291 lines
4.6 KiB
Plaintext
291 lines
4.6 KiB
Plaintext
/*
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* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
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* See the copyright notice in the ACK home directory, in the file "Copyright".
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*
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* Author: Ceriel J.H. Jacobs
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*/
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/* E X P R E S S I O N S */
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/* $Header$ */
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{
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#include "debug.h"
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#include <alloc.h>
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#include <em_arith.h>
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#include <em_label.h>
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#include <assert.h>
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#include "LLlex.h"
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#include "idf.h"
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#include "def.h"
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#include "node.h"
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#include "const.h"
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#include "type.h"
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#include "chk_expr.h"
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#include "warning.h"
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extern char options[];
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}
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/* inline, we need room for pdp/11
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number(t_node **p;) :
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[
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%default
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INTEGER
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REAL
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] { *p = dot2leaf(Value);
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(*p)->nd_type = toktype;
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}
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;
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*/
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qualident(t_node **p;)
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{
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} :
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IDENT { *p = dot2leaf(Name); }
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[
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selector(p)
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]*
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;
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selector(t_node **pnd;):
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'.' { *pnd = dot2node(Link,*pnd,NULLNODE); }
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IDENT { (*pnd)->nd_IDF = dot.TOK_IDF; }
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;
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ExpList(t_node **pnd;)
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{
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register t_node *nd;
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} :
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expression(pnd) { *pnd = nd = dot2node(Link,*pnd,NULLNODE);
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nd->nd_symb = ',';
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}
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[
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',' { nd->nd_right = dot2leaf(Link);
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nd = nd->nd_right;
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}
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expression(&(nd->nd_left))
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]*
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;
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ConstExpression(t_node **pnd;)
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{
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register t_node *nd;
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}:
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expression(pnd)
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/*
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* Changed rule in new Modula-2.
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* Check that the expression is a constant expression and evaluate!
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*/
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{ nd = *pnd;
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DO_DEBUG(options['C'], print("CONSTANT EXPRESSION\n"));
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DO_DEBUG(options['C'], PrNode(nd, 0));
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if (ChkExpression(nd) &&
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((nd)->nd_class != Set && (nd)->nd_class != Value)) {
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error("constant expression expected");
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}
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DO_DEBUG(options['C'], print("RESULTS IN\n"));
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DO_DEBUG(options['C'], PrNode(nd, 0));
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}
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;
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expression(t_node **pnd;)
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{
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} :
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SimpleExpression(pnd)
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[
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/* relation */
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[ '=' | '#' | '<' | LESSEQUAL | '>' | GREATEREQUAL | IN ]
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{ *pnd = dot2node(Oper, *pnd, NULLNODE); }
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SimpleExpression(&((*pnd)->nd_right))
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]?
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;
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/* Inline in expression
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relation:
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'=' | '#' | '<' | LESSEQUAL | '>' | GREATEREQUAL | IN
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;
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*/
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SimpleExpression(t_node **pnd;)
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{
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register t_node *nd = 0;
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} :
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[
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[ '+' | '-' ]
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{ nd = dot2leaf(Uoper);
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/* priority of unary operator ??? */
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}
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]?
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term(pnd)
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{ if (nd) {
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nd->nd_right = *pnd;
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*pnd = nd;
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}
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nd = *pnd;
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}
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[
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/* AddOperator */
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[ '+' | '-' | OR ]
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{ nd = dot2node(Oper, nd, NULLNODE); }
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term(&(nd->nd_right))
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]*
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{ *pnd = nd; }
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;
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/* Inline in "SimpleExpression"
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AddOperator:
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'+' | '-' | OR
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;
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*/
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term(t_node **pnd;)
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{
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register t_node *nd;
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}:
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factor(pnd) { nd = *pnd; }
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[
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/* MulOperator */
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[ '*' | '/' | DIV | MOD | AND ]
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{ nd = dot2node(Oper, nd, NULLNODE); }
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factor(&(nd->nd_right))
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]*
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{ *pnd = nd; }
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;
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/* inline in "term"
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MulOperator:
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'*' | '/' | DIV | MOD | AND
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;
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*/
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factor(register t_node **p;)
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{
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t_node *nd;
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} :
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qualident(p)
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[
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designator_tail(p)?
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[
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{ *p = dot2node(Call, *p, NULLNODE); }
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ActualParameters(&((*p)->nd_right))
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]?
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bare_set(&nd)
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{ nd->nd_left = *p; *p = nd; }
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]
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bare_set(p)
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| %default
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[
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%default
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INTEGER
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REAL
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STRING
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] { *p = dot2leaf(Value);
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(*p)->nd_type = toktype;
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}
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'(' { nd = dot2leaf(Uoper); }
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expression(p)
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{ /* In some cases we must leave the '(' as an unary
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operator, because otherwise we cannot see that the
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factor was not a designator
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*/
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register int class = (*p)->nd_class;
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if (class == Arrsel ||
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class == Arrow ||
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class == Name ||
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class == Link) {
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nd->nd_right = *p;
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*p = nd;
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}
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else FreeNode(nd);
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}
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')'
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NOT { *p = dot2leaf(Uoper); }
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factor(&((*p)->nd_right))
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;
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bare_set(t_node **pnd;)
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{
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register t_node *nd;
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} :
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'{' { dot.tk_symb = SET;
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*pnd = nd = dot2leaf(Xset);
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nd->nd_type = bitset_type;
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}
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[
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element(nd)
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[ { nd = nd->nd_right; }
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',' element(nd)
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]*
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]?
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'}'
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;
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ActualParameters(t_node **pnd;):
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'(' ExpList(pnd)? ')'
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;
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element(register t_node *nd;)
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{
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t_node *nd1;
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} :
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expression(&nd1)
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[
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UPTO
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{ nd1 = dot2node(Link, nd1, NULLNODE);}
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expression(&(nd1->nd_right))
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]?
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{ nd->nd_right = dot2node(Link, nd1, NULLNODE);
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nd->nd_right->nd_symb = ',';
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}
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;
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designator(t_node **pnd;)
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:
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qualident(pnd)
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designator_tail(pnd)?
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;
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designator_tail(t_node **pnd;):
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visible_designator_tail(pnd)
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[ %persistent
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%default
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selector(pnd)
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visible_designator_tail(pnd)
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]*
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;
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visible_designator_tail(t_node **pnd;)
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{
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register t_node *nd = *pnd;
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}:
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[
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'[' { nd = dot2node(Arrsel, nd, NULLNODE); }
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expression(&(nd->nd_right))
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[
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','
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{ nd = dot2node(Arrsel, nd, NULLNODE);
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nd->nd_symb = '[';
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}
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expression(&(nd->nd_right))
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]*
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']'
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'^' { nd = dot2node(Arrow, NULLNODE, nd); }
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]
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{ *pnd = nd; }
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;
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