Make ‘SIG handler not defined’ UTF8- and null-safe

[perl5.git] / time64.c

diff --git a/time64.c b/time64.c
index 72a5a97..f0e8d71 100644 (file)
--- a/time64.c
+++ b/time64.c
@@ -88,6 +88,7 @@ static const char dow_year_start[SOLAR_CYCLE_LENGTH] = {
 #define CHEAT_YEARS 108
 
 #define IS_LEAP(n)     ((!(((n) + 1900) % 400) || (!(((n) + 1900) % 4) && (((n) + 1900) % 100))) != 0)
+#undef WRAP /* some <termios.h> define this */
 #define WRAP(a,b,m)    ((a) = ((a) <  0  ) ? ((b)--, (a) + (m)) : (a))
 
 #ifdef USE_SYSTEM_LOCALTIME
@@ -300,8 +301,8 @@ static void S_copy_little_tm_to_big_TM(const struct tm *src, struct TM *dest) {
 #ifndef HAS_LOCALTIME_R
 /* Simulate localtime_r() to the best of our ability */
 static struct tm * S_localtime_r(const time_t *clock, struct tm *result) {
-#ifdef VMS
-    dTHX;    /* in case the following is defined as Perl_my_localtime(aTHX_ ...) */
+#ifdef __VMS
+    dTHX;    /* the following is defined as Perl_my_localtime(aTHX_ ...) */
 #endif
     const struct tm *static_result = localtime(clock);
 
@@ -321,7 +322,9 @@ static struct tm * S_localtime_r(const time_t *clock, struct tm *result) {
 #ifndef HAS_GMTIME_R
 /* Simulate gmtime_r() to the best of our ability */
 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_ ...) */
+#ifdef __VMS
+    dTHX;    /* the following is defined as Perl_my_localtime(aTHX_ ...) */
+#endif
     const struct tm *static_result = gmtime(clock);
 
     assert(result != NULL);
@@ -370,19 +373,19 @@ static struct TM *S_gmtime64_r (const Time64_T *in_time, struct TM *p)
     p->tm_zone   = (char *)"UTC";
 #endif
 
-    v_tm_sec  = (int)fmod(time, 60.0);
-    time      = time >= 0 ? floor(time / 60.0) : ceil(time / 60.0);
-    v_tm_min  = (int)fmod(time, 60.0);
-    time      = time >= 0 ? floor(time / 60.0) : ceil(time / 60.0);
-    v_tm_hour = (int)fmod(time, 24.0);
-    time      = time >= 0 ? floor(time / 24.0) : ceil(time / 24.0);
+    v_tm_sec  = (int)Perl_fmod(time, 60.0);
+    time      = time >= 0 ? Perl_floor(time / 60.0) : Perl_ceil(time / 60.0);
+    v_tm_min  = (int)Perl_fmod(time, 60.0);
+    time      = time >= 0 ? Perl_floor(time / 60.0) : Perl_ceil(time / 60.0);
+    v_tm_hour = (int)Perl_fmod(time, 24.0);
+    time      = time >= 0 ? Perl_floor(time / 24.0) : Perl_ceil(time / 24.0);
     v_tm_tday = time;
 
     WRAP (v_tm_sec, v_tm_min, 60);
     WRAP (v_tm_min, v_tm_hour, 60);
     WRAP (v_tm_hour, v_tm_tday, 24);
 
-    v_tm_wday = (int)fmod((v_tm_tday + 4.0), 7.0);
+    v_tm_wday = (int)Perl_fmod((v_tm_tday + 4.0), 7.0);
     if (v_tm_wday < 0)
         v_tm_wday += 7;
     m = v_tm_tday;
@@ -394,7 +397,7 @@ static struct TM *S_gmtime64_r (const Time64_T *in_time, struct TM *p)
 
     if (m >= 0) {
         /* Gregorian cycles, this is huge optimization for distant times */
-        cycles = (int)floor(m / (Time64_T) days_in_gregorian_cycle);
+        cycles = (int)Perl_floor(m / (Time64_T) days_in_gregorian_cycle);
         if( cycles ) {
             m -= (cycles * (Time64_T) days_in_gregorian_cycle);
             year += (cycles * years_in_gregorian_cycle);
@@ -418,7 +421,7 @@ static struct TM *S_gmtime64_r (const Time64_T *in_time, struct TM *p)
         year--;
 
         /* Gregorian cycles */
-        cycles = (int)ceil((m / (Time64_T) days_in_gregorian_cycle) + 1);
+        cycles = (int)Perl_ceil((m / (Time64_T) days_in_gregorian_cycle) + 1);
         if( cycles ) {
             m -= (cycles * (Time64_T) days_in_gregorian_cycle);
             year += (cycles * years_in_gregorian_cycle);