/* 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