ack/lang/m2/comp/declar.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".
*
* Author: Ceriel J.H. Jacobs
*/
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/* D E C L A R A T I O N S */
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/* $Id$ */
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{
#include "parameters.h"
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#include "debug.h"
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#include <em_arith.h>
#include <em_label.h>
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#include <alloc.h>
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#include <assert.h>
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#include "idf.h"
#include "LLlex.h"
#include "def.h"
#include "type.h"
#include "scope.h"
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#include "node.h"
#include "misc.h"
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#include "main.h"
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#include "chk_expr.h"
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#include "warning.h"
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int proclevel = 0; /* nesting level of procedures */
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int return_occurred; /* set if a return occurs in a block */
extern t_node *EmptyStatement;
#define needs_static_link() (proclevel > 1)
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}
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/* inline in declaration: need space
* ProcedureDeclaration
* {
* t_def *df;
* } :
* { ++proclevel; }
* ProcedureHeading(&df, D_PROCEDURE)
* ';' block(&(df->prc_body))
* IDENT
* { EndProc(df, dot.TOK_IDF);
* --proclevel;
* }
* ;
*/
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ProcedureHeading(t_def **pdf; int type;)
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{
t_type *tp = 0;
arith parmaddr = needs_static_link() ? pointer_size : 0;
t_param *pr = 0;
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} :
PROCEDURE IDENT
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{ *pdf = DeclProc(type, dot.TOK_IDF); }
[
'('
[
FPSection(&pr, &parmaddr)
[
';' FPSection(&pr, &parmaddr)
]*
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|
]
')'
[ ':' qualtype(&tp)
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|
]
|
]
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{ CheckWithDef(*pdf, proc_type(tp, pr, parmaddr));
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#ifndef NOSTRICT
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if (tp && IsConstructed(tp)) {
warning(W_STRICT, "procedure \"%s\" has a constructed result type",
(*pdf)->df_idf->id_text);
}
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#endif
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}
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;
block(t_node **pnd;) :
[ %persistent
declaration
]*
{ return_occurred = 0; }
[ %default
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BEGIN
StatementSequence(pnd)
|
{ *pnd = EmptyStatement; }
]
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END
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;
declaration
{
t_def *df;
} :
CONST [ ConstantDeclaration ';' ]*
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|
TYPE [ TypeDeclaration ';' ]*
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|
VAR [ VariableDeclaration ';' ]*
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|
{ ++proclevel; }
ProcedureHeading(&df, D_PROCEDURE)
{
}
';'
block(&(df->prc_body))
IDENT
{
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EndProc(df, dot.TOK_IDF);
--proclevel;
}
';'
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|
ModuleDeclaration ';'
;
/* inline in procedureheading: need space
* FormalParameters(t_param **ppr; arith *parmaddr; t_type **ptp;):
* '('
* [
* FPSection(ppr, parmaddr)
* [
* ';' FPSection(ppr, parmaddr)
* ]*
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* |
* ]
* ')'
* [ ':' qualtype(ptp)
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* |
* ]
* ;
*/
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FPSection(t_param **ppr; arith *parmaddr;)
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{
t_node *FPList;
t_type *tp;
int VARp;
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} :
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var(&VARp) IdentList(&FPList) ':' FormalType(&tp)
{ EnterParamList(ppr, FPList, tp, VARp, parmaddr); }
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;
FormalType(t_type **ptp;)
/* index type of conformant array is "CARDINAL".
Recognize a conformant array by size 0.
*/
{ register t_type *tp;
} :
ARRAY OF
{ tp = construct_type(T_ARRAY, card_type); }
qualtype(&(tp->arr_elem))
{ ArrayElSize(tp);
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*ptp = tp;
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}
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|
qualtype(ptp)
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;
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TypeDeclaration
{
t_def *df;
t_type *tp;
register t_node *nd;
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}:
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IDENT { df = define(dot.TOK_IDF, CurrentScope, D_TYPE);
nd = dot2leaf(Name);
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}
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'=' type(&tp)
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{ DeclareType(nd, df, tp);
FreeNode(nd);
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}
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;
type(register t_type **ptp;):
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%default SimpleType(ptp)
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|
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ArrayType(ptp)
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|
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RecordType(ptp)
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|
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SetType(ptp)
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|
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PointerType(ptp)
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|
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ProcedureType(ptp)
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;
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SimpleType(register t_type **ptp;) :
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qualtype(ptp)
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[
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/* nothing */
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|
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SubrangeType(ptp)
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/* The subrange type is given a base type by the
qualident (this is new modula-2).
*/
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]
|
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enumeration(ptp)
| { *ptp = 0; /* no qualification */ }
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SubrangeType(ptp)
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;
enumeration(t_type **ptp;)
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{
t_node *EnumList;
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} :
'(' IdentList(&EnumList) ')'
{ *ptp = enum_type(EnumList); }
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;
IdentList(t_node **p;)
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{
register t_node *q;
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} :
IDENT { *p = q = dot2leaf(Select); }
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[ %persistent
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',' IDENT
{ q->nd_NEXT = dot2leaf(Select);
q = q->nd_NEXT;
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}
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]*
;
SubrangeType(t_type **ptp;)
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{
t_node *nd1, *nd2;
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}:
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/*
This is not exactly the rule in the new report, but see
the rule for "SimpleType".
*/
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'[' ConstExpression(&nd1)
UPTO ConstExpression(&nd2)
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']'
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{ *ptp = subr_type(nd1, nd2, *ptp);
FreeNode(nd1);
FreeNode(nd2);
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}
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;
ArrayType(t_type **ptp;)
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{
t_type *tp;
register t_type *tp1, *tp2;
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} :
ARRAY SimpleType(&tp)
{ tp1 = tp2 = construct_type(T_ARRAY, tp); }
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[
',' SimpleType(&tp)
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{ tp2->arr_elem = construct_type(T_ARRAY, tp);
tp2 = tp2->arr_elem;
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}
]* OF type(&tp)
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{ tp2->arr_elem = tp;
ArraySizes(tp1);
*ptp = tp1;
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}
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;
RecordType(t_type **ptp;)
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{
register t_scope *scope;
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arith size = 0;
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int xalign = struct_align;
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}
:
RECORD
{ scope = open_and_close_scope(OPENSCOPE); }
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FieldListSequence(scope, &size, &xalign)
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{ if (size == 0) {
warning(W_ORDINARY, "empty record declaration");
size = 1;
}
*ptp = standard_type(T_RECORD, xalign, align(size, xalign));
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(*ptp)->rec_scope = scope;
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Reverse(&(scope->sc_def));
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}
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END
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;
FieldListSequence(t_scope *scope; arith *cnt; int *palign;):
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FieldList(scope, cnt, palign)
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[
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';' FieldList(scope, cnt, palign)
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]*
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;
FieldList(t_scope *scope; arith *cnt; int *palign;)
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{
t_node *FldList;
t_type *tp;
t_node *nd;
register t_def *df;
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arith tcnt, max;
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} :
[
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IdentList(&FldList) ':' type(&tp)
{
*palign = lcm(*palign, tp->tp_align);
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EnterFieldList(FldList, tp, scope, cnt);
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}
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|
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CASE
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/* Also accept old fashioned Modula-2 syntax, but give a warning.
Sorry for the complicated code.
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*/
[ qualident(&nd)
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[ ':' qualtype(&tp)
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/* This is correct, in both kinds of Modula-2, if
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the first qualident is a single identifier.
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*/
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{ if (nd->nd_class != Name) {
error("illegal variant tag");
}
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else {
df = define(nd->nd_IDF, scope, D_FIELD);
*palign = lcm(*palign, tp->tp_align);
if (!(tp->tp_fund & T_DISCRETE)) {
error("illegal type in variant");
}
df->df_type = tp;
df->fld_off = align(*cnt, tp->tp_align);
*cnt = df->fld_off + tp->tp_size;
df->df_flags |= D_QEXPORTED;
}
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FreeNode(nd);
}
| /* Old fashioned! the first qualident now represents
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the type
*/
{
#ifndef STRICT_3RD_ED
if (! options['3']) warning(W_OLDFASHIONED,
"old fashioned Modula-2 syntax; ':' missing");
else
#endif
error("':' missing");
tp = qualified_type(&nd);
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}
]
| ':' qualtype(&tp)
/* Aha, third edition. Well done! */
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]
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{ tcnt = *cnt; }
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OF variant(scope, &tcnt, tp, palign)
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{ max = tcnt; tcnt = *cnt; }
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[
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'|' variant(scope, &tcnt, tp, palign)
{ if (tcnt > max) max = tcnt; tcnt = *cnt; }
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]*
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[ ELSE FieldListSequence(scope, &tcnt, palign)
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{ if (tcnt > max) max = tcnt; }
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|
]
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END
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{ *cnt = max; }
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|
]
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;
variant(t_scope *scope; arith *cnt; t_type *tp; int *palign;)
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{
t_node *nd;
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} :
[
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CaseLabelList(&tp, &nd)
{ /* Ignore the cases for the time being.
Maybe a checking version will be supplied
later ???
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*/
FreeNode(nd);
}
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':' FieldListSequence(scope, cnt, palign)
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|
]
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/* Changed rule in new modula-2 */
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;
CaseLabelList(t_type **ptp; t_node **pnd;):
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CaseLabels(ptp, pnd)
[
{ *pnd = dot2node(Link, *pnd, NULLNODE); }
',' CaseLabels(ptp, &((*pnd)->nd_RIGHT))
{ pnd = &((*pnd)->nd_RIGHT); }
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]*
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;
CaseLabels(t_type **ptp; register t_node **pnd;)
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{
register t_node *nd;
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}:
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ConstExpression(pnd)
{
if (*ptp != 0) {
t_type *tp = intorcard(*ptp,
BaseType((*pnd)->nd_type));
if (tp) *ptp = tp;
ChkCompat(pnd, *ptp, "case label");
}
nd = *pnd;
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nd->nd_type = BaseType(nd->nd_type); /* ??? */
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if (! (nd->nd_type->tp_fund & T_DISCRETE) ||
nd->nd_type->tp_size > word_size) {
node_error(nd, "illegal type in case label");
}
}
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[
UPTO { *pnd = nd = dot2node(Link,nd,NULLNODE);
nd->nd_type = nd->nd_LEFT->nd_type;
}
ConstExpression(&(*pnd)->nd_RIGHT)
{ if (!ChkCompat(&((*pnd)->nd_RIGHT), nd->nd_type,
"case label")) {
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nd->nd_type = error_type;
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}
else if (! chk_bounds(nd->nd_LEFT->nd_INT,
nd->nd_RIGHT->nd_INT,
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nd->nd_type->tp_fund)) {
node_error(nd,
"lower bound exceeds upper bound in case label range");
}
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}
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|
]
{
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*ptp = nd->nd_type;
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}
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;
SetType(t_type **ptp;)
{ t_type *tp;
} :
SET OF SimpleType(&tp)
{ *ptp = set_type(tp); }
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;
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/* In a pointer type definition, the type pointed at does not
have to be declared yet, so be careful about identifying
type-identifiers.
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*/
PointerType(register t_type **ptp;)
{ register t_type *tp;
} :
{ tp = construct_type(T_POINTER, NULLTYPE); }
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POINTER TO
[ %if (type_or_forward(tp))
type(&(tp->tp_next))
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|
IDENT
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]
{ *ptp = tp; }
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;
qualtype(t_type **ptp;)
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{
t_node *nd;
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} :
qualident(&nd)
{ *ptp = qualified_type(&nd); }
;
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ProcedureType(t_type **ptp;)
{
t_param *pr = 0;
arith parmaddr = 0;
t_type *tp = 0;
} :
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PROCEDURE
[
FormalTypeList(&pr, &parmaddr, &tp)
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|
]
{ *ptp = proc_type(tp, pr, parmaddr); }
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;
FormalTypeList(t_param **ppr; arith *pparmaddr; t_type **ptp;) :
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'('
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[
VarFormalType(ppr, pparmaddr)
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[
',' VarFormalType(ppr, pparmaddr)
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]*
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|
]
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')'
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[ ':' qualtype(ptp)
|
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]
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;
VarFormalType(t_param **ppr; arith *pparmaddr;)
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{
t_type *tp;
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int isvar;
} :
var(&isvar)
FormalType(&tp)
{ EnterParamList(ppr,NULLNODE,tp,isvar,pparmaddr); }
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;
var(int *VARp;) :
[
VAR { *VARp = D_VARPAR; }
|
/* empty */ { *VARp = D_VALPAR; }
]
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;
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ConstantDeclaration
{
t_idf *id;
t_node *nd;
register t_def *df;
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}:
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IDENT { id = dot.TOK_IDF; }
'=' ConstExpression(&nd)
{ df = define(id,CurrentScope,D_CONST);
df->con_const = nd->nd_token;
df->df_type = nd->nd_type;
FreeNode(nd);
}
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;
VariableDeclaration
{
t_node *VarList;
register t_node *nd;
t_type *tp;
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} :
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IdentAddr(&VarList)
{ nd = VarList; }
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[ %persistent
',' IdentAddr(&(nd->nd_RIGHT))
{ nd = nd->nd_RIGHT; }
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]*
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':' type(&tp)
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{ EnterVarList(VarList, tp, proclevel > 0); }
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;
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IdentAddr(t_node **pnd;)
{
register t_node *nd;
} :
IDENT { nd = dot2leaf(Name);
*pnd = dot2node(Link, nd, NULLNODE);
}
[ '['
ConstExpression(&(nd->nd_NEXT))
']'
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|
]
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;