Sun, 20 Nov 2022 21:08:36 +0100
use //-style single line comments everywhere
/* * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER. * * Copyright 2021 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 "cx/string.h" #include "util_allocator.h" #include <gtest/gtest.h> #define EXPECT_ZERO_TERMINATED(str) EXPECT_EQ((str).ptr[(str).length], '\0') TEST(String, construct) { cxstring s1 = cx_str("1234"); cxstring s2 = cx_strn("abcd", 2); cxmutstr s3 = cx_mutstr((char *) "1234"); cxmutstr s4 = cx_mutstrn((char *) "abcd", 2); EXPECT_EQ(s1.length, 4); EXPECT_EQ(s2.length, 2); EXPECT_EQ(s3.length, 4); EXPECT_EQ(s4.length, 2); } TEST(String, strfree) { CxTestingAllocator alloc; auto test = (char *) cxMalloc(&alloc, 16); cxmutstr str = cx_mutstrn(test, 16); ASSERT_EQ(str.ptr, test); EXPECT_EQ(str.length, 16); cx_strfree_a(&alloc, &str); EXPECT_EQ(str.ptr, nullptr); EXPECT_EQ(str.length, 0); EXPECT_TRUE(alloc.verify()); } TEST(String, strdup) { cxstring str = CX_STR("test"); cxmutstr dup = cx_strdup(str); ASSERT_EQ(dup.length, str.length); EXPECT_STREQ(dup.ptr, str.ptr); EXPECT_ZERO_TERMINATED(dup); cx_strfree(&dup); str.length = 2; dup = cx_strdup(str); ASSERT_EQ(dup.length, str.length); EXPECT_STREQ(dup.ptr, "te"); EXPECT_ZERO_TERMINATED(dup); cx_strfree(&dup); } TEST(String, strlen) { cxstring s1 = CX_STR("1234"); cxstring s2 = CX_STR(".:.:."); cxstring s3 = CX_STR("X"); size_t len0 = cx_strlen(0); size_t len1 = cx_strlen(1, s1); size_t len2 = cx_strlen(2, s1, s2); size_t len3 = cx_strlen(3, s1, s2, s3); EXPECT_EQ(len0, 0); EXPECT_EQ(len1, 4); EXPECT_EQ(len2, 9); EXPECT_EQ(len3, 10); } TEST(String, strsubs) { cxstring str = CX_STR("A test string"); cxstring sub = cx_strsubs(str, 0); EXPECT_EQ(cx_strcmp(sub, str), 0); sub = cx_strsubs(str, 2); EXPECT_EQ(cx_strcmp(sub, cx_str("test string")), 0); sub = cx_strsubs(str, 7); EXPECT_EQ(cx_strcmp(sub, cx_str("string")), 0); sub = cx_strsubs(str, 15); EXPECT_EQ(cx_strcmp(sub, cx_str("")), 0); sub = cx_strsubsl(str, 2, 4); EXPECT_EQ(cx_strcmp(sub, cx_str("test")), 0); sub = cx_strsubsl(str, 7, 3); EXPECT_EQ(cx_strcmp(sub, cx_str("str")), 0); sub = cx_strsubsl(str, 7, 20); EXPECT_EQ(cx_strcmp(sub, cx_str("string")), 0); // just for coverage, call the _m variant auto m = cx_strsubs_m(cx_mutstrn(nullptr, 0), 0); EXPECT_EQ(cx_strcmp(cx_strcast(m), cx_str("")), 0); } TEST(String, strchr) { cxstring str = CX_STR("I will find you - and I will kill you"); cxstring notfound = cx_strchr(str, 'x'); EXPECT_EQ(notfound.length, 0); cxstring result = cx_strchr(str, 'w'); EXPECT_EQ(result.length, 35); EXPECT_STREQ(result.ptr, "will find you - and I will kill you"); // just for coverage, call the _m variant auto m = cx_strchr_m(cx_mutstrn(nullptr, 0), 'a'); EXPECT_EQ(cx_strcmp(cx_strcast(m), cx_str("")), 0); } TEST(String, strrchr) { cxstring str = CX_STR("I will find you - and I will kill you"); cxstring notfound = cx_strrchr(str, 'x'); EXPECT_EQ(notfound.length, 0); cxstring result = cx_strrchr(str, 'w'); EXPECT_EQ(result.length, 13); EXPECT_STREQ(result.ptr, "will kill you"); // just for coverage, call the _m variant auto m = cx_strrchr_m(cx_mutstrn(nullptr, 0), 'a'); EXPECT_EQ(cx_strcmp(cx_strcast(m), cx_str("")), 0); } TEST(String, strstr) { cxstring str = CX_STR("find the match in this string"); cxstring longstr = CX_STR( "abcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyzabcdefghijkl" "mnopqrstuvwxyzabcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwx" "yzabcdeababababnopqrstuvwxyzabcdefghijklmnopqrstuvwxyzabcdefghij" "klmnopqrstuvwxyzaababababababababrstuvwxyzabcdefghijklmnopqrstuv" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "wxyz1234567890"); cxstring longstrpattern = CX_STR( "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" ); cxstring longstrresult = CX_STR( "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "abababababababababababababababababababababababababababababababab" "wxyz1234567890" ); cxstring notfound = cx_strstr(str, cx_str("no match")); EXPECT_EQ(notfound.length, 0); cxstring result = cx_strstr(str, cx_str("match")); EXPECT_EQ(result.length, 20); EXPECT_STREQ(result.ptr, "match in this string"); result = cx_strstr(str, cx_str("")); EXPECT_EQ(result.length, str.length); EXPECT_STREQ(result.ptr, str.ptr); result = cx_strstr(longstr, longstrpattern); EXPECT_EQ(result.length, longstrresult.length); EXPECT_STREQ(result.ptr, longstrresult.ptr); // just for coverage, call the _m variant auto mstr = cx_strdup(longstr); auto m = cx_strstr_m(mstr, longstrpattern); EXPECT_EQ(m.length, longstrresult.length); EXPECT_STREQ(m.ptr, longstrresult.ptr); cx_strfree(&mstr); } TEST(String, strcmp) { cxstring str = CX_STR("compare this"); EXPECT_EQ(cx_strcmp(cx_str(""), cx_str("")), 0); EXPECT_GT(cx_strcmp(str, cx_str("")), 0); EXPECT_EQ(cx_strcmp(str, cx_str("compare this")), 0); EXPECT_NE(cx_strcmp(str, cx_str("Compare This")), 0); EXPECT_LT(cx_strcmp(str, cx_str("compare tool")), 0); EXPECT_GT(cx_strcmp(str, cx_str("compare shit")), 0); EXPECT_LT(cx_strcmp(str, cx_str("compare this not")), 0); EXPECT_GT(cx_strcmp(str, cx_str("compare")), 0); } TEST(String, strcasecmp) { cxstring str = CX_STR("compare this"); EXPECT_EQ(cx_strcasecmp(cx_str(""), cx_str("")), 0); EXPECT_GT(cx_strcasecmp(str, cx_str("")), 0); EXPECT_EQ(cx_strcasecmp(str, cx_str("compare this")), 0); EXPECT_EQ(cx_strcasecmp(str, cx_str("Compare This")), 0); EXPECT_LT(cx_strcasecmp(str, cx_str("compare tool")), 0); EXPECT_GT(cx_strcasecmp(str, cx_str("compare shit")), 0); EXPECT_LT(cx_strcasecmp(str, cx_str("compare this not")), 0); EXPECT_GT(cx_strcasecmp(str, cx_str("compare")), 0); } TEST(String, strcat) { cxstring s1 = CX_STR("12"); cxstring s2 = CX_STR("34"); cxstring s3 = CX_STR("56"); cxstring sn = {nullptr, 0}; CxTestingAllocator alloc; cxmutstr t1 = cx_strcat_a(&alloc, 2, s1, s2); EXPECT_EQ(cx_strcmp(cx_strcast(t1), cx_str("1234")), 0); EXPECT_ZERO_TERMINATED(t1); cx_strfree_a(&alloc, &t1); cxmutstr t2 = cx_strcat_a(&alloc, 3, s1, s2, s3); EXPECT_EQ(cx_strcmp(cx_strcast(t2), cx_str("123456")), 0); EXPECT_ZERO_TERMINATED(t2); cx_strfree_a(&alloc, &t2); cxmutstr t3 = cx_strcat_a(&alloc, 6, s1, sn, s2, sn, s3, sn); EXPECT_EQ(cx_strcmp(cx_strcast(t3), cx_str("123456")), 0); EXPECT_ZERO_TERMINATED(t3); cx_strfree_a(&alloc, &t3); cxmutstr t4 = cx_strcat_a(&alloc, 2, sn, sn); EXPECT_EQ(cx_strcmp(cx_strcast(t4), cx_str("")), 0); EXPECT_ZERO_TERMINATED(t4); cx_strfree_a(&alloc, &t4); EXPECT_TRUE(alloc.verify()); // use the macro cxmutstr t5 = cx_strcat(3, s3, s1, s2); EXPECT_EQ(cx_strcmp(cx_strcast(t5), cx_str("561234")), 0); EXPECT_ZERO_TERMINATED(t5); cx_strfree(&t5); } TEST(String, strsplit) { cxstring test = cx_str("this,is,a,csv,string"); size_t capa = 8; cxstring list[8]; size_t n; // special case: empty string n = cx_strsplit(test, cx_str(""), capa, list); ASSERT_EQ(n, 1); EXPECT_EQ(cx_strcmp(list[0], test), 0); // no delimiter occurrence n = cx_strsplit(test, cx_str("z"), capa, list); ASSERT_EQ(n, 1); EXPECT_EQ(cx_strcmp(list[0], test), 0); // partially matching delimiter n = cx_strsplit(test, cx_str("is,not"), capa, list); ASSERT_EQ(n, 1); EXPECT_EQ(cx_strcmp(list[0], test), 0); // matching single-char delimiter n = cx_strsplit(test, cx_str(","), capa, list); ASSERT_EQ(n, 5); EXPECT_EQ(cx_strcmp(list[0], cx_str("this")), 0); EXPECT_EQ(cx_strcmp(list[1], cx_str("is")), 0); EXPECT_EQ(cx_strcmp(list[2], cx_str("a")), 0); EXPECT_EQ(cx_strcmp(list[3], cx_str("csv")), 0); EXPECT_EQ(cx_strcmp(list[4], cx_str("string")), 0); // matching multi-char delimiter n = cx_strsplit(test, cx_str("is"), capa, list); ASSERT_EQ(n, 3); EXPECT_EQ(cx_strcmp(list[0], cx_str("th")), 0); EXPECT_EQ(cx_strcmp(list[1], cx_str(",")), 0); EXPECT_EQ(cx_strcmp(list[2], cx_str(",a,csv,string")), 0); // bounded list using single-char delimiter n = cx_strsplit(test, cx_str(","), 3, list); ASSERT_EQ(n, 3); EXPECT_EQ(cx_strcmp(list[0], cx_str("this")), 0); EXPECT_EQ(cx_strcmp(list[1], cx_str("is")), 0); EXPECT_EQ(cx_strcmp(list[2], cx_str("a,csv,string")), 0); // bounded list using multi-char delimiter n = cx_strsplit(test, cx_str("is"), 2, list); ASSERT_EQ(n, 2); EXPECT_EQ(cx_strcmp(list[0], cx_str("th")), 0); EXPECT_EQ(cx_strcmp(list[1], cx_str(",is,a,csv,string")), 0); // start with delimiter n = cx_strsplit(test, cx_str("this"), capa, list); ASSERT_EQ(n, 2); EXPECT_EQ(cx_strcmp(list[0], cx_str("")), 0); EXPECT_EQ(cx_strcmp(list[1], cx_str(",is,a,csv,string")), 0); // end with delimiter n = cx_strsplit(test, cx_str("string"), capa, list); ASSERT_EQ(n, 2); EXPECT_EQ(cx_strcmp(list[0], cx_str("this,is,a,csv,")), 0); EXPECT_EQ(cx_strcmp(list[1], cx_str("")), 0); // end with delimiter exceed bound n = cx_strsplit(cx_str("a,b,c,"), cx_str(","), 3, list); ASSERT_EQ(n, 3); EXPECT_EQ(cx_strcmp(list[0], cx_str("a")), 0); EXPECT_EQ(cx_strcmp(list[1], cx_str("b")), 0); EXPECT_EQ(cx_strcmp(list[2], cx_str("c,")), 0); // exact match n = cx_strsplit(test, cx_str("this,is,a,csv,string"), capa, list); ASSERT_EQ(n, 2); EXPECT_EQ(cx_strcmp(list[0], cx_str("")), 0); EXPECT_EQ(cx_strcmp(list[1], cx_str("")), 0); // string to be split is only substring n = cx_strsplit(test, cx_str("this,is,a,csv,string,with,extension"), capa, list); ASSERT_EQ(n, 1); EXPECT_EQ(cx_strcmp(list[0], test), 0); // subsequent encounter of delimiter (the string between is empty) n = cx_strsplit(test, cx_str("is,"), capa, list); ASSERT_EQ(n, 3); EXPECT_EQ(cx_strcmp(list[0], cx_str("th")), 0); EXPECT_EQ(cx_strcmp(list[1], cx_str("")), 0); EXPECT_EQ(cx_strcmp(list[2], cx_str("a,csv,string")), 0); // call the _m variant just for coverage auto mtest = cx_strdup(test); cxmutstr mlist[4]; n = cx_strsplit_m(mtest, cx_str("is,"), 4, mlist); ASSERT_EQ(n, 3); EXPECT_EQ(cx_strcmp(cx_strcast(mlist[0]), cx_str("th")), 0); EXPECT_EQ(cx_strcmp(cx_strcast(mlist[1]), cx_str("")), 0); EXPECT_EQ(cx_strcmp(cx_strcast(mlist[2]), cx_str("a,csv,string")), 0); cx_strfree(&mtest); } TEST(String, strsplit_a) { CxTestingAllocator alloc; cxstring test = cx_str("this,is,a,csv,string"); size_t capa = 8; cxstring *list; size_t n; // special case: empty string n = cx_strsplit_a(&alloc, test, cx_str(""), capa, &list); ASSERT_EQ(n, 1); EXPECT_EQ(cx_strcmp(list[0], test), 0); cxFree(&alloc, list); // no delimiter occurrence n = cx_strsplit_a(&alloc, test, cx_str("z"), capa, &list); ASSERT_EQ(n, 1); EXPECT_EQ(cx_strcmp(list[0], test), 0); cxFree(&alloc, list); // partially matching delimiter n = cx_strsplit_a(&alloc, test, cx_str("is,not"), capa, &list); ASSERT_EQ(n, 1); EXPECT_EQ(cx_strcmp(list[0], test), 0); cxFree(&alloc, list); // matching single-char delimiter n = cx_strsplit_a(&alloc, test, cx_str(","), capa, &list); ASSERT_EQ(n, 5); EXPECT_EQ(cx_strcmp(list[0], cx_str("this")), 0); EXPECT_EQ(cx_strcmp(list[1], cx_str("is")), 0); EXPECT_EQ(cx_strcmp(list[2], cx_str("a")), 0); EXPECT_EQ(cx_strcmp(list[3], cx_str("csv")), 0); EXPECT_EQ(cx_strcmp(list[4], cx_str("string")), 0); cxFree(&alloc, list); // matching multi-char delimiter n = cx_strsplit_a(&alloc, test, cx_str("is"), capa, &list); ASSERT_EQ(n, 3); EXPECT_EQ(cx_strcmp(list[0], cx_str("th")), 0); EXPECT_EQ(cx_strcmp(list[1], cx_str(",")), 0); EXPECT_EQ(cx_strcmp(list[2], cx_str(",a,csv,string")), 0); cxFree(&alloc, list); // bounded list using single-char delimiter n = cx_strsplit_a(&alloc, test, cx_str(","), 3, &list); ASSERT_EQ(n, 3); EXPECT_EQ(cx_strcmp(list[0], cx_str("this")), 0); EXPECT_EQ(cx_strcmp(list[1], cx_str("is")), 0); EXPECT_EQ(cx_strcmp(list[2], cx_str("a,csv,string")), 0); cxFree(&alloc, list); // bounded list using multi-char delimiter n = cx_strsplit_a(&alloc, test, cx_str("is"), 2, &list); ASSERT_EQ(n, 2); EXPECT_EQ(cx_strcmp(list[0], cx_str("th")), 0); EXPECT_EQ(cx_strcmp(list[1], cx_str(",is,a,csv,string")), 0); cxFree(&alloc, list); // start with delimiter n = cx_strsplit_a(&alloc, test, cx_str("this"), capa, &list); ASSERT_EQ(n, 2); EXPECT_EQ(cx_strcmp(list[0], cx_str("")), 0); EXPECT_EQ(cx_strcmp(list[1], cx_str(",is,a,csv,string")), 0); cxFree(&alloc, list); // end with delimiter n = cx_strsplit_a(&alloc, test, cx_str("string"), capa, &list); ASSERT_EQ(n, 2); EXPECT_EQ(cx_strcmp(list[0], cx_str("this,is,a,csv,")), 0); EXPECT_EQ(cx_strcmp(list[1], cx_str("")), 0); cxFree(&alloc, list); // end with delimiter exceed bound n = cx_strsplit_a(&alloc, cx_str("a,b,c,"), cx_str(","), 3, &list); ASSERT_EQ(n, 3); EXPECT_EQ(cx_strcmp(list[0], cx_str("a")), 0); EXPECT_EQ(cx_strcmp(list[1], cx_str("b")), 0); EXPECT_EQ(cx_strcmp(list[2], cx_str("c,")), 0); cxFree(&alloc, list); // exact match n = cx_strsplit_a(&alloc, test, cx_str("this,is,a,csv,string"), capa, &list); ASSERT_EQ(n, 2); EXPECT_EQ(cx_strcmp(list[0], cx_str("")), 0); EXPECT_EQ(cx_strcmp(list[1], cx_str("")), 0); cxFree(&alloc, list); // string to be split is only substring n = cx_strsplit_a(&alloc, test, cx_str("this,is,a,csv,string,with,extension"), capa, &list); ASSERT_EQ(n, 1); EXPECT_EQ(cx_strcmp(list[0], test), 0); cxFree(&alloc, list); // subsequent encounter of delimiter (the string between is empty) n = cx_strsplit_a(&alloc, test, cx_str("is,"), capa, &list); ASSERT_EQ(n, 3); EXPECT_EQ(cx_strcmp(list[0], cx_str("th")), 0); EXPECT_EQ(cx_strcmp(list[1], cx_str("")), 0); EXPECT_EQ(cx_strcmp(list[2], cx_str("a,csv,string")), 0); cxFree(&alloc, list); // call the _m variant just for coverage auto mtest = cx_strdup(test); cxmutstr *mlist; n = cx_strsplit_ma(&alloc, mtest, cx_str("is,"), 4, &mlist); ASSERT_EQ(n, 3); EXPECT_EQ(cx_strcmp(cx_strcast(mlist[0]), cx_str("th")), 0); EXPECT_EQ(cx_strcmp(cx_strcast(mlist[1]), cx_str("")), 0); EXPECT_EQ(cx_strcmp(cx_strcast(mlist[2]), cx_str("a,csv,string")), 0); cxFree(&alloc, mlist); cx_strfree(&mtest); EXPECT_TRUE(alloc.verify()); } TEST(String, strtrim) { cxstring t1 = cx_strtrim(cx_str(" ein test \t ")); cxstring t2 = cx_strtrim(cx_str("abc")); cxstring t3 = cx_strtrim(cx_str(" 123")); cxstring t4 = cx_strtrim(cx_str("xyz ")); cxstring t5 = cx_strtrim(cx_str(" ")); cxstring empty = cx_strtrim(cx_str("")); EXPECT_EQ(cx_strcmp(t1, cx_str("ein test")), 0); EXPECT_EQ(cx_strcmp(t2, cx_str("abc")), 0); EXPECT_EQ(cx_strcmp(t3, cx_str("123")), 0); EXPECT_EQ(cx_strcmp(t4, cx_str("xyz")), 0); EXPECT_EQ(cx_strcmp(t5, cx_str("")), 0); EXPECT_EQ(cx_strcmp(empty, cx_str("")), 0); // call the _m variant just for coverage cxmutstr m1 = cx_strtrim_m(cx_mutstr((char *) " ein test \t ")); EXPECT_EQ(cx_strcmp(cx_strcast(m1), cx_str("ein test")), 0); } TEST(String, strprefix) { cxstring str = CX_STR("test my prefix and my suffix"); cxstring empty = CX_STR(""); EXPECT_FALSE(cx_strprefix(empty, cx_str("pref"))); EXPECT_TRUE(cx_strprefix(str, empty)); EXPECT_TRUE(cx_strprefix(empty, empty)); EXPECT_TRUE(cx_strprefix(str, cx_str("test "))); EXPECT_FALSE(cx_strprefix(str, cx_str("8-) fsck "))); } TEST(String, strsuffix) { cxstring str = CX_STR("test my prefix and my suffix"); cxstring empty = CX_STR(""); EXPECT_FALSE(cx_strsuffix(empty, cx_str("suf"))); EXPECT_TRUE(cx_strsuffix(str, empty)); EXPECT_TRUE(cx_strsuffix(empty, empty)); EXPECT_TRUE(cx_strsuffix(str, cx_str("fix"))); EXPECT_FALSE(cx_strsuffix(str, cx_str("fox"))); } TEST(String, strcaseprefix) { cxstring str = CX_STR("test my prefix and my suffix"); cxstring empty = CX_STR(""); EXPECT_FALSE(cx_strcaseprefix(empty, cx_str("pREf"))); EXPECT_TRUE(cx_strcaseprefix(str, empty)); EXPECT_TRUE(cx_strcaseprefix(empty, empty)); EXPECT_TRUE(cx_strcaseprefix(str, cx_str("TEST "))); EXPECT_FALSE(cx_strcaseprefix(str, cx_str("8-) fsck "))); } TEST(String, strcasesuffix) { cxstring str = CX_STR("test my prefix and my suffix"); cxstring empty = CX_STR(""); EXPECT_FALSE(cx_strcasesuffix(empty, cx_str("sUf"))); EXPECT_TRUE(cx_strcasesuffix(str, empty)); EXPECT_TRUE(cx_strcasesuffix(empty, empty)); EXPECT_TRUE(cx_strcasesuffix(str, cx_str("FIX"))); EXPECT_FALSE(cx_strcasesuffix(str, cx_str("fox"))); } TEST(String, strreplace) { CxTestingAllocator alloc; cxstring str = CX_STR("test ababab string aba"); cxstring longstr = CX_STR( "xyaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaacd"); cxstring notrail = CX_STR("test abab"); cxstring empty = CX_STR(""); cxstring astr = CX_STR("aaaaaaaaaa"); cxstring csstr = CX_STR("test AB ab TEST xyz"); cxmutstr repl = cx_strreplace(str, cx_str("abab"), cx_str("muchlonger")); auto expected = "test muchlongerab string aba"; cxmutstr repln = cx_strreplacen(str, cx_str("ab"), cx_str("c"), 2); auto expectedn = "test ccab string aba"; cxmutstr longrepl = cx_strreplace(longstr, cx_str("a"), cx_str("z")); auto longexpect = "xyzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzcd"; cxmutstr replnotrail = cx_strreplace(notrail, cx_str("ab"), cx_str("z")); auto notrailexpect = "test zz"; cxmutstr repleq = cx_strreplace(str, str, cx_str("hello")); auto eqexpect = "hello"; cxmutstr replempty1 = cx_strreplace(empty, cx_str("ab"), cx_str("c")); // expect: empty cxmutstr replempty2 = cx_strreplace(str, cx_str("abab"), empty); auto emptyexpect2 = "test ab string aba"; cxmutstr replpre = cx_strreplace(str, cx_str("test "), cx_str("TEST ")); auto preexpected = "TEST ababab string aba"; cxmutstr replan1 = cx_strreplacen(astr, cx_str("a"), cx_str("x"), 1); auto an1expected = "xaaaaaaaaa"; cxmutstr replan4 = cx_strreplacen(astr, cx_str("a"), cx_str("x"), 4); auto an4expected = "xxxxaaaaaa"; cxmutstr replan9 = cx_strreplacen(astr, cx_str("a"), cx_str("x"), 9); auto an9expected = "xxxxxxxxxa"; cxmutstr replan10 = cx_strreplacen(astr, cx_str("a"), cx_str("x"), 10); auto an10expected = "xxxxxxxxxx"; cxmutstr repl1_a = cx_strreplace_a(&alloc, csstr, cx_str("AB"), cx_str("*")); auto expeced1_a = "test * ab TEST xyz"; cxmutstr repl2_a = cx_strreplace_a(&alloc, csstr, cx_str("test"), cx_str("TEST")); auto expected2_a = "TEST AB ab TEST xyz"; EXPECT_NE(repl.ptr, str.ptr); EXPECT_ZERO_TERMINATED(repl); EXPECT_STREQ(repl.ptr, expected); EXPECT_ZERO_TERMINATED(repln); EXPECT_STREQ(repln.ptr, expectedn); EXPECT_ZERO_TERMINATED(longrepl); EXPECT_STREQ(longrepl.ptr, longexpect); EXPECT_ZERO_TERMINATED(replnotrail); EXPECT_STREQ(replnotrail.ptr, notrailexpect); EXPECT_ZERO_TERMINATED(repleq); EXPECT_STREQ(repleq.ptr, eqexpect); EXPECT_ZERO_TERMINATED(replempty1); EXPECT_STREQ(replempty1.ptr, ""); EXPECT_ZERO_TERMINATED(replempty2); EXPECT_STREQ(replempty2.ptr, emptyexpect2); EXPECT_ZERO_TERMINATED(replpre); EXPECT_STREQ(replpre.ptr, preexpected); EXPECT_ZERO_TERMINATED(replan1); EXPECT_STREQ(replan1.ptr, an1expected); EXPECT_ZERO_TERMINATED(replan4); EXPECT_STREQ(replan4.ptr, an4expected); EXPECT_ZERO_TERMINATED(replan9); EXPECT_STREQ(replan9.ptr, an9expected); EXPECT_ZERO_TERMINATED(replan10); EXPECT_STREQ(replan10.ptr, an10expected); EXPECT_ZERO_TERMINATED(repl1_a); EXPECT_STREQ(repl1_a.ptr, expeced1_a); EXPECT_ZERO_TERMINATED(repl2_a); EXPECT_STREQ(repl2_a.ptr, expected2_a); cx_strfree(&repl); cx_strfree(&repln); cx_strfree(&longrepl); cx_strfree(&replnotrail); cx_strfree(&repleq); cx_strfree(&replempty1); cx_strfree(&replempty2); cx_strfree(&replpre); cx_strfree(&replan1); cx_strfree(&replan4); cx_strfree(&replan9); cx_strfree(&replan10); cx_strfree_a(&alloc, &repl1_a); cx_strfree_a(&alloc, &repl2_a); EXPECT_TRUE(alloc.verify()); } TEST(String, strupper) { cxmutstr str = cx_strdup(cx_str("thIs 1s @ Te$t")); cx_strupper(str); EXPECT_STREQ(str.ptr, "THIS 1S @ TE$T"); cx_strfree(&str); } TEST(String, strlower) { cxmutstr str = cx_strdup(cx_str("thIs 1s @ Te$t")); cx_strlower(str); EXPECT_STREQ(str.ptr, "this 1s @ te$t"); cx_strfree(&str); }