xref: /freebsd/contrib/kyua/utils/datetime.cpp (revision d9a42747950146bf03cda7f6e25d219253f8a57a)
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28 
29 #include "utils/datetime.hpp"
30 
31 extern "C" {
32 #include <sys/time.h>
33 
34 #include <time.h>
35 }
36 
37 #include <stdexcept>
38 
39 #include "utils/format/macros.hpp"
40 #include "utils/optional.ipp"
41 #include "utils/noncopyable.hpp"
42 #include "utils/sanity.hpp"
43 
44 namespace datetime = utils::datetime;
45 
46 using utils::none;
47 using utils::optional;
48 
49 
50 namespace {
51 
52 
53 /// Fake value for the current time.
54 static optional< datetime::timestamp > mock_now = none;
55 
56 
57 }  // anonymous namespace
58 
59 
60 /// Creates a zero time delta.
61 datetime::delta::delta(void) :
62     seconds(0),
63     useconds(0)
64 {
65 }
66 
67 
68 /// Creates a time delta.
69 ///
70 /// \param seconds_ The seconds in the delta.
71 /// \param useconds_ The microseconds in the delta.
72 ///
73 /// \throw std::runtime_error If the input delta is negative.
74 datetime::delta::delta(const int64_t seconds_,
75                        const unsigned long useconds_) :
76     seconds(seconds_),
77     useconds(useconds_)
78 {
79     if (seconds_ < 0) {
80         throw std::runtime_error(F("Negative deltas are not supported by the "
81                                    "datetime::delta class; got: %s") % (*this));
82     }
83 }
84 
85 
86 /// Converts a time expressed in microseconds to a delta.
87 ///
88 /// \param useconds The amount of microseconds representing the delta.
89 ///
90 /// \return A new delta object.
91 ///
92 /// \throw std::runtime_error If the input delta is negative.
93 datetime::delta
94 datetime::delta::from_microseconds(const int64_t useconds)
95 {
96     if (useconds < 0) {
97         throw std::runtime_error(F("Negative deltas are not supported by the "
98                                    "datetime::delta class; got: %sus") %
99                                  useconds);
100     }
101 
102     return delta(useconds / 1000000, useconds % 1000000);
103 }
104 
105 
106 /// Convers the delta to a flat representation expressed in microseconds.
107 ///
108 /// \return The amount of microseconds that corresponds to this delta.
109 int64_t
110 datetime::delta::to_microseconds(void) const
111 {
112     return seconds * 1000000 + useconds;
113 }
114 
115 
116 /// Checks if two time deltas are equal.
117 ///
118 /// \param other The object to compare to.
119 ///
120 /// \return True if the two time deltas are equals; false otherwise.
121 bool
122 datetime::delta::operator==(const datetime::delta& other) const
123 {
124     return seconds == other.seconds && useconds == other.useconds;
125 }
126 
127 
128 /// Checks if two time deltas are different.
129 ///
130 /// \param other The object to compare to.
131 ///
132 /// \return True if the two time deltas are different; false otherwise.
133 bool
134 datetime::delta::operator!=(const datetime::delta& other) const
135 {
136     return !(*this == other);
137 }
138 
139 
140 /// Checks if this time delta is shorter than another one.
141 ///
142 /// \param other The object to compare to.
143 ///
144 /// \return True if this time delta is shorter than other; false otherwise.
145 bool
146 datetime::delta::operator<(const datetime::delta& other) const
147 {
148     return seconds < other.seconds ||
149         (seconds == other.seconds && useconds < other.useconds);
150 }
151 
152 
153 /// Checks if this time delta is shorter than or equal to another one.
154 ///
155 /// \param other The object to compare to.
156 ///
157 /// \return True if this time delta is shorter than or equal to; false
158 /// otherwise.
159 bool
160 datetime::delta::operator<=(const datetime::delta& other) const
161 {
162     return (*this) < other || (*this) == other;
163 }
164 
165 
166 /// Checks if this time delta is larger than another one.
167 ///
168 /// \param other The object to compare to.
169 ///
170 /// \return True if this time delta is larger than other; false otherwise.
171 bool
172 datetime::delta::operator>(const datetime::delta& other) const
173 {
174     return seconds > other.seconds ||
175         (seconds == other.seconds && useconds > other.useconds);
176 }
177 
178 
179 /// Checks if this time delta is larger than or equal to another one.
180 ///
181 /// \param other The object to compare to.
182 ///
183 /// \return True if this time delta is larger than or equal to; false
184 /// otherwise.
185 bool
186 datetime::delta::operator>=(const datetime::delta& other) const
187 {
188     return (*this) > other || (*this) == other;
189 }
190 
191 
192 /// Adds a time delta to this one.
193 ///
194 /// \param other The time delta to add.
195 ///
196 /// \return The addition of this time delta with the other time delta.
197 datetime::delta
198 datetime::delta::operator+(const datetime::delta& other) const
199 {
200     return delta::from_microseconds(to_microseconds() +
201                                     other.to_microseconds());
202 }
203 
204 
205 /// Adds a time delta to this one and updates this with the result.
206 ///
207 /// \param other The time delta to add.
208 ///
209 /// \return The addition of this time delta with the other time delta.
210 datetime::delta&
211 datetime::delta::operator+=(const datetime::delta& other)
212 {
213     *this = *this + other;
214     return *this;
215 }
216 
217 
218 /// Scales this delta by a positive integral factor.
219 ///
220 /// \param factor The scaling factor.
221 ///
222 /// \return The scaled delta.
223 datetime::delta
224 datetime::delta::operator*(const std::size_t factor) const
225 {
226     return delta::from_microseconds(to_microseconds() * factor);
227 }
228 
229 
230 /// Scales this delta by and updates this delta with the result.
231 ///
232 /// \param factor The scaling factor.
233 ///
234 /// \return The scaled delta as a reference to the input object.
235 datetime::delta&
236 datetime::delta::operator*=(const std::size_t factor)
237 {
238     *this = *this * factor;
239     return *this;
240 }
241 
242 
243 /// Injects the object into a stream.
244 ///
245 /// \param output The stream into which to inject the object.
246 /// \param object The object to format.
247 ///
248 /// \return The output stream.
249 std::ostream&
250 datetime::operator<<(std::ostream& output, const delta& object)
251 {
252     return (output << object.to_microseconds() << "us");
253 }
254 
255 
256 namespace utils {
257 namespace datetime {
258 
259 
260 /// Internal representation for datetime::timestamp.
261 struct timestamp::impl : utils::noncopyable {
262     /// The raw timestamp as provided by libc.
263     ::timeval data;
264 
265     /// Constructs an impl object from initialized data.
266     ///
267     /// \param data_ The raw timestamp to use.
268     impl(const ::timeval& data_) : data(data_)
269     {
270     }
271 };
272 
273 
274 }  // namespace datetime
275 }  // namespace utils
276 
277 
278 /// Constructs a new timestamp.
279 ///
280 /// \param pimpl_ An existing impl representation.
281 datetime::timestamp::timestamp(std::shared_ptr< impl > pimpl_) :
282     _pimpl(pimpl_)
283 {
284 }
285 
286 
287 /// Constructs a timestamp from the amount of microseconds since the epoch.
288 ///
289 /// \param value Microseconds since the epoch in UTC.  Must be positive.
290 ///
291 /// \return A new timestamp.
292 datetime::timestamp
293 datetime::timestamp::from_microseconds(const int64_t value)
294 {
295     PRE(value >= 0);
296     ::timeval data;
297     data.tv_sec = static_cast< time_t >(value / 1000000);
298     data.tv_usec = static_cast< suseconds_t >(value % 1000000);
299     return timestamp(std::shared_ptr< impl >(new impl(data)));
300 }
301 
302 
303 /// Constructs a timestamp based on user-friendly values.
304 ///
305 /// \param year The year in the [1900,inf) range.
306 /// \param month The month in the [1,12] range.
307 /// \param day The day in the [1,30] range.
308 /// \param hour The hour in the [0,23] range.
309 /// \param minute The minute in the [0,59] range.
310 /// \param second The second in the [0,60] range.  Yes, that is 60, which can be
311 ///     the case on leap seconds.
312 /// \param microsecond The microsecond in the [0,999999] range.
313 ///
314 /// \return A new timestamp.
315 datetime::timestamp
316 datetime::timestamp::from_values(const int year, const int month,
317                                  const int day, const int hour,
318                                  const int minute, const int second,
319                                  const int microsecond)
320 {
321     PRE(year >= 1900);
322     PRE(month >= 1 && month <= 12);
323     PRE(day >= 1 && day <= 30);
324     PRE(hour >= 0 && hour <= 23);
325     PRE(minute >= 0 && minute <= 59);
326     PRE(second >= 0 && second <= 60);
327     PRE(microsecond >= 0 && microsecond <= 999999);
328 
329     // The code below is quite convoluted.  The problem is that we can't assume
330     // that some fields (like tm_zone) of ::tm exist, and thus we can't blindly
331     // set them from the code.  Instead of detecting their presence in the
332     // configure script, we just query the current time to initialize such
333     // fields and then we override the ones we are interested in.  (There might
334     // be some better way to do this, but I don't know it and the documentation
335     // does not shed much light into how to create your own fake date.)
336 
337     const time_t current_time = ::time(NULL);
338 
339     ::tm timedata;
340     if (::gmtime_r(&current_time, &timedata) == NULL)
341         UNREACHABLE;
342 
343     timedata.tm_sec = second;
344     timedata.tm_min = minute;
345     timedata.tm_hour = hour;
346     timedata.tm_mday = day;
347     timedata.tm_mon = month - 1;
348     timedata.tm_year = year - 1900;
349     // Ignored: timedata.tm_wday
350     // Ignored: timedata.tm_yday
351 
352     ::timeval data;
353     data.tv_sec = ::mktime(&timedata);
354     data.tv_usec = static_cast< suseconds_t >(microsecond);
355     return timestamp(std::shared_ptr< impl >(new impl(data)));
356 }
357 
358 
359 /// Constructs a new timestamp representing the current time in UTC.
360 ///
361 /// \return A new timestamp.
362 datetime::timestamp
363 datetime::timestamp::now(void)
364 {
365     if (mock_now)
366         return mock_now.get();
367 
368     ::timeval data;
369     {
370         const int ret = ::gettimeofday(&data, NULL);
371         INV(ret != -1);
372     }
373 
374     return timestamp(std::shared_ptr< impl >(new impl(data)));
375 }
376 
377 
378 /// Formats a timestamp.
379 ///
380 /// \param format The format string to use as consumed by strftime(3).
381 ///
382 /// \return The formatted time.
383 std::string
384 datetime::timestamp::strftime(const std::string& format) const
385 {
386     ::tm timedata;
387     // This conversion to time_t is necessary because tv_sec is not guaranteed
388     // to be a time_t.  For example, it isn't in NetBSD 5.x
389     ::time_t epoch_seconds;
390     epoch_seconds = _pimpl->data.tv_sec;
391     if (::gmtime_r(&epoch_seconds, &timedata) == NULL)
392         UNREACHABLE_MSG("gmtime_r(3) did not accept the value returned by "
393                         "gettimeofday(2)");
394 
395     char buf[128];
396     if (::strftime(buf, sizeof(buf), format.c_str(), &timedata) == 0)
397         UNREACHABLE_MSG("Arbitrary-long format strings are unimplemented");
398     return buf;
399 }
400 
401 
402 /// Formats a timestamp with the ISO 8601 standard and in UTC.
403 ///
404 /// \return A string with the formatted timestamp.
405 std::string
406 datetime::timestamp::to_iso8601_in_utc(void) const
407 {
408     return F("%s.%06sZ") % strftime("%Y-%m-%dT%H:%M:%S") % _pimpl->data.tv_usec;
409 }
410 
411 
412 /// Returns the number of microseconds since the epoch in UTC.
413 ///
414 /// \return A number of microseconds.
415 int64_t
416 datetime::timestamp::to_microseconds(void) const
417 {
418     return static_cast< int64_t >(_pimpl->data.tv_sec) * 1000000 +
419         _pimpl->data.tv_usec;
420 }
421 
422 
423 /// Returns the number of seconds since the epoch in UTC.
424 ///
425 /// \return A number of seconds.
426 int64_t
427 datetime::timestamp::to_seconds(void) const
428 {
429     return static_cast< int64_t >(_pimpl->data.tv_sec);
430 }
431 
432 
433 /// Sets the current time for testing purposes.
434 void
435 datetime::set_mock_now(const int year, const int month,
436                        const int day, const int hour,
437                        const int minute, const int second,
438                        const int microsecond)
439 {
440     mock_now = timestamp::from_values(year, month, day, hour, minute, second,
441                                       microsecond);
442 }
443 
444 
445 /// Sets the current time for testing purposes.
446 ///
447 /// \param mock_now_ The mock timestamp to set the time to.
448 void
449 datetime::set_mock_now(const timestamp& mock_now_)
450 {
451     mock_now = mock_now_;
452 }
453 
454 
455 /// Checks if two timestamps are equal.
456 ///
457 /// \param other The object to compare to.
458 ///
459 /// \return True if the two timestamps are equals; false otherwise.
460 bool
461 datetime::timestamp::operator==(const datetime::timestamp& other) const
462 {
463     return _pimpl->data.tv_sec == other._pimpl->data.tv_sec &&
464         _pimpl->data.tv_usec == other._pimpl->data.tv_usec;
465 }
466 
467 
468 /// Checks if two timestamps are different.
469 ///
470 /// \param other The object to compare to.
471 ///
472 /// \return True if the two timestamps are different; false otherwise.
473 bool
474 datetime::timestamp::operator!=(const datetime::timestamp& other) const
475 {
476     return !(*this == other);
477 }
478 
479 
480 /// Checks if a timestamp is before another.
481 ///
482 /// \param other The object to compare to.
483 ///
484 /// \return True if this timestamp comes before other; false otherwise.
485 bool
486 datetime::timestamp::operator<(const datetime::timestamp& other) const
487 {
488     return to_microseconds() < other.to_microseconds();
489 }
490 
491 
492 /// Checks if a timestamp is before or equal to another.
493 ///
494 /// \param other The object to compare to.
495 ///
496 /// \return True if this timestamp comes before other or is equal to it;
497 /// false otherwise.
498 bool
499 datetime::timestamp::operator<=(const datetime::timestamp& other) const
500 {
501     return to_microseconds() <= other.to_microseconds();
502 }
503 
504 
505 /// Checks if a timestamp is after another.
506 ///
507 /// \param other The object to compare to.
508 ///
509 /// \return True if this timestamp comes after other; false otherwise;
510 bool
511 datetime::timestamp::operator>(const datetime::timestamp& other) const
512 {
513     return to_microseconds() > other.to_microseconds();
514 }
515 
516 
517 /// Checks if a timestamp is after or equal to another.
518 ///
519 /// \param other The object to compare to.
520 ///
521 /// \return True if this timestamp comes after other or is equal to it;
522 /// false otherwise.
523 bool
524 datetime::timestamp::operator>=(const datetime::timestamp& other) const
525 {
526     return to_microseconds() >= other.to_microseconds();
527 }
528 
529 
530 /// Calculates the addition of a delta to a timestamp.
531 ///
532 /// \param other The delta to add.
533 ///
534 /// \return A new timestamp in the future.
535 datetime::timestamp
536 datetime::timestamp::operator+(const datetime::delta& other) const
537 {
538     return datetime::timestamp::from_microseconds(to_microseconds() +
539                                                   other.to_microseconds());
540 }
541 
542 
543 /// Calculates the addition of a delta to this timestamp.
544 ///
545 /// \param other The delta to add.
546 ///
547 /// \return A reference to the modified timestamp.
548 datetime::timestamp&
549 datetime::timestamp::operator+=(const datetime::delta& other)
550 {
551     *this = *this + other;
552     return *this;
553 }
554 
555 
556 /// Calculates the subtraction of a delta from a timestamp.
557 ///
558 /// \param other The delta to subtract.
559 ///
560 /// \return A new timestamp in the past.
561 datetime::timestamp
562 datetime::timestamp::operator-(const datetime::delta& other) const
563 {
564     return datetime::timestamp::from_microseconds(to_microseconds() -
565                                                   other.to_microseconds());
566 }
567 
568 
569 /// Calculates the subtraction of a delta from this timestamp.
570 ///
571 /// \param other The delta to subtract.
572 ///
573 /// \return A reference to the modified timestamp.
574 datetime::timestamp&
575 datetime::timestamp::operator-=(const datetime::delta& other)
576 {
577     *this = *this - other;
578     return *this;
579 }
580 
581 
582 /// Calculates the delta between two timestamps.
583 ///
584 /// \param other The subtrahend.
585 ///
586 /// \return The difference between this object and the other object.
587 ///
588 /// \throw std::runtime_error If the subtraction would result in a negative time
589 ///     delta, which are currently not supported.
590 datetime::delta
591 datetime::timestamp::operator-(const datetime::timestamp& other) const
592 {
593     if ((*this) < other) {
594         throw std::runtime_error(
595             F("Cannot subtract %s from %s as it would result in a negative "
596               "datetime::delta, which are not supported") % other % (*this));
597     }
598     return datetime::delta::from_microseconds(to_microseconds() -
599                                               other.to_microseconds());
600 }
601 
602 
603 /// Injects the object into a stream.
604 ///
605 /// \param output The stream into which to inject the object.
606 /// \param object The object to format.
607 ///
608 /// \return The output stream.
609 std::ostream&
610 datetime::operator<<(std::ostream& output, const timestamp& object)
611 {
612     return (output << object.to_microseconds() << "us");
613 }
614