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llvm / llvm-test-suite / refs/heads/main / . / MultiSource / Benchmarks / mafft / io.c
blob: d713e526bde2fa5903c8afcb17f95b57085ff44d [file] [log] [blame]
#include "mltaln.h"
static int upperCase = 0;
#define DEBUG 0
#define IODEBUG 0
#if 0
static int addlocalhom2( char *al1, char *al2, LocalHom *localhompt, int off1, int off2, int opt, int overlapaa, int skip )
{
int pos1, pos2, start1, start2, end1, end2;
char *pt1, *pt2;
int iscore;
int isumscore;
int sumoverlap;
LocalHom *tmppt;
int st;
int nlocalhom = 0;
pt1 = al1; pt2 = al2;
pos1 = off1; pos2 = off2;
isumscore = 0;
sumoverlap = 0;
#if 0
fprintf( stderr, "nlocalhom = %d in addlocalhom\n", nlocalhom );
fprintf( stderr, "al1 = %s, al2 = %s\n", al1, al2 );
fprintf( stderr, "off1 = %d, off2 = %d\n", off1, off2 );
fprintf( stderr, "localhopt = %p, skip = %d\n", localhompt, skip );
fprintf( stderr, "pt1 = \n%s\n, pt2 = \n%s\n", pt1, pt2 );
#endif
if( skip )
{
while( --skip > 0 ) localhompt = localhompt->next;
localhompt->next = (LocalHom *)calloc( 1, sizeof( LocalHom ) );
localhompt = localhompt->next;
// fprintf( stderr, "tmppt = %p, localhompt = %p\n", tmppt, localhompt );
}
tmppt = localhompt;
st = 0;
iscore = 0;
while( *pt1 != 0 )
{
// fprintf( stderr, "In in while loop\n" );
// fprintf( stderr, "pt = %c, %c, st=%d\n", *pt1, *pt2, st );
if( st == 1 && ( *pt1 == '-' || *pt2 == '-' ) )
{
end1 = pos1 - 1;
end2 = pos2 - 1;
if( nlocalhom++ > 0 )
{
// fprintf( stderr, "reallocating ...\n" );
tmppt->next = (LocalHom *)calloc( 1, sizeof( LocalHom ) );
// fprintf( stderr, "done\n" );
tmppt = tmppt->next;
tmppt->next = NULL;
}
tmppt->start1 = start1;
tmppt->start2 = start2;
tmppt->end1 = end1 ;
tmppt->end2 = end2 ;
#if 1
isumscore += iscore;
sumoverlap += end2-start2+1;
#else
tmppt->overlapaa = end2-start2+1;
tmppt->opt = iscore * 5.8 / 600;
tmppt->overlapaa = overlapaa;
tmppt->opt = (double)opt;
#endif
#if 0
fprintf( stderr, "iscore (1)= %d\n", iscore );
fprintf( stderr, "al1: %d - %d\n", start1, end1 );
fprintf( stderr, "al2: %d - %d\n", start2, end2 );
#endif
iscore = 0;
st = 0;
}
else if( *pt1 != '-' && *pt2 != '-' )
{
if( st == 0 )
{
start1 = pos1; start2 = pos2;
st = 1;
}
iscore += n_dis[(int)amino_n[(int)*pt1]][(int)amino_n[(int)*pt2]];
// fprintf( stderr, "%c-%c, score(0) = %d\n", *pt1, *pt2, iscore );
}
if( *pt1++ != '-' ) pos1++;
if( *pt2++ != '-' ) pos2++;
}
if( st )
{
if( nlocalhom++ > 0 )
{
// fprintf( stderr, "reallocating ...\n" );
tmppt->next = (LocalHom *)calloc( 1, sizeof( LocalHom ) );
// fprintf( stderr, "done\n" );
tmppt = tmppt->next;
tmppt->next = NULL;
}
end1 = pos1 - 1;
end2 = pos2 - 1;
tmppt->start1 = start1;
tmppt->start2 = start2;
tmppt->end1 = end1 ;
tmppt->end2 = end2 ;
#if 1
isumscore += iscore;
sumoverlap += end2-start2+1;
#else
tmppt->overlapaa = end2-start2+1;
tmppt->opt = (double)iscore * 5.8 / 600;
tmppt->overlapaa = overlapaa;
tmppt->opt = (double)opt;
#endif
#if 0
fprintf( stderr, "score (2)= %d\n", iscore );
fprintf( stderr, "al1: %d - %d\n", start1, end1 );
fprintf( stderr, "al2: %d - %d\n", start2, end2 );
#endif
}
for( tmppt=localhompt; tmppt; tmppt=tmppt->next )
{
tmppt->overlapaa = sumoverlap;
tmppt->opt = (double)sumscore * 5.8 / 600 / sumoverlap;
}
return( nlocalhom );
}
#endif
static int addlocalhom_r( char *al1, char *al2, LocalHom *localhompt, int off1, int off2, int opt, int overlapaa, int skip )
{
int pos1, pos2, start1, start2, end1, end2;
char *pt1, *pt2;
double score;
double sumscore;
int sumoverlap;
LocalHom *tmppt = NULL; // by D.Mathog, a guess
int st;
int nlocalhom = 0;
pt1 = al1; pt2 = al2;
pos1 = off1; pos2 = off2;
sumscore = 0.0;
sumoverlap = 0;
start1 = 0; // by D.Mathog, a guess
start2 = 0; // by D.Mathog, a guess
#if 0
fprintf( stderr, "nlocalhom = %d in addlocalhom\n", nlocalhom );
fprintf( stderr, "al1 = %s, al2 = %s\n", al1, al2 );
fprintf( stderr, "off1 = %d, off2 = %d\n", off1, off2 );
fprintf( stderr, "localhopt = %p, skip = %d\n", localhompt, skip );
#endif
fprintf( stderr, "pt1 = \n%s\n, pt2 = \n%s\n", pt1, pt2 );
if( skip )
{
while( --skip > 0 ) localhompt = localhompt->next;
localhompt->next = (LocalHom *)calloc( 1, sizeof( LocalHom ) );
localhompt = localhompt->next;
fprintf( stderr, "tmppt = %p, localhompt = %p\n", (void *)tmppt, (void *)localhompt );
}
tmppt = localhompt;
st = 0;
score = 0.0;
while( *pt1 != 0 )
{
fprintf( stderr, "In in while loop\n" );
fprintf( stderr, "pt = %c, %c, st=%d\n", *pt1, *pt2, st );
if( st == 1 && ( *pt1 == '-' || *pt2 == '-' ) )
{
end1 = pos1 - 1;
end2 = pos2 - 1;
if( nlocalhom++ > 0 )
{
// fprintf( stderr, "reallocating ...\n" );
tmppt->next = (LocalHom *)calloc( 1, sizeof( LocalHom ) );
// fprintf( stderr, "done\n" );
tmppt = tmppt->next;
tmppt->next = NULL;
}
tmppt->start1 = start1;
tmppt->start2 = start2;
tmppt->end1 = end1 ;
tmppt->end2 = end2 ;
#if 1
sumscore += score;
sumoverlap += end2-start2+1;
#else
tmppt->overlapaa = end2-start2+1;
tmppt->opt = score * 5.8 / 600;
tmppt->overlapaa = overlapaa;
tmppt->opt = (double)opt;
#endif
fprintf( stderr, "score (1)= %f\n", score );
fprintf( stderr, "al1: %d - %d\n", start1, end1 );
fprintf( stderr, "al2: %d - %d\n", start2, end2 );
score = 0.0;
st = 0;
}
else if( *pt1 != '-' && *pt2 != '-' )
{
if( st == 0 )
{
start1 = pos1; start2 = pos2;
st = 1;
}
score += (double)n_dis[(int)amino_n[(int)*pt1]][(int)amino_n[(int)*pt2]];
// fprintf( stderr, "%c-%c, score(0) = %f\n", *pt1, *pt2, score );
}
if( *pt1++ != '-' ) pos1++;
if( *pt2++ != '-' ) pos2++;
}
if( nlocalhom++ > 0 )
{
// fprintf( stderr, "reallocating ...\n" );
tmppt->next = (LocalHom *)calloc( 1, sizeof( LocalHom ) );
// fprintf( stderr, "done\n" );
tmppt = tmppt->next;
tmppt->next = NULL;
}
end1 = pos1 - 1;
end2 = pos2 - 1;
tmppt->start1 = start1;
tmppt->start2 = start2;
tmppt->end1 = end1 ;
tmppt->end2 = end2 ;
#if 1
sumscore += score;
sumoverlap += end2-start2+1;
#else
tmppt->overlapaa = end2-start2+1;
tmppt->opt = score * 5.8 / 600;
tmppt->overlapaa = overlapaa;
tmppt->opt = (double)opt;
#endif
fprintf( stderr, "score (2)= %f\n", score );
fprintf( stderr, "al1: %d - %d\n", start1, end1 );
fprintf( stderr, "al2: %d - %d\n", start2, end2 );
for( tmppt=localhompt; tmppt; tmppt=tmppt->next )
{
tmppt->overlapaa = sumoverlap;
tmppt->opt = sumscore * 5.8 / 600 / sumoverlap;
}
return( nlocalhom );
}
void putlocalhom3( char *al1, char *al2, LocalHom *localhompt, int off1, int off2, int opt, int overlapaa )
{
int pos1, pos2, start1, start2, end1, end2;
char *pt1, *pt2;
double score;
double sumscore;
int sumoverlap;
LocalHom *tmppt;
LocalHom *subnosento;
int st;
int saisho;
pt1 = al1; pt2 = al2;
pos1 = off1; pos2 = off2;
sumscore = 0.0;
sumoverlap = 0;
start1 = 0; // by Mathog, a guess
start2 = 0; // by Mathog, a guess
subnosento = localhompt;
while( subnosento->next ) subnosento = subnosento->next;
tmppt = subnosento;
saisho = ( localhompt->nokori == 0 );
fprintf( stderr, "localhompt = %p\n", (void *)localhompt );
fprintf( stderr, "tmppt = %p\n", (void *)tmppt );
fprintf( stderr, "subnosento = %p\n", (void *)subnosento );
st = 0;
score = 0.0;
while( *pt1 != 0 )
{
// fprintf( stderr, "pt = %c, %c, st=%d\n", *pt1, *pt2, st );
if( st == 1 && ( *pt1 == '-' || *pt2 == '-' ) )
{
end1 = pos1 - 1;
end2 = pos2 - 1;
if( localhompt->nokori++ > 0 )
{
// fprintf( stderr, "reallocating ...\n" );
tmppt->next = (LocalHom *)calloc( 1, sizeof( LocalHom ) );
// fprintf( stderr, "done\n" );
tmppt = tmppt->next;
tmppt->next = NULL;
}
tmppt->start1 = start1;
tmppt->start2 = start2;
tmppt->end1 = end1 ;
tmppt->end2 = end2 ;
#if 1
if( divpairscore )
{
tmppt->overlapaa = end2-start2+1;
tmppt->opt = score / tmppt->overlapaa * 5.8 / 600;
}
else
{
sumscore += score;
sumoverlap += end2-start2+1;
}
#else
tmppt->overlapaa = overlapaa;
tmppt->opt = (double)opt;
#endif
#if 0
fprintf( stderr, "score (1)= %f\n", score );
fprintf( stderr, "al1: %d - %d\n", start1, end1 );
fprintf( stderr, "al2: %d - %d\n", start2, end2 );
#endif
score = 0.0;
st = 0;
}
else if( *pt1 != '-' && *pt2 != '-' )
{
if( st == 0 )
{
start1 = pos1; start2 = pos2;
st = 1;
}
score += (double)n_dis[(int)amino_n[(int)*pt1]][(int)amino_n[(int)*pt2]]; // - offset ¤Ï¤¤¤é¤Ê¤¤¤«¤â
// fprintf( stderr, "%c-%c, score(0) = %f\n", *pt1, *pt2, score );
}
if( *pt1++ != '-' ) pos1++;
if( *pt2++ != '-' ) pos2++;
}
if( *(pt1-1) != '-' && *(pt2-1) != '-' )
{
if( localhompt->nokori++ > 0 )
{
// fprintf( stderr, "reallocating ...\n" );
tmppt->next = (LocalHom *)calloc( 1, sizeof( LocalHom ) );
// fprintf( stderr, "done\n" );
tmppt = tmppt->next;
tmppt->next = NULL;
}
end1 = pos1 - 1;
end2 = pos2 - 1;
tmppt->start1 = start1;
tmppt->start2 = start2;
tmppt->end1 = end1 ;
tmppt->end2 = end2 ;
#if 1
if( divpairscore )
{
tmppt->overlapaa = end2-start2+1;
tmppt->opt = score / tmppt->overlapaa * 5.8 / 600;
}
else
{
sumscore += score;
sumoverlap += end2-start2+1;
}
#else
tmppt->overlapaa = overlapaa;
tmppt->opt = (double)opt;
#endif
#if 0
fprintf( stderr, "score (2)= %f\n", score );
fprintf( stderr, "al1: %d - %d\n", start1, end1 );
fprintf( stderr, "al2: %d - %d\n", start2, end2 );
#endif
}
fprintf( stderr, "sumscore = %f\n", sumscore );
if( !divpairscore )
{
if( !saisho ) subnosento = subnosento->next;
for( tmppt=subnosento; tmppt; tmppt=tmppt->next )
{
tmppt->overlapaa = sumoverlap;
tmppt->opt = sumscore * 5.8 / 600 / sumoverlap;
fprintf( stderr, "tmpptr->opt = %f\n", tmppt->opt );
}
}
}
void putlocalhom_ext( char *al1, char *al2, LocalHom *localhompt, int off1, int off2, int opt, int overlapaa )
{
int pos1, pos2, start1, start2, end1, end2;
char *pt1, *pt2;
int iscore;
int isumscore;
int sumoverlap;
LocalHom *tmppt = localhompt;
int nlocalhom = 0;
int st;
pt1 = al1; pt2 = al2;
pos1 = off1; pos2 = off2;
isumscore = 0;
sumoverlap = 0;
start1 = 0; // by D.Mathog, a guess
start2 = 0; // by D.Mathog, a guess
st = 0;
iscore = 0;
while( *pt1 != 0 )
{
// fprintf( stderr, "pt = %c, %c, st=%d\n", *pt1, *pt2, st );
if( st == 1 && ( *pt1 == '-' || *pt2 == '-' ) )
{
end1 = pos1 - 1;
end2 = pos2 - 1;
if( nlocalhom++ > 0 )
{
// fprintf( stderr, "reallocating ...\n" );
tmppt->next = (LocalHom *)calloc( 1, sizeof( LocalHom ) );
// fprintf( stderr, "done\n" );
tmppt = tmppt->next;
tmppt->next = NULL;
}
tmppt->start1 = start1;
tmppt->start2 = start2;
tmppt->end1 = end1 ;
tmppt->end2 = end2 ;
#if 1
if( divpairscore )
{
tmppt->overlapaa = end2-start2+1;
tmppt->opt = (double)iscore / tmppt->overlapaa * 5.8 / 600;
}
else
{
isumscore += iscore;
sumoverlap += end2-start2+1;
}
#else
tmppt->overlapaa = overlapaa;
tmppt->opt = (double)opt;
#endif
#if 0
fprintf( stderr, "iscore (1)= %d\n", iscore );
fprintf( stderr, "al1: %d - %d\n", start1, end1 );
fprintf( stderr, "al2: %d - %d\n", start2, end2 );
#endif
iscore = 0;
st = 0;
}
else if( *pt1 != '-' && *pt2 != '-' )
{
if( st == 0 )
{
start1 = pos1; start2 = pos2;
st = 1;
}
iscore += n_dis[(int)amino_n[(int)*pt1]][(int)amino_n[(int)*pt2]]; // - offset ¤Ï¤¤¤é¤Ê¤¤¤«¤â
// fprintf( stderr, "%c-%c, iscore(0) = %d\n", *pt1, *pt2, iscore );
}
if( *pt1++ != '-' ) pos1++;
if( *pt2++ != '-' ) pos2++;
}
if( *(pt1-1) != '-' && *(pt2-1) != '-' )
{
if( nlocalhom++ > 0 )
{
// fprintf( stderr, "reallocating ...\n" );
tmppt->next = (LocalHom *)calloc( 1, sizeof( LocalHom ) );
// fprintf( stderr, "done\n" );
tmppt = tmppt->next;
tmppt->next = NULL;
}
end1 = pos1 - 1;
end2 = pos2 - 1;
tmppt->start1 = start1;
tmppt->start2 = start2;
tmppt->end1 = end1 ;
tmppt->end2 = end2 ;
#if 1
if( divpairscore )
{
tmppt->overlapaa = end2-start2+1;
tmppt->opt = (double)iscore / tmppt->overlapaa * 5.8 / 600;
}
else
{
isumscore += iscore;
sumoverlap += end2-start2+1;
}
#else
tmppt->overlapaa = overlapaa;
tmppt->opt = (double)opt;
#endif
#if 0
fprintf( stderr, "iscore (2)= %d\n", iscore );
fprintf( stderr, "al1: %d - %d\n", start1, end1 );
fprintf( stderr, "al2: %d - %d\n", start2, end2 );
#endif
}
if( !divpairscore )
{
for( tmppt=localhompt; tmppt; tmppt=tmppt->next )
{
tmppt->overlapaa = sumoverlap;
// tmppt->opt = (double)isumscore * 5.8 / ( 600 * sumoverlap );
tmppt->opt = (double)600 * 5.8 / 600;
// fprintf( stderr, "tmpptr->opt = %f\n", tmppt->opt );
}
}
}
void putlocalhom2( char *al1, char *al2, LocalHom *localhompt, int off1, int off2, int opt, int overlapaa )
{
int pos1, pos2, start1, start2, end1, end2;
char *pt1, *pt2;
int iscore;
int isumscore;
int sumoverlap;
LocalHom *tmppt = localhompt;
int nlocalhom = 0;
int st;
pt1 = al1; pt2 = al2;
pos1 = off1; pos2 = off2;
isumscore = 0;
sumoverlap = 0;
start1 = 0; // by D.Mathog, a guess
start2 = 0; // by D.Mathog, a guess
st = 0;
iscore = 0;
while( *pt1 != 0 )
{
// fprintf( stderr, "pt = %c, %c, st=%d\n", *pt1, *pt2, st );
if( st == 1 && ( *pt1 == '-' || *pt2 == '-' ) )
{
end1 = pos1 - 1;
end2 = pos2 - 1;
if( nlocalhom++ > 0 )
{
// fprintf( stderr, "reallocating ...\n" );
tmppt->next = (LocalHom *)calloc( 1, sizeof( LocalHom ) );
// fprintf( stderr, "done\n" );
tmppt = tmppt->next;
tmppt->next = NULL;
}
tmppt->start1 = start1;
tmppt->start2 = start2;
tmppt->end1 = end1 ;
tmppt->end2 = end2 ;
#if 1
if( divpairscore )
{
tmppt->overlapaa = end2-start2+1;
tmppt->opt = (double)iscore / tmppt->overlapaa * 5.8 / 600;
}
else
{
isumscore += iscore;
sumoverlap += end2-start2+1;
}
#else
tmppt->overlapaa = overlapaa;
tmppt->opt = (double)opt;
#endif
#if 0
fprintf( stderr, "iscore (1)= %d\n", iscore );
fprintf( stderr, "al1: %d - %d\n", start1, end1 );
fprintf( stderr, "al2: %d - %d\n", start2, end2 );
#endif
iscore = 0;
st = 0;
}
else if( *pt1 != '-' && *pt2 != '-' )
{
if( st == 0 )
{
start1 = pos1; start2 = pos2;
st = 1;
}
iscore += n_dis[(int)amino_n[(int)*pt1]][(int)amino_n[(int)*pt2]]; // - offset ¤Ï¤¤¤é¤Ê¤¤¤«¤â
// fprintf( stderr, "%c-%c, iscore(0) = %d\n", *pt1, *pt2, iscore );
}
if( *pt1++ != '-' ) pos1++;
if( *pt2++ != '-' ) pos2++;
}
if( *(pt1-1) != '-' && *(pt2-1) != '-' )
{
if( nlocalhom++ > 0 )
{
// fprintf( stderr, "reallocating ...\n" );
tmppt->next = (LocalHom *)calloc( 1, sizeof( LocalHom ) );
// fprintf( stderr, "done\n" );
tmppt = tmppt->next;
tmppt->next = NULL;
}
end1 = pos1 - 1;
end2 = pos2 - 1;
tmppt->start1 = start1;
tmppt->start2 = start2;
tmppt->end1 = end1 ;
tmppt->end2 = end2 ;
#if 1
if( divpairscore )
{
tmppt->overlapaa = end2-start2+1;
tmppt->opt = (double)iscore / tmppt->overlapaa * 5.8 / 600;
}
else
{
isumscore += iscore;
sumoverlap += end2-start2+1;
}
#else
tmppt->overlapaa = overlapaa;
tmppt->opt = (double)opt;
#endif
#if 0
fprintf( stderr, "iscore (2)= %d\n", iscore );
fprintf( stderr, "al1: %d - %d\n", start1, end1 );
fprintf( stderr, "al2: %d - %d\n", start2, end2 );
#endif
}
if( !divpairscore )
{
for( tmppt=localhompt; tmppt; tmppt=tmppt->next )
{
tmppt->overlapaa = sumoverlap;
tmppt->opt = (double)isumscore * 5.8 / ( 600 * sumoverlap );
// fprintf( stderr, "tmpptr->opt = %f\n", tmppt->opt );
}
}
}
void putlocalhom( char *al1, char *al2, LocalHom *localhompt, int off1, int off2, int opt, int overlapaa )
{
int pos1, pos2, start1, start2, end1, end2;
char *pt1, *pt2;
double score;
double sumscore;
int sumoverlap;
LocalHom *tmppt = localhompt;
int nlocalhom = 0;
int st;
pt1 = al1; pt2 = al2;
pos1 = off1; pos2 = off2;
sumscore = 0.0;
sumoverlap = 0;
start1 = 0; // by D.Mathog, a guess
start2 = 0; // by D.Mathog, a guess
st = 0;
score = 0.0;
while( *pt1 != 0 )
{
// fprintf( stderr, "pt = %c, %c, st=%d\n", *pt1, *pt2, st );
if( st == 1 && ( *pt1 == '-' || *pt2 == '-' ) )
{
end1 = pos1 - 1;
end2 = pos2 - 1;
if( nlocalhom++ > 0 )
{
// fprintf( stderr, "reallocating ...\n" );
tmppt->next = (LocalHom *)calloc( 1, sizeof( LocalHom ) );
// fprintf( stderr, "done\n" );
tmppt = tmppt->next;
tmppt->next = NULL;
}
tmppt->start1 = start1;
tmppt->start2 = start2;
tmppt->end1 = end1 ;
tmppt->end2 = end2 ;
#if 1
if( divpairscore )
{
tmppt->overlapaa = end2-start2+1;
tmppt->opt = score / tmppt->overlapaa * 5.8 / 600;
}
else
{
sumscore += score;
sumoverlap += end2-start2+1;
}
#else
tmppt->overlapaa = overlapaa;
tmppt->opt = (double)opt;
#endif
#if 0
fprintf( stderr, "score (1)= %f\n", score );
fprintf( stderr, "al1: %d - %d\n", start1, end1 );
fprintf( stderr, "al2: %d - %d\n", start2, end2 );
#endif
score = 0.0;
st = 0;
}
else if( *pt1 != '-' && *pt2 != '-' )
{
if( st == 0 )
{
start1 = pos1; start2 = pos2;
st = 1;
}
score += (double)n_dis[(int)amino_n[(int)*pt1]][(int)amino_n[(int)*pt2]]; // - offset ¤Ï¤¤¤é¤Ê¤¤¤«¤â
// fprintf( stderr, "%c-%c, score(0) = %f\n", *pt1, *pt2, score );
}
if( *pt1++ != '-' ) pos1++;
if( *pt2++ != '-' ) pos2++;
}
if( nlocalhom++ > 0 )
{
// fprintf( stderr, "reallocating ...\n" );
tmppt->next = (LocalHom *)calloc( 1, sizeof( LocalHom ) );
// fprintf( stderr, "done\n" );
tmppt = tmppt->next;
tmppt->next = NULL;
}
end1 = pos1 - 1;
end2 = pos2 - 1;
tmppt->start1 = start1;
tmppt->start2 = start2;
tmppt->end1 = end1 ;
tmppt->end2 = end2 ;
#if 1
if( divpairscore )
{
tmppt->overlapaa = end2-start2+1;
tmppt->opt = score / tmppt->overlapaa * 5.8 / 600;
}
else
{
sumscore += score;
sumoverlap += end2-start2+1;
}
#else
tmppt->overlapaa = overlapaa;
tmppt->opt = (double)opt;
#endif
#if 0
fprintf( stderr, "score (2)= %f\n", score );
fprintf( stderr, "al1: %d - %d\n", start1, end1 );
fprintf( stderr, "al2: %d - %d\n", start2, end2 );
#endif
if( !divpairscore )
{
for( tmppt=localhompt; tmppt; tmppt=tmppt->next )
{
tmppt->overlapaa = sumoverlap;
tmppt->opt = sumscore * 5.8 / 600 / sumoverlap;
// fprintf( stderr, "tmpptr->opt = %f\n", tmppt->opt );
}
}
}
char *cutal( char *al, int al_display_start, int start, int end )
{
int pos;
char *pt = al;
char *val = NULL;
pos = al_display_start;
do
{
if( start == pos ) val = pt;
if( end == pos ) break;
// fprintf( stderr, "pos=%d, *pt=%c, val=%p\n", pos, *pt, val );
if( *pt != '-' ) pos++;
} while( *pt++ != 0 );
*(pt+1) = 0;
return( val );
}
void ErrorExit( char *message )
{
fprintf( stderr, "%s\n", message );
exit( 1 );
}
void strncpy_caseC( char *str1, char *str2, int len )
{
if( dorp == 'd' && upperCase > 0 )
{
while( len-- )
*str1++ = toupper( *str2++ );
}
else strncpy( str1, str2, len );
}
void seqUpper( int nseq, char **seq ) /* not used */
{
int i, j, len;
for( i=0; i<nseq; i++ )
{
len = strlen( seq[i] );
for( j=0; j<len; j++ )
seq[i][j] = toupper( seq[i][j] );
}
}
void seqLower( int nseq, char **seq )
{
int i, j, len;
for( i=0; i<nseq; i++ )
{
len = strlen( seq[i] );
for( j=0; j<len; j++ )
seq[i][j] = tolower( seq[i][j] );
}
}
int getaline_fp_eof( char *s, int l, FILE *fp ) /* end of file -> return 1 */
{
int c, i = 0 ;
int noteofflag = 0;
for( i=0; i<l && ( noteofflag = ( (c=getc(fp)) != EOF ) ) && c != '\n'; i++ )
*s++ = c;
*s = '\0' ;
return( !noteofflag );
}
int getaline_fp_eof_new(s, l, fp) /* end of file -> return 1 */
char s[] ; int l ; FILE *fp ;
{
int c = 0, i = 0 ;
int noteofflag = 0;
if( feof( fp ) ) return( 1 );
for( i=0; i<l && ( noteofflag = ( (c=getc(fp)) != EOF ) ) && c != '\n'; i++ )
{ *s++ = c ; }
*s = '\0' ;
if( c != '\n' && c != EOF ) while( getc(fp) != '\n' )
;
return( !noteofflag );
}
int myfgets(s, l, fp) /* l°Ê¾å¤Ï¡¢¹ÔËö¤Þ¤ÇÆɤßÈô¤Ð¤¹ */
char s[] ; int l ; FILE *fp ;
{
int c = 0, i = 0 ;
if( feof( fp ) ) return( 1 );
for( i=0; i<l && ( c=getc( fp ) ) != '\n'; i++ )
*s++ = c;
*s = '\0' ;
if( c != '\n' )
while( getc(fp) != '\n' )
;
return( 0 );
}
float input_new( FILE *fp, int d )
{
char mojiretsu[10];
int i, c;
c = getc( fp );
if( c != '\n' )
ungetc( c, fp );
for( i=0; i<d; i++ )
mojiretsu[i] = getc( fp );
mojiretsu[i] = 0;
return( atof( mojiretsu ) );
}
void PreRead( FILE *fp, int *locnjob, int *locnlenmax )
{
int i, nleni;
char b[B];
fgets( b, B-1, fp ); *locnjob = atoi( b );
*locnlenmax = 0;
i=0;
while( i<*locnjob )
{
fgets( b, B-1, fp );
if( !strncmp( b, "=", 1 ) )
{
i++;
fgets( b, B-1, fp ); nleni = atoi( b );
if( nleni > *locnlenmax ) *locnlenmax = nleni;
}
}
if( *locnlenmax > N )
{
fprintf( stderr, "TOO LONG SEQUENCE!\n" );
exit( 1 );
}
if( njob > M )
{
fprintf( stderr, "TOO MANY SEQUENCE!\n" );
fprintf( stderr, "%d > %d\n", njob, M );
exit( 1 );
}
}
int allSpace( char *str )
{
int value = 1;
while( *str ) value *= ( !isdigit( *str++ ) );
return( value );
}
void Read( char name[M][B], int nlen[M], char **seq )
{
extern void FRead( FILE *x, char y[M][B], int z[M], char **w );
FRead( stdin, name, nlen, seq );
}
void FRead( FILE *fp, char name[][B], int nlen[], char **seq )
{
int i, j;
char b[B];
fgets( b, B-1, fp );
#if DEBUG
fprintf( stderr, "b = %s\n", b );
#endif
if( strstr( b, "onnet" ) ) scoremtx = 1;
else if( strstr( b, "DnA" ) )
{
scoremtx = -1;
upperCase = -1;
}
else if( strstr( b, "dna" ) )
{
scoremtx = -1;
upperCase = 0;
}
else if( strstr( b, "DNA" ) )
{
scoremtx = -1;
upperCase = 1;
}
else if( strstr( b, "M-Y" ) || strstr( b, "iyata" ) ) scoremtx = 2;
else scoremtx = 0;
#if DEBUG
fprintf( stderr, " %s->scoremtx = %d\n", b, scoremtx );
#endif
geta2 = GETA2;
#if 0
if( strlen( b ) >=25 )
{
b[25] = 0;
#if DEBUG
fprintf( stderr, "kimuraR = %s\n", b+20 );
#endif
kimuraR = atoi( b+20 );
if( kimuraR < 0 || 20 < kimuraR ) ErrorExit( "Illeagal kimuraR value.\n" );
if( allSpace( b+20 ) ) kimuraR = NOTSPECIFIED;
}
else kimuraR = NOTSPECIFIED;
#if DEBUG
fprintf( stderr, "kimuraR = %d\n", kimuraR );
#endif
if( strlen( b ) >=20 )
{
b[20] = 0;
#if DEBUG
fprintf( stderr, "pamN = %s\n", b+15 );
#endif
pamN = atoi( b+15 );
if( pamN < 0 || 400 < pamN ) ErrorExit( "Illeagal pam value.\n" );
if( allSpace( b+15 ) ) pamN = NOTSPECIFIED;
}
else pamN = NOTSPECIFIED;
if( strlen( b ) >= 15 )
{
b[15] = 0;
#if DEBUG
fprintf( stderr, "poffset = %s\n", b+10 );
#endif
poffset = atoi( b+10 );
if( poffset > 500 ) ErrorExit( "Illegal extending gap ppenalty\n" );
if( allSpace( b+10 ) ) poffset = NOTSPECIFIED;
}
else poffset = NOTSPECIFIED;
if( strlen( b ) >= 10 )
{
b[10] = 0;
#if DEBUG
fprintf( stderr, "ppenalty = %s\n", b+5 );
#endif
ppenalty = atoi( b+5 );
if( ppenalty > 0 ) ErrorExit( "Illegal opening gap ppenalty\n" );
if( allSpace( b+5 ) ) ppenalty = NOTSPECIFIED;
}
else ppenalty = NOTSPECIFIED;
#endif
for( i=0; i<njob; i++ )
{
getaline_fp_eof_new( b, B-1, fp );
strcpy( name[i], b );
#if DEBUG
fprintf( stderr, "name[%d] = %s\n", i, name[i] );
#endif
fgets( b, B-1, fp ); nlen[i] = atoi( b ); /* seq i no nagasa */
seq[i][0] = 0;
if( nlen[i] ) for( j=0; j <= (nlen[i]-1)/C; j++ )
{
getaline_fp_eof_new( b, B-1, fp );
/* b[C] = 0; */
strcat( seq[i], b );
}
seq[i][nlen[i]] = 0;
}
if( scoremtx == -1 && upperCase != -1 ) seqLower( njob, seq );
}
static int countKUorWA( FILE *fp )
{
int value;
int c, b;
value= 0;
b = '\n';
while( ( c = getc( fp ) ) != EOF )
{
if( b == '\n' && ( c == '=' || c == '>' ) )
value++;
b = c;
}
rewind( fp );
return( value );
}
void searchKUorWA( FILE *fp )
{
int c, b;
b = '\n';
while( !( ( ( c = getc( fp ) ) == '>' || c == '=' || c == EOF ) && b == '\n' ) )
b = c;
ungetc( c, fp );
}
static int onlyAlpha_lower( char *str )
{
char tmp;
char *res = str;
char *bk = str;
while( (tmp=*str++) )
if( isalpha( tmp ) || tmp == '-' || tmp == '*' || tmp == '.' )
*res++ = tolower( tmp );
*res = 0;
return( res - bk );
}
static int onlyAlpha_upper( char *str )
{
char tmp;
char *res = str;
char *bk = str;
while( (tmp=*str++) )
if( isalpha( tmp ) || tmp == '-' || tmp == '*' || tmp == '.' )
*res++ = toupper( tmp );
*res = 0;
return( res - bk );
}
void kake2hiku( char *str )
{
do
if( *str == '*' ) *str = '-';
while( *str++ );
}
char *load1SeqWithoutName_realloc( FILE *fpp )
{
int c, b;
char *cbuf;
int size = N;
char *val;
val = malloc( (size+1) * sizeof( char ) );
cbuf = val;
b = '\n';
while( ( c = getc( fpp ) ) != EOF &&
!( ( c == '>' || c == '=' || c == '(' || c == EOF ) && b == '\n' ) )
{
*cbuf++ = (char)c; /* Ť¹¤®¤Æ¤â¤·¤é¤Ê¤¤ */
if( cbuf - val == size )
{
size += N;
fprintf( stderr, "reallocating...\n" );
val = (char *)realloc( val, (size+1) * sizeof( char ) );
if( !val )
{
fprintf( stderr, "Allocation error in load1SeqWithoutName_realloc \n" );
exit( 1 );
}
fprintf( stderr, "done.\n" );
cbuf = val + size-N;
}
b = c;
}
ungetc( c, fpp );
*cbuf = 0;
if( dorp == 'd' )
onlyAlpha_lower( val );
else
onlyAlpha_upper( val );
kake2hiku( val );
return( val );
}
int load1SeqWithoutName_new( FILE *fpp, char *cbuf )
{
int c, b;
char *bk = cbuf;
b = '\n';
while( ( c = getc( fpp ) ) != EOF && /* by T. Nishiyama */
!( ( c == '>' || c == '=' || c == '(' || c == EOF ) && b == '\n' ) )
{
*cbuf++ = (char)c; /* Ť¹¤®¤Æ¤â¤·¤é¤Ê¤¤ */
b = c;
}
ungetc( c, fpp );
*cbuf = 0;
if( dorp == 'd' )
onlyAlpha_lower( bk );
else
onlyAlpha_upper( bk );
kake2hiku( bk );
return( 0 );
}
void readDataforgaln( FILE *fp, char **name, int *nlen, char **seq )
{
int i;
static char *tmpseq = NULL;
#if 0
if( !tmpseq )
{
tmpseq = AllocateCharVec( N );
}
#endif
rewind( fp );
searchKUorWA( fp );
for( i=0; i<njob; i++ )
{
name[i][0] = '='; getc( fp );
#if 0
fgets( name[i]+1, B-2, fp );
j = strlen( name[i] );
if( name[i][j-1] != '\n' )
ErrorExit( "Too long name\n" );
name[i][j-1] = 0;
#else
myfgets( name[i]+1, B-2, fp );
#endif
#if 0
fprintf( stderr, "name[%d] = %s\n", i, name[i] );
#endif
tmpseq = load1SeqWithoutName_realloc( fp );
strcpy( seq[i], tmpseq );
nlen[i] = strlen( seq[i] );
free( tmpseq );
}
if( dorp == 'd' && upperCase != -1 ) seqLower( njob, seq );
#if 0
free( tmpseq );
#endif
}
void readData_varlen( FILE *fp, char **name, int *nlen, char **seq )
{
int i;
static char *tmpseq = NULL;
rewind( fp );
searchKUorWA( fp );
for( i=0; i<njob; i++ )
{
name[i][0] = '='; getc( fp );
#if 0
fgets( name[i]+1, B-2, fp );
j = strlen( name[i] );
if( name[i][j-1] != '\n' )
ErrorExit( "Too long name\n" );
name[i][j-1] = 0;
#else
myfgets( name[i]+1, B-2, fp );
#endif
#if 0
fprintf( stderr, "name[%d] = %s\n", i, name[i] );
#endif
tmpseq = load1SeqWithoutName_realloc( fp );
nlen[i] = strlen( tmpseq );
// fprintf( stderr, "nlen[%d] = %d\n", i+1, nlen[i] );
seq[i] = calloc( nlen[i]+1, sizeof( char ) );
strcpy( seq[i], tmpseq );
free( tmpseq );
}
if( dorp == 'd' && upperCase != -1 ) seqLower( njob, seq );
#if 0
free( tmpseq );
#endif
}
void readData_pointer( FILE *fp, char **name, int *nlen, char **seq )
{
int i;
static char *tmpseq = NULL;
#if 0
if( !tmpseq )
{
tmpseq = AllocateCharVec( N );
}
#endif
rewind( fp );
searchKUorWA( fp );
for( i=0; i<njob; i++ )
{
name[i][0] = '='; getc( fp );
#if 0
fgets( name[i]+1, B-2, fp );
j = strlen( name[i] );
if( name[i][j-1] != '\n' )
ErrorExit( "Too long name\n" );
name[i][j-1] = 0;
#else
myfgets( name[i]+1, B-2, fp );
#endif
#if 0
fprintf( stderr, "name[%d] = %s\n", i, name[i] );
#endif
tmpseq = load1SeqWithoutName_realloc( fp );
strcpy( seq[i], tmpseq );
free( tmpseq );
nlen[i] = strlen( seq[i] );
}
if( dorp == 'd' && upperCase != -1 ) seqLower( njob, seq );
#if 0
free( tmpseq );
#endif
}
void readData( FILE *fp, char name[][B], int nlen[], char **seq )
{
int i;
static char *tmpseq = NULL;
#if 0
if( !tmpseq )
{
tmpseq = AllocateCharVec( N );
}
#endif
rewind( fp );
searchKUorWA( fp );
for( i=0; i<njob; i++ )
{
name[i][0] = '='; getc( fp );
#if 0
fgets( name[i]+1, B-2, fp );
j = strlen( name[i] );
if( name[i][j-1] != '\n' )
ErrorExit( "Too long name\n" );
name[i][j-1] = 0;
#else
myfgets( name[i]+1, B-2, fp );
#endif
#if 0
fprintf( stderr, "name[%d] = %s\n", i, name[i] );
#endif
tmpseq = load1SeqWithoutName_realloc( fp );
strcpy( seq[i], tmpseq );
nlen[i] = strlen( seq[i] );
free( tmpseq );
}
if( dorp == 'd' && upperCase != -1 ) seqLower( njob, seq );
#if 0
free( tmpseq );
#endif
}
int countATGC( char *s, int *total )
{
int nATGC;
int nChar;
char c;
nATGC = nChar = 0;
if( *s == 0 )
{
total = 0;
return( 0 );
}
do
{
c = tolower( *s );
if( isalpha( c ) )
{
nChar++;
if( c == 'a' || c == 't' || c == 'g' || c == 'c' || c == 'u' || c == 'n' )
nATGC++;
}
}
while( *++s );
*total = nChar;
return( nATGC );
}
double countATGCbk( char *s )
{
int nATGC;
int nChar;
char c;
nATGC = nChar = 0;
do
{
c = tolower( *s );
if( isalpha( c ) )
{
nChar++;
if( c == 'a' || c == 't' || c == 'g' || c == 'c' || c == 'u' || c == 'n' )
nATGC++;
}
}
while( *++s );
return( (double)nATGC / nChar );
}
int countalpha( char *seq )
{
int val = 0;
while( *seq )
if( isalpha( *seq++ ) ) val++;
return( val );
}
void getnumlen_nogap( FILE *fp, int *nlenminpt )
{
int total;
int nsite;
int atgcnum;
int i, tmp;
char *tmpseq, *tmpname;
double atgcfreq;
tmpname = AllocateCharVec( N );
njob = countKUorWA( fp );
searchKUorWA( fp );
nlenmax = 0;
*nlenminpt = 99999999;
atgcnum = 0;
total = 0;
for( i=0; i<njob; i++ )
{
myfgets( tmpname, N-1, fp );
tmpseq = load1SeqWithoutName_realloc( fp );
tmp = countalpha( tmpseq );
if( tmp > nlenmax ) nlenmax = tmp;
if( tmp < *nlenminpt ) *nlenminpt = tmp;
atgcnum += countATGC( tmpseq, &nsite );
total += nsite;
free( tmpseq );
}
free( tmpname );
atgcfreq = (double)atgcnum / total;
fprintf( stderr, "##### atgcfreq = %f\n", atgcfreq );
if( dorp == NOTSPECIFIED )
{
if( atgcfreq > 0.75 )
{
dorp = 'd';
upperCase = -1;
}
else
{
dorp = 'p';
upperCase = 0;
}
}
}
void getnumlen( FILE *fp )
{
int total;
int nsite;
int atgcnum;
int i, tmp;
char *tmpseq;
char *tmpname;
double atgcfreq;
tmpname = AllocateCharVec( N );
njob = countKUorWA( fp );
searchKUorWA( fp );
nlenmax = 0;
atgcnum = 0;
total = 0;
for( i=0; i<njob; i++ )
{
myfgets( tmpname, N-1, fp );
tmpseq = load1SeqWithoutName_realloc( fp );
tmp = strlen( tmpseq );
if( tmp > nlenmax ) nlenmax = tmp;
atgcnum += countATGC( tmpseq, &nsite );
total += nsite;
// fprintf( stderr, "##### total = %d\n", total );
free( tmpseq );
}
atgcfreq = (double)atgcnum / total;
// fprintf( stderr, "##### atgcfreq = %f\n", atgcfreq );
if( dorp == NOTSPECIFIED )
{
if( atgcfreq > 0.75 )
{
dorp = 'd';
upperCase = -1;
}
else
{
dorp = 'p';
upperCase = 0;
}
}
free( tmpname );
}
void WriteGapFill( FILE *fp, int locnjob, char name[][B], int nlen[M], char **aseq )
{
static char b[N];
int i, j;
int nalen[M];
static char gap[N];
static char buff[N];
#if IODEBUG
fprintf( stderr, "IMAKARA KAKU\n" );
#endif
nlenmax = 0;
for( i=0; i<locnjob; i++ )
{
int len = strlen( aseq[i] );
if( nlenmax < len ) nlenmax = len;
}
for( i=0; i<nlenmax; i++ ) gap[i] = '-';
gap[nlenmax] = 0;
fprintf( fp, "%5d", locnjob );
fprintf( fp, "\n" );
for( i=0; i<locnjob; i++ )
{
strcpy( buff, aseq[i] );
strncat( buff, gap, nlenmax-strlen( aseq[i] ) );
buff[nlenmax] = 0;
nalen[i] = strlen( buff );
fprintf( fp, "%s\n", name[i] );
fprintf( fp, "%5d\n", nalen[i] );
for( j=0; j<nalen[i]; j=j+C )
{
strncpy_caseC( b, buff+j, C ); b[C] = 0;
fprintf( fp, "%s\n",b );
}
}
#if DEBUG
fprintf( stderr, "nalen[0] = %d\n", nalen[0] );
#endif
#if IODEBUG
fprintf( stderr, "KAKIOWATTA\n" );
#endif
}
void writeDataforgaln( FILE *fp, int locnjob, char **name, int *nlen, char **aseq )
{
int i, j;
int nalen;
for( i=0; i<locnjob; i++ )
{
nalen = strlen( aseq[i] );
fprintf( fp, ">%s\n", name[i]+1 );
for( j=0; j<nalen; j=j+C )
{
#if 0
strncpy( b, aseq[i]+j, C ); b[C] = 0;
fprintf( fp, "%s\n",b );
#else
fprintf( fp, "%.*s\n", C, aseq[i]+j );
#endif
}
}
}
void writeData_pointer( FILE *fp, int locnjob, char **name, int *nlen, char **aseq )
{
int i, j;
int nalen;
for( i=0; i<locnjob; i++ )
{
#if DEBUG
fprintf( stderr, "i = %d in writeData\n", i );
#endif
nalen = strlen( aseq[i] );
fprintf( fp, ">%s\n", name[i]+1 );
for( j=0; j<nalen; j=j+C )
{
#if 0
strncpy( b, aseq[i]+j, C ); b[C] = 0;
fprintf( fp, "%s\n",b );
#else
fprintf( fp, "%.*s\n", C, aseq[i]+j );
#endif
}
}
}
void writeData( FILE *fp, int locnjob, char name[][B], int nlen[], char **aseq )
{
int i, j;
int nalen;
for( i=0; i<locnjob; i++ )
{
#if DEBUG
fprintf( stderr, "i = %d in writeData\n", i );
#endif
nalen = strlen( aseq[i] );
fprintf( fp, ">%s\n", name[i]+1 );
for( j=0; j<nalen; j=j+C )
{
#if 0
strncpy( b, aseq[i]+j, C ); b[C] = 0;
fprintf( fp, "%s\n",b );
#else
fprintf( fp, "%.*s\n", C, aseq[i]+j );
#endif
}
}
}
void write1seq( FILE *fp, char *aseq )
{
int j;
int nalen;
nalen = strlen( aseq );
for( j=0; j<nalen; j=j+C )
fprintf( fp, "%.*s\n", C, aseq+j );
}
void readhat2_floathalf_pointer( FILE *fp, int nseq, char **name, float **mtx )
{
int i, j, nseq0;
char b[B];
fgets( b, B, fp );
fgets( b, B, fp ); b[5] = 0; nseq0 = atoi( b ); if( nseq != nseq0 ) ErrorExit( "hat2 is wrong." );
fgets( b, B, fp );
for( i=0; i<nseq; i++ )
{
#if 0
getaline_fp_eof( b, B, fp );
#else
myfgets( b, B-2, fp );
#endif
#if 0
j = MIN( strlen( b+6 ), 10 );
if( strncmp( name[i], b+6 , j ) )
{
fprintf( stderr, "Error in hat2\n" );
fprintf( stderr, "%s != %s\n", b, name[i] );
exit( 1 );
}
#endif
}
for( i=0; i<nseq-1; i++ ) for( j=i+1; j<nseq; j++ )
{
mtx[i][j-i] = ( input_new( fp, D ) );
}
}
void readhat2_floathalf( FILE *fp, int nseq, char name[M][B], float **mtx )
{
int i, j, nseq0;
char b[B];
fgets( b, B, fp );
fgets( b, B, fp ); b[5] = 0; nseq0 = atoi( b ); if( nseq != nseq0 ) ErrorExit( "hat2 is wrong." );
fgets( b, B, fp );
for( i=0; i<nseq; i++ )
{
#if 0
getaline_fp_eof( b, B, fp );
#else
myfgets( b, B-2, fp );
#endif
#if 0
j = MIN( strlen( b+6 ), 10 );
if( strncmp( name[i], b+6 , j ) )
{
fprintf( stderr, "Error in hat2\n" );
fprintf( stderr, "%s != %s\n", b, name[i] );
exit( 1 );
}
#endif
}
for( i=0; i<nseq-1; i++ ) for( j=i+1; j<nseq; j++ )
{
mtx[i][j-i] = ( input_new( fp, D ) );
}
}
void readhat2_float( FILE *fp, int nseq, char name[M][B], float **mtx )
{
int i, j, nseq0;
char b[B];
fgets( b, B, fp );
fgets( b, B, fp ); b[5] = 0; nseq0 = atoi( b ); if( nseq != nseq0 ) ErrorExit( "hat2 is wrong." );
fgets( b, B, fp );
for( i=0; i<nseq; i++ )
{
#if 0
getaline_fp_eof( b, B, fp );
#else
myfgets( b, B-2, fp );
#endif
#if 0
j = MIN( strlen( b+6 ), 10 );
if( strncmp( name[i], b+6 , j ) )
{
fprintf( stderr, "Error in hat2\n" );
fprintf( stderr, "%s != %s\n", b, name[i] );
exit( 1 );
}
#endif
}
for( i=0; i<nseq-1; i++ ) for( j=i+1; j<nseq; j++ )
{
mtx[i][j] = ( input_new( fp, D ) );
}
}
void readhat2_int( FILE *fp, int nseq, char name[M][B], int **mtx )
{
int i, j, nseq0;
char b[B];
fgets( b, B, fp );
fgets( b, B, fp ); b[5] = 0; nseq0 = atoi( b ); if( nseq != nseq0 ) ErrorExit( "hat2 is wrong." );
fgets( b, B, fp );
for( i=0; i<nseq; i++ )
{
#if 0
getaline_fp_eof( b, B, fp );
#else
myfgets( b, B-2, fp );
#endif
#if 0
j = MIN( strlen( b+6 ), 10 );
if( strncmp( name[i], b+6 , j ) )
{
fprintf( stderr, "Error in hat2\n" );
fprintf( stderr, "%s != %s\n", b, name[i] );
exit( 1 );
}
#endif
}
for( i=0; i<nseq-1; i++ ) for( j=i+1; j<nseq; j++ )
{
mtx[i][j] = (int)( input_new( fp, D ) * INTMTXSCALE + 0.5 );
}
}
void readhat2( FILE *fp, int nseq, char name[M][B], double **mtx )
{
int i, j, nseq0;
char b[B];
fgets( b, B, fp );
fgets( b, B, fp ); b[5] = 0; nseq0 = atoi( b ); if( nseq != nseq0 ) ErrorExit( "hat2 is wrong." );
fgets( b, B, fp );
for( i=0; i<nseq; i++ )
{
#if 0
getaline_fp_eof( b, B, fp );
#else
myfgets( b, B-2, fp );
#endif
#if 0
j = MIN( strlen( b+6 ), 10 );
if( strncmp( name[i], b+6 , j ) )
{
fprintf( stderr, "Error in hat2\n" );
fprintf( stderr, "%s != %s\n", b, name[i] );
exit( 1 );
}
#endif
}
for( i=0; i<nseq-1; i++ ) for( j=i+1; j<nseq; j++ )
{
mtx[i][j] = (double)input_new( fp, D);
}
}
void WriteFloatHat2_pointer( FILE *hat2p, int locnjob, char **name, float **mtx )
{
int i, j;
double max = 0.0;
for( i=0; i<locnjob-1; i++ ) for( j=1; j<locnjob-i; j++ ) if( mtx[i][j] > max ) max = mtx[i][j];
fprintf( hat2p, "%5d\n", 1 );
fprintf( hat2p, "%5d\n", locnjob );
fprintf( hat2p, " %#6.3f\n", max * 2.5 );
for( i=0; i<locnjob; i++ ) fprintf( hat2p, "%4d. %s\n", i+1, name[i] );
for( i=0; i<locnjob; i++ )
{
for( j=1; j<locnjob-i; j++ )
{
fprintf( hat2p, "%#6.3f", mtx[i][j] );
if( j % 12 == 0 || j == locnjob-i-1 ) fprintf( hat2p, "\n" );
}
}
}
void WriteFloatHat2( FILE *hat2p, int locnjob, char name[M][B], float **mtx )
{
int i, j;
double max = 0.0;
for( i=0; i<locnjob-1; i++ ) for( j=1; j<locnjob-i; j++ ) if( mtx[i][j] > max ) max = mtx[i][j];
fprintf( hat2p, "%5d\n", 1 );
fprintf( hat2p, "%5d\n", locnjob );
fprintf( hat2p, " %#6.3f\n", max * 2.5 );
for( i=0; i<locnjob; i++ ) fprintf( hat2p, "%4d. %s\n", i+1, name[i] );
for( i=0; i<locnjob; i++ )
{
for( j=1; j<locnjob-i; j++ )
{
fprintf( hat2p, "%#6.3f", mtx[i][j] );
if( j % 12 == 0 || j == locnjob-i-1 ) fprintf( hat2p, "\n" );
}
}
}
void WriteHat2_int( FILE *hat2p, int locnjob, char name[M][B], int **mtx )
{
int i, j;
double max = 0.0;
for( i=0; i<locnjob-1; i++ ) for( j=i+1; j<locnjob; j++ ) if( mtx[i][j] > max ) max = mtx[i][j];
max /= INTMTXSCALE;
fprintf( hat2p, "%5d\n", 1 );
fprintf( hat2p, "%5d\n", locnjob );
fprintf( hat2p, " %#6.3f\n", max * 2.5 );
for( i=0; i<locnjob; i++ ) fprintf( hat2p, "%4d. %s\n", i+1, name[i] );
for( i=0; i<locnjob-1; i++ )
{
for( j=i+1; j<locnjob; j++ )
{
fprintf( hat2p, "%#6.3f", (float)mtx[i][j] / INTMTXSCALE );
if( (j-i) % 12 == 0 || j == locnjob-1 ) fprintf( hat2p, "\n" );
}
}
}
void WriteHat2( FILE *hat2p, int locnjob, char name[M][B], double **mtx )
{
int i, j;
double max = 0.0;
for( i=0; i<locnjob-1; i++ ) for( j=i+1; j<locnjob; j++ ) if( mtx[i][j] > max ) max = mtx[i][j];
fprintf( hat2p, "%5d\n", 1 );
fprintf( hat2p, "%5d\n", locnjob );
fprintf( hat2p, " %#6.3f\n", max * 2.5 );
for( i=0; i<locnjob; i++ ) fprintf( hat2p, "%4d. %s\n", i+1, name[i] );
for( i=0; i<locnjob-1; i++ )
{
for( j=i+1; j<locnjob; j++ )
{
fprintf( hat2p, "%#6.3f", mtx[i][j] );
if( (j-i) % 12 == 0 || j == locnjob-1 ) fprintf( hat2p, "\n" );
}
}
}
void WriteHat2plain( FILE *hat2p, int locnjob, double **mtx )
{
int i, j;
for( i=0; i<locnjob-1; i++ )
{
for( j=i+1; j<locnjob; j++ )
{
fprintf( hat2p, "%d-%d d=%.3f\n", i+1, j+1, mtx[i][j] );
}
}
}
int ReadFasta_sub( FILE *fp, double *dis, int nseq, char name[M][B] )
{
int i, count=0;
char b[B];
int junban[M];
count = 0;
for( i=0; i<10000000 && count<nseq; i++ )
{
fgets( b, B-1, fp );
if( !strncmp( "+==========+", b, 12 ) )
{
junban[count] = atoi( b+12 );
count++;
}
}
for( i=0; i<nseq; i++ ) dis[i] = 0.0;
count = 0;
for( i=0; i<100000 && count<nseq; i++ )
{
if( fgets( b, B-1, fp ) ) break;
if( !strncmp( name[junban[count]], b, 20 ) )
{
fgets( b, B-1, fp );
dis[junban[count]] = atof( b );
count++;
}
}
return 0;
}
int ReadSsearch( FILE *fp, double *dis, int nseq, char name[M][B] )
{
int i, count=0;
char b[B];
int junban[M];
int opt;
count = 0;
for( i=0; i<10000000 && count<nseq; i++ )
{
fgets( b, B-1, fp );
if( !strncmp( "+==========+", b, 12 ) )
{
junban[count] = atoi( b+12 );
sscanf( b+75, "%d", &opt );
dis[junban[count]] = (double)opt;
count++;
}
}
/*
count = 0;
for( i=0; i<100000 && count<nseq; i++ )
{
fgets( b, B-1, fp );
if( !strncmp( name[junban[count]], b, 20 ) )
{
dis[junban[count]] = atof( b+65 );
count++;
}
}
*/
return 0;
}
int ReadBlastm7_avscore( FILE *fp, double *dis, int nin )
{
int count=0;
char b[B];
char *pt;
int *junban;
double score, sumscore;
double len, sumlen;
int qstart, qend, tstart, tend;
double scorepersite;
static char qal[N], tal[N], al[N];
int nlocalhom;
junban = calloc( nin, sizeof( int ) );
count = 0;
sumscore = 0.0;
sumlen = 0.0;
score = 0.0;
len = 0.0;
scorepersite = 0.0; // by D.Mathog, a guess
while( 1 )
{
if( feof( fp ) ) break;
while( fgets( b, B-1, fp ) )
{
if( !strncmp( " <Hit_def>", b, 19 ) || !strncmp( " <Hsp_num>", b, 23 ) ) break;
}
if( !strncmp( " <Hit_def>", b, 19 ) )
{
junban[count] = atoi( b+31 );
nlocalhom = 0;
}
while( fgets( b, B-1, fp ) )
if( !strncmp( " <Hsp_score>", b, 25 ) ) break;
pt = b + 25;
score = atof( pt );
sumscore += score;
while( fgets( b, B-1, fp ) )
if( !strncmp( " <Hsp_query-from>", b, 30 ) ) break;
pt = b + 30;
qstart = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( " <Hsp_query-to>", b, 28 ) ) break;
pt = b + 28;
qend = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( " <Hsp_hit-from>", b, 28 ) ) break;
pt = b + 28;
tstart = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( " <Hsp_hit-to>", b, 26 ) ) break;
pt = b + 26;
tend = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( " <Hsp_align-len>", b, 29 ) ) break;
pt = b + 29;
len = atoi( pt );
sumlen += len;
while( fgets( al, N-100, fp ) )
if( !strncmp( " <Hsp_qseq>", al, 24 ) ) break;
strcpy( qal, al+24 );
pt = qal;
while( *++pt != '<' )
;
*pt = 0;
while( fgets( al, N-100, fp ) )
if( !strncmp( " <Hsp_hseq>", al, 24 ) ) break;
strcpy( tal, al+24 );
pt = tal;
while( *++pt != '<' )
;
*pt = 0;
// fprintf( stderr, "t=%d, score = %f, qstart=%d, qend=%d, tstart=%d, tend=%d, overlapaa=%d\n", junban[count], score, qstart, qend, tstart, tend, overlapaa );
while( fgets( b, B-1, fp ) )
if( !strncmp( " </Hsp>:", b, 18 ) ) break;
fgets( b, B-1, fp );
if( !strncmp( " </Hit_hsps>", b, 21 ) )
{
dis[junban[count++]] = sumscore;
sumscore = 0.0;
fgets( b, B-1, fp );
fgets( b, B-1, fp );
scorepersite = sumscore / sumlen;
if( scorepersite != (int)scorepersite )
{
fprintf( stderr, "ERROR! sumscore=%f, sumlen=%f, and scorepersite=%f\n", sumscore, sumlen, scorepersite );
exit( 1 );
}
if( !strncmp( " </Iteration_hits>", b, 23 ) ) break;
}
}
free( junban );
return (int)scorepersite;
}
int ReadBlastm7_scoreonly( FILE *fp, double *dis, int nin )
{
int count=0;
char b[B];
char *pt;
int *junban;
int overlapaa;
double score, sumscore;
int qstart, qend, tstart, tend;
static char qal[N], tal[N], al[N];
int nlocalhom;
junban = calloc( nin, sizeof( int ) );
count = 0;
sumscore = 0.0;
score = 0.0;
while( 1 )
{
if( feof( fp ) ) break;
while( fgets( b, B-1, fp ) )
{
if( !strncmp( " <Hit_def>", b, 19 ) || !strncmp( " <Hsp_num>", b, 23 ) ) break;
}
if( !strncmp( " <Hit_def>", b, 19 ) )
{
junban[count] = atoi( b+31 );
nlocalhom = 0;
}
while( fgets( b, B-1, fp ) )
if( !strncmp( " <Hsp_score>", b, 25 ) ) break;
pt = b + 25;
score = atof( pt );
sumscore += score;
while( fgets( b, B-1, fp ) )
if( !strncmp( " <Hsp_query-from>", b, 30 ) ) break;
pt = b + 30;
qstart = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( " <Hsp_query-to>", b, 28 ) ) break;
pt = b + 28;
qend = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( " <Hsp_hit-from>", b, 28 ) ) break;
pt = b + 28;
tstart = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( " <Hsp_hit-to>", b, 26 ) ) break;
pt = b + 26;
tend = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( " <Hsp_align-len>", b, 29 ) ) break;
pt = b + 29;
overlapaa = atoi( pt );
while( fgets( al, N-100, fp ) )
if( !strncmp( " <Hsp_qseq>", al, 24 ) ) break;
strcpy( qal, al+24 );
pt = qal;
while( *++pt != '<' )
;
*pt = 0;
while( fgets( al, N-100, fp ) )
if( !strncmp( " <Hsp_hseq>", al, 24 ) ) break;
strcpy( tal, al+24 );
pt = tal;
while( *++pt != '<' )
;
*pt = 0;
// fprintf( stderr, "t=%d, score = %f, qstart=%d, qend=%d, tstart=%d, tend=%d, overlapaa=%d\n", junban[count], score, qstart, qend, tstart, tend, overlapaa );
// nlocalhom += addlocalhom_r( qal, tal, localhomlist+junban[count], qstart, tstart, score, overlapaa, nlocalhom );
while( fgets( b, B-1, fp ) )
if( !strncmp( " </Hsp>:", b, 18 ) ) break;
fgets( b, B-1, fp );
if( !strncmp( " </Hit_hsps>", b, 21 ) )
{
dis[junban[count++]] = sumscore;
sumscore = 0.0;
fgets( b, B-1, fp );
fgets( b, B-1, fp );
if( !strncmp( " </Iteration_hits>", b, 23 ) ) break;
}
}
free( junban );
return count;
}
int ReadBlastm7( FILE *fp, double *dis, int qmem, char name[M][B], LocalHom *localhomlist )
{
int count=0;
char b[B];
char *pt;
static int junban[M];
int overlapaa;
double score, sumscore;
int qstart, qend, tstart, tend;
static char qal[N], tal[N], al[N];
int nlocalhom;
count = 0;
sumscore = 0.0;
score = 0.0;
nlocalhom = 0;
while( 1 )
{
if( feof( fp ) ) break;
while( fgets( b, B-1, fp ) )
{
if( !strncmp( " <Hit_def>", b, 19 ) || !strncmp( " <Hsp_num>", b, 23 ) ) break;
}
if( !strncmp( " <Hit_def>", b, 19 ) )
{
junban[count] = atoi( b+31 );
nlocalhom = 0;
}
while( fgets( b, B-1, fp ) )
if( !strncmp( " <Hsp_score>", b, 25 ) ) break;
pt = b + 25;
score = atof( pt );
sumscore += score;
while( fgets( b, B-1, fp ) )
if( !strncmp( " <Hsp_query-from>", b, 30 ) ) break;
pt = b + 30;
qstart = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( " <Hsp_query-to>", b, 28 ) ) break;
pt = b + 28;
qend = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( " <Hsp_hit-from>", b, 28 ) ) break;
pt = b + 28;
tstart = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( " <Hsp_hit-to>", b, 26 ) ) break;
pt = b + 26;
tend = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( " <Hsp_align-len>", b, 29 ) ) break;
pt = b + 29;
overlapaa = atoi( pt );
while( fgets( al, N-100, fp ) )
if( !strncmp( " <Hsp_qseq>", al, 24 ) ) break;
strcpy( qal, al+24 );
pt = qal;
while( *++pt != '<' )
;
*pt = 0;
while( fgets( al, N-100, fp ) )
if( !strncmp( " <Hsp_hseq>", al, 24 ) ) break;
strcpy( tal, al+24 );
pt = tal;
while( *++pt != '<' )
;
*pt = 0;
// fprintf( stderr, "t=%d, score = %f, qstart=%d, qend=%d, tstart=%d, tend=%d, overlapaa=%d\n", junban[count], score, qstart, qend, tstart, tend, overlapaa );
nlocalhom += addlocalhom_r( qal, tal, localhomlist+junban[count], qstart, tstart, score, overlapaa, nlocalhom );
while( fgets( b, B-1, fp ) )
if( !strncmp( " </Hsp>:", b, 18 ) ) break;
fgets( b, B-1, fp );
if( !strncmp( " </Hit_hsps>", b, 21 ) )
{
dis[junban[count++]] = sumscore;
sumscore = 0.0;
fgets( b, B-1, fp );
fgets( b, B-1, fp );
if( !strncmp( " </Iteration_hits>", b, 23 ) ) break;
}
}
return count;
}
int ReadFasta34noalign( FILE *fp, double *dis, int qmem, char name[M][B], LocalHom *localhomlist )
{
int count=0;
char b[B];
char *pt;
static int junban[M];
int opt;
double z, bits;
count = 0;
#if 0
for( i=0; i<10000000 && count<nseq; i++ )
#else
while( !feof( fp ) )
#endif
{
fgets( b, B-1, fp );
if( !strncmp( "+==========+", b, 12 ) )
{
junban[count] = atoi( b+12 );
pt = strchr( b, ')' ) + 1;
sscanf( pt, "%d %lf %lf", &opt, &bits, &z );
dis[junban[count]] = (double)opt;
count++;
}
}
return count;
}
int ReadFasta34m10_nuc( FILE *fp, double *dis, int qmem, char name[M][B], LocalHom *localhomlist )
{
int count=0;
char b[B];
char *pt;
static int junban[M];
int overlapaa;
int opt, qstart, qend, tstart, tend;
double z, bits;
int qal_display_start, tal_display_start;
static char qal[N], tal[N];
char *qal2, *tal2;
int c;
count = 0;
#if 0
for( i=0; i<10000000 && count<nseq; i++ )
#else
while( !feof( fp ) )
#endif
{
fgets( b, B-1, fp );
if( !strncmp( "+==========+", b, 12 ) )
{
junban[count] = atoi( b+12 );
if( strchr( b, 'r' ) ) continue;
pt = strchr( b, ']' ) + 1;
sscanf( pt, "%d %lf %lf", &opt, &bits, &z );
dis[junban[count]] = (double)opt;
count++;
}
else if( 0 == strncmp( ">>+==========+", b, 14 ) )
{
break;
}
}
if( !count ) return -1;
count = 0;
while( 1 )
{
if( strncmp( ">>+==========+", b, 14 ) )
{
fgets( b, B-1, fp );
if( feof( fp ) ) break;
continue;
}
junban[count++] = atoi( b+14 );
// fprintf( stderr, "t = %d\n", atoi( b+14 ) );
while( fgets( b, B-1, fp ) )
if( !strncmp( "; fa_opt:", b, 9 ) || !strncmp( "; sw_s-w opt:", b, 13 ) ) break;
pt = strstr( b, ":" ) +1;
opt = atoi( pt );
while( fgets( b, B-1, fp ) )
if( !strncmp( "_overlap:", b+4, 9 ) ) break;
pt = strstr( b, ":" ) +1;
overlapaa = atoi( pt );
while( fgets( b, B-1, fp ) )
if( !strncmp( "_start:", b+4, 7 ) ) break;
pt = strstr( b, ":" ) +1;
qstart = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( "_stop:", b+4, 6 ) ) break;
pt = strstr( b, ":" ) +1;
qend = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( "_display_start:", b+4, 15 ) ) break;
pt = strstr( b, ":" ) +1;
qal_display_start = atoi( pt ) - 1;
pt = qal;
while( (c = fgetc( fp )) )
{
if( c == '>' )
{
ungetc( c, fp );
break;
}
if( isalpha( c ) || c == '-' )
*pt++ = c;
}
*pt = 0;
while( fgets( b, B-1, fp ) )
if( !strncmp( "_start:", b+4, 7 ) ) break;
pt = strstr( b, ":" ) + 1;
tstart = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( "_stop:", b+4, 6 ) ) break;
pt = strstr( b, ":" ) + 1;
tend = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( "_display_start:", b+4, 15 ) ) break;
pt = strstr( b, ":" ) + 1;
tal_display_start = atoi( pt ) - 1;
pt = tal;
while( ( c = fgetc( fp ) ) )
{
if( c == '>' )
{
ungetc( c, fp );
break;
}
if( isalpha( c ) || c == '-' )
*pt++ = c;
}
*pt = 0;
// fprintf( stderr, "(%d-%d:%d-%d)\n", qstart, qend, tstart, tend );
// fprintf( stderr, "qal_display_start = %d, tal_display_start = %d\n", qal_display_start, tal_display_start );
// fprintf( stderr, "qal = %s\n", qal );
// fprintf( stderr, "tal = %s\n", tal );
qal2 = cutal( qal, qal_display_start, qstart, qend );
tal2 = cutal( tal, tal_display_start, tstart, tend );
// fprintf( stderr, "qal2 = %s\n", qal2 );
// fprintf( stderr, "tal2 = %s\n", tal2 );
// fprintf( stderr, "putting %d - %d, opt = %d\n", qmem, junban[count-1], opt );
putlocalhom( qal2, tal2, localhomlist+junban[count-1], qstart, tstart, opt, overlapaa );
}
// fprintf( stderr, "count = %d\n", count );
return count;
}
int ReadFasta34m10( FILE *fp, double *dis, int qmem, char name[M][B], LocalHom *localhomlist )
{
int count=0;
char b[B];
char *pt;
static int junban[M];
int overlapaa;
int opt, qstart, qend, tstart, tend;
double z, bits;
int qal_display_start, tal_display_start;
static char qal[N], tal[N];
char *qal2, *tal2;
int c;
count = 0;
#if 0
for( i=0; i<10000000 && count<nseq; i++ )
#else
while( !feof( fp ) )
#endif
{
fgets( b, B-1, fp );
if( !strncmp( "+==========+", b, 12 ) )
{
junban[count] = atoi( b+12 );
pt = strchr( b, ')' ) + 1;
sscanf( pt, "%d %lf %lf", &opt, &bits, &z );
dis[junban[count]] = (double)opt;
count++;
}
else if( 0 == strncmp( ">>+==========+", b, 14 ) )
{
break;
}
}
if( !count ) return -1;
count = 0;
while( 1 )
{
if( strncmp( ">>+==========+", b, 14 ) )
{
fgets( b, B-1, fp );
if( feof( fp ) ) break;
continue;
}
junban[count++] = atoi( b+14 );
// fprintf( stderr, "t = %d\n", atoi( b+14 ) );
while( fgets( b, B-1, fp ) )
if( !strncmp( "; fa_opt:", b, 9 ) || !strncmp( "; sw_s-w opt:", b, 13 ) ) break;
pt = strstr( b, ":" ) +1;
opt = atoi( pt );
while( fgets( b, B-1, fp ) )
if( !strncmp( "_overlap:", b+4, 9 ) ) break;
pt = strstr( b, ":" ) +1;
overlapaa = atoi( pt );
while( fgets( b, B-1, fp ) )
if( !strncmp( "_start:", b+4, 7 ) ) break;
pt = strstr( b, ":" ) +1;
qstart = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( "_stop:", b+4, 6 ) ) break;
pt = strstr( b, ":" ) +1;
qend = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( "_display_start:", b+4, 15 ) ) break;
pt = strstr( b, ":" ) +1;
qal_display_start = atoi( pt ) - 1;
pt = qal;
while( (c = fgetc( fp )) )
{
if( c == '>' )
{
ungetc( c, fp );
break;
}
if( isalpha( c ) || c == '-' )
*pt++ = c;
}
*pt = 0;
while( fgets( b, B-1, fp ) )
if( !strncmp( "_start:", b+4, 7 ) ) break;
pt = strstr( b, ":" ) + 1;
tstart = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( "_stop:", b+4, 6 ) ) break;
pt = strstr( b, ":" ) + 1;
tend = atoi( pt ) - 1;
while( fgets( b, B-1, fp ) )
if( !strncmp( "_display_start:", b+4, 15 ) ) break;
pt = strstr( b, ":" ) + 1;
tal_display_start = atoi( pt ) - 1;
pt = tal;
while( ( c = fgetc( fp ) ) )
{
if( c == '>' )
{
ungetc( c, fp );
break;
}
if( isalpha( c ) || c == '-' )
*pt++ = c;
}
*pt = 0;
// fprintf( stderr, "(%d-%d:%d-%d)\n", qstart, qend, tstart, tend );
// fprintf( stderr, "qal_display_start = %d, tal_display_start = %d\n", qal_display_start, tal_display_start );
// fprintf( stderr, "qal = %s\n", qal );
// fprintf( stderr, "tal = %s\n", tal );
qal2 = cutal( qal, qal_display_start, qstart, qend );
tal2 = cutal( tal, tal_display_start, tstart, tend );
// fprintf( stderr, "qal2 = %s\n", qal2 );
// fprintf( stderr, "tal2 = %s\n", tal2 );
// fprintf( stderr, "putting %d - %d, opt = %d\n", qmem, junban[count-1], opt );
putlocalhom( qal2, tal2, localhomlist+junban[count-1], qstart, tstart, opt, overlapaa );
}
// fprintf( stderr, "count = %d\n", count );
return count;
}
int ReadFasta34m10_scoreonly_nucbk( FILE *fp, double *dis, int nin )
{
int count=0;
char b[B];
char *pt;
int pos;
int opt;
double z, bits;
count = 0;
while( !feof( fp ) )
{
fgets( b, B-1, fp );
if( !strncmp( "+===========+", b, 13 ) )
{
pos = atoi( b+13 );
if( strchr( b, 'r' ) ) continue;
// pt = strchr( b, ')' ) + 1;
pt = strchr( b, ']' ) + 1;
sscanf( pt, "%d %lf %lf", &opt, &bits, &z );
dis[pos] += (double)opt;
count++;
#if 0
fprintf( stderr, "b=%s\n", b );
fprintf( stderr, "opt=%d\n", opt );
fprintf( stderr, "pos=%d\n", pos );
fprintf( stderr, "dis[pos]=%f\n", dis[pos] );
#endif
}
else if( 0 == strncmp( ">>><<<", b, 6 ) )
{
break;
}
}
if( !count ) return -1;
return count;
}
int ReadFasta34m10_scoreonly_nuc( FILE *fp, double *dis, int nin )
{
int count=0;
char b[B];
char *pt;
int pos;
int opt;
double z, bits;
int c;
int *yonda;
yonda = AllocateIntVec( nin );
for( c=0; c<nin; c++ ) yonda[c] = 0;
for( c=0; c<nin; c++ ) dis[c] = 0.0;
count = 0;
while( !feof( fp ) )
{
fgets( b, B-1, fp );
if( !strncmp( "+===========+", b, 13 ) )
{
pos = atoi( b+13 );
if( strchr( b, 'r' ) ) continue;
// pt = strchr( b, ')' ) + 1;
pt = strchr( b, ']' ) + 1;
sscanf( pt, "%d %lf %lf", &opt, &bits, &z );
if( yonda[pos] == 0 )
{
dis[pos] += (double)opt;
yonda[pos] = 1;
}
count++;
#if 0
fprintf( stderr, "b=%s\n", b );
fprintf( stderr, "opt=%d\n", opt );
fprintf( stderr, "pos=%d\n", pos );
fprintf( stderr, "dis[pos]=%f\n", dis[pos] );
#endif
}
else if( !strncmp( ">>>", b, 3 ) )
{
for( c=0; c<nin; c++ ) yonda[c] = 0;
}
else if( 0 == strncmp( ">>><<<", b, 6 ) )
{
break;
}
}
free( yonda );
if( !count ) return -1;
return count;
}
int ReadFasta34m10_scoreonly( FILE *fp, double *dis, int nin )
{
int count=0;
char b[B];
char *pt;
int pos;
int opt;
double z, bits;
int c;
int *yonda;
yonda = AllocateIntVec( nin );
for( c=0; c<nin; c++ ) yonda[c] = 0;
for( c=0; c<nin; c++ ) dis[c] = 0.0;
count = 0;
while( !feof( fp ) )
{
fgets( b, B-1, fp );
if( !strncmp( "+===========+", b, 13 ) )
{
pos = atoi( b+13 );
pt = strchr( b, ')' ) + 1;
sscanf( pt, "%d %lf %lf", &opt, &bits, &z );
if( yonda[pos] == 0 )
{
dis[pos] += (double)opt;
yonda[pos] = 1;
}
count++;
#if 0
fprintf( stderr, "b=%s\n", b );
fprintf( stderr, "opt=%d\n", opt );
fprintf( stderr, "pos=%d\n", pos );
fprintf( stderr, "dis[pos]=%f\n", dis[pos] );
#endif
}
else if( !strncmp( ">>>", b, 3 ) )
{
for( c=0; c<nin; c++ ) yonda[c] = 0;
}
else if( 0 == strncmp( ">>><<<", b, 6 ) )
{
break;
}
}
free( yonda );
if( !count ) return -1;
return count;
}
int ReadFasta34( FILE *fp, double *dis, int nseq, char name[M][B], LocalHom *localhomlist )
{
int count=0;
char b[B];
char *pt;
static int junban[M];
int overlapaa;
int opt, qstart, qend, tstart, tend;
double z, bits;
count = 0;
#if 0
for( i=0; i<10000000 && count<nseq; i++ )
#else
while( !feof( fp ) )
#endif
{
fgets( b, B-1, fp );
if( !strncmp( "+==========+", b, 12 ) )
{
junban[count] = atoi( b+12 );
pt = strchr( b, ')' ) + 1;
sscanf( pt, "%d %lf %lf", &opt, &bits, &z );
dis[junban[count]] = (double)opt;
count++;
}
else if( 0 == strncmp( ">>+==========+", b, 14 ) )
{
break;
}
}
if( !count ) return -1;
count = 0;
while( !feof( fp ) )
{
if( !strncmp(">>+==========+", b, 14 ) )
{
junban[count] = atoi( b+14 );
count++;
fgets( b, B-1, fp ); // initn:
pt = strstr( b, "opt: " ) + 5;
localhomlist[junban[count-1]].opt = atof( pt );
fgets( b, B-1, fp ); // Smith-Waterman score
pt = strstr( b, "ungapped) in " ) + 13;
sscanf( pt, "%d", &overlapaa );
fprintf( stderr, "pt = %s, overlapaa = %d\n", pt, overlapaa );
pt = strstr( b, "overlap (" ) + 8;
sscanf( pt, "(%d-%d:%d-%d)", &qstart, &qend, &tstart, &tend );
localhomlist[junban[count-1]].overlapaa = overlapaa;
localhomlist[junban[count-1]].start1 = qstart-1;
localhomlist[junban[count-1]].end1 = qend-1;
localhomlist[junban[count-1]].start2 = tstart-1;
localhomlist[junban[count-1]].end2 = tend-1;
}
fgets( b, B-1, fp );
}
fprintf( stderr, "count = %d\n", count );
return count;
}
int ReadFasta3( FILE *fp, double *dis, int nseq, char name[M][B] )
{
int count=0;
char b[B];
char *pt;
int junban[M];
int initn, init1, opt;
double z;
count = 0;
#if 0
for( i=0; i<10000000 && count<nseq; i++ )
#else
while( !feof( fp ) )
#endif
{
fgets( b, B-1, fp );
if( !strncmp( "+==========+", b, 12 ) )
{
junban[count] = atoi( b+12 );
pt = strchr( b, ')' ) + 1;
sscanf( pt, "%d %d %d %lf", &initn, &init1, &opt, &z );
dis[junban[count]] = (double)opt;
count++;
}
}
return 0;
}
int ReadFasta( FILE *fp, double *dis, int nseq, char name[M][B] )
{
int i, count=0;
char b[B];
int junban[M];
int initn, init1, opt;
count = 0;
for( i=0; i<nseq; i++ ) dis[i] = 0.0;
for( i=0; !feof( fp ) && count<nseq; i++ )
{
fgets( b, B-1, fp );
if( !strncmp( "+==========+", b, 12 ) )
{
junban[count] = atoi( b+12 );
sscanf( b+50, "%d %d %d", &initn, &init1, &opt );
dis[junban[count]] = (double)opt;
count++;
}
}
/*
count = 0;
for( i=0; i<100000 && count<nseq; i++ )
{
fgets( b, B-1, fp );
if( !strncmp( name[junban[count]], b, 20 ) )
{
dis[junban[count]] = atof( b+65 );
count++;
}
}
*/
return 0;
}
int ReadOpt( FILE *fp, int opt[M], int nseq, char name[M][B] )
{
int i, count=0;
char b[B];
int junban[M];
int optt, initn, init1;
count = 0;
for( i=0; i<10000000 && count<nseq; i++ )
{
fgets( b, B-1, fp );
if( !strncmp( "+==========+", b, 12 ) )
{
junban[count] = atoi( b+12 );
sscanf( b+50, "%d %d %d", &initn, &init1, &optt );
opt[junban[count]] = (double)optt;
count++;
}
}
return 0;
}
int ReadOpt2( FILE *fp, int opt[M], int nseq, char name[M][B] )
{
int i, count=0;
char b[B];
int junban[M];
count = 0;
for( i=0; i<10000000 && count<nseq; i++ )
{
fgets( b, B-1, fp );
if( !strncmp( "+==========+", b, 12 ) )
{
junban[count] = atoi( b+12 );
opt[junban[count]] = atoi( b+65 );
count++;
}
}
return 0;
}
int writePre( int nseq, char name[][B], int nlen[M], char **aseq, int force )
{
#if USE_XCED
int i, value;
if( !signalSM )
{
if( force )
{
rewind( prep_g );
if( devide ) dvWrite( prep_g, nseq, name, nlen, aseq );
#if 0
else WriteGapFill( prep_g, nseq, name, nlen, aseq );
#else
else writeData( prep_g, nseq, name, nlen, aseq );
#endif
}
return( 0 );
}
for( i=0; i<10; i++ )
{
#if IODEBUG
fprintf( stderr, "SEMAPHORE = %d\n", signalSM[SEMAPHORE] );
#endif
if( signalSM[SEMAPHORE]-- > 0 )
{
#if 0 /* /tmp/pre ¤Î´Ø·¸¤Ç¤Ï¤º¤·¤¿ */
if( ferror( prep_g ) ) prep_g = fopen( "pre", "w" );
if( !prep_g ) ErrorExit( "Cannot re-open pre." );
#endif
rewind( prep_g );
signalSM[STATUS] = IMA_KAITERU;
#if IODEBUG
if( force ) fprintf( stderr, "FINAL " );
#endif
if( devide ) dvWrite( prep_g, nseq, name, nlen, aseq );
else WriteGapFill( prep_g, nseq, name, nlen, aseq );
/*
fprintf( prep_g, '\EOF' );
*/
fflush( prep_g );
if( force ) signalSM[STATUS] = OSHIMAI;
else signalSM[STATUS] = KAKIOWATTA;
value = 1;
signalSM[SEMAPHORE]++;
#if IODEBUG
fprintf( stderr, "signalSM[STATUS] = %c\n", signalSM[STATUS] );
#endif
break;
}
else
{
#if IODEBUG
fprintf( stderr, "YONDERUKARA_AKIRAMERU\n" );
#endif
value = 0;
signalSM[SEMAPHORE]++;
if( !force ) break;
#if IODEBUG
fprintf( stderr, "MATSU\n" );
#endif
sleep( 1 );
}
}
if( force && !value ) ErrorExit( "xced ga pre wo hanasanai \n" );
return( value );
#else
if( force )
{
rewind( prep_g );
writeData( prep_g, nseq, name, nlen, aseq );
}
#endif
return( 0 );
}
void readOtherOptions( int *ppidptr, int *fftThresholdptr, int *fftWinSizeptr )
{
if( calledByXced )
{
FILE *fp = fopen( "pre", "r" );
char b[B];
if( !fp ) ErrorExit( "Cannot open pre.\n" );
fgets( b, B-1, fp );
sscanf( b, "%d %d %d", ppidptr, fftThresholdptr, fftWinSizeptr );
fclose( fp );
#if IODEBUG
fprintf( stderr, "b = %s\n", b );
fprintf( stderr, "ppid = %d\n", ppid );
fprintf( stderr, "fftThreshold = %d\n", fftThreshold );
fprintf( stderr, "fftWinSize = %d\n", fftWinSize );
#endif
}
else
{
*ppidptr = 0;
*fftThresholdptr = FFT_THRESHOLD;
if( dorp == 'd' )
*fftWinSizeptr = FFT_WINSIZE_D;
else
*fftWinSizeptr = FFT_WINSIZE_P;
}
#if 0
fprintf( stderr, "fftThresholdptr=%d\n", *fftThresholdptr );
fprintf( stderr, "fftWinSizeptr=%d\n", *fftWinSizeptr );
#endif
}
void initSignalSM( void )
{
// int signalsmid;
#if IODEBUG
if( ppid ) fprintf( stderr, "PID of xced = %d\n", ppid );
#endif
if( !ppid )
{
signalSM = NULL;
return;
}
#if 0
signalsmid = shmget( (key_t)ppid, 3, IPC_ALLOC | 0666 );
if( signalsmid == -1 ) ErrorExit( "Cannot get Shared memory for signal.\n" );
signalSM = shmat( signalsmid, 0, 0 );
if( (int)signalSM == -1 ) ErrorExit( "Cannot attatch Shared Memory for signal!\n" );
signalSM[STATUS] = IMA_KAITERU;
signalSM[SEMAPHORE] = 1;
#endif
}
void initFiles( void )
{
char pname[100];
if( ppid )
sprintf( pname, "/tmp/pre.%d", ppid );
else
sprintf( pname, "pre" );
prep_g = fopen( pname, "w" );
if( !prep_g ) ErrorExit( "Cannot open pre" );
trap_g = fopen( "trace", "w" );
if( !trap_g ) ErrorExit( "cannot open trace" );
fprintf( trap_g, "PID = %d\n", getpid() );
fflush( trap_g );
}
void WriteForFasta( FILE *fp, int locnjob, char name[][B], int nlen[M], char **aseq )
{
static char b[N];
int i, j;
int nalen[M];
for( i=0; i<locnjob; i++ )
{
nalen[i] = strlen( aseq[i] );
fprintf( fp, ">%s\n", name[i] );
for( j=0; j<nalen[i]; j=j+C )
{
strncpy( b, aseq[i]+j, C ); b[C] = 0;
fprintf( fp, "%s\n",b );
}
}
}
void readlocalhomtable2( FILE*fp, int njob, LocalHom **localhomtable )
{
double opt;
static char buff[B];
int i, j, overlapaa, start1, end1, start2, end2;
LocalHom *tmpptr1, *tmpptr2;
// for( i=0; i<njob; i++ ) for( j=0; j<njob; j++ ) nlocalhom[i][j] = 0;
while ( NULL != fgets( buff, B-1, fp ) )
{
// fprintf( stderr, "\n" );
sscanf( buff, "%d %d %d %lf %d %d %d %d", &i, &j, &overlapaa, &opt, &start1, &end1, &start2, &end2 );
#if 0
if( start1 == end1 || start2 == end2 ) continue; //mondai ari
#endif
// if( i < j )
{
if( localhomtable[i][j].nokori++ > 0 )
{
tmpptr1 = localhomtable[i][j].last;
// fprintf( stderr, "reallocating, localhomtable[%d][%d].nokori = %d\n", i, j, localhomtable[i][j].nokori );
tmpptr1->next = (LocalHom *)calloc( 1, sizeof( LocalHom ) );
tmpptr1 = tmpptr1->next;
tmpptr1->extended = -1;
tmpptr1->next = NULL;
localhomtable[i][j].last = tmpptr1;
// fprintf( stderr, "### i,j = %d,%d, nokori=%d\n", i, j, localhomtable[i][j].nokori );
}
else
{
tmpptr1 = localhomtable[i]+j;
// fprintf( stderr, "### i,j = %d,%d, nokori=%d\n", i, j, localhomtable[i][j].nokori );
}
tmpptr1->start1 = start1;
tmpptr1->start2 = start2;
tmpptr1->end1 = end1;
tmpptr1->end2 = end2;
// tmpptr1->opt = ( opt / overlapaa + 0.00 ) / 5.8 * 600;
// tmpptr1->opt = opt;
tmpptr1->opt = ( opt + 0.00 ) / 5.8 * 600;
tmpptr1->overlapaa = overlapaa;
}
// else
{
if( localhomtable[j][i].nokori++ > 0 )
{
tmpptr2 = localhomtable[j][i].last;
tmpptr2->next = (LocalHom *)calloc( 1, sizeof( LocalHom ) );
tmpptr2 = tmpptr2->next;
tmpptr2->extended = -1;
tmpptr2->next = NULL;
localhomtable[j][i].last = tmpptr2;
// fprintf( stderr, "### i,j = %d,%d, nokori=%d\n", j, i, localhomtable[j][i].nokori );
}
else
{
tmpptr2 = localhomtable[j]+i;
// fprintf( stderr, "### i,j = %d,%d, nokori=%d\n", j, i, localhomtable[j][i].nokori );
}
tmpptr2->start2 = start1;
tmpptr2->start1 = start2;
tmpptr2->end2 = end1;
tmpptr2->end1 = end2;
// tmpptr2->opt = ( opt / overlapaa + 0.00 ) / 5.8 * 600;
// tmpptr2->opt = opt;
tmpptr2->opt = ( opt + 0.00 ) / 5.8 * 600;
tmpptr2->overlapaa = overlapaa;
// fprintf( stderr, "i=%d, j=%d, st1=%d, en1=%d, opt = %f\n", i, j, tmpptr1->start1, tmpptr1->end1, opt );
}
}
}
void readlocalhomtable( FILE*fp, int njob, LocalHom **localhomtable )
{
double opt;
static char buff[B];
int i, j, overlapaa, start1, end1, start2, end2;
int **nlocalhom = NULL;
LocalHom *tmpptr1=NULL, *tmpptr2=NULL; // by D.Mathog, a guess
nlocalhom = AllocateIntMtx( njob, njob );
for( i=0; i<njob; i++ ) for( j=0; j<njob; j++ ) nlocalhom[i][j] = 0;
while ( NULL != fgets( buff, B-1, fp ) )
{
// fprintf( stderr, "\n" );
sscanf( buff, "%d %d %d %lf %d %d %d %d", &i, &j, &overlapaa, &opt, &start1, &end1, &start2, &end2 );
#if 0
if( start1 == end1 || start2 == end2 ) continue; //mondai ari
#endif
// if( i < j )
{
if( nlocalhom[i][j]++ > 0 )
{
// fprintf( stderr, "reallocating, nlocalhom[%d][%d] = %d\n", i, j, nlocalhom[i][j] );
tmpptr1->next = (LocalHom *)calloc( 1, sizeof( LocalHom ) );
tmpptr1 = tmpptr1->next;
tmpptr1->next = NULL;
}
else
{
tmpptr1 = localhomtable[i]+j;
// fprintf( stderr, "nlocalhom[%d][%d] = %d\n", i, j, nlocalhom[i][j] );
}
tmpptr1->start1 = start1;
tmpptr1->start2 = start2;
tmpptr1->end1 = end1;
tmpptr1->end2 = end2;
// tmpptr1->opt = ( opt / overlapaa + 0.00 ) / 5.8 * 600;
// tmpptr1->opt = opt;
tmpptr1->opt = ( opt + 0.00 ) / 5.8 * 600;
tmpptr1->overlapaa = overlapaa;
// fprintf( stderr, "i=%d, j=%d, opt = %f\n", i, j, opt );
}
// else
{
if( nlocalhom[j][i]++ > 0 )
{
tmpptr2->next = (LocalHom *)calloc( 1, sizeof( LocalHom ) );
tmpptr2 = tmpptr2->next;
tmpptr2->next = NULL;
}
else
tmpptr2 = localhomtable[j]+i;
tmpptr2->start2 = start1;
tmpptr2->start1 = start2;
tmpptr2->end2 = end1;
tmpptr2->end1 = end2;
// tmpptr2->opt = ( opt / overlapaa + 0.00 ) / 5.8 * 600;
// tmpptr2->opt = opt;
tmpptr2->opt = ( opt + 0.00 ) / 5.8 * 600;
tmpptr2->overlapaa = overlapaa;
}
}
FreeIntMtx( nlocalhom );
}
void outlocalhom( LocalHom **localhom, int nseq )
{
int i, j;
LocalHom *tmpptr;
for( i=0; i<nseq; i++ ) for( j=0; j<nseq; j++ )
{
tmpptr = localhom[i]+j;
fprintf( stderr, "%d-%d\n", i, j );
do
{
fprintf( stderr, "reg1=%d-%d, reg2=%d-%d, imp=%f, opt=%f\n", tmpptr->start1, tmpptr->end1, tmpptr->start2, tmpptr->end2, tmpptr->importance, tmpptr->opt );
}
while( (tmpptr=tmpptr->next) );
}
}
void outlocalhompt( LocalHom ***localhom, int n1, int n2 )
{
int i, j;
LocalHom *tmpptr;
for( i=0; i<n1; i++ ) for( j=0; j<n2; j++ )
{
tmpptr = localhom[i][j];
fprintf( stderr, "%d-%d\n", i, j );
do
{
fprintf( stderr, "reg1=%d-%d, reg2=%d-%d, imp=%f, opt=%f, wimp=%f\n", tmpptr->start1, tmpptr->end1, tmpptr->start2, tmpptr->end2, tmpptr->importance, tmpptr->opt, tmpptr->wimportance );
}
while( (tmpptr=tmpptr->next) );
}
}
void FreeLocalHomTable( LocalHom **localhomtable, int n )
{
int i, j;
LocalHom *ppp, *tmpptr;
fprintf( stdout, "freeing localhom\n" );
for( i=0; i<n; i++ )
{
for( j=0; j<n; j++ )
{
tmpptr=localhomtable[i]+j;
ppp = tmpptr->next;
for( ; tmpptr; tmpptr=ppp )
{
#if DEBUG
fprintf( stderr, "i=%d, j=%d\n", i, j );
#endif
ppp = tmpptr->next;
if( tmpptr!=localhomtable[i]+j )
{
#if DEBUG
fprintf( stderr, "freeing %p\n", tmpptr );
#endif
free( tmpptr );
}
}
}
#if DEBUG
fprintf( stderr, "freeing localhomtable[%d]\n", i );
#endif
free( localhomtable[i] );
}
#if DEBUG
fprintf( stderr, "freeing localhomtable\n" );
#endif
free( localhomtable );
#if DEBUG
fprintf( stderr, "freed\n" );
#endif
}
char *progName( char *str )
{
char *value;
if( ( value = strrchr( str, '/' ) ) != NULL )
return( value+1 );
else
return( str );
}
static void tabtospace( char *str )
{
char *p;
// fprintf( stderr, "before = %s\n", str );
while( NULL != ( p = strchr( str , '\t' ) ) )
{
*p = ' ';
}
// fprintf( stderr, "after = %s\n", str );
}
static char *extractfirstword( char *str )
{
char *val = str;
tabtospace( str );
while( *str )
{
if( val == str && *str == ' ' )
{
val++; str++;
}
else if( *str != ' ' )
{
str++;
}
else if( *str == ' ' )
{
*str = 0;
}
}
return( val );
}
void clustalout_pointer( FILE *fp, int nseq, int maxlen, char **seq, char **name, char *mark, char *comment, int *order )
{
int pos, j;
pos = 0;
if( comment == NULL )
fprintf( fp, "CLUSTAL format alignment by MAFFT (v%s)\n\n", VERSION );
else
fprintf( fp, "CLUSTAL format alignment by MAFFT %s (v%s)\n\n", comment, VERSION );
while( pos < maxlen )
{
fprintf( fp, "\n" );
for( j=0; j<nseq; j++ )
{
fprintf( fp, "%-15.15s ", extractfirstword( name[order[j]]+1 ) );
fprintf( fp, "%.60s\n", seq[order[j]]+pos ); // Ťµ¤¬°ã¤¦¤È¤À¤á¡£
}
if( mark )
{
fprintf( fp, "%-15.15s ", "" );
fprintf( fp, "%.60s\n", mark + pos ); // Ťµ¤¬°ã¤¦¤È¤À¤á¡£
}
pos += 60;
}
}
void writeData_reorder_pointer( FILE *fp, int locnjob, char **name, int *nlen, char **aseq, int *order )
{
int i, j, k;
int nalen;
for( i=0; i<locnjob; i++ )
{
k = order[i];
#if DEBUG
fprintf( stderr, "i = %d in writeData\n", i );
#endif
nalen = strlen( aseq[k] );
fprintf( fp, ">%s\n", name[k]+1 );
for( j=0; j<nalen; j=j+C )
{
#if 0
strncpy( b, aseq[k]+j, C ); b[C] = 0;
fprintf( fp, "%s\n",b );
#else
fprintf( fp, "%.*s\n", C, aseq[k]+j );
#endif
}
}
}
void writeData_reorder( FILE *fp, int locnjob, char name[][B], int nlen[], char **aseq, int *order )
{
int i, j, k;
int nalen;
for( i=0; i<locnjob; i++ )
{
k = order[i];
#if DEBUG
fprintf( stderr, "i = %d in writeData\n", i );
#endif
nalen = strlen( aseq[k] );
fprintf( fp, ">%s\n", name[k]+1 );
for( j=0; j<nalen; j=j+C )
{
#if 0
strncpy( b, aseq[k]+j, C ); b[C] = 0;
fprintf( fp, "%s\n",b );
#else
fprintf( fp, "%.*s\n", C, aseq[k]+j );
#endif
}
}
}
static void showaamtxexample()
{
fprintf( stderr, "Format error in aa matrix\n" );
fprintf( stderr, "# Example:\n" );
fprintf( stderr, "# comment\n" );
fprintf( stderr, " A R N D C Q E G H I L K M F P S T W Y V\n" );
fprintf( stderr, "A 4 -1 -2 -2 0 -1 -1 0 -2 -1 -1 -1 -1 -2 -1 1 0 -3 -2 0\n" );
fprintf( stderr, "R -1 5 0 -2 -3 1 0 -2 0 -3 -2 2 -1 -3 -2 -1 -1 -3 -2 -3\n" );
fprintf( stderr, "...\n" );
fprintf( stderr, "V 0 -3 -3 -3 -1 -2 -2 -3 -3 3 1 -2 1 -1 -2 -2 0 -3 -1 4\n" );
fprintf( stderr, "frequency 0.07 0.05 0.04 0.05 0.02 .. \n" );
fprintf( stderr, "# Example end\n" );
fprintf( stderr, "Only the lower half is loaded\n" );
fprintf( stderr, "The last line (frequency) is optional.\n" );
exit( 1 );
}
double *loadaamtx( void )
{
int i, j, k, ii, jj;
double *val;
double **raw;
int *map;
char *aaorder = "ARNDCQEGHILKMFPSTWYV";
char *inorder;
char *line;
char *ptr1;
char *ptr2;
char *mtxfname = "_aamtx";
FILE *mf;
raw = AllocateDoubleMtx( 21, 20 );
val = AllocateDoubleVec( 420 );
map = AllocateIntVec( 20 );
if( dorp != 'p' )
{
fprintf( stderr, "User-defined matrix is not supported for DNA\n" );
exit( 1 );
}
mf = fopen( mtxfname, "r" );
if( mf == NULL )
{
fprintf( stderr, "Cannot open the _aamtx file\n" );
exit( 1 );
}
inorder = calloc( 1000, sizeof( char ) );
line = calloc( 1000, sizeof( char ) );
while( !feof( mf ) )
{
fgets( inorder, 999, mf );
if( inorder[0] != '#' ) break;
}
ptr1 = ptr2 = inorder;
while( *ptr2 )
{
if( isalpha( *ptr2 ) )
{
*ptr1 = toupper( *ptr2 );
ptr1++;
}
ptr2++;
}
inorder[20] = 0;
for( i=0; i<20; i++ )
{
ptr2 = strchr( inorder, aaorder[i] );
if( ptr2 == NULL )
{
fprintf( stderr, "%c: not found in the first 20 letters.\n", aaorder[i] );
showaamtxexample();
}
else
{
map[i] = ptr2 - inorder;
}
}
i = 0;
while( !feof( mf ) )
{
fgets( line, 999, mf );
// fprintf( stderr, "line = %s\n", line );
if( line[0] == '#' ) continue;
ptr1 = line;
// fprintf( stderr, "line = %s\n", line );
for( j=0; j<=i; j++ )
{
while( !isdigit( *ptr1 ) && *ptr1 != '-' && *ptr1 != '.' )
ptr1++;
raw[i][j] = atof( ptr1 );
// fprintf( stderr, "raw[][]=%f, %c-%c %d-%d\n", raw[i][j], inorder[i], inorder[j], i, j );
ptr1 = strchr( ptr1, ' ' );
if( ptr1 == NULL && j<i) showaamtxexample();
}
i++;
if( i > 19 ) break;
}
for( i=0; i<20; i++ ) raw[20][i] = -1.0;
while( !feof( mf ) )
{
fgets( line, 999, mf );
if( line[0] == 'f' )
{
// fprintf( stderr, "line = %s\n", line );
ptr1 = line;
for( j=0; j<20; j++ )
{
while( !isdigit( *ptr1 ) && *ptr1 != '-' && *ptr1 != '.' )
ptr1++;
raw[20][j] = atof( ptr1 );
// fprintf( stderr, "raw[20][]=%f, %c %d\n", raw[20][j], inorder[i], j );
ptr1 = strchr( ptr1, ' ' );
if( ptr1 == NULL && j<19) showaamtxexample();
}
break;
}
}
k = 0;
for( i=0; i<20; i++ )
{
for( j=0; j<=i; j++ )
{
if( i != j )
{
ii = MAX( map[i], map[j] );
jj = MIN( map[i], map[j] );
}
else ii = jj = map[i];
val[k++] = raw[ii][jj];
// fprintf( stderr, "%c-%c, %f\n", aaorder[i], aaorder[j], val[k-1] );
}
}
for( i=0; i<20; i++ ) val[400+i] = raw[20][map[i]];
fprintf( stderr, "inorder = %s\n", inorder );
fclose( mf );
free( inorder );
free( line );
FreeDoubleMtx( raw );
free( map );
return( val );
}
void miyataout_reorder_pointer( FILE *fp, int locnjob, int nlenmax, char **name, int *nlen, char **aseq, int *order )
{
int i, j, k;
int nalen;
fprintf( fp, "%5d\n", 1 );
fprintf( fp, "%5d\n", 1 );
fprintf( fp, "%5d%5d\n", 1, nlenmax );
fprintf( fp, "%5d\n", 0 );
fprintf( fp, "%5d\n", locnjob );
for( i=0; i<locnjob; i++ )
{
k = order[i];
nalen = strlen( aseq[k] );
fprintf( fp, "=%s\n%d\n", name[k]+1, nalen );
for( j=0; j<nalen; j=j+C )
{
fprintf( fp, "%.*s\n", C, aseq[k]+j );
}
}
}
void readmccaskill( FILE *fp, RNApair **pairprob, int length )
{
char gett[1000];
int *pairnum;
int i;
int left, right;
float prob;
int c;
pairnum = (int *)calloc( length, sizeof( int ) );
for( i=0; i<length; i++ ) pairnum[i] = 0;
c = getc( fp );
{
if( c != '>' )
{
fprintf( stderr, "format error in hat4\n" );
exit( 1 );
}
}
fgets( gett, 999, fp );
while( 1 )
{
if( feof( fp ) ) break;
c = getc( fp );
ungetc( c, fp );
if( c == '>' )
{
break;
}
fgets( gett, 999, fp );
// fprintf( stderr, "gett = %s\n", gett );
sscanf( gett, "%d %d %f", &left, &right, &prob );
if( left >= length || right >= length )
{
fprintf( stderr, "format error in hat4\n" );
exit( 1 );
}
if( prob < 0.01 ) continue; // 080607, mafft ni dake eikyou
if( left != right && prob > 0.0 )
{
pairprob[left] = (RNApair *)realloc( pairprob[left], (pairnum[left]+2) * sizeof( RNApair ) );
pairprob[left][pairnum[left]].bestscore = prob;
pairprob[left][pairnum[left]].bestpos = right;
pairnum[left]++;
pairprob[left][pairnum[left]].bestscore = -1.0;
pairprob[left][pairnum[left]].bestpos = -1;
// fprintf( stderr, "%d-%d, %f\n", left, right, prob );
pairprob[right] = (RNApair *)realloc( pairprob[right], (pairnum[right]+2) * sizeof( RNApair ) );
pairprob[right][pairnum[right]].bestscore = prob;
pairprob[right][pairnum[right]].bestpos = left;
pairnum[right]++;
pairprob[right][pairnum[right]].bestscore = -1.0;
pairprob[right][pairnum[right]].bestpos = -1;
// fprintf( stderr, "%d-%d, %f\n", right, left, prob );
}
}
free( pairnum );
}
void readpairfoldalign( FILE *fp, char *s1, char *s2, char *aln1, char *aln2, int q1, int q2, int *of1, int *of2, int sumlen )
{
char gett[1000];
int *maptoseq1;
int *maptoseq2;
char dumc;
int dumi;
char sinseq[100], sinaln[100];
int posinseq, posinaln;
int alnlen;
int i;
int pos1, pos2;
char *pa1, *pa2;
char qstr[1000];
*of1 = -1;
*of2 = -1;
maptoseq1 = AllocateIntVec( sumlen+1 );
maptoseq2 = AllocateIntVec( sumlen+1 );
posinaln = 0; // foldalign ga alingment wo kaesanaitok no tame.
while( !feof( fp ) )
{
fgets( gett, 999, fp );
if( !strncmp( gett, "; ALIGNING", 10 ) ) break;
}
sprintf( qstr, "; ALIGNING %d against %d\n", q1+1, q2+1 );
if( strcmp( gett, qstr ) )
{
fprintf( stderr, "Error in FOLDALIGN\n" );
fprintf( stderr, "qstr = %s, but gett = %s\n", qstr, gett );
exit( 1 );
}
while( !feof( fp ) )
{
fgets( gett, 999, fp );
if( !strncmp( gett, "; --------", 10 ) ) break;
}
while( !feof( fp ) )
{
fgets( gett, 999, fp );
if( !strncmp( gett, "; ********", 10 ) ) break;
// fprintf( stderr, "gett = %s\n", gett );
sscanf( gett, "%c %c %s %s %d %d", &dumc, &dumc, sinseq, sinaln, &dumi, &dumi );
posinaln = atoi( sinaln );
posinseq = atoi( sinseq );
// fprintf( stderr, "posinseq = %d\n", posinseq );
// fprintf( stderr, "posinaln = %d\n", posinaln );
maptoseq1[posinaln-1] = posinseq-1;
}
alnlen = posinaln;
while( !feof( fp ) )
{
fgets( gett, 999, fp );
if( !strncmp( gett, "; --------", 10 ) ) break;
}
while( !feof( fp ) )
{
fgets( gett, 999, fp );
if( !strncmp( gett, "; ********", 10 ) ) break;
// fprintf( stderr, "gett = %s\n", gett );
sscanf( gett, "%c %c %s %s %d %d", &dumc, &dumc, sinseq, sinaln, &dumi, &dumi );
posinaln = atof( sinaln );
posinseq = atof( sinseq );
// fprintf( stderr, "posinseq = %d\n", posinseq );
// fprintf( stderr, "posinaln = %d\n", posinaln );
maptoseq2[posinaln-1] = posinseq-1;
}
if( alnlen != posinaln )
{
fprintf( stderr, "Error in foldalign?\n" );
exit( 1 );
}
pa1 = aln1;
pa2 = aln2;
for( i=0; i<alnlen; i++ )
{
pos1 = maptoseq1[i];
pos2 = maptoseq2[i];
if( pos1 > -1 )
*pa1++ = s1[pos1];
else
*pa1++ = '-';
if( pos2 > -1 )
*pa2++ = s2[pos2];
else
*pa2++ = '-';
}
*pa1 = 0;
*pa2 = 0;
*of1 = 0;
for( i=0; i<alnlen; i++ )
{
*of1 = maptoseq1[i];
if( *of1 > -1 ) break;
}
*of2 = 0;
for( i=0; i<alnlen; i++ )
{
*of2 = maptoseq2[i];
if( *of2 > -1 ) break;
}
// fprintf( stderr, "*of1=%d, aln1 = :%s:\n", *of1, aln1 );
// fprintf( stderr, "*of2=%d, aln2 = :%s:\n", *of2, aln2 );
free( maptoseq1 );
free( maptoseq2 );
}