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| author | 2020-06-08 22:47:19 +0200 | |
|---|---|---|
| committer | 2020-06-08 22:47:19 +0200 | |
| commit | 5ca510afde8bc59c9682f5f1ae11b1ed74d1acdd (patch) | |
| tree | 8d4ef9664917e395ff3c72b7966ad16c50a4baeb /src/time64.c | |
| parent | 137716df3f197a7184c1fba88fcb30480dafd6e0 (diff) | |
| download | libplist-5ca510afde8bc59c9682f5f1ae11b1ed74d1acdd.tar.gz libplist-5ca510afde8bc59c9682f5f1ae11b1ed74d1acdd.tar.bz2 | |
Remove whitespace errors from all files
Diffstat (limited to 'src/time64.c')
| -rw-r--r-- | src/time64.c | 14 |
1 files changed, 7 insertions, 7 deletions
diff --git a/src/time64.c b/src/time64.c index f1cffd4..db571d8 100644 --- a/src/time64.c +++ b/src/time64.c | |||
| @@ -1,4 +1,4 @@ | |||
| 1 | /* | 1 | /* |
| 2 | 2 | ||
| 3 | Copyright (c) 2007-2010 Michael G Schwern | 3 | Copyright (c) 2007-2010 Michael G Schwern |
| 4 | 4 | ||
| @@ -30,7 +30,7 @@ THE SOFTWARE. | |||
| 30 | 30 | ||
| 31 | Programmers who have available to them 64-bit time values as a 'long | 31 | Programmers who have available to them 64-bit time values as a 'long |
| 32 | long' type can use localtime64_r() and gmtime64_r() which correctly | 32 | long' type can use localtime64_r() and gmtime64_r() which correctly |
| 33 | converts the time even on 32-bit systems. Whether you have 64-bit time | 33 | converts the time even on 32-bit systems. Whether you have 64-bit time |
| 34 | values will depend on the operating system. | 34 | values will depend on the operating system. |
| 35 | 35 | ||
| 36 | localtime64_r() is a 64-bit equivalent of localtime_r(). | 36 | localtime64_r() is a 64-bit equivalent of localtime_r(). |
| @@ -293,7 +293,7 @@ static int check_tm(struct TM *tm) | |||
| 293 | 293 | ||
| 294 | assert(tm->tm_wday >= 0); | 294 | assert(tm->tm_wday >= 0); |
| 295 | assert(tm->tm_wday <= 6); | 295 | assert(tm->tm_wday <= 6); |
| 296 | 296 | ||
| 297 | assert(tm->tm_yday >= 0); | 297 | assert(tm->tm_yday >= 0); |
| 298 | assert(tm->tm_yday <= length_of_year[IS_LEAP(tm->tm_year)]); | 298 | assert(tm->tm_yday <= length_of_year[IS_LEAP(tm->tm_year)]); |
| 299 | 299 | ||
| @@ -368,7 +368,7 @@ static int safe_year(const Year year) | |||
| 368 | year_cycle += 17; | 368 | year_cycle += 17; |
| 369 | 369 | ||
| 370 | year_cycle %= SOLAR_CYCLE_LENGTH; | 370 | year_cycle %= SOLAR_CYCLE_LENGTH; |
| 371 | if( year_cycle < 0 ) | 371 | if( year_cycle < 0 ) |
| 372 | year_cycle = SOLAR_CYCLE_LENGTH + year_cycle; | 372 | year_cycle = SOLAR_CYCLE_LENGTH + year_cycle; |
| 373 | 373 | ||
| 374 | assert( year_cycle >= 0 ); | 374 | assert( year_cycle >= 0 ); |
| @@ -674,7 +674,7 @@ struct TM *gmtime64_r (const Time64_T *in_time, struct TM *p) | |||
| 674 | p->tm_hour = v_tm_hour; | 674 | p->tm_hour = v_tm_hour; |
| 675 | p->tm_mon = v_tm_mon; | 675 | p->tm_mon = v_tm_mon; |
| 676 | p->tm_wday = v_tm_wday; | 676 | p->tm_wday = v_tm_wday; |
| 677 | 677 | ||
| 678 | assert(check_tm(p)); | 678 | assert(check_tm(p)); |
| 679 | 679 | ||
| 680 | return p; | 680 | return p; |
| @@ -756,7 +756,7 @@ struct TM *localtime64_r (const Time64_T *timev, struct TM *local_tm) | |||
| 756 | local_tm->tm_year++; | 756 | local_tm->tm_year++; |
| 757 | } | 757 | } |
| 758 | 758 | ||
| 759 | /* GMT is Jan 1st, xx01 year, but localtime is still Dec 31st | 759 | /* GMT is Jan 1st, xx01 year, but localtime is still Dec 31st |
| 760 | in a non-leap xx00. There is one point in the cycle | 760 | in a non-leap xx00. There is one point in the cycle |
| 761 | we can't account for which the safe xx00 year is a leap | 761 | we can't account for which the safe xx00 year is a leap |
| 762 | year. So we need to correct for Dec 31st comming out as | 762 | year. So we need to correct for Dec 31st comming out as |
| @@ -766,7 +766,7 @@ struct TM *localtime64_r (const Time64_T *timev, struct TM *local_tm) | |||
| 766 | local_tm->tm_yday--; | 766 | local_tm->tm_yday--; |
| 767 | 767 | ||
| 768 | assert(check_tm(local_tm)); | 768 | assert(check_tm(local_tm)); |
| 769 | 769 | ||
| 770 | return local_tm; | 770 | return local_tm; |
| 771 | } | 771 | } |
| 772 | 772 | ||
