void GroupAlign( int nseq1, int nseq2, char **name, int *nlen, char **seq, char **aseq, char **mseq1, char **mseq2, int ***topol, double **len, double *eff, int alloclen ) { int i; int clus1, clus2; int s1, s2; float pscore; static char **name1, **name2; double *effarr = eff; double *effarr1 = NULL; double *effarr2 = NULL; static char *indication1, *indication2; float dumfl = 0.0; int intdum; #if DEBUG double time1, time2; #endif // fprintf( stderr, "in GroupAlign fftWinSize = %d\n", fftWinSize ); // fprintf( stderr, "in GroupAlign fftThreshold = %d\n", fftThreshold ); if( effarr1 == NULL ) { name1 = AllocateCharMtx( nseq1, B ); name2 = AllocateCharMtx( nseq2, B ); indication1 = AllocateCharVec( 150 ); indication2 = AllocateCharVec( 150 ); effarr1 = AllocateDoubleVec( njob ); effarr2 = AllocateDoubleVec( njob ); #if 0 #else #endif } for( i=0; i<njob; i++ ) strcpy( aseq[i], seq[i] ); s1 = 0; s2 = nseq1; // fprintf( stdout, "nseq1 = %d\n", nseq1 ); clus1 = conjuctionforgaln( 0, nseq1, aseq, mseq1, effarr1, effarr, name, name1, indication1 ); clus2 = conjuctionforgaln( nseq1, njob, aseq, mseq2, effarr2, effarr, name, name2, indication2 ); /* fprintf( stderr, "before align all\n" ); display( aseq, njob ); fprintf( stderr, "\n" ); fprintf( stderr, "before align 1 %s \n", indication1 ); display( mseq1, clus1 ); fprintf( stderr, "\n" ); fprintf( stderr, "before align 2 %s \n", indication2 ); display( mseq2, clus2 ); fprintf( stderr, "\n" ); */ commongappick( nseq1, mseq1 ); commongappick( nseq2, mseq2 ); #if DEBUG time1 = getrusage_sec(); fprintf( stderr, "entering Falign\n" ); #endif if( use_fft ) { if( alg == 'M' ) pscore = Falign_udpari_long( NULL, NULL, n_dis_consweight_multi, mseq1, mseq2, effarr1, effarr2, NULL, NULL, clus1, clus2, alloclen, &intdum ); else pscore = Falign( NULL, NULL, n_dis_consweight_multi, mseq1, mseq2, effarr1, effarr2, NULL, NULL, clus1, clus2, alloclen, &intdum, NULL, 0, NULL ); } else { if( alg == 'M' ) pscore = MSalignmm( n_dis_consweight_multi, mseq1, mseq2, effarr1, effarr2, clus1, clus2, alloclen, NULL, NULL, NULL, NULL, NULL, 0, NULL, outgap, outgap ); else pscore = A__align( n_dis_consweight_multi, mseq1, mseq2, effarr1, effarr2, clus1, clus2, alloclen, NULL, &dumfl, NULL, NULL, NULL, NULL, NULL, 0, NULL, outgap, outgap ); } #if DEBUG time2 = getrusage_sec(); fprintf( stdout, "### %d - %d, %f\n", clus1, clus2, time2-time1 ); fflush( stdout ); #endif /* fprintf( stderr, "after align 1 %s \n", indication1 ); display( mseq1, clus1 ); fprintf( stderr, "\n" ); fprintf( stderr, "after align 2 %s \n", indication2 ); display( mseq2, clus2 ); fprintf( stderr, "\n" ); */ fprintf( stderr, "group-to-group %s /%s %f\n", indication1, indication2, pscore ); if( disp ) display( aseq, njob ); fprintf( stderr, "\n" ); /* trap = fopen( "pre", "r+" ); if( !trap ) ErrorExit( 1 ); WriteGapFill( trap, njob, name, nlen, aseq ); fclose( trap ); fprintf( stdout, "nseq1 = %d\n", nseq1 ); */ }
float Falign_localhom( char **seq1, char **seq2, double *eff1, double *eff2, int clus1, int clus2, int alloclen, LocalHom ***localhom, float *totalimpmatch, int *gapmap1, int *gapmap2, int *chudanpt, int chudanref, int *chudanres ) { // tditeration.c deha alloclen ha huhen nanode // prevalloclen ha iranai. int i, j, k, l, m, maxk; int nlen, nlen2, nlen4; static TLS int crossscoresize = 0; static TLS char **tmpseq1 = NULL; static TLS char **tmpseq2 = NULL; static TLS char **tmpptr1 = NULL; static TLS char **tmpptr2 = NULL; static TLS char **tmpres1 = NULL; static TLS char **tmpres2 = NULL; static TLS char **result1 = NULL; static TLS char **result2 = NULL; #if RND static TLS char **rndseq1 = NULL; static TLS char **rndseq2 = NULL; #endif static TLS Fukusosuu **seqVector1 = NULL; static TLS Fukusosuu **seqVector2 = NULL; static TLS Fukusosuu **naiseki = NULL; static TLS Fukusosuu *naisekiNoWa = NULL; static TLS double *soukan = NULL; static TLS double **crossscore = NULL; int nlentmp; static TLS int *kouho = NULL; static TLS Segment *segment = NULL; static TLS Segment *segment1 = NULL; static TLS Segment *segment2 = NULL; static TLS Segment **sortedseg1 = NULL; static TLS Segment **sortedseg2 = NULL; static TLS int *cut1 = NULL; static TLS int *cut2 = NULL; static TLS char *sgap1, *egap1, *sgap2, *egap2; static TLS int localalloclen = 0; int lag; int tmpint; int count, count0; int len1, len2; int totallen; float totalscore; float impmatch; extern Fukusosuu *AllocateFukusosuuVec(); extern Fukusosuu **AllocateFukusosuuMtx(); if( seq1 == NULL ) { if( result1 ) { // fprintf( stderr, "Freeing localarrays in Falign\n" ); localalloclen = 0; mymergesort( 0, 0, NULL ); alignableReagion( 0, 0, NULL, NULL, NULL, NULL, NULL ); fft( 0, NULL, 1 ); A__align( NULL, NULL, NULL, NULL, 0, 0, 0, NULL, NULL, NULL, NULL, NULL, NULL, NULL, 0, NULL, 0, 0 ); G__align11( NULL, NULL, 0, 0, 0 ); partA__align( NULL, NULL, NULL, NULL, 0, 0, 0, NULL, NULL, 0, 0, 0, 0, NULL, NULL, NULL, NULL, NULL, NULL, NULL, 0, NULL ); blockAlign2( NULL, NULL, NULL, NULL, NULL, NULL ); if( crossscore ) FreeDoubleMtx( crossscore ); FreeCharMtx( result1 ); FreeCharMtx( result2 ); FreeCharMtx( tmpres1 ); FreeCharMtx( tmpres2 ); FreeCharMtx( tmpseq1 ); FreeCharMtx( tmpseq2 ); free( sgap1 ); free( egap1 ); free( sgap2 ); free( egap2 ); free( kouho ); free( cut1 ); free( cut2 ); free( tmpptr1 ); free( tmpptr2 ); free( segment ); free( segment1 ); free( segment2 ); free( sortedseg1 ); free( sortedseg2 ); if( !kobetsubunkatsu ) { FreeFukusosuuMtx ( seqVector1 ); FreeFukusosuuMtx ( seqVector2 ); FreeFukusosuuVec( naisekiNoWa ); FreeFukusosuuMtx( naiseki ); FreeDoubleVec( soukan ); } } else { // fprintf( stderr, "Did not allocate localarrays in Falign\n" ); } return( 0.0 ); } len1 = strlen( seq1[0] ); len2 = strlen( seq2[0] ); nlentmp = MAX( len1, len2 ); nlen = 1; while( nlentmp >= nlen ) nlen <<= 1; #if 0 fprintf( stderr, "### nlen = %d\n", nlen ); #endif nlen2 = nlen/2; nlen4 = nlen2 / 2; #if DEBUG fprintf( stderr, "len1 = %d, len2 = %d\n", len1, len2 ); fprintf( stderr, "nlentmp = %d, nlen = %d\n", nlentmp, nlen ); #endif if( !localalloclen ) { sgap1 = AllocateCharVec( njob ); egap1 = AllocateCharVec( njob ); sgap2 = AllocateCharVec( njob ); egap2 = AllocateCharVec( njob ); kouho = AllocateIntVec( NKOUHO ); cut1 = AllocateIntVec( MAXSEG ); cut2 = AllocateIntVec( MAXSEG ); tmpptr1 = AllocateCharMtx( njob, 0 ); tmpptr2 = AllocateCharMtx( njob, 0 ); result1 = AllocateCharMtx( njob, alloclen ); result2 = AllocateCharMtx( njob, alloclen ); tmpres1 = AllocateCharMtx( njob, alloclen ); tmpres2 = AllocateCharMtx( njob, alloclen ); // crossscore = AllocateDoubleMtx( MAXSEG, MAXSEG ); segment = (Segment *)calloc( MAXSEG, sizeof( Segment ) ); segment1 = (Segment *)calloc( MAXSEG, sizeof( Segment ) ); segment2 = (Segment *)calloc( MAXSEG, sizeof( Segment ) ); sortedseg1 = (Segment **)calloc( MAXSEG, sizeof( Segment * ) ); sortedseg2 = (Segment **)calloc( MAXSEG, sizeof( Segment * ) ); if( !( segment && segment1 && segment2 && sortedseg1 && sortedseg2 ) ) ErrorExit( "Allocation error\n" ); if ( scoremtx == -1 ) n20or4or2 = 4; else if( fftscore == 1 ) n20or4or2 = 2; else n20or4or2 = 20; } if( localalloclen < nlen ) { if( localalloclen ) { #if 1 if( !kobetsubunkatsu ) { FreeFukusosuuMtx ( seqVector1 ); FreeFukusosuuMtx ( seqVector2 ); FreeFukusosuuVec( naisekiNoWa ); FreeFukusosuuMtx( naiseki ); FreeDoubleVec( soukan ); } FreeCharMtx( tmpseq1 ); FreeCharMtx( tmpseq2 ); #endif #if RND FreeCharMtx( rndseq1 ); FreeCharMtx( rndseq2 ); #endif } tmpseq1 = AllocateCharMtx( njob, nlen ); tmpseq2 = AllocateCharMtx( njob, nlen ); if( !kobetsubunkatsu ) { naisekiNoWa = AllocateFukusosuuVec( nlen ); naiseki = AllocateFukusosuuMtx( n20or4or2, nlen ); seqVector1 = AllocateFukusosuuMtx( n20or4or2+1, nlen+1 ); seqVector2 = AllocateFukusosuuMtx( n20or4or2+1, nlen+1 ); soukan = AllocateDoubleVec( nlen+1 ); } #if RND rndseq1 = AllocateCharMtx( njob, nlen ); rndseq2 = AllocateCharMtx( njob, nlen ); for( i=0; i<njob; i++ ) { generateRndSeq( rndseq1[i], nlen ); generateRndSeq( rndseq2[i], nlen ); } #endif localalloclen = nlen; } for( j=0; j<clus1; j++ ) strcpy( tmpseq1[j], seq1[j] ); for( j=0; j<clus2; j++ ) strcpy( tmpseq2[j], seq2[j] ); #if 0 fftfp = fopen( "input_of_Falign", "w" ); fprintf( fftfp, "nlen = %d\n", nlen ); fprintf( fftfp, "seq1: ( %d sequences ) \n", clus1 ); for( i=0; i<clus1; i++ ) fprintf( fftfp, "%s\n", seq1[i] ); fprintf( fftfp, "seq2: ( %d sequences ) \n", clus2 ); for( i=0; i<clus2; i++ ) fprintf( fftfp, "%s\n", seq2[i] ); fclose( fftfp ); system( "less input_of_Falign < /dev/tty > /dev/tty" ); #endif if( !kobetsubunkatsu ) { fprintf( stderr, "FFT ... " ); for( j=0; j<n20or4or2; j++ ) vec_init( seqVector1[j], nlen ); if( fftscore && scoremtx != -1 ) { for( i=0; i<clus1; i++ ) { seq_vec_2( seqVector1[0], polarity, eff1[i], tmpseq1[i] ); seq_vec_2( seqVector1[1], volume, eff1[i], tmpseq1[i] ); } } else { #if 0 for( i=0; i<clus1; i++ ) for( j=0; j<n20or4or2; j++ ) seq_vec( seqVector1[j], amino[j], eff1[i], tmpseq1[i] ); #else for( i=0; i<clus1; i++ ) seq_vec_3( seqVector1, eff1[i], tmpseq1[i] ); #endif } #if RND for( i=0; i<clus1; i++ ) { vec_init2( seqVector1, rndseq1[i], eff1[i], len1, nlen ); } #endif #if 0 fftfp = fopen( "seqVec", "w" ); fprintf( fftfp, "before transform\n" ); for( k=0; k<n20or4or2; k++ ) { fprintf( fftfp, "nlen=%d\n", nlen ); fprintf( fftfp, "%c\n", amino[k] ); for( l=0; l<nlen; l++ ) fprintf( fftfp, "%f %f\n", seqVector1[k][l].R, seqVector1[k][l].I ); } fclose( fftfp ); system( "less seqVec < /dev/tty > /dev/tty" ); #endif for( j=0; j<n20or4or2; j++ ) vec_init( seqVector2[j], nlen ); if( fftscore && scoremtx != -1 ) { for( i=0; i<clus2; i++ ) { seq_vec_2( seqVector2[0], polarity, eff2[i], tmpseq2[i] ); seq_vec_2( seqVector2[1], volume, eff2[i], tmpseq2[i] ); } } else { #if 0 for( i=0; i<clus2; i++ ) for( j=0; j<n20or4or2; j++ ) seq_vec( seqVector2[j], amino[j], eff2[i], tmpseq2[i] ); #else for( i=0; i<clus2; i++ ) seq_vec_3( seqVector2, eff2[i], tmpseq2[i] ); #endif } #if RND for( i=0; i<clus2; i++ ) { vec_init2( seqVector2, rndseq2[i], eff2[i], len2, nlen ); } #endif #if 0 fftfp = fopen( "seqVec2", "w" ); fprintf( fftfp, "before fft\n" ); for( k=0; k<n20or4or2; k++ ) { fprintf( fftfp, "%c\n", amino[k] ); for( l=0; l<nlen; l++ ) fprintf( fftfp, "%f %f\n", seqVector2[k][l].R, seqVector2[k][l].I ); } fclose( fftfp ); system( "less seqVec2 < /dev/tty > /dev/tty" ); #endif for( j=0; j<n20or4or2; j++ ) { fft( nlen, seqVector2[j], (j==0) ); fft( nlen, seqVector1[j], 0 ); } #if 0 fftfp = fopen( "seqVec2", "w" ); fprintf( fftfp, "#after fft\n" ); for( k=0; k<n20or4or2; k++ ) { fprintf( fftfp, "#%c\n", amino[k] ); for( l=0; l<nlen; l++ ) fprintf( fftfp, "%f %f\n", seqVector2[k][l].R, seqVector2[k][l].I ); } fclose( fftfp ); system( "less seqVec2 < /dev/tty > /dev/tty" ); #endif for( k=0; k<n20or4or2; k++ ) { for( l=0; l<nlen; l++ ) calcNaiseki( naiseki[k]+l, seqVector1[k]+l, seqVector2[k]+l ); } for( l=0; l<nlen; l++ ) { naisekiNoWa[l].R = 0.0; naisekiNoWa[l].I = 0.0; for( k=0; k<n20or4or2; k++ ) { naisekiNoWa[l].R += naiseki[k][l].R; naisekiNoWa[l].I += naiseki[k][l].I; } } #if 0 fftfp = fopen( "naisekiNoWa", "w" ); fprintf( fftfp, "#Before fft\n" ); for( l=0; l<nlen; l++ ) fprintf( fftfp, "%d %f %f\n", l, naisekiNoWa[l].R, naisekiNoWa[l].I ); fclose( fftfp ); system( "less naisekiNoWa < /dev/tty > /dev/tty " ); #endif fft( -nlen, naisekiNoWa, 0 ); for( m=0; m<=nlen2; m++ ) soukan[m] = naisekiNoWa[nlen2-m].R; for( m=nlen2+1; m<nlen; m++ ) soukan[m] = naisekiNoWa[nlen+nlen2-m].R; #if 0 fftfp = fopen( "naisekiNoWa", "w" ); fprintf( fftfp, "#After fft\n" ); for( l=0; l<nlen; l++ ) fprintf( fftfp, "%d %f\n", l, naisekiNoWa[l].R ); fclose( fftfp ); fftfp = fopen( "list.plot", "w" ); fprintf( fftfp, "plot 'naisekiNoWa'\npause -1" ); fclose( fftfp ); system( "/usr/bin/gnuplot list.plot &" ); #endif #if 0 fprintf( stderr, "frt write start\n" ); fftfp = fopen( "frt", "w" ); for( l=0; l<nlen; l++ ) fprintf( fftfp, "%d %f\n", l-nlen2, soukan[l] ); fclose( fftfp ); system( "less frt < /dev/tty > /dev/tty" ); #if 0 fftfp = fopen( "list.plot", "w" ); fprintf( fftfp, "plot 'frt'\n pause +1" ); fclose( fftfp ); system( "/usr/bin/gnuplot list.plot" ); #endif #endif getKouho( kouho, NKOUHO, soukan, nlen ); #if 0 for( i=0; i<NKOUHO; i++ ) { fprintf( stderr, "kouho[%d] = %d\n", i, kouho[i] ); } #endif } #if KEIKA fprintf( stderr, "Searching anchors ... " ); #endif count = 0; #define CAND 0 #if CAND fftfp = fopen( "cand", "w" ); fclose( fftfp ); #endif if( kobetsubunkatsu ) { maxk = 1; kouho[0] = 0; } else { maxk = NKOUHO; } for( k=0; k<maxk; k++ ) { lag = kouho[k]; zurasu2( lag, clus1, clus2, seq1, seq2, tmpptr1, tmpptr2 ); #if CAND fftfp = fopen( "cand", "a" ); fprintf( fftfp, "Candidate No.%d lag = %d\n", k+1, lag ); fprintf( fftfp, "%s\n", tmpptr1[0] ); fprintf( fftfp, "%s\n", tmpptr2[0] ); fclose( fftfp ); #endif tmpint = alignableReagion( clus1, clus2, tmpptr1, tmpptr2, eff1, eff2, segment+count ); if( count+tmpint > MAXSEG -3 ) ErrorExit( "TOO MANY SEGMENTS.\n" ); while( tmpint-- > 0 ) { if( lag > 0 ) { segment1[count].start = segment[count].start ; segment1[count].end = segment[count].end ; segment1[count].center = segment[count].center; segment1[count].score = segment[count].score; segment2[count].start = segment[count].start + lag; segment2[count].end = segment[count].end + lag; segment2[count].center = segment[count].center + lag; segment2[count].score = segment[count].score ; } else { segment1[count].start = segment[count].start - lag; segment1[count].end = segment[count].end - lag; segment1[count].center = segment[count].center - lag; segment1[count].score = segment[count].score ; segment2[count].start = segment[count].start ; segment2[count].end = segment[count].end ; segment2[count].center = segment[count].center; segment2[count].score = segment[count].score ; } #if 0 fftfp = fopen( "cand", "a" ); fprintf( fftfp, "Goukaku=%dko\n", tmpint ); fprintf( fftfp, "in 1 %d\n", segment1[count].center ); fprintf( fftfp, "in 2 %d\n", segment2[count].center ); fclose( fftfp ); #endif segment1[count].pair = &segment2[count]; segment2[count].pair = &segment1[count]; count++; #if 0 fprintf( stderr, "count=%d\n", count ); #endif } } #if 1 if( !kobetsubunkatsu ) fprintf( stderr, "%d segments found\n", count ); #endif if( !count && fftNoAnchStop ) ErrorExit( "Cannot detect anchor!" ); #if 0 fftfp = fopen( "fft", "a" ); fprintf( fftfp, "RESULT before sort:\n" ); for( l=0; l<count; l++ ) { fprintf( fftfp, "cut[%d]=%d, ", l, segment1[l].center ); fprintf( fftfp, "%d score = %f\n", segment2[l].center, segment1[l].score ); } fclose( fftfp ); #endif #if KEIKA fprintf( stderr, "Aligning anchors ... " ); #endif for( i=0; i<count; i++ ) { sortedseg1[i] = &segment1[i]; sortedseg2[i] = &segment2[i]; } #if 0 tmpsort( count, sortedseg1 ); tmpsort( count, sortedseg2 ); qsort( sortedseg1, count, sizeof( Segment * ), segcmp ); qsort( sortedseg2, count, sizeof( Segment * ), segcmp ); #else mymergesort( 0, count-1, sortedseg1 ); mymergesort( 0, count-1, sortedseg2 ); #endif for( i=0; i<count; i++ ) sortedseg1[i]->number = i; for( i=0; i<count; i++ ) sortedseg2[i]->number = i; if( kobetsubunkatsu ) { for( i=0; i<count; i++ ) { cut1[i+1] = sortedseg1[i]->center; cut2[i+1] = sortedseg2[i]->center; } cut1[0] = 0; cut2[0] = 0; cut1[count+1] = len1; cut2[count+1] = len2; count += 2; } else { if( crossscoresize < count+2 ) { crossscoresize = count+2; #if 1 fprintf( stderr, "######allocating crossscore, size = %d\n", crossscoresize ); #endif if( crossscore ) FreeDoubleMtx( crossscore ); crossscore = AllocateDoubleMtx( crossscoresize, crossscoresize ); } for( i=0; i<count+2; i++ ) for( j=0; j<count+2; j++ ) crossscore[i][j] = 0.0; for( i=0; i<count; i++ ) { crossscore[segment1[i].number+1][segment1[i].pair->number+1] = segment1[i].score; cut1[i+1] = sortedseg1[i]->center; cut2[i+1] = sortedseg2[i]->center; } #if DEBUG fprintf( stderr, "AFTER SORT\n" ); for( i=0; i<count; i++ ) fprintf( stderr, "%d, %d\n", segment1[i].start, segment2[i].start ); #endif crossscore[0][0] = 10000000.0; cut1[0] = 0; cut2[0] = 0; crossscore[count+1][count+1] = 10000000.0; cut1[count+1] = len1; cut2[count+1] = len2; count += 2; count0 = count; blockAlign2( cut1, cut2, sortedseg1, sortedseg2, crossscore, &count ); if( count0 > count ) { #if 0 fprintf( stderr, "\7 REPEAT!? \n" ); #else fprintf( stderr, "REPEAT!? \n" ); #endif if( fftRepeatStop ) exit( 1 ); } #if KEIKA else fprintf( stderr, "done\n" ); #endif } #if 0 fftfp = fopen( "fft", "a" ); fprintf( fftfp, "RESULT after sort:\n" ); for( l=0; l<count; l++ ) { fprintf( fftfp, "cut[%d]=%d, ", l, segment1[l].center ); fprintf( fftfp, "%d\n", segment2[l].center ); } fclose( fftfp ); #endif #if 0 fftfp = fopen( "fft", "a" ); fprintf( fftfp, "RESULT after sort:\n" ); for( l=0; l<count; l++ ) { fprintf( fftfp, "cut : %d %d\n", cut1[l], cut2[l] ); } fclose( fftfp ); #endif #if KEIKA fprintf( trap_g, "Devided to %d segments\n", count-1 ); fprintf( trap_g, "%d %d forg\n", MIN( clus1, clus2 ), count-1 ); #endif totallen = 0; for( j=0; j<clus1; j++ ) result1[j][0] = 0; for( j=0; j<clus2; j++ ) result2[j][0] = 0; totalscore = 0.0; *totalimpmatch = 0.0; for( i=0; i<count-1; i++ ) { #if DEBUG fprintf( stderr, "DP %03d / %03d %4d to ", i+1, count-1, totallen ); #else #if KEIKA fprintf( stderr, "DP %03d / %03d\r", i+1, count-1 ); #endif #endif if( cut1[i] ) { getkyokaigap( sgap1, seq1, cut1[i]-1, clus1 ); getkyokaigap( sgap2, seq2, cut2[i]-1, clus2 ); } else { for( j=0; j<clus1; j++ ) sgap1[j] = 'o'; for( j=0; j<clus2; j++ ) sgap2[j] = 'o'; } if( cut1[i+1] != len1 ) { getkyokaigap( egap1, seq1, cut1[i+1], clus1 ); getkyokaigap( egap2, seq2, cut2[i+1], clus2 ); } else { for( j=0; j<clus1; j++ ) egap1[j] = 'o'; for( j=0; j<clus2; j++ ) egap2[j] = 'o'; } for( j=0; j<clus1; j++ ) { strncpy( tmpres1[j], seq1[j]+cut1[i], cut1[i+1]-cut1[i] ); tmpres1[j][cut1[i+1]-cut1[i]] = 0; } if( kobetsubunkatsu ) commongappick_record( clus1, tmpres1, gapmap1 ); for( j=0; j<clus2; j++ ) { strncpy( tmpres2[j], seq2[j]+cut2[i], cut2[i+1]-cut2[i] ); tmpres2[j][cut2[i+1]-cut2[i]] = 0; } if( kobetsubunkatsu ) commongappick_record( clus2, tmpres2, gapmap2 ); #if 0 fprintf( stderr, "count = %d\n", count ); fprintf( stderr, "### reg1 = %d-%d\n", cut1[i], cut1[i+1]-1 ); fprintf( stderr, "### reg2 = %d-%d\n", cut2[i], cut2[i+1]-1 ); #endif switch( alg ) { case( 'a' ): totalscore += Aalign( tmpres1, tmpres2, eff1, eff2, clus1, clus2, alloclen ); break; case( 'Q' ): totalscore += partQ__align( tmpres1, tmpres2, eff1, eff2, clus1, clus2, alloclen, localhom, &impmatch, cut1[i], cut1[i+1]-1, cut2[i], cut2[i+1]-1, gapmap1, gapmap2, sgap1, sgap2, egap1, egap2 ); *totalimpmatch += impmatch; // fprintf( stderr, "*totalimpmatch in Falign_localhom = %f\n", *totalimpmatch ); break; case( 'A' ): totalscore += partA__align( tmpres1, tmpres2, eff1, eff2, clus1, clus2, alloclen, localhom, &impmatch, cut1[i], cut1[i+1]-1, cut2[i], cut2[i+1]-1, gapmap1, gapmap2, sgap1, sgap2, egap1, egap2, chudanpt, chudanref, chudanres ); *totalimpmatch += impmatch; // fprintf( stderr, "*totalimpmatch in Falign_localhom = %f\n", *totalimpmatch ); break; default: fprintf( stderr, "alg = %c\n", alg ); ErrorExit( "ERROR IN SOURCE FILE Falign.c" ); break; } #ifdef enablemultithread if( chudanres && *chudanres ) { // fprintf( stderr, "\n\n## CHUUDAN!!! at Falign_localhom\n" ); return( -1.0 ); } #endif nlen = strlen( tmpres1[0] ); if( totallen + nlen > alloclen ) { fprintf( stderr, "totallen=%d + nlen=%d > alloclen = %d\n", totallen, nlen, alloclen ); ErrorExit( "LENGTH OVER in Falign\n " ); } for( j=0; j<clus1; j++ ) strcat( result1[j], tmpres1[j] ); for( j=0; j<clus2; j++ ) strcat( result2[j], tmpres2[j] ); totallen += nlen; #if 0 fprintf( stderr, "%4d\r", totallen ); fprintf( stderr, "\n\n" ); for( j=0; j<clus1; j++ ) { fprintf( stderr, "%s\n", tmpres1[j] ); } fprintf( stderr, "-------\n" ); for( j=0; j<clus2; j++ ) { fprintf( stderr, "%s\n", tmpres2[j] ); } #endif } #if KEIKA fprintf( stderr, "DP ... done \n" ); #endif for( j=0; j<clus1; j++ ) strcpy( seq1[j], result1[j] ); for( j=0; j<clus2; j++ ) strcpy( seq2[j], result2[j] ); #if 0 for( j=0; j<clus1; j++ ) { fprintf( stderr, "%s\n", result1[j] ); } fprintf( stderr, "- - - - - - - - - - -\n" ); for( j=0; j<clus2; j++ ) { fprintf( stderr, "%s\n", result2[j] ); } #endif return( totalscore ); }