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laydi/scripts/geneontology/go-distance/godist.c

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#include <math.h>
#include <string.h>
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include <search.h>
#include "godist.h"
void print_terms();
void add_link(char*, char*);
struct node* get_bp();
struct node* get_term(char *);
void calc_ic(struct node *, unsigned int);
struct node *common_subsumer(struct node *, struct node *);
float resnik(struct node *, struct node *);
/* initialisation */
int godist_init() {
/* Initialize hash table and array */
hcreate(MAX_NODES);
term_array_size = 0;
link_count = 0;
struct node *n;
/* Read ontology terms from file */
printf("Reading GO terms from go-terms.txt...");
FILE *term_fd = fopen("go-terms.txt", "r");
if (term_fd == NULL) {
printf("cannot open file: go-terms.txt\n");
exit(errno);
}
int i;
while((i = godist_read_term(term_fd)) == 13) {
/* printf("%d\n", i);*/
}
fclose(term_fd);
printf(" %d terms\n", term_array_size);
/* Read ontology structure from file */
printf("Reading GO structure from go-tree.txt...");
FILE *tree_fd = fopen("go-tree.txt", "r");
if (tree_fd == NULL) {
printf("cannot open file: go-tree.txt\n");
exit(errno);
}
while((i = godist_read_assoc(tree_fd)) == 2) {
link_count++;
}
fclose(tree_fd);
printf(" %d edges\n", link_count);
printf("Calculating accumulated evidence...");
fflush(stdout);
for (i=0; i<term_array_size; i++) {
clear_flags(get_bp());
accumulate_evidence(term_array[i]);
}
printf("\n");
evidence = 0xff;
total_ann = 0;
n = get_bp();
for (i=0; i<12; i++)
if (evidence & 1<<i)
total_ann += n->acc_evidence[i];
printf("Using %d annotations.\n", total_ann);
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print_term(get_term("GO:0006006"));
print_term(get_term("GO:0019318"));
print_term(get_term("GO:0005996"));
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print_term(get_bp());
/*
print_term(get_term("GO:0040007"));
print_term(get_term("GO:0007275"));
print_term(get_term("GO:0007582"));
print_term(get_term("GO:0043473"));
print_term(get_term("GO:0000004"));
print_term(get_term("GO:0051704"));
print_term(get_term("GO:0000003"));
print_term(get_term("GO:0016032"));
print_term(get_term("GO:0009987"));
print_term(get_term("GO:0050896"));
print_term(get_term("GO:0050789"));
*/
printf("Calculation information content...");
fflush(stdout);
calculate_ics(0xffff);
printf("\n");
/* calc_ic(get_bp(), 0xffff);*/
/* find_multi_parented();*/
common_subsumer(get_term("GO:0000003"), get_term("GO:0000004"));
/** should return go:0016032 */
common_subsumer(get_term("GO:0019081"), get_term("GO:0050434"));
printf("Resnik: %f\n", resnik(get_term("GO:0000003"), get_term("GO:0000004")));
}
void godist_exit() {
int i;
for (i=0; i<term_array_size; i++) {
free(term_array[i]);
}
}
int godist_read_assoc(FILE *fd) {
char term1[11], term2[11];
int retval;
retval = fscanf(fd, " %10s %10s ", term1, term2);
if (retval != EOF) {
add_link(term1, term2);
}
return retval;
}
int godist_read_term(FILE *fd) {
char term[11];
int ev[12];
int i;
ENTRY e, *res;
int nread = fscanf(fd, " %10s %d %d %d %d %d %d %d %d %d %d %d %d ",
term, &ev[0], &ev[1], &ev[2], &ev[3], &ev[4], &ev[5],
&ev[6], &ev[7], &ev[8], &ev[9], &ev[10], &ev[11]);
if (errno != 0) {
printf("errno: %d\n", errno);
}
if (nread == 13) {
struct node *n = (struct node*) malloc(sizeof(struct node));
n->parentc = 0;
n->childrenc = 0;
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n->visited = 0;
for (i=0; i<12; i++) {
n->evidence[i] = ev[i];
n->acc_evidence[i] = 0;
}
strcpy(n->term, term);
/* add to hash table */
e.key = n->term;
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e.data = (void*)n;
res = hsearch(e, ENTER);
term_array[term_array_size++] = n;
}
return nread;
}
/* distance functions */
float go_distance(char *term1, char *term2) {
return 0.0;
}
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void clear_flags(struct node *n) {
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int i, j;
for (i=0; i<term_array_size; i++) {
term_array[i]->visited = 0;
for (j=0; j<12; j++)
term_array[i]->temp_acc[j] = 0;
}
}
void add_link(char *parent_id, char *child_id) {
ENTRY *ep, e;
struct node *parent, *child;
char key[11];
strcpy(key, parent_id);
e.key = key;
ep = hsearch(e, FIND);
if (!ep) {
printf("Cannot find term %s\n", e.key);
return;
}
parent = (struct node*) ep->key;
strcpy(key, child_id);
e.key = key;
ep = hsearch(e, FIND);
if (!ep) {
printf("Cannot find term %s\n", e.key);
return;
}
child = (struct node*) ep->key;
if (parent->childrenc +1 > MAX_CHILDREN) {
printf("FIXME: increase child count");
return;
}
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parent->children[parent->childrenc] = child;
parent->childrenc++;
child->parents[child->parentc] = parent;
child->parentc++;
}
struct node *get_bp() {
return get_term("GO:0008150");
}
struct node *get_term(char *term) {
ENTRY e, *ep;
e.key = term;
ep = hsearch(e, FIND);
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if (ep) {
return ep->data;
}
return NULL;
}
void accumulate_evidence(struct node *n) {
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int i;
acc_ev(n);
for (i=0; i<12; i++) {
n->acc_evidence[i] = n->temp_acc[i];
}
}
void acc_ev(struct node *n) {
int i, j;
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if (n->visited)
return;
n->visited = 1;
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for (i=0; i<12; i++)
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n->temp_acc[i] = n->evidence[i];
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for (i=0; i<(n->childrenc); i++) {
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if (!n->children[i]->visited) {
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acc_ev(n->children[i]);
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for (j=0; j<12; j++)
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n->temp_acc[j] += n->children[i]->temp_acc[j];
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}
}
}
void print_terms() {
int i;
for (i=0; i<term_array_size; i++) {
printf("%s\n", term_array[i]->term);
}
}
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void print_term(struct node *n) {
int i;
printf("%s\n", n->term);
printf(" children: %d\n", n->childrenc);
printf(" parents: %d\n", n->parentc);
printf(" evidence: ");
for (i=0; i<12; i++)
printf("%d ", n->evidence[i]);
printf("\n");
printf(" accumulated evidence: ");
for (i=0; i<12; i++)
printf("%d ", n->acc_evidence[i]);
printf("\n");
}
void find_multi_parented() {
int i;
for (i=0; i<term_array_size; i++) {
if (term_array[i]->parentc > 1)
printf("%s -- %d\n", term_array[i]->term, term_array[i]->parentc);
}
}
void calculate_ics(unsigned int evidence) {
int i;
for (i=0; i<term_array_size; i++)
calc_ic(term_array[i], evidence);
}
void calc_ic(struct node *n, unsigned int evidence) {
int i;
float ann=0.0;
for (i=0; i<12; i++)
if (evidence & 1<<i)
ann += (float) n->acc_evidence[i];
n->ic = -log(ann/total_ann);
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/* printf("%f\n", n->ic);*/
}
struct node *common_subsumer(struct node *n1, struct node *n2) {
struct node *anc1[MAX_NODES];
struct node *anc2[MAX_NODES];
int ancc1=0, ancc2=0;
int i, j;
struct node *retval=NULL;
add_ancestors(&ancc1, anc1, n1);
add_ancestors(&ancc2, anc2, n2);
for (i=0; i<ancc1; i++)
for (j=0; j<ancc2; j++)
if (anc1[i] == anc2[j])
if ((!retval) || (anc1[i]->ic > retval->ic))
retval = anc1[i];
if (retval)
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;// printf("Retval: %s\n", retval->term);
else
printf("No value to return");
return retval;
}
void add_ancestors(int *ancc, struct node *anc[], struct node *n) {
int i=0;
anc[(*ancc)++] = n;
for (i=0; i<n->parentc; i++)
add_ancestors(ancc, anc, n->parents[i]);
}
float resnik(struct node *n1, struct node *n2) {
struct node *subsumer = common_subsumer(n1, n2);
if (!subsumer)
return 20;
else
return n1->ic + n2->ic - 2.0 * subsumer->ic;
}
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int read_terms(FILE *fd, struct node *terms[], int *termc) {
char term[11];
int retval;
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printf("read_terms\n");
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retval = fscanf(fd, " %10s ", term);
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while (retval != EOF) {
printf(".");
fflush(stdout);
terms[(*termc)++] = get_term(term);
retval = fscanf(fd, " %10s ", term);
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}
return retval;
}
void build_dataset() {
struct node *terms[MAX_NODES];
int termc = 0;
int i, j;
FILE *fd = fopen("dimension", "r");
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read_terms(fd, terms, &termc);
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for (i=0; i<termc; i++) {
for (j=0; j<termc; j++) {
printf("%f ", resnik(terms[i], terms[j]));
}
printf("\n");
}
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fclose(fd);
}