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LAshow.c
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LAshow.c
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/*******************************************************************************************
*
* Utility for displaying the overlaps in a .las file in a variety of ways including
* a minimal listing of intervals, a cartoon, and a full out alignment.
*
* Author: Gene Myers
* Creation: July 2013
* Last Mod: Jan 2015
*
*******************************************************************************************/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdint.h>
#include <ctype.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/stat.h>
#include "DB.h"
#include "align.h"
static char *Usage[] =
{ "[-caroUF] [-i<int(4)>] [-w<int(100)>] [-b<int(10)>] ",
" <src1:db|dam> [ <src2:db|dam> ] <align:las> [ <reads:FILE> | <reads:range> ... ]"
};
static int ORDER(const void *l, const void *r)
{ int x = *((int *) l);
int y = *((int *) r);
return (x-y);
}
int main(int argc, char *argv[])
{ DAZZ_DB _db1, *db1 = &_db1;
DAZZ_DB _db2, *db2 = &_db2;
Overlap _ovl, *ovl = &_ovl;
Alignment _aln, *aln = &_aln;
FILE *input;
int sameDB;
int64 novl;
int tspace, tbytes, small;
int reps, *pts;
int input_pts;
int ALIGN, CARTOON, REFERENCE, OVERLAP;
int FLIP, MAP;
int INDENT, WIDTH, BORDER, UPPERCASE;
int ISTWO;
// Process options
{ int i, j, k;
int flags[128];
char *eptr;
ARG_INIT("LAshow")
INDENT = 4;
WIDTH = 100;
BORDER = 10;
j = 1;
for (i = 1; i < argc; i++)
if (argv[i][0] == '-')
switch (argv[i][1])
{ default:
ARG_FLAGS("caroUFM")
break;
case 'i':
ARG_NON_NEGATIVE(INDENT,"Indent")
break;
case 'w':
ARG_POSITIVE(WIDTH,"Alignment width")
break;
case 'b':
ARG_NON_NEGATIVE(BORDER,"Alignment border")
break;
}
else
argv[j++] = argv[i];
argc = j;
CARTOON = flags['c'];
ALIGN = flags['a'];
REFERENCE = flags['r'];
OVERLAP = flags['o'];
UPPERCASE = flags['U'];
FLIP = flags['F'];
MAP = flags['M'];
if (argc <= 2)
{ fprintf(stderr,"Usage: %s %s\n",Prog_Name,Usage[0]);
fprintf(stderr," %*s %s\n",(int) strlen(Prog_Name),"",Usage[1]);
fprintf(stderr,"\n");
fprintf(stderr," -c: Show a cartoon of the LA between reads.\n");
fprintf(stderr," -a: Show the alignment of each LA.\n");
fprintf(stderr," -r: Show the alignment of each LA with -w bp's of A in each row.\n");
fprintf(stderr," -o: Show only proper overlaps.\n");
fprintf(stderr," -F: Switch the roles of A- and B-reads.\n");
fprintf(stderr,"\n");
fprintf(stderr," -U: Show alignments in upper case.\n");
fprintf(stderr," -i: Indent alignments and cartoons by -i.\n");
fprintf(stderr," -w: Width of each row of alignment in symbols (-a) or bps (-r).\n");
fprintf(stderr," -b: # of border bp.s to show on each side of LA.\n");
exit (1);
}
}
// Open trimmed DB or DB pair
{ int status;
char *pwd, *root;
FILE *input;
struct stat stat1, stat2;
ISTWO = 0;
status = Open_DB(argv[1],db1);
if (status < 0)
exit (1);
if (db1->part > 0)
{ fprintf(stderr,"%s: Cannot be called on a block: %s\n",Prog_Name,argv[1]);
exit (1);
}
sameDB = 1;
if (argc > 3)
{ pwd = PathTo(argv[3]);
root = Root(argv[3],".las");
if ((input = fopen(Catenate(pwd,"/",root,".las"),"r")) != NULL)
{ ISTWO = 1;
fclose(input);
status = Open_DB(argv[2],db2);
if (status < 0)
exit (1);
if (db2->part > 0)
{ fprintf(stderr,"%s: Cannot be called on a block: %s\n",Prog_Name,argv[2]);
exit (1);
}
stat(Catenate(db1->path,"","",".idx"),&stat1);
stat(Catenate(db2->path,"","",".idx"),&stat2);
if (stat1.st_ino != stat2.st_ino)
sameDB = 0;
Trim_DB(db2);
}
else
db2 = db1;
free(root);
free(pwd);
}
else
db2 = db1;
Trim_DB(db1);
}
// Process read index arguments into a sorted list of read ranges
input_pts = 0;
if (argc == ISTWO+4)
{ if (argv[ISTWO+3][0] != LAST_READ_SYMBOL || argv[ISTWO+3][1] != '\0')
{ char *eptr, *fptr;
int b, e;
b = strtol(argv[ISTWO+3],&eptr,10);
if (eptr > argv[ISTWO+3] && b > 0)
{ if (*eptr == '-')
{ if (eptr[1] != LAST_READ_SYMBOL || eptr[2] != '\0')
{ e = strtol(eptr+1,&fptr,10);
input_pts = (fptr <= eptr+1 || *fptr != '\0' || e <= 0);
}
}
else
input_pts = (*eptr != '\0');
}
else
input_pts = 1;
}
}
if (input_pts)
{ int v, x;
FILE *input;
input = Fopen(argv[ISTWO+3],"r");
if (input == NULL)
exit (1);
reps = 0;
while ((v = fscanf(input," %d",&x)) != EOF)
if (v == 0)
{ fprintf(stderr,"%s: %d'th item of input file %s is not an integer\n",
Prog_Name,reps+1,argv[2]);
exit (1);
}
else
reps += 1;
reps *= 2;
pts = (int *) Malloc(sizeof(int)*reps,"Allocating read parameters");
if (pts == NULL)
exit (1);
rewind(input);
for (v = 0; v < reps; v += 2)
{ fscanf(input," %d",&x);
pts[v] = pts[v+1] = x;
}
fclose(input);
}
else
{ pts = (int *) Malloc(sizeof(int)*2*argc,"Allocating read parameters");
if (pts == NULL)
exit (1);
reps = 0;
if (argc > 3+ISTWO)
{ int c, b, e;
char *eptr, *fptr;
for (c = 3+ISTWO; c < argc; c++)
{ if (argv[c][0] == LAST_READ_SYMBOL)
{ b = db1->nreads;
eptr = argv[c]+1;
}
else
b = strtol(argv[c],&eptr,10);
if (eptr > argv[c])
{ if (b <= 0)
{ fprintf(stderr,"%s: %d is not a valid index\n",Prog_Name,b);
exit (1);
}
if (*eptr == '\0')
{ pts[reps++] = b;
pts[reps++] = b;
continue;
}
else if (*eptr == '-')
{ if (eptr[1] == LAST_READ_SYMBOL)
{ e = INT32_MAX;
fptr = eptr+2;
}
else
e = strtol(eptr+1,&fptr,10);
if (fptr > eptr+1 && *fptr == 0 && e > 0)
{ pts[reps++] = b;
pts[reps++] = e;
if (b > e)
{ fprintf(stderr,"%s: Empty range '%s'\n",Prog_Name,argv[c]);
exit (1);
}
continue;
}
}
}
fprintf(stderr,"%s: argument '%s' is not an integer range\n",Prog_Name,argv[c]);
exit (1);
}
qsort(pts,reps/2,sizeof(int64),ORDER);
b = 0;
for (c = 0; c < reps; c += 2)
if (b > 0 && pts[b-1] >= pts[c]-1)
{ if (pts[c+1] > pts[b-1])
pts[b-1] = pts[c+1];
}
else
{ pts[b++] = pts[c];
pts[b++] = pts[c+1];
}
pts[b++] = INT32_MAX;
reps = b;
}
else
{ pts[reps++] = 1;
pts[reps++] = INT32_MAX;
}
}
// Initiate file reading and read (novl, tspace) header
{ char *over, *pwd, *root;
pwd = PathTo(argv[2+ISTWO]);
root = Root(argv[2+ISTWO],".las");
over = Catenate(pwd,"/",root,".las");
input = Fopen(over,"r");
if (input == NULL)
exit (1);
if (fread(&novl,sizeof(int64),1,input) != 1)
SYSTEM_READ_ERROR
if (fread(&tspace,sizeof(int),1,input) != 1)
SYSTEM_READ_ERROR
if (tspace < 0)
{ fprintf(stderr,"%s: Garbage .las file, trace spacing < 0 !\n",Prog_Name);
exit (1);
}
if (tspace <= TRACE_XOVR && tspace != 0)
{ small = 1;
tbytes = sizeof(uint8);
}
else
{ small = 0;
tbytes = sizeof(uint16);
}
printf("\n%s: ",root);
Print_Number(novl,0,stdout);
printf(" records\n");
free(pwd);
free(root);
}
// Read the file and display selected records
{ int j;
uint16 *trace;
Work_Data *work;
int tmax;
int in, npt, idx, ar;
int64 tps;
char *abuffer, *bbuffer;
int ar_wide, br_wide;
int ai_wide, bi_wide;
int mn_wide, mx_wide;
int tp_wide;
int blast, match, seen, lhalf, rhalf;
aln->path = &(ovl->path);
if (ALIGN || REFERENCE)
{ work = New_Work_Data();
abuffer = New_Read_Buffer(db1);
bbuffer = New_Read_Buffer(db2);
}
else
{ abuffer = NULL;
bbuffer = NULL;
work = NULL;
}
tmax = 1000;
trace = (uint16 *) Malloc(sizeof(uint16)*tmax,"Allocating trace vector");
if (trace == NULL)
exit (1);
in = 0;
npt = pts[0];
idx = 1;
ar_wide = Number_Digits((int64) db1->nreads);
br_wide = Number_Digits((int64) db2->nreads);
ai_wide = Number_Digits((int64) db1->maxlen);
bi_wide = Number_Digits((int64) db2->maxlen);
if (db1->maxlen < db2->maxlen)
{ mn_wide = ai_wide;
mx_wide = bi_wide;
if (tspace > 0)
tp_wide = Number_Digits((int64) db1->maxlen/tspace+2);
else
tp_wide = 0;
}
else
{ mn_wide = bi_wide;
mx_wide = ai_wide;
if (tspace > 0)
tp_wide = Number_Digits((int64) db2->maxlen/tspace+2);
else
tp_wide = 0;
}
ar_wide += (ar_wide-1)/3;
br_wide += (br_wide-1)/3;
ai_wide += (ai_wide-1)/3;
bi_wide += (bi_wide-1)/3;
mn_wide += (mn_wide-1)/3;
tp_wide += (tp_wide-1)/3;
if (FLIP)
{ int x;
x = ar_wide; ar_wide = br_wide; br_wide = x;
x = ai_wide; ai_wide = bi_wide; bi_wide = x;
}
// For each record do
blast = -1;
match = 0;
seen = 0;
lhalf = rhalf = 0;
for (j = 0; j < novl; j++)
// Read it in
{ Read_Overlap(input,ovl);
if (ovl->path.tlen > tmax)
{ tmax = ((int) 1.2*ovl->path.tlen) + 100;
trace = (uint16 *) Realloc(trace,sizeof(uint16)*tmax,"Allocating trace vector");
if (trace == NULL)
exit (1);
}
ovl->path.trace = (void *) trace;
Read_Trace(input,ovl,tbytes);
if (ovl->aread >= db1->nreads)
{ fprintf(stderr,"%s: A-read is out-of-range of DB %s\n",Prog_Name,argv[1]);
exit (1);
}
if (ovl->bread >= db2->nreads)
{ fprintf(stderr,"%s: B-read is out-of-range of DB %s\n",Prog_Name,argv[1+ISTWO]);
exit (1);
}
// Determine if it should be displayed
ar = ovl->aread+1;
if (in)
{ while (ar > npt)
{ npt = pts[idx++];
if (ar < npt)
{ in = 0;
break;
}
npt = pts[idx++];
}
}
else
{ while (ar >= npt)
{ npt = pts[idx++];
if (ar <= npt)
{ in = 1;
break;
}
npt = pts[idx++];
}
}
if (!in)
continue;
// If -o check display only overlaps
aln->alen = db1->reads[ovl->aread].rlen;
aln->blen = db2->reads[ovl->bread].rlen;
aln->flags = ovl->flags;
tps = ovl->path.tlen/2;
if (OVERLAP)
{ if (ovl->path.abpos != 0 && ovl->path.bbpos != 0)
continue;
if (ovl->path.aepos != aln->alen && ovl->path.bepos != aln->blen)
continue;
}
// If -M option then check the completeness of the implied mapping
if (MAP)
{ while (ovl->bread != blast)
{ if (!match && seen && !(lhalf && rhalf))
{ printf("Missing ");
Print_Number((int64) blast+1,br_wide+1,stdout);
printf(" %d ->%lld\n",db2->reads[blast].rlen,db2->reads[blast].coff);
}
match = 0;
seen = 0;
lhalf = rhalf = 0;
blast += 1;
}
seen = 1;
if (ovl->path.abpos == 0)
rhalf = 1;
if (ovl->path.aepos == aln->alen)
lhalf = 1;
if (ovl->path.bbpos != 0 || ovl->path.bepos != aln->blen)
continue;
match = 1;
}
// Display it
if (ALIGN || CARTOON || REFERENCE)
printf("\n");
if (BEST_CHAIN(ovl->flags))
printf("> ");
else if (CHAIN_START(ovl->flags))
printf("+ ");
else if (CHAIN_NEXT(ovl->flags))
printf(" -");
if (FLIP)
{ Flip_Alignment(aln,0);
Print_Number((int64) ovl->bread+1,ar_wide+1,stdout);
printf(" ");
Print_Number((int64) ovl->aread+1,br_wide+1,stdout);
}
else
{ Print_Number((int64) ovl->aread+1,ar_wide+1,stdout);
printf(" ");
Print_Number((int64) ovl->bread+1,br_wide+1,stdout);
}
if (COMP(ovl->flags))
printf(" c");
else
printf(" n");
if (ovl->path.abpos == 0)
printf(" <");
else
printf(" [");
Print_Number((int64) ovl->path.abpos,ai_wide,stdout);
printf("..");
Print_Number((int64) ovl->path.aepos,ai_wide,stdout);
if (ovl->path.aepos == aln->alen)
printf("> x ");
else
printf("] x ");
if (ovl->path.bbpos == 0)
printf("<");
else
printf("[");
if (COMP(ovl->flags))
{ Print_Number((int64) (aln->blen - ovl->path.bbpos),bi_wide,stdout);
printf("..");
Print_Number((int64) (aln->blen - ovl->path.bepos),bi_wide,stdout);
}
else
{ Print_Number((int64) ovl->path.bbpos,bi_wide,stdout);
printf("..");
Print_Number((int64) ovl->path.bepos,bi_wide,stdout);
}
if (ovl->path.bepos == aln->blen)
printf(">");
else
printf("]");
if (!CARTOON)
printf(" ~ %5.2f%% ",(200.*ovl->path.diffs) /
((ovl->path.aepos - ovl->path.abpos) + (ovl->path.bepos - ovl->path.bbpos)) );
printf(" (");
Print_Number(aln->alen,ai_wide,stdout);
printf(" x ");
Print_Number(aln->blen,bi_wide,stdout);
printf(" bps,");
if (CARTOON)
{ Print_Number(tps,tp_wide,stdout);
printf(" trace pts)\n\n");
}
else
{ Print_Number((int64) ovl->path.diffs,mn_wide,stdout);
printf(" diffs, ");
Print_Number(tps,tp_wide,stdout);
printf(" trace pts)\n");
}
if (ALIGN || CARTOON || REFERENCE)
{ if (ALIGN || REFERENCE)
{ char *aseq, *bseq;
int amin, amax;
int bmin, bmax;
int self;
if (FLIP)
Flip_Alignment(aln,0);
if (small)
Decompress_TraceTo16(ovl);
self = sameDB && (ovl->aread == ovl->bread) && !COMP(ovl->flags);
amin = ovl->path.abpos - BORDER;
if (amin < 0) amin = 0;
amax = ovl->path.aepos + BORDER;
if (amax > aln->alen) amax = aln->alen;
if (COMP(aln->flags))
{ bmin = (aln->blen-ovl->path.bepos) - BORDER;
if (bmin < 0) bmin = 0;
bmax = (aln->blen-ovl->path.bbpos) + BORDER;
if (bmax > aln->blen) bmax = aln->blen;
}
else
{ bmin = ovl->path.bbpos - BORDER;
if (bmin < 0) bmin = 0;
bmax = ovl->path.bepos + BORDER;
if (bmax > aln->blen) bmax = aln->blen;
if (self)
{ if (bmin < amin)
amin = bmin;
if (bmax > amax)
amax = bmax;
}
}
aseq = Load_Subread(db1,ovl->aread,amin,amax,abuffer,0);
if (!self)
bseq = Load_Subread(db2,ovl->bread,bmin,bmax,bbuffer,0);
else
bseq = aseq;
aln->aseq = aseq - amin;
if (COMP(aln->flags))
{ Complement_Seq(bseq,bmax-bmin);
aln->bseq = bseq - (aln->blen - bmax);
}
else if (self)
aln->bseq = aln->aseq;
else
aln->bseq = bseq - bmin;
if (tspace == 0)
Compute_Trace_IRR(aln,work,GREEDIEST);
else
Compute_Trace_PTS(aln,work,tspace,GREEDIEST);
if (FLIP)
{ if (COMP(aln->flags))
{ Complement_Seq(aseq,amax-amin);
Complement_Seq(bseq,bmax-bmin);
aln->aseq = aseq - (aln->alen - amax);
aln->bseq = bseq - bmin;
}
Flip_Alignment(aln,1);
}
}
if (CARTOON)
Alignment_Cartoon(stdout,aln,INDENT,mx_wide);
if (REFERENCE)
Print_Reference(stdout,aln,work,INDENT,WIDTH,BORDER,UPPERCASE,mx_wide);
if (ALIGN)
Print_Alignment(stdout,aln,work,INDENT,WIDTH,BORDER,UPPERCASE,mx_wide);
}
}
free(trace);
if (ALIGN)
{ free(bbuffer-1);
free(abuffer-1);
Free_Work_Data(work);
}
}
Close_DB(db1);
if (ISTWO)
Close_DB(db2);
exit (0);
}