test/string_tests.c@3b985a4eb05b
test/string_tests.c
Sun, 07 Oct 2018 09:00:08 +0200
- author
- Olaf Wintermann <olaf.wintermann@gmail.com>
- date
- Sun, 07 Oct 2018 09:00:08 +0200
- changeset 331
- 3b985a4eb05b
- parent 306
- 90b6d69bb499
- child 364
- 5577d6c27a33
- permissions
- -rw-r--r--
fixes ucx_szmul definition for gcc < 5
/* * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER. * * Copyright 2017 Mike Becker, Olaf Wintermann All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include "string_tests.h" UCX_TEST(test_sstr_macros) { sstr_t hello = ST("Hello"); sstr_t world = S("World"); char buf[20]; snprintf(buf, sizeof(buf), "%" PRIsstr ", %" PRIsstr "!", SFMT(hello), SFMT(world)); UCX_TEST_BEGIN const char* cmp = "Hello, World!"; UCX_TEST_ASSERT(!strcmp(cmp, buf), "Something weird happened."); UCX_TEST_END } UCX_TEST(test_sstr) { sstr_t s1 = sstr((char*)"1234"); sstr_t s2 = sstrn((char*)"ab", 2); UCX_TEST_BEGIN UCX_TEST_ASSERT(s1.length == 4, "s1 length must be 4"); UCX_TEST_ASSERT(s2.length == 2, "s2 length must be 2"); UCX_TEST_END } UCX_TEST(test_sstr_len) { sstr_t s1 = ST("1234"); sstr_t s2 = ST(".:.:."); sstr_t s3 = ST("X"); size_t len1 = sstrnlen(1, s1); size_t len2 = sstrnlen(2, s1, s2); size_t len3 = sstrnlen(3, s1, s2, s3); UCX_TEST_BEGIN UCX_TEST_ASSERT(len1 == 4, "sstrnlen returned wrong size"); UCX_TEST_ASSERT(len2 == 9, "sstrnlen returned wrong size"); UCX_TEST_ASSERT(len3 == 10, "sstrnlen returned wrong size"); UCX_TEST_END } UCX_TEST(test_sstrchr_sstrrchr) { sstr_t str = ST("I will find you - and I will kill you"); UCX_TEST_BEGIN sstr_t notfound = sstrchr(str, 'x'); UCX_TEST_ASSERT(notfound.length == 0, "string length not 0 after forward search w/o result"); notfound = sstrrchr(str, 'x'); UCX_TEST_ASSERT(notfound.length == 0, "string length not 0 after reverse search w/o result"); sstr_t result = sstrchr(str, 'w'); UCX_TEST_ASSERT(result.length == 35, "sstrchr returned wrong length"); UCX_TEST_ASSERT(strcmp("will find you - and I will kill you", result.ptr) == 0, "sstrchr did not return the expected string"); result = sstrrchr(str, 'w'); UCX_TEST_ASSERT(result.length == 13, "sstrrchr returned wrong length"); UCX_TEST_ASSERT(strcmp("will kill you", result.ptr) == 0, "sstrrchr did not return the expected string"); UCX_TEST_END } UCX_TEST(test_sstrstr) { sstr_t str = ST("find the match in this string"); sstr_t longstr = ST( "abcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyzabcdefghijkl" "mnopqrstuvwxyzabcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwx" "yzabcdeababababnopqrstuvwxyzabcdefghijklmnopqrstuvwxyzabcdefghij" "klmnopqrstuvwxyzaababababababababrstuvwxyzabcdefghijklmnopqrstuv" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "wxyz1234567890"); sstr_t longstrpattern = ST( "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" ); sstr_t longstrresult = ST( "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "wxyz1234567890" ); UCX_TEST_BEGIN sstr_t notfound = sstrstr(str, S("no match")); UCX_TEST_ASSERT(notfound.length == 0, "no match must return empty string"); sstr_t result = sstrstr(str, S("match")); UCX_TEST_ASSERT(result.length == 20, "sstrstr returned wrong length"); UCX_TEST_ASSERT(!strcmp("match in this string", result.ptr), "sstrstr did not return the expected string"); result = sstrstr(str, S("")); UCX_TEST_ASSERT(result.length == str.length, "sstrstr with empty match string returned wrong length"); UCX_TEST_ASSERT(!strcmp(str.ptr, result.ptr), "sstrstr with empty match string did not return the original string"); result = sstrstr(longstr, longstrpattern); UCX_TEST_ASSERT(result.length == longstrresult.length, "long string result length incorrect"); UCX_TEST_ASSERT(!strcmp(result.ptr, longstrresult.ptr), "long string result content incorrect"); UCX_TEST_END } UCX_TEST(test_sstrcmp) { sstr_t str = ST("compare this"); UCX_TEST_BEGIN UCX_TEST_ASSERT(sstrcmp(str, S("")) == 1, "empty cmp failed"); UCX_TEST_ASSERT(sstrcmp(S(""), S("")) == 0, "empty cmp false negative"); UCX_TEST_ASSERT(sstrcmp(str, S("compare this")) == 0, "false negative"); UCX_TEST_ASSERT(sstrcmp(str, S("Compare This")) != 0, "false positive"); UCX_TEST_ASSERT(sstrcmp(str, S("compare tool")) < 0, "memcmp < 0 failed"); UCX_TEST_ASSERT(sstrcmp(str, S("compare shit")) > 0, "memcmp > 0 failed"); UCX_TEST_ASSERT(sstrcmp(str, S("compare this not")) < 0, "len < 0 failed"); UCX_TEST_ASSERT(sstrcmp(str, S("compare")) > 0, "len > 0 failed"); UCX_TEST_END } UCX_TEST(test_sstrcasecmp) { sstr_t str = ST("compare this"); UCX_TEST_BEGIN UCX_TEST_ASSERT(sstrcasecmp(str, S("")) == 1, "empty cmp failed"); UCX_TEST_ASSERT(sstrcasecmp(S(""), S("")) == 0, "empty cmp false negative"); UCX_TEST_ASSERT(sstrcasecmp(str, S("compare this")) == 0, "false negative"); UCX_TEST_ASSERT(sstrcasecmp(str, S("Compare This")) == 0, "not ignoring case"); UCX_TEST_ASSERT(sstrcasecmp(str, S("compare tool")) < 0, "< 0 failed"); UCX_TEST_ASSERT(sstrcasecmp(str, S("compare shit")) > 0, "> 0 failed"); UCX_TEST_ASSERT(sstrcasecmp(str, S("compare this not")) < 0, "len < 0 failed"); UCX_TEST_ASSERT(sstrcasecmp(str, S("compare")) > 0, "len > 0 failed"); UCX_TEST_END } UCX_TEST(test_sstrcat) { sstr_t s1 = S("12"); sstr_t s2 = S("34"); sstr_t s3 = S("56"); sstr_t sn = { NULL, 0 }; UCX_TEST_BEGIN sstr_t t1 = sstrcat(2, s1, s2); UCX_TEST_ASSERT(!sstrcmp(t1, S("1234")), "t1: wrong content"); free(t1.ptr); sstr_t t2 = sstrcat(3, s1, s2, s3); UCX_TEST_ASSERT(!sstrcmp(t2, S("123456")), "t2: wrong content"); free(t2.ptr); sstr_t t3 = sstrcat(6, s1, sn, s2, sn, s3, sn); UCX_TEST_ASSERT(!sstrcmp(t3, S("123456")), "t3: wrong content"); free(t3.ptr); sstr_t t4 = sstrcat(2, sn, sn); UCX_TEST_ASSERT(t4.ptr, "t4.ptr is NULL"); UCX_TEST_ASSERT(t4.length == 0, "t4 has wrong length"); free(t4.ptr); // overflow test sstr_t o0; o0.ptr = ""; o0.length = ((size_t)-1) - 50; sstr_t o1; o1.ptr = ""; o1.length = 100; sstr_t o2; o2.ptr = ""; o2.length = 10; sstr_t n = sstrcat(2, o0, o1); UCX_TEST_ASSERT(n.ptr == NULL && n.length == 0, "overflow not detected"); sstr_t n2 = sstrcat(3, o0, o2, o1); UCX_TEST_ASSERT(n2.ptr == NULL && n2.length == 0, "n2: overflow not detected"); UCX_TEST_END } UCX_TEST(test_sstrsplit) { const char *original = "this,is,a,csv,string"; sstr_t test = ST("this,is,a,csv,string"); /* use copy of original here */ ssize_t n; sstr_t *list; UCX_TEST_BEGIN /* Nullpointer check */ n = 0; UCX_TEST_ASSERT(sstrsplit(test, S(""), &n) == NULL, "empty delimiter must return NULL"); /* no delimiter occurence (ndo) */ n = 0; list = sstrsplit(test, S("z"), &n); UCX_TEST_ASSERT(n == 1, "ndo, list length must be 1"); UCX_TEST_ASSERT(strcmp(list[0].ptr, original) == 0, "ndo, " "original string shall be returned as single list element"); UCX_TEST_ASSERT(strcmp(test.ptr, original) == 0, "ndo, original has been modified"); for(int i=0;i<n;i++) { free(list[i].ptr); } free(list); /* partially matching delimiter (pmd) */ n = 0; list = sstrsplit(test, S("stringbuilder"), &n); UCX_TEST_ASSERT(n == 1, "pmd, list length must be 1"); UCX_TEST_ASSERT(strcmp(list[0].ptr, original) == 0, "pmd, " "original string shall be returned as single list element"); UCX_TEST_ASSERT(strcmp(test.ptr, original) == 0, "pmd, original has been modified"); for(int i=0;i<n;i++) { free(list[i].ptr); } free(list); /* matching single-char delimiter (mscd) */ n = 0; list = sstrsplit(test, S(","), &n); UCX_TEST_ASSERT(n == 5, "mscd, list length must be 5"); UCX_TEST_ASSERT(strcmp(list[0].ptr, "this") == 0, "mscd, item 0 mismatch"); UCX_TEST_ASSERT(strcmp(list[1].ptr, "is") == 0, "mscd, item 1 mismatch"); UCX_TEST_ASSERT(strcmp(list[2].ptr, "a") == 0, "mscd, item 2 mismatch"); UCX_TEST_ASSERT(strcmp(list[3].ptr, "csv") == 0, "mscd, item 3 mismatch"); UCX_TEST_ASSERT(strcmp(list[4].ptr, "string")==0, "mscd, item 4 mismatch"); UCX_TEST_ASSERT(strcmp(test.ptr, original) == 0, "mscd, original has been modified"); for(int i=0;i<n;i++) { free(list[i].ptr); } free(list); /* matching multi-char delimiter (mmcd) */ n = 0; list = sstrsplit(test, S("is"), &n); UCX_TEST_ASSERT(n == 3, "mscd, list length must be 3"); UCX_TEST_ASSERT(strcmp(list[0].ptr, "th") == 0, "mmcd, item 0 mismatch"); UCX_TEST_ASSERT(strcmp(list[1].ptr, ",") == 0, "mmcd, item 1 mismatch"); UCX_TEST_ASSERT(strcmp(list[2].ptr, ",a,csv,string") == 0, "mmcd, item 2 mismatch"); UCX_TEST_ASSERT(strcmp(test.ptr, original) == 0, "mmcd, original has been modified"); for(int i=0;i<n;i++) { free(list[i].ptr); } free(list); /* bounded list using single-char delimiter (blsc) */ n = 3; list = sstrsplit(test, S(","), &n); UCX_TEST_ASSERT(n == 3, "blsc, list length must be 3"); UCX_TEST_ASSERT(strcmp(list[0].ptr, "this") == 0, "blsc, item 0 mismatch"); UCX_TEST_ASSERT(strcmp(list[1].ptr, "is") == 0, "blsc, item 1 mismatch"); UCX_TEST_ASSERT(strcmp(list[2].ptr, "a,csv,string") == 0, "blsc, item 2 mismatch"); UCX_TEST_ASSERT(strcmp(test.ptr, original) == 0, "blsc, original has been modified"); for(int i=0;i<n;i++) { free(list[i].ptr); } free(list); /* bounded list using multi-char delimiter (blmc) */ n = 2; list = sstrsplit(test, S("is"), &n); UCX_TEST_ASSERT(n == 2, "blmc, list length must be 2"); UCX_TEST_ASSERT(strcmp(list[0].ptr, "th") == 0, "blmc, item 0 mismatch"); UCX_TEST_ASSERT(strcmp(list[1].ptr, ",is,a,csv,string") == 0, "blmc, item 1 mismatch"); UCX_TEST_ASSERT(strcmp(test.ptr, original) == 0, "blmc, original has been modified"); for(int i=0;i<n;i++) { free(list[i].ptr); } free(list); /* start with delimiter (swd) */ n = 0; list = sstrsplit(test, S("this"), &n); UCX_TEST_ASSERT(n == 2, "swd, list length must be 2"); UCX_TEST_ASSERT(list[0].length == 0, "swd, first item must be empty"); UCX_TEST_ASSERT(strcmp(list[1].ptr, ",is,a,csv,string") == 0, "swd, second item corrupt"); UCX_TEST_ASSERT(strcmp(test.ptr, original) == 0, "swd, original has been modified"); for(int i=0;i<n;i++) { free(list[i].ptr); } free(list); /* end with delimiter (ewd) */ n = 0; list = sstrsplit(test, S("string"), &n); UCX_TEST_ASSERT(n == 2, "ewd, list length must be 2"); UCX_TEST_ASSERT(strcmp(list[0].ptr, "this,is,a,csv,") == 0, "ewd, first item corrupt"); UCX_TEST_ASSERT(list[1].length == 0, "ewd, second item must be empty"); UCX_TEST_ASSERT(strcmp(test.ptr, original) == 0, "ewd, original has been modified"); for(int i=0;i<n;i++) { free(list[i].ptr); } free(list); /* end with delimiter exceed bound (ewdeb) */ n = 3; sstr_t ewdebtest = ST("a,b,c,"); list = sstrsplit(ewdebtest, S(","), &n); UCX_TEST_ASSERT(n == 3, "ewdeb, list length must be 3"); UCX_TEST_ASSERT(strcmp(list[0].ptr, "a") == 0, "ewdeb, fst item corrupt"); UCX_TEST_ASSERT(strcmp(list[1].ptr, "b") == 0, "ewdeb, snd item corrupt"); UCX_TEST_ASSERT(strcmp(list[2].ptr, "c,") == 0, "ewdeb, trd item corrupt"); for(int i=0;i<n;i++) { free(list[i].ptr); } free(list); /* exact match (exm) */ n = 0; list = sstrsplit(test, S("this,is,a,csv,string"), &n); UCX_TEST_ASSERT(n == 0, "exm, list length must be 0"); UCX_TEST_ASSERT(list == NULL, "exm, list must be NULL"); for(int i=0;i<n;i++) { free(list[i].ptr); } free(list); /* substring (subs) */ n = 0; list = sstrsplit(test, S("this,is,a,csv,string,with,extension"), &n); UCX_TEST_ASSERT(n == 1, "subs, list length must be 1"); UCX_TEST_ASSERT(strcmp(list[0].ptr, original) == 0, "subs, single item must be the original string"); UCX_TEST_ASSERT(strcmp(test.ptr, original) == 0, "subs, original has been modified"); for(int i=0;i<n;i++) { free(list[i].ptr); } free(list); /* double encounter delimiter (ded) */ n = 0; list = sstrsplit(test, S("is,"), &n); UCX_TEST_ASSERT(n == 3, "ded, list length must be 3"); UCX_TEST_ASSERT(strcmp(list[0].ptr, "th") == 0, "ded, item 0 mismatch"); UCX_TEST_ASSERT(list[1].length == 0, "ded, item 1 not empty!"); UCX_TEST_ASSERT(strcmp(list[2].ptr, "a,csv,string") == 0, "ded, item 2 mismatch"); for(int i=0;i<n;i++) { free(list[i].ptr); } free(list); UCX_TEST_END } UCX_TEST(test_sstrtrim) { sstr_t t1 = sstrtrim(sstr((char*)" ein test ")); sstr_t t2 = sstrtrim(sstr((char*)"abc")); sstr_t t3 = sstrtrim(sstr((char*)" 123")); sstr_t t4 = sstrtrim(sstr((char*)"xyz ")); sstr_t t5 = sstrtrim(sstr((char*)" ")); sstr_t empty = sstrtrim(sstr((char*)"")); UCX_TEST_BEGIN UCX_TEST_ASSERT(strncmp(t1.ptr, "ein test", t1.length) == 0, "failed"); UCX_TEST_ASSERT(strncmp(t2.ptr, "abc", t2.length) == 0, "failed"); UCX_TEST_ASSERT(strncmp(t3.ptr, "123", t3.length) == 0, "failed"); UCX_TEST_ASSERT(strncmp(t4.ptr, "xyz", t4.length) == 0, "failed"); UCX_TEST_ASSERT(t5.length == 0, "string t5 not empty"); UCX_TEST_ASSERT(empty.length == 0, "empty string failed"); UCX_TEST_END } UCX_TEST(test_sstrprefixsuffix) { sstr_t str = ST("test my prefix and my suffix"); sstr_t empty = ST(""); UCX_TEST_BEGIN UCX_TEST_ASSERT(!sstrprefix(empty, S("pref")), "prefix empty string fails"); UCX_TEST_ASSERT(!sstrsuffix(empty, S("suf")), "suffix empty string fails"); UCX_TEST_ASSERT(sstrprefix(str, empty), "empty prefix fails"); UCX_TEST_ASSERT(sstrsuffix(str, empty), "empty suffix fails"); UCX_TEST_ASSERT(sstrprefix(empty, empty), "string and prefix empty fails"); UCX_TEST_ASSERT(sstrsuffix(empty, empty), "string and suffix empty fails"); UCX_TEST_ASSERT(sstrprefix(str, S("test ")), "prefix false negative"); UCX_TEST_ASSERT(!sstrprefix(str, S("8-) fsck ")), "prefix false positive"); UCX_TEST_ASSERT(sstrsuffix(str, S("fix")), "suffix false negative"); UCX_TEST_ASSERT(!sstrsuffix(str, S("fox")), "suffix false positive"); UCX_TEST_END }
