File | /usr/local/lib/perl5/5.8.8/Time/Local.pm |
Statements Executed | 109 |
Statement Execution Time | 4.39ms |
Calls | P | F | Exclusive Time |
Inclusive Time |
Subroutine |
---|---|---|---|---|---|
6 | 3 | 1 | 231µs | 282µs | _daygm | Time::Local::
1 | 1 | 1 | 143µs | 643µs | timelocal | Time::Local::
2 | 2 | 1 | 118µs | 275µs | _zoneadjust | Time::Local::
4 | 3 | 1 | 118µs | 279µs | _timegm | Time::Local::
1 | 1 | 1 | 60µs | 103µs | timegm | Time::Local::
6 | 1 | 2 | 51µs | 51µs | CORE:pack (opcode) | Time::Local::
1 | 1 | 1 | 36µs | 679µs | timelocal_nocheck | Time::Local::
0 | 0 | 0 | 0s | 0s | BEGIN | Time::Local::
0 | 0 | 0 | 0s | 0s | timegm_nocheck | Time::Local::
Line | State ments |
Time on line |
Calls | Time in subs |
Code |
---|---|---|---|---|---|
1 | package Time::Local; | ||||
2 | |||||
3 | 1 | 6µs | require Exporter; | ||
4 | 3 | 98µs | 1 | 237µs | use Carp; # spent 237µs making 1 call to Exporter::import |
5 | 3 | 78µs | 1 | 64µs | use Config; # spent 64µs making 1 call to Config::import |
6 | 3 | 87µs | 1 | 21µs | use strict; # spent 21µs making 1 call to strict::import |
7 | 3 | 474µs | 1 | 16µs | use integer; # spent 16µs making 1 call to integer::import |
8 | |||||
9 | 3 | 497µs | 1 | 390µs | use vars qw( $VERSION @ISA @EXPORT @EXPORT_OK ); # spent 390µs making 1 call to vars::import |
10 | 1 | 5µs | $VERSION = '1.11'; | ||
11 | 1 | 63µs | $VERSION = eval $VERSION; | ||
12 | 1 | 9µs | @ISA = qw( Exporter ); | ||
13 | 1 | 6µs | @EXPORT = qw( timegm timelocal ); | ||
14 | 1 | 7µs | @EXPORT_OK = qw( timegm_nocheck timelocal_nocheck ); | ||
15 | |||||
16 | 1 | 7µs | my @MonthDays = (31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31); | ||
17 | |||||
18 | # Determine breakpoint for rolling century | ||||
19 | 1 | 36µs | my $ThisYear = (localtime())[5]; | ||
20 | 1 | 7µs | my $Breakpoint = ($ThisYear + 50) % 100; | ||
21 | 1 | 5µs | my $NextCentury = $ThisYear - $ThisYear % 100; | ||
22 | 1 | 4µs | $NextCentury += 100 if $Breakpoint < 50; | ||
23 | 1 | 4µs | my $Century = $NextCentury - 100; | ||
24 | 1 | 4µs | my $SecOff = 0; | ||
25 | |||||
26 | 1 | 5µs | my (%Options, %Cheat, %Min, %Max); | ||
27 | 1 | 4µs | my ($MinInt, $MaxInt); | ||
28 | |||||
29 | 4 | 54µs | if ($^O eq 'MacOS') { | ||
30 | # time_t is unsigned... | ||||
31 | $MaxInt = (1 << (8 * $Config{intsize})) - 1; | ||||
32 | $MinInt = 0; | ||||
33 | } else { | ||||
34 | 1 | 13µs | 1 | 26µs | $MaxInt = ((1 << (8 * $Config{intsize} - 2))-1)*2 + 1; # spent 26µs making 1 call to Config::FETCH |
35 | $MinInt = -$MaxInt - 1; | ||||
36 | |||||
37 | # On Win32 (and others?) time_t appears to be signed, but negative | ||||
38 | # epochs still don't work. - XXX - this is experimental | ||||
39 | $MinInt = 0 | ||||
40 | unless defined ((localtime(-1))[0]); | ||||
41 | } | ||||
42 | |||||
43 | 1 | 6µs | $Max{Day} = ($MaxInt >> 1) / 43200; | ||
44 | 1 | 6µs | $Min{Day} = $MinInt ? -($Max{Day} + 1) : 0; | ||
45 | |||||
46 | 1 | 5µs | $Max{Sec} = $MaxInt - 86400 * $Max{Day}; | ||
47 | 1 | 4µs | $Min{Sec} = $MinInt - 86400 * $Min{Day}; | ||
48 | |||||
49 | # Determine the EPOC day for this machine | ||||
50 | 1 | 4µs | my $Epoc = 0; | ||
51 | 2 | 37µs | if ($^O eq 'vos') { | ||
52 | # work around posix-977 -- VOS doesn't handle dates in | ||||
53 | # the range 1970-1980. | ||||
54 | $Epoc = _daygm((0, 0, 0, 1, 0, 70, 4, 0)); | ||||
55 | } | ||||
56 | elsif ($^O eq 'MacOS') { | ||||
57 | 3 | 503µs | 1 | 17µs | no integer; # spent 17µs making 1 call to integer::unimport |
58 | |||||
59 | # MacOS time() is seconds since 1 Jan 1904, localtime | ||||
60 | # so we need to calculate an offset to apply later | ||||
61 | $Epoc = 693901; | ||||
62 | $SecOff = timelocal(localtime(0)) - timelocal(gmtime(0)); | ||||
63 | $Epoc += _daygm(gmtime(0)); | ||||
64 | } | ||||
65 | else { | ||||
66 | $Epoc = _daygm(gmtime(0)); # spent 78µs making 1 call to Time::Local::_daygm | ||||
67 | } | ||||
68 | |||||
69 | 1 | 6µs | %Cheat=(); # clear the cache as epoc has changed | ||
70 | |||||
71 | sub _daygm { | ||||
72 | 18 | 305µs | 6 | 51µs | $_[3] + ($Cheat{pack("ss",@_[4,5])} ||= do { # spent 51µs making 6 calls to Time::Local::CORE:pack, avg 8µs/call |
73 | my $month = ($_[4] + 10) % 12; | ||||
74 | my $year = $_[5] + 1900 - $month/10; | ||||
75 | 365*$year + $year/4 - $year/100 + $year/400 + ($month*306 + 5)/10 - $Epoc | ||||
76 | }); | ||||
77 | } | ||||
78 | |||||
79 | |||||
80 | sub _timegm { | ||||
81 | 8 | 117µs | my $sec = $SecOff + $_[0] + 60 * $_[1] + 3600 * $_[2]; | ||
82 | |||||
83 | 3 | 872µs | 1 | 20µs | no integer; # spent 20µs making 1 call to integer::unimport |
84 | |||||
85 | $sec + 86400 * &_daygm; # spent 161µs making 4 calls to Time::Local::_daygm, avg 40µs/call | ||||
86 | } | ||||
87 | |||||
88 | |||||
89 | sub _zoneadjust { | ||||
90 | 10 | 111µs | my ($day, $sec, $time) = @_; | ||
91 | |||||
92 | $sec = $sec + _timegm(localtime($time)) - $time; # spent 157µs making 2 calls to Time::Local::_timegm, avg 78µs/call | ||||
93 | 2 | 8µs | if ($sec >= 86400) { $day++; $sec -= 86400; } | ||
94 | if ($sec < 0) { $day--; $sec += 86400; } | ||||
95 | |||||
96 | ($day, $sec); | ||||
97 | } | ||||
98 | |||||
99 | |||||
100 | # spent 103µs (60+43) within Time::Local::timegm which was called
# once (60µs+43µs) by Time::Local::timelocal at line 160 | ||||
101 | 7 | 59µs | my ($sec,$min,$hour,$mday,$month,$year) = @_; | ||
102 | |||||
103 | if ($year >= 1000) { | ||||
104 | $year -= 1900; | ||||
105 | } | ||||
106 | elsif ($year < 100 and $year >= 0) { | ||||
107 | $year += ($year > $Breakpoint) ? $Century : $NextCentury; | ||||
108 | } | ||||
109 | |||||
110 | unless ($Options{no_range_check}) { | ||||
111 | if (abs($year) >= 0x7fff) { | ||||
112 | $year += 1900; | ||||
113 | croak "Cannot handle date ($sec, $min, $hour, $mday, $month, *$year*)"; | ||||
114 | } | ||||
115 | |||||
116 | croak "Month '$month' out of range 0..11" if $month > 11 or $month < 0; | ||||
117 | |||||
118 | my $md = $MonthDays[$month]; | ||||
119 | # ++$md if $month == 1 and $year % 4 == 0 and | ||||
120 | # ($year % 100 != 0 or ($year + 1900) % 400 == 0); | ||||
121 | ++$md unless $month != 1 or $year % 4 or !($year % 400); | ||||
122 | |||||
123 | croak "Day '$mday' out of range 1..$md" if $mday > $md or $mday < 1; | ||||
124 | croak "Hour '$hour' out of range 0..23" if $hour > 23 or $hour < 0; | ||||
125 | croak "Minute '$min' out of range 0..59" if $min > 59 or $min < 0; | ||||
126 | croak "Second '$sec' out of range 0..59" if $sec > 59 or $sec < 0; | ||||
127 | } | ||||
128 | |||||
129 | my $days = _daygm(undef, undef, undef, $mday, $month, $year); # spent 43µs making 1 call to Time::Local::_daygm | ||||
130 | my $xsec = $sec + $SecOff + 60*$min + 3600*$hour; | ||||
131 | |||||
132 | unless ($Options{no_range_check} | ||||
133 | or ($days > $Min{Day} or $days == $Min{Day} and $xsec >= $Min{Sec}) | ||||
134 | and ($days < $Max{Day} or $days == $Max{Day} and $xsec <= $Max{Sec})) | ||||
135 | { | ||||
136 | warn "Day too small - $days > $Min{Day}\n" if $days < $Min{Day}; | ||||
137 | warn "Day too big - $days > $Max{Day}\n" if $days > $Max{Day}; | ||||
138 | warn "Sec too small - $days < $Min{Sec}\n" if $days < $Min{Sec}; | ||||
139 | warn "Sec too big - $days > $Max{Sec}\n" if $days > $Max{Sec}; | ||||
140 | $year += 1900; | ||||
141 | croak "Cannot handle date ($sec, $min, $hour, $mday, $month, $year)"; | ||||
142 | } | ||||
143 | |||||
144 | 3 | 653µs | 1 | 18µs | no integer; # spent 18µs making 1 call to integer::unimport |
145 | |||||
146 | $xsec + 86400 * $days; | ||||
147 | } | ||||
148 | |||||
149 | |||||
150 | sub timegm_nocheck { | ||||
151 | local $Options{no_range_check} = 1; | ||||
152 | &timegm; | ||||
153 | } | ||||
154 | |||||
155 | |||||
156 | # spent 643µs (143+500) within Time::Local::timelocal which was called
# once (143µs+500µs) by Time::Local::timelocal_nocheck at line 199 | ||||
157 | # Adjust Max/Min allowed times to fit local time zone and call timegm | ||||
158 | 9 | 130µs | 1 | 146µs | local ($Max{Day}, $Max{Sec}) = _zoneadjust($Max{Day}, $Max{Sec}, $MaxInt); # spent 146µs making 1 call to Time::Local::_zoneadjust |
159 | local ($Min{Day}, $Min{Sec}) = _zoneadjust($Min{Day}, $Min{Sec}, $MinInt); # spent 129µs making 1 call to Time::Local::_zoneadjust | ||||
160 | my $ref_t = &timegm; # spent 103µs making 1 call to Time::Local::timegm | ||||
161 | |||||
162 | # Calculate first guess with a one-day delta to avoid localtime overflow | ||||
163 | my $delta = ($_[5] < 100)? 86400 : -86400; | ||||
164 | my $loc_t = _timegm(localtime( $ref_t + $delta )) - $delta; # spent 51µs making 1 call to Time::Local::_timegm | ||||
165 | |||||
166 | # Is there a timezone offset from GMT or are we done | ||||
167 | my $zone_off = $ref_t - $loc_t | ||||
168 | or return $loc_t; | ||||
169 | |||||
170 | # This hack is needed to always pick the first matching time | ||||
171 | # during a DST change when time would otherwise be ambiguous | ||||
172 | $zone_off -= 3600 if ($delta > 0 && $ref_t >= 3600); | ||||
173 | |||||
174 | # Adjust for timezone | ||||
175 | $loc_t = $ref_t + $zone_off; | ||||
176 | |||||
177 | # Are we close to a DST change or are we done | ||||
178 | my $dst_off = $ref_t - _timegm(localtime($loc_t)) # spent 71µs making 1 call to Time::Local::_timegm | ||||
179 | or return $loc_t; | ||||
180 | |||||
181 | # Adjust for DST change | ||||
182 | $loc_t += $dst_off; | ||||
183 | |||||
184 | return $loc_t if $dst_off >= 0; | ||||
185 | |||||
186 | # for a negative offset from GMT, and if the original date | ||||
187 | # was a non-extent gap in a forward DST jump, we should | ||||
188 | # now have the wrong answer - undo the DST adjust; | ||||
189 | |||||
190 | my ($s,$m,$h) = localtime($loc_t); | ||||
191 | $loc_t -= $dst_off if $s != $_[0] || $m != $_[1] || $h != $_[2]; | ||||
192 | |||||
193 | $loc_t; | ||||
194 | } | ||||
195 | |||||
196 | |||||
197 | # spent 679µs (36+643) within Time::Local::timelocal_nocheck which was called
# once (36µs+643µs) by Class::Date::__ANON__[/project/perl/lib/Class/Date.pm:290] at line 288 of Class/Date.pm | ||||
198 | 2 | 34µs | local $Options{no_range_check} = 1; | ||
199 | &timelocal; # spent 643µs making 1 call to Time::Local::timelocal | ||||
200 | } | ||||
201 | |||||
202 | 1 | 56µs | 1; | ||
203 | |||||
204 | __END__ | ||||
205 | |||||
206 | =head1 NAME | ||||
207 | |||||
208 | Time::Local - efficiently compute time from local and GMT time | ||||
209 | |||||
210 | =head1 SYNOPSIS | ||||
211 | |||||
212 | $time = timelocal($sec,$min,$hour,$mday,$mon,$year); | ||||
213 | $time = timegm($sec,$min,$hour,$mday,$mon,$year); | ||||
214 | |||||
215 | =head1 DESCRIPTION | ||||
216 | |||||
217 | These routines are the inverse of built-in perl functions localtime() | ||||
218 | and gmtime(). They accept a date as a six-element array, and return | ||||
219 | the corresponding time(2) value in seconds since the system epoch | ||||
220 | (Midnight, January 1, 1970 GMT on Unix, for example). This value can | ||||
221 | be positive or negative, though POSIX only requires support for | ||||
222 | positive values, so dates before the system's epoch may not work on | ||||
223 | all operating systems. | ||||
224 | |||||
225 | It is worth drawing particular attention to the expected ranges for | ||||
226 | the values provided. The value for the day of the month is the actual day | ||||
227 | (ie 1..31), while the month is the number of months since January (0..11). | ||||
228 | This is consistent with the values returned from localtime() and gmtime(). | ||||
229 | |||||
230 | The timelocal() and timegm() functions perform range checking on the | ||||
231 | input $sec, $min, $hour, $mday, and $mon values by default. If you'd | ||||
232 | rather they didn't, you can explicitly import the timelocal_nocheck() | ||||
233 | and timegm_nocheck() functions. | ||||
234 | |||||
235 | use Time::Local 'timelocal_nocheck'; | ||||
236 | |||||
237 | { | ||||
238 | # The 365th day of 1999 | ||||
239 | print scalar localtime timelocal_nocheck 0,0,0,365,0,99; | ||||
240 | |||||
241 | # The twenty thousandth day since 1970 | ||||
242 | print scalar localtime timelocal_nocheck 0,0,0,20000,0,70; | ||||
243 | |||||
244 | # And even the 10,000,000th second since 1999! | ||||
245 | print scalar localtime timelocal_nocheck 10000000,0,0,1,0,99; | ||||
246 | } | ||||
247 | |||||
248 | Your mileage may vary when trying these with minutes and hours, | ||||
249 | and it doesn't work at all for months. | ||||
250 | |||||
251 | Strictly speaking, the year should also be specified in a form consistent | ||||
252 | with localtime(), i.e. the offset from 1900. | ||||
253 | In order to make the interpretation of the year easier for humans, | ||||
254 | however, who are more accustomed to seeing years as two-digit or four-digit | ||||
255 | values, the following conventions are followed: | ||||
256 | |||||
257 | =over 4 | ||||
258 | |||||
259 | =item * | ||||
260 | |||||
261 | Years greater than 999 are interpreted as being the actual year, | ||||
262 | rather than the offset from 1900. Thus, 1964 would indicate the year | ||||
263 | Martin Luther King won the Nobel prize, not the year 3864. | ||||
264 | |||||
265 | =item * | ||||
266 | |||||
267 | Years in the range 100..999 are interpreted as offset from 1900, | ||||
268 | so that 112 indicates 2012. This rule also applies to years less than zero | ||||
269 | (but see note below regarding date range). | ||||
270 | |||||
271 | =item * | ||||
272 | |||||
273 | Years in the range 0..99 are interpreted as shorthand for years in the | ||||
274 | rolling "current century," defined as 50 years on either side of the current | ||||
275 | year. Thus, today, in 1999, 0 would refer to 2000, and 45 to 2045, | ||||
276 | but 55 would refer to 1955. Twenty years from now, 55 would instead refer | ||||
277 | to 2055. This is messy, but matches the way people currently think about | ||||
278 | two digit dates. Whenever possible, use an absolute four digit year instead. | ||||
279 | |||||
280 | =back | ||||
281 | |||||
282 | The scheme above allows interpretation of a wide range of dates, particularly | ||||
283 | if 4-digit years are used. | ||||
284 | |||||
285 | Please note, however, that the range of dates that can be actually be handled | ||||
286 | depends on the size of an integer (time_t) on a given platform. | ||||
287 | Currently, this is 32 bits for most systems, yielding an approximate range | ||||
288 | from Dec 1901 to Jan 2038. | ||||
289 | |||||
290 | Both timelocal() and timegm() croak if given dates outside the supported | ||||
291 | range. | ||||
292 | |||||
293 | =head2 Ambiguous Local Times (DST) | ||||
294 | |||||
295 | Because of DST changes, there are many time zones where the same local | ||||
296 | time occurs for two different GMT times on the same day. For example, | ||||
297 | in the "Europe/Paris" time zone, the local time of 2001-10-28 02:30:00 | ||||
298 | can represent either 2001-10-28 00:30:00 GMT, B<or> 2001-10-28 | ||||
299 | 01:30:00 GMT. | ||||
300 | |||||
301 | When given an ambiguous local time, the timelocal() function should | ||||
302 | always return the epoch for the I<earlier> of the two possible GMT | ||||
303 | times. | ||||
304 | |||||
305 | =head2 Non-Existent Local Times (DST) | ||||
306 | |||||
307 | When a DST change causes a locale clock to skip one hour forward, | ||||
308 | there will be an hour's worth of local times that don't exist. Again, | ||||
309 | for the "Europe/Paris" time zone, the local clock jumped from | ||||
310 | 2001-03-25 01:59:59 to 2001-03-25 03:00:00. | ||||
311 | |||||
312 | If the timelocal() function is given a non-existent local time, it | ||||
313 | will simply return an epoch value for the time one hour later. | ||||
314 | |||||
315 | =head2 Negative Epoch Values | ||||
316 | |||||
317 | Negative epoch (time_t) values are not officially supported by the | ||||
318 | POSIX standards, so this module's tests do not test them. On some | ||||
319 | systems, they are known not to work. These include MacOS (pre-OSX) | ||||
320 | and Win32. | ||||
321 | |||||
322 | On systems which do support negative epoch values, this module should | ||||
323 | be able to cope with dates before the start of the epoch, down the | ||||
324 | minimum value of time_t for the system. | ||||
325 | |||||
326 | =head1 IMPLEMENTATION | ||||
327 | |||||
328 | These routines are quite efficient and yet are always guaranteed to agree | ||||
329 | with localtime() and gmtime(). We manage this by caching the start times | ||||
330 | of any months we've seen before. If we know the start time of the month, | ||||
331 | we can always calculate any time within the month. The start times | ||||
332 | are calculated using a mathematical formula. Unlike other algorithms | ||||
333 | that do multiple calls to gmtime(). | ||||
334 | |||||
335 | timelocal() is implemented using the same cache. We just assume that we're | ||||
336 | translating a GMT time, and then fudge it when we're done for the timezone | ||||
337 | and daylight savings arguments. Note that the timezone is evaluated for | ||||
338 | each date because countries occasionally change their official timezones. | ||||
339 | Assuming that localtime() corrects for these changes, this routine will | ||||
340 | also be correct. | ||||
341 | |||||
342 | =head1 BUGS | ||||
343 | |||||
344 | The whole scheme for interpreting two-digit years can be considered a bug. | ||||
345 | |||||
346 | =head1 SUPPORT | ||||
347 | |||||
348 | Support for this module is provided via the datetime@perl.org | ||||
349 | email list. See http://lists.perl.org/ for more details. | ||||
350 | |||||
351 | Please submit bugs using the RT system at rt.cpan.org, or as a last | ||||
352 | resort, to the datetime@perl.org list. | ||||
353 | |||||
354 | =head1 AUTHOR | ||||
355 | |||||
356 | This module is based on a Perl 4 library, timelocal.pl, that was | ||||
357 | included with Perl 4.036, and was most likely written by Tom | ||||
358 | Christiansen. | ||||
359 | |||||
360 | The current version was written by Graham Barr. | ||||
361 | |||||
362 | It is now being maintained separately from the Perl core by Dave | ||||
363 | Rolsky, <autarch@urth.org>. | ||||
364 | |||||
365 | =cut | ||||
366 | |||||
# spent 51µs within Time::Local::CORE:pack which was called 6 times, avg 8µs/call:
# 6 times (51µs+0s) by Time::Local::_daygm at line 72 of Time/Local.pm, avg 8µs/call |