#include "phylip.h" /* version 3.6. (c) Copyright 1993-2004 by the University of Washington. Written by Joseph Felsenstein, Akiko Fuseki, Sean Lamont, and Andrew Keeffe. Permission is granted to copy and use this program provided no fee is charged for it and provided that this copyright notice is not removed. */ #define epsilong 0.02 /* a small number */ #ifndef OLDC /* function prototypes */ void getoptions(void); void allocrest(void); void doinit(void); void getalleles(void); void inputdata(void); void getinput(void); void makedists(void); void writedists(void); void freerest(void); void freex(void); /* function prototypes */ #endif Char infilename[FNMLNGTH], outfilename[FNMLNGTH]; long loci, totalleles, df, datasets, ith; long nonodes; long *alleles; phenotype3 *x; double **d; boolean all, cavalli, lower, nei, reynolds, mulsets, firstset, progress; void getoptions() { /* interactively set options */ long loopcount; Char ch; all = false; cavalli = false; lower = false; nei = true; reynolds = false; lower = false; progress = true; loopcount = 0; for (;;) { cleerhome(); printf("\nGenetic Distance Matrix program, version %s\n\n",VERSION); printf("Settings for this run:\n"); printf(" A Input file contains all alleles at each locus? %s\n", all ? "Yes" : "One omitted at each locus"); printf(" N Use Nei genetic distance? %s\n", nei ? "Yes" : "No"); printf(" C Use Cavalli-Sforza chord measure? %s\n", cavalli ? "Yes" : "No"); printf(" R Use Reynolds genetic distance? %s\n", reynolds ? "Yes" : "No"); printf(" L Form of distance matrix? %s\n", lower ? "Lower-triangular" : "Square"); printf(" M Analyze multiple data sets?"); if (mulsets) printf(" Yes, %2ld sets\n", datasets); else printf(" No\n"); printf(" 0 Terminal type (IBM PC, ANSI, none)? %s\n", ibmpc ? "IBM PC" : ansi ? "ANSI" : "(none)"); printf(" 1 Print indications of progress of run? %s\n", progress ? "Yes" : "No"); printf("\n Y to accept these or type the letter for one to change\n"); #ifdef WIN32 phyFillScreenColor(); #endif fflush(stdout); scanf("%c%*[^\n]", &ch); getchar(); uppercase(&ch); if (ch == 'Y') break; if (strchr("ACNMRL01", ch) != NULL) { switch (ch) { case 'A': all = !all; break; case 'C': cavalli = true; nei = false; reynolds = false; break; case 'N': cavalli = false; nei = true; reynolds = false; break; case 'R': reynolds = true; cavalli = false; nei = false; break; case 'L': lower = !lower; break; case 'M': mulsets = !mulsets; if (mulsets) initdatasets(&datasets); break; case '0': initterminal(&ibmpc, &ansi); break; case '1': progress = !progress; break; } } else printf("Not a possible option!\n"); countup(&loopcount, 100); } putchar('\n'); } /* getoptions */ void allocrest() { long i; x = (phenotype3 *)Malloc(spp*sizeof(phenotype3)); d = (double **)Malloc(spp*sizeof(double *)); for (i = 0; i < (spp); i++) d[i] = (double *)Malloc(spp*sizeof(double)); alleles = (long *)Malloc(loci*sizeof(long)); nayme = (naym *)Malloc(spp*sizeof(naym)); } /* allocrest */ void freerest() { long i; for (i = 0; i < (spp); i++) free(d[i]); free(d); free(alleles); free(nayme); } /* freerest */ void freex() { long i; for (i = 0; i < (spp); i++) free(x[i]); free(x); } void doinit() { /* initializes variables */ inputnumbers(&spp, &loci, &nonodes, 1); getoptions(); } /* doinit */ void getalleles() { long i; if (!firstset) { samenumsp(&loci, ith); free(alleles); alleles = (long *)Malloc(loci*sizeof(long)); } totalleles = 0; scan_eoln(infile); for (i = 0; i < loci; i++) { if (eoln(infile)) scan_eoln(infile); fscanf(infile, "%ld", &alleles[i]); totalleles += alleles[i]; } df = totalleles - loci; } /* getalleles */ void inputdata() { /* read allele frequencies */ long i, j, k, m, m1, n; double sum; for (i = 0; i < spp; i++) x[i] = (phenotype3)Malloc(totalleles*sizeof(double)); for (i = 1; i <= (spp); i++) { scan_eoln(infile); initname(i-1); m = 1; for (j = 1; j <= loci; j++) { sum = 0.0; if (all) n = alleles[j - 1]; else n = alleles[j - 1] - 1; for (k = 1; k <= n; k++) { if (eoln(infile)) scan_eoln(infile); fscanf(infile, "%lf", &x[i - 1][m - 1]); sum += x[i - 1][m - 1]; if (x[i - 1][m - 1] < 0.0) { printf("\n\nERROR: Locus %ld in species %ld: an allele", j, i); printf(" frequency is negative\n\n"); exxit(-1); } m++; } if (all && fabs(sum - 1.0) > epsilong) { printf( "\n\nERROR: Locus %ld in species %ld: frequencies do not add up to 1\n\n", j, i); for (m1 = 1; m1 <= n; m1 += 1) { if (m1 == 1) printf("%f", x[i-1][m-n+m1-2]); else { if ((m1 % 8) == 1) printf("\n"); printf("+%f", x[i-1][m-n+m1-2]); } } printf(" = %f\n\n", sum); exxit(-1); } if (!all) { x[i - 1][m - 1] = 1.0 - sum; if (x[i-1][m-1] < -epsilong) { printf("\n\nERROR: Locus %ld in species %ld: ",j,i); printf("frequencies add up to more than 1\n\n"); for (m1 = 1; m1 <= n; m1 += 1) { if (m1 == 1) printf("%f", x[i-1][m-n+m1-2]); else { if ((m1 % 8) == 1) printf("\n"); printf("+%f", x[i-1][m-n+m1-2]); } } printf(" = %f\n\n", sum); exxit(-1); } m++; } } } } /* inputdata */ void getinput() { /* read the input data */ getalleles(); inputdata(); } /* getinput */ void makedists() { long i, j, k; double s, s1, s2, s3, f; double TEMP; if (progress) printf("Distances calculated for species\n"); for (i = 0; i < spp; i++) d[i][i] = 0.0; for (i = 1; i <= spp; i++) { if (progress) { #ifdef WIN32 phyFillScreenColor(); #endif printf(" "); for (j = 0; j < nmlngth; j++) putchar(nayme[i - 1][j]); printf(" "); } for (j = 0; j <= i - 2; j++) { /* ignore the diagonal */ if (cavalli) { s = 0.0; for (k = 0; k < (totalleles); k++) { f = x[i - 1][k] * x[j][k]; if (f > 0.0) s += sqrt(f); } d[i - 1][j] = 4 * (loci - s) / df; } if (nei) { s1 = 0.0; s2 = 0.0; s3 = 0.0; for (k = 0; k < (totalleles); k++) { s1 += x[i - 1][k] * x[j][k]; TEMP = x[i - 1][k]; s2 += TEMP * TEMP; TEMP = x[j][k]; s3 += TEMP * TEMP; } if (s1 <= 1.0e-20) { d[i - 1][j] = -1.0; printf("\nWARNING: INFINITE DISTANCE BETWEEN SPECIES "); printf("%ld AND %ld; -1.0 WAS WRITTEN\n", i, j); } else d[i - 1][j] = fabs(-log(s1 / sqrt(s2 * s3))); } if (reynolds) { s1 = 0.0; s2 = 0.0; for (k = 0; k < totalleles; k++) { TEMP = x[i - 1][k] - x[j][k]; s1 += TEMP * TEMP; s2 += x[i - 1][k] * x[j][k]; } d[i - 1][j] = s1 / (loci * 2 - 2 * s2); } if (progress) { putchar('.'); fflush(stdout); } d[j][i - 1] = d[i - 1][j]; } if (progress) { putchar('\n'); fflush(stdout); } } if (progress) { putchar('\n'); fflush(stdout); } } /* makedists */ void writedists() { long i, j, k; fprintf(outfile, "%5ld\n", spp); for (i = 0; i < (spp); i++) { for (j = 0; j < nmlngth; j++) putc(nayme[i][j], outfile); if (lower) k = i; else k = spp; for (j = 1; j <= k; j++) { if (d[i][j-1] < 100.0) fprintf(outfile, "%10.6f", d[i][j-1]); else if (d[i][j-1] < 1000.0) fprintf(outfile, " %10.6f", d[i][j-1]); else fprintf(outfile, " %11.6f", d[i][j-1]); if ((j + 1) % 7 == 0 && j < k) putc('\n', outfile); } putc('\n', outfile); } if (progress) printf("Distances written to file \"%s\"\n\n", outfilename); } /* writedists */ int main(int argc, Char *argv[]) { /* main program */ #ifdef MAC argc = 1; /* macsetup("Gendist",""); */ argv[0] = "Gendist"; #endif init(argc, argv); openfile(&infile,INFILE,"input file", "r",argv[0],infilename); openfile(&outfile,OUTFILE,"output file", "w",argv[0],outfilename); ibmpc = IBMCRT; ansi = ANSICRT; mulsets = false; firstset = true; datasets = 1; doinit(); for (ith = 1; ith <= (datasets); ith++) { allocrest(); getinput(); firstset = false; if ((datasets > 1) && progress) printf("\nData set # %ld:\n\n",ith); makedists(); writedists(); freerest(); freex(); } FClose(infile); FClose(outfile); #ifdef MAC fixmacfile(outfilename); #endif printf("Done.\n\n"); #ifdef WIN32 phyRestoreConsoleAttributes(); #endif return 0; }