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authorCraig A. Berry <craigberry@mac.com>2009-03-26 10:44:41 -0500
committerCraig A. Berry <craigberry@mac.com>2009-03-26 10:44:41 -0500
commit7430375d1909c2b62c1fb3f9c6ed4b9d24dfcf32 (patch)
tree238a31eba2d15f4b292688f8d9b11dd815116046 /time64.c
parent5c1e544edd3a9f584fd8b4c8d2f6dcbf01639ec2 (diff)
downloadperl-7430375d1909c2b62c1fb3f9c6ed4b9d24dfcf32.tar.gz
Namespace clean-up for time64.
All of the time64 functions are only visible within pp_sys.c and are not part of the public API, so make them all static and give them the S_ prefix. A side effect of this is that we now unambiguously use S_localtime64_r and S_gmtime64_r and should no longer collide with system-supplied versions, if any. One possible future direction is that if and when Configure detects any system-supplied *time64_r functions, their prototypes, and their valid time ranges, we could optionally select those instead of the home-grown ones. Another possible future direction is that we could s/S_/Perl_/ and make the *time64_r functions part of the public API in some post-5.10.x release. Currently they are only exposed to the outside world via Perl_pp_gmtime. Also gave some TRACE macros more specific names.
Diffstat (limited to 'time64.c')
-rwxr-xr-xtime64.c90
1 files changed, 46 insertions, 44 deletions
diff --git a/time64.c b/time64.c
index 0f5881222e..1453bd9de6 100755
--- a/time64.c
+++ b/time64.c
@@ -33,9 +33,9 @@ long' type can use localtime64_r() and gmtime64_r() which correctly
converts the time even on 32-bit systems. Whether you have 64-bit time
values will depend on the operating system.
-localtime64_r() is a 64-bit equivalent of localtime_r().
+S_localtime64_r() is a 64-bit equivalent of localtime_r().
-gmtime64_r() is a 64-bit equivalent of gmtime_r().
+S_gmtime64_r() is a 64-bit equivalent of gmtime_r().
*/
@@ -110,27 +110,27 @@ static const int dow_year_start[SOLAR_CYCLE_LENGTH] = {
/* Multi varadic macros are a C99 thing, alas */
#ifdef TIME_64_DEBUG
-# define TRACE(format) (fprintf(stderr, format))
-# define TRACE1(format, var1) (fprintf(stderr, format, var1))
-# define TRACE2(format, var1, var2) (fprintf(stderr, format, var1, var2))
-# define TRACE3(format, var1, var2, var3) (fprintf(stderr, format, var1, var2, var3))
+# define TIME64_TRACE(format) (fprintf(stderr, format))
+# define TIME64_TRACE1(format, var1) (fprintf(stderr, format, var1))
+# define TIME64_TRACE2(format, var1, var2) (fprintf(stderr, format, var1, var2))
+# define TIME64_TRACE3(format, var1, var2, var3) (fprintf(stderr, format, var1, var2, var3))
#else
-# define TRACE(format) ((void)0)
-# define TRACE1(format, var1) ((void)0)
-# define TRACE2(format, var1, var2) ((void)0)
-# define TRACE3(format, var1, var2, var3) ((void)0)
+# define TIME64_TRACE(format) ((void)0)
+# define TIME64_TRACE1(format, var1) ((void)0)
+# define TIME64_TRACE2(format, var1, var2) ((void)0)
+# define TIME64_TRACE3(format, var1, var2, var3) ((void)0)
#endif
-static int is_exception_century(Year year)
+static int S_is_exception_century(Year year)
{
int is_exception = ((year % 100 == 0) && !(year % 400 == 0));
- TRACE1("# is_exception_century: %s\n", is_exception ? "yes" : "no");
+ TIME64_TRACE1("# is_exception_century: %s\n", is_exception ? "yes" : "no");
return(is_exception);
}
-Time64_T timegm64(struct TM *date) {
+static Time64_T S_timegm64(struct TM *date) {
int days = 0;
Time64_T seconds = 0;
Year year;
@@ -166,7 +166,7 @@ Time64_T timegm64(struct TM *date) {
#ifdef DEBUGGING
-static int check_tm(struct TM *tm)
+static int S_check_tm(struct TM *tm)
{
/* Don't forget leap seconds */
assert(tm->tm_sec >= 0);
@@ -203,7 +203,7 @@ static int check_tm(struct TM *tm)
/* The exceptional centuries without leap years cause the cycle to
shift by 16
*/
-static Year cycle_offset(Year year)
+static Year S_cycle_offset(Year year)
{
const Year start_year = 2000;
Year year_diff = year - start_year;
@@ -215,7 +215,7 @@ static Year cycle_offset(Year year)
exceptions = year_diff / 100;
exceptions -= year_diff / 400;
- TRACE3("# year: %lld, exceptions: %lld, year_diff: %lld\n",
+ TIME64_TRACE3("# year: %lld, exceptions: %lld, year_diff: %lld\n",
year, exceptions, year_diff);
return exceptions * 16;
@@ -238,17 +238,17 @@ static Year cycle_offset(Year year)
It doesn't need the same leap year status since we only care about
January 1st.
*/
-static int safe_year(Year year)
+static int S_safe_year(Year year)
{
int safe_year;
- Year year_cycle = year + cycle_offset(year);
+ Year year_cycle = year + S_cycle_offset(year);
/* Change non-leap xx00 years to an equivalent */
- if( is_exception_century(year) )
+ if( S_is_exception_century(year) )
year_cycle += 11;
/* Also xx01 years, since the previous year will be wrong */
- if( is_exception_century(year - 1) )
+ if( S_is_exception_century(year - 1) )
year_cycle += 17;
year_cycle %= SOLAR_CYCLE_LENGTH;
@@ -261,14 +261,14 @@ static int safe_year(Year year)
assert(safe_year <= 2037 && safe_year >= 2010);
- TRACE3("# year: %lld, year_cycle: %lld, safe_year: %d\n",
+ TIME64_TRACE3("# year: %lld, year_cycle: %lld, safe_year: %d\n",
year, year_cycle, safe_year);
return safe_year;
}
-void copy_little_tm_to_big_TM(const struct tm *src, struct TM *dest) {
+static void S_copy_little_tm_to_big_TM(const struct tm *src, struct TM *dest) {
if( src == NULL ) {
memset(dest, 0, sizeof(*dest));
}
@@ -300,7 +300,7 @@ void copy_little_tm_to_big_TM(const struct tm *src, struct TM *dest) {
}
-void copy_big_TM_to_little_tm(const struct TM *src, struct tm *dest) {
+static void S_copy_big_TM_to_little_tm(const struct TM *src, struct tm *dest) {
if( src == NULL ) {
memset(dest, 0, sizeof(*dest));
}
@@ -332,8 +332,9 @@ void copy_big_TM_to_little_tm(const struct TM *src, struct tm *dest) {
}
+#ifndef HAS_LOCALTIME_R
/* Simulate localtime_r() to the best of our ability */
-struct tm * fake_localtime_r(const time_t *clock, struct tm *result) {
+static struct tm * S_localtime_r(const time_t *clock, struct tm *result) {
dTHX; /* in case the following is defined as Perl_my_localtime(aTHX_ ...) */
const struct tm *static_result = localtime(clock);
@@ -348,10 +349,11 @@ struct tm * fake_localtime_r(const time_t *clock, struct tm *result) {
return result;
}
}
+#endif
-
+#ifndef HAS_GMTIME_R
/* Simulate gmtime_r() to the best of our ability */
-struct tm * fake_gmtime_r(const time_t *clock, struct tm *result) {
+static struct tm * S_gmtime_r(const time_t *clock, struct tm *result) {
dTHX; /* in case the following is defined as Perl_my_gmtime(aTHX_ ...) */
const struct tm *static_result = gmtime(clock);
@@ -366,9 +368,9 @@ struct tm * fake_gmtime_r(const time_t *clock, struct tm *result) {
return result;
}
}
+#endif
-
-struct TM *gmtime64_r (const Time64_T *in_time, struct TM *p)
+static struct TM *S_gmtime64_r (const Time64_T *in_time, struct TM *p)
{
int v_tm_sec, v_tm_min, v_tm_hour, v_tm_mon, v_tm_wday;
Time64_T v_tm_tday;
@@ -386,8 +388,8 @@ struct TM *gmtime64_r (const Time64_T *in_time, struct TM *p)
struct tm safe_date;
GMTIME_R(&safe_time, &safe_date);
- copy_little_tm_to_big_TM(&safe_date, p);
- assert(check_tm(p));
+ S_copy_little_tm_to_big_TM(&safe_date, p);
+ assert(S_check_tm(p));
return p;
}
@@ -489,13 +491,13 @@ struct TM *gmtime64_r (const Time64_T *in_time, struct TM *p)
p->tm_mon = v_tm_mon;
p->tm_wday = v_tm_wday;
- assert(check_tm(p));
+ assert(S_check_tm(p));
return p;
}
-struct TM *localtime64_r (const Time64_T *time, struct TM *local_tm)
+struct TM *S_localtime64_r (const Time64_T *time, struct TM *local_tm)
{
time_t safe_time;
struct tm safe_date;
@@ -509,18 +511,18 @@ struct TM *localtime64_r (const Time64_T *time, struct TM *local_tm)
if( SHOULD_USE_SYSTEM_LOCALTIME(*time) ) {
safe_time = (time_t)*time;
- TRACE1("Using system localtime for %lld\n", *time);
+ TIME64_TRACE1("Using system localtime for %lld\n", *time);
LOCALTIME_R(&safe_time, &safe_date);
- copy_little_tm_to_big_TM(&safe_date, local_tm);
- assert(check_tm(local_tm));
+ S_copy_little_tm_to_big_TM(&safe_date, local_tm);
+ assert(S_check_tm(local_tm));
return local_tm;
}
- if( gmtime64_r(time, &gm_tm) == NULL ) {
- TRACE1("gmtime64_r returned null for %lld\n", *time);
+ if( S_gmtime64_r(time, &gm_tm) == NULL ) {
+ TIME64_TRACE1("gmtime64_r returned null for %lld\n", *time);
return NULL;
}
@@ -530,21 +532,21 @@ struct TM *localtime64_r (const Time64_T *time, struct TM *local_tm)
gm_tm.tm_year < (1970 - 1900)
)
{
- TRACE1("Mapping tm_year %lld to safe_year\n", (Year)gm_tm.tm_year);
- gm_tm.tm_year = safe_year((Year)(gm_tm.tm_year + 1900)) - 1900;
+ TIME64_TRACE1("Mapping tm_year %lld to safe_year\n", (Year)gm_tm.tm_year);
+ gm_tm.tm_year = S_safe_year((Year)(gm_tm.tm_year + 1900)) - 1900;
}
- safe_time = (time_t)timegm64(&gm_tm);
+ safe_time = (time_t)S_timegm64(&gm_tm);
if( LOCALTIME_R(&safe_time, &safe_date) == NULL ) {
- TRACE1("localtime_r(%d) returned NULL\n", (int)safe_time);
+ TIME64_TRACE1("localtime_r(%d) returned NULL\n", (int)safe_time);
return NULL;
}
- copy_little_tm_to_big_TM(&safe_date, local_tm);
+ S_copy_little_tm_to_big_TM(&safe_date, local_tm);
local_tm->tm_year = orig_year;
if( local_tm->tm_year != orig_year ) {
- TRACE2("tm_year overflow: tm_year %lld, orig_year %lld\n",
+ TIME64_TRACE2("tm_year overflow: tm_year %lld, orig_year %lld\n",
(Year)local_tm->tm_year, (Year)orig_year);
#ifdef EOVERFLOW
@@ -579,7 +581,7 @@ struct TM *localtime64_r (const Time64_T *time, struct TM *local_tm)
if( !IS_LEAP(local_tm->tm_year) && local_tm->tm_yday == 365 )
local_tm->tm_yday--;
- assert(check_tm(local_tm));
+ assert(S_check_tm(local_tm));
return local_tm;
}