Merge branch 'mach_monotonic_time_use_timebase_struct' into 'master'

gmain: fix fetching timebase on non-Intel Darwin

Closes #858

See merge request GNOME/glib!1566

glib/gmain.c

@@ -2906,47 +2906,40 @@ g_get_monotonic_time (void)
 gint64
 g_get_monotonic_time (void)
 {
-  static mach_timebase_info_data_t timebase_info;
+  mach_timebase_info_data_t timebase_info;
+  guint64 val;
 
-  if (timebase_info.denom == 0)
-    {
-      /* This is a fraction that we must use to scale
-       * mach_absolute_time() by in order to reach nanoseconds.
-       *
-       * We've only ever observed this to be 1/1, but maybe it could be
-       * 1000/1 if mach time is microseconds already, or 1/1000 if
-       * picoseconds.  Try to deal nicely with that.
-       */
+  /* we get nanoseconds from mach_absolute_time() using timebase_info */
   mach_timebase_info (&timebase_info);
+  val = mach_absolute_time ();
 
-      /* We actually want microseconds... */
-      if (timebase_info.numer % 1000 == 0)
-        timebase_info.numer /= 1000;
-      else
-        timebase_info.denom *= 1000;
-
-      /* We want to make the numer 1 to avoid having to multiply... */
-      if (timebase_info.denom % timebase_info.numer == 0)
+  if (timebase_info.numer != timebase_info.denom)
     {
-          timebase_info.denom /= timebase_info.numer;
-          timebase_info.numer = 1;
+#ifdef HAVE_UINT128_T
+      val = ((__uint128_t) val * (__uint128_t) timebase_info.numer) / timebase_info.denom / 1000;
+#else
+      guint64 t_high, t_low;
+      guint64 result_high, result_low;
+
+      /* 64 bit x 32 bit / 32 bit with 96-bit intermediate 
+       * algorithm lifted from qemu */
+      t_low = (val & 0xffffffffLL) * (guint64) timebase_info.numer;
+      t_high = (val >> 32) * (guint64) timebase_info.numer;
+      t_high += (t_low >> 32);
+      result_high = t_high / (guint64) timebase_info.denom;
+      result_low = (((t_high % (guint64) timebase_info.denom) << 32) +
+                    (t_low & 0xffffffff)) /
+                   (guint64) timebase_info.denom;
+      val = ((result_high << 32) | result_low) / 1000;
+#endif
     }
   else
     {
-          /* We could just multiply by timebase_info.numer below, but why
-           * bother for a case that may never actually exist...
-           *
-           * Plus -- performing the multiplication would risk integer
-           * overflow.  If we ever actually end up in this situation, we
-           * should more carefully evaluate the correct course of action.
-           */
-          mach_timebase_info (&timebase_info); /* Get a fresh copy for a better message */
-          g_error ("Got weird mach timebase info of %d/%d.  Please file a bug against GLib.",
-                   timebase_info.numer, timebase_info.denom);
-        }
+      /* nanoseconds to microseconds */
+      val = val / 1000;
     }
 
-  return mach_absolute_time () / timebase_info.denom;
+  return val;
 }
 #else
 gint64

meson.build

@@ -772,6 +772,17 @@ if cc.links('''#include <sys/eventfd.h>
   glib_conf.set('HAVE_EVENTFD', 1)
 endif
 
+# Check for __uint128_t (gcc) by checking for 128-bit division
+uint128_t_src = '''int main() {
+static __uint128_t v1 = 100;
+static __uint128_t v2 = 10;
+static __uint128_t u;
+u = v1 / v2;
+}'''
+if cc.compiles(uint128_t_src, name : '__uint128_t available')
+  glib_conf.set('HAVE_UINT128_T', 1)
+endif
+
 clock_gettime_test_code = '''
   #include <time.h>
   struct timespec t;