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| 1 /* | |
| 2 * Copyright 2004 The WebRTC Project Authors. All rights reserved. | |
| 3 * | |
| 4 * Use of this source code is governed by a BSD-style license | |
| 5 * that can be found in the LICENSE file in the root of the source | |
| 6 * tree. An additional intellectual property rights grant can be found | |
| 7 * in the file PATENTS. All contributing project authors may | |
| 8 * be found in the AUTHORS file in the root of the source tree. | |
| 9 */ | |
| 10 | |
| 11 #include "webrtc/base/arraysize.h" | |
| 12 #include "webrtc/base/gunit.h" | |
| 13 #include "webrtc/base/stringencode.h" | |
| 14 #include "webrtc/base/stringutils.h" | |
| 15 | |
| 16 namespace rtc { | |
| 17 | |
| 18 TEST(Utf8EncodeTest, EncodeDecode) { | |
| 19 const struct Utf8Test { | |
| 20 const char* encoded; | |
| 21 size_t encsize, enclen; | |
| 22 unsigned long decoded; | |
| 23 } kTests[] = { | |
| 24 {"a ", 5, 1, 'a'}, | |
| 25 {"\x7F ", 5, 1, 0x7F}, | |
| 26 {"\xC2\x80 ", 5, 2, 0x80}, | |
| 27 {"\xDF\xBF ", 5, 2, 0x7FF}, | |
| 28 {"\xE0\xA0\x80 ", 5, 3, 0x800}, | |
| 29 {"\xEF\xBF\xBF ", 5, 3, 0xFFFF}, | |
| 30 {"\xF0\x90\x80\x80 ", 5, 4, 0x10000}, | |
| 31 {"\xF0\x90\x80\x80 ", 3, 0, 0x10000}, | |
| 32 {"\xF0\xF0\x80\x80 ", 5, 0, 0}, | |
| 33 {"\xF0\x90\x80 ", 5, 0, 0}, | |
| 34 {"\x90\x80\x80 ", 5, 0, 0}, | |
| 35 {nullptr, 0, 0}, | |
| 36 }; | |
| 37 for (size_t i = 0; kTests[i].encoded; ++i) { | |
| 38 unsigned long val = 0; | |
| 39 ASSERT_EQ(kTests[i].enclen, utf8_decode(kTests[i].encoded, | |
| 40 kTests[i].encsize, | |
| 41 &val)); | |
| 42 unsigned long result = (kTests[i].enclen == 0) ? 0 : kTests[i].decoded; | |
| 43 ASSERT_EQ(result, val); | |
| 44 | |
| 45 if (kTests[i].decoded == 0) { | |
| 46 // Not an interesting encoding test case | |
| 47 continue; | |
| 48 } | |
| 49 | |
| 50 char buffer[5]; | |
| 51 memset(buffer, 0x01, arraysize(buffer)); | |
| 52 ASSERT_EQ(kTests[i].enclen, utf8_encode(buffer, | |
| 53 kTests[i].encsize, | |
| 54 kTests[i].decoded)); | |
| 55 ASSERT_TRUE(memcmp(buffer, kTests[i].encoded, kTests[i].enclen) == 0); | |
| 56 // Make sure remainder of buffer is unchanged | |
| 57 ASSERT_TRUE(memory_check(buffer + kTests[i].enclen, | |
| 58 0x1, | |
| 59 arraysize(buffer) - kTests[i].enclen)); | |
| 60 } | |
| 61 } | |
| 62 | |
| 63 class HexEncodeTest : public testing::Test { | |
| 64 public: | |
| 65 HexEncodeTest() : enc_res_(0), dec_res_(0) { | |
| 66 for (size_t i = 0; i < sizeof(data_); ++i) { | |
| 67 data_[i] = (i + 128) & 0xff; | |
| 68 } | |
| 69 memset(decoded_, 0x7f, sizeof(decoded_)); | |
| 70 } | |
| 71 | |
| 72 char data_[10]; | |
| 73 char encoded_[31]; | |
| 74 char decoded_[11]; | |
| 75 size_t enc_res_; | |
| 76 size_t dec_res_; | |
| 77 }; | |
| 78 | |
| 79 // Test that we can convert to/from hex with no delimiter. | |
| 80 TEST_F(HexEncodeTest, TestWithNoDelimiter) { | |
| 81 enc_res_ = hex_encode(encoded_, sizeof(encoded_), data_, sizeof(data_)); | |
| 82 ASSERT_EQ(sizeof(data_) * 2, enc_res_); | |
| 83 ASSERT_STREQ("80818283848586878889", encoded_); | |
| 84 dec_res_ = hex_decode(decoded_, sizeof(decoded_), encoded_, enc_res_); | |
| 85 ASSERT_EQ(sizeof(data_), dec_res_); | |
| 86 ASSERT_EQ(0, memcmp(data_, decoded_, dec_res_)); | |
| 87 } | |
| 88 | |
| 89 // Test that we can convert to/from hex with a colon delimiter. | |
| 90 TEST_F(HexEncodeTest, TestWithDelimiter) { | |
| 91 enc_res_ = hex_encode_with_delimiter(encoded_, sizeof(encoded_), | |
| 92 data_, sizeof(data_), ':'); | |
| 93 ASSERT_EQ(sizeof(data_) * 3 - 1, enc_res_); | |
| 94 ASSERT_STREQ("80:81:82:83:84:85:86:87:88:89", encoded_); | |
| 95 dec_res_ = hex_decode_with_delimiter(decoded_, sizeof(decoded_), | |
| 96 encoded_, enc_res_, ':'); | |
| 97 ASSERT_EQ(sizeof(data_), dec_res_); | |
| 98 ASSERT_EQ(0, memcmp(data_, decoded_, dec_res_)); | |
| 99 } | |
| 100 | |
| 101 // Test that encoding with one delimiter and decoding with another fails. | |
| 102 TEST_F(HexEncodeTest, TestWithWrongDelimiter) { | |
| 103 enc_res_ = hex_encode_with_delimiter(encoded_, sizeof(encoded_), | |
| 104 data_, sizeof(data_), ':'); | |
| 105 ASSERT_EQ(sizeof(data_) * 3 - 1, enc_res_); | |
| 106 dec_res_ = hex_decode_with_delimiter(decoded_, sizeof(decoded_), | |
| 107 encoded_, enc_res_, '/'); | |
| 108 ASSERT_EQ(0U, dec_res_); | |
| 109 } | |
| 110 | |
| 111 // Test that encoding without a delimiter and decoding with one fails. | |
| 112 TEST_F(HexEncodeTest, TestExpectedDelimiter) { | |
| 113 enc_res_ = hex_encode(encoded_, sizeof(encoded_), data_, sizeof(data_)); | |
| 114 ASSERT_EQ(sizeof(data_) * 2, enc_res_); | |
| 115 dec_res_ = hex_decode_with_delimiter(decoded_, sizeof(decoded_), | |
| 116 encoded_, enc_res_, ':'); | |
| 117 ASSERT_EQ(0U, dec_res_); | |
| 118 } | |
| 119 | |
| 120 // Test that encoding with a delimiter and decoding without one fails. | |
| 121 TEST_F(HexEncodeTest, TestExpectedNoDelimiter) { | |
| 122 enc_res_ = hex_encode_with_delimiter(encoded_, sizeof(encoded_), | |
| 123 data_, sizeof(data_), ':'); | |
| 124 ASSERT_EQ(sizeof(data_) * 3 - 1, enc_res_); | |
| 125 dec_res_ = hex_decode(decoded_, sizeof(decoded_), encoded_, enc_res_); | |
| 126 ASSERT_EQ(0U, dec_res_); | |
| 127 } | |
| 128 | |
| 129 // Test that we handle a zero-length buffer with no delimiter. | |
| 130 TEST_F(HexEncodeTest, TestZeroLengthNoDelimiter) { | |
| 131 enc_res_ = hex_encode(encoded_, sizeof(encoded_), "", 0); | |
| 132 ASSERT_EQ(0U, enc_res_); | |
| 133 dec_res_ = hex_decode(decoded_, sizeof(decoded_), encoded_, enc_res_); | |
| 134 ASSERT_EQ(0U, dec_res_); | |
| 135 } | |
| 136 | |
| 137 // Test that we handle a zero-length buffer with a delimiter. | |
| 138 TEST_F(HexEncodeTest, TestZeroLengthWithDelimiter) { | |
| 139 enc_res_ = hex_encode_with_delimiter(encoded_, sizeof(encoded_), "", 0, ':'); | |
| 140 ASSERT_EQ(0U, enc_res_); | |
| 141 dec_res_ = hex_decode_with_delimiter(decoded_, sizeof(decoded_), | |
| 142 encoded_, enc_res_, ':'); | |
| 143 ASSERT_EQ(0U, dec_res_); | |
| 144 } | |
| 145 | |
| 146 // Test the std::string variants that take no delimiter. | |
| 147 TEST_F(HexEncodeTest, TestHelpersNoDelimiter) { | |
| 148 std::string result = hex_encode(data_, sizeof(data_)); | |
| 149 ASSERT_EQ("80818283848586878889", result); | |
| 150 dec_res_ = hex_decode(decoded_, sizeof(decoded_), result); | |
| 151 ASSERT_EQ(sizeof(data_), dec_res_); | |
| 152 ASSERT_EQ(0, memcmp(data_, decoded_, dec_res_)); | |
| 153 } | |
| 154 | |
| 155 // Test the std::string variants that use a delimiter. | |
| 156 TEST_F(HexEncodeTest, TestHelpersWithDelimiter) { | |
| 157 std::string result = hex_encode_with_delimiter(data_, sizeof(data_), ':'); | |
| 158 ASSERT_EQ("80:81:82:83:84:85:86:87:88:89", result); | |
| 159 dec_res_ = hex_decode_with_delimiter(decoded_, sizeof(decoded_), result, ':'); | |
| 160 ASSERT_EQ(sizeof(data_), dec_res_); | |
| 161 ASSERT_EQ(0, memcmp(data_, decoded_, dec_res_)); | |
| 162 } | |
| 163 | |
| 164 // Test that encoding into a too-small output buffer (without delimiter) fails. | |
| 165 TEST_F(HexEncodeTest, TestEncodeTooShort) { | |
| 166 enc_res_ = hex_encode_with_delimiter(encoded_, sizeof(data_) * 2, | |
| 167 data_, sizeof(data_), 0); | |
| 168 ASSERT_EQ(0U, enc_res_); | |
| 169 } | |
| 170 | |
| 171 // Test that encoding into a too-small output buffer (with delimiter) fails. | |
| 172 TEST_F(HexEncodeTest, TestEncodeWithDelimiterTooShort) { | |
| 173 enc_res_ = hex_encode_with_delimiter(encoded_, sizeof(data_) * 3 - 1, | |
| 174 data_, sizeof(data_), ':'); | |
| 175 ASSERT_EQ(0U, enc_res_); | |
| 176 } | |
| 177 | |
| 178 // Test that decoding into a too-small output buffer fails. | |
| 179 TEST_F(HexEncodeTest, TestDecodeTooShort) { | |
| 180 dec_res_ = hex_decode_with_delimiter(decoded_, 4, "0123456789", 10, 0); | |
| 181 ASSERT_EQ(0U, dec_res_); | |
| 182 ASSERT_EQ(0x7f, decoded_[4]); | |
| 183 } | |
| 184 | |
| 185 // Test that decoding non-hex data fails. | |
| 186 TEST_F(HexEncodeTest, TestDecodeBogusData) { | |
| 187 dec_res_ = hex_decode_with_delimiter(decoded_, sizeof(decoded_), "xyz", 3, 0); | |
| 188 ASSERT_EQ(0U, dec_res_); | |
| 189 } | |
| 190 | |
| 191 // Test that decoding an odd number of hex characters fails. | |
| 192 TEST_F(HexEncodeTest, TestDecodeOddHexDigits) { | |
| 193 dec_res_ = hex_decode_with_delimiter(decoded_, sizeof(decoded_), "012", 3, 0); | |
| 194 ASSERT_EQ(0U, dec_res_); | |
| 195 } | |
| 196 | |
| 197 // Test that decoding a string with too many delimiters fails. | |
| 198 TEST_F(HexEncodeTest, TestDecodeWithDelimiterTooManyDelimiters) { | |
| 199 dec_res_ = hex_decode_with_delimiter(decoded_, 4, "01::23::45::67", 14, ':'); | |
| 200 ASSERT_EQ(0U, dec_res_); | |
| 201 } | |
| 202 | |
| 203 // Test that decoding a string with a leading delimiter fails. | |
| 204 TEST_F(HexEncodeTest, TestDecodeWithDelimiterLeadingDelimiter) { | |
| 205 dec_res_ = hex_decode_with_delimiter(decoded_, 4, ":01:23:45:67", 12, ':'); | |
| 206 ASSERT_EQ(0U, dec_res_); | |
| 207 } | |
| 208 | |
| 209 // Test that decoding a string with a trailing delimiter fails. | |
| 210 TEST_F(HexEncodeTest, TestDecodeWithDelimiterTrailingDelimiter) { | |
| 211 dec_res_ = hex_decode_with_delimiter(decoded_, 4, "01:23:45:67:", 12, ':'); | |
| 212 ASSERT_EQ(0U, dec_res_); | |
| 213 } | |
| 214 | |
| 215 // Tests counting substrings. | |
| 216 TEST(TokenizeTest, CountSubstrings) { | |
| 217 std::vector<std::string> fields; | |
| 218 | |
| 219 EXPECT_EQ(5ul, tokenize("one two three four five", ' ', &fields)); | |
| 220 fields.clear(); | |
| 221 EXPECT_EQ(1ul, tokenize("one", ' ', &fields)); | |
| 222 | |
| 223 // Extra spaces should be ignored. | |
| 224 fields.clear(); | |
| 225 EXPECT_EQ(5ul, tokenize(" one two three four five ", ' ', &fields)); | |
| 226 fields.clear(); | |
| 227 EXPECT_EQ(1ul, tokenize(" one ", ' ', &fields)); | |
| 228 fields.clear(); | |
| 229 EXPECT_EQ(0ul, tokenize(" ", ' ', &fields)); | |
| 230 } | |
| 231 | |
| 232 // Tests comparing substrings. | |
| 233 TEST(TokenizeTest, CompareSubstrings) { | |
| 234 std::vector<std::string> fields; | |
| 235 | |
| 236 tokenize("find middle one", ' ', &fields); | |
| 237 ASSERT_EQ(3ul, fields.size()); | |
| 238 ASSERT_STREQ("middle", fields.at(1).c_str()); | |
| 239 fields.clear(); | |
| 240 | |
| 241 // Extra spaces should be ignored. | |
| 242 tokenize(" find middle one ", ' ', &fields); | |
| 243 ASSERT_EQ(3ul, fields.size()); | |
| 244 ASSERT_STREQ("middle", fields.at(1).c_str()); | |
| 245 fields.clear(); | |
| 246 tokenize(" ", ' ', &fields); | |
| 247 ASSERT_EQ(0ul, fields.size()); | |
| 248 } | |
| 249 | |
| 250 TEST(TokenizeTest, TokenizeAppend) { | |
| 251 ASSERT_EQ(0ul, tokenize_append("A B C", ' ', nullptr)); | |
| 252 | |
| 253 std::vector<std::string> fields; | |
| 254 | |
| 255 tokenize_append("A B C", ' ', &fields); | |
| 256 ASSERT_EQ(3ul, fields.size()); | |
| 257 ASSERT_STREQ("B", fields.at(1).c_str()); | |
| 258 | |
| 259 tokenize_append("D E", ' ', &fields); | |
| 260 ASSERT_EQ(5ul, fields.size()); | |
| 261 ASSERT_STREQ("B", fields.at(1).c_str()); | |
| 262 ASSERT_STREQ("E", fields.at(4).c_str()); | |
| 263 } | |
| 264 | |
| 265 TEST(TokenizeTest, TokenizeWithMarks) { | |
| 266 ASSERT_EQ(0ul, tokenize("D \"A B", ' ', '(', ')', nullptr)); | |
| 267 | |
| 268 std::vector<std::string> fields; | |
| 269 tokenize("A B C", ' ', '"', '"', &fields); | |
| 270 ASSERT_EQ(3ul, fields.size()); | |
| 271 ASSERT_STREQ("C", fields.at(2).c_str()); | |
| 272 | |
| 273 tokenize("\"A B\" C", ' ', '"', '"', &fields); | |
| 274 ASSERT_EQ(2ul, fields.size()); | |
| 275 ASSERT_STREQ("A B", fields.at(0).c_str()); | |
| 276 | |
| 277 tokenize("D \"A B\" C", ' ', '"', '"', &fields); | |
| 278 ASSERT_EQ(3ul, fields.size()); | |
| 279 ASSERT_STREQ("D", fields.at(0).c_str()); | |
| 280 ASSERT_STREQ("A B", fields.at(1).c_str()); | |
| 281 | |
| 282 tokenize("D \"A B\" C \"E F\"", ' ', '"', '"', &fields); | |
| 283 ASSERT_EQ(4ul, fields.size()); | |
| 284 ASSERT_STREQ("D", fields.at(0).c_str()); | |
| 285 ASSERT_STREQ("A B", fields.at(1).c_str()); | |
| 286 ASSERT_STREQ("E F", fields.at(3).c_str()); | |
| 287 | |
| 288 // No matching marks. | |
| 289 tokenize("D \"A B", ' ', '"', '"', &fields); | |
| 290 ASSERT_EQ(3ul, fields.size()); | |
| 291 ASSERT_STREQ("D", fields.at(0).c_str()); | |
| 292 ASSERT_STREQ("\"A", fields.at(1).c_str()); | |
| 293 | |
| 294 tokenize("D (A B) C (E F) G", ' ', '(', ')', &fields); | |
| 295 ASSERT_EQ(5ul, fields.size()); | |
| 296 ASSERT_STREQ("D", fields.at(0).c_str()); | |
| 297 ASSERT_STREQ("A B", fields.at(1).c_str()); | |
| 298 ASSERT_STREQ("E F", fields.at(3).c_str()); | |
| 299 } | |
| 300 | |
| 301 TEST(TokenizeTest, TokenizeWithEmptyTokens) { | |
| 302 std::vector<std::string> fields; | |
| 303 EXPECT_EQ(3ul, tokenize_with_empty_tokens("a.b.c", '.', &fields)); | |
| 304 EXPECT_EQ("a", fields[0]); | |
| 305 EXPECT_EQ("b", fields[1]); | |
| 306 EXPECT_EQ("c", fields[2]); | |
| 307 | |
| 308 EXPECT_EQ(3ul, tokenize_with_empty_tokens("..c", '.', &fields)); | |
| 309 EXPECT_TRUE(fields[0].empty()); | |
| 310 EXPECT_TRUE(fields[1].empty()); | |
| 311 EXPECT_EQ("c", fields[2]); | |
| 312 | |
| 313 EXPECT_EQ(1ul, tokenize_with_empty_tokens("", '.', &fields)); | |
| 314 EXPECT_TRUE(fields[0].empty()); | |
| 315 } | |
| 316 | |
| 317 TEST(TokenizeFirstTest, NoLeadingSpaces) { | |
| 318 std::string token; | |
| 319 std::string rest; | |
| 320 | |
| 321 ASSERT_TRUE(tokenize_first("A &*${}", ' ', &token, &rest)); | |
| 322 ASSERT_STREQ("A", token.c_str()); | |
| 323 ASSERT_STREQ("&*${}", rest.c_str()); | |
| 324 | |
| 325 ASSERT_TRUE(tokenize_first("A B& *${}", ' ', &token, &rest)); | |
| 326 ASSERT_STREQ("A", token.c_str()); | |
| 327 ASSERT_STREQ("B& *${}", rest.c_str()); | |
| 328 | |
| 329 ASSERT_TRUE(tokenize_first("A B& *${} ", ' ', &token, &rest)); | |
| 330 ASSERT_STREQ("A", token.c_str()); | |
| 331 ASSERT_STREQ("B& *${} ", rest.c_str()); | |
| 332 } | |
| 333 | |
| 334 TEST(TokenizeFirstTest, LeadingSpaces) { | |
| 335 std::string token; | |
| 336 std::string rest; | |
| 337 | |
| 338 ASSERT_TRUE(tokenize_first(" A B C", ' ', &token, &rest)); | |
| 339 ASSERT_STREQ("", token.c_str()); | |
| 340 ASSERT_STREQ("A B C", rest.c_str()); | |
| 341 | |
| 342 ASSERT_TRUE(tokenize_first(" A B C ", ' ', &token, &rest)); | |
| 343 ASSERT_STREQ("", token.c_str()); | |
| 344 ASSERT_STREQ("A B C ", rest.c_str()); | |
| 345 } | |
| 346 | |
| 347 TEST(TokenizeFirstTest, SingleToken) { | |
| 348 std::string token; | |
| 349 std::string rest; | |
| 350 | |
| 351 // In the case where we cannot find delimiter the whole string is a token. | |
| 352 ASSERT_FALSE(tokenize_first("ABC", ' ', &token, &rest)); | |
| 353 | |
| 354 ASSERT_TRUE(tokenize_first("ABC ", ' ', &token, &rest)); | |
| 355 ASSERT_STREQ("ABC", token.c_str()); | |
| 356 ASSERT_STREQ("", rest.c_str()); | |
| 357 | |
| 358 ASSERT_TRUE(tokenize_first(" ABC ", ' ', &token, &rest)); | |
| 359 ASSERT_STREQ("", token.c_str()); | |
| 360 ASSERT_STREQ("ABC ", rest.c_str()); | |
| 361 } | |
| 362 | |
| 363 // Tests counting substrings. | |
| 364 TEST(SplitTest, CountSubstrings) { | |
| 365 std::vector<std::string> fields; | |
| 366 | |
| 367 EXPECT_EQ(5ul, split("one,two,three,four,five", ',', &fields)); | |
| 368 fields.clear(); | |
| 369 EXPECT_EQ(1ul, split("one", ',', &fields)); | |
| 370 | |
| 371 // Empty fields between commas count. | |
| 372 fields.clear(); | |
| 373 EXPECT_EQ(5ul, split("one,,three,four,five", ',', &fields)); | |
| 374 fields.clear(); | |
| 375 EXPECT_EQ(3ul, split(",three,", ',', &fields)); | |
| 376 fields.clear(); | |
| 377 EXPECT_EQ(1ul, split("", ',', &fields)); | |
| 378 } | |
| 379 | |
| 380 // Tests comparing substrings. | |
| 381 TEST(SplitTest, CompareSubstrings) { | |
| 382 std::vector<std::string> fields; | |
| 383 | |
| 384 split("find,middle,one", ',', &fields); | |
| 385 ASSERT_EQ(3ul, fields.size()); | |
| 386 ASSERT_STREQ("middle", fields.at(1).c_str()); | |
| 387 fields.clear(); | |
| 388 | |
| 389 // Empty fields between commas count. | |
| 390 split("find,,middle,one", ',', &fields); | |
| 391 ASSERT_EQ(4ul, fields.size()); | |
| 392 ASSERT_STREQ("middle", fields.at(2).c_str()); | |
| 393 fields.clear(); | |
| 394 split("", ',', &fields); | |
| 395 ASSERT_EQ(1ul, fields.size()); | |
| 396 ASSERT_STREQ("", fields.at(0).c_str()); | |
| 397 } | |
| 398 | |
| 399 TEST(BoolTest, DecodeValid) { | |
| 400 bool value; | |
| 401 EXPECT_TRUE(FromString("true", &value)); | |
| 402 EXPECT_TRUE(value); | |
| 403 EXPECT_TRUE(FromString("true,", &value)); | |
| 404 EXPECT_TRUE(value); | |
| 405 EXPECT_TRUE(FromString("true , true", &value)); | |
| 406 EXPECT_TRUE(value); | |
| 407 EXPECT_TRUE(FromString("true ,\n false", &value)); | |
| 408 EXPECT_TRUE(value); | |
| 409 EXPECT_TRUE(FromString(" true \n", &value)); | |
| 410 EXPECT_TRUE(value); | |
| 411 | |
| 412 EXPECT_TRUE(FromString("false", &value)); | |
| 413 EXPECT_FALSE(value); | |
| 414 EXPECT_TRUE(FromString(" false ", &value)); | |
| 415 EXPECT_FALSE(value); | |
| 416 EXPECT_TRUE(FromString(" false, ", &value)); | |
| 417 EXPECT_FALSE(value); | |
| 418 | |
| 419 EXPECT_TRUE(FromString<bool>("true\n")); | |
| 420 EXPECT_FALSE(FromString<bool>("false\n")); | |
| 421 } | |
| 422 | |
| 423 TEST(BoolTest, DecodeInvalid) { | |
| 424 bool value; | |
| 425 EXPECT_FALSE(FromString("True", &value)); | |
| 426 EXPECT_FALSE(FromString("TRUE", &value)); | |
| 427 EXPECT_FALSE(FromString("False", &value)); | |
| 428 EXPECT_FALSE(FromString("FALSE", &value)); | |
| 429 EXPECT_FALSE(FromString("0", &value)); | |
| 430 EXPECT_FALSE(FromString("1", &value)); | |
| 431 EXPECT_FALSE(FromString("0,", &value)); | |
| 432 EXPECT_FALSE(FromString("1,", &value)); | |
| 433 EXPECT_FALSE(FromString("1,0", &value)); | |
| 434 EXPECT_FALSE(FromString("1.", &value)); | |
| 435 EXPECT_FALSE(FromString("1.0", &value)); | |
| 436 EXPECT_FALSE(FromString("", &value)); | |
| 437 EXPECT_FALSE(FromString<bool>("false\nfalse")); | |
| 438 } | |
| 439 | |
| 440 TEST(BoolTest, RoundTrip) { | |
| 441 bool value; | |
| 442 EXPECT_TRUE(FromString(ToString(true), &value)); | |
| 443 EXPECT_TRUE(value); | |
| 444 EXPECT_TRUE(FromString(ToString(false), &value)); | |
| 445 EXPECT_FALSE(value); | |
| 446 } | |
| 447 | |
| 448 } // namespace rtc | |
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Chromium Code Reviews
Issue 2877023002:
Move webrtc/{base => rtc_base} (Closed)
