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mercury/compiler/timestamp.m
Julien Fischer 459847a064 Move the univ, maybe, pair and unit types from std_util into their own 
Estimated hours taken: 18
Branches: main

Move the univ, maybe, pair and unit types from std_util into their own
modules.  std_util still contains the general purpose higher-order programming
constructs.

library/std_util.m:
	Move univ, maybe, pair and unit (plus any other related types
	and procedures) into their own modules.

library/maybe.m:
	New module.  This contains the maybe and maybe_error types and
	the associated procedures.

library/pair.m:
	New module.  This contains the pair type and associated procedures.

library/unit.m:
	New module. This contains the types unit/0 and unit/1.

library/univ.m:
	New module. This contains the univ type and associated procedures.

library/library.m:
	Add the new modules.

library/private_builtin.m:
	Update the declaration of the type_ctor_info struct for univ.

runtime/mercury.h:
	Update the declaration for the type_ctor_info struct for univ.

runtime/mercury_mcpp.h:
runtime/mercury_hlc_types.h:
	Update the definition of MR_Univ.

runtime/mercury_init.h:
	Fix a comment: ML_type_name is now exported from type_desc.m.

compiler/mlds_to_il.m:
	Update the the name of the module that defines univs (which are
	handled specially by the il code generator.)

library/*.m:
compiler/*.m:
browser/*.m:
mdbcomp/*.m:
profiler/*.m:
deep_profiler/*.m:
	Conform to the above changes.  Import the new modules where they
	are needed; don't import std_util where it isn't needed.

	Fix formatting in lots of modules.  Delete duplicate module
	imports.

tests/*:
	Update the test suite to confrom to the above changes.
2006-03-29 08:09:58 +00:00

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%-----------------------------------------------------------------------------%
% vim: ft=mercury ts=4 sw=4 et
%-----------------------------------------------------------------------------%
% Copyright (C) 2001-2002, 2004-2006 The University of Melbourne.
% This file may only be copied under the terms of the GNU General
% Public License - see the file COPYING in the Mercury distribution.
%-----------------------------------------------------------------------------%
% File: timestamp.m.
% Main author: stayl.
% Timestamp representation for smart recompilation.
%-----------------------------------------------------------------------------%
:- module libs.timestamp.
:- interface.
:- import_module time.
% A `timestamp' is similar to a `time_t' except that timestamps are system
% independent. A timestamp string (obtained using timestamp_to_string)
% written on one system can be read on any other system. Comparison of
% values of type `timestamp' (via compare/3) is equivalent to comparison
% of the times represented.
:- type timestamp.
% Converts the calendar time value `Time' into a timestamp.
% Equivalent to `gm_time_to_timestamp(gmtime(Time))'.
%
:-func time_t_to_timestamp(time_t) = timestamp.
% Converts a timestamp into a string with format "yyyy-mm-dd hh:mm:ss",
% expressed as UTC.
%
:- func timestamp_to_string(timestamp) = string.
% Converts a string formatted as "yyyy-mm-dd hh:mm:ss", into a timestamp.
% Fails if the string does not have the correct format.
%
:- func string_to_timestamp(string) = timestamp is semidet.
% Return a timestamp which is older than any other timestamp.
%
:- func oldest_timestamp = timestamp.
% Return a timestamp which is newer than any other timestamp.
%
:- func newest_timestamp = timestamp.
%-----------------------------------------------------------------------------%
%-----------------------------------------------------------------------------%
:- implementation.
:- import_module int.
:- import_module maybe.
:- import_module string.
%-----------------------------------------------------------------------------%
% A timestamp is a string formatted as "yyyy-mm-dd hh:mm:ss"
% representing a time expressed as UTC (Universal Coordinated Time).
%
% We use a no-tag type rather than an abstract equivalence type
% to avoid type errors with abstract equivalence types in the hlc
% back-end.
:- type timestamp
---> timestamp(string).
oldest_timestamp = timestamp("0000-00-00 00:00:00").
newest_timestamp = timestamp("9999-99-99 99:99:99").
time_t_to_timestamp(Time) = gmtime_to_timestamp(time.gmtime(Time)).
:- func gmtime_to_timestamp(tm) = timestamp.
gmtime_to_timestamp(tm(Year, Month, MD, Hrs, Min, Sec, YD, WD, DST)) =
timestamp(gmtime_to_timestamp_2(Year, Month, MD, Hrs, Min, Sec,
YD, WD, maybe_dst_to_int(DST))).
:- func gmtime_to_timestamp_2(int, int, int, int, int, int, int, int, int)
= string.
:- pragma foreign_decl("C", "
#include ""mercury_string.h""
#include <time.h>
").
:- pragma foreign_proc("C",
gmtime_to_timestamp_2(Yr::in, Mnt::in, MD::in, Hrs::in, Min::in,
Sec::in, YD::in, WD::in, N::in) = (Result::out),
[will_not_call_mercury, promise_pure],
"{
int size;
struct tm t;
t.tm_sec = Sec;
t.tm_min = Min;
t.tm_hour = Hrs;
t.tm_mon = Mnt;
t.tm_year = Yr;
t.tm_wday = WD;
t.tm_mday = MD;
t.tm_yday = YD;
t.tm_isdst = N;
size = sizeof ""yyyy-mm-dd hh:mm:ss"";
MR_allocate_aligned_string_msg(Result, size - 1, MR_PROC_LABEL);
strftime(Result, size, ""%Y-%m-%d %H:%M:%S"", &t);
}").
:- pragma foreign_proc("C#",
gmtime_to_timestamp_2(Yr::in, Mnt::in, MD::in, Hrs::in, Min::in,
Sec::in, _YD::in, _WD::in, _N::in) = (Result::out),
[will_not_call_mercury, promise_pure],
"{
System.DateTime t;
t = new System.DateTime(Yr + 1900, Mnt + 1, MD, Hrs, Min, Sec);
string format_str = ""yyyy-MM-dd hh:mm:ss"";
Result = t.ToString(format_str);
}").
:- func maybe_dst_to_int(maybe(dst)) = int.
maybe_dst_to_int(M) = N :-
( M = yes(DST), DST = daylight_time,
N = 1
; M = yes(DST), DST = standard_time,
N = 0
; M = no,
N = -1
).
timestamp_to_string(timestamp(Timestamp)) = Timestamp.
string_to_timestamp(Timestamp) = timestamp(Timestamp) :-
% The if-then-else here is to force order of evaluation --
% we need to ensure that the length check occurs before the
% calls to unsafe_undex to avoid dereferencing invalid pointers.
(
string.length(Timestamp) : int = string.length("yyyy-mm-dd hh:mm:ss")
->
string.to_int(string.unsafe_substring(Timestamp, 0, 4), _),
string.unsafe_index(Timestamp, 4, '-'),
string.to_int(string.unsafe_substring(Timestamp, 5, 2), Month),
Month >= 1,
Month =< 12,
string.unsafe_index(Timestamp, 7, '-'),
string.to_int(string.unsafe_substring(Timestamp, 8, 2), Day),
Day >= 1,
Day =< 31,
string.unsafe_index(Timestamp, 10, ' '),
string.to_int(string.unsafe_substring(Timestamp, 11, 2), Hour),
Hour >= 0,
Hour =< 23,
string.unsafe_index(Timestamp, 13, ':'),
string.to_int(string.unsafe_substring(Timestamp, 14, 2), Minute),
Minute >= 0,
Minute =< 59,
string.unsafe_index(Timestamp, 16, ':'),
string.to_int(string.unsafe_substring(Timestamp, 17, 2), Second),
Second >= 0,
Second =< 61 % Seconds 60 and 61 are for leap seconds.
;
fail
).
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