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path: root/sem3/algo/workshop2/dfs/graph.c
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#include <stdio.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>

#include "graph.h"

// Hashtable
static unsigned int hash(char *s)
{
    uint32_t hv = 0;
    for (int i = 0; s[i] != '\0'; i++) {
        // take MSB 6 bits of hv and xors with LSB of s[i]
        uint32_t v = (hv >> 26) ^ (s[i] & 0x3f);

        // Push those back on hv
        hv = (hv << 4) | v;
    }
    // Return appropriate size
    return hv % HASHSIZE;
}

static void table_insert(graph_t *g, vertex_t *v, char *var)
{
    unsigned int index = hash(var);

    // Save old value
    vertex_t *oldSym = g->hashtable[index];

    // Make new
    g->hashtable[index] = v;

    // Link old one
    g->hashtable[index]->next = oldSym;
}

static vertex_t *table_lookup(graph_t *g, char *var)
{
    unsigned int index = hash(var);
    vertex_t *n = g->hashtable[index];

    // Look trough list
    while (n != NULL && strcmp(n->ref, var) != 0) {
        n = n->next;
    }

    return n;
}

static vertex_t *create_vertex(char *ref)
{
    // Get some space TODO check for null
    vertex_t *v = malloc(sizeof(vertex_t));

    // Set values
    v->ref = strdup(ref);
    v->color = COLOR_WHITE;
    v->next = NULL;
    v->adj = NULL;
    return v;
}

static edge_t *create_edge(vertex_t *from, vertex_t *to, int weight)
{
    edge_t *old = from->adj;

    // Create new list node
    edge_t *e = malloc(sizeof(edge_t));
    e->weight = weight;
    e->from = from;
    e->to = to;

    // Do new link
    e->next = old;
    if (old) {
        e->prev = old->prev;
        old->prev = e;
    } else {
        e->prev = NULL;
    }

    if (e->prev) {
        e->prev->next = e;
    }

    from->adj = e;

    return e;
}

// For iterating edges
edge_t *edge_next(graph_t *g, edge_t *e)
{
    if (e == NULL || e->next == NULL) {
        // Find next index
        vertex_t *v = e ? e->from : NULL;

        // Find next vertex
        v = vertex_next(g, v);
        while (v) {
            // Check if found
            if (v->adj) {
                return v->adj;
            }

            v = vertex_next(g, v);
        }

        // No next vertex
        return NULL;
    }

    // Not finished with this adj list
    return e->next;
}

vertex_t *vertex_next(graph_t *g, vertex_t *v)
{
    if (v == NULL || v->next == NULL) {
        // Go to next index in hashtable
        int i = v ? hash(v->ref) + 1 : 0;
        for (; i < HASHSIZE; i++) {
            if (g->hashtable[i]) {
                return g->hashtable[i];
            }
        }

        // No next
        return NULL;
    }

    return v->next;
}

void graph_edge(graph_t *g, char *from, char *to, int weight)
{
    vertex_t *fromv, *tov;
    // Does a exists
    if ((fromv = table_lookup(g, from)) == NULL) {
        fromv = create_vertex(from);
        table_insert(g, fromv, from);
    }
    // What about b
    if ((tov = table_lookup(g, to)) == NULL) {
        tov = create_vertex(to);
        table_insert(g, tov, to);
    }

    // Add edge
    create_edge(fromv, tov, weight);
}

int graph_print_adj(graph_t *g, char *ref)
{
    vertex_t *v = table_lookup(g, ref);
    if (v == NULL) {
        return 1;
    }

    edge_t *e = v->adj;
    printf("[ ");
    while (e && e->from->ref == ref) {
        printf("%s[%d] ", e->to->ref, e->weight);
        e = e->next;
    }
    printf("]\n");

    return 0;
}

int graph_to_dot(FILE *f, graph_t *g)
{
    // print pre stuff
    fprintf(f, "digraph coolgraph {\n");

    // Label all nodes
    vertex_t *v = vertex_next(g, NULL);
    while (v) {
        fprintf(f, "%s [label=\"%s\"];\n", v->ref, v->ref);
        v = vertex_next(g, v);
    }
    // Print all the edges
    edge_t *e = edge_next(g, NULL);
    while (e) {
        fprintf(f, "%s -> %s [label = %d];\n", e->from->ref, e->to->ref,
                e->weight);
        e = edge_next(g, e);
    }

    // done
    fprintf(f, "}\n");
}