freebsd-skq/contrib/gcc/f/info.c
David E. O'Brien 1952e2e1c1 Enlist the FreeBSD-CURRENT users as testers of what is to become Gcc 3.1.0.
These bits are taken from the FSF anoncvs repo on 1-Feb-2002 08:20 PST.
2002-02-01 18:16:02 +00:00

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/* info.c -- Implementation File (module.c template V1.0)
Copyright (C) 1995, 2002 Free Software Foundation, Inc.
Contributed by James Craig Burley.
This file is part of GNU Fortran.
GNU Fortran is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2, or (at your option)
any later version.
GNU Fortran is distributed in the hope that it will be useful,
but WITHOUT 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
along with GNU Fortran; see the file COPYING. If not, write to
the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA
02111-1307, USA.
Related Modules:
None
Description:
An abstraction for information maintained on a per-operator and per-
operand basis in expression trees.
Modifications:
30-Aug-90 JCB 2.0
Extensive rewrite for new cleaner approach.
*/
/* Include files. */
#include "proj.h"
#include "info.h"
#include "target.h"
#include "type.h"
/* Externals defined here. */
/* Simple definitions and enumerations. */
/* Internal typedefs. */
/* Private include files. */
/* Internal structure definitions. */
/* Static objects accessed by functions in this module. */
static const char *const ffeinfo_basictype_string_[]
=
{
#define FFEINFO_BASICTYPE(KWD,LNAM,SNAM) SNAM,
#include "info-b.def"
#undef FFEINFO_BASICTYPE
};
static const char *const ffeinfo_kind_message_[]
=
{
#define FFEINFO_KIND(kwd,msgid,snam) msgid,
#include "info-k.def"
#undef FFEINFO_KIND
};
static const char *const ffeinfo_kind_string_[]
=
{
#define FFEINFO_KIND(KWD,LNAM,SNAM) SNAM,
#include "info-k.def"
#undef FFEINFO_KIND
};
static ffeinfoBasictype ffeinfo_combine_[FFEINFO_basictype][FFEINFO_basictype];
static const char *const ffeinfo_kindtype_string_[]
=
{
"",
"1",
"2",
"3",
"4",
"5",
"6",
"7",
"8",
"*",
};
static const char *const ffeinfo_where_string_[]
=
{
#define FFEINFO_WHERE(KWD,LNAM,SNAM) SNAM,
#include "info-w.def"
#undef FFEINFO_WHERE
};
static ffetype ffeinfo_types_[FFEINFO_basictype][FFEINFO_kindtype];
/* Static functions (internal). */
/* Internal macros. */
/* ffeinfo_basictype_combine -- Combine two basictypes into highest rank type
ffeinfoBasictype i, j, k;
k = ffeinfo_basictype_combine(i,j);
Returns a type based on "standard" operation between two given types. */
ffeinfoBasictype
ffeinfo_basictype_combine (ffeinfoBasictype l, ffeinfoBasictype r)
{
assert (l < FFEINFO_basictype);
assert (r < FFEINFO_basictype);
return ffeinfo_combine_[l][r];
}
/* ffeinfo_basictype_string -- Return tiny string showing the basictype
ffeinfoBasictype i;
printf("%s",ffeinfo_basictype_string(dt));
Returns the string based on the basic type. */
const char *
ffeinfo_basictype_string (ffeinfoBasictype basictype)
{
if (basictype >= ARRAY_SIZE (ffeinfo_basictype_string_))
return "?\?\?";
return ffeinfo_basictype_string_[basictype];
}
/* ffeinfo_init_0 -- Initialize
ffeinfo_init_0(); */
void
ffeinfo_init_0 ()
{
ffeinfoBasictype i;
ffeinfoBasictype j;
assert (FFEINFO_basictype == ARRAY_SIZE (ffeinfo_basictype_string_));
assert (FFEINFO_kind == ARRAY_SIZE (ffeinfo_kind_message_));
assert (FFEINFO_kind == ARRAY_SIZE (ffeinfo_kind_string_));
assert (FFEINFO_kindtype == ARRAY_SIZE (ffeinfo_kindtype_string_));
assert (FFEINFO_where == ARRAY_SIZE (ffeinfo_where_string_));
/* Make array that, given two basic types, produces resulting basic type. */
for (i = 0; i < FFEINFO_basictype; ++i)
for (j = 0; j < FFEINFO_basictype; ++j)
if ((i == FFEINFO_basictypeANY) || (j == FFEINFO_basictypeANY))
ffeinfo_combine_[i][j] = FFEINFO_basictypeANY;
else
ffeinfo_combine_[i][j] = FFEINFO_basictypeNONE;
#define same(bt) ffeinfo_combine_[bt][bt] = bt
#define use2(bt1,bt2) ffeinfo_combine_[bt1][bt2] \
= ffeinfo_combine_[bt2][bt1] = bt2
same (FFEINFO_basictypeINTEGER);
same (FFEINFO_basictypeLOGICAL);
same (FFEINFO_basictypeREAL);
same (FFEINFO_basictypeCOMPLEX);
same (FFEINFO_basictypeCHARACTER);
use2 (FFEINFO_basictypeINTEGER, FFEINFO_basictypeREAL);
use2 (FFEINFO_basictypeINTEGER, FFEINFO_basictypeCOMPLEX);
use2 (FFEINFO_basictypeREAL, FFEINFO_basictypeCOMPLEX);
#undef same
#undef use2
}
/* ffeinfo_kind_message -- Return helpful string showing the kind
ffeinfoKind kind;
printf("%s",ffeinfo_kind_message(kind));
Returns the string based on the kind. */
const char *
ffeinfo_kind_message (ffeinfoKind kind)
{
if (kind >= ARRAY_SIZE (ffeinfo_kind_message_))
return "?\?\?";
return ffeinfo_kind_message_[kind];
}
/* ffeinfo_kind_string -- Return tiny string showing the kind
ffeinfoKind kind;
printf("%s",ffeinfo_kind_string(kind));
Returns the string based on the kind. */
const char *
ffeinfo_kind_string (ffeinfoKind kind)
{
if (kind >= ARRAY_SIZE (ffeinfo_kind_string_))
return "?\?\?";
return ffeinfo_kind_string_[kind];
}
ffeinfoKindtype
ffeinfo_kindtype_max(ffeinfoBasictype bt,
ffeinfoKindtype k1,
ffeinfoKindtype k2)
{
if ((bt == FFEINFO_basictypeANY)
|| (k1 == FFEINFO_kindtypeANY)
|| (k2 == FFEINFO_kindtypeANY))
return FFEINFO_kindtypeANY;
if (ffetype_size (ffeinfo_types_[bt][k1])
> ffetype_size (ffeinfo_types_[bt][k2]))
return k1;
return k2;
}
/* ffeinfo_kindtype_string -- Return tiny string showing the kind type
ffeinfoKindtype kind_type;
printf("%s",ffeinfo_kindtype_string(kind));
Returns the string based on the kind type. */
const char *
ffeinfo_kindtype_string (ffeinfoKindtype kind_type)
{
if (kind_type >= ARRAY_SIZE (ffeinfo_kindtype_string_))
return "?\?\?";
return ffeinfo_kindtype_string_[kind_type];
}
void
ffeinfo_set_type (ffeinfoBasictype basictype, ffeinfoKindtype kindtype,
ffetype type)
{
assert (basictype < FFEINFO_basictype);
assert (kindtype < FFEINFO_kindtype);
assert (ffeinfo_types_[basictype][kindtype] == NULL);
ffeinfo_types_[basictype][kindtype] = type;
}
ffetype
ffeinfo_type (ffeinfoBasictype basictype, ffeinfoKindtype kindtype)
{
assert (basictype < FFEINFO_basictype);
assert (kindtype < FFEINFO_kindtype);
return ffeinfo_types_[basictype][kindtype];
}
/* ffeinfo_where_string -- Return tiny string showing the where
ffeinfoWhere where;
printf("%s",ffeinfo_where_string(where));
Returns the string based on the where. */
const char *
ffeinfo_where_string (ffeinfoWhere where)
{
if (where >= ARRAY_SIZE (ffeinfo_where_string_))
return "?\?\?";
return ffeinfo_where_string_[where];
}
/* ffeinfo_new -- Return object representing datatype, kind, and where info
ffeinfo i;
i = ffeinfo_new(FFEINFO_datatypeINTEGER,FFEINFO_kindSCALAR,
FFEINFO_whereLOCAL);
Returns the string based on the data type. */
#ifndef __GNUC__
ffeinfo
ffeinfo_new (ffeinfoBasictype basictype, ffeinfoKindtype kindtype,
ffeinfoRank rank, ffeinfoKind kind, ffeinfoWhere where,
ffetargetCharacterSize size)
{
ffeinfo i;
i.basictype = basictype;
i.kindtype = kindtype;
i.rank = rank;
i.size = size;
i.kind = kind;
i.where = where;
i.size = size;
return i;
}
#endif