2 * Copyright 2014 Facebook, Inc.
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
8 * http://www.apache.org/licenses/LICENSE-2.0
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
17 #include <folly/String.h>
21 #include <boost/algorithm/string.hpp>
22 #include <gtest/gtest.h>
24 #include <folly/Benchmark.h>
26 using namespace folly;
29 TEST(StringPrintf, BasicTest) {
30 EXPECT_EQ("abc", stringPrintf("%s", "abc"));
31 EXPECT_EQ("abc", stringPrintf("%sbc", "a"));
32 EXPECT_EQ("abc", stringPrintf("a%sc", "b"));
33 EXPECT_EQ("abc", stringPrintf("ab%s", "c"));
35 EXPECT_EQ("abc", stringPrintf("abc"));
38 TEST(StringPrintf, NumericFormats) {
39 EXPECT_EQ("12", stringPrintf("%d", 12));
40 EXPECT_EQ("5000000000", stringPrintf("%ld", 5000000000UL));
41 EXPECT_EQ("5000000000", stringPrintf("%ld", 5000000000L));
42 EXPECT_EQ("-5000000000", stringPrintf("%ld", -5000000000L));
43 EXPECT_EQ("-1", stringPrintf("%d", 0xffffffff));
44 EXPECT_EQ("-1", stringPrintf("%ld", 0xffffffffffffffff));
45 EXPECT_EQ("-1", stringPrintf("%ld", 0xffffffffffffffffUL));
47 EXPECT_EQ("7.7", stringPrintf("%1.1f", 7.7));
48 EXPECT_EQ("7.7", stringPrintf("%1.1lf", 7.7));
49 EXPECT_EQ("7.70000000000000018",
50 stringPrintf("%.17f", 7.7));
51 EXPECT_EQ("7.70000000000000018",
52 stringPrintf("%.17lf", 7.7));
55 TEST(StringPrintf, Appending) {
57 stringAppendf(&s, "a%s", "b");
58 stringAppendf(&s, "%c", 'c');
60 stringAppendf(&s, " %d", 123);
61 EXPECT_EQ(s, "abc 123");
64 void vprintfCheck(const char* expected, const char* fmt, ...) {
66 va_start(apOrig, fmt);
76 // Check both APIs for calling stringVPrintf()
77 EXPECT_EQ(expected, stringVPrintf(fmt, ap));
82 stringVPrintf(&out, fmt, ap);
85 EXPECT_EQ(expected, out);
87 // Check stringVAppendf() as well
88 std::string prefix = "foobar";
90 EXPECT_EQ(prefix + expected, stringVAppendf(&out, fmt, ap));
95 void vprintfError(const char* fmt, ...) {
102 // OSX's sprintf family does not return a negative number on a bad format
103 // string, but Linux does. It's unclear to me which behavior is more
106 EXPECT_THROW({stringVPrintf(fmt, ap);},
111 TEST(StringPrintf, VPrintf) {
112 vprintfCheck("foo", "%s", "foo");
113 vprintfCheck("long string requiring reallocation 1 2 3 0x12345678",
114 "%s %s %d %d %d %#x",
115 "long string", "requiring reallocation", 1, 2, 3, 0x12345678);
116 vprintfError("bogus%", "foo");
119 TEST(StringPrintf, VariousSizes) {
120 // Test a wide variety of output sizes, making sure to cross the
121 // vsnprintf buffer boundary implementation detail.
122 for (int i = 0; i < 4096; ++i) {
123 string expected(i + 1, 'a');
124 expected = "X" + expected + "X";
125 string result = stringPrintf("%s", expected.c_str());
126 EXPECT_EQ(expected.size(), result.size());
127 EXPECT_EQ(expected, result);
130 EXPECT_EQ("abc12345678910111213141516171819202122232425xyz",
131 stringPrintf("abc%d%d%d%d%d%d%d%d%d%d%d%d%d%d"
132 "%d%d%d%d%d%d%d%d%d%d%dxyz",
133 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16,
134 17, 18, 19, 20, 21, 22, 23, 24, 25));
137 TEST(StringPrintf, oldStringPrintfTests) {
138 EXPECT_EQ(string("a/b/c/d"),
139 stringPrintf("%s/%s/%s/%s", "a", "b", "c", "d"));
141 EXPECT_EQ(string(" 5 10"),
142 stringPrintf("%5d %5d", 5, 10));
144 // check printing w/ a big buffer
145 for (int size = (1 << 8); size <= (1 << 15); size <<= 1) {
147 string b = stringPrintf("%s", a.c_str());
148 EXPECT_EQ(a.size(), b.size());
152 TEST(StringPrintf, oldStringAppendf) {
154 stringAppendf(&s, "%s/%s/%s/%s", "a", "b", "c", "d");
155 EXPECT_EQ(string("helloa/b/c/d"), s);
158 // A simple benchmark that tests various output sizes for a simple
159 // input; the goal is to measure the output buffer resize code cost.
160 void stringPrintfOutputSize(int iters, int param) {
162 BENCHMARK_SUSPEND { buffer.resize(param, 'x'); }
164 for (int64_t i = 0; i < iters; ++i) {
165 string s = stringPrintf("msg: %d, %d, %s", 10, 20, buffer.c_str());
169 // The first few of these tend to fit in the inline buffer, while the
170 // subsequent ones cross that limit, trigger a second vsnprintf, and
171 // exercise a different codepath.
172 BENCHMARK_PARAM(stringPrintfOutputSize, 1)
173 BENCHMARK_PARAM(stringPrintfOutputSize, 4)
174 BENCHMARK_PARAM(stringPrintfOutputSize, 16)
175 BENCHMARK_PARAM(stringPrintfOutputSize, 64)
176 BENCHMARK_PARAM(stringPrintfOutputSize, 256)
177 BENCHMARK_PARAM(stringPrintfOutputSize, 1024)
179 // Benchmark simple stringAppendf behavior to show a pathology Lovro
180 // reported (t5735468).
181 BENCHMARK(stringPrintfAppendfBenchmark, iters) {
182 for (unsigned int i = 0; i < iters; ++i) {
184 BENCHMARK_SUSPEND { s.reserve(300000); }
185 for (int j = 0; j < 300000; ++j) {
186 stringAppendf(&s, "%d", 1);
191 TEST(Escape, cEscape) {
192 EXPECT_EQ("hello world", cEscape<std::string>("hello world"));
193 EXPECT_EQ("hello \\\\world\\\" goodbye",
194 cEscape<std::string>("hello \\world\" goodbye"));
195 EXPECT_EQ("hello\\nworld", cEscape<std::string>("hello\nworld"));
196 EXPECT_EQ("hello\\377\\376", cEscape<std::string>("hello\xff\xfe"));
199 TEST(Escape, cUnescape) {
200 EXPECT_EQ("hello world", cUnescape<std::string>("hello world"));
201 EXPECT_EQ("hello \\world\" goodbye",
202 cUnescape<std::string>("hello \\\\world\\\" goodbye"));
203 EXPECT_EQ("hello\nworld", cUnescape<std::string>("hello\\nworld"));
204 EXPECT_EQ("hello\nworld", cUnescape<std::string>("hello\\012world"));
205 EXPECT_EQ("hello\nworld", cUnescape<std::string>("hello\\x0aworld"));
206 EXPECT_EQ("hello\xff\xfe", cUnescape<std::string>("hello\\377\\376"));
207 EXPECT_EQ("hello\xff\xfe", cUnescape<std::string>("hello\\xff\\xfe"));
209 EXPECT_THROW({cUnescape<std::string>("hello\\");},
210 std::invalid_argument);
211 EXPECT_THROW({cUnescape<std::string>("hello\\x");},
212 std::invalid_argument);
213 EXPECT_THROW({cUnescape<std::string>("hello\\q");},
214 std::invalid_argument);
217 TEST(Escape, uriEscape) {
218 EXPECT_EQ("hello%2c%20%2fworld", uriEscape<std::string>("hello, /world"));
219 EXPECT_EQ("hello%2c%20/world", uriEscape<std::string>("hello, /world",
220 UriEscapeMode::PATH));
221 EXPECT_EQ("hello%2c+%2fworld", uriEscape<std::string>("hello, /world",
222 UriEscapeMode::QUERY));
225 TEST(Escape, uriUnescape) {
226 EXPECT_EQ("hello, /world", uriUnescape<std::string>("hello, /world"));
227 EXPECT_EQ("hello, /world", uriUnescape<std::string>("hello%2c%20%2fworld"));
228 EXPECT_EQ("hello,+/world", uriUnescape<std::string>("hello%2c+%2fworld"));
229 EXPECT_EQ("hello, /world", uriUnescape<std::string>("hello%2c+%2fworld",
230 UriEscapeMode::QUERY));
231 EXPECT_EQ("hello/", uriUnescape<std::string>("hello%2f"));
232 EXPECT_EQ("hello/", uriUnescape<std::string>("hello%2F"));
233 EXPECT_THROW({uriUnescape<std::string>("hello%");},
234 std::invalid_argument);
235 EXPECT_THROW({uriUnescape<std::string>("hello%2");},
236 std::invalid_argument);
237 EXPECT_THROW({uriUnescape<std::string>("hello%2g");},
238 std::invalid_argument);
242 void expectPrintable(StringPiece s) {
250 TEST(Escape, uriEscapeAllCombinations) {
253 StringPiece in(c, 2);
256 for (int i = 0; i < 256; ++i) {
258 for (int j = 0; j < 256; ++j) {
263 expectPrintable(tmp);
264 uriUnescape(tmp, out);
272 return ((v >= '0' && v <= '9') ||
273 (v >= 'A' && v <= 'F') ||
274 (v >= 'a' && v <= 'f'));
278 TEST(Escape, uriUnescapePercentDecoding) {
279 char c[4] = {'%', '\0', '\0', '\0'};
280 StringPiece in(c, 3);
282 unsigned int expected = 0;
283 for (int i = 0; i < 256; ++i) {
285 for (int j = 0; j < 256; ++j) {
287 if (isHex(i) && isHex(j)) {
289 uriUnescape(in, out);
290 EXPECT_EQ(1, out.size());
291 EXPECT_EQ(1, sscanf(c + 1, "%x", &expected));
292 unsigned char v = out[0];
293 EXPECT_EQ(expected, v);
295 EXPECT_THROW({uriUnescape(in, out);}, std::invalid_argument);
303 fbstring cbmEscapedString;
304 fbstring cEscapedString;
305 fbstring cUnescapedString;
306 const size_t kCBmStringLength = 64 << 10;
307 const uint32_t kCPrintablePercentage = 90;
309 fbstring uribmString;
310 fbstring uribmEscapedString;
311 fbstring uriEscapedString;
312 fbstring uriUnescapedString;
313 const size_t kURIBmStringLength = 256;
314 const uint32_t kURIPassThroughPercentage = 50;
316 void initBenchmark() {
320 std::uniform_int_distribution<uint32_t> printable(32, 126);
321 std::uniform_int_distribution<uint32_t> nonPrintable(0, 160);
322 std::uniform_int_distribution<uint32_t> percentage(0, 99);
324 cbmString.reserve(kCBmStringLength);
325 for (size_t i = 0; i < kCBmStringLength; ++i) {
327 if (percentage(rnd) < kCPrintablePercentage) {
330 c = nonPrintable(rnd);
331 // Generate characters in both non-printable ranges:
332 // 0..31 and 127..255
337 cbmString.push_back(c);
340 cbmEscapedString = cEscape<fbstring>(cbmString);
343 std::uniform_int_distribution<uint32_t> passthrough('a', 'z');
344 std::string encodeChars = " ?!\"',+[]";
345 std::uniform_int_distribution<uint32_t> encode(0, encodeChars.size() - 1);
347 uribmString.reserve(kURIBmStringLength);
348 for (size_t i = 0; i < kURIBmStringLength; ++i) {
350 if (percentage(rnd) < kURIPassThroughPercentage) {
351 c = passthrough(rnd);
353 c = encodeChars[encode(rnd)];
355 uribmString.push_back(c);
358 uribmEscapedString = uriEscape<fbstring>(uribmString);
361 BENCHMARK(BM_cEscape, iters) {
363 cEscapedString = cEscape<fbstring>(cbmString);
364 doNotOptimizeAway(cEscapedString.size());
368 BENCHMARK(BM_cUnescape, iters) {
370 cUnescapedString = cUnescape<fbstring>(cbmEscapedString);
371 doNotOptimizeAway(cUnescapedString.size());
375 BENCHMARK(BM_uriEscape, iters) {
377 uriEscapedString = uriEscape<fbstring>(uribmString);
378 doNotOptimizeAway(uriEscapedString.size());
382 BENCHMARK(BM_uriUnescape, iters) {
384 uriUnescapedString = uriUnescape<fbstring>(uribmEscapedString);
385 doNotOptimizeAway(uriUnescapedString.size());
393 double pow2(int exponent) {
394 return double(int64_t(1) << exponent);
398 struct PrettyTestCase{
399 std::string prettyString;
401 PrettyType prettyType;
404 PrettyTestCase prettyTestCases[] =
406 {string("8.53e+07 s "), 85.3e6, PRETTY_TIME},
407 {string("8.53e+07 s "), 85.3e6, PRETTY_TIME},
408 {string("85.3 ms"), 85.3e-3, PRETTY_TIME},
409 {string("85.3 us"), 85.3e-6, PRETTY_TIME},
410 {string("85.3 ns"), 85.3e-9, PRETTY_TIME},
411 {string("85.3 ps"), 85.3e-12, PRETTY_TIME},
412 {string("8.53e-14 s "), 85.3e-15, PRETTY_TIME},
414 {string("0 s "), 0, PRETTY_TIME},
415 {string("1 s "), 1.0, PRETTY_TIME},
416 {string("1 ms"), 1.0e-3, PRETTY_TIME},
417 {string("1 us"), 1.0e-6, PRETTY_TIME},
418 {string("1 ns"), 1.0e-9, PRETTY_TIME},
419 {string("1 ps"), 1.0e-12, PRETTY_TIME},
421 // check bytes printing
422 {string("853 B "), 853., PRETTY_BYTES},
423 {string("833 kB"), 853.e3, PRETTY_BYTES},
424 {string("813.5 MB"), 853.e6, PRETTY_BYTES},
425 {string("7.944 GB"), 8.53e9, PRETTY_BYTES},
426 {string("794.4 GB"), 853.e9, PRETTY_BYTES},
427 {string("775.8 TB"), 853.e12, PRETTY_BYTES},
429 {string("0 B "), 0, PRETTY_BYTES},
430 {string("1 B "), pow2(0), PRETTY_BYTES},
431 {string("1 kB"), pow2(10), PRETTY_BYTES},
432 {string("1 MB"), pow2(20), PRETTY_BYTES},
433 {string("1 GB"), pow2(30), PRETTY_BYTES},
434 {string("1 TB"), pow2(40), PRETTY_BYTES},
436 {string("853 B "), 853., PRETTY_BYTES_IEC},
437 {string("833 KiB"), 853.e3, PRETTY_BYTES_IEC},
438 {string("813.5 MiB"), 853.e6, PRETTY_BYTES_IEC},
439 {string("7.944 GiB"), 8.53e9, PRETTY_BYTES_IEC},
440 {string("794.4 GiB"), 853.e9, PRETTY_BYTES_IEC},
441 {string("775.8 TiB"), 853.e12, PRETTY_BYTES_IEC},
443 {string("0 B "), 0, PRETTY_BYTES_IEC},
444 {string("1 B "), pow2(0), PRETTY_BYTES_IEC},
445 {string("1 KiB"), pow2(10), PRETTY_BYTES_IEC},
446 {string("1 MiB"), pow2(20), PRETTY_BYTES_IEC},
447 {string("1 GiB"), pow2(30), PRETTY_BYTES_IEC},
448 {string("1 TiB"), pow2(40), PRETTY_BYTES_IEC},
450 // check bytes metric printing
451 {string("853 B "), 853., PRETTY_BYTES_METRIC},
452 {string("853 kB"), 853.e3, PRETTY_BYTES_METRIC},
453 {string("853 MB"), 853.e6, PRETTY_BYTES_METRIC},
454 {string("8.53 GB"), 8.53e9, PRETTY_BYTES_METRIC},
455 {string("853 GB"), 853.e9, PRETTY_BYTES_METRIC},
456 {string("853 TB"), 853.e12, PRETTY_BYTES_METRIC},
458 {string("0 B "), 0, PRETTY_BYTES_METRIC},
459 {string("1 B "), 1.0, PRETTY_BYTES_METRIC},
460 {string("1 kB"), 1.0e+3, PRETTY_BYTES_METRIC},
461 {string("1 MB"), 1.0e+6, PRETTY_BYTES_METRIC},
463 {string("1 GB"), 1.0e+9, PRETTY_BYTES_METRIC},
464 {string("1 TB"), 1.0e+12, PRETTY_BYTES_METRIC},
466 // check metric-units (powers of 1000) printing
467 {string("853 "), 853., PRETTY_UNITS_METRIC},
468 {string("853 k"), 853.e3, PRETTY_UNITS_METRIC},
469 {string("853 M"), 853.e6, PRETTY_UNITS_METRIC},
470 {string("8.53 bil"), 8.53e9, PRETTY_UNITS_METRIC},
471 {string("853 bil"), 853.e9, PRETTY_UNITS_METRIC},
472 {string("853 tril"), 853.e12, PRETTY_UNITS_METRIC},
474 // check binary-units (powers of 1024) printing
475 {string("0 "), 0, PRETTY_UNITS_BINARY},
476 {string("1 "), pow2(0), PRETTY_UNITS_BINARY},
477 {string("1 k"), pow2(10), PRETTY_UNITS_BINARY},
478 {string("1 M"), pow2(20), PRETTY_UNITS_BINARY},
479 {string("1 G"), pow2(30), PRETTY_UNITS_BINARY},
480 {string("1 T"), pow2(40), PRETTY_UNITS_BINARY},
482 {string("1023 "), pow2(10) - 1, PRETTY_UNITS_BINARY},
483 {string("1024 k"), pow2(20) - 1, PRETTY_UNITS_BINARY},
484 {string("1024 M"), pow2(30) - 1, PRETTY_UNITS_BINARY},
485 {string("1024 G"), pow2(40) - 1, PRETTY_UNITS_BINARY},
487 {string("0 "), 0, PRETTY_UNITS_BINARY_IEC},
488 {string("1 "), pow2(0), PRETTY_UNITS_BINARY_IEC},
489 {string("1 Ki"), pow2(10), PRETTY_UNITS_BINARY_IEC},
490 {string("1 Mi"), pow2(20), PRETTY_UNITS_BINARY_IEC},
491 {string("1 Gi"), pow2(30), PRETTY_UNITS_BINARY_IEC},
492 {string("1 Ti"), pow2(40), PRETTY_UNITS_BINARY_IEC},
494 {string("1023 "), pow2(10) - 1, PRETTY_UNITS_BINARY_IEC},
495 {string("1024 Ki"), pow2(20) - 1, PRETTY_UNITS_BINARY_IEC},
496 {string("1024 Mi"), pow2(30) - 1, PRETTY_UNITS_BINARY_IEC},
497 {string("1024 Gi"), pow2(40) - 1, PRETTY_UNITS_BINARY_IEC},
499 //check border SI cases
501 {string("1 Y"), 1e24, PRETTY_SI},
502 {string("10 Y"), 1e25, PRETTY_SI},
503 {string("1 y"), 1e-24, PRETTY_SI},
504 {string("10 y"), 1e-23, PRETTY_SI},
506 // check that negative values work
507 {string("-85.3 s "), -85.3, PRETTY_TIME},
508 {string("-85.3 ms"), -85.3e-3, PRETTY_TIME},
509 {string("-85.3 us"), -85.3e-6, PRETTY_TIME},
510 {string("-85.3 ns"), -85.3e-9, PRETTY_TIME},
512 {string("endoftest"), 0, PRETTY_NUM_TYPES}
515 TEST(PrettyPrint, Basic) {
516 for (int i = 0; prettyTestCases[i].prettyType != PRETTY_NUM_TYPES; ++i){
517 const PrettyTestCase& prettyTest = prettyTestCases[i];
518 EXPECT_EQ(prettyTest.prettyString,
519 prettyPrint(prettyTest.realValue, prettyTest.prettyType));
523 TEST(PrettyToDouble, Basic) {
524 // check manually created tests
525 for (int i = 0; prettyTestCases[i].prettyType != PRETTY_NUM_TYPES; ++i){
526 PrettyTestCase testCase = prettyTestCases[i];
527 PrettyType formatType = testCase.prettyType;
528 double x = testCase.realValue;
529 std::string testString = testCase.prettyString;
532 recoveredX = prettyToDouble(testString, formatType);
533 } catch (std::range_error &ex){
536 double relativeError = fabs(x) < 1e-5 ? (x-recoveredX) :
537 (x - recoveredX) / x;
538 EXPECT_NEAR(0, relativeError, 1e-3);
541 // checks for compatibility with prettyPrint over the whole parameter space
542 for (int i = 0 ; i < PRETTY_NUM_TYPES; ++i){
543 PrettyType formatType = static_cast<PrettyType>(i);
544 for (double x = 1e-18; x < 1e40; x *= 1.9){
545 bool addSpace = static_cast<PrettyType> (i) == PRETTY_SI;
546 for (int it = 0; it < 2; ++it, addSpace = true){
549 recoveredX = prettyToDouble(prettyPrint(x, formatType, addSpace),
551 } catch (std::range_error &ex){
554 double relativeError = (x - recoveredX) / x;
555 EXPECT_NEAR(0, relativeError, 1e-3);
560 // check for incorrect values
561 EXPECT_THROW(prettyToDouble("10Mx", PRETTY_SI), std::range_error);
562 EXPECT_THROW(prettyToDouble("10 Mx", PRETTY_SI), std::range_error);
563 EXPECT_THROW(prettyToDouble("10 M x", PRETTY_SI), std::range_error);
565 StringPiece testString = "10Mx";
566 EXPECT_DOUBLE_EQ(prettyToDouble(&testString, PRETTY_UNITS_METRIC), 10e6);
567 EXPECT_EQ(testString, "x");
570 TEST(PrettyPrint, HexDump) {
571 std::string a("abc\x00\x02\xa0", 6); // embedded NUL
573 "00000000 61 62 63 00 02 a0 "
575 hexDump(a.data(), a.size()));
577 a = "abcdefghijklmnopqrstuvwxyz";
579 "00000000 61 62 63 64 65 66 67 68 69 6a 6b 6c 6d 6e 6f 70 "
580 "|abcdefghijklmnop|\n"
581 "00000010 71 72 73 74 75 76 77 78 79 7a "
583 hexDump(a.data(), a.size()));
586 TEST(System, errnoStr) {
588 EXPECT_EQ(EACCES, errno);
589 EXPECT_EQ(EACCES, errno); // twice to make sure EXPECT_EQ doesn't change it
591 fbstring expected = strerror(ENOENT);
594 EXPECT_EQ(expected, errnoStr(ENOENT));
595 // Ensure that errno isn't changed
596 EXPECT_EQ(EACCES, errno);
598 // Per POSIX, all errno values are positive, so -1 is invalid
601 // Ensure that errno isn't changed
602 EXPECT_EQ(EACCES, errno);
605 namespace folly_test {
606 struct ThisIsAVeryLongStructureName {
608 } // namespace folly_test
610 #if FOLLY_HAVE_CPLUS_DEMANGLE_V3_CALLBACK
611 TEST(System, demangle) {
612 char expected[] = "folly_test::ThisIsAVeryLongStructureName";
615 demangle(typeid(folly_test::ThisIsAVeryLongStructureName)).c_str());
618 char buf[sizeof(expected)];
619 EXPECT_EQ(sizeof(expected) - 1,
620 demangle(typeid(folly_test::ThisIsAVeryLongStructureName),
622 EXPECT_STREQ(expected, buf);
624 EXPECT_EQ(sizeof(expected) - 1,
625 demangle(typeid(folly_test::ThisIsAVeryLongStructureName),
627 EXPECT_STREQ("folly_test", buf);
634 template<template<class,class> class VectorType>
636 VectorType<string,std::allocator<string> > parts;
638 folly::split(',', "a,b,c", parts);
639 EXPECT_EQ(parts.size(), 3);
640 EXPECT_EQ(parts[0], "a");
641 EXPECT_EQ(parts[1], "b");
642 EXPECT_EQ(parts[2], "c");
645 folly::split(',', StringPiece("a,b,c"), parts);
646 EXPECT_EQ(parts.size(), 3);
647 EXPECT_EQ(parts[0], "a");
648 EXPECT_EQ(parts[1], "b");
649 EXPECT_EQ(parts[2], "c");
652 folly::split(',', string("a,b,c"), parts);
653 EXPECT_EQ(parts.size(), 3);
654 EXPECT_EQ(parts[0], "a");
655 EXPECT_EQ(parts[1], "b");
656 EXPECT_EQ(parts[2], "c");
659 folly::split(',', "a,,c", parts);
660 EXPECT_EQ(parts.size(), 3);
661 EXPECT_EQ(parts[0], "a");
662 EXPECT_EQ(parts[1], "");
663 EXPECT_EQ(parts[2], "c");
666 folly::split(',', string("a,,c"), parts);
667 EXPECT_EQ(parts.size(), 3);
668 EXPECT_EQ(parts[0], "a");
669 EXPECT_EQ(parts[1], "");
670 EXPECT_EQ(parts[2], "c");
673 folly::split(',', "a,,c", parts, true);
674 EXPECT_EQ(parts.size(), 2);
675 EXPECT_EQ(parts[0], "a");
676 EXPECT_EQ(parts[1], "c");
679 folly::split(',', string("a,,c"), parts, true);
680 EXPECT_EQ(parts.size(), 2);
681 EXPECT_EQ(parts[0], "a");
682 EXPECT_EQ(parts[1], "c");
685 folly::split(',', string(",,a,,c,,,"), parts, true);
686 EXPECT_EQ(parts.size(), 2);
687 EXPECT_EQ(parts[0], "a");
688 EXPECT_EQ(parts[1], "c");
691 // test multiple split w/o clear
692 folly::split(',', ",,a,,c,,,", parts, true);
693 EXPECT_EQ(parts.size(), 2);
694 EXPECT_EQ(parts[0], "a");
695 EXPECT_EQ(parts[1], "c");
696 folly::split(',', ",,a,,c,,,", parts, true);
697 EXPECT_EQ(parts.size(), 4);
698 EXPECT_EQ(parts[2], "a");
699 EXPECT_EQ(parts[3], "c");
702 // test splits that with multi-line delimiter
703 folly::split("ab", "dabcabkdbkab", parts, true);
704 EXPECT_EQ(parts.size(), 3);
705 EXPECT_EQ(parts[0], "d");
706 EXPECT_EQ(parts[1], "c");
707 EXPECT_EQ(parts[2], "kdbk");
710 // test last part is shorter than the delimiter
711 folly::split("bc", "abcd", parts, true);
712 EXPECT_EQ(parts.size(), 2);
713 EXPECT_EQ(parts[0], "a");
714 EXPECT_EQ(parts[1], "d");
717 string orig = "ab2342asdfv~~!";
718 folly::split("", orig, parts, true);
719 EXPECT_EQ(parts.size(), 1);
720 EXPECT_EQ(parts[0], orig);
723 folly::split("452x;o38asfsajsdlfdf.j", "asfds", parts, true);
724 EXPECT_EQ(parts.size(), 1);
725 EXPECT_EQ(parts[0], "asfds");
728 folly::split("a", "", parts, true);
729 EXPECT_EQ(parts.size(), 0);
732 folly::split("a", "", parts);
733 EXPECT_EQ(parts.size(), 1);
734 EXPECT_EQ(parts[0], "");
737 folly::split("a", StringPiece(), parts, true);
738 EXPECT_EQ(parts.size(), 0);
741 folly::split("a", StringPiece(), parts);
742 EXPECT_EQ(parts.size(), 1);
743 EXPECT_EQ(parts[0], "");
746 folly::split("a", "abcdefg", parts, true);
747 EXPECT_EQ(parts.size(), 1);
748 EXPECT_EQ(parts[0], "bcdefg");
751 orig = "All, , your base, are , , belong to us";
752 folly::split(", ", orig, parts, true);
753 EXPECT_EQ(parts.size(), 4);
754 EXPECT_EQ(parts[0], "All");
755 EXPECT_EQ(parts[1], "your base");
756 EXPECT_EQ(parts[2], "are ");
757 EXPECT_EQ(parts[3], "belong to us");
759 folly::split(", ", orig, parts);
760 EXPECT_EQ(parts.size(), 6);
761 EXPECT_EQ(parts[0], "All");
762 EXPECT_EQ(parts[1], "");
763 EXPECT_EQ(parts[2], "your base");
764 EXPECT_EQ(parts[3], "are ");
765 EXPECT_EQ(parts[4], "");
766 EXPECT_EQ(parts[5], "belong to us");
769 orig = ", Facebook, rul,es!, ";
770 folly::split(", ", orig, parts, true);
771 EXPECT_EQ(parts.size(), 2);
772 EXPECT_EQ(parts[0], "Facebook");
773 EXPECT_EQ(parts[1], "rul,es!");
775 folly::split(", ", orig, parts);
776 EXPECT_EQ(parts.size(), 4);
777 EXPECT_EQ(parts[0], "");
778 EXPECT_EQ(parts[1], "Facebook");
779 EXPECT_EQ(parts[2], "rul,es!");
780 EXPECT_EQ(parts[3], "");
783 template<template<class,class> class VectorType>
785 VectorType<StringPiece,std::allocator<StringPiece> > pieces;
786 VectorType<StringPiece,std::allocator<StringPiece> > pieces2;
788 folly::split(',', "a,b,c", pieces);
789 EXPECT_EQ(pieces.size(), 3);
790 EXPECT_EQ(pieces[0], "a");
791 EXPECT_EQ(pieces[1], "b");
792 EXPECT_EQ(pieces[2], "c");
796 folly::split(',', "a,,c", pieces);
797 EXPECT_EQ(pieces.size(), 3);
798 EXPECT_EQ(pieces[0], "a");
799 EXPECT_EQ(pieces[1], "");
800 EXPECT_EQ(pieces[2], "c");
803 folly::split(',', "a,,c", pieces, true);
804 EXPECT_EQ(pieces.size(), 2);
805 EXPECT_EQ(pieces[0], "a");
806 EXPECT_EQ(pieces[1], "c");
809 folly::split(',', ",,a,,c,,,", pieces, true);
810 EXPECT_EQ(pieces.size(), 2);
811 EXPECT_EQ(pieces[0], "a");
812 EXPECT_EQ(pieces[1], "c");
815 // test multiple split w/o clear
816 folly::split(',', ",,a,,c,,,", pieces, true);
817 EXPECT_EQ(pieces.size(), 2);
818 EXPECT_EQ(pieces[0], "a");
819 EXPECT_EQ(pieces[1], "c");
820 folly::split(',', ",,a,,c,,,", pieces, true);
821 EXPECT_EQ(pieces.size(), 4);
822 EXPECT_EQ(pieces[2], "a");
823 EXPECT_EQ(pieces[3], "c");
826 // test multiple split rounds
827 folly::split(",", "a_b,c_d", pieces);
828 EXPECT_EQ(pieces.size(), 2);
829 EXPECT_EQ(pieces[0], "a_b");
830 EXPECT_EQ(pieces[1], "c_d");
831 folly::split("_", pieces[0], pieces2);
832 EXPECT_EQ(pieces2.size(), 2);
833 EXPECT_EQ(pieces2[0], "a");
834 EXPECT_EQ(pieces2[1], "b");
836 folly::split("_", pieces[1], pieces2);
837 EXPECT_EQ(pieces2.size(), 2);
838 EXPECT_EQ(pieces2[0], "c");
839 EXPECT_EQ(pieces2[1], "d");
843 // test splits that with multi-line delimiter
844 folly::split("ab", "dabcabkdbkab", pieces, true);
845 EXPECT_EQ(pieces.size(), 3);
846 EXPECT_EQ(pieces[0], "d");
847 EXPECT_EQ(pieces[1], "c");
848 EXPECT_EQ(pieces[2], "kdbk");
851 string orig = "ab2342asdfv~~!";
852 folly::split("", orig.c_str(), pieces, true);
853 EXPECT_EQ(pieces.size(), 1);
854 EXPECT_EQ(pieces[0], orig);
857 folly::split("452x;o38asfsajsdlfdf.j", "asfds", pieces, true);
858 EXPECT_EQ(pieces.size(), 1);
859 EXPECT_EQ(pieces[0], "asfds");
862 folly::split("a", "", pieces, true);
863 EXPECT_EQ(pieces.size(), 0);
866 folly::split("a", "", pieces);
867 EXPECT_EQ(pieces.size(), 1);
868 EXPECT_EQ(pieces[0], "");
871 folly::split("a", "abcdefg", pieces, true);
872 EXPECT_EQ(pieces.size(), 1);
873 EXPECT_EQ(pieces[0], "bcdefg");
876 orig = "All, , your base, are , , belong to us";
877 folly::split(", ", orig, pieces, true);
878 EXPECT_EQ(pieces.size(), 4);
879 EXPECT_EQ(pieces[0], "All");
880 EXPECT_EQ(pieces[1], "your base");
881 EXPECT_EQ(pieces[2], "are ");
882 EXPECT_EQ(pieces[3], "belong to us");
884 folly::split(", ", orig, pieces);
885 EXPECT_EQ(pieces.size(), 6);
886 EXPECT_EQ(pieces[0], "All");
887 EXPECT_EQ(pieces[1], "");
888 EXPECT_EQ(pieces[2], "your base");
889 EXPECT_EQ(pieces[3], "are ");
890 EXPECT_EQ(pieces[4], "");
891 EXPECT_EQ(pieces[5], "belong to us");
894 orig = ", Facebook, rul,es!, ";
895 folly::split(", ", orig, pieces, true);
896 EXPECT_EQ(pieces.size(), 2);
897 EXPECT_EQ(pieces[0], "Facebook");
898 EXPECT_EQ(pieces[1], "rul,es!");
900 folly::split(", ", orig, pieces);
901 EXPECT_EQ(pieces.size(), 4);
902 EXPECT_EQ(pieces[0], "");
903 EXPECT_EQ(pieces[1], "Facebook");
904 EXPECT_EQ(pieces[2], "rul,es!");
905 EXPECT_EQ(pieces[3], "");
908 const char* str = "a,b";
909 folly::split(',', StringPiece(str), pieces);
910 EXPECT_EQ(pieces.size(), 2);
911 EXPECT_EQ(pieces[0], "a");
912 EXPECT_EQ(pieces[1], "b");
913 EXPECT_EQ(pieces[0].start(), str);
914 EXPECT_EQ(pieces[1].start(), str + 2);
916 std::set<StringPiece> unique;
917 folly::splitTo<StringPiece>(":", "asd:bsd:asd:asd:bsd:csd::asd",
918 std::inserter(unique, unique.begin()), true);
919 EXPECT_EQ(unique.size(), 3);
920 if (unique.size() == 3) {
921 EXPECT_EQ(*unique.begin(), "asd");
922 EXPECT_EQ(*--unique.end(), "csd");
925 VectorType<fbstring,std::allocator<fbstring> > blah;
926 folly::split('-', "a-b-c-d-f-e", blah);
927 EXPECT_EQ(blah.size(), 6);
932 TEST(Split, split_vector) {
933 splitTest<std::vector>();
935 TEST(Split, split_fbvector) {
936 splitTest<folly::fbvector>();
938 TEST(Split, pieces_vector) {
939 piecesTest<std::vector>();
941 TEST(Split, pieces_fbvector) {
942 piecesTest<folly::fbvector>();
946 StringPiece a, b, c, d;
948 EXPECT_TRUE(folly::split<false>('.', "a.b.c.d", a, b, c, d));
949 EXPECT_TRUE(folly::split<false>('.', "a.b.c", a, b, c));
950 EXPECT_TRUE(folly::split<false>('.', "a.b", a, b));
951 EXPECT_TRUE(folly::split<false>('.', "a", a));
953 EXPECT_TRUE(folly::split('.', "a.b.c.d", a, b, c, d));
954 EXPECT_TRUE(folly::split('.', "a.b.c", a, b, c));
955 EXPECT_TRUE(folly::split('.', "a.b", a, b));
956 EXPECT_TRUE(folly::split('.', "a", a));
958 EXPECT_TRUE(folly::split<false>('.', "a.b.c", a, b, c));
962 EXPECT_FALSE(folly::split<false>('.', "a.b", a, b, c));
963 EXPECT_TRUE(folly::split<false>('.', "a.b.c", a, b));
967 EXPECT_TRUE(folly::split('.', "a.b.c", a, b, c));
971 EXPECT_FALSE(folly::split('.', "a.b.c", a, b));
972 EXPECT_FALSE(folly::split('.', "a.b", a, b, c));
974 EXPECT_TRUE(folly::split<false>('.', "a.b", a, b));
977 EXPECT_FALSE(folly::split<false>('.', "a", a, b));
978 EXPECT_TRUE(folly::split<false>('.', "a.b", a));
981 EXPECT_TRUE(folly::split('.', "a.b", a, b));
984 EXPECT_FALSE(folly::split('.', "a", a, b));
985 EXPECT_FALSE(folly::split('.', "a.b", a));
988 TEST(Split, std_string_fixed) {
989 std::string a, b, c, d;
991 EXPECT_TRUE(folly::split<false>('.', "a.b.c.d", a, b, c, d));
992 EXPECT_TRUE(folly::split<false>('.', "a.b.c", a, b, c));
993 EXPECT_TRUE(folly::split<false>('.', "a.b", a, b));
994 EXPECT_TRUE(folly::split<false>('.', "a", a));
996 EXPECT_TRUE(folly::split('.', "a.b.c.d", a, b, c, d));
997 EXPECT_TRUE(folly::split('.', "a.b.c", a, b, c));
998 EXPECT_TRUE(folly::split('.', "a.b", a, b));
999 EXPECT_TRUE(folly::split('.', "a", a));
1001 EXPECT_TRUE(folly::split<false>('.', "a.b.c", a, b, c));
1005 EXPECT_FALSE(folly::split<false>('.', "a.b", a, b, c));
1006 EXPECT_TRUE(folly::split<false>('.', "a.b.c", a, b));
1008 EXPECT_EQ("b.c", b);
1010 EXPECT_TRUE(folly::split('.', "a.b.c", a, b, c));
1014 EXPECT_FALSE(folly::split('.', "a.b.c", a, b));
1015 EXPECT_FALSE(folly::split('.', "a.b", a, b, c));
1017 EXPECT_TRUE(folly::split<false>('.', "a.b", a, b));
1020 EXPECT_FALSE(folly::split<false>('.', "a", a, b));
1021 EXPECT_TRUE(folly::split<false>('.', "a.b", a));
1022 EXPECT_EQ("a.b", a);
1024 EXPECT_TRUE(folly::split('.', "a.b", a, b));
1027 EXPECT_FALSE(folly::split('.', "a", a, b));
1028 EXPECT_FALSE(folly::split('.', "a.b", a));
1031 TEST(Split, fixed_convert) {
1036 EXPECT_TRUE(folly::split(':', "a:13:14.7:b", a, b, c, d));
1039 EXPECT_NEAR(14.7, c, 1e-10);
1042 EXPECT_TRUE(folly::split<false>(':', "b:14:15.3:c", a, b, c, d));
1045 EXPECT_NEAR(15.3, c, 1e-10);
1048 EXPECT_FALSE(folly::split(':', "a:13:14.7:b", a, b, d));
1050 EXPECT_TRUE(folly::split<false>(':', "a:13:14.7:b", a, b, d));
1053 EXPECT_EQ("14.7:b", d);
1055 EXPECT_THROW(folly::split<false>(':', "a:13:14.7:b", a, b, c),
1059 TEST(String, join) {
1062 std::vector<int> empty = { };
1063 join(":", empty, output);
1064 EXPECT_TRUE(output.empty());
1066 std::vector<std::string> input1 = { "1", "23", "456", "" };
1067 join(':', input1, output);
1068 EXPECT_EQ(output, "1:23:456:");
1069 output = join(':', input1);
1070 EXPECT_EQ(output, "1:23:456:");
1072 auto input2 = { 1, 23, 456 };
1073 join("-*-", input2, output);
1074 EXPECT_EQ(output, "1-*-23-*-456");
1075 output = join("-*-", input2);
1076 EXPECT_EQ(output, "1-*-23-*-456");
1078 auto input3 = { 'f', 'a', 'c', 'e', 'b', 'o', 'o', 'k' };
1079 join("", input3, output);
1080 EXPECT_EQ(output, "facebook");
1082 join("_", { "", "f", "a", "c", "e", "b", "o", "o", "k", "" }, output);
1083 EXPECT_EQ(output, "_f_a_c_e_b_o_o_k_");
1085 output = join("", input3.begin(), input3.end());
1086 EXPECT_EQ(output, "facebook");
1089 TEST(String, hexlify) {
1090 string input1 = "0123";
1092 EXPECT_TRUE(hexlify(input1, output1));
1093 EXPECT_EQ(output1, "30313233");
1095 fbstring input2 = "abcdefg";
1100 EXPECT_TRUE(hexlify(input2, output2));
1101 EXPECT_EQ(output2, "610063ff65b667");
1104 TEST(String, unhexlify) {
1105 string input1 = "30313233";
1107 EXPECT_TRUE(unhexlify(input1, output1));
1108 EXPECT_EQ(output1, "0123");
1110 fbstring input2 = "610063ff65b667";
1112 EXPECT_TRUE(unhexlify(input2, output2));
1113 EXPECT_EQ(output2.size(), 7);
1114 EXPECT_EQ(output2[0], 'a');
1115 EXPECT_EQ(output2[1], 0);
1116 EXPECT_EQ(output2[2], 'c');
1117 EXPECT_EQ(output2[3] & 0xff, 0xff);
1118 EXPECT_EQ(output2[4], 'e');
1119 EXPECT_EQ(output2[5] & 0xff, 0xb6);
1120 EXPECT_EQ(output2[6], 'g');
1122 string input3 = "x";
1124 EXPECT_FALSE(unhexlify(input3, output3));
1126 string input4 = "xy";
1128 EXPECT_FALSE(unhexlify(input4, output4));
1131 TEST(String, backslashify) {
1132 EXPECT_EQ("abc", string("abc"));
1133 EXPECT_EQ("abc", backslashify(string("abc")));
1134 EXPECT_EQ("abc\\r", backslashify(string("abc\r")));
1135 EXPECT_EQ("abc\\x0d", backslashify(string("abc\r"), true));
1136 EXPECT_EQ("\\0\\0", backslashify(string(2, '\0')));
1139 TEST(String, humanify) {
1140 // Simple cases; output is obvious.
1141 EXPECT_EQ("abc", humanify(string("abc")));
1142 EXPECT_EQ("abc\\\\r", humanify(string("abc\\r")));
1143 EXPECT_EQ("0xff", humanify(string("\xff")));
1144 EXPECT_EQ("abc\\xff", humanify(string("abc\xff")));
1145 EXPECT_EQ("abc\\b", humanify(string("abc\b")));
1146 EXPECT_EQ("0x00", humanify(string(1, '\0')));
1147 EXPECT_EQ("0x0000", humanify(string(2, '\0')));
1150 // Mostly printable, so backslash! 80, 60, and 40% printable, respectively
1151 EXPECT_EQ("aaaa\\xff", humanify(string("aaaa\xff")));
1152 EXPECT_EQ("aaa\\xff\\xff", humanify(string("aaa\xff\xff")));
1153 EXPECT_EQ("aa\\xff\\xff\\xff", humanify(string("aa\xff\xff\xff")));
1155 // 20% printable, and the printable portion isn't the prefix; hexify!
1156 EXPECT_EQ("0xff61ffffff", humanify(string("\xff" "a\xff\xff\xff")));
1158 // Same as previous, except swap first two chars; prefix is
1159 // printable and within the threshold, so backslashify.
1160 EXPECT_EQ("a\\xff\\xff\\xff\\xff", humanify(string("a\xff\xff\xff\xff")));
1162 // Just too much unprintable; hex, despite prefix.
1163 EXPECT_EQ("0x61ffffffffff", humanify(string("a\xff\xff\xff\xff\xff")));
1169 * Copy bytes from src to somewhere in the buffer referenced by dst. The
1170 * actual starting position of the copy will be the first address in the
1171 * destination buffer whose address mod 8 is equal to the src address mod 8.
1172 * The caller is responsible for ensuring that the destination buffer has
1173 * enough extra space to accommodate the shifted copy.
1175 char* copyWithSameAlignment(char* dst, const char* src, size_t length) {
1176 const char* originalDst = dst;
1177 size_t dstOffset = size_t(dst) & 0x7;
1178 size_t srcOffset = size_t(src) & 0x7;
1179 while (dstOffset != srcOffset) {
1184 CHECK(dst <= originalDst + 7);
1185 CHECK((size_t(dst) & 0x7) == (size_t(src) & 0x7));
1186 memcpy(dst, src, length);
1190 void testToLowerAscii(Range<const char*> src) {
1191 // Allocate extra space so we can make copies that start at the
1192 // same alignment (byte, word, quadword, etc) as the source buffer.
1193 char controlBuf[src.size() + 7];
1194 char* control = copyWithSameAlignment(controlBuf, src.begin(), src.size());
1196 char testBuf[src.size() + 7];
1197 char* test = copyWithSameAlignment(testBuf, src.begin(), src.size());
1199 for (size_t i = 0; i < src.size(); i++) {
1200 control[i] = tolower(control[i]);
1202 toLowerAscii(test, src.size());
1203 for (size_t i = 0; i < src.size(); i++) {
1204 EXPECT_EQ(control[i], test[i]);
1210 TEST(String, toLowerAsciiAligned) {
1211 static const size_t kSize = 256;
1213 for (size_t i = 0; i < kSize; i++) {
1214 input[i] = (char)(i & 0xff);
1216 testToLowerAscii(Range<const char*>(input, kSize));
1219 TEST(String, toLowerAsciiUnaligned) {
1220 static const size_t kSize = 256;
1222 for (size_t i = 0; i < kSize; i++) {
1223 input[i] = (char)(i & 0xff);
1225 // Test input buffers of several lengths to exercise all the
1226 // cases: buffer at the start/middle/end of an aligned block, plus
1227 // buffers that span multiple aligned blocks. The longest test input
1228 // is 3 unaligned bytes + 4 32-bit aligned bytes + 8 64-bit aligned
1229 // + 4 32-bit aligned + 3 unaligned = 22 bytes.
1230 for (size_t length = 1; length < 23; length++) {
1231 for (size_t offset = 0; offset + length <= kSize; offset++) {
1232 testToLowerAscii(Range<const char*>(input + offset, length));
1237 //////////////////////////////////////////////////////////////////////
1239 BENCHMARK(splitOnSingleChar, iters) {
1240 static const std::string line = "one:two:three:four";
1241 for (size_t i = 0; i < iters << 4; ++i) {
1242 std::vector<StringPiece> pieces;
1243 folly::split(':', line, pieces);
1247 BENCHMARK(splitOnSingleCharFixed, iters) {
1248 static const std::string line = "one:two:three:four";
1249 for (size_t i = 0; i < iters << 4; ++i) {
1250 StringPiece a, b, c, d;
1251 folly::split(':', line, a, b, c, d);
1255 BENCHMARK(splitOnSingleCharFixedAllowExtra, iters) {
1256 static const std::string line = "one:two:three:four";
1257 for (size_t i = 0; i < iters << 4; ++i) {
1258 StringPiece a, b, c, d;
1259 folly::split<false>(':', line, a, b, c, d);
1263 BENCHMARK(splitStr, iters) {
1264 static const std::string line = "one-*-two-*-three-*-four";
1265 for (size_t i = 0; i < iters << 4; ++i) {
1266 std::vector<StringPiece> pieces;
1267 folly::split("-*-", line, pieces);
1271 BENCHMARK(splitStrFixed, iters) {
1272 static const std::string line = "one-*-two-*-three-*-four";
1273 for (size_t i = 0; i < iters << 4; ++i) {
1274 StringPiece a, b, c, d;
1275 folly::split("-*-", line, a, b, c, d);
1279 BENCHMARK(boost_splitOnSingleChar, iters) {
1280 static const std::string line = "one:two:three:four";
1281 bool(*pred)(char) = [] (char c) -> bool { return c == ':'; };
1282 for (size_t i = 0; i < iters << 4; ++i) {
1283 std::vector<boost::iterator_range<std::string::const_iterator> > pieces;
1284 boost::split(pieces, line, pred);
1288 BENCHMARK(joinCharStr, iters) {
1289 static const std::vector<std::string> input = {
1290 "one", "two", "three", "four", "five", "six", "seven" };
1291 for (size_t i = 0; i < iters << 4; ++i) {
1293 folly::join(':', input, output);
1297 BENCHMARK(joinStrStr, iters) {
1298 static const std::vector<std::string> input = {
1299 "one", "two", "three", "four", "five", "six", "seven" };
1300 for (size_t i = 0; i < iters << 4; ++i) {
1302 folly::join(":", input, output);
1306 BENCHMARK(joinInt, iters) {
1307 static const auto input = {
1308 123, 456, 78910, 1112, 1314, 151, 61718 };
1309 for (size_t i = 0; i < iters << 4; ++i) {
1311 folly::join(":", input, output);
1315 int main(int argc, char *argv[]) {
1316 testing::InitGoogleTest(&argc, argv);
1317 gflags::ParseCommandLineFlags(&argc, &argv, true);
1318 auto ret = RUN_ALL_TESTS();
1321 if (FLAGS_benchmark) {
1322 folly::runBenchmarks();