* gcc.c (getenv_spec_function): New function.

[official-gcc.git] / gcc / ada / a-reatim.adb

------------------------------------------------------------------------------
--                                                                          --
--                 GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS                 --
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------------------------------------------------------------------------------

package body Ada.Real_Time is

   ---------
   -- "*" --
   ---------

   --  Note that Constraint_Error may be propagated

   function "*" (Left : Time_Span; Right : Integer) return Time_Span is
      pragma Unsuppress (Overflow_Check);
   begin
      return Time_Span (Duration (Left) * Right);
   end "*";

   function "*" (Left : Integer; Right : Time_Span) return Time_Span is
      pragma Unsuppress (Overflow_Check);
   begin
      return Time_Span (Left * Duration (Right));
   end "*";

   ---------
   -- "+" --
   ---------

   --  Note that Constraint_Error may be propagated

   function "+" (Left : Time; Right : Time_Span) return Time is
      pragma Unsuppress (Overflow_Check);
   begin
      return Time (Duration (Left) + Duration (Right));
   end "+";

   function "+" (Left : Time_Span; Right : Time) return Time is
      pragma Unsuppress (Overflow_Check);
   begin
      return Time (Duration (Left) + Duration (Right));
   end "+";

   function "+" (Left, Right : Time_Span) return Time_Span is
      pragma Unsuppress (Overflow_Check);
   begin
      return Time_Span (Duration (Left) + Duration (Right));
   end "+";

   ---------
   -- "-" --
   ---------

   --  Note that Constraint_Error may be propagated

   function "-" (Left : Time; Right : Time_Span) return Time is
      pragma Unsuppress (Overflow_Check);
   begin
      return Time (Duration (Left) - Duration (Right));
   end "-";

   function "-" (Left, Right : Time) return Time_Span is
      pragma Unsuppress (Overflow_Check);
   begin
      return Time_Span (Duration (Left) - Duration (Right));
   end "-";

   function "-" (Left, Right : Time_Span) return Time_Span is
      pragma Unsuppress (Overflow_Check);
   begin
      return Time_Span (Duration (Left) - Duration (Right));
   end "-";

   function "-" (Right : Time_Span) return Time_Span is
      pragma Unsuppress (Overflow_Check);
   begin
      return Time_Span_Zero - Right;
   end "-";

   ---------
   -- "/" --
   ---------

   --  Note that Constraint_Error may be propagated

   function "/" (Left, Right : Time_Span) return Integer is
      pragma Unsuppress (Overflow_Check);
   begin
      return Integer (Duration (Left) / Duration (Right));
   end "/";

   function "/" (Left : Time_Span; Right : Integer) return Time_Span is
      pragma Unsuppress (Overflow_Check);
   begin
      return Time_Span (Duration (Left) / Right);
   end "/";

   -----------
   -- Clock --
   -----------

   function Clock return Time is
   begin
      return Time (System.Task_Primitives.Operations.Monotonic_Clock);
   end Clock;

   ------------------
   -- Microseconds --
   ------------------

   function Microseconds (US : Integer) return Time_Span is
   begin
      return Time_Span_Unit * US * 1_000;
   end Microseconds;

   ------------------
   -- Milliseconds --
   ------------------

   function Milliseconds (MS : Integer) return Time_Span is
   begin
      return Time_Span_Unit * MS * 1_000_000;
   end Milliseconds;

   -------------
   -- Minutes --
   -------------

   function Minutes (M : Integer) return Time_Span is
   begin
      return Milliseconds (M) * Integer'(60_000);
   end Minutes;

   -----------------
   -- Nanoseconds --
   -----------------

   function Nanoseconds (NS : Integer) return Time_Span is
   begin
      return Time_Span_Unit * NS;
   end Nanoseconds;

   -------------
   -- Seconds --
   -------------

   function Seconds (S : Integer) return Time_Span is
   begin
      return Milliseconds (S) * Integer'(1000);
   end Seconds;

   -----------
   -- Split --
   -----------

   procedure Split (T : Time; SC : out Seconds_Count; TS : out Time_Span) is
      T_Val : Time;

   begin
      --  Special-case for Time_First, whose absolute value is anomalous,
      --  courtesy of two's complement.

      if T = Time_First then
         T_Val := abs (Time_Last);
      else
         T_Val := abs (T);
      end if;

      --  Extract the integer part of T, truncating towards zero

      if T_Val < 0.5 then
         SC := 0;
      else
         SC := Seconds_Count (Time_Span'(T_Val - 0.5));
      end if;

      if T < 0.0 then
         SC := -SC;
      end if;

      --  If original time is negative, need to truncate towards negative
      --  infinity, to make TS non-negative, as per ARM.

      if Time (SC) > T then
         SC := SC - 1;
      end if;

      TS := Time_Span (Duration (T) - Duration (SC));
   end Split;

   -------------
   -- Time_Of --
   -------------

   function Time_Of (SC : Seconds_Count; TS : Time_Span) return Time is
   begin
      return Time (SC) + TS;
   end Time_Of;

   -----------------
   -- To_Duration --
   -----------------

   function To_Duration (TS : Time_Span) return Duration is
   begin
      return Duration (TS);
   end To_Duration;

   ------------------
   -- To_Time_Span --
   ------------------

   function To_Time_Span (D : Duration) return Time_Span is
   begin
      return Time_Span (D);
   end To_Time_Span;

end Ada.Real_Time;