int union_test(run_container_t* B1, run_container_t* B2, run_container_t* BO) { run_container_union(B1, B2, BO); return run_container_cardinality(BO); }
int intersection_test(run_container_t* B1, run_container_t* B2, run_container_t* BO) { run_container_intersection(B1, B2, BO); return run_container_cardinality(BO); }
int run_array_container_andnot(const run_container_t *src_1, const array_container_t *src_2, void **dst) { // follows the Java impl as of June 2016 int card = run_container_cardinality(src_1); const int arbitrary_threshold = 32; if (card <= arbitrary_threshold) { if (src_2->cardinality == 0) { *dst = run_container_clone(src_1); return RUN_CONTAINER_TYPE_CODE; } // Java's "lazyandNot.toEfficientContainer" thing run_container_t *answer = run_container_create_given_capacity( card + array_container_cardinality(src_2)); int rlepos = 0; int xrlepos = 0; // "x" is src_2 rle16_t rle = src_1->runs[rlepos]; int32_t start = rle.value; int32_t end = start + rle.length + 1; int32_t xstart = src_2->array[xrlepos]; while ((rlepos < src_1->n_runs) && (xrlepos < src_2->cardinality)) { if (end <= xstart) { // output the first run answer->runs[answer->n_runs++] = (rle16_t){.value = (uint16_t)start, .length = (uint16_t)(end - start - 1)}; rlepos++; if (rlepos < src_1->n_runs) { start = src_1->runs[rlepos].value; end = start + src_1->runs[rlepos].length + 1; } } else if (xstart + 1 <= start) { // exit the second run xrlepos++; if (xrlepos < src_2->cardinality) { xstart = src_2->array[xrlepos]; } } else { if (start < xstart) { answer->runs[answer->n_runs++] = (rle16_t){.value = (uint16_t)start, .length = (uint16_t)(xstart - start - 1)}; } if (xstart + 1 < end) { start = xstart + 1; } else { rlepos++; if (rlepos < src_1->n_runs) { start = src_1->runs[rlepos].value; end = start + src_1->runs[rlepos].length + 1; } } } } if (rlepos < src_1->n_runs) { answer->runs[answer->n_runs++] = (rle16_t){.value = (uint16_t)start, .length = (uint16_t)(end - start - 1)}; rlepos++; if (rlepos < src_1->n_runs) { memcpy(answer->runs + answer->n_runs, src_1->runs + rlepos, (src_1->n_runs - rlepos) * sizeof(rle16_t)); answer->n_runs += (src_1->n_runs - rlepos); } } uint8_t return_type; *dst = convert_run_to_efficient_container(answer, &return_type); if (answer != *dst) run_container_free(answer); return return_type; }