// Copyright 2017 The Abseil Authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include "absl/strings/str_split.h" #include #include #include #include #include #include #include #include #include #include #include "gmock/gmock.h" #include "gtest/gtest.h" #include "absl/base/dynamic_annotations.h" // for RunningOnValgrind #include "absl/base/macros.h" #include "absl/strings/numbers.h" namespace { using ::testing::ElementsAre; using ::testing::Pair; using ::testing::UnorderedElementsAre; TEST(Split, TraitsTest) { static_assert(!absl::strings_internal::SplitterIsConvertibleTo::value, ""); static_assert(!absl::strings_internal::SplitterIsConvertibleTo::value, ""); static_assert(absl::strings_internal::SplitterIsConvertibleTo< std::vector>::value, ""); static_assert( !absl::strings_internal::SplitterIsConvertibleTo>::value, ""); static_assert(absl::strings_internal::SplitterIsConvertibleTo< std::vector>::value, ""); static_assert(absl::strings_internal::SplitterIsConvertibleTo< std::map>::value, ""); static_assert(absl::strings_internal::SplitterIsConvertibleTo< std::map>::value, ""); static_assert(!absl::strings_internal::SplitterIsConvertibleTo< std::map>::value, ""); static_assert(!absl::strings_internal::SplitterIsConvertibleTo< std::map>::value, ""); } // This tests the overall split API, which is made up of the absl::StrSplit() // function and the Delimiter objects in the absl:: namespace. // This TEST macro is outside of any namespace to require full specification of // namespaces just like callers will need to use. TEST(Split, APIExamples) { { // Passes std::string delimiter. Assumes the default of Literal. std::vector v = absl::StrSplit("a,b,c", ','); EXPECT_THAT(v, ElementsAre("a", "b", "c")); // Equivalent to... using absl::ByString; v = absl::StrSplit("a,b,c", ByString(",")); EXPECT_THAT(v, ElementsAre("a", "b", "c")); // Equivalent to... EXPECT_THAT(absl::StrSplit("a,b,c", ByString(",")), ElementsAre("a", "b", "c")); } { // Same as above, but using a single character as the delimiter. std::vector v = absl::StrSplit("a,b,c", ','); EXPECT_THAT(v, ElementsAre("a", "b", "c")); // Equivalent to... using absl::ByChar; v = absl::StrSplit("a,b,c", ByChar(',')); EXPECT_THAT(v, ElementsAre("a", "b", "c")); } { // Same as above, but using std::string std::vector v = absl::StrSplit("a,b,c", ','); EXPECT_THAT(v, ElementsAre("a", "b", "c")); // Equivalent to... using absl::ByChar; v = absl::StrSplit("a,b,c", ByChar(',')); EXPECT_THAT(v, ElementsAre("a", "b", "c")); } { // Uses the Literal std::string "=>" as the delimiter. const std::vector v = absl::StrSplit("a=>b=>c", "=>"); EXPECT_THAT(v, ElementsAre("a", "b", "c")); } { // The substrings are returned as string_views, eliminating copying. std::vector v = absl::StrSplit("a,b,c", ','); EXPECT_THAT(v, ElementsAre("a", "b", "c")); } { // Leading and trailing empty substrings. std::vector v = absl::StrSplit(",a,b,c,", ','); EXPECT_THAT(v, ElementsAre("", "a", "b", "c", "")); } { // Splits on a delimiter that is not found. std::vector v = absl::StrSplit("abc", ','); EXPECT_THAT(v, ElementsAre("abc")); } { // Splits the input std::string into individual characters by using an empty // std::string as the delimiter. std::vector v = absl::StrSplit("abc", ""); EXPECT_THAT(v, ElementsAre("a", "b", "c")); } { // Splits std::string data with embedded NUL characters, using NUL as the // delimiter. A simple delimiter of "\0" doesn't work because strlen() will // say that's the empty std::string when constructing the absl::string_view // delimiter. Instead, a non-empty std::string containing NUL can be used as the // delimiter. std::string embedded_nulls("a\0b\0c", 5); std::string null_delim("\0", 1); std::vector v = absl::StrSplit(embedded_nulls, null_delim); EXPECT_THAT(v, ElementsAre("a", "b", "c")); } { // Stores first two split strings as the members in a std::pair. std::pair p = absl::StrSplit("a,b,c", ','); EXPECT_EQ("a", p.first); EXPECT_EQ("b", p.second); // "c" is omitted because std::pair can hold only two elements. } { // Results stored in std::set std::set v = absl::StrSplit("a,b,c,a,b,c,a,b,c", ','); EXPECT_THAT(v, ElementsAre("a", "b", "c")); } { // Uses a non-const char* delimiter. char a[] = ","; char* d = a + 0; std::vector v = absl::StrSplit("a,b,c", d); EXPECT_THAT(v, ElementsAre("a", "b", "c")); } { // Results split using either of , or ; using absl::ByAnyChar; std::vector v = absl::StrSplit("a,b;c", ByAnyChar(",;")); EXPECT_THAT(v, ElementsAre("a", "b", "c")); } { // Uses the SkipWhitespace predicate. using absl::SkipWhitespace; std::vector v = absl::StrSplit(" a , ,,b,", ',', SkipWhitespace()); EXPECT_THAT(v, ElementsAre(" a ", "b")); } { // Uses the ByLength delimiter. using absl::ByLength; std::vector v = absl::StrSplit("abcdefg", ByLength(3)); EXPECT_THAT(v, ElementsAre("abc", "def", "g")); } { // Different forms of initialization / conversion. std::vector v1 = absl::StrSplit("a,b,c", ','); EXPECT_THAT(v1, ElementsAre("a", "b", "c")); std::vector v2(absl::StrSplit("a,b,c", ',')); EXPECT_THAT(v2, ElementsAre("a", "b", "c")); auto v3 = std::vector(absl::StrSplit("a,b,c", ',')); EXPECT_THAT(v3, ElementsAre("a", "b", "c")); v3 = absl::StrSplit("a,b,c", ','); EXPECT_THAT(v3, ElementsAre("a", "b", "c")); } { // Results stored in a std::map. std::map m = absl::StrSplit("a,1,b,2,a,3", ','); EXPECT_EQ(2, m.size()); EXPECT_EQ("3", m["a"]); EXPECT_EQ("2", m["b"]); } { // Results stored in a std::multimap. std::multimap m = absl::StrSplit("a,1,b,2,a,3", ','); EXPECT_EQ(3, m.size()); auto it = m.find("a"); EXPECT_EQ("1", it->second); ++it; EXPECT_EQ("3", it->second); it = m.find("b"); EXPECT_EQ("2", it->second); } { // Demonstrates use in a range-based for loop in C++11. std::string s = "x,x,x,x,x,x,x"; for (absl::string_view sp : absl::StrSplit(s, ',')) { EXPECT_EQ("x", sp); } } { // Demonstrates use with a Predicate in a range-based for loop. using absl::SkipWhitespace; std::string s = " ,x,,x,,x,x,x,,"; for (absl::string_view sp : absl::StrSplit(s, ',', SkipWhitespace())) { EXPECT_EQ("x", sp); } } { // Demonstrates a "smart" split to std::map using two separate calls to // absl::StrSplit. One call to split the records, and another call to split // the keys and values. This also uses the Limit delimiter so that the // std::string "a=b=c" will split to "a" -> "b=c". std::map m; for (absl::string_view sp : absl::StrSplit("a=b=c,d=e,f=,g", ',')) { m.insert(absl::StrSplit(sp, absl::MaxSplits('=', 1))); } EXPECT_EQ("b=c", m.find("a")->second); EXPECT_EQ("e", m.find("d")->second); EXPECT_EQ("", m.find("f")->second); EXPECT_EQ("", m.find("g")->second); } } // // Tests for SplitIterator // TEST(SplitIterator, Basics) { auto splitter = absl::StrSplit("a,b", ','); auto it = splitter.begin(); auto end = splitter.end(); EXPECT_NE(it, end); EXPECT_EQ("a", *it); // tests dereference ++it; // tests preincrement EXPECT_NE(it, end); EXPECT_EQ("b", std::string(it->data(), it->size())); // tests dereference as ptr it++; // tests postincrement EXPECT_EQ(it, end); } // Simple Predicate to skip a particular string. class Skip { public: explicit Skip(const std::string& s) : s_(s) {} bool operator()(absl::string_view sp) { return sp != s_; } private: std::string s_; }; TEST(SplitIterator, Predicate) { auto splitter = absl::StrSplit("a,b,c", ',', Skip("b")); auto it = splitter.begin(); auto end = splitter.end(); EXPECT_NE(it, end); EXPECT_EQ("a", *it); // tests dereference ++it; // tests preincrement -- "b" should be skipped here. EXPECT_NE(it, end); EXPECT_EQ("c", std::string(it->data(), it->size())); // tests dereference as ptr it++; // tests postincrement EXPECT_EQ(it, end); } TEST(SplitIterator, EdgeCases) { // Expected input and output, assuming a delimiter of ',' struct { std::string in; std::vector expect; } specs[] = { {"", {""}}, {"foo", {"foo"}}, {",", {"", ""}}, {",foo", {"", "foo"}}, {"foo,", {"foo", ""}}, {",foo,", {"", "foo", ""}}, {"foo,bar", {"foo", "bar"}}, }; for (const auto& spec : specs) { SCOPED_TRACE(spec.in); auto splitter = absl::StrSplit(spec.in, ','); auto it = splitter.begin(); auto end = splitter.end(); for (const auto& expected : spec.expect) { EXPECT_NE(it, end); EXPECT_EQ(expected, *it++); } EXPECT_EQ(it, end); } } TEST(Splitter, Const) { const auto splitter = absl::StrSplit("a,b,c", ','); EXPECT_THAT(splitter, ElementsAre("a", "b", "c")); } TEST(Split, EmptyAndNull) { // Attention: Splitting a null absl::string_view is different than splitting // an empty absl::string_view even though both string_views are considered // equal. This behavior is likely surprising and undesirable. However, to // maintain backward compatibility, there is a small "hack" in // str_split_internal.h that preserves this behavior. If that behavior is ever // changed/fixed, this test will need to be updated. EXPECT_THAT(absl::StrSplit(absl::string_view(""), '-'), ElementsAre("")); EXPECT_THAT(absl::StrSplit(absl::string_view(), '-'), ElementsAre()); } TEST(SplitIterator, EqualityAsEndCondition) { auto splitter = absl::StrSplit("a,b,c", ','); auto it = splitter.begin(); auto it2 = it; // Increments it2 twice to point to "c" in the input text. ++it2; ++it2; EXPECT_EQ("c", *it2); // This test uses a non-end SplitIterator as the terminating condition in a // for loop. This relies on SplitIterator equality for non-end SplitIterators // working correctly. At this point it2 points to "c", and we use that as the // "end" condition in this test. std::vector v; for (; it != it2; ++it) { v.push_back(*it); } EXPECT_THAT(v, ElementsAre("a", "b")); } // // Tests for Splitter // TEST(Splitter, RangeIterators) { auto splitter = absl::StrSplit("a,b,c", ','); std::vector output; for (const absl::string_view p : splitter) { output.push_back(p); } EXPECT_THAT(output, ElementsAre("a", "b", "c")); } // Some template functions for use in testing conversion operators template void TestConversionOperator(const Splitter& splitter) { ContainerType output = splitter; EXPECT_THAT(output, UnorderedElementsAre("a", "b", "c", "d")); } template void TestMapConversionOperator(const Splitter& splitter) { MapType m = splitter; EXPECT_THAT(m, UnorderedElementsAre(Pair("a", "b"), Pair("c", "d"))); } template void TestPairConversionOperator(const Splitter& splitter) { std::pair p = splitter; EXPECT_EQ(p, (std::pair("a", "b"))); } TEST(Splitter, ConversionOperator) { auto splitter = absl::StrSplit("a,b,c,d", ','); TestConversionOperator>(splitter); TestConversionOperator>(splitter); TestConversionOperator>(splitter); TestConversionOperator>(splitter); TestConversionOperator>(splitter); TestConversionOperator>(splitter); TestConversionOperator>(splitter); TestConversionOperator>(splitter); TestConversionOperator>(splitter); TestConversionOperator>(splitter); TestConversionOperator>(splitter); // Tests conversion to map-like objects. TestMapConversionOperator>( splitter); TestMapConversionOperator>(splitter); TestMapConversionOperator>(splitter); TestMapConversionOperator>(splitter); TestMapConversionOperator< std::multimap>(splitter); TestMapConversionOperator>(splitter); TestMapConversionOperator>(splitter); TestMapConversionOperator>(splitter); TestMapConversionOperator>(splitter); // Tests conversion to std::pair TestPairConversionOperator(splitter); TestPairConversionOperator(splitter); TestPairConversionOperator(splitter); TestPairConversionOperator(splitter); } // A few additional tests for conversion to std::pair. This conversion is // different from others because a std::pair always has exactly two elements: // .first and .second. The split has to work even when the split has // less-than, equal-to, and more-than 2 strings. TEST(Splitter, ToPair) { { // Empty std::string std::pair p = absl::StrSplit("", ','); EXPECT_EQ("", p.first); EXPECT_EQ("", p.second); } { // Only first std::pair p = absl::StrSplit("a", ','); EXPECT_EQ("a", p.first); EXPECT_EQ("", p.second); } { // Only second std::pair p = absl::StrSplit(",b", ','); EXPECT_EQ("", p.first); EXPECT_EQ("b", p.second); } { // First and second. std::pair p = absl::StrSplit("a,b", ','); EXPECT_EQ("a", p.first); EXPECT_EQ("b", p.second); } { // First and second and then more stuff that will be ignored. std::pair p = absl::StrSplit("a,b,c", ','); EXPECT_EQ("a", p.first); EXPECT_EQ("b", p.second); // "c" is omitted. } } TEST(Splitter, Predicates) { static const char kTestChars[] = ",a, ,b,"; using absl::AllowEmpty; using absl::SkipEmpty; using absl::SkipWhitespace; { // No predicate. Does not skip empties. auto splitter = absl::StrSplit(kTestChars, ','); std::vector v = splitter; EXPECT_THAT(v, ElementsAre("", "a", " ", "b", "")); } { // Allows empty strings. Same behavior as no predicate at all. auto splitter = absl::StrSplit(kTestChars, ',', AllowEmpty()); std::vector v_allowempty = splitter; EXPECT_THAT(v_allowempty, ElementsAre("", "a", " ", "b", "")); // Ensures AllowEmpty equals the behavior with no predicate. auto splitter_nopredicate = absl::StrSplit(kTestChars, ','); std::vector v_nopredicate = splitter_nopredicate; EXPECT_EQ(v_allowempty, v_nopredicate); } { // Skips empty strings. auto splitter = absl::StrSplit(kTestChars, ',', SkipEmpty()); std::vector v = splitter; EXPECT_THAT(v, ElementsAre("a", " ", "b")); } { // Skips empty and all-whitespace strings. auto splitter = absl::StrSplit(kTestChars, ',', SkipWhitespace()); std::vector v = splitter; EXPECT_THAT(v, ElementsAre("a", "b")); } } // // Tests for StrSplit() // TEST(Split, Basics) { { // Doesn't really do anything useful because the return value is ignored, // but it should work. absl::StrSplit("a,b,c", ','); } { std::vector v = absl::StrSplit("a,b,c", ','); EXPECT_THAT(v, ElementsAre("a", "b", "c")); } { std::vector v = absl::StrSplit("a,b,c", ','); EXPECT_THAT(v, ElementsAre("a", "b", "c")); } { // Ensures that assignment works. This requires a little extra work with // C++11 because of overloads with initializer_list. std::vector v; v = absl::StrSplit("a,b,c", ','); EXPECT_THAT(v, ElementsAre("a", "b", "c")); std::map m; m = absl::StrSplit("a,b,c", ','); EXPECT_EQ(2, m.size()); std::unordered_map hm; hm = absl::StrSplit("a,b,c", ','); EXPECT_EQ(2, hm.size()); } } absl::string_view ReturnStringView() { return "Hello World"; } const char* ReturnConstCharP() { return "Hello World"; } char* ReturnCharP() { return const_cast("Hello World"); } TEST(Split, AcceptsCertainTemporaries) { std::vector v; v = absl::StrSplit(ReturnStringView(), ' '); EXPECT_THAT(v, ElementsAre("Hello", "World")); v = absl::StrSplit(ReturnConstCharP(), ' '); EXPECT_THAT(v, ElementsAre("Hello", "World")); v = absl::StrSplit(ReturnCharP(), ' '); EXPECT_THAT(v, ElementsAre("Hello", "World")); } TEST(Split, Temporary) { // Use a std::string longer than the small-std::string-optimization length, so that when // the temporary is destroyed, if the splitter keeps a reference to the // std::string's contents, it'll reference freed memory instead of just dead // on-stack memory. const char input[] = "a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,r,s,t,u"; EXPECT_LT(sizeof(std::string), ABSL_ARRAYSIZE(input)) << "Input should be larger than fits on the stack."; // This happens more often in C++11 as part of a range-based for loop. auto splitter = absl::StrSplit(std::string(input), ','); std::string expected = "a"; for (absl::string_view letter : splitter) { EXPECT_EQ(expected, letter); ++expected[0]; } EXPECT_EQ("v", expected); // This happens more often in C++11 as part of a range-based for loop. auto std_splitter = absl::StrSplit(std::string(input), ','); expected = "a"; for (absl::string_view letter : std_splitter) { EXPECT_EQ(expected, letter); ++expected[0]; } EXPECT_EQ("v", expected); } template static std::unique_ptr CopyToHeap(const T& value) { return std::unique_ptr(new T(value)); } TEST(Split, LvalueCaptureIsCopyable) { std::string input = "a,b"; auto heap_splitter = CopyToHeap(absl::StrSplit(input, ',')); auto stack_splitter = *heap_splitter; heap_splitter.reset(); std::vector result = stack_splitter; EXPECT_THAT(result, testing::ElementsAre("a", "b")); } TEST(Split, TemporaryCaptureIsCopyable) { auto heap_splitter = CopyToHeap(absl::StrSplit(std::string("a,b"), ',')); auto stack_splitter = *heap_splitter; heap_splitter.reset(); std::vector result = stack_splitter; EXPECT_THAT(result, testing::ElementsAre("a", "b")); } TEST(Split, SplitterIsCopyableAndMoveable) { auto a = absl::StrSplit("foo", '-'); // Ensures that the following expressions compile. auto b = a; // Copy construct auto c = std::move(a); // Move construct b = c; // Copy assign c = std::move(b); // Move assign EXPECT_THAT(c, ElementsAre("foo")); } TEST(Split, StringDelimiter) { { std::vector v = absl::StrSplit("a,b", ','); EXPECT_THAT(v, ElementsAre("a", "b")); } { std::vector v = absl::StrSplit("a,b", std::string(",")); EXPECT_THAT(v, ElementsAre("a", "b")); } { std::vector v = absl::StrSplit("a,b", absl::string_view(",")); EXPECT_THAT(v, ElementsAre("a", "b")); } } TEST(Split, UTF8) { // Tests splitting utf8 strings and utf8 delimiters. std::string utf8_string = u8"\u03BA\u1F79\u03C3\u03BC\u03B5"; { // A utf8 input std::string with an ascii delimiter. std::string to_split = "a," + utf8_string; std::vector v = absl::StrSplit(to_split, ','); EXPECT_THAT(v, ElementsAre("a", utf8_string)); } { // A utf8 input std::string and a utf8 delimiter. std::string to_split = "a," + utf8_string + ",b"; std::string unicode_delimiter = "," + utf8_string + ","; std::vector v = absl::StrSplit(to_split, unicode_delimiter); EXPECT_THAT(v, ElementsAre("a", "b")); } { // A utf8 input std::string and ByAnyChar with ascii chars. std::vector v = absl::StrSplit(u8"Foo h\u00E4llo th\u4E1Ere", absl::ByAnyChar(" \t")); EXPECT_THAT(v, ElementsAre("Foo", u8"h\u00E4llo", u8"th\u4E1Ere")); } } TEST(Split, EmptyStringDelimiter) { { std::vector v = absl::StrSplit("", ""); EXPECT_THAT(v, ElementsAre("")); } { std::vector v = absl::StrSplit("a", ""); EXPECT_THAT(v, ElementsAre("a")); } { std::vector v = absl::StrSplit("ab", ""); EXPECT_THAT(v, ElementsAre("a", "b")); } { std::vector v = absl::StrSplit("a b", ""); EXPECT_THAT(v, ElementsAre("a", " ", "b")); } } TEST(Split, SubstrDelimiter) { std::vector results; absl::string_view delim("//"); results = absl::StrSplit("", delim); EXPECT_THAT(results, ElementsAre("")); results = absl::StrSplit("//", delim); EXPECT_THAT(results, ElementsAre("", "")); results = absl::StrSplit("ab", delim); EXPECT_THAT(results, ElementsAre("ab")); results = absl::StrSplit("ab//", delim); EXPECT_THAT(results, ElementsAre("ab", "")); results = absl::StrSplit("ab/", delim); EXPECT_THAT(results, ElementsAre("ab/")); results = absl::StrSplit("a/b", delim); EXPECT_THAT(results, ElementsAre("a/b")); results = absl::StrSplit("a//b", delim); EXPECT_THAT(results, ElementsAre("a", "b")); results = absl::StrSplit("a///b", delim); EXPECT_THAT(results, ElementsAre("a", "/b")); results = absl::StrSplit("a////b", delim); EXPECT_THAT(results, ElementsAre("a", "", "b")); } TEST(Split, EmptyResults) { std::vector results; results = absl::StrSplit("", '#'); EXPECT_THAT(results, ElementsAre("")); results = absl::StrSplit("#", '#'); EXPECT_THAT(results, ElementsAre("", "")); results = absl::StrSplit("#cd", '#'); EXPECT_THAT(results, ElementsAre("", "cd")); results = absl::StrSplit("ab#cd#", '#'); EXPECT_THAT(results, ElementsAre("ab", "cd", "")); results = absl::StrSplit("ab##cd", '#'); EXPECT_THAT(results, ElementsAre("ab", "", "cd")); results = absl::StrSplit("ab##", '#'); EXPECT_THAT(results, ElementsAre("ab", "", "")); results = absl::StrSplit("ab#ab#", '#'); EXPECT_THAT(results, ElementsAre("ab", "ab", "")); results = absl::StrSplit("aaaa", 'a'); EXPECT_THAT(results, ElementsAre("", "", "", "", "")); results = absl::StrSplit("", '#', absl::SkipEmpty()); EXPECT_THAT(results, ElementsAre()); } template static bool IsFoundAtStartingPos(absl::string_view text, Delimiter d, size_t starting_pos, int expected_pos) { absl::string_view found = d.Find(text, starting_pos); return found.data() != text.data() + text.size() && expected_pos == found.data() - text.data(); } // Helper function for testing Delimiter objects. Returns true if the given // Delimiter is found in the given string at the given position. This function // tests two cases: // 1. The actual text given, staring at position 0 // 2. The text given with leading padding that should be ignored template static bool IsFoundAt(absl::string_view text, Delimiter d, int expected_pos) { const std::string leading_text = ",x,y,z,"; return IsFoundAtStartingPos(text, d, 0, expected_pos) && IsFoundAtStartingPos(leading_text + std::string(text), d, leading_text.length(), expected_pos + leading_text.length()); } // // Tests for Literal // // Tests using any delimiter that represents a single comma. template void TestComma(Delimiter d) { EXPECT_TRUE(IsFoundAt(",", d, 0)); EXPECT_TRUE(IsFoundAt("a,", d, 1)); EXPECT_TRUE(IsFoundAt(",b", d, 0)); EXPECT_TRUE(IsFoundAt("a,b", d, 1)); EXPECT_TRUE(IsFoundAt("a,b,", d, 1)); EXPECT_TRUE(IsFoundAt("a,b,c", d, 1)); EXPECT_FALSE(IsFoundAt("", d, -1)); EXPECT_FALSE(IsFoundAt(" ", d, -1)); EXPECT_FALSE(IsFoundAt("a", d, -1)); EXPECT_FALSE(IsFoundAt("a b c", d, -1)); EXPECT_FALSE(IsFoundAt("a;b;c", d, -1)); EXPECT_FALSE(IsFoundAt(";", d, -1)); } TEST(Delimiter, Literal) { using absl::ByString; TestComma(ByString(",")); // Works as named variable. ByString comma_string(","); TestComma(comma_string); // The first occurrence of empty std::string ("") in a std::string is at position 0. // There is a test below that demonstrates this for absl::string_view::find(). // If the ByString delimiter returned position 0 for this, there would // be an infinite loop in the SplitIterator code. To avoid this, empty std::string // is a special case in that it always returns the item at position 1. absl::string_view abc("abc"); EXPECT_EQ(0, abc.find("")); // "" is found at position 0 ByString empty(""); EXPECT_FALSE(IsFoundAt("", empty, 0)); EXPECT_FALSE(IsFoundAt("a", empty, 0)); EXPECT_TRUE(IsFoundAt("ab", empty, 1)); EXPECT_TRUE(IsFoundAt("abc", empty, 1)); } TEST(Split, ByChar) { using absl::ByChar; TestComma(ByChar(',')); // Works as named variable. ByChar comma_char(','); TestComma(comma_char); } // // Tests for ByAnyChar // TEST(Delimiter, ByAnyChar) { using absl::ByAnyChar; ByAnyChar one_delim(","); // Found EXPECT_TRUE(IsFoundAt(",", one_delim, 0)); EXPECT_TRUE(IsFoundAt("a,", one_delim, 1)); EXPECT_TRUE(IsFoundAt("a,b", one_delim, 1)); EXPECT_TRUE(IsFoundAt(",b", one_delim, 0)); // Not found EXPECT_FALSE(IsFoundAt("", one_delim, -1)); EXPECT_FALSE(IsFoundAt(" ", one_delim, -1)); EXPECT_FALSE(IsFoundAt("a", one_delim, -1)); EXPECT_FALSE(IsFoundAt("a;b;c", one_delim, -1)); EXPECT_FALSE(IsFoundAt(";", one_delim, -1)); ByAnyChar two_delims(",;"); // Found EXPECT_TRUE(IsFoundAt(",", two_delims, 0)); EXPECT_TRUE(IsFoundAt(";", two_delims, 0)); EXPECT_TRUE(IsFoundAt(",;", two_delims, 0)); EXPECT_TRUE(IsFoundAt(";,", two_delims, 0)); EXPECT_TRUE(IsFoundAt(",;b", two_delims, 0)); EXPECT_TRUE(IsFoundAt(";,b", two_delims, 0)); EXPECT_TRUE(IsFoundAt("a;,", two_delims, 1)); EXPECT_TRUE(IsFoundAt("a,;", two_delims, 1)); EXPECT_TRUE(IsFoundAt("a;,b", two_delims, 1)); EXPECT_TRUE(IsFoundAt("a,;b", two_delims, 1)); // Not found EXPECT_FALSE(IsFoundAt("", two_delims, -1)); EXPECT_FALSE(IsFoundAt(" ", two_delims, -1)); EXPECT_FALSE(IsFoundAt("a", two_delims, -1)); EXPECT_FALSE(IsFoundAt("a=b=c", two_delims, -1)); EXPECT_FALSE(IsFoundAt("=", two_delims, -1)); // ByAnyChar behaves just like ByString when given a delimiter of empty // std::string. That is, it always returns a zero-length absl::string_view // referring to the item at position 1, not position 0. ByAnyChar empty(""); EXPECT_FALSE(IsFoundAt("", empty, 0)); EXPECT_FALSE(IsFoundAt("a", empty, 0)); EXPECT_TRUE(IsFoundAt("ab", empty, 1)); EXPECT_TRUE(IsFoundAt("abc", empty, 1)); } // // Tests for ByLength // TEST(Delimiter, ByLength) { using absl::ByLength; ByLength four_char_delim(4); // Found EXPECT_TRUE(IsFoundAt("abcde", four_char_delim, 4)); EXPECT_TRUE(IsFoundAt("abcdefghijklmnopqrstuvwxyz", four_char_delim, 4)); EXPECT_TRUE(IsFoundAt("a b,c\nd", four_char_delim, 4)); // Not found EXPECT_FALSE(IsFoundAt("", four_char_delim, 0)); EXPECT_FALSE(IsFoundAt("a", four_char_delim, 0)); EXPECT_FALSE(IsFoundAt("ab", four_char_delim, 0)); EXPECT_FALSE(IsFoundAt("abc", four_char_delim, 0)); EXPECT_FALSE(IsFoundAt("abcd", four_char_delim, 0)); } TEST(Split, WorksWithLargeStrings) { if (sizeof(size_t) > 4) { std::string s((uint32_t{1} << 31) + 1, 'x'); // 2G + 1 byte s.back() = '-'; std::vector v = absl::StrSplit(s, '-'); EXPECT_EQ(2, v.size()); // The first element will contain 2G of 'x's. // testing::StartsWith is too slow with a 2G std::string. EXPECT_EQ('x', v[0][0]); EXPECT_EQ('x', v[0][1]); EXPECT_EQ('x', v[0][3]); EXPECT_EQ("", v[1]); } } TEST(SplitInternalTest, TypeTraits) { EXPECT_FALSE(absl::strings_internal::HasMappedType::value); EXPECT_TRUE( (absl::strings_internal::HasMappedType>::value)); EXPECT_FALSE(absl::strings_internal::HasValueType::value); EXPECT_TRUE( (absl::strings_internal::HasValueType>::value)); EXPECT_FALSE(absl::strings_internal::HasConstIterator::value); EXPECT_TRUE( (absl::strings_internal::HasConstIterator>::value)); EXPECT_FALSE(absl::strings_internal::IsInitializerList::value); EXPECT_TRUE((absl::strings_internal::IsInitializerList< std::initializer_list>::value)); } } // namespace