User:Ledrug/bits
<lang c>#include <stdio.h>
- include <stdlib.h>
- include <math.h>
double hashed(int *data, int len) {
- define rot(a, d) ((a << (d)) | (a >> (32 - d)))
unsigned int *d = (void*)data, h = 0x123456, tmp;
while (len--) { tmp = *d++; h += rot(h, 16) ^ (rot(tmp, 5) ^ h); }
h ^= rot(h, 7); h += rot(h, 11); h ^= rot(h, 17); h += rot(h, 25);
- undef rot
return (double)(int)h / (1U << 31); }
double noise(double x[8], int d) {
- define sum(s, x) for (s = 0, j = 0; j < d; j++) s += x
int i, j, n[8], o[8], t; double s, scale, ret, w; double u[8], sk[8];
sum(s, x[j]); scale = 1 / (sqrt(d + 1) + 1); s *= scale;
for (i = 0; i < d; i++) { sk[i] = x[i] + s; u[i] = sk[i] - (n[i] = floor(sk[i])); o[i] = i; }
for (i = 0; i < d - 1; i++) for (j = i; j < d; j++) if (u[o[i]] < u[o[j]]) t = o[i], o[i] = o[j], o[j] = t;
ret = w = 0; scale /= sqrt(d + 1); for (i = 0; i <= d; i++) { sum(s, n[j]); s *= scale;
for (j = 0; j < d; j++) u[j] = x[j] - n[j] + s;
sum(s, u[j] * u[j]); s = .6 - s;
if (s > 0) { s *= s; w += s; ret += hashed(n, d) * s; } if (i < d) n[o[i]]++; } return w ? ret / w : 0; }
double get_noise2(double x, double y) { int i, j, ws; double r = 0, v[2], w;
for (i = 1, ws = 0; i <= 256; i <<= 1) { v[0] = x * i, v[1] = y * i; w = 1;///sqrt(i); r += noise(v, 2) * w; ws += w; } r /= ws; return r; }
double get_noise3(double x, double y, double z) { int i, j, ws; double r = 0, v[3], w;
for (i = 1, ws = 0; i <= 6; i <<= 1) { v[0] = x * i, v[1] = y * i, v[2] = z * i; w = 1./i; r += noise(v, 3) * w; ws += w; } r /= ws; return fmod(r * 5 + 5, 1); }
int main()
{
unsigned char pix[256 * 256], *p;
int i, j;
double x, y, z, w;
FILE *fp;
for (p = pix, i = 0; i < 256 * 256; i++) *p++ = 0;
for (p = pix, i = 0; i < 256; i++) { y = (i - 128) / 125.; for (j = 0; j < 256; j++, p++) { x = (j - 128) / 125.; *p = (get_noise2(i/256., j/256.) + 1) / 4 * i;
z = 1- x*x - y*y; if (z < 0) continue;
z = sqrt(z); // w = get_noise3(x, y, -z); // if (w > 0.5) *p = 50;
w = get_noise3(x, y, z); // if (w <= 0.5) continue;
w = w * (1 + x + y + z) / 3; if (w < 0) w = 0; *p = w * 255; } }
fp = fopen("out.pgm", "w+"); fprintf(fp, "P5\n256 256\n255\n"); fwrite(pix, 1, 256 * 256, fp); fclose(fp);
return 0; }</lang> <lang c>#include <stdio.h>
- include <stdlib.h>
- include <stdint.h>
- include <string.h>
typedef uint32_t hash_t;
typedef struct hash_value_t { void *data; char *key; struct hash_value_t *chain; } hash_value_t;
typedef struct hash_table_t { hash_value_t **v, *pool; size_t n, cap; } hash_table_t, *htbl;
inline hash_t hash(char *s) { hash_t hash; for (hash = 0; *s; s++) { hash += *s; hash += (hash << 10); hash ^= (hash >> 6); } hash += hash << 3; hash ^= hash >> 11; hash += hash << 15; return hash; }
htbl hash_new(size_t size) { htbl h = calloc(1, sizeof(hash_table_t)); if (!size) size = 4;
for (h->cap = 1; h->cap < size; h->cap <<= 1);
h->v = calloc(h->cap, sizeof(hash_value_t*)); h->pool = 0; return h; }
hash_value_t *hash_get_storage(htbl t) { size_t len; hash_value_t *p = t->pool; if (!p) { len = 1024; if (len > t->cap) len = t->cap; t->pool = calloc(len, sizeof(hash_value_t)); for (p = t->pool; len > 1; len --) p->chain = p + 1; p = t->pool; } t->pool = p->chain; return p; }
void hash_insert_node(htbl t, hash_value_t *p) { size_t idx = hash(p->key) % t->cap; p->chain = t->v[idx]; t->v[idx] = p; }
void hash_expand(htbl t) { size_t i, c = t->cap; hash_value_t *p, *tmp;
t->v = realloc(t->v, sizeof(hash_value_t*) * c * 2); memset(t->v + c, 0, c * sizeof(hash_table_t*));
t->cap *= 2; for (i = 0; i < c; i++) { p = t->v[i]; if (!p) continue;
t->v[i] = 0; while (p) { tmp = p->chain; p->chain = 0; hash_insert_node(t, p); p = tmp; } } }
void hash_insert(htbl t, char *s, void *data) { hash_value_t *p = hash_get_storage(t); if (t->n * 5 >= t->cap * 4) hash_expand(t); p->key = strdup(s); p->data = data; hash_insert_node(t, p); t->n ++; }
void* hash_remove(htbl t, char *s) { size_t idx = hash(s) % t->cap; hash_value_t *head = 0, *p = t->v[idx];
while (p) { if (!strcmp(p->key, s)) break; head = p; p = p->chain; } if (!p) return 0;
free(p->key);
if (head) head->chain = p->chain; else t->v[idx] = p->chain;
p->chain = t->pool; t->pool = p; t->n--; return p->data; }
void* hash_lookup(htbl t, char *s) { size_t idx = hash(s) % t->cap; hash_value_t *p; p = t->v[idx]; while (p) { if (!strcmp(p->key, s)) return p->data; p = p->chain; } return (void*)-1; }</lang>