| #include <stdio.h> |
| #include <string.h> |
| #define __USE_XOPEN_EXTENDED |
| #include <ftw.h> |
| #include "../src/collocatordb.h" |
| #include "acutest.h" |
| |
| char dbpath[] = "../tests/data/wpd19_10000"; |
| const int testword = 10; // ist |
| |
| void test_open_db() { |
| COLLOCATORDB* cdb = open_collocatordb(dbpath); |
| TEST_ASSERT(cdb != NULL); |
| } |
| |
| void test_get_word() { |
| COLLOCATORDB* cdb = open_collocatordb(dbpath); |
| TEST_ASSERT(cdb != NULL); |
| char *word = get_word(cdb, testword); |
| char *expected = "ist"; |
| TEST_CHECK(strcmp(word, expected) == 0); |
| TEST_MSG("Expected: %s", expected); |
| TEST_MSG("Produced: %s", word); |
| } |
| |
| void test_collocation_scores() { |
| COLLOCATORDB* cdb = open_collocatordb(dbpath); |
| TEST_ASSERT(cdb != NULL); |
| char *expected = " { \"f1\": 217,\"w1\":\"Aluminium\", \"N\": 152743, \"collocates\": [{\"word\":\"Anwendungstechnologie\",\"f2\":16,\"f\":16,\"npmi\":0.594849,\"pmi\":8.4592,\"llr\":188.227,\"lfmd\":16.4592,\"md\":12.4592,\"dice\":0.0711111,\"ld\":10.1862,\"ln_count\":16,\"rn_count\":0,\"ln_pmi\":9.4592,\"rn_pmi\":-1,\"ldaf\":11.1358,\"win\":32,\"afwin\":32}]}\n"; |
| char *produced = get_collocation_scores_as_json(cdb, 62, 966); |
| TEST_CHECK(strcmp(produced, expected) == 0); |
| TEST_MSG("Expected: %s", expected); |
| TEST_MSG("Produced: %s", produced); |
| } |
| |
| |
| void test_collocation_analysis_as_json() { |
| COLLOCATORDB* cdb = open_collocatordb(dbpath); |
| TEST_ASSERT(cdb != NULL); |
| char *json = get_collocators_as_json(cdb, testword); |
| char *needle = "\"word\":\"um\",\"f2\":264,\"f\":5,\"npmi\":-0.0556349,\"pmi\":-0.958074,\"llr\":2.87723,\"lfmd\":3.68578,\"md\":1.36385,\"dice\":0.00169952,\"ld\":4.79935,\"ln_count\":0,\"rn_count\":1,\"ln_pmi\":-1,\"rn_pmi\":-1,\"ldaf\":4.79935,\"win\":668,\"afwin\":668"; |
| TEST_CHECK(strstr(json, needle) > 0); |
| TEST_MSG("Expected to contain: %s", needle); |
| } |
| |
| void test_collocation_analysis() { |
| COLLOCATORDB* cdb = open_collocatordb(dbpath); |
| TEST_ASSERT(cdb != NULL); |
| char *expected = "Anwendungstechnologie"; |
| const COLLOCATOR *c = get_collocators(cdb, 62); |
| char *produced = get_word(cdb,c[0].w2); |
| TEST_CHECK(strcmp(produced, expected) == 0); |
| TEST_MSG("Expected: %s", expected); |
| TEST_MSG("Produced: %s", produced); |
| } |
| |
| int unlink_cb(const char *fpath, const struct stat *sb, int typeflag, struct FTW *ftwbuf) { |
| int rv = remove(fpath); |
| if (rv) |
| perror(fpath); |
| return rv; |
| } |
| |
| int rmrf(char *path) { |
| return nftw(path, unlink_cb, 64, FTW_DEPTH | FTW_PHYS); |
| } |
| |
| void test_writing() { |
| char *tmp = tempnam(NULL, NULL); |
| long size = 0; |
| int i; |
| |
| char *rocksdbfn = malloc(strlen(tmp)+strlen(".rocksdb")); |
| strcpy (rocksdbfn, tmp); |
| strcat(rocksdbfn, ".rocksdb"); |
| COLLOCATORDB *cdb = open_collocatordb_for_write(rocksdbfn); |
| |
| char *vocabfn = malloc(strlen(tmp)+strlen(".vocab")); |
| strcpy(vocabfn, tmp); |
| strcat(vocabfn, ".vocab"); |
| FILE *h = fopen(vocabfn, "w"); |
| fprintf(h, "word0 2000\n"); |
| fprintf(h, "word1 2000\n"); |
| fprintf(h, "word2 2000\n"); |
| fclose(h); |
| read_vocab(cdb, vocabfn); |
| inc_collocator(cdb, 0, 1, 4); size++; |
| for (i=0; i < 1000; i++) { |
| inc_collocator(cdb, 0, 1, i % 5); size++; |
| inc_collocator(cdb, 0, 1, -i % 5); size++; |
| inc_collocator(cdb, 1, 0, i % 5); size++; |
| inc_collocator(cdb, 1, 0, -i % 5); size++; |
| inc_collocator(cdb, 0, 2, i % 5); size++; |
| inc_collocator(cdb, 0, 2, -i % 5); size++; |
| } |
| inc_collocator(cdb, 1, 2, 4); size++; |
| COLLOCATOR *c = get_collocators(cdb, 0); |
| TEST_ASSERT(c != NULL); |
| TEST_CHECK(c[0].w2 == 1); |
| TEST_CHECK(c[0].raw == 2001); |
| TEST_CHECK(c[0].left_raw == 200); |
| TEST_CHECK(c[0].right_raw == 200); |
| |
| rmrf(rocksdbfn); |
| } |
| |
| TEST_LIST = { |
| { "open database for reading", test_open_db }, |
| { "get word", test_get_word }, |
| { "collocation scores", test_collocation_scores }, |
| { "collocation analysis", test_collocation_analysis }, |
| { "collocation analysis as json", test_collocation_analysis_as_json }, |
| { "writing", test_writing }, |
| { NULL, NULL } |
| }; |