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555 lines
16 KiB
C
555 lines
16 KiB
C
/* st.c -- Implementation File (module.c template V1.0)
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Copyright (C) 1995, 2003 Free Software Foundation, Inc.
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Contributed by James Craig Burley.
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This file is part of GNU Fortran.
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GNU Fortran is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2, or (at your option)
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any later version.
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GNU Fortran is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with GNU Fortran; see the file COPYING. If not, write to
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the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA
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02111-1307, USA.
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Related Modules:
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None
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Description:
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The high-level input level to statement handling for the rest of the
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FFE. ffest_first is the first state for the lexer to invoke to start
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a statement. A statement normally starts with a NUMBER token (to indicate
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a label def) followed by a NAME token (to indicate what kind of statement
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it is), though of course the NUMBER token may be omitted. ffest_first
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gathers the first NAME token and returns a state of ffest_second_,
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where the trailing underscore means "internal to ffest" and thus outside
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users should not depend on this. ffest_second_ then looks at the second
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token in conjunction with the first, decides what possible statements are
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meant, and tries each possible statement in turn, from most likely to
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least likely. A successful attempt currently is recorded, and further
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successful attempts by other possibilities raise an assertion error in
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ffest_confirmed (this is to detect ambiguities). A failure in an
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attempt is signaled by calling ffest_ffebad_start; this results in the
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next token sent by ffest_save_ (the intermediary when more than one
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possible statement exists) being EOS to shut down processing and the next
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possibility tried.
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When all possibilities have been tried, the successful one is retried with
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inhibition turned off (FALSE) as reported by ffest_is_inhibited(). If
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there is no successful one, the first one is retried so the user gets to
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see the error messages.
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In the future, after syntactic bugs have been reasonably shaken out and
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ambiguities thus detected, the first successful possibility will be
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enabled (inhibited goes FALSE) as soon as it confirms success by calling
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ffest_confirmed, thus retrying the possibility will not be necessary.
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The only complication in all this is that expression handling is
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happening while possibilities are inhibited. It is up to the expression
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handler, conceptually, to not make any changes to its knowledge base for
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variable names and so on when inhibited that cannot be undone if
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the current possibility fails (shuts down via ffest_ffebad_start). In
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fact, this business is handled not be ffeexpr, but by lower levels.
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ffesta functions serve only to provide information used in syntactic
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processing of possible statements, and thus may not make changes to the
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knowledge base for variables and such.
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ffestb functions perform the syntactic analysis for possible statements,
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and thus again may not make changes to the knowledge base except under the
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auspices of ffeexpr and its subordinates, changes which can be undone when
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necessary.
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ffestc functions perform the semantic analysis for the chosen statement,
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and thus may change the knowledge base as necessary since they are invoked
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by ffestb functions only after a given statement is confirmed and
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enabled. Note, however, that a few ffestc functions (identified by
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their statement names rather than grammar numbers) indicate valid forms
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that are, outside of any context, ambiguous, such as ELSE WHERE and
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PRIVATE; these functions should make a quick decision as to what is
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intended and dispatch to the appropriate specific ffestc function.
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ffestd functions actually implement statements. When called, the
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statement is considered valid and is either an executable statement or
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a nonexecutable statement with direct-output results. For example, CALL,
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GOTO, and assignment statements pass through ffestd because they are
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executable; DATA statements pass through because they map directly to the
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output file (or at least might so map); ENTRY statements also pass through
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because they essentially affect code generation in an immediate way;
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whereas INTEGER, SAVE, and SUBROUTINE statements do not go through
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ffestd functions because they merely update the knowledge base.
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Modifications:
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*/
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/* Include files. */
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#include "proj.h"
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#include "st.h"
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#include "bad.h"
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#include "lex.h"
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#include "sta.h"
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#include "stb.h"
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#include "stc.h"
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#include "std.h"
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#include "ste.h"
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#include "stp.h"
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#include "str.h"
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#include "sts.h"
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#include "stt.h"
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#include "stu.h"
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#include "stv.h"
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#include "stw.h"
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/* Externals defined here. */
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/* Simple definitions and enumerations. */
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/* Internal typedefs. */
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/* Private include files. */
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/* Internal structure definitions. */
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/* Static objects accessed by functions in this module. */
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/* Static functions (internal). */
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/* Internal macros. */
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/* ffest_confirmed -- Confirm current possibility as only one
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ffest_confirmed();
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Sets the confirmation flag. During debugging for ambiguous constructs,
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asserts that the confirmation flag for a previous possibility has not
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yet been set. */
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void
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ffest_confirmed (void)
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{
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ffesta_confirmed ();
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}
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/* ffest_eof -- End of (non-INCLUDEd) source file
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ffest_eof();
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Call after piping tokens through ffest_first, where the most recent
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token sent through must be EOS.
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20-Feb-91 JCB 1.1
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Put new EOF token in ffesta_tokens[0], not NULL, because too much
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code expects something there for error reporting and the like. Also,
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do basically the same things ffest_second and ffesta_zero do for
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processing a statement (make and destroy pools, et cetera). */
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void
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ffest_eof (void)
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{
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ffesta_eof ();
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}
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/* ffest_ffebad_here_current_stmt -- ffebad_here with ptr to current stmt
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ffest_ffebad_here_current_stmt(0);
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Outsiders can call this fn if they have no more convenient place to
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point to (via a token or pair of ffewhere objects) and they know a
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current, useful statement is being evaluted by ffest (i.e. they are
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being called from ffestb, ffestc, ffestd, ... functions). */
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void
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ffest_ffebad_here_current_stmt (ffebadIndex i)
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{
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ffesta_ffebad_here_current_stmt (i);
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}
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/* ffest_ffebad_here_doiter -- Calls ffebad_here with ptr to DO iter var
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ffesymbol s;
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// call ffebad_start first, of course.
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ffest_ffebad_here_doiter(0,s);
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// call ffebad_finish afterwards, naturally.
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Searches the stack of blocks backwards for a DO loop that has s
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as its iteration variable, then calls ffebad_here with pointers to
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that particular reference to the variable. Crashes if the DO loop
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can't be found. */
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void
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ffest_ffebad_here_doiter (ffebadIndex i, ffesymbol s)
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{
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ffestc_ffebad_here_doiter (i, s);
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}
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/* ffest_ffebad_start -- Start a possibly inhibited error report
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if (ffest_ffebad_start(FFEBAD_SOME_ERROR))
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{
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ffebad_here, ffebad_string ...;
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ffebad_finish();
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}
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Call if the error might indicate that ffest is evaluating the wrong
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statement form, instead of calling ffebad_start directly. If ffest
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is choosing between forms, it will return FALSE, send an EOS/SEMICOLON
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token through as the next token (if the current one isn't already one
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of those), and try another possible form. Otherwise, ffebad_start is
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called with the argument and TRUE returned. */
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bool
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ffest_ffebad_start (ffebad errnum)
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{
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return ffesta_ffebad_start (errnum);
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}
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/* ffest_first -- Parse the first token in a statement
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return ffest_first; // to lexer. */
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ffelexHandler
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ffest_first (ffelexToken t)
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{
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return ffesta_first (t);
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}
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/* ffest_init_0 -- Initialize for entire image invocation
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ffest_init_0();
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Call just once per invocation of the compiler (not once per invocation
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of the front end).
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Gets memory for the list of possibles once and for all, since this
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list never gets larger than a certain size (FFEST_maxPOSSIBLES_)
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and is not particularly large. Initializes the array of pointers to
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this list. Initializes the executable and nonexecutable lists. */
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void
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ffest_init_0 (void)
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{
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ffesta_init_0 ();
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ffestb_init_0 ();
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ffestc_init_0 ();
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ffestd_init_0 ();
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ffeste_init_0 ();
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ffestp_init_0 ();
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ffestr_init_0 ();
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ffests_init_0 ();
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ffestt_init_0 ();
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ffestu_init_0 ();
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ffestv_init_0 ();
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ffestw_init_0 ();
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}
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/* ffest_init_1 -- Initialize for entire image invocation
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ffest_init_1();
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Call just once per invocation of the compiler (not once per invocation
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of the front end).
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Gets memory for the list of possibles once and for all, since this
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list never gets larger than a certain size (FFEST_maxPOSSIBLES_)
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and is not particularly large. Initializes the array of pointers to
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this list. Initializes the executable and nonexecutable lists. */
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void
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ffest_init_1 (void)
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{
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ffesta_init_1 ();
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ffestb_init_1 ();
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ffestc_init_1 ();
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ffestd_init_1 ();
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ffeste_init_1 ();
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ffestp_init_1 ();
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ffestr_init_1 ();
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ffests_init_1 ();
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ffestt_init_1 ();
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ffestu_init_1 ();
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ffestv_init_1 ();
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ffestw_init_1 ();
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}
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/* ffest_init_2 -- Initialize for entire image invocation
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ffest_init_2();
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Call just once per invocation of the compiler (not once per invocation
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of the front end).
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Gets memory for the list of possibles once and for all, since this
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list never gets larger than a certain size (FFEST_maxPOSSIBLES_)
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and is not particularly large. Initializes the array of pointers to
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this list. Initializes the executable and nonexecutable lists. */
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void
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ffest_init_2 (void)
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{
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ffesta_init_2 ();
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ffestb_init_2 ();
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ffestc_init_2 ();
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ffestd_init_2 ();
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ffeste_init_2 ();
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ffestp_init_2 ();
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ffestr_init_2 ();
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ffests_init_2 ();
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ffestt_init_2 ();
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ffestu_init_2 ();
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ffestv_init_2 ();
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ffestw_init_2 ();
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}
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/* ffest_init_3 -- Initialize for any program unit
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ffest_init_3(); */
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void
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ffest_init_3 (void)
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{
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ffesta_init_3 ();
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ffestb_init_3 ();
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ffestc_init_3 ();
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ffestd_init_3 ();
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ffeste_init_3 ();
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ffestp_init_3 ();
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ffestr_init_3 ();
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ffests_init_3 ();
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ffestt_init_3 ();
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ffestu_init_3 ();
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ffestv_init_3 ();
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ffestw_init_3 ();
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ffestw_display_state ();
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}
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/* ffest_init_4 -- Initialize for statement functions
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ffest_init_4(); */
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void
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ffest_init_4 (void)
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{
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ffesta_init_4 ();
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ffestb_init_4 ();
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ffestc_init_4 ();
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ffestd_init_4 ();
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ffeste_init_4 ();
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ffestp_init_4 ();
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ffestr_init_4 ();
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ffests_init_4 ();
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ffestt_init_4 ();
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ffestu_init_4 ();
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ffestv_init_4 ();
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ffestw_init_4 ();
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}
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/* Test whether ENTRY statement is valid.
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Returns TRUE if current program unit is known to be FUNCTION or SUBROUTINE.
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Else returns FALSE. */
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bool
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ffest_is_entry_valid (void)
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{
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return ffesta_is_entry_valid;
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}
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/* ffest_is_inhibited -- Test whether the current possibility is inhibited
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if (!ffest_is_inhibited())
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// implement the statement.
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Just make sure the current possibility has been confirmed. If anyone
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really needs to test whether the current possibility is inhibited prior
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to confirming it, that indicates a need to begin statement processing
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before it is certain that the given possibility is indeed the statement
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to be processed. As of this writing, there does not appear to be such
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a need. If there is, then when confirming a statement would normally
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immediately disable the inhibition (whereas currently we leave the
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confirmed statement disabled until we've tried the other possibilities,
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to check for ambiguities), we must check to see if the possibility has
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already tested for inhibition prior to confirmation and, if so, maintain
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inhibition until the end of the statement (which may be forced right
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away) and then rerun the entire statement from the beginning. Otherwise,
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initial calls to ffestb functions won't have been made, but subsequent
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calls (after confirmation) will, which is wrong. Of course, this all
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applies only to those statements implemented via multiple calls to
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ffestb, although if a statement requiring only a single ffestb call
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tested for inhibition prior to confirmation, it would likely mean that
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the ffestb call would be completely dropped without this mechanism. */
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bool
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ffest_is_inhibited (void)
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{
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return ffesta_is_inhibited ();
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}
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/* ffest_seen_first_exec -- Test whether first executable stmt has been seen
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if (ffest_seen_first_exec())
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// No more spec stmts can be seen.
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In a case where, say, the first statement is PARAMETER(A)=B, FALSE
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will be returned while the PARAMETER statement is being run, and TRUE
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will be returned if it doesn't confirm and the assignment statement
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is being run. */
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bool
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ffest_seen_first_exec (void)
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{
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return ffesta_seen_first_exec;
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}
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/* Shut down current parsing possibility, but without bothering the
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user with a diagnostic if we're not inhibited. */
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void
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ffest_shutdown (void)
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{
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ffesta_shutdown ();
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}
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/* ffest_sym_end_transition -- Update symbol info just before end of unit
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ffesymbol s;
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ffest_sym_end_transition(s); */
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ffesymbol
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ffest_sym_end_transition (ffesymbol s)
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{
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return ffestu_sym_end_transition (s);
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}
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/* ffest_sym_exec_transition -- Update symbol just before first exec stmt
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ffesymbol s;
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ffest_sym_exec_transition(s); */
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ffesymbol
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ffest_sym_exec_transition (ffesymbol s)
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{
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return ffestu_sym_exec_transition (s);
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}
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/* ffest_terminate_0 -- Terminate for entire image invocation
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ffest_terminate_0(); */
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void
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ffest_terminate_0 (void)
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{
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ffesta_terminate_0 ();
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ffestb_terminate_0 ();
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ffestc_terminate_0 ();
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ffestd_terminate_0 ();
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ffeste_terminate_0 ();
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ffestp_terminate_0 ();
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ffestr_terminate_0 ();
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ffests_terminate_0 ();
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ffestt_terminate_0 ();
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ffestu_terminate_0 ();
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ffestv_terminate_0 ();
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ffestw_terminate_0 ();
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}
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/* ffest_terminate_1 -- Terminate for source file
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ffest_terminate_1(); */
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void
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ffest_terminate_1 (void)
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{
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ffesta_terminate_1 ();
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ffestb_terminate_1 ();
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ffestc_terminate_1 ();
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ffestd_terminate_1 ();
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ffeste_terminate_1 ();
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ffestp_terminate_1 ();
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ffestr_terminate_1 ();
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ffests_terminate_1 ();
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ffestt_terminate_1 ();
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ffestu_terminate_1 ();
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ffestv_terminate_1 ();
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ffestw_terminate_1 ();
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}
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/* ffest_terminate_2 -- Terminate for outer program unit
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ffest_terminate_2(); */
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void
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ffest_terminate_2 (void)
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{
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ffesta_terminate_2 ();
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ffestb_terminate_2 ();
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ffestc_terminate_2 ();
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ffestd_terminate_2 ();
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ffeste_terminate_2 ();
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ffestp_terminate_2 ();
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ffestr_terminate_2 ();
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ffests_terminate_2 ();
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ffestt_terminate_2 ();
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ffestu_terminate_2 ();
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ffestv_terminate_2 ();
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ffestw_terminate_2 ();
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}
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/* ffest_terminate_3 -- Terminate for any program unit
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ffest_terminate_3(); */
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void
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ffest_terminate_3 (void)
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{
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ffesta_terminate_3 ();
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ffestb_terminate_3 ();
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ffestc_terminate_3 ();
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ffestd_terminate_3 ();
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ffeste_terminate_3 ();
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ffestp_terminate_3 ();
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ffestr_terminate_3 ();
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ffests_terminate_3 ();
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ffestt_terminate_3 ();
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ffestu_terminate_3 ();
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ffestv_terminate_3 ();
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ffestw_terminate_3 ();
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}
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/* ffest_terminate_4 -- Terminate for statement functions
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ffest_terminate_4(); */
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void
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ffest_terminate_4 (void)
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{
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ffesta_terminate_4 ();
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ffestb_terminate_4 ();
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ffestc_terminate_4 ();
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ffestd_terminate_4 ();
|
||
ffeste_terminate_4 ();
|
||
ffestp_terminate_4 ();
|
||
ffestr_terminate_4 ();
|
||
ffests_terminate_4 ();
|
||
ffestt_terminate_4 ();
|
||
ffestu_terminate_4 ();
|
||
ffestv_terminate_4 ();
|
||
ffestw_terminate_4 ();
|
||
}
|