source: branches/help/GDE/CLUSTAL/sequence.c

/********* Sequence input routines for CLUSTALV *******************/
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include <stdlib.h>
#include "clustalv.h"   


/*
*       Prototypes
*/

extern Boolean linetype(char *,char *);
extern void warning(char *,...);
extern void error(char *,...);
extern char *   rtrim(char *);
extern void     getstr(char *,char *);

void fill_chartab(void);
int readseqs(int);

static void get_seq(char *,char *,int *,char *);
static void check_infile(int *);
static void p_encode(char *, char *, int);
static void n_encode(char *, char *, int);
static int res_index(char *,char);
static Boolean check_dnaflag(char *, int);
/*
 *      Global variables
 */

extern FILE *fin;
extern Boolean usemenu, dnaflag, explicit_dnaflag;
extern char seqname[];
extern int nseqs;
extern int *seqlen_array;
extern char **names,**titles;
extern char **seq_array;
extern profile1_empty, profile2_empty;

char *amino_acid_codes   =    "ABCDEFGHIKLMNPQRSTUVWXYZ-"; 
char *amino_acid_order   =    "XCSTPAGNDEQHRKMILVFYW";
char *nucleic_acid_order =        "NACGTU";
static int seqFormat;
static char chartab[256];
static char *formatNames[] = {"unknown","EMBL/Swiss-Prot","PIR","Pearson"};

void fill_chartab()     /* Create translation and check table */
{
/*      static char valid[]="ABCDEFGHIKLMNPQRSTVWXYZ-";  */
        register int i;
        register char c;
        
        for(i=0;i<256;chartab[i++]=0);
        for(i=0;c=amino_acid_codes[i];i++)
                chartab[c]=chartab[tolower(c)]=c;
}



static void get_seq(char *sname,char *seq,int *len,char *tit)
{
        static char line[MAXLINE+1];
        int i;
        unsigned char c;

        switch(seqFormat) {
                case EMBLSWISS:
                        while( !linetype(line,"ID") )
                                fgets(line,MAXLINE+1,fin);
                        
                strncpy(sname,line+5,MAXNAMES); /* remember entryname */
                        sname[MAXNAMES]=EOS;
                        rtrim(sname);

/*                      while( !linetype(line,"DE") )
                                fgets(line,MAXLINE+1,fin);
                        strncpy(tit,line+5,MAXTITLES);
                        tit[MAXTITLES]=EOS;
                        i=strlen(tit);
                        if(tit[i-1]=='\n') tit[i-1]=EOS;
*/
                        while( !linetype(line,"SQ") )
                                fgets(line,MAXLINE+1,fin);
                        
                        *len=0;
                while(fgets(line,MAXLINE+1,fin)) {
                        for(i=0;*len < MAXLEN;i++) {
                                c=line[i];
                        if(c == '\n' || c == EOS || c == '/')
                                break;                  /* EOL */
                
                        if( (c=chartab[c]))
                                seq[++(*len)]=c;
                }
                if(*len == MAXLEN || c == '/') break;
                }
                break;
                
                case PIR:
                        while(*line != '>')
                                fgets(line,MAXLINE+1,fin);
                        
                        strncpy(sname,line+4,MAXNAMES);
                        sname[MAXNAMES]=EOS;
                        for(i=MAXNAMES-1;i > 0;i--) 
                                if(isspace(sname[i])) {
                                        sname[i]=EOS;   
                                        break;
                                }               

                        fgets(line,MAXLINE+1,fin);
                        strncpy(tit,line,MAXTITLES);
                        tit[MAXTITLES]=EOS;
                        i=strlen(tit);
                        if(tit[i-1]=='\n') tit[i-1]=EOS;
                        
                        *len=0;
                        while(fgets(line,MAXLINE+1,fin)) {
                                for(i=0;*len < MAXLEN;i++) {
                                        c=line[i];
                                if(c == '\n' || c == EOS || c == '*')
                                        break;                  /* EOL */
                        
                                if( (c=chartab[c]))
                                        seq[++(*len)]=c;
                        }
                        if(*len == MAXLEN || c == '*') break;
                        }
                break;

                case PEARSON:
                        while(*line != '>')
                                fgets(line,MAXLINE+1,fin);
                        
                        strncpy(sname,line+1,MAXNAMES);
                        sname[MAXNAMES]=EOS;
                        for(i=MAXNAMES-1;i > 0;i--) 
                                if(isspace(sname[i])) {
                                        sname[i]=EOS;   
                                        break;
                                }               
                        *tit=EOS;
                        
                        *len=0;
                        while(fgets(line,MAXLINE+1,fin)) {
                                for(i=0;*len < MAXLEN;i++) {
                                        c=line[i];
                                if(c == '\n' || c == EOS || c == '>')
                                        break;                  /* EOL */
                        
                                if( (c=chartab[c]))
                                        seq[++(*len)]=c;
                        }
                        if(*len == MAXLEN || c == '>') break;
                        }
                break;
        }
        
        if(*len == MAXLEN)
                warning("Sequence %s truncated to %d residues",
                                sname,MAXLEN);
                                
        seq[*len+1]=EOS;
}


int readseqs(int first_seq) /*first_seq is the #no. of the first seq. to read */
{
        char line[FILENAMELEN+1];
        static char seq1[MAXLEN+2],sname1[MAXNAMES+1],title[MAXTITLES+1];
        int i,j,no_seqs;
        static int l1;
        static Boolean dnaflag1;
        
        if(usemenu)
                getstr("Enter the name of the sequence file",line);
        else
                strcpy(line,seqname);
        if(*line == EOS) return -1;
        
        if((fin=fopen(line,"r"))==NULL) {
                error("Could not open sequence file %s",line);
                return -1;      /* DES -1 => file not found */
        }
        strcpy(seqname,line);
        no_seqs=0;
        check_infile(&no_seqs);
        printf("\nSequence format is %s\n",formatNames[seqFormat]);
        if(no_seqs == 0)
                return 0;       /* return the number of seqs. (zero here)*/

        if((no_seqs + first_seq -1) > MAXN) {
                error("Too many sequences. Maximum is %d",MAXN);
                return 0;       /* also return zero if too many */
        }

        for(i=first_seq;i<=first_seq+no_seqs-1;++i) {    /* get the seqs now*/
                get_seq(sname1,seq1,&l1,title);
                seqlen_array[i]=l1;                   /* store the length */
                strcpy(names[i],sname1);              /*    "   "  name   */
                strcpy(titles[i],title);              /*    "   "  title  */

                if(!explicit_dnaflag) {
                        dnaflag1 = check_dnaflag(seq1,l1); /* check DNA/Prot */
                        if(i == 1) dnaflag = dnaflag1;
                }                       /* type decided by first seq*/
                else
                        dnaflag1 = dnaflag;

                if( (!explicit_dnaflag) && (dnaflag1 != dnaflag) )
                        warning(
        "Sequence %d [%s] appears to be of different type to sequence 1",
                        i,sname1);

                if(dnaflag)
                        n_encode(seq1,seq_array[i],l1); /* encode the sequence*/
                else                                    /* as ints  */
                        p_encode(seq1,seq_array[i],l1);
        }

        fclose(fin);
        return no_seqs;    /* return the number of seqs. read in this call */
}


static Boolean check_dnaflag(char *seq, int slen)
/* check if DNA or Protein
   The decision is based on counting all A,C,G,T,U or N. 
   If >= 85% of all characters (except -) are as above => DNA  */
{
        int i, c, nresidues, nbases;
        float ratio;
        
        nresidues = nbases = 0; 
        for(i=1; i <= slen; i++) {
                if(seq[i] != '-') {
                        nresidues++;
                        if(seq[i] == 'N')
                                nbases++;
                        else {
                                c = res_index(nucleic_acid_order, seq[i]);
                                if(c > 0)
                                        nbases++;
                        }
                }
        }
        if( (nbases == 0) || (nresidues == 0) ) return FALSE;
        ratio = (float)nbases/(float)nresidues;
/*
        fprintf(stdout,"\n nbases = %d, nresidues = %d, ratio = %f\n",
                nbases,nresidues,ratio);
*/
        if(ratio >= 0.85) 
                return TRUE;
        else
                return FALSE;
}



static void check_infile(int *nseqs)
{
        char line[MAXLINE+1];
        
        *nseqs=0;
        fgets(line,MAXLINE+1,fin);
        if( linetype(line,"ID") )                                       /* EMBL/Swiss-Prot format ? */
                seqFormat=EMBLSWISS;
        else if(*line == '>')                                           /* no */
                seqFormat=(line[3] == ';')?PIR:PEARSON; /* distinguish PIR and Pearson */
        else {
                seqFormat=UNKNOWN;
                return;
        }

        (*nseqs)++;
        
        while(fgets(line,MAXLINE+1,fin) != NULL) {
                switch(seqFormat) {
                        case EMBLSWISS:
                                if( linetype(line,"ID") )
                                        (*nseqs)++;
                                break;
                        case PIR:
                        case PEARSON:
                                if( *line == '>' )
                                        (*nseqs)++;
                                break;
                        default:
                                break;
                }
        }
        fseek(fin,0,0);
}

static void p_encode(char *seq, char *naseq, int l)
{                                       /* code seq as ints .. use -2 for gap */
        register int i;
/*      static char *aacids="CSTPAGNDEQHRKMILVFYW";*/
        
        for(i=1;i<=l;i++)
                if(seq[i] == '-')
                        naseq[i] = -2;
                else if(seq[i] == 'X') 
                        naseq[i] = 0;
                else
                        naseq[i] = res_index(amino_acid_order,seq[i]);
}

static void n_encode(char *seq,char *naseq,int l)
{                                       /* code seq as ints .. use -2 for gap */
        register int i,c;
/*      static char *nucs="ACGTU";      */
        
        for(i=1;i<=l;i++) {
        if(seq[i] == '-')                  /* if a gap character -> code = -2 */
                        naseq[i] = -2;     /* this is the code for a gap in */
                else {                     /* the input files */
                        c=res_index(nucleic_acid_order,seq[i]);
                        if (c == 5) c=4;
                        naseq[i]=c;
                }
        }
}

static int res_index(char *t,char c)
{
        register int i;
        
        for(i=0;t[i] && t[i] != c;i++)
                ;
        if(t[i]) return(i);
        else return 0;
}