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- #include "split.h"
- #include <library/cpp/testing/unittest/registar.h>
- #include <util/stream/output.h>
- #include <util/charset/wide.h>
- #include <util/datetime/cputimer.h>
- #include <util/generic/maybe.h>
- #include <string>
- #include <string_view>
- template <typename T>
- static inline void OldSplit(char* pszBuf, T* pRes) {
- pRes->resize(0);
- pRes->push_back(pszBuf);
- for (char* pszData = pszBuf; *pszData; ++pszData) {
- if (*pszData == '\t') {
- *pszData = 0;
- pRes->push_back(pszData + 1);
- }
- }
- }
- template <class T1, class T2>
- inline void Cmp(const T1& t1, const T2& t2) {
- try {
- UNIT_ASSERT_EQUAL(t1.size(), t2.size());
- } catch (...) {
- Print(t1);
- Cerr << "---------------" << Endl;
- Print(t2);
- throw;
- }
- auto i = t1.begin();
- auto j = t2.begin();
- for (; i != t1.end() && j != t2.end(); ++i, ++j) {
- try {
- UNIT_ASSERT_EQUAL(*i, *j);
- } catch (...) {
- Cerr << "(" << *i << ")->(" << *j << ")" << Endl;
- throw;
- }
- }
- }
- template <class T>
- inline void Print(const T& t) {
- for (typename T::const_iterator i = t.begin(); i != t.end(); ++i) {
- Cerr << *i << Endl;
- }
- }
- template <template <typename> class TConsumer, typename TResult, typename I, typename TDelimiter>
- void TestDelimiterOnString(TResult& good, I* str, const TDelimiter& delim) {
- TResult test;
- TConsumer<TResult> consumer(&test);
- SplitString(str, delim, consumer);
- Cmp(good, test);
- UNIT_ASSERT_EQUAL(good, test);
- }
- template <template <typename> class TConsumer, typename TResult, typename I, typename TDelimiter>
- void TestDelimiterOnRange(TResult& good, I* b, I* e, const TDelimiter& delim) {
- TResult test;
- TConsumer<TResult> consumer(&test);
- SplitString(b, e, delim, consumer);
- Cmp(good, test);
- UNIT_ASSERT_EQUAL(good, test);
- }
- template <typename TConsumer, typename TResult, typename I>
- void TestConsumerOnString(TResult& good, I* str, I* d) {
- TResult test;
- TContainerConsumer<TResult> consumer(&test);
- TConsumer tested(&consumer);
- TCharDelimiter<const I> delim(*d);
- SplitString(str, delim, tested);
- Cmp(good, test);
- UNIT_ASSERT_EQUAL(good, test);
- }
- template <typename TConsumer, typename TResult, typename I>
- void TestConsumerOnRange(TResult& good, I* b, I* e, I* d) {
- TResult test;
- TContainerConsumer<TResult> consumer(&test);
- TConsumer tested(&consumer);
- TCharDelimiter<const I> delim(*d);
- SplitString(b, e, delim, tested);
- Cmp(good, test);
- UNIT_ASSERT_EQUAL(good, test);
- }
- using TStrokaConsumer = TContainerConsumer<TVector<TString>>;
- void TestLimitingConsumerOnString(TVector<TString>& good, const char* str, const char* d, size_t n, const char* last) {
- TVector<TString> test;
- TStrokaConsumer consumer(&test);
- TLimitingConsumer<TStrokaConsumer, const char> limits(n, &consumer);
- TCharDelimiter<const char> delim(*d);
- SplitString(str, delim, limits);
- Cmp(good, test);
- UNIT_ASSERT_EQUAL(good, test);
- UNIT_ASSERT_EQUAL(TString(limits.Last), TString(last)); // Quite unobvious behaviour. Why the last token is not added to slave consumer?
- }
- void TestLimitingConsumerOnRange(TVector<TString>& good, const char* b, const char* e, const char* d, size_t n, const char* last) {
- TVector<TString> test;
- TStrokaConsumer consumer(&test);
- TLimitingConsumer<TStrokaConsumer, const char> limits(n, &consumer);
- TCharDelimiter<const char> delim(*d);
- SplitString(b, e, delim, limits);
- Cmp(good, test);
- UNIT_ASSERT_EQUAL(good, test);
- UNIT_ASSERT_EQUAL(TString(limits.Last), TString(last));
- }
- Y_UNIT_TEST_SUITE(SplitStringTest) {
- Y_UNIT_TEST(TestCharSingleDelimiter) {
- TString data("qw ab qwabcab");
- TString canonic[] = {"qw", "ab", "", "qwabcab"};
- TVector<TString> good(canonic, canonic + 4);
- TCharDelimiter<const char> delim(' ');
- TestDelimiterOnString<TContainerConsumer>(good, data.data(), delim);
- TestDelimiterOnRange<TContainerConsumer>(good, data.data(), data.end(), delim);
- }
- Y_UNIT_TEST(TestWideSingleDelimiter) {
- TUtf16String data(u"qw ab qwabcab");
- TUtf16String canonic[] = {u"qw", u"ab", TUtf16String(), u"qwabcab"};
- TVector<TUtf16String> good(canonic, canonic + 4);
- TCharDelimiter<const wchar16> delim(' ');
- TestDelimiterOnString<TContainerConsumer>(good, data.data(), delim);
- TestDelimiterOnRange<TContainerConsumer>(good, data.data(), data.end(), delim);
- }
- Y_UNIT_TEST(TestConvertToIntCharSingleDelimiter) {
- TString data("42 4242 -12345 0");
- i32 canonic[] = {42, 4242, -12345, 0};
- TVector<i32> good(canonic, canonic + 4);
- TCharDelimiter<const char> delim(' ');
- TestDelimiterOnString<TContainerConvertingConsumer>(good, data.data(), delim);
- TestDelimiterOnRange<TContainerConvertingConsumer>(good, data.data(), data.end(), delim);
- }
- Y_UNIT_TEST(TestCharSkipEmpty) {
- TString data("qw ab qwabcab ");
- TString canonic[] = {"qw", "ab", "qwabcab"};
- TVector<TString> good(canonic, canonic + 3);
- TestConsumerOnString<TSkipEmptyTokens<TStrokaConsumer>>(good, data.data(), " ");
- TestConsumerOnRange<TSkipEmptyTokens<TStrokaConsumer>>(good, data.data(), data.end(), " ");
- }
- Y_UNIT_TEST(TestCharKeepDelimiters) {
- TString data("qw ab qwabcab ");
- TString canonic[] = {"qw", " ", "ab", " ", "", " ", "qwabcab", " ", ""};
- TVector<TString> good(canonic, canonic + 9);
- TestConsumerOnString<TKeepDelimiters<TStrokaConsumer>>(good, data.data(), " ");
- TestConsumerOnRange<TKeepDelimiters<TStrokaConsumer>>(good, data.data(), data.end(), " ");
- }
- Y_UNIT_TEST(TestCharLimit) {
- TString data("qw ab qwabcab ");
- TString canonic[] = {"qw", "ab"};
- TVector<TString> good(canonic, canonic + 2);
- TestLimitingConsumerOnString(good, data.data(), " ", 3, " qwabcab ");
- TestLimitingConsumerOnRange(good, data.data(), data.end(), " ", 3, " qwabcab ");
- }
- Y_UNIT_TEST(TestCharStringDelimiter) {
- TString data("qw ab qwababcab");
- TString canonic[] = {"qw ", " qw", "", "c", ""};
- TVector<TString> good(canonic, canonic + 5);
- TStringDelimiter<const char> delim("ab");
- TestDelimiterOnString<TContainerConsumer>(good, data.data(), delim);
- TestDelimiterOnRange<TContainerConsumer>(good, data.data(), data.end(), delim);
- }
- Y_UNIT_TEST(TestWideStringDelimiter) {
- TUtf16String data(u"qw ab qwababcab");
- TUtf16String canonic[] = {u"qw ", u" qw", TUtf16String(), u"c", TUtf16String()};
- TVector<TUtf16String> good(canonic, canonic + 5);
- TUtf16String wideDelim(u"ab");
- TStringDelimiter<const wchar16> delim(wideDelim.data());
- TestDelimiterOnString<TContainerConsumer>(good, data.data(), delim);
- TestDelimiterOnRange<TContainerConsumer>(good, data.data(), data.end(), delim);
- }
- Y_UNIT_TEST(TestCharSetDelimiter) {
- TString data("qw ab qwababccab");
- TString canonic[] = {"q", " ab q", "abab", "", "ab"};
- TVector<TString> good(canonic, canonic + 5);
- TSetDelimiter<const char> delim("wc");
- TestDelimiterOnString<TContainerConsumer>(good, data.data(), delim);
- TestDelimiterOnRange<TContainerConsumer>(good, data.data(), data.end(), delim);
- }
- Y_UNIT_TEST(TestWideSetDelimiter) {
- TUtf16String data(u"qw ab qwababccab");
- TUtf16String canonic[] = {u"q", u" ab q", u"abab", TUtf16String(), u"ab"};
- TVector<TUtf16String> good(canonic, canonic + 5);
- TUtf16String wideDelim(u"wc");
- TSetDelimiter<const wchar16> delim(wideDelim.data());
- TestDelimiterOnString<TContainerConsumer>(good, data.data(), delim);
- }
- Y_UNIT_TEST(TestWideSetDelimiterRange) {
- TUtf16String data(u"qw ab qwababccab");
- TUtf16String canonic[] = {u"q", u" ab q", u"abab", TUtf16String(), u"ab"};
- TVector<TUtf16String> good(1);
- TUtf16String wideDelim(u"wc");
- TSetDelimiter<const wchar16> delim(wideDelim.data());
- TVector<TUtf16String> test;
- TContainerConsumer<TVector<TUtf16String>> consumer(&test);
- SplitString(data.data(), data.data(), delim, consumer); // Empty string is still inserted into consumer
- Cmp(good, test);
- good.assign(canonic, canonic + 4);
- good.push_back(TUtf16String());
- test.clear();
- SplitString(data.data(), data.end() - 2, delim, consumer);
- Cmp(good, test);
- }
- Y_UNIT_TEST(TestSplit) {
- TString data("qw ab qwababcba");
- TString canonic[] = {"qw ", " qw", "c"};
- TVector<TString> good(canonic, canonic + 3);
- TString delim = "ab";
- TVector<TString> test;
- Split(data, delim, test);
- Cmp(good, test);
- TVector<TStringBuf> test1;
- Split(data, delim.data(), test1);
- Cmp(good, test1);
- }
- Y_UNIT_TEST(ConvenientSplitTest) {
- TString data("abc 22 33.5 xyz");
- TString str;
- int num1 = 0;
- double num2 = 0;
- TStringBuf strBuf;
- Split(data, ' ', str, num1, num2, strBuf);
- UNIT_ASSERT_VALUES_EQUAL(str, "abc");
- UNIT_ASSERT_VALUES_EQUAL(num1, 22);
- UNIT_ASSERT_VALUES_EQUAL(num2, 33.5);
- UNIT_ASSERT_VALUES_EQUAL(strBuf, "xyz");
- }
- Y_UNIT_TEST(ConvenientSplitTestWithMaybe) {
- TString data("abc 42");
- TString str;
- TMaybe<double> num2 = 1;
- TMaybe<double> maybe = 1;
- Split(data, ' ', str, num2, maybe);
- UNIT_ASSERT_VALUES_EQUAL(str, "abc");
- UNIT_ASSERT_VALUES_EQUAL(*num2, 42);
- UNIT_ASSERT(!maybe);
- }
- Y_UNIT_TEST(ConvenientSplitTestExceptions) {
- TString data("abc 22 33");
- TString s1, s2, s3, s4;
- UNIT_ASSERT_EXCEPTION(Split(data, ' ', s1, s2), yexception);
- UNIT_ASSERT_NO_EXCEPTION(Split(data, ' ', s1, s2, s3));
- UNIT_ASSERT_EXCEPTION(Split(data, ' ', s1, s2, s3, s4), yexception);
- }
- Y_UNIT_TEST(ConvenientSplitTestMaybeExceptions) {
- TString data("abc 22 33");
- TString s1, s2;
- TMaybe<TString> m1, m2;
- UNIT_ASSERT_EXCEPTION(Split(data, ' ', s1, m1), yexception);
- UNIT_ASSERT_EXCEPTION(Split(data, ' ', m1, m2), yexception);
- UNIT_ASSERT_NO_EXCEPTION(Split(data, ' ', s1, s2, m1));
- UNIT_ASSERT_NO_EXCEPTION(Split(data, ' ', s1, s2, m1, m2));
- UNIT_ASSERT_EXCEPTION(Split(data, ' ', m1, m2, s1, s2), yexception);
- UNIT_ASSERT_NO_EXCEPTION(Split(data, ' ', s1, s2, m1, m2, m1, m1, m1, m1));
- UNIT_ASSERT_EXCEPTION(Split(data, ' ', s1, s2, m1, m2, m1, m1, m1, m1, s1), yexception);
- }
- } // Y_UNIT_TEST_SUITE(SplitStringTest)
- template <typename I, typename C>
- void TestStringSplitterCount(I* str, C delim, size_t good) {
- auto split = StringSplitter(str).Split(delim);
- size_t res = split.Count();
- UNIT_ASSERT_VALUES_EQUAL(res, good);
- res = split.Count();
- UNIT_ASSERT_VALUES_EQUAL(res, 0);
- }
- Y_UNIT_TEST_SUITE(StringSplitter) {
- Y_UNIT_TEST(TestSplit) {
- int sum = 0;
- for (const auto& it : StringSplitter("1,2,3").Split(',')) {
- sum += FromString<int>(it.Token());
- }
- UNIT_ASSERT_VALUES_EQUAL(sum, 6);
- }
- Y_UNIT_TEST(TestSplit1) {
- int cnt = 0;
- for (const auto& it : StringSplitter(" ").Split(' ')) {
- (void)it;
- ++cnt;
- }
- UNIT_ASSERT_VALUES_EQUAL(cnt, 2);
- }
- Y_UNIT_TEST(TestSplitLimited) {
- TVector<TString> expected = {"1", "2", "3,4,5"};
- TVector<TString> actual = StringSplitter("1,2,3,4,5").Split(',').Limit(3).ToList<TString>();
- UNIT_ASSERT_VALUES_EQUAL(expected, actual);
- }
- Y_UNIT_TEST(TestSplitLimitedWithEmptySkip) {
- TVector<TString> expected = {"1", "2", "3,4,5"};
- TVector<TString> actual = StringSplitter("1,,,2,,,,3,4,5").Split(',').SkipEmpty().Limit(3).ToList<TString>();
- UNIT_ASSERT_VALUES_EQUAL(expected, actual);
- expected = {"1", "2", ",,,3,4,5"};
- actual = StringSplitter("1,2,,,,3,4,5").Split(',').Limit(3).SkipEmpty().ToList<TString>();
- UNIT_ASSERT_VALUES_EQUAL(expected, actual);
- }
- Y_UNIT_TEST(TestSplitBySet) {
- int sum = 0;
- for (const auto& it : StringSplitter("1,2:3").SplitBySet(",:")) {
- sum += FromString<int>(it.Token());
- }
- UNIT_ASSERT_VALUES_EQUAL(sum, 6);
- }
- Y_UNIT_TEST(TestSplitBySetLimited) {
- TVector<TString> expected = {"1", "2", "3,4:5"};
- TVector<TString> actual = StringSplitter("1,2:3,4:5").SplitBySet(",:").Limit(3).ToList<TString>();
- UNIT_ASSERT_VALUES_EQUAL(expected, actual);
- }
- Y_UNIT_TEST(TestSplitBySetLimitedWithEmptySkip) {
- TVector<TString> expected = {"1", "2", "3,4:5"};
- TVector<TString> actual = StringSplitter("1,:,2::::,3,4:5").SplitBySet(",:").SkipEmpty().Limit(3).ToList<TString>();
- UNIT_ASSERT_VALUES_EQUAL(expected, actual);
- expected = {"1", ",2::::,3,4:5"};
- actual = StringSplitter("1,:,2::::,3,4:5").SplitBySet(",:").Limit(3).SkipEmpty().ToList<TString>();
- UNIT_ASSERT_VALUES_EQUAL(expected, actual);
- }
- Y_UNIT_TEST(TestSplitByString) {
- int sum = 0;
- for (const auto& it : StringSplitter("1ab2ab3").SplitByString("ab")) {
- sum += FromString<int>(it.Token());
- }
- UNIT_ASSERT_VALUES_EQUAL(sum, 6);
- }
- Y_UNIT_TEST(TestSplitByStringLimited) {
- TVector<TString> expected = {"1", "2", "3ab4ab5"};
- TVector<TString> actual = StringSplitter("1ab2ab3ab4ab5").SplitByString("ab").Limit(3).ToList<TString>();
- UNIT_ASSERT_VALUES_EQUAL(expected, actual);
- }
- Y_UNIT_TEST(TestSplitByStringLimitedWithEmptySkip) {
- TVector<TString> expected = {"1", "2", "3ab4ab5"};
- TVector<TString> actual = StringSplitter("1abab2ababababab3ab4ab5").SplitByString("ab").SkipEmpty().Limit(3).ToList<TString>();
- UNIT_ASSERT_VALUES_EQUAL(expected, actual);
- }
- Y_UNIT_TEST(TestSplitByFunc) {
- TString s = "123 456 \t\n789\n10\t 20";
- TVector<TString> pattern = {"123", "456", "789", "10", "20"};
- TVector<TString> tokens;
- auto f = [](char a) { return a == ' ' || a == '\t' || a == '\n'; };
- for (auto v : StringSplitter(s).SplitByFunc(f)) {
- if (v) {
- tokens.emplace_back(v);
- }
- }
- UNIT_ASSERT(tokens == pattern);
- }
- Y_UNIT_TEST(TestSplitByFuncLimited) {
- TVector<TString> expected = {"1", "2", "3a4b5"};
- auto f = [](char a) { return a == 'a' || a == 'b'; };
- TVector<TString> actual = StringSplitter("1a2b3a4b5").SplitByFunc(f).Limit(3).ToList<TString>();
- UNIT_ASSERT_VALUES_EQUAL(expected, actual);
- }
- Y_UNIT_TEST(TestSplitByFuncLimitedWithEmptySkip) {
- TVector<TString> expected = {"1", "2", "3a4b5"};
- auto f = [](char a) { return a == 'a' || a == 'b'; };
- TVector<TString> actual = StringSplitter("1aaba2bbababa3a4b5").SplitByFunc(f).SkipEmpty().Limit(3).Take(3).ToList<TString>();
- UNIT_ASSERT_VALUES_EQUAL(expected, actual);
- }
- Y_UNIT_TEST(TestSkipEmpty) {
- int sum = 0;
- for (const auto& it : StringSplitter(" 1 2 3 ").Split(' ').SkipEmpty()) {
- sum += FromString<int>(it.Token());
- }
- UNIT_ASSERT_VALUES_EQUAL(sum, 6);
- // double
- sum = 0;
- for (const auto& it : StringSplitter(" 1 2 3 ").Split(' ').SkipEmpty().SkipEmpty()) {
- sum += FromString<int>(it.Token());
- }
- UNIT_ASSERT_VALUES_EQUAL(sum, 6);
- }
- Y_UNIT_TEST(TestTake) {
- TVector<TString> expected = {"1", "2", "3"};
- UNIT_ASSERT_VALUES_EQUAL(expected, StringSplitter("1 2 3 4 5 6 7 8 9 10").Split(' ').Take(3).ToList<TString>());
- expected = {"1", "2"};
- UNIT_ASSERT_VALUES_EQUAL(expected, StringSplitter(" 1 2 3 ").Split(' ').SkipEmpty().Take(2).ToList<TString>());
- expected = {"1", "2", "3"};
- UNIT_ASSERT_VALUES_EQUAL(expected, StringSplitter("1 2 3 4 5 6 7 8 9 10").Split(' ').Take(5).Take(3).ToList<TString>());
- UNIT_ASSERT_VALUES_EQUAL(expected, StringSplitter("1 2 3 4 5 6 7 8 9 10").Split(' ').Take(3).Take(5).ToList<TString>());
- expected = {"1", "2"};
- UNIT_ASSERT_VALUES_EQUAL(expected, StringSplitter(" 1 2 3 ").Split(' ').Take(4).SkipEmpty().ToList<TString>());
- expected = {"1"};
- UNIT_ASSERT_VALUES_EQUAL(expected, StringSplitter(" 1 2 3 ").Split(' ').Take(4).SkipEmpty().Take(1).ToList<TString>());
- }
- Y_UNIT_TEST(TestCompile) {
- (void)StringSplitter(TString());
- (void)StringSplitter(TStringBuf());
- (void)StringSplitter("", 0);
- }
- Y_UNIT_TEST(TestStringSplitterCountEmpty) {
- TCharDelimiter<const char> delim(' ');
- TestStringSplitterCount("", delim, 1);
- }
- Y_UNIT_TEST(TestStringSplitterCountOne) {
- TCharDelimiter<const char> delim(' ');
- TestStringSplitterCount("one", delim, 1);
- }
- Y_UNIT_TEST(TestStringSplitterCountWithOneDelimiter) {
- TCharDelimiter<const char> delim(' ');
- TestStringSplitterCount("one two", delim, 2);
- }
- Y_UNIT_TEST(TestStringSplitterCountWithTrailing) {
- TCharDelimiter<const char> delim(' ');
- TestStringSplitterCount(" one ", delim, 3);
- }
- Y_UNIT_TEST(TestStringSplitterConsume) {
- TVector<TString> expected = {"1", "2", "3"};
- TVector<TString> actual;
- auto func = [&actual](const TBasicStringBuf<char>& token) {
- actual.push_back(TString(token));
- };
- StringSplitter("1 2 3").Split(' ').Consume(func);
- UNIT_ASSERT_VALUES_EQUAL(expected, actual);
- }
- Y_UNIT_TEST(TestStringSplitterConsumeConditional) {
- TVector<TString> expected = {"1", "2"};
- TVector<TString> actual;
- auto func = [&actual](const TBasicStringBuf<char>& token) {
- if (token == "3") {
- return false;
- }
- actual.push_back(TString(token));
- return true;
- };
- bool completed = StringSplitter("1 2 3 4 5").Split(' ').Consume(func);
- UNIT_ASSERT(!completed);
- UNIT_ASSERT_VALUES_EQUAL(expected, actual);
- }
- Y_UNIT_TEST(TestStringSplitterToList) {
- TVector<TString> expected = {"1", "2", "3"};
- TVector<TString> actual = StringSplitter("1 2 3").Split(' ').ToList<TString>();
- UNIT_ASSERT_VALUES_EQUAL(expected, actual);
- }
- Y_UNIT_TEST(TestStringSplitterCollectPushBack) {
- TVector<TString> expected = {"1", "2", "3"};
- TVector<TString> actual;
- StringSplitter("1 2 3").Split(' ').Collect(&actual);
- UNIT_ASSERT_VALUES_EQUAL(expected, actual);
- }
- Y_UNIT_TEST(TestStringSplitterCollectInsert) {
- TSet<TString> expected = {"1", "2", "3"};
- TSet<TString> actual;
- StringSplitter("1 2 3 1 2 3").Split(' ').Collect(&actual);
- UNIT_ASSERT_VALUES_EQUAL(expected, actual);
- }
- Y_UNIT_TEST(TestStringSplitterCollectClears) {
- TVector<TString> v;
- StringSplitter("1 2 3").Split(' ').Collect(&v);
- UNIT_ASSERT_VALUES_EQUAL(v.size(), 3);
- StringSplitter("4 5").Split(' ').Collect(&v);
- UNIT_ASSERT_VALUES_EQUAL(v.size(), 2);
- }
- Y_UNIT_TEST(TestStringSplitterAddToDoesntClear) {
- TVector<TString> v;
- StringSplitter("1 2 3").Split(' ').AddTo(&v);
- UNIT_ASSERT_VALUES_EQUAL(v.size(), 3);
- StringSplitter("4 5").Split(' ').AddTo(&v);
- UNIT_ASSERT_VALUES_EQUAL(v.size(), 5);
- }
- Y_UNIT_TEST(TestSplitStringInto) {
- int a = -1;
- TStringBuf s;
- double d = -1;
- StringSplitter("2 substr 1.02").Split(' ').CollectInto(&a, &s, &d);
- UNIT_ASSERT_VALUES_EQUAL(a, 2);
- UNIT_ASSERT_VALUES_EQUAL(s, "substr");
- UNIT_ASSERT_DOUBLES_EQUAL(d, 1.02, 0.0001);
- UNIT_ASSERT_EXCEPTION(StringSplitter("1").Split(' ').CollectInto(&a, &a), yexception);
- UNIT_ASSERT_EXCEPTION(StringSplitter("1 2 3").Split(' ').CollectInto(&a, &a), yexception);
- }
- Y_UNIT_TEST(TestSplitStringWithIgnore) {
- TStringBuf s;
- StringSplitter("x y z").Split(' ').CollectInto(&std::ignore, &s, &std::ignore);
- UNIT_ASSERT_VALUES_EQUAL(s, "y");
- UNIT_ASSERT_EXCEPTION(StringSplitter("ignored != non-requred").Split(':').CollectInto(&s, &std::ignore), yexception);
- }
- Y_UNIT_TEST(TestTryCollectInto) {
- int a, b, c;
- bool parsingSucceeded;
- parsingSucceeded = StringSplitter("100,500,3").Split(',').TryCollectInto(&a, &b, &c);
- UNIT_ASSERT(parsingSucceeded);
- UNIT_ASSERT_VALUES_EQUAL(a, 100);
- UNIT_ASSERT_VALUES_EQUAL(b, 500);
- UNIT_ASSERT_VALUES_EQUAL(c, 3);
- // not enough tokens
- parsingSucceeded = StringSplitter("3,14").Split(',').TryCollectInto(&a, &b, &c);
- UNIT_ASSERT(!parsingSucceeded);
- // too many tokens
- parsingSucceeded = StringSplitter("3,14,15,92,6").Split(',').TryCollectInto(&a, &b, &c);
- UNIT_ASSERT(!parsingSucceeded);
- // where single TryFromString fails
- parsingSucceeded = StringSplitter("ot topota kopyt pyl po polu letit").Split(' ').TryCollectInto(&a, &b, &c);
- UNIT_ASSERT(!parsingSucceeded);
- }
- Y_UNIT_TEST(TestOwningSplit1) {
- int sum = 0;
- for (const auto& it : StringSplitter(TString("1,2,3")).Split(',')) {
- sum += FromString<int>(it.Token());
- }
- UNIT_ASSERT_VALUES_EQUAL(sum, 6);
- }
- Y_UNIT_TEST(TestOwningSplit2) {
- int sum = 0;
- TString str("1,2,3");
- for (const auto& it : StringSplitter(str).Split(',')) {
- sum += FromString<int>(it.Token());
- }
- UNIT_ASSERT_VALUES_EQUAL(sum, 6);
- }
- Y_UNIT_TEST(TestOwningSplit3) {
- int sum = 0;
- const TString str("1,2,3");
- for (const auto& it : StringSplitter(str).Split(',')) {
- sum += FromString<int>(it.Token());
- }
- UNIT_ASSERT_VALUES_EQUAL(sum, 6);
- }
- Y_UNIT_TEST(TestAssigment) {
- TVector<TString> expected0 = {"1", "2", "3", "4"};
- TVector<TString> actual0 = StringSplitter("1 2 3 4").Split(' ');
- UNIT_ASSERT_VALUES_EQUAL(expected0, actual0);
- TSet<TString> expected1 = {"11", "22", "33", "44"};
- TSet<TString> actual1 = StringSplitter("11 22 33 44").Split(' ');
- UNIT_ASSERT_VALUES_EQUAL(expected1, actual1);
- TSet<TString> expected2 = {"11", "aa"};
- auto actual2 = static_cast<TSet<TString>>(StringSplitter("11 aa 11 11 aa").Split(' '));
- UNIT_ASSERT_VALUES_EQUAL(expected2, actual2);
- TVector<TString> expected3 = {"dd", "bb"};
- auto actual3 = TVector<TString>(StringSplitter("dd\tbb").Split('\t'));
- UNIT_ASSERT_VALUES_EQUAL(expected3, actual3);
- }
- Y_UNIT_TEST(TestRangeBasedFor) {
- TVector<TString> actual0 = {"11", "22", "33", "44"};
- size_t num = 0;
- for (TStringBuf elem : StringSplitter("11 22 33 44").Split(' ')) {
- UNIT_ASSERT_VALUES_EQUAL(elem, actual0[num++]);
- }
- TVector<TString> actual1 = {"another", "one,", "and", "another", "one"};
- num = 0;
- for (TStringBuf elem : StringSplitter(TStringBuf("another one, and \n\n another one")).SplitBySet(" \n").SkipEmpty()) {
- UNIT_ASSERT_VALUES_EQUAL(elem, actual1[num++]);
- }
- TVector<TUtf16String> actual2 = {u"привет,", u"как", u"дела"};
- num = 0;
- for (TWtringBuf elem : StringSplitter(u"привет, как дела").Split(wchar16(' '))) {
- UNIT_ASSERT_VALUES_EQUAL(elem, actual2[num++]);
- }
- TVector<TString> copy(4);
- auto v = StringSplitter("11 22 33 44").Split(' ');
- Copy(v.begin(), v.end(), copy.begin());
- UNIT_ASSERT_VALUES_EQUAL(actual0, copy);
- }
- Y_UNIT_TEST(TestParseInto) {
- TVector<int> actual0 = {1, 2, 3, 4};
- TVector<int> answer0;
- StringSplitter("1 2 3 4").Split(' ').ParseInto(&answer0);
- UNIT_ASSERT_VALUES_EQUAL(actual0, answer0);
- TVector<int> actual1 = {42, 1, 2, 3, 4};
- TVector<int> answer1 = {42};
- StringSplitter("1 2 3 4").Split(' ').ParseInto(&answer1);
- UNIT_ASSERT_VALUES_EQUAL(actual1, answer1);
- answer1.clear();
- UNIT_ASSERT_EXCEPTION(StringSplitter("1 2 3 4").Split(' ').ParseInto(&answer1), yexception);
- answer1 = {42};
- StringSplitter(" 1 2 3 4").Split(' ').SkipEmpty().ParseInto(&answer1);
- UNIT_ASSERT_VALUES_EQUAL(actual1, answer1);
- answer1.clear();
- StringSplitter(" \n 1 2 \n\n\n 3 4\n ").SplitBySet(" \n").SkipEmpty().ParseInto(&answer1);
- UNIT_ASSERT_VALUES_EQUAL(actual0, answer1);
- }
- Y_UNIT_TEST(TestStdString) {
- std::vector<std::string_view> r0, r1, answer = {"lol", "zomg"};
- std::string s = "lol zomg";
- for (std::string_view ss : StringSplitter(s).Split(' ')) {
- r0.push_back(ss);
- }
- StringSplitter(s).Split(' ').Collect(&r1);
- UNIT_ASSERT_VALUES_EQUAL(r0, answer);
- UNIT_ASSERT_VALUES_EQUAL(r1, answer);
- }
- Y_UNIT_TEST(TestStdStringView) {
- std::string_view s = "aaacccbbb";
- std::vector<std::string_view> expected = {"aaa", "bbb"};
- std::vector<std::string_view> actual = StringSplitter(s).SplitByString("ccc");
- UNIT_ASSERT_VALUES_EQUAL(expected, actual);
- }
- Y_UNIT_TEST(TestStdSplitAfterSplit) {
- std::string_view input = "a*b+a*b";
- for (std::string_view summand : StringSplitter(input).Split('+')) {
- // FIXME: std::string is used to workaround MSVC ICE
- UNIT_ASSERT_VALUES_EQUAL(std::string(summand), "a*b");
- std::string_view multiplier1, multiplier2;
- bool splitResult = StringSplitter(summand).Split('*').TryCollectInto(&multiplier1, &multiplier2);
- UNIT_ASSERT(splitResult);
- UNIT_ASSERT_VALUES_EQUAL(std::string(multiplier1), "a");
- UNIT_ASSERT_VALUES_EQUAL(std::string(multiplier2), "b");
- }
- }
- Y_UNIT_TEST(TestStdSplitWithParsing) {
- std::string_view input = "1,2,3,4";
- TVector<ui64> numbers;
- const TVector<ui64> expected{1, 2, 3, 4};
- StringSplitter(input).Split(',').ParseInto(&numbers);
- UNIT_ASSERT_VALUES_EQUAL(numbers, expected);
- }
- Y_UNIT_TEST(TestArcadiaStdInterop) {
- TVector<TString> expected0 = {"a", "b"};
- TVector<TStringBuf> expected1 = {"a", "b"};
- std::string src1("a b");
- std::string_view src2("a b");
- TVector<TString> actual0 = StringSplitter(src1).Split(' ').SkipEmpty();
- TVector<TString> actual1 = StringSplitter(src2).Split(' ').SkipEmpty();
- TVector<TStringBuf> actual2 = StringSplitter(src1).Split(' ').SkipEmpty();
- TVector<TStringBuf> actual3 = StringSplitter(src2).Split(' ').SkipEmpty();
- UNIT_ASSERT_VALUES_EQUAL(expected0, actual0);
- UNIT_ASSERT_VALUES_EQUAL(expected0, actual1);
- UNIT_ASSERT_VALUES_EQUAL(expected1, actual2);
- UNIT_ASSERT_VALUES_EQUAL(expected1, actual3);
- }
- Y_UNIT_TEST(TestConstCString) {
- const char* b = "a;b";
- const char* e = b + 3;
- std::vector<TStringBuf> v;
- StringSplitter(b, e).Split(';').AddTo(&v);
- std::vector<TStringBuf> expected = {"a", "b"};
- UNIT_ASSERT_VALUES_EQUAL(v, expected);
- }
- Y_UNIT_TEST(TestCStringRef) {
- TString s = "lol";
- char* str = s.Detach();
- std::vector<TStringBuf> v = StringSplitter(str).Split('o');
- std::vector<TStringBuf> expected = {"l", "l"};
- UNIT_ASSERT_VALUES_EQUAL(v, expected);
- }
- Y_UNIT_TEST(TestSplitVector) {
- std::vector<char> buffer = {'a', ';', 'b'};
- std::vector<TStringBuf> v = StringSplitter(buffer).Split(';');
- std::vector<TStringBuf> expected = {"a", "b"};
- UNIT_ASSERT_VALUES_EQUAL(v, expected);
- }
- class TDoubleIterator {
- public:
- using iterator_category = std::input_iterator_tag;
- using value_type = int;
- using pointer = void;
- using reference = int;
- using const_reference = int;
- using difference_type = ptrdiff_t;
- TDoubleIterator() = default;
- TDoubleIterator(const char* ptr)
- : Ptr_(ptr)
- {
- }
- TDoubleIterator operator++() {
- Ptr_ += 2;
- return *this;
- }
- TDoubleIterator operator++(int) {
- TDoubleIterator tmp = *this;
- ++*this;
- return tmp;
- }
- friend bool operator==(TDoubleIterator l, TDoubleIterator r) {
- return l.Ptr_ == r.Ptr_;
- }
- friend bool operator!=(TDoubleIterator l, TDoubleIterator r) {
- return l.Ptr_ != r.Ptr_;
- }
- int operator*() const {
- return (*Ptr_ - '0') * 10 + *(Ptr_ + 1) - '0';
- }
- private:
- const char* Ptr_ = nullptr;
- };
- Y_UNIT_TEST(TestInputIterator) {
- const char* beg = "1213002233000011";
- const char* end = beg + strlen(beg);
- std::vector<std::vector<int>> expected = {{12, 13}, {22, 33}, {}, {11}};
- int i = 0;
- for (TIteratorRange<TDoubleIterator> part : StringSplitter(TDoubleIterator(beg), TDoubleIterator(end)).SplitByFunc([](int value) { return value == 0; })) {
- UNIT_ASSERT(std::equal(part.begin(), part.end(), expected[i].begin(), expected[i].end()));
- i++;
- }
- UNIT_ASSERT_VALUES_EQUAL(i, expected.size());
- }
- } // Y_UNIT_TEST_SUITE(StringSplitter)
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