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------------------------------------------------------------------------------
-- --
-- GNAT RUN-TIME COMPONENTS --
-- --
-- A D A . C A L E N D A R --
-- --
-- B o d y --
-- --
-- Copyright (C) 1992-2003 Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 2, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNAT; see file COPYING. If not, write --
-- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, --
-- MA 02111-1307, USA. --
-- --
-- As a special exception, if other files instantiate generics from this --
-- unit, or you link this unit with other files to produce an executable, --
-- this unit does not by itself cause the resulting executable to be --
-- covered by the GNU General Public License. This exception does not --
-- however invalidate any other reasons why the executable file might be --
-- covered by the GNU Public License. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
-- This is the Alpha/VMS version.
with System.Aux_DEC; use System.Aux_DEC;
package body Ada.Calendar is
------------------------------
-- Use of Pragma Unsuppress --
------------------------------
-- This implementation of Calendar takes advantage of the permission in
-- Ada 95 of using arithmetic overflow checks to check for out of bounds
-- time values. This means that we must catch the constraint error that
-- results from arithmetic overflow, so we use pragma Unsuppress to make
-- sure that overflow is enabled, using software overflow checking if
-- necessary. That way, compiling Calendar with options to suppress this
-- checking will not affect its correctness.
------------------------
-- Local Declarations --
------------------------
Ada_Year_Min : constant := 1901;
Ada_Year_Max : constant := 2099;
-- Some basic constants used throughout
function To_Relative_Time (D : Duration) return Time;
function To_Relative_Time (D : Duration) return Time is
begin
return Time (Long_Integer'Integer_Value (D) / 100);
end To_Relative_Time;
---------
-- "+" --
---------
function "+" (Left : Time; Right : Duration) return Time is
pragma Unsuppress (Overflow_Check);
begin
return (Left + To_Relative_Time (Right));
exception
when Constraint_Error =>
raise Time_Error;
end "+";
function "+" (Left : Duration; Right : Time) return Time is
pragma Unsuppress (Overflow_Check);
begin
return (To_Relative_Time (Left) + Right);
exception
when Constraint_Error =>
raise Time_Error;
end "+";
---------
-- "-" --
---------
function "-" (Left : Time; Right : Duration) return Time is
pragma Unsuppress (Overflow_Check);
begin
return Left - To_Relative_Time (Right);
exception
when Constraint_Error =>
raise Time_Error;
end "-";
function "-" (Left : Time; Right : Time) return Duration is
pragma Unsuppress (Overflow_Check);
begin
return Duration'Fixed_Value
((Long_Integer (Left) - Long_Integer (Right)) * 100);
exception
when Constraint_Error =>
raise Time_Error;
end "-";
---------
-- "<" --
---------
function "<" (Left, Right : Time) return Boolean is
begin
return Long_Integer (Left) < Long_Integer (Right);
end "<";
----------
-- "<=" --
----------
function "<=" (Left, Right : Time) return Boolean is
begin
return Long_Integer (Left) <= Long_Integer (Right);
end "<=";
---------
-- ">" --
---------
function ">" (Left, Right : Time) return Boolean is
begin
return Long_Integer (Left) > Long_Integer (Right);
end ">";
----------
-- ">=" --
----------
function ">=" (Left, Right : Time) return Boolean is
begin
return Long_Integer (Left) >= Long_Integer (Right);
end ">=";
-----------
-- Clock --
-----------
-- The Ada.Calendar.Clock function gets the time.
-- Note that on other targets a soft-link is used to get a different clock
-- depending whether tasking is used or not. On VMS this isn't needed
-- since all clock calls end up using SYS$GETTIM, so call the
-- OS_Primitives version for efficiency.
function Clock return Time is
begin
return Time (OSP.OS_Clock);
end Clock;
---------
-- Day --
---------
function Day (Date : Time) return Day_Number is
DY : Year_Number;
DM : Month_Number;
DD : Day_Number;
DS : Day_Duration;
begin
Split (Date, DY, DM, DD, DS);
return DD;
end Day;
-----------
-- Month --
-----------
function Month (Date : Time) return Month_Number is
DY : Year_Number;
DM : Month_Number;
DD : Day_Number;
DS : Day_Duration;
begin
Split (Date, DY, DM, DD, DS);
return DM;
end Month;
-------------
-- Seconds --
-------------
function Seconds (Date : Time) return Day_Duration is
DY : Year_Number;
DM : Month_Number;
DD : Day_Number;
DS : Day_Duration;
begin
Split (Date, DY, DM, DD, DS);
return DS;
end Seconds;
-----------
-- Split --
-----------
procedure Split
(Date : Time;
Year : out Year_Number;
Month : out Month_Number;
Day : out Day_Number;
Seconds : out Day_Duration)
is
procedure Numtim (
Status : out Unsigned_Longword;
Timbuf : out Unsigned_Word_Array;
Timadr : in Time);
pragma Interface (External, Numtim);
pragma Import_Valued_Procedure (Numtim, "SYS$NUMTIM",
(Unsigned_Longword, Unsigned_Word_Array, Time),
(Value, Reference, Reference));
Status : Unsigned_Longword;
Timbuf : Unsigned_Word_Array (1 .. 7);
Subsecs : constant Time := Date mod 10_000_000;
Date_Secs : constant Time := Date - Subsecs;
begin
Numtim (Status, Timbuf, Date_Secs);
if Status mod 2 /= 1
or else Timbuf (1) not in Ada_Year_Min .. Ada_Year_Max
then
raise Time_Error;
end if;
Seconds := Day_Duration (Timbuf (6)
+ 60 * (Timbuf (5) + 60 * Timbuf (4)))
+ Duration (Subsecs) / 10_000_000.0;
Day := Integer (Timbuf (3));
Month := Integer (Timbuf (2));
Year := Integer (Timbuf (1));
end Split;
-------------
-- Time_Of --
-------------
function Time_Of
(Year : Year_Number;
Month : Month_Number;
Day : Day_Number;
Seconds : Day_Duration := 0.0)
return Time
is
procedure Cvt_Vectim (
Status : out Unsigned_Longword;
Input_Time : in Unsigned_Word_Array;
Resultant_Time : out Time);
pragma Interface (External, Cvt_Vectim);
pragma Import_Valued_Procedure (Cvt_Vectim, "LIB$CVT_VECTIM",
(Unsigned_Longword, Unsigned_Word_Array, Time),
(Value, Reference, Reference));
Status : Unsigned_Longword;
Timbuf : Unsigned_Word_Array (1 .. 7);
Date : Time;
Int_Secs : Integer;
Day_Hack : Boolean := False;
Subsecs : Day_Duration;
begin
-- The following checks are redundant with respect to the constraint
-- error checks that should normally be made on parameters, but we
-- decide to raise Constraint_Error in any case if bad values come
-- in (as a result of checks being off in the caller, or for other
-- erroneous or bounded error cases).
if not Year 'Valid
or else not Month 'Valid
or else not Day 'Valid
or else not Seconds'Valid
then
raise Constraint_Error;
end if;
-- Truncate seconds value by subtracting 0.5 and rounding,
-- but be careful with 0.0 since that will give -1.0 unless
-- it is treated specially.
if Seconds > 0.0 then
Int_Secs := Integer (Seconds - 0.5);
else
Int_Secs := Integer (Seconds);
end if;
Subsecs := Seconds - Day_Duration (Int_Secs);
-- Cvt_Vectim barfs on the largest Day_Duration, so trick it by
-- setting it to zero and then adding the difference after conversion.
if Int_Secs = 86_400 then
Int_Secs := 0;
Day_Hack := True;
end if;
Timbuf (7) := 0;
Timbuf (6) := Unsigned_Word (Int_Secs mod 60);
Timbuf (5) := Unsigned_Word ((Int_Secs / 60) mod 60);
Timbuf (4) := Unsigned_Word (Int_Secs / 3600);
Timbuf (3) := Unsigned_Word (Day);
Timbuf (2) := Unsigned_Word (Month);
Timbuf (1) := Unsigned_Word (Year);
Cvt_Vectim (Status, Timbuf, Date);
if Status mod 2 /= 1 then
raise Time_Error;
end if;
if Day_Hack then
Date := Date + 10_000_000 * 86_400;
end if;
Date := Date + Time (10_000_000.0 * Subsecs);
return Date;
end Time_Of;
----------
-- Year --
----------
function Year (Date : Time) return Year_Number is
DY : Year_Number;
DM : Month_Number;
DD : Day_Number;
DS : Day_Duration;
begin
Split (Date, DY, DM, DD, DS);
return DY;
end Year;
end Ada.Calendar;
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