ack/lang/m2/comp/statement.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
*/
/* S T A T E M E N T S */
/* $Id$ */
{
#include <assert.h>
#include "em_arith.h"
#include "em_label.h"
#include "parameters.h"
#include "idf.h"
#include "LLlex.h"
#include "scope.h"
#include "def.h"
#include "type.h"
#include "error.h"
#include "node.h"
static int loopcount = 0; /* Count nested loops */
extern struct node *EmptyStatement;
}
statement(register struct node **pnd;)
{
register struct node *nd;
extern int return_occurred;
} :
/*
* This part is not in the reference grammar. The reference grammar
* states : assignment | ProcedureCall | ...
* but this gives LL(1) conflicts
*/
designator(pnd)
[ { nd = dot2node(Stat, *pnd, NULLNODE);
nd->nd_symb = '(';
nd->nd_lineno = (*pnd)->nd_lineno;
}
ActualParameters(&(nd->nd_RIGHT))?
|
[ BECOMES
| %erroneous '='
{ error("':=' expected instead of '='");
DOT = BECOMES;
}
]
{ nd = dot2node(Stat, *pnd, NULLNODE); }
expression(&(nd->nd_RIGHT))
]
{ *pnd = nd; }
/*
* end of changed part
*/
|
IfStatement(pnd)
|
CaseStatement(pnd)
|
WHILE { *pnd = nd = dot2leaf(Stat); }
expression(&(nd->nd_LEFT))
DO
StatementSequence(&(nd->nd_RIGHT))
END
|
REPEAT { *pnd = nd = dot2leaf(Stat); }
StatementSequence(&(nd->nd_LEFT))
UNTIL
expression(&(nd->nd_RIGHT))
|
{ loopcount++; }
LOOP { *pnd = nd = dot2leaf(Stat); }
StatementSequence(&((*pnd)->nd_RIGHT))
END
{ loopcount--; }
|
ForStatement(pnd)
|
WITH { *pnd = nd = dot2leaf(Stat); }
designator(&(nd->nd_LEFT))
DO
StatementSequence(&(nd->nd_RIGHT))
END
|
EXIT
{ if (!loopcount) error("EXIT not in a LOOP");
*pnd = dot2leaf(Stat);
}
|
ReturnStatement(pnd)
{ return_occurred = 1; }
|
/* empty */ { *pnd = EmptyStatement; }
;
/*
* The next two rules in-line in "Statement", because of an LL(1) conflict
assignment:
designator BECOMES expression
;
ProcedureCall:
designator ActualParameters?
;
*/
StatementSequence(register struct node **pnd;)
{
struct node *nd;
register struct node *nd1;
} :
statement(pnd)
[ %persistent
';'
statement(&nd)
{ if (nd != EmptyStatement) {
nd1 = dot2node(Link, *pnd, nd);
*pnd = nd1;
nd1->nd_symb = ';';
pnd = &(nd1->nd_RIGHT);
}
}
]*
;
IfStatement(struct node **pnd;)
{
register struct node *nd;
} :
IF { nd = dot2leaf(Stat);
*pnd = nd;
}
expression(&(nd->nd_LEFT))
THEN { nd->nd_RIGHT = dot2leaf(Link);
nd = nd->nd_RIGHT;
}
StatementSequence(&(nd->nd_LEFT))
[
ELSIF { nd->nd_RIGHT = dot2leaf(Stat);
nd = nd->nd_RIGHT;
nd->nd_symb = IF;
}
expression(&(nd->nd_LEFT))
THEN { nd->nd_RIGHT = dot2leaf(Link);
nd = nd->nd_RIGHT;
}
StatementSequence(&(nd->nd_LEFT))
]*
[
ELSE
StatementSequence(&(nd->nd_RIGHT))
|
]
END
;
CaseStatement(struct node **pnd;)
{
register struct node *nd;
struct type *tp = 0;
} :
CASE { *pnd = nd = dot2leaf(Stat); }
expression(&(nd->nd_LEFT))
OF
case(&(nd->nd_RIGHT), &tp)
{ nd = nd->nd_RIGHT; }
[
'|'
case(&(nd->nd_RIGHT), &tp)
{ nd = nd->nd_RIGHT; }
]*
[ ELSE StatementSequence(&(nd->nd_RIGHT))
|
]
END
;
case(struct node **pnd; struct type **ptp;) :
[ CaseLabelList(ptp, pnd)
':' { *pnd = dot2node(Link, *pnd, NULLNODE); }
StatementSequence(&((*pnd)->nd_RIGHT))
|
]
{ *pnd = dot2node(Link, *pnd, NULLNODE);
(*pnd)->nd_symb = '|';
}
;
/* inline in statement; lack of space
WhileStatement(struct node **pnd;)
{
register struct node *nd;
}:
WHILE { *pnd = nd = dot2leaf(Stat); }
expression(&(nd->nd_LEFT))
DO
StatementSequence(&(nd->nd_RIGHT))
END
;
RepeatStatement(struct node **pnd;)
{
register struct node *nd;
}:
REPEAT { *pnd = nd = dot2leaf(Stat); }
StatementSequence(&(nd->nd_LEFT))
UNTIL
expression(&(nd->nd_RIGHT))
;
*/
ForStatement(struct node **pnd;)
{
register struct node *nd, *nd1;
}:
FOR { *pnd = nd = dot2leaf(Stat); }
IDENT { nd1 = dot2leaf(Name); }
BECOMES { nd->nd_LEFT = dot2node(Stat, nd1, dot2leaf(Link));
nd1 = nd->nd_LEFT->nd_RIGHT;
nd1->nd_symb = TO;
}
expression(&(nd1->nd_LEFT))
TO
expression(&(nd1->nd_RIGHT))
{ nd->nd_RIGHT = nd1 = dot2leaf(Link);
nd1->nd_symb = BY;
}
[
BY
ConstExpression(&(nd1->nd_LEFT))
{ if (!(nd1->nd_LEFT->nd_type->tp_fund & T_INTORCARD)) {
error("illegal type in BY clause");
}
}
|
{ nd1->nd_LEFT = dot2leaf(Value);
nd1->nd_LEFT->nd_INT = 1;
}
]
DO
StatementSequence(&(nd1->nd_RIGHT))
END
;
/* inline in Statement; lack of space
LoopStatement(struct node **pnd;):
LOOP { *pnd = dot2leaf(Stat); }
StatementSequence(&((*pnd)->nd_RIGHT))
END
;
WithStatement(struct node **pnd;)
{
register struct node *nd;
}:
WITH { *pnd = nd = dot2leaf(Stat); }
designator(&(nd->nd_LEFT))
DO
StatementSequence(&(nd->nd_RIGHT))
END
;
*/
ReturnStatement(struct node **pnd;)
{
register struct def *df = CurrentScope->sc_definedby;
register struct type *tp = df->df_type ? ResultType(df->df_type) : 0;
register struct node *nd;
} :
RETURN { *pnd = nd = dot2leaf(Stat); }
[
expression(&(nd->nd_RIGHT))
{ if (scopeclosed(CurrentScope)) {
error("a module body cannot return a value");
}
else if (! tp) {
error("procedure \"%s\" is not a function, so cannot return a value", df->df_idf->id_text);
}
}
|
{ if (tp) {
error("function procedure \"%s\" must return a value", df->df_idf->id_text);
}
}
]
;