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DB.c
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DB.c
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/*******************************************************************************************
*
* Compressed data base module. Auxiliary routines to open and manipulate a data base for
* which the sequence and read information are separated into two separate files, and the
* sequence is compressed into 2-bits for each base. Support for tracks of additional
* information, and trimming according to the current partition.
*
* Author : Gene Myers
* Date : July 2013
* Revised: April 2014
*
********************************************************************************************/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include <unistd.h>
#include <dirent.h>
#include <limits.h>
#include <sys/stat.h>
#include "DB.h"
#ifdef HIDE_FILES
#define PATHSEP "/."
#else
#define PATHSEP "/"
#endif
/*******************************************************************************************
*
* GENERAL UTILITIES
*
********************************************************************************************/
char *Prog_Name;
#ifdef INTERACTIVE
char Ebuffer[1000];
#endif
int Count_Args(char *var)
{ int cnt, lev;
char *s;
cnt = 1;
lev = 0;
for (s = var; *s != '\0'; s++)
if (*s == ',')
{ if (lev == 0)
cnt += 1;
}
else if (*s == '(')
lev += 1;
else if (*s == ')')
lev -= 1;
return (cnt);
}
void *Malloc(int64 size, char *mesg)
{ void *p;
if ((p = malloc(size)) == NULL)
{ if (mesg == NULL)
EPRINTF(EPLACE,"%s: Out of memory\n",Prog_Name);
else
EPRINTF(EPLACE,"%s: Out of memory (%s)\n",Prog_Name,mesg);
}
return (p);
}
void *Realloc(void *p, int64 size, char *mesg)
{ if (size <= 0)
size = 1;
if ((p = realloc(p,size)) == NULL)
{ if (mesg == NULL)
EPRINTF(EPLACE,"%s: Out of memory\n",Prog_Name);
else
EPRINTF(EPLACE,"%s: Out of memory (%s)\n",Prog_Name,mesg);
}
return (p);
}
char *Strdup(char *name, char *mesg)
{ char *s;
if (name == NULL)
return (NULL);
if ((s = strdup(name)) == NULL)
{ if (mesg == NULL)
EPRINTF(EPLACE,"%s: Out of memory\n",Prog_Name);
else
EPRINTF(EPLACE,"%s: Out of memory (%s)\n",Prog_Name,mesg);
}
return (s);
}
FILE *Fopen(char *name, char *mode)
{ FILE *f;
if (name == NULL || mode == NULL)
return (NULL);
if ((f = fopen(name,mode)) == NULL)
EPRINTF(EPLACE,"%s: Cannot open %s for '%s'\n",Prog_Name,name,mode);
return (f);
}
char *PathTo(char *name)
{ char *path, *find;
if (name == NULL)
return (NULL);
if ((find = rindex(name,'/')) != NULL)
{ *find = '\0';
path = Strdup(name,"Extracting path from");
*find = '/';
}
else
path = Strdup(".","Allocating default path");
return (path);
}
char *Root(char *name, char *suffix)
{ char *path, *find, *dot;
int epos;
if (name == NULL)
return (NULL);
find = rindex(name,'/');
if (find == NULL)
find = name;
else
find += 1;
if (suffix == NULL)
{ dot = strchr(find,'.');
if (dot != NULL)
*dot = '\0';
path = Strdup(find,"Extracting root from");
if (dot != NULL)
*dot = '.';
}
else
{ epos = strlen(find);
epos -= strlen(suffix);
if (epos > 0 && strcasecmp(find+epos,suffix) == 0)
{ find[epos] = '\0';
path = Strdup(find,"Extracting root from");
find[epos] = suffix[0];
}
else
path = Strdup(find,"Allocating root");
}
return (path);
}
char *Catenate(char *path, char *sep, char *root, char *suffix)
{ static char *cat = NULL;
static int max = -1;
int len;
if (path == NULL || root == NULL || sep == NULL || suffix == NULL)
return (NULL);
len = strlen(path);
len += strlen(sep);
len += strlen(root);
len += strlen(suffix);
if (len > max)
{ max = ((int) (1.2*len)) + 100;
cat = (char *) realloc(cat,max+1);
if (cat == NULL)
{ EPRINTF(EPLACE,"%s: Out of memory (Making path name for %s)\n",Prog_Name,root);
return (NULL);
}
}
sprintf(cat,"%s%s%s%s",path,sep,root,suffix);
return (cat);
}
char *Numbered_Suffix(char *left, int num, char *right)
{ static char *sfx = NULL;
static int max = -1;
int len;
if (left == NULL || right == NULL)
return (NULL);
len = strlen(left);
len += strlen(right) + 40;
if (len > max)
{ max = ((int) (1.2*len)) + 100;
sfx = (char *) realloc(sfx,max+1);
if (sfx == NULL)
{ EPRINTF(EPLACE,"%s: Out of memory (Making number suffix for %d)\n",Prog_Name,num);
return (NULL);
}
}
sprintf(sfx,"%s%d%s",left,num,right);
return (sfx);
}
static char *MyCatenate(char *path, char *sep, char *root, char *suffix)
{ static char *cat = NULL;
static int max = -1;
int len;
if (path == NULL || root == NULL || sep == NULL || suffix == NULL)
return (NULL);
len = strlen(path);
len += strlen(sep);
len += strlen(root);
len += strlen(suffix);
if (len > max)
{ max = ((int) (1.2*len)) + 100;
cat = (char *) realloc(cat,max+1);
if (cat == NULL)
{ EPRINTF(EPLACE,"%s: Out of memory (Making path name for %s)\n",Prog_Name,root);
return (NULL);
}
}
sprintf(cat,"%s%s%s%s",path,sep,root,suffix);
return (cat);
}
static char *MyNumbered_Suffix(char *left, int num, char *right)
{ static char *sfx = NULL;
static int max = -1;
int len;
if (left == NULL || right == NULL)
return (NULL);
len = strlen(left);
len += strlen(right) + 40;
if (len > max)
{ max = ((int) (1.2*len)) + 100;
sfx = (char *) realloc(sfx,max+1);
if (sfx == NULL)
{ EPRINTF(EPLACE,"%s: Out of memory (Making number suffix for %d)\n",Prog_Name,num);
return (NULL);
}
}
sprintf(sfx,"%s%d%s",left,num,right);
return (sfx);
}
#define COMMA ','
// Print big integers with commas/periods for better readability
void Print_Number(int64 num, int width, FILE *out)
{ if (width == 0)
{ if (num < 1000ll)
fprintf(out,"%lld",num);
else if (num < 1000000ll)
fprintf(out,"%lld%c%03lld",num/1000ll,COMMA,num%1000ll);
else if (num < 1000000000ll)
fprintf(out,"%lld%c%03lld%c%03lld",num/1000000ll,
COMMA,(num%1000000ll)/1000ll,COMMA,num%1000ll);
else
fprintf(out,"%lld%c%03lld%c%03lld%c%03lld",num/1000000000ll,
COMMA,(num%1000000000ll)/1000000ll,
COMMA,(num%1000000ll)/1000ll,COMMA,num%1000ll);
}
else
{ if (num < 1000ll)
fprintf(out,"%*lld",width,num);
else if (num < 1000000ll)
{ if (width <= 4)
fprintf(out,"%lld%c%03lld",num/1000ll,COMMA,num%1000ll);
else
fprintf(out,"%*lld%c%03lld",width-4,num/1000ll,COMMA,num%1000ll);
}
else if (num < 1000000000ll)
{ if (width <= 8)
fprintf(out,"%lld%c%03lld%c%03lld",num/1000000ll,COMMA,(num%1000000ll)/1000ll,
COMMA,num%1000ll);
else
fprintf(out,"%*lld%c%03lld%c%03lld",width-8,num/1000000ll,COMMA,(num%1000000ll)/1000ll,
COMMA,num%1000ll);
}
else
{ if (width <= 12)
fprintf(out,"%lld%c%03lld%c%03lld%c%03lld",num/1000000000ll,COMMA,
(num%1000000000ll)/1000000ll,COMMA,
(num%1000000ll)/1000ll,COMMA,num%1000ll);
else
fprintf(out,"%*lld%c%03lld%c%03lld%c%03lld",width-12,num/1000000000ll,COMMA,
(num%1000000000ll)/1000000ll,COMMA,
(num%1000000ll)/1000ll,COMMA,num%1000ll);
}
}
}
// Return the number of digits, base 10, of num
int Number_Digits(int64 num)
{ int digit;
digit = 0;
while (num >= 1)
{ num /= 10;
digit += 1;
}
return (digit);
}
/*******************************************************************************************
*
* READ COMPRESSION/DECOMPRESSION UTILITIES
*
********************************************************************************************/
// Compress read into 2-bits per base (from [0-3] per byte representation
void Compress_Read(int len, char *s)
{ int i;
char c, d;
char *s0, *s1, *s2, *s3;
s0 = s;
s1 = s0+1;
s2 = s1+1;
s3 = s2+1;
c = s1[len];
d = s2[len];
s0[len] = s1[len] = s2[len] = 0;
for (i = 0; i < len; i += 4)
*s++ = (char ) ((s0[i] << 6) | (s1[i] << 4) | (s2[i] << 2) | s3[i]);
s1[len] = c;
s2[len] = d;
}
// Uncompress read form 2-bits per base into [0-3] per byte representation
void Uncompress_Read(int len, char *s)
{ int i, tlen, byte;
char *s0, *s1, *s2, *s3;
char *t;
s0 = s;
s1 = s0+1;
s2 = s1+1;
s3 = s2+1;
tlen = (len-1)/4;
t = s+tlen;
for (i = tlen*4; i >= 0; i -= 4)
{ byte = *t--;
s0[i] = (char) ((byte >> 6) & 0x3);
s1[i] = (char) ((byte >> 4) & 0x3);
s2[i] = (char) ((byte >> 2) & 0x3);
s3[i] = (char) (byte & 0x3);
}
s[len] = 4;
}
// Convert read in [0-3] representation to ascii representation (end with '\n')
void Lower_Read(char *s)
{ static char letter[4] = { 'a', 'c', 'g', 't' };
for ( ; *s != 4; s++)
*s = letter[(int) *s];
*s = '\0';
}
void Upper_Read(char *s)
{ static char letter[4] = { 'A', 'C', 'G', 'T' };
for ( ; *s != 4; s++)
*s = letter[(int) *s];
*s = '\0';
}
void Letter_Arrow(char *s)
{ static char letter[4] = { '1', '2', '3', '4' };
for ( ; *s != 4; s++)
*s = letter[(int) *s];
*s = '\0';
}
// Convert read in ascii representation to [0-3] representation (end with 4)
void Number_Read(char *s)
{ static char number[128] =
{ 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 1, 0, 0, 0, 2,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 3, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 1, 0, 0, 0, 2,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 3, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
};
for ( ; *s != '\0'; s++)
*s = number[(int) *s];
*s = 4;
}
void Number_Arrow(char *s)
{ static char arrow[128] =
{ 3, 3, 3, 3, 3, 3, 3, 3,
3, 3, 3, 3, 3, 3, 3, 3,
3, 3, 3, 3, 3, 3, 3, 3,
3, 3, 3, 3, 3, 3, 3, 3,
3, 3, 3, 3, 3, 3, 3, 3,
3, 3, 3, 3, 3, 3, 3, 3,
3, 0, 1, 2, 3, 3, 3, 3,
3, 3, 3, 3, 3, 3, 3, 3,
3, 3, 3, 3, 3, 3, 3, 2,
3, 3, 3, 3, 3, 3, 3, 3,
3, 3, 3, 3, 3, 3, 3, 3,
3, 3, 3, 3, 3, 3, 3, 3,
3, 3, 3, 3, 3, 3, 3, 3,
3, 3, 3, 3, 3, 3, 3, 3,
3, 3, 3, 3, 3, 3, 3, 3,
3, 3, 3, 3, 3, 3, 3, 3,
};
for ( ; *s != '\0'; s++)
*s = arrow[(int) *s];
*s = 4;
}
void Change_Read(char *s)
{ static char change[128] =
{ 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 'a', 0, 'c', 0, 0, 0, 'g',
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 't', 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 'A', 0, 'C', 0, 0, 0, 'G',
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 'T', 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
};
for ( ; *s != '\0'; s++)
*s = change[(int) *s];
}
/*******************************************************************************************
*
* DB STUB HANDLING ROUTINES
*
********************************************************************************************/
// Read the contents of the DB stub file at "path" and return it encoded in a DAZZ_STUB
// structure. This is allocated by the routine. "path" is assumed to be the complete
// name of the file.
DAZZ_STUB *Read_DB_Stub(char *path, int what)
{ FILE *dbfile;
DAZZ_STUB *stub;
char buf1[MAX_NAME+100];
char buf2[MAX_NAME+100];
int nread;
int i;
int nfiles;
int nblocks;
int64 size;
int all, cutoff;
dbfile = Fopen(path,"r");
if (dbfile == NULL)
EXIT(NULL);
stub = Malloc(sizeof(DAZZ_STUB),"Allocating DB stub record");
if (stub == NULL)
{ fclose(dbfile);
EXIT(NULL);
}
stub->nreads = NULL;
stub->fname = NULL;
stub->prolog = NULL;
stub->ublocks = NULL;
stub->tblocks = NULL;
if (fscanf(dbfile,DB_NFILE,&nfiles) != 1)
goto stub_trash;
if (what & DB_STUB_NREADS)
{ stub->nreads = (int *) Malloc(sizeof(int)*(nfiles+1),"Allocating DB stub record");
if (stub->nreads == NULL)
goto stub_error;
stub->nreads += 1;
}
if (what & DB_STUB_FILES)
{ stub->fname = (char **) Malloc(sizeof(char *)*(nfiles+1),"Allocating DB stub record");
if (stub->fname == NULL)
goto stub_error;
stub->fname += 1;
stub->nfiles = nfiles;
for (i = 0; i < nfiles; i++)
stub->fname[i] = NULL;
}
if (what & DB_STUB_PROLOGS)
{ stub->prolog = (char **) Malloc(sizeof(char *)*(nfiles+1),"Allocating DB stub record");
if (stub->prolog == NULL)
goto stub_error;
stub->prolog += 1;
for (i = 0; i < nfiles; i++)
stub->prolog[i] = NULL;
}
for (i = 0; i < nfiles; i++)
{ if (fscanf(dbfile,DB_FDATA,&nread,buf1,buf2) != 3)
goto stub_trash;
if (what & DB_STUB_NREADS)
stub->nreads[i] = nread;
if (what & DB_STUB_FILES)
{ stub->fname[i] = Strdup(buf1,"Alloacting DB stub record");
if (stub->fname[i] == NULL)
goto stub_error;
}
if (what & DB_STUB_PROLOGS)
{ stub->prolog[i] = Strdup(buf2,"Alloacting DB stub record");
if (stub->prolog[i] == NULL)
goto stub_error;
}
}
if (fscanf(dbfile,DB_NBLOCK,&nblocks) != 1)
goto stub_trash;
if (fscanf(dbfile,DB_PARAMS,&size,&cutoff,&all) != 3)
goto stub_trash;
if (what & DB_STUB_BLOCKS)
{ stub->ublocks = (int *) Malloc(sizeof(int)*(nblocks+1),"Allocating DB stub record");
stub->tblocks = (int *) Malloc(sizeof(int)*(nblocks+1),"Allocating DB stub record");
if (stub->ublocks == NULL || stub->tblocks == NULL)
goto stub_error;
for (i = 0; i <= nblocks; i++)
if (fscanf(dbfile,DB_BDATA,stub->ublocks+i,stub->tblocks+i) != 2)
goto stub_trash;
}
fclose(dbfile);
stub->nfiles = nfiles;
stub->all = all;
stub->cutoff = cutoff;
stub->bsize = size;
stub->nblocks = nblocks;
return (stub);
stub_trash:
EPRINTF(EPLACE,"%s: Stub file %s is junk\n",Prog_Name,path);
stub_error:
Free_DB_Stub(stub);
fclose(dbfile);
EXIT(NULL);
}
// Read the DB stub file "path" and extract the read index range [*first,*last)
// for block n, for the trimmed DB if trim is set, the untrimmed DB otherwise.
int Fetch_Block_Range(char *path, int trim, int n, int *first, int *last)
{ FILE *dbfile;
char buffer[2*MAX_NAME+100];
int nfiles;
int nblocks;
int64 size;
int all, cutoff;
int tfirst, tlast;
int ufirst, ulast;
int i;
dbfile = Fopen(path,"r");
if (dbfile == NULL)
EXIT(1);
if (fscanf(dbfile,DB_NFILE,&nfiles) != 1)
goto stub_error;
for (i = 0; i < nfiles; i++)
if (fgets(buffer,2*MAX_NAME+100,dbfile) == NULL)
goto stub_error;
if (fscanf(dbfile,DB_NBLOCK,&nblocks) != 1)
goto stub_error;
if (n < 0 || n >= nblocks)
{ *first = *last = -1;
return (0);
}
if (fscanf(dbfile,DB_PARAMS,&size,&cutoff,&all) != 3)
goto stub_error;
for (i = 1; i <= n; i++)
if (fscanf(dbfile,DB_BDATA,&ufirst,&tfirst) != 2)
goto stub_error;
if (fscanf(dbfile,DB_BDATA,&ulast,&tlast) != 2)
goto stub_error;
fclose(dbfile);
if (trim)
{ *first = tfirst;
*last = tlast;
}
else
{ *first = ufirst;
*last = ulast;
}
return (0);
stub_error:
fclose(dbfile);
EPRINTF(EPLACE,"%s: Stub file %s is junk\n",Prog_Name,path);
EXIT(1);
}
// Free a DAZZ_STUB data structure returned by Read_DB_Stub
void Free_DB_Stub(DAZZ_STUB *stub)
{ int i;
if (stub == NULL)
return;
if (stub->fname != NULL)
{ for (i = 0; i < stub->nfiles; i++)
free(stub->fname[i]);
free(stub->fname-1);
}
if (stub->prolog != NULL)
{ for (i = 0; i < stub->nfiles; i++)
free(stub->prolog[i]);
free(stub->prolog-1);
}
if (stub->nreads != NULL)
free(stub->nreads-1);
free(stub->ublocks);
free(stub->tblocks);
free(stub);
}
/*******************************************************************************************
*
* DB OPEN, TRIM, SIZE_OF, LIST_FILES & CLOSE ROUTINES
*
********************************************************************************************/
// Open the given database or dam, "path" into the supplied DAZZ_DB record "db". If the name has
// a part # in it then just the part is opened. The index array is allocated (for all or
// just the part) and read in.
// Return status of routine:
// -1: The DB could not be opened for a reason reported by the routine to EPLACE
// 0: Open of DB proceeded without mishap
// 1: Open of DAM proceeded without mishap
static char *atrack_name = ".@arw";
static char *qtrack_name = ".@qvs";
int Open_DB(char* path, DAZZ_DB *db)
{ DAZZ_DB dbcopy;
char *root, *pwd, *bptr, *fptr, *cat;
int nreads;
FILE *index, *dbvis, *bases;
int status, plen, isdam;
int part, cutoff, all;
int ufirst, tfirst, ulast, tlast;
status = -1;
dbcopy = *db;
plen = strlen(path);
if (strcmp(path+(plen-4),".dam") == 0)
{ root = Root(path,".dam");
isdam = 1;
}
else
{ if (strcmp(path+(plen-3),".db") == 0)
isdam = -1;
else
isdam = 0;
root = Root(path,".db");
}
pwd = PathTo(path);
bptr = rindex(root,'.');
if (bptr != NULL && bptr[1] != '\0' && bptr[1] != '-')
{ part = strtol(bptr+1,&fptr,10);
if (*fptr != '\0' || part == 0)
part = 0;
else
*bptr = '\0';
}
else
part = 0;
if (isdam > 0)
cat = MyCatenate(pwd,"/",root,".dam");
else
cat = MyCatenate(pwd,"/",root,".db");
if (cat == NULL)
return (-1);
if ((dbvis = fopen(cat,"r")) == NULL)
{ if (isdam < 0)
{ EPRINTF(EPLACE,"%s: Could not open DB %s\n",Prog_Name,path);
goto error;
}
if (isdam > 0)
{ EPRINTF(EPLACE,"%s: Could not open DAM %s\n",Prog_Name,path);
goto error;
}
cat = MyCatenate(pwd,"/",root,".dam");
if (cat == NULL)
return (-1);
if ((dbvis = fopen(cat,"r")) == NULL)
{ EPRINTF(EPLACE,"%s: Could not open %s as a DB or a DAM\n",Prog_Name,path);
goto error;
}
isdam = 1;
}
if (isdam < 0)
isdam = 0;
if ((index = Fopen(MyCatenate(pwd,PATHSEP,root,".idx"),"r")) == NULL)
goto error1;
if (fread(db,sizeof(DAZZ_DB),1,index) != 1)
{ EPRINTF(EPLACE,"%s: Index file (.idx) of %s is junk\n",Prog_Name,root);
goto error2;
}
{ int p, nblocks, nfiles;
int64 size;
char fname[MAX_NAME], prolog[MAX_NAME];
nblocks = 0;
if (fscanf(dbvis,DB_NFILE,&nfiles) != 1)
{ EPRINTF(EPLACE,"%s: Stub file (.db) of %s is junk\n",Prog_Name,root);
goto error2;
}
for (p = 0; p < nfiles; p++)
if (fscanf(dbvis,DB_FDATA,&tlast,fname,prolog) != 3)
{ EPRINTF(EPLACE,"%s: Stub file (.db) of %s is junk\n",Prog_Name,root);
goto error2;
}
if (fscanf(dbvis,DB_NBLOCK,&nblocks) != 1)
if (part == 0)
{ cutoff = 0;
all = DB_ALL;
}
else
{ EPRINTF(EPLACE,"%s: DB %s has not yet been partitioned, cannot request a block !\n",
Prog_Name,root);
goto error2;
}
else
{ if (fscanf(dbvis,DB_PARAMS,&size,&cutoff,&all) != 3)
{ EPRINTF(EPLACE,"%s: Stub file (.db) of %s is junk\n",Prog_Name,root);
goto error2;
}
if (part > nblocks)
{ EPRINTF(EPLACE,"%s: DB %s has only %d blocks\n",Prog_Name,root,nblocks);
goto error2;
}
}
if (part > 0)
{ for (p = 1; p <= part; p++)
if (fscanf(dbvis,DB_BDATA,&ufirst,&tfirst) != 2)
{ EPRINTF(EPLACE,"%s: Stub file (.db) of %s is junk\n",Prog_Name,root);
goto error2;
}
if (fscanf(dbvis,DB_BDATA,&ulast,&tlast) != 2)
{ EPRINTF(EPLACE,"%s: Stub file (.db) of %s is junk\n",Prog_Name,root);
goto error2;
}
}
else
{ ufirst = tfirst = 0;
ulast = db->ureads;
tlast = db->treads;
}
}
db->trimmed = 0;
db->tracks = NULL;
db->part = part;
db->cutoff = cutoff;
db->allarr |= all;
db->ufirst = ufirst;
db->tfirst = tfirst;
nreads = ulast-ufirst;
if (part <= 0)
{ db->reads = (DAZZ_READ *) Malloc(sizeof(DAZZ_READ)*(nreads+2),"Allocating Open_DB index");
if (db->reads == NULL)
goto error2;
db->reads += 1;
if (fread(db->reads,sizeof(DAZZ_READ),nreads,index) != (size_t) nreads)
{ EPRINTF(EPLACE,"%s: Index file (.idx) of %s is junk\n",Prog_Name,root);
free(db->reads-1);
goto error2;
}
}
else
{ DAZZ_READ *reads;
int i, r, maxlen;
int64 totlen;
reads = (DAZZ_READ *) Malloc(sizeof(DAZZ_READ)*(nreads+2),"Allocating Open_DB index");
if (reads == NULL)
goto error2;
reads += 1;
fseeko(index,sizeof(DAZZ_READ)*ufirst,SEEK_CUR);
if (fread(reads,sizeof(DAZZ_READ),nreads,index) != (size_t) nreads)
{ EPRINTF(EPLACE,"%s: Index file (.idx) of %s is junk\n",Prog_Name,root);
free(reads-1);
goto error2;
}
totlen = 0;
maxlen = 0;
for (i = 0; i < nreads; i++)
{ r = reads[i].rlen;
totlen += r;
if (r > maxlen)
maxlen = r;
}
db->maxlen = maxlen;
db->totlen = totlen;
db->reads = reads;
}
((int *) (db->reads))[-1] = ulast - ufirst; // Kludge, need these for DB part
((int *) (db->reads))[-2] = tlast - tfirst;
db->nreads = nreads;
db->path = Strdup(MyCatenate(pwd,PATHSEP,root,""),"Allocating Open_DB path");
if (db->path == NULL)
{ free(db->reads-1);
goto error2;
}
bases = Fopen(MyCatenate(db->path,"","",".bps"),"r");
if (bases == NULL)
{ free(db->path);
free(db->reads-1);
goto error2;
}
db->bases = (void *) bases;
db->loaded = 0;
status = isdam;
error2:
fclose(index);
error1:
fclose(dbvis);
error:
if (bptr != NULL)
*bptr = '.';
free(pwd);
free(root);
if (status < 0)
*db = dbcopy;
return (status);
}
// Trim the DB or part thereof and all opened tracks according to the cuttof and all settings
// of the current DB partition. Reallocate smaller memory blocks for the information kept
// for the retained reads.
void Trim_DB(DAZZ_DB *db)
{ int i, j, r, f;
int allflag, cutoff, css;
int64 totlen;
int maxlen, nreads;
DAZZ_TRACK *record;
DAZZ_READ *reads;
if (db->trimmed) return;
if (db->cutoff <= 0 && (db->allarr & DB_ALL) != 0) return;
{ int load_error;
load_error = db->loaded;
for (record = db->tracks; record != NULL; record = record->next)
if (record->name == atrack_name)
{ if (((DAZZ_ARROW *) record)->loaded)
load_error = 1;
}
else if (record->name != qtrack_name)
{ if (record->loaded)
load_error = 1;
}
if (load_error)
{ EPRINTF(EPLACE,"%s: Cannot load anything before trim (Trim_DB)\n",Prog_Name);
return;
}
}
cutoff = db->cutoff;
if ((db->allarr & DB_ALL) != 0)
allflag = 0;
else
allflag = DB_BEST;
reads = db->reads;
nreads = db->nreads;
for (record = db->tracks; record != NULL; record = record->next)
if (record->name == qtrack_name)
{ uint16 *table = ((DAZZ_QV *) record)->table;
j = 0;
for (i = 0; i < db->nreads; i++)
if ((reads[i].flags & DB_BEST) >= allflag && reads[i].rlen >= cutoff)
table[j++] = table[i];
}
else if (record->name == atrack_name)
{ DAZZ_ARROW *atrack = (DAZZ_ARROW *) record;
int64 *aoff = atrack->aoff;
for (j = i = 0; i < nreads; i++)
if ((reads[i].flags & DB_BEST) >= allflag && reads[i].rlen >= cutoff)
aoff[j++] = aoff[i];
atrack->aoff = Realloc(aoff,sizeof(int64)*j,NULL);
}
else
{ int size;
size = record->size;
if (record->data == NULL)
{ char *anno = (char *) record->anno;
j = 0;
for (i = r = 0; i < db->nreads; i++, r += size)
if ((reads[i].flags & DB_BEST) >= allflag && reads[i].rlen >= cutoff)
{ memmove(anno+j,anno+r,size);
j += size;
}
record->anno = Realloc(record->anno,record->size*j,NULL);
}
else if (size == 4)
{ int *anno4 = (int *) (record->anno);
int *alen = record->alen;
j = 0;
for (i = 0; i < db->nreads; i++)
if ((reads[i].flags & DB_BEST) >= allflag && reads[i].rlen >= cutoff)
{ anno4[j] = anno4[i];
alen[j] = alen[i];
j += 1;
}
record->alen = Realloc(record->alen,sizeof(int)*j,NULL);
record->anno = Realloc(record->anno,record->size*(j+1),NULL);
}
else // size == 8
{ int64 *anno8 = (int64 *) (record->anno);
int *alen = record->alen;
j = 0;
for (i = 0; i < db->nreads; i++)
if ((reads[i].flags & DB_BEST) >= allflag && reads[i].rlen >= cutoff)
{ anno8[j] = anno8[i];