Make sure to handle skipForNow when the user does not sign in.
[chromium-blink-merge.git] / base / strings / string_split_unittest.cc
blob32bbe28b65f2f160c837d9d9b11e31e08b19c4c3
1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "base/strings/string_split.h"
7 #include "base/strings/utf_string_conversions.h"
8 #include "testing/gmock/include/gmock/gmock.h"
9 #include "testing/gtest/include/gtest/gtest.h"
11 using ::testing::ElementsAre;
13 namespace base {
15 namespace {
17 #if !defined(WCHAR_T_IS_UTF16)
18 // Overload SplitString with a wide-char version to make it easier to
19 // test the string16 version with wide character literals.
20 void SplitString(const std::wstring& str,
21 wchar_t c,
22 std::vector<std::wstring>* result) {
23 std::vector<string16> result16;
24 SplitString(WideToUTF16(str), c, &result16);
25 for (size_t i = 0; i < result16.size(); ++i)
26 result->push_back(UTF16ToWide(result16[i]));
28 #endif
30 } // anonymous namespace
32 class SplitStringIntoKeyValuePairsTest : public testing::Test {
33 protected:
34 base::StringPairs kv_pairs;
37 TEST_F(SplitStringIntoKeyValuePairsTest, EmptyString) {
38 EXPECT_TRUE(SplitStringIntoKeyValuePairs(std::string(),
39 ':', // Key-value delimiter
40 ',', // Key-value pair delimiter
41 &kv_pairs));
42 EXPECT_TRUE(kv_pairs.empty());
45 TEST_F(SplitStringIntoKeyValuePairsTest, MissingKeyValueDelimiter) {
46 EXPECT_FALSE(SplitStringIntoKeyValuePairs("key1,key2:value2",
47 ':', // Key-value delimiter
48 ',', // Key-value pair delimiter
49 &kv_pairs));
50 ASSERT_EQ(2U, kv_pairs.size());
51 EXPECT_TRUE(kv_pairs[0].first.empty());
52 EXPECT_TRUE(kv_pairs[0].second.empty());
53 EXPECT_EQ("key2", kv_pairs[1].first);
54 EXPECT_EQ("value2", kv_pairs[1].second);
57 TEST_F(SplitStringIntoKeyValuePairsTest, EmptyKeyWithKeyValueDelimiter) {
58 EXPECT_TRUE(SplitStringIntoKeyValuePairs(":value1,key2:value2",
59 ':', // Key-value delimiter
60 ',', // Key-value pair delimiter
61 &kv_pairs));
62 ASSERT_EQ(2U, kv_pairs.size());
63 EXPECT_TRUE(kv_pairs[0].first.empty());
64 EXPECT_EQ("value1", kv_pairs[0].second);
65 EXPECT_EQ("key2", kv_pairs[1].first);
66 EXPECT_EQ("value2", kv_pairs[1].second);
69 TEST_F(SplitStringIntoKeyValuePairsTest, TrailingAndLeadingPairDelimiter) {
70 EXPECT_TRUE(SplitStringIntoKeyValuePairs(",key1:value1,key2:value2,",
71 ':', // Key-value delimiter
72 ',', // Key-value pair delimiter
73 &kv_pairs));
74 ASSERT_EQ(2U, kv_pairs.size());
75 EXPECT_EQ("key1", kv_pairs[0].first);
76 EXPECT_EQ("value1", kv_pairs[0].second);
77 EXPECT_EQ("key2", kv_pairs[1].first);
78 EXPECT_EQ("value2", kv_pairs[1].second);
81 TEST_F(SplitStringIntoKeyValuePairsTest, EmptyPair) {
82 EXPECT_TRUE(SplitStringIntoKeyValuePairs("key1:value1,,key3:value3",
83 ':', // Key-value delimiter
84 ',', // Key-value pair delimiter
85 &kv_pairs));
86 ASSERT_EQ(2U, kv_pairs.size());
87 EXPECT_EQ("key1", kv_pairs[0].first);
88 EXPECT_EQ("value1", kv_pairs[0].second);
89 EXPECT_EQ("key3", kv_pairs[1].first);
90 EXPECT_EQ("value3", kv_pairs[1].second);
93 TEST_F(SplitStringIntoKeyValuePairsTest, EmptyValue) {
94 EXPECT_FALSE(SplitStringIntoKeyValuePairs("key1:,key2:value2",
95 ':', // Key-value delimiter
96 ',', // Key-value pair delimiter
97 &kv_pairs));
98 ASSERT_EQ(2U, kv_pairs.size());
99 EXPECT_EQ("key1", kv_pairs[0].first);
100 EXPECT_EQ("", kv_pairs[0].second);
101 EXPECT_EQ("key2", kv_pairs[1].first);
102 EXPECT_EQ("value2", kv_pairs[1].second);
105 TEST_F(SplitStringIntoKeyValuePairsTest, UntrimmedWhitespace) {
106 EXPECT_TRUE(SplitStringIntoKeyValuePairs("key1 : value1",
107 ':', // Key-value delimiter
108 ',', // Key-value pair delimiter
109 &kv_pairs));
110 ASSERT_EQ(1U, kv_pairs.size());
111 EXPECT_EQ("key1 ", kv_pairs[0].first);
112 EXPECT_EQ(" value1", kv_pairs[0].second);
115 TEST_F(SplitStringIntoKeyValuePairsTest, TrimmedWhitespace) {
116 EXPECT_TRUE(SplitStringIntoKeyValuePairs("key1:value1 , key2:value2",
117 ':', // Key-value delimiter
118 ',', // Key-value pair delimiter
119 &kv_pairs));
120 ASSERT_EQ(2U, kv_pairs.size());
121 EXPECT_EQ("key1", kv_pairs[0].first);
122 EXPECT_EQ("value1", kv_pairs[0].second);
123 EXPECT_EQ("key2", kv_pairs[1].first);
124 EXPECT_EQ("value2", kv_pairs[1].second);
127 TEST_F(SplitStringIntoKeyValuePairsTest, MultipleKeyValueDelimiters) {
128 EXPECT_TRUE(SplitStringIntoKeyValuePairs("key1:::value1,key2:value2",
129 ':', // Key-value delimiter
130 ',', // Key-value pair delimiter
131 &kv_pairs));
132 ASSERT_EQ(2U, kv_pairs.size());
133 EXPECT_EQ("key1", kv_pairs[0].first);
134 EXPECT_EQ("value1", kv_pairs[0].second);
135 EXPECT_EQ("key2", kv_pairs[1].first);
136 EXPECT_EQ("value2", kv_pairs[1].second);
139 TEST_F(SplitStringIntoKeyValuePairsTest, OnlySplitAtGivenSeparator) {
140 std::string a("a ?!@#$%^&*()_+:/{}\\\t\nb");
141 EXPECT_TRUE(SplitStringIntoKeyValuePairs(a + "X" + a + "Y" + a + "X" + a,
142 'X', // Key-value delimiter
143 'Y', // Key-value pair delimiter
144 &kv_pairs));
145 ASSERT_EQ(2U, kv_pairs.size());
146 EXPECT_EQ(a, kv_pairs[0].first);
147 EXPECT_EQ(a, kv_pairs[0].second);
148 EXPECT_EQ(a, kv_pairs[1].first);
149 EXPECT_EQ(a, kv_pairs[1].second);
153 TEST_F(SplitStringIntoKeyValuePairsTest, DelimiterInValue) {
154 EXPECT_TRUE(SplitStringIntoKeyValuePairs("key1:va:ue1,key2:value2",
155 ':', // Key-value delimiter
156 ',', // Key-value pair delimiter
157 &kv_pairs));
158 ASSERT_EQ(2U, kv_pairs.size());
159 EXPECT_EQ("key1", kv_pairs[0].first);
160 EXPECT_EQ("va:ue1", kv_pairs[0].second);
161 EXPECT_EQ("key2", kv_pairs[1].first);
162 EXPECT_EQ("value2", kv_pairs[1].second);
165 TEST(SplitStringUsingSubstrTest, EmptyString) {
166 std::vector<std::string> results;
167 SplitStringUsingSubstr(std::string(), "DELIMITER", &results);
168 ASSERT_EQ(1u, results.size());
169 EXPECT_THAT(results, ElementsAre(""));
172 TEST(StringUtilTest, SplitString) {
173 std::vector<std::wstring> r;
175 SplitString(std::wstring(), L',', &r);
176 EXPECT_EQ(0U, r.size());
177 r.clear();
179 SplitString(L"a,b,c", L',', &r);
180 ASSERT_EQ(3U, r.size());
181 EXPECT_EQ(r[0], L"a");
182 EXPECT_EQ(r[1], L"b");
183 EXPECT_EQ(r[2], L"c");
184 r.clear();
186 SplitString(L"a, b, c", L',', &r);
187 ASSERT_EQ(3U, r.size());
188 EXPECT_EQ(r[0], L"a");
189 EXPECT_EQ(r[1], L"b");
190 EXPECT_EQ(r[2], L"c");
191 r.clear();
193 SplitString(L"a,,c", L',', &r);
194 ASSERT_EQ(3U, r.size());
195 EXPECT_EQ(r[0], L"a");
196 EXPECT_EQ(r[1], L"");
197 EXPECT_EQ(r[2], L"c");
198 r.clear();
200 SplitString(L" ", L'*', &r);
201 EXPECT_EQ(0U, r.size());
202 r.clear();
204 SplitString(L"foo", L'*', &r);
205 ASSERT_EQ(1U, r.size());
206 EXPECT_EQ(r[0], L"foo");
207 r.clear();
209 SplitString(L"foo ,", L',', &r);
210 ASSERT_EQ(2U, r.size());
211 EXPECT_EQ(r[0], L"foo");
212 EXPECT_EQ(r[1], L"");
213 r.clear();
215 SplitString(L",", L',', &r);
216 ASSERT_EQ(2U, r.size());
217 EXPECT_EQ(r[0], L"");
218 EXPECT_EQ(r[1], L"");
219 r.clear();
221 SplitString(L"\t\ta\t", L'\t', &r);
222 ASSERT_EQ(4U, r.size());
223 EXPECT_EQ(r[0], L"");
224 EXPECT_EQ(r[1], L"");
225 EXPECT_EQ(r[2], L"a");
226 EXPECT_EQ(r[3], L"");
227 r.clear();
229 SplitString(L"\ta\t\nb\tcc", L'\n', &r);
230 ASSERT_EQ(2U, r.size());
231 EXPECT_EQ(r[0], L"a");
232 EXPECT_EQ(r[1], L"b\tcc");
233 r.clear();
236 TEST(SplitStringUsingSubstrTest, StringWithNoDelimiter) {
237 std::vector<std::string> results;
238 SplitStringUsingSubstr("alongwordwithnodelimiter", "DELIMITER", &results);
239 ASSERT_EQ(1u, results.size());
240 EXPECT_THAT(results, ElementsAre("alongwordwithnodelimiter"));
243 TEST(SplitStringUsingSubstrTest, LeadingDelimitersSkipped) {
244 std::vector<std::string> results;
245 SplitStringUsingSubstr(
246 "DELIMITERDELIMITERDELIMITERoneDELIMITERtwoDELIMITERthree",
247 "DELIMITER",
248 &results);
249 ASSERT_EQ(6u, results.size());
250 EXPECT_THAT(results, ElementsAre("", "", "", "one", "two", "three"));
253 TEST(SplitStringUsingSubstrTest, ConsecutiveDelimitersSkipped) {
254 std::vector<std::string> results;
255 SplitStringUsingSubstr(
256 "unoDELIMITERDELIMITERDELIMITERdosDELIMITERtresDELIMITERDELIMITERcuatro",
257 "DELIMITER",
258 &results);
259 ASSERT_EQ(7u, results.size());
260 EXPECT_THAT(results, ElementsAre("uno", "", "", "dos", "tres", "", "cuatro"));
263 TEST(SplitStringUsingSubstrTest, TrailingDelimitersSkipped) {
264 std::vector<std::string> results;
265 SplitStringUsingSubstr(
266 "unDELIMITERdeuxDELIMITERtroisDELIMITERquatreDELIMITERDELIMITERDELIMITER",
267 "DELIMITER",
268 &results);
269 ASSERT_EQ(7u, results.size());
270 EXPECT_THAT(
271 results, ElementsAre("un", "deux", "trois", "quatre", "", "", ""));
274 TEST(StringSplitTest, StringSplitDontTrim) {
275 std::vector<std::string> r;
277 SplitStringDontTrim(" ", '*', &r);
278 ASSERT_EQ(1U, r.size());
279 EXPECT_EQ(r[0], " ");
281 SplitStringDontTrim("\t \ta\t ", '\t', &r);
282 ASSERT_EQ(4U, r.size());
283 EXPECT_EQ(r[0], "");
284 EXPECT_EQ(r[1], " ");
285 EXPECT_EQ(r[2], "a");
286 EXPECT_EQ(r[3], " ");
288 SplitStringDontTrim("\ta\t\nb\tcc", '\n', &r);
289 ASSERT_EQ(2U, r.size());
290 EXPECT_EQ(r[0], "\ta\t");
291 EXPECT_EQ(r[1], "b\tcc");
294 TEST(StringSplitTest, SplitStringAlongWhitespace) {
295 struct TestData {
296 const char* input;
297 const size_t expected_result_count;
298 const char* output1;
299 const char* output2;
300 } data[] = {
301 { "a", 1, "a", "" },
302 { " ", 0, "", "" },
303 { " a", 1, "a", "" },
304 { " ab ", 1, "ab", "" },
305 { " ab c", 2, "ab", "c" },
306 { " ab c ", 2, "ab", "c" },
307 { " ab cd", 2, "ab", "cd" },
308 { " ab cd ", 2, "ab", "cd" },
309 { " \ta\t", 1, "a", "" },
310 { " b\ta\t", 2, "b", "a" },
311 { " b\tat", 2, "b", "at" },
312 { "b\tat", 2, "b", "at" },
313 { "b\t at", 2, "b", "at" },
315 for (size_t i = 0; i < arraysize(data); ++i) {
316 std::vector<std::string> results;
317 SplitStringAlongWhitespace(data[i].input, &results);
318 ASSERT_EQ(data[i].expected_result_count, results.size());
319 if (data[i].expected_result_count > 0)
320 ASSERT_EQ(data[i].output1, results[0]);
321 if (data[i].expected_result_count > 1)
322 ASSERT_EQ(data[i].output2, results[1]);
326 } // namespace base