X-Git-Url: https://git.distorted.org.uk/~mdw/sgt/puzzles/blobdiff_plain/f10106138f70a92b276899d0822650cb2ec1adae..95c76d7c0c76081ab4f389aa1bb7667ee08c99eb:/dsf.c diff --git a/dsf.c b/dsf.c index 353bf1a..ecb2858 100644 --- a/dsf.c +++ b/dsf.c @@ -1,28 +1,162 @@ /* - * dsf.c: two small functions to handle a disjoint set forest, + * dsf.c: some functions to handle a disjoint set forest, * which is a data structure useful in any solver which has to * worry about avoiding closed loops. */ -int dsf_canonify(int *dsf, int val) +#include +#include + +#include "puzzles.h" + +/*void print_dsf(int *dsf, int size) { - int v2 = val; + int *printed_elements = snewn(size, int); + int *equal_elements = snewn(size, int); + int *inverse_elements = snewn(size, int); + int printed_count = 0, equal_count, inverse_count; + int i, n, inverse; + + memset(printed_elements, -1, sizeof(int) * size); + + while (1) { + equal_count = 0; + inverse_count = 0; + for (i = 0; i < size; ++i) { + if (!memchr(printed_elements, i, sizeof(int) * size)) + break; + } + if (i == size) + goto done; + + i = dsf_canonify(dsf, i); + + for (n = 0; n < size; ++n) { + if (edsf_canonify(dsf, n, &inverse) == i) { + if (inverse) + inverse_elements[inverse_count++] = n; + else + equal_elements[equal_count++] = n; + } + } + + for (n = 0; n < equal_count; ++n) { + fprintf(stderr, "%d ", equal_elements[n]); + printed_elements[printed_count++] = equal_elements[n]; + } + if (inverse_count) { + fprintf(stderr, "!= "); + for (n = 0; n < inverse_count; ++n) { + fprintf(stderr, "%d ", inverse_elements[n]); + printed_elements[printed_count++] = inverse_elements[n]; + } + } + fprintf(stderr, "\n"); + } +done: + + sfree(printed_elements); + sfree(equal_elements); + sfree(inverse_elements); +}*/ - while (dsf[val] != val) - val = dsf[val]; +void dsf_init(int *dsf, int size) +{ + int i; - while (v2 != val) { - int tmp = dsf[v2]; - dsf[v2] = val; - v2 = tmp; + for (i = 0; i < size; i++) { + /* Bottom bit of each element of this array stores whether that element + * is opposite to its parent, which starts off as false */ + dsf[i] = i << 1; } +} + +int *snew_dsf(int size) +{ + int *ret; + + ret = snewn(size, int); + dsf_init(ret, size); - return val; + /*print_dsf(ret, size); */ + + return ret; +} + +int dsf_canonify(int *dsf, int index) +{ + return edsf_canonify(dsf, index, NULL); } void dsf_merge(int *dsf, int v1, int v2) { - v1 = dsf_canonify(dsf, v1); - v2 = dsf_canonify(dsf, v2); - dsf[v2] = v1; + edsf_merge(dsf, v1, v2, FALSE); +} + +int edsf_canonify(int *dsf, int index, int *inverse_return) +{ + int start_index = index, canonical_index; + int inverse = 0; + +/* fprintf(stderr, "dsf = %p\n", dsf); */ +/* fprintf(stderr, "Canonify %2d\n", index); */ + + assert(index >= 0); + + /* Find the index of the canonical element of the 'equivalence class' of + * which start_index is a member, and figure out whether start_index is the + * same as or inverse to that. */ + while ((dsf[index] >> 1) != index) { + inverse ^= (dsf[index] & 1); + index = dsf[index] >> 1; +/* fprintf(stderr, "index = %2d, ", index); */ +/* fprintf(stderr, "inverse = %d\n", inverse); */ + } + canonical_index = index; + + if (inverse_return) + *inverse_return = inverse; + + /* Update every member of this 'equivalence class' to point directly at the + * canonical member. */ + index = start_index; + while (index != canonical_index) { + int nextindex = dsf[index] >> 1; + int nextinverse = inverse ^ (dsf[index] & 1); + dsf[index] = (canonical_index << 1) | inverse; + inverse = nextinverse; + index = nextindex; + } + + assert(inverse == 0); + +/* fprintf(stderr, "Return %2d\n", index); */ + + return index; +} + +void edsf_merge(int *dsf, int v1, int v2, int inverse) +{ + int i1, i2; + +/* fprintf(stderr, "dsf = %p\n", dsf); */ +/* fprintf(stderr, "Merge [%2d,%2d], %d\n", v1, v2, inverse); */ + + v1 = edsf_canonify(dsf, v1, &i1); + inverse ^= i1; + v2 = edsf_canonify(dsf, v2, &i2); + inverse ^= i2; + +/* fprintf(stderr, "Doing [%2d,%2d], %d\n", v1, v2, inverse); */ + + if (v1 == v2) + assert(!inverse); + else + dsf[v2] = (v1 << 1) | !!inverse; + + v2 = edsf_canonify(dsf, v2, &i2); + assert(v2 == v1); + assert(i2 == inverse); + +/* fprintf(stderr, "dsf[%2d] = %2d\n", v2, dsf[v2]); */ }