/* vim:set ts=2 sw=2 et cindent: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include #include #include "nsString.h" #include "nsStringBuffer.h" #include "nsReadableUtils.h" #include "nsCRTGlue.h" namespace TestStrings { void test_assign_helper(const nsACString& in, nsACString &_retval) { _retval = in; } bool test_assign() { nsCString result; test_assign_helper(NS_LITERAL_CSTRING("a") + NS_LITERAL_CSTRING("b"), result); bool r = strcmp(result.get(), "ab") == 0; if (!r) printf("[result=%s]\n", result.get()); return r; } bool test_assign_c() { nsCString c; c.Assign('c'); bool r = strcmp(c.get(), "c") == 0; if (!r) printf("[result=%s]\n", c.get()); return r; } bool test1() { NS_NAMED_LITERAL_STRING(empty, ""); const nsAString& aStr = empty; nsAutoString buf(aStr); int32_t n = buf.FindChar(','); n = buf.Length(); buf.Cut(0, n + 1); n = buf.FindChar(','); if (n != kNotFound) printf("n=%d\n", n); return n == kNotFound; } bool test2() { nsCString data("hello world"); const nsACString& aStr = data; nsCString temp(aStr); temp.Cut(0, 6); bool r = strcmp(temp.get(), "world") == 0; if (!r) printf("[temp=%s]\n", temp.get()); return r; } bool test_find() { nsCString src(""); int32_t i = src.Find("DOCTYPE", true, 2, 1); if (i == 2) return true; printf("i=%d\n", i); return false; } bool test_rfind() { const char text[] = ""; const char term[] = "bLaH"; nsCString src(text); int32_t i; i = src.RFind(term, true, 3, -1); if (i != kNotFound) { printf("unexpected result searching from offset=3, i=%d\n", i); return false; } i = src.RFind(term, true, -1, -1); if (i != 20) { printf("unexpected result searching from offset=-1, i=%d\n", i); return false; } i = src.RFind(term, true, 13, -1); if (i != 10) { printf("unexpected result searching from offset=13, i=%d\n", i); return false; } i = src.RFind(term, true, 22, 3); if (i != 20) { printf("unexpected result searching from offset=22, i=%d\n", i); return false; } return true; } bool test_rfind_2() { const char text[] = ""; nsCString src(text); int32_t i = src.RFind("TYPE", false, 5, -1); if (i == 5) return true; printf("i=%d\n", i); return false; } bool test_rfind_3() { const char text[] = "urn:mozilla:locale:en-US:necko"; nsAutoCString value(text); int32_t i = value.RFind(":"); if (i == 24) return true; printf("i=%d\n", i); return false; } bool test_rfind_4() { nsCString value("a.msf"); int32_t i = value.RFind(".msf"); if (i != 1) { printf("i=%d\n", i); return false; } return true; } bool test_findinreadable() { const char text[] = "jar:jar:file:///c:/software/mozilla/mozilla_2006_02_21.jar!/browser/chrome/classic.jar!/"; nsAutoCString value(text); nsACString::const_iterator begin, end; value.BeginReading(begin); value.EndReading(end); nsACString::const_iterator delim_begin (begin), delim_end (end); // Search for last !/ at the end of the string if (!FindInReadable(NS_LITERAL_CSTRING("!/"), delim_begin, delim_end)) return false; char *r = ToNewCString(Substring(delim_begin, delim_end)); // Should match the first "!/" but not the last if ((delim_end == end) || (strcmp(r, "!/")!=0)) { printf("r = %s\n", r); nsMemory::Free(r); return false; } nsMemory::Free(r); delim_begin = begin; delim_end = end; // Search for first jar: if (!FindInReadable(NS_LITERAL_CSTRING("jar:"), delim_begin, delim_end)) return false; r = ToNewCString(Substring(delim_begin, delim_end)); // Should not match the first jar:, but the second one if ((delim_begin != begin) || (strcmp(r, "jar:")!=0)) { printf("r = %s\n", r); nsMemory::Free(r); return false; } nsMemory::Free(r); // Search for jar: in a Substring delim_begin = begin; delim_begin++; delim_end = end; if (!FindInReadable(NS_LITERAL_CSTRING("jar:"), delim_begin, delim_end)) return false; r = ToNewCString(Substring(delim_begin, delim_end)); // Should not match the first jar:, but the second one if ((delim_begin == begin) || (strcmp(r, "jar:")!=0)) { printf("r = %s\n", r); nsMemory::Free(r); return false; } nsMemory::Free(r); // Should not find a match if (FindInReadable(NS_LITERAL_CSTRING("gecko"), delim_begin, delim_end)) return false; // When no match is found, range should be empty if (delim_begin != delim_end) return false; // Should not find a match (search not beyond Substring) delim_begin = begin; for (int i=0;i<6;i++) delim_begin++; delim_end = end; if (FindInReadable(NS_LITERAL_CSTRING("jar:"), delim_begin, delim_end)) return false; // When no match is found, range should be empty if (delim_begin != delim_end) return false; // Should not find a match (search not beyond Substring) delim_begin = begin; delim_end = end; for (int i=0;i<7;i++) delim_end--; if (FindInReadable(NS_LITERAL_CSTRING("classic"), delim_begin, delim_end)) return false; // When no match is found, range should be empty if (delim_begin != delim_end) return false; return true; } bool test_rfindinreadable() { const char text[] = "jar:jar:file:///c:/software/mozilla/mozilla_2006_02_21.jar!/browser/chrome/classic.jar!/"; nsAutoCString value(text); nsACString::const_iterator begin, end; value.BeginReading(begin); value.EndReading(end); nsACString::const_iterator delim_begin (begin), delim_end (end); // Search for last !/ at the end of the string if (!RFindInReadable(NS_LITERAL_CSTRING("!/"), delim_begin, delim_end)) return false; char *r = ToNewCString(Substring(delim_begin, delim_end)); // Should match the last "!/" if ((delim_end != end) || (strcmp(r, "!/")!=0)) { printf("r = %s\n", r); nsMemory::Free(r); return false; } nsMemory::Free(r); delim_begin = begin; delim_end = end; // Search for last jar: but not the first one... if (!RFindInReadable(NS_LITERAL_CSTRING("jar:"), delim_begin, delim_end)) return false; r = ToNewCString(Substring(delim_begin, delim_end)); // Should not match the first jar:, but the second one if ((delim_begin == begin) || (strcmp(r, "jar:")!=0)) { printf("r = %s\n", r); nsMemory::Free(r); return false; } nsMemory::Free(r); // Search for jar: in a Substring delim_begin = begin; delim_end = begin; for (int i=0;i<6;i++) delim_end++; if (!RFindInReadable(NS_LITERAL_CSTRING("jar:"), delim_begin, delim_end)) { printf("Search for jar: in a Substring\n"); return false; } r = ToNewCString(Substring(delim_begin, delim_end)); // Should not match the first jar:, but the second one if ((delim_begin != begin) || (strcmp(r, "jar:")!=0)) { printf("r = %s\n", r); nsMemory::Free(r); return false; } nsMemory::Free(r); // Should not find a match delim_begin = begin; delim_end = end; if (RFindInReadable(NS_LITERAL_CSTRING("gecko"), delim_begin, delim_end)) { printf("Should not find a match\n"); return false; } // When no match is found, range should be empty if (delim_begin != delim_end) { printf("1: When no match is found, range should be empty\n"); return false; } // Should not find a match (search not before Substring) delim_begin = begin; for (int i=0;i<6;i++) delim_begin++; delim_end = end; if (RFindInReadable(NS_LITERAL_CSTRING("jar:"), delim_begin, delim_end)) { printf("Should not find a match (search not before Substring)\n"); return false; } // When no match is found, range should be empty if (delim_begin != delim_end) { printf("2: When no match is found, range should be empty\n"); return false; } // Should not find a match (search not beyond Substring) delim_begin = begin; delim_end = end; for (int i=0;i<7;i++) delim_end--; if (RFindInReadable(NS_LITERAL_CSTRING("classic"), delim_begin, delim_end)) { printf("Should not find a match (search not beyond Substring)\n"); return false; } // When no match is found, range should be empty if (delim_begin != delim_end) { printf("3: When no match is found, range should be empty\n"); return false; } return true; } bool test_distance() { const char text[] = "abc-xyz"; nsCString s(text); nsCString::const_iterator begin, end; s.BeginReading(begin); s.EndReading(end); size_t d = Distance(begin, end); bool r = (d == sizeof(text)-1); if (!r) printf("d=%u\n", d); return r; } bool test_length() { const char text[] = "abc-xyz"; nsCString s(text); size_t d = s.Length(); bool r = (d == sizeof(text)-1); if (!r) printf("d=%u\n", d); return r; } bool test_trim() { const char text[] = " a\t $ "; const char set[] = " \t$"; nsCString s(text); s.Trim(set); bool r = strcmp(s.get(), "a") == 0; if (!r) printf("[s=%s]\n", s.get()); return r; } bool test_replace_substr() { const char text[] = "abc-ppp-qqq-ppp-xyz"; nsCString s(text); s.ReplaceSubstring("ppp", "www"); bool r = strcmp(s.get(), "abc-www-qqq-www-xyz") == 0; if (!r) { printf("[s=%s]\n", s.get()); return false; } s.Assign("foobar"); s.ReplaceSubstring("foo", "bar"); s.ReplaceSubstring("bar", ""); r = strcmp(s.get(), "") == 0; if (!r) { printf("[s=%s]\n", s.get()); return false; } s.Assign("foofoofoo"); s.ReplaceSubstring("foo", "foo"); r = strcmp(s.get(), "foofoofoo") == 0; if (!r) { printf("[s=%s]\n", s.get()); return false; } s.Assign("foofoofoo"); s.ReplaceSubstring("of", "fo"); r = strcmp(s.get(), "fofoofooo") == 0; if (!r) { printf("[s=%s]\n", s.get()); return false; } return true; } bool test_replace_substr_2() { const char *oldName = nullptr; const char *newName = "user"; nsString acctName; acctName.AssignLiteral("forums.foo.com"); nsAutoString newAcctName, oldVal, newVal; oldVal.AssignWithConversion(oldName); newVal.AssignWithConversion(newName); newAcctName.Assign(acctName); // here, oldVal is empty. we are testing that this function // does not hang. see bug 235355. newAcctName.ReplaceSubstring(oldVal, newVal); // we expect that newAcctName will be unchanged. if (!newAcctName.Equals(acctName)) return false; return true; } bool test_strip_ws() { const char text[] = " a $ "; nsCString s(text); s.StripWhitespace(); bool r = strcmp(s.get(), "a$") == 0; if (!r) printf("[s=%s]\n", s.get()); return r; } bool test_equals_ic() { nsCString s; bool r = s.LowerCaseEqualsLiteral("view-source"); if (r) printf("[r=%d]\n", r); return !r; } bool test_fixed_string() { char buf[256] = "hello world"; nsFixedCString s(buf, sizeof(buf)); if (s.Length() != strlen(buf)) return false; if (strcmp(s.get(), buf) != 0) return false; s.Assign("foopy doopy doo"); if (s.get() != buf) return false; return true; } bool test_concat() { nsCString bar("bar"); const nsACString& barRef = bar; const nsPromiseFlatCString& result = PromiseFlatCString(NS_LITERAL_CSTRING("foo") + NS_LITERAL_CSTRING(",") + barRef); if (strcmp(result.get(), "foo,bar") == 0) return true; printf("[result=%s]\n", result.get()); return false; } bool test_concat_2() { nsCString fieldTextStr("xyz"); nsCString text("text"); const nsACString& aText = text; nsAutoCString result( fieldTextStr + aText ); if (strcmp(result.get(), "xyztext") == 0) return true; printf("[result=%s]\n", result.get()); return false; } bool test_concat_3() { nsCString result; nsCString ab("ab"), c("c"); result = ab + result + c; if (strcmp(result.get(), "abc") == 0) return true; printf("[result=%s]\n", result.get()); return false; } bool test_xpidl_string() { nsXPIDLCString a, b; a = b; if (a != b) return false; a.Adopt(0); if (a != b) return false; a.Append("foopy"); a.Assign(b); if (a != b) return false; a.Insert("", 0); a.Assign(b); if (a != b) return false; const char text[] = "hello world"; *getter_Copies(a) = NS_strdup(text); if (strcmp(a, text) != 0) return false; b = a; if (strcmp(a, b) != 0) return false; a.Adopt(0); nsACString::const_iterator begin, end; a.BeginReading(begin); a.EndReading(end); char *r = ToNewCString(Substring(begin, end)); if (strcmp(r, "") != 0) return false; nsMemory::Free(r); a.Adopt(0); if (a != (const char*) 0) return false; /* int32_t index = a.FindCharInSet("xyz"); if (index != kNotFound) return false; */ return true; } bool test_empty_assign() { nsCString a; a.AssignLiteral(""); a.AppendLiteral(""); nsCString b; b.SetCapacity(0); return true; } bool test_set_length() { const char kText[] = "Default Plugin"; nsCString buf; buf.SetCapacity(sizeof(kText)-1); buf.Assign(kText); buf.SetLength(sizeof(kText)-1); if (strcmp(buf.get(), kText) != 0) return false; return true; } bool test_substring() { nsCString super("hello world"), sub("hello"); // this tests that |super| starts with |sub|, bool r = sub.Equals(StringHead(super, sub.Length())); if (!r) return false; // and verifies that |sub| does not start with |super|. r = super.Equals(StringHead(sub, super.Length())); if (r) return false; return true; } #define test_append(str, int, suffix) \ str.Truncate(); \ str.AppendInt(suffix = int ## suffix); \ if (!str.EqualsLiteral(#int)) { \ fputs("Error appending " #int "\n", stderr); \ return false; \ } #define test_appends(int, suffix) \ test_append(str, int, suffix) \ test_append(cstr, int, suffix) #define test_appendbase(str, prefix, int, suffix, base) \ str.Truncate(); \ str.AppendInt(suffix = prefix ## int ## suffix, base); \ if (!str.EqualsLiteral(#int)) { \ fputs("Error appending " #prefix #int "\n", stderr); \ return false; \ } #define test_appendbases(prefix, int, suffix, base) \ test_appendbase(str, prefix, int, suffix, base) \ test_appendbase(cstr, prefix, int, suffix, base) bool test_appendint() { nsString str; nsCString cstr; int32_t L; uint32_t UL; int64_t LL; uint64_t ULL; test_appends(2147483647, L) test_appends(-2147483648, L) test_appends(4294967295, UL) test_appends(9223372036854775807, LL) test_appends(-9223372036854775808, LL) test_appends(18446744073709551615, ULL) test_appendbases(0, 17777777777, L, 8) test_appendbases(0, 20000000000, L, 8) test_appendbases(0, 37777777777, UL, 8) test_appendbases(0, 777777777777777777777, LL, 8) test_appendbases(0, 1000000000000000000000, LL, 8) test_appendbases(0, 1777777777777777777777, ULL, 8) test_appendbases(0x, 7fffffff, L, 16) test_appendbases(0x, 80000000, L, 16) test_appendbases(0x, ffffffff, UL, 16) test_appendbases(0x, 7fffffffffffffff, LL, 16) test_appendbases(0x, 8000000000000000, LL, 16) test_appendbases(0x, ffffffffffffffff, ULL, 16) return true; } bool test_appendint64() { nsCString str; int64_t max = INT64_MAX; static const char max_expected[] = "9223372036854775807"; int64_t min = INT64_MIN; static const char min_expected[] = "-9223372036854775808"; static const char min_expected_oct[] = "1000000000000000000000"; int64_t maxint_plus1 = 1LL << 32; static const char maxint_plus1_expected[] = "4294967296"; static const char maxint_plus1_expected_x[] = "100000000"; str.AppendInt(max); if (!str.Equals(max_expected)) { fprintf(stderr, "Error appending INT64_MAX: Got %s\n", str.get()); return false; } str.Truncate(); str.AppendInt(min); if (!str.Equals(min_expected)) { fprintf(stderr, "Error appending INT64_MIN: Got %s\n", str.get()); return false; } str.Truncate(); str.AppendInt(min, 8); if (!str.Equals(min_expected_oct)) { fprintf(stderr, "Error appending INT64_MIN (oct): Got %s\n", str.get()); return false; } str.Truncate(); str.AppendInt(maxint_plus1); if (!str.Equals(maxint_plus1_expected)) { fprintf(stderr, "Error appending UINT32_MAX + 1: Got %s\n", str.get()); return false; } str.Truncate(); str.AppendInt(maxint_plus1, 16); if (!str.Equals(maxint_plus1_expected_x)) { fprintf(stderr, "Error appending UINT32_MAX + 1 (hex): Got %s\n", str.get()); return false; } return true; } bool test_appendfloat() { nsCString str; double bigdouble = 11223344556.66; static const char double_expected[] = "11223344556.66"; static const char float_expected[] = "0.01"; // AppendFloat is used to append doubles, therefore the precision must be // large enough (see bug 327719) str.AppendFloat( bigdouble ); if (!str.Equals(double_expected)) { fprintf(stderr, "Error appending a big double: Got %s\n", str.get()); return false; } str.Truncate(); // AppendFloat is used to append floats (bug 327719 #27) str.AppendFloat( 0.1f * 0.1f ); if (!str.Equals(float_expected)) { fprintf(stderr, "Error appending a float: Got %s\n", str.get()); return false; } return true; } bool test_findcharinset() { nsCString buf("hello, how are you?"); int32_t index = buf.FindCharInSet(",?", 5); if (index != 5) return false; index = buf.FindCharInSet("helo", 0); if (index != 0) return false; index = buf.FindCharInSet("z?", 6); if (index != (int32_t) buf.Length()-1) return false; return true; } bool test_rfindcharinset() { nsCString buf("hello, how are you?"); int32_t index = buf.RFindCharInSet(",?", 5); if (index != 5) return false; index = buf.RFindCharInSet("helo", 0); if (index != 0) return false; index = buf.RFindCharInSet("z?", 6); if (index != kNotFound) return false; index = buf.RFindCharInSet("l", 5); if (index != 3) return false; buf.Assign("abcdefghijkabc"); index = buf.RFindCharInSet("ab"); if (index != 12) return false; index = buf.RFindCharInSet("ab", 11); if (index != 11) return false; index = buf.RFindCharInSet("ab", 10); if (index != 1) return false; index = buf.RFindCharInSet("ab", 0); if (index != 0) return false; index = buf.RFindCharInSet("cd", 1); if (index != kNotFound) return false; index = buf.RFindCharInSet("h"); if (index != 7) return false; return true; } bool test_stringbuffer() { const char kData[] = "hello world"; nsStringBuffer *buf; buf = nsStringBuffer::Alloc(sizeof(kData)); if (!buf) return false; buf->Release(); buf = nsStringBuffer::Alloc(sizeof(kData)); if (!buf) return false; char *data = (char *) buf->Data(); memcpy(data, kData, sizeof(kData)); nsCString str; buf->ToString(sizeof(kData)-1, str); nsStringBuffer *buf2; buf2 = nsStringBuffer::FromString(str); bool rv = (buf == buf2); buf->Release(); return rv; } bool test_voided() { const char kData[] = "hello world"; nsXPIDLCString str; if (str) return false; if (!str.IsVoid()) return false; if (!str.IsEmpty()) return false; str.Assign(kData); if (strcmp(str, kData) != 0) return false; str.SetIsVoid(true); if (str) return false; if (!str.IsVoid()) return false; if (!str.IsEmpty()) return false; str.SetIsVoid(false); if (strcmp(str, "") != 0) return false; return true; } bool test_voided_autostr() { const char kData[] = "hello world"; nsAutoCString str; if (str.IsVoid()) return false; if (!str.IsEmpty()) return false; str.Assign(kData); if (strcmp(str.get(), kData) != 0) return false; str.SetIsVoid(true); if (!str.IsVoid()) return false; if (!str.IsEmpty()) return false; str.Assign(kData); if (str.IsVoid()) return false; if (str.IsEmpty()) return false; if (strcmp(str.get(), kData) != 0) return false; return true; } bool test_voided_assignment() { nsCString a, b; b.SetIsVoid(true); a = b; return a.IsVoid() && a.get() == b.get(); } bool test_empty_assignment() { nsCString a, b; a = b; return a.get() == b.get(); } struct ToIntegerTest { const char *str; uint32_t radix; int32_t result; nsresult rv; }; static const ToIntegerTest kToIntegerTests[] = { { "123", 10, 123, NS_OK }, { "7b", 16, 123, NS_OK }, { "90194313659", 10, 0, NS_ERROR_ILLEGAL_VALUE }, { nullptr, 0, 0, 0 } }; bool test_string_tointeger() { int32_t i; nsresult rv; for (const ToIntegerTest* t = kToIntegerTests; t->str; ++t) { int32_t result = nsAutoCString(t->str).ToInteger(&rv, t->radix); if (rv != t->rv || result != t->result) return false; result = nsAutoCString(t->str).ToInteger(&i, t->radix); if ((nsresult)i != t->rv || result != t->result) return false; } return true; } static bool test_parse_string_helper(const char* str, char separator, int len, const char* s1, const char* s2) { nsCString data(str); nsTArray results; if (!ParseString(data, separator, results)) return false; if (int(results.Length()) != len) return false; const char* strings[] = { s1, s2 }; for (int i = 0; i < len; ++i) { if (!results[i].Equals(strings[i])) return false; } return true; } static bool test_parse_string_helper0(const char* str, char separator) { return test_parse_string_helper(str, separator, 0, nullptr, nullptr); } static bool test_parse_string_helper1(const char* str, char separator, const char* s1) { return test_parse_string_helper(str, separator, 1, s1, nullptr); } static bool test_parse_string_helper2(const char* str, char separator, const char* s1, const char* s2) { return test_parse_string_helper(str, separator, 2, s1, s2); } static bool test_parse_string() { return test_parse_string_helper1("foo, bar", '_', "foo, bar") && test_parse_string_helper2("foo, bar", ',', "foo", " bar") && test_parse_string_helper2("foo, bar ", ' ', "foo,", "bar") && test_parse_string_helper2("foo,bar", 'o', "f", ",bar") && test_parse_string_helper0("", '_') && test_parse_string_helper0(" ", ' ') && test_parse_string_helper1(" foo", ' ', "foo") && test_parse_string_helper1(" foo", ' ', "foo"); } static bool test_strip_chars_helper(const char16_t* str, const char16_t* strip, const nsAString& result, uint32_t offset=0) { nsAutoString tmp(str); nsAString& data = tmp; data.StripChars(strip, offset); return data.Equals(result); } static bool test_strip_chars() { return test_strip_chars_helper(MOZ_UTF16("foo \r \nbar"), MOZ_UTF16(" \n\r"), NS_LITERAL_STRING("foobar")) && test_strip_chars_helper(MOZ_UTF16("\r\nfoo\r\n"), MOZ_UTF16(" \n\r"), NS_LITERAL_STRING("foo")) && test_strip_chars_helper(MOZ_UTF16("foo"), MOZ_UTF16(" \n\r"), NS_LITERAL_STRING("foo")) && test_strip_chars_helper(MOZ_UTF16("foo"), MOZ_UTF16("fo"), NS_LITERAL_STRING("")) && test_strip_chars_helper(MOZ_UTF16("foo"), MOZ_UTF16("foo"), NS_LITERAL_STRING("")) && test_strip_chars_helper(MOZ_UTF16(" foo"), MOZ_UTF16(" "), NS_LITERAL_STRING(" foo"), 1); } static bool test_huge_capacity() { nsString a, b, c, d, e, f, g, h, i, j, k, l, m, n; nsCString n1; bool fail = false; #undef ok #define ok(x) { fail |= !(x); } ok(a.SetCapacity(1)); ok(!a.SetCapacity(nsString::size_type(-1)/2)); ok(a.SetCapacity(0)); // free the allocated memory ok(b.SetCapacity(1)); ok(!b.SetCapacity(nsString::size_type(-1)/2 - 1)); ok(b.SetCapacity(0)); ok(c.SetCapacity(1)); ok(!c.SetCapacity(nsString::size_type(-1)/2)); ok(c.SetCapacity(0)); ok(!d.SetCapacity(nsString::size_type(-1)/2 - 1)); ok(!d.SetCapacity(nsString::size_type(-1)/2)); ok(d.SetCapacity(0)); ok(!e.SetCapacity(nsString::size_type(-1)/4)); ok(!e.SetCapacity(nsString::size_type(-1)/4 + 1)); ok(e.SetCapacity(0)); ok(!f.SetCapacity(nsString::size_type(-1)/2)); ok(f.SetCapacity(0)); ok(!g.SetCapacity(nsString::size_type(-1)/4 + 1000)); ok(!g.SetCapacity(nsString::size_type(-1)/4 + 1001)); ok(g.SetCapacity(0)); ok(!h.SetCapacity(nsString::size_type(-1)/4+1)); ok(!h.SetCapacity(nsString::size_type(-1)/2)); ok(h.SetCapacity(0)); ok(i.SetCapacity(1)); ok(i.SetCapacity(nsString::size_type(-1)/4 - 1000)); ok(!i.SetCapacity(nsString::size_type(-1)/4 + 1)); ok(i.SetCapacity(0)); ok(j.SetCapacity(nsString::size_type(-1)/4 - 1000)); ok(!j.SetCapacity(nsString::size_type(-1)/4 + 1)); ok(j.SetCapacity(0)); ok(k.SetCapacity(nsString::size_type(-1)/8 - 1000)); ok(k.SetCapacity(nsString::size_type(-1)/4 - 1001)); ok(k.SetCapacity(nsString::size_type(-1)/4 - 998)); ok(!k.SetCapacity(nsString::size_type(-1)/4 + 1)); ok(k.SetCapacity(0)); ok(l.SetCapacity(nsString::size_type(-1)/8)); ok(l.SetCapacity(nsString::size_type(-1)/8 + 1)); ok(l.SetCapacity(nsString::size_type(-1)/8 + 2)); ok(l.SetCapacity(0)); ok(m.SetCapacity(nsString::size_type(-1)/8 + 1000)); ok(m.SetCapacity(nsString::size_type(-1)/8 + 1001)); ok(m.SetCapacity(0)); ok(n.SetCapacity(nsString::size_type(-1)/8+1)); ok(!n.SetCapacity(nsString::size_type(-1)/4)); ok(n.SetCapacity(0)); ok(n.SetCapacity(0)); ok(n.SetCapacity((nsString::size_type(-1)/2 - sizeof(nsStringBuffer)) / 2 - 2)); ok(n.SetCapacity(0)); ok(!n.SetCapacity((nsString::size_type(-1)/2 - sizeof(nsStringBuffer)) / 2 - 1)); ok(n.SetCapacity(0)); ok(n1.SetCapacity(0)); ok(n1.SetCapacity((nsCString::size_type(-1)/2 - sizeof(nsStringBuffer)) / 1 - 2)); ok(n1.SetCapacity(0)); ok(!n1.SetCapacity((nsCString::size_type(-1)/2 - sizeof(nsStringBuffer)) / 1 - 1)); ok(n1.SetCapacity(0)); // Ignore the result if the address space is less than 64-bit because // some of the allocations above will exhaust the address space. if (sizeof(void*) >= 8) { return !fail; } return true; } static bool test_tofloat_helper(const nsString& aStr, float aExpected, bool aSuccess) { int32_t result; return aStr.ToFloat(&result) == aExpected && aSuccess ? result == NS_OK : result != NS_OK; } static bool test_tofloat() { return \ test_tofloat_helper(NS_LITERAL_STRING("42"), 42.f, true) && test_tofloat_helper(NS_LITERAL_STRING("42.0"), 42.f, true) && test_tofloat_helper(NS_LITERAL_STRING("-42"), -42.f, true) && test_tofloat_helper(NS_LITERAL_STRING("+42"), 42, true) && test_tofloat_helper(NS_LITERAL_STRING("13.37"), 13.37f, true) && test_tofloat_helper(NS_LITERAL_STRING("1.23456789"), 1.23456789f, true) && test_tofloat_helper(NS_LITERAL_STRING("1.98765432123456"), 1.98765432123456f, true) && test_tofloat_helper(NS_LITERAL_STRING("0"), 0.f, true) && test_tofloat_helper(NS_LITERAL_STRING("1.e5"), 100000, true) && test_tofloat_helper(NS_LITERAL_STRING(""), 0.f, false) && test_tofloat_helper(NS_LITERAL_STRING("42foo"), 42.f, false) && test_tofloat_helper(NS_LITERAL_STRING("foo"), 0.f, false) && true; } static bool test_todouble_helper(const nsString& aStr, double aExpected, bool aSuccess) { int32_t result; return aStr.ToDouble(&result) == aExpected && aSuccess ? result == NS_OK : result != NS_OK; } static bool test_todouble() { return \ test_todouble_helper(NS_LITERAL_STRING("42"), 42, true) && test_todouble_helper(NS_LITERAL_STRING("42.0"), 42, true) && test_todouble_helper(NS_LITERAL_STRING("-42"), -42, true) && test_todouble_helper(NS_LITERAL_STRING("+42"), 42, true) && test_todouble_helper(NS_LITERAL_STRING("13.37"), 13.37, true) && test_todouble_helper(NS_LITERAL_STRING("1.23456789"), 1.23456789, true) && test_todouble_helper(NS_LITERAL_STRING("1.98765432123456"), 1.98765432123456, true) && test_todouble_helper(NS_LITERAL_STRING("123456789.98765432123456"), 123456789.98765432123456, true) && test_todouble_helper(NS_LITERAL_STRING("0"), 0, true) && test_todouble_helper(NS_LITERAL_STRING("1.e5"), 100000, true) && test_todouble_helper(NS_LITERAL_STRING(""), 0, false) && test_todouble_helper(NS_LITERAL_STRING("42foo"), 42, false) && test_todouble_helper(NS_LITERAL_STRING("foo"), 0, false) && true; } //---- typedef bool (*TestFunc)(); static const struct Test { const char* name; TestFunc func; } tests[] = { { "test_assign", test_assign }, { "test_assign_c", test_assign_c }, { "test1", test1 }, { "test2", test2 }, { "test_find", test_find }, { "test_rfind", test_rfind }, { "test_rfind_2", test_rfind_2 }, { "test_rfind_3", test_rfind_3 }, { "test_rfind_4", test_rfind_4 }, { "test_findinreadable", test_findinreadable }, { "test_rfindinreadable", test_rfindinreadable }, { "test_distance", test_distance }, { "test_length", test_length }, { "test_trim", test_trim }, { "test_replace_substr", test_replace_substr }, { "test_replace_substr_2", test_replace_substr_2 }, { "test_strip_ws", test_strip_ws }, { "test_equals_ic", test_equals_ic }, { "test_fixed_string", test_fixed_string }, { "test_concat", test_concat }, { "test_concat_2", test_concat_2 }, { "test_concat_3", test_concat_3 }, { "test_xpidl_string", test_xpidl_string }, { "test_empty_assign", test_empty_assign }, { "test_set_length", test_set_length }, { "test_substring", test_substring }, { "test_appendint", test_appendint }, { "test_appendint64", test_appendint64 }, { "test_appendfloat", test_appendfloat }, { "test_findcharinset", test_findcharinset }, { "test_rfindcharinset", test_rfindcharinset }, { "test_stringbuffer", test_stringbuffer }, { "test_voided", test_voided }, { "test_voided_autostr", test_voided_autostr }, { "test_voided_assignment", test_voided_assignment }, { "test_empty_assignment", test_empty_assignment }, { "test_string_tointeger", test_string_tointeger }, { "test_parse_string", test_parse_string }, { "test_strip_chars", test_strip_chars }, { "test_huge_capacity", test_huge_capacity }, { "test_tofloat", test_tofloat }, { "test_todouble", test_todouble }, { nullptr, nullptr } }; } using namespace TestStrings; int main(int argc, char **argv) { int count = 1; if (argc > 1) count = atoi(argv[1]); NS_LogInit(); while (count--) { for (const Test* t = tests; t->name != nullptr; ++t) { printf("%25s : %s\n", t->name, t->func() ? "SUCCESS" : "FAILURE <--"); } } return 0; }