwt_occ_intv(bwt, k);
+		memcpy(cntk, p, 4 * sizeof(bwtint_t));
+		p += 4;
+		// prepare cntk[]
+		j = k >> 4 << 4;
+		for (i = k / OCC_INTERVAL * OCC_INTERVAL, x = 0; i < j; i += 16, ++p)
+			x += __occ_aux4(bwt, *p);
+		y = x;
+		x += __occ_aux4(bwt, *p & ~((1U<<((~k&15)<<1)) - 1)) - (~k&15);
+		// calculate cntl[] and finalize cntk[]
+		j = l >> 4 << 4;
+		for (; i < j; i += 16, ++p) y += __occ_aux4(bwt, *p);
+		y += __occ_aux4(bwt, *p & ~((1U<<((~l&15)<<1)) - 1)) - (~l&15);
+		memcpy(cntl, cntk, 16);
+		cntk[0] += x&0xff; cntk[1] += x>>8&0xff; cntk[2] += x>>16&0xff; cntk[3] += x>>24;
+		cntl[0] += y&0xff; cntl[1] += y>>8&0xff; cntl[2] += y>>16&0xff; cntl[3] += y>>24;
+	}
+}
+
+int bwt_match_exact(const bwt_t *bwt, int len, const ubyte_t *str, bwtint_t *sa_begin, bwtint_t *sa_end)
+{
+	bwtint_t k, l, ok, ol;
+	int i;
+	k = 0; l = bwt->seq_len;
+	for (i = len - 1; i >= 0; --i) {
+		ubyte_t c = str[i];
+		if (c > 3) return 0; // no match
+		bwt_2occ(bwt, k - 1, l, c, &ok, &ol);
+		k = bwt->L2[c] + ok + 1;
+		l = bwt->L2[c] + ol;
+		if (k > l) break; // no match
+	}
+	if (k > l) return 0; // no match
+	if (sa_begin) *sa_begin = k;
+	if (sa_end)   *sa_end = l;
+	return l - k + 1;
+}
+
+int bwt_match_exact_alt(const bwt_t *bwt, int len, const ubyte_t *str, bwtint_t *k0, bwtint_t *l0)
+{
+	int i;
+	bwtint_t k, l, ok, ol;
+	k = *k0; l = *l0;
+	for (i = len - 1; i >= 0; --i) {
+		ubyte_t c = str[i];
+		if (c > 3) return 0; // there is an N here. no match
+		bwt_2occ(bwt, k - 1, l, c, &ok, &ol);
+		k = bwt->L2[c] + ok + 1;
+		l = bwt->L2[c] + ol;
+		if (k > l) return 0; // no match
+	}
+	*k0 = k; *l0 = l;
+	return l - k + 1;
+}