ack/lang/cem/cemcom/program.g

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/*
* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
* See the copyright notice in the ACK home directory, in the file "Copyright".
*/
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/* $Id$ */
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/* PROGRAM PARSER */
/* The presence of typedef declarations renders it impossible to
make a context-free grammar of C. Consequently we need
context-sensitive parsing techniques, the simplest one being
a subtle cooperation between the parser and the lexical scanner.
The lexical scanner has to know whether to return IDENTIFIER
or TYPE_IDENTIFIER for a given tag, and it obtains this information
from the definition list, as constructed by the parser.
The present grammar is essentially LL(2), and is processed by
a parser generator which accepts LL(1) with tie breaking rules
in C, of the form %if(cond) and %while(cond). To solve the LL(1)
ambiguities, the lexical scanner does a one symbol look-ahead.
This symbol, however, cannot always be correctly assessed, since
the present symbol may cause a change in the definition list
which causes the identification of the look-ahead symbol to be
invalidated.
The lexical scanner relies on the parser (or its routines) to
detect this situation and then update the look-ahead symbol.
An alternative approach would be to reassess the look-ahead symbol
in the lexical scanner when it is promoted to dot symbol. This
would be more beautiful but less correct, since then for a short
while there would be a discrepancy between the look-ahead symbol
and the definition list; I think it would nevertheless work in
correct programs.
A third solution would be to enter the identifier as soon as it
is found; its storage class is then known, although its full type
isn't. We would have to fill that in afterwards.
At block exit the situation is even worse. Upon reading the
closing brace, the names declared inside the function are cleared
from the name list. This action may expose a type identifier that
is the same as the identifier in the look-ahead symbol. This
situation certainly invalidates the third solution, and casts
doubts upon the second.
*/
%lexical LLlex;
%start C_program, program;
%start If_expr, control_if_expression;
{
#include "lint.h"
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#include "nopp.h"
#include "arith.h"
#include "LLlex.h"
#include "idf.h"
#include "label.h"
#include "type.h"
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#include "declar.h"
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#include "decspecs.h"
#include "code.h"
#include "expr.h"
#include "def.h"
#ifdef LINT
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#include "l_lint.h"
#endif /* LINT */
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#ifndef NOPP
extern arith ifval;
#endif /* NOPP */
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extern error();
}
control_if_expression
{
struct expr *exprX;
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}
:
constant_expression(&exprX)
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{
#ifndef NOPP
register struct expr *expr = exprX;
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if (expr->ex_flags & EX_SIZEOF)
expr_error(expr,
"sizeof not allowed in preprocessor");
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ifval = expr->VL_VALUE;
free_expression(expr);
#endif /* NOPP */
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}
;
/* 10 */
program:
[%persistent external_definition]*
{unstack_world();}
;
/* A C identifier definition is remarkable in that it formulates
the declaration in a way different from most other languages:
e.g., rather than defining x as a pointer-to-integer, it defines
*x as an integer and lets the compiler deduce that x is actually
pointer-to-integer. This has profound consequences, both for the
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structure of an identifier definition and for the compiler.
A definition starts with a decl_specifiers, which contains things
like
typedef int
which is implicitly repeated for every definition in the list, and
then for each identifier a declarator is given, of the form
*a()
or so. The decl_specifiers is kept in a struct decspecs, to be
used again and again, while the declarator is stored in a struct
declarator, only to be passed to declare_idf together with the
struct decspecs.
*/
external_definition
{
struct decspecs Ds;
struct declarator Dc;
}
:
{
Ds = null_decspecs;
Dc = null_declarator;
}
ext_decl_specifiers(&Ds)
[
declarator(&Dc)
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{
declare_idf(&Ds, &Dc, level);
#ifdef LINT
lint_ext_def(Dc.dc_idf, Ds.ds_sc);
#endif /* LINT */
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}
[
function(&Ds, &Dc)
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|
non_function(&Ds, &Dc)
]
|
';'
]
{remove_declarator(&Dc);}
|
asm_statement /* top level, would you believe */
;
ext_decl_specifiers(struct decspecs *ds;) :
%if (DOT != IDENTIFIER || AHEAD == IDENTIFIER) /* the thin ice in R.M. 11.1 */
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decl_specifiers(ds)
|
empty
{do_decspecs(ds);}
;
non_function(register struct decspecs *ds; register struct declarator *dc;)
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:
{reject_params(dc);}
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[
initializer(dc->dc_idf, ds->ds_sc)
|
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{ code_declaration(dc->dc_idf, (struct expr *) 0, level, ds->ds_sc); }
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]
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{
#ifdef LINT
lint_non_function_decl(ds, dc);
#endif /* LINT */
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}
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[
','
init_declarator(ds)
]*
';'
;
/* 10.1 */
function(struct decspecs *ds; struct declarator *dc;)
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{
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arith fbytes;
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}
:
{ register struct idf *idf = dc->dc_idf;
#ifdef LINT
lint_start_function();
#endif /* LINT */
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init_idf(idf);
stack_level(); /* L_FORMAL1 declarations */
declare_params(dc);
begin_proc(ds, idf); /* sets global function info */
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stack_level(); /* L_FORMAL2 declarations */
}
declaration*
{
declare_formals(&fbytes);
#ifdef LINT
lint_formals();
#endif /* LINT */
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}
compound_statement
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{
end_proc(fbytes);
#ifdef LINT
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lint_implicit_return();
#endif /* LINT */
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unstack_level(); /* L_FORMAL2 declarations */
#ifdef LINT
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lint_end_formals();
#endif /* LINT */
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unstack_level(); /* L_FORMAL1 declarations */
#ifdef LINT
lint_end_function();
#endif /* LINT */
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}
;