ack/lang/cem/cemcom/declar.g

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1986-03-10 13:07:55 +00:00
/* $Header$ */
/* DECLARATION SYNTAX PARSER */
{
#include "nobitfield.h"
#include "debug.h"
#include "arith.h"
#include "LLlex.h"
#include "idf.h"
#include "type.h"
#include "struct.h"
#include "field.h"
#include "decspecs.h"
#include "def.h"
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#include "declar.h"
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#include "label.h"
#include "expr.h"
#include "sizes.h"
extern char options[];
}
/* 8 */
declaration
{struct decspecs Ds;}
:
{Ds = null_decspecs;}
decl_specifiers(&Ds)
init_declarator_list(&Ds)?
';'
;
/* A `decl_specifiers' describes a sequence of a storage_class_specifier,
an unsigned_specifier, a size_specifier and a simple type_specifier,
which may occur in arbitrary order and each of which may be absent;
at least one of them must be present, however, since the totally
empty case has already be dealt with in `external_definition'.
This means that something like:
unsigned extern int short xx;
is perfectly good C.
On top of that, multiple occurrences of storage_class_specifiers,
unsigned_specifiers and size_specifiers are errors, but a second
type_specifier should end the decl_specifiers and be treated as
the name to be declared (see the thin ice in RM11.1).
Such a language is not easily expressed in a grammar; enumeration
of the permutations is unattractive. We solve the problem by
having a regular grammar for the "soft" items, handling the single
occurrence of the type_specifier in the grammar (we have no choice),
collecting all data in a `struct decspecs' and turning that data
structure into what we want.
The existence of declarations like
short typedef yepp;
makes all hope of writing a specific grammar for typedefs illusory.
*/
decl_specifiers /* non-empty */ (struct decspecs *ds;)
/* Reads a non-empty decl_specifiers and fills the struct
decspecs *ds.
*/
:
[
other_specifier(ds)+
[%prefer /* the thin ice in R.M. 11.1 */
single_type_specifier(ds) other_specifier(ds)*
|
empty
]
|
single_type_specifier(ds) other_specifier(ds)*
]
{do_decspecs(ds);}
;
/* 8.1 */
other_specifier(struct decspecs *ds;):
[
[ AUTO | STATIC | EXTERN | TYPEDEF | REGISTER ]
{ if (ds->ds_sc_given)
error("repeated storage class specifier");
else {
ds->ds_sc_given = 1;
ds->ds_sc = DOT;
}
}
|
[ SHORT | LONG ]
{ if (ds->ds_size)
error("repeated size specifier");
else ds->ds_size = DOT;
}
|
UNSIGNED
{ if (ds->ds_unsigned)
error("unsigned specified twice");
else ds->ds_unsigned = 1;
}
]
;
/* 8.2 */
type_specifier(struct type **tpp;)
/* Used in struct/union declarations and in casts; only the
type is relevant.
*/
{struct decspecs Ds; Ds = null_decspecs;}
:
decl_specifiers(&Ds)
{
if (Ds.ds_sc_given)
error("storage class ignored");
if (Ds.ds_sc == REGISTER)
error("register ignored");
}
{*tpp = Ds.ds_type;}
;
single_type_specifier(struct decspecs *ds;):
[
TYPE_IDENTIFIER /* this includes INT, CHAR, etc. */
{idf2type(dot.tk_idf, &ds->ds_type);}
|
struct_or_union_specifier(&ds->ds_type)
|
enum_specifier(&ds->ds_type)
]
;
/* 8.3 */
init_declarator_list(struct decspecs *ds;):
init_declarator(ds)
[ ',' init_declarator(ds) ]*
;
init_declarator(struct decspecs *ds;)
{
struct declarator Dc;
struct expr *expr = (struct expr *) 0;
}
:
{
Dc = null_declarator;
}
[
declarator(&Dc)
{
reject_params(&Dc);
declare_idf(ds, &Dc, level);
}
initializer(Dc.dc_idf, &expr)?
{
code_declaration(Dc.dc_idf, expr, level, ds->ds_sc);
free_expression(expr);
}
]
{remove_declarator(&Dc);}
;
/*
Functions yielding pointers to functions must be declared as, e.g.,
int (*hehe(par1, par2))() char *par1, *par2; {}
Since the function heading is read as a normal declarator,
we just include the (formal) parameter list in the declarator
description list dc.
*/
declarator(struct declarator *dc;)
{
arith count;
struct idstack_item *is = 0;
}
:
[
primary_declarator(dc)
[%while(1) /* int i (M + 2) / 4;
is a function, not an
old-fashioned initialization.
*/
'('
formal_list(&is) ? /* semantic check later... */
')'
{
add_decl_unary(dc, FUNCTION, (arith)0, is);
is = 0;
}
|
arrayer(&count)
{add_decl_unary(dc, ARRAY, count, NO_PARAMS);}
]*
|
'*' declarator(dc)
{add_decl_unary(dc, POINTER, (arith)0, NO_PARAMS);}
]
;
primary_declarator(struct declarator *dc;) :
[
identifier(&dc->dc_idf)
|
'(' declarator(dc) ')'
]
;
arrayer(arith *sizep;)
{ struct expr *expr; }
:
'['
[
constant_expression(&expr)
{
array_subscript(expr);
*sizep = expr->VL_VALUE;
free_expression(expr);
}
|
empty
{ *sizep = (arith)-1; }
]
']'
;
formal_list (struct idstack_item **is;)
:
formal(is) [ ',' formal(is) ]*
;
formal(struct idstack_item **is;)
{struct idf *idf; }
:
identifier(&idf)
{
struct idstack_item *new = new_idstack_item();
new->is_idf = idf;
new->next = *is;
*is = new;
}
;
/* Change 2 */
enum_specifier(struct type **tpp;)
{
struct idf *idf;
arith l = (arith)0;
}
:
ENUM
[
{declare_struct(ENUM, (struct idf *) 0, tpp);}
enumerator_pack(*tpp, &l)
|
identifier(&idf)
[
{declare_struct(ENUM, idf, tpp);}
enumerator_pack(*tpp, &l)
|
{apply_struct(ENUM, idf, tpp);}
empty
]
]
;
enumerator_pack(struct type *tp; arith *lp;) :
'{'
enumerator(tp, lp)
[%while(AHEAD != '}') /* >>> conflict on ',' */
','
enumerator(tp, lp)
]*
','? /* optional trailing comma */
'}'
{tp->tp_size = int_size;}
/* fancy implementations that put small enums in 1 byte
or so should start here.
*/
;
enumerator(struct type *tp; arith *lp;)
{
struct idf *idf;
struct expr *expr;
}
:
identifier(&idf)
[
'='
constant_expression(&expr)
{
*lp = expr->VL_VALUE;
free_expression(expr);
}
]?
{declare_enum(tp, idf, (*lp)++);}
;
/* 8.5 */
struct_or_union_specifier(struct type **tpp;)
{
int fund;
struct idf *idf;
}
:
[ STRUCT | UNION ]
{fund = DOT;}
[
{
declare_struct(fund, (struct idf *)0, tpp);
}
struct_declaration_pack(*tpp)
|
identifier(&idf)
[
{
declare_struct(fund, idf, tpp);
(idf->id_struct->tg_busy)++;
}
struct_declaration_pack(*tpp)
{
(idf->id_struct->tg_busy)--;
}
|
{apply_struct(fund, idf, tpp);}
empty
]
]
;
struct_declaration_pack(struct type *stp;)
{
struct sdef **sdefp = &stp->tp_sdef;
arith size = (arith)0;
}
:
/* The size is only filled in after the whole struct has
been read, to prevent recursive definitions.
*/
'{'
struct_declaration(stp, &sdefp, &size)+
'}'
{stp->tp_size = align(size, stp->tp_align);}
;
struct_declaration(struct type *stp; struct sdef ***sdefpp; arith *szp;)
{struct type *tp;}
:
type_specifier(&tp)
struct_declarator_list(tp, stp, sdefpp, szp)
[ /* in some standard UNIX compilers the semicolon
is optional, would you believe!
*/
';'
|
empty
{warning("no semicolon after declarator");}
]
;
struct_declarator_list(struct type *tp, *stp;
struct sdef ***sdefpp; arith *szp;)
:
struct_declarator(tp, stp, sdefpp, szp)
[ ',' struct_declarator(tp, stp, sdefpp, szp) ]*
;
struct_declarator(struct type *tp; struct type *stp;
struct sdef ***sdefpp; arith *szp;)
{
struct declarator Dc;
struct field *fd = 0;
}
:
{
Dc = null_declarator;
}
[
declarator(&Dc)
{reject_params(&Dc);}
bit_expression(&fd)?
|
{Dc.dc_idf = gen_idf();}
bit_expression(&fd)
]
{add_sel(stp, declare_type(tp, &Dc), Dc.dc_idf, sdefpp, szp, fd);}
{remove_declarator(&Dc);}
;
bit_expression(struct field **fd;)
{ struct expr *expr; }
:
{
*fd = new_field();
}
':'
constant_expression(&expr)
{
(*fd)->fd_width = expr->VL_VALUE;
free_expression(expr);
#ifdef NOBITFIELD
error("bitfields are not implemented");
#endif NOBITFIELD
}
;
/* 8.6 */
initializer(struct idf *idf; struct expr **expp;) :
[
'='
|
empty
{warning("old-fashioned initialization, insert =");}
/* This causes trouble at declarator and at
external_definition, q.v.
*/
]
initial_value(expp)
{
if (idf->id_def->df_type->tp_fund == FUNCTION) {
error("illegal initialization of function");
free_expression(*expp);
*expp = 0;
}
init_idf(idf);
#ifdef DEBUG
print_expr("initializer-expression", *expp);
#endif DEBUG
}
;
/* 8.7 */
cast(struct type **tpp;) {struct declarator Dc;} :
{Dc = null_declarator;}
'('
type_specifier(tpp)
abstract_declarator(&Dc)
')'
{*tpp = declare_type(*tpp, &Dc);}
{remove_declarator(&Dc);}
;
/* This code is an abject copy of that of 'declarator', for lack of
a two-level grammar.
*/
abstract_declarator(struct declarator *dc;)
{arith count;}
:
[
primary_abstract_declarator(dc)
[
'(' ')'
{add_decl_unary(dc, FUNCTION, (arith)0, NO_PARAMS);}
|
arrayer(&count)
{add_decl_unary(dc, ARRAY, count, NO_PARAMS);}
]*
|
'*' abstract_declarator(dc)
{add_decl_unary(dc, POINTER, (arith)0, NO_PARAMS);}
]
;
primary_abstract_declarator(struct declarator *dc;) :
[%if (AHEAD == ')')
empty
|
'(' abstract_declarator(dc) ')'
]
;
empty:
;
/* 8.8 */
/* included in the IDENTIFIER/TYPE_IDENTIFIER mechanism */