# include "exprData.i"
# include "exprDataQuite.i"
+extern void forLoopHeuristics( exprNode e, exprNode forPred, exprNode forBody);
+
bool /*@alt void@*/ exprNode_generateConstraints (/*@temp@*/ exprNode e);
static bool exprNode_handleError( exprNode p_e);
constraintList exprNode_traversEnsuresConstraints (exprNode e);
constraintList exprNode_traversTrueEnsuresConstraints (exprNode e);
+constraintList exprNode_traversFalseEnsuresConstraints (exprNode e);
extern constraintList reflectChanges (constraintList pre2, constraintList post1);
constraintList constraintList_makeFixedArrayConstraints (sRefSet s);
constraintList checkCall (exprNode fcn, exprNodeList arglist);
+void checkArgumentList (exprNode temp, exprNodeList arglist, fileloc sequencePoint);
+
//bool exprNode_testd()
//{
/* if ( ( (exprNode_isError ) ) )
if (exprNode_isError (e) )
return FALSE;
+ e->requiresConstraints = constraintList_new();
+ e->ensuresConstraints = constraintList_new();
+ e->trueEnsuresConstraints = constraintList_new();
+ e->falseEnsuresConstraints = constraintList_new();
+
if (exprNode_isUnhandled (e) )
{
DPRINTF( (message("Warning ignoring %s", exprNode_unparse (e) ) ) );
- e->requiresConstraints = constraintList_new();
- e->ensuresConstraints = constraintList_new();
- e->trueEnsuresConstraints = constraintList_new();
- e->falseEnsuresConstraints = constraintList_new();
- // llassert(FALSE);
- return FALSE;
+ return FALSE;
}
}
else
{
+ fileloc loc;
+
+ loc = exprNode_getNextSequencePoint(e);
+ exprNode_exprTraverse(e, FALSE, FALSE, loc);
+
// llassert(FALSE);
return FALSE;
}
exprNode snode;
fileloc loc;
bool notError;
-
+ char * s;
+
if (exprNode_isError(e) )
{
return FALSE;
DPRINTF(( "STMT:") );
- DPRINTF ( ( cstring_toCharsSafe ( exprNode_unparse(e)) )
- );
+ s = exprNode_unparse(e);
+ // DPRINTF ( ( message("STMT: %s ") ) );
+
if (e->kind == XPR_INIT)
{
DPRINTF (("Init") );
if (exprNode_isMultiStatement (snode))
{
- // llassert(FALSE);
- return exprNode_multiStatement (snode);
+ bool temp;
+
+ temp = exprNode_multiStatement (snode);
+ exprNode_copyConstraints (e, snode);
+ return temp;
}
loc = exprNode_getNextSequencePoint(e); /* reduces to an expression */
return TRUE;
}
-
exprNode doIf (exprNode e, exprNode test, exprNode body)
{
DPRINTF ((message ("doIf: %s ", exprNode_unparse(e) ) ) );
+
+ llassert(test);
+ llassert(e);
+ llassert(body);
test->ensuresConstraints = exprNode_traversEnsuresConstraints (test);
+ test->requiresConstraints = exprNode_traversRequiresConstraints (test);
+
test->trueEnsuresConstraints = exprNode_traversTrueEnsuresConstraints(test);
e->requiresConstraints = reflectChanges (body->requiresConstraints, test->trueEnsuresConstraints);
e->requiresConstraints = reflectChanges (e->requiresConstraints,
test->ensuresConstraints);
+ e->requiresConstraints = constraintList_mergeRequires (e->requiresConstraints, test->requiresConstraints);
+
#warning bad
e->ensuresConstraints = constraintList_copy (test->ensuresConstraints);
+
+ if (exprNode_mayEscape (body) )
+ {
+ DPRINTF (( message("doIf: the if statement body %s returns or exits", exprNode_unparse(body) ) ));
+ e->ensuresConstraints = constraintList_mergeEnsures (e->ensuresConstraints,
+ test->falseEnsuresConstraints);
+ }
+
+ DPRINTF ((message ("doIf: if requiers %s ", constraintList_print(e->requiresConstraints) ) ) );
+
return e;
}
+/*drl added 3/4/2001
+ Also used for condition i.e. ?: operation
+
+ Precondition
+ This function assumes that p, trueBranch, falseBranch have have all been traversed
+ for constraints i.e. we assume that exprNode_traversEnsuresConstraints,
+ exprNode_traversRequiresConstraints, exprNode_traversTrueEnsuresConstraints,
+ exprNode_traversFalseEnsuresConstraints have all been run
+*/
+
+
+exprNode doIfElse (/*@returned@*/ exprNode e, exprNode p, exprNode trueBranch, exprNode falseBranch)
+{
+
+ constraintList c1, cons, t, f;
+
+ // do requires clauses
+ c1 = constraintList_copy (p->ensuresConstraints);
+
+ t = reflectChanges (trueBranch->requiresConstraints, p->trueEnsuresConstraints);
+ t = reflectChanges (t, p->ensuresConstraints);
+
+ // e->requiresConstraints = constraintList_copy (cons);
+
+ cons = reflectChanges (falseBranch->requiresConstraints, p->falseEnsuresConstraints);
+ cons = reflectChanges (cons, c1);
+
+ e->requiresConstraints = constraintList_mergeRequires (t, cons);
+ e->requiresConstraints = constraintList_mergeRequires (e->requiresConstraints, p->requiresConstraints);
+
+ // do ensures clauses
+ // find the the ensures lists for each subbranch
+ t = constraintList_mergeEnsures (p->trueEnsuresConstraints, trueBranch->ensuresConstraints);
+ t = constraintList_mergeEnsures (p->ensuresConstraints, t);
+
+ f = constraintList_mergeEnsures (p->falseEnsuresConstraints, falseBranch->ensuresConstraints);
+ f = constraintList_mergeEnsures (p->ensuresConstraints, f);
+
+ // find ensures for whole if/else statement
+
+ e->ensuresConstraints = constraintList_logicalOr (t, f);
+
+ return e;
+}
+
+exprNode doWhile (exprNode e, exprNode test, exprNode body)
+{
+ DPRINTF ((message ("doWhile: %s ", exprNode_unparse(e) ) ) );
+ return doIf (e, test, body);
+}
+
constraintList constraintList_makeFixedArrayConstraints (sRefSet s)
{
constraintList ret;
+ constraint con;
ret = constraintList_new();
sRefSet_elements (s, el)
if (sRef_isFixedArray(el) )
{
int s;
- constraint con;
+ DPRINTF( (message("%s is a fixed array",
+ sRef_unparse(el)) ) );
+ //if (el->kind == SK_DERIVED)
+ // break; //hack until I find the real problem
s = sRef_getArraySize(el);
DPRINTF( (message("%s is a fixed array with size %d",
sRef_unparse(el), s) ) );
{
DPRINTF( (message("%s is not a fixed array",
sRef_unparse(el)) ) );
+
+
+ if (sRef_isExternallyVisible (el) )
+ {
+ /*DPRINTF( (message("%s is externally visible",
+ sRef_unparse(el) ) ));
+ con = constraint_makeSRefWriteSafeInt(el, 0);
+ ret = constraintList_add(ret, con);
+
+ con = constraint_makeSRefReadSafeInt(el, 0);
+
+ ret = constraintList_add(ret, con);*/
+ }
}
}
end_sRefSet_elements
+ DPRINTF(( message("constraintList_makeFixedArrayConstraints returning %s",
+ constraintList_print(ret) ) ));
return ret;
}
}
+exprNode doSwitch (/*@returned@*/ exprNode e)
+{
+ exprNode body;
+ exprData data;
+
+ data = e->edata;
+ llassert(FALSE);
+ //DPRINTF (( message ("doSwitch for: switch (%s) %s",
+ // exprNode_unparse (exprData_getPairA (data)),
+ // exprNode_unparse (exprData_getPairB (data))) ));
+
+ body = exprData_getPairB (data);
+
+ // exprNode_generateConstraints(body);
+
+ // e->requiresConstraints = constraintList_copy ( body->requiresConstraints );
+ //e->ensuresConstraints = constraintList_copy ( body->ensuresConstraints );
+
+ return e;
+}
+
+
bool exprNode_multiStatement (exprNode e)
{
exprNode e1, e2;
exprNode p, trueBranch, falseBranch;
exprNode forPred, forBody;
- exprNode init, test, inc;
- constraintList cons;
- constraintList t, f;
+ exprNode test;
+ // constraintList t, f;
e->requiresConstraints = constraintList_new();
e->ensuresConstraints = constraintList_new();
e->trueEnsuresConstraints = constraintList_new();
exprNode_generateConstraints (exprData_getTripleInit (data) );
test = exprData_getTripleTest (data);
exprNode_exprTraverse (test,FALSE, FALSE, exprNode_loc(e));
+ exprNode_generateConstraints (exprData_getTripleInc (data) );
+
if (!exprNode_isError(test) )
test->trueEnsuresConstraints = exprNode_traversTrueEnsuresConstraints(test);
exprNode_generateConstraints (exprData_getTripleInc (data));
break;
+
+ case XPR_WHILE:
+ e1 = exprData_getPairA (data);
+ e2 = exprData_getPairB (data);
+
+ exprNode_exprTraverse (e1,
+ FALSE, FALSE, exprNode_loc(e1));
+
+ exprNode_generateConstraints (e2);
+
+ e = doWhile (e, e1, e2);
+
+ break;
+
case XPR_IF:
DPRINTF(( "IF:") );
DPRINTF ((exprNode_unparse(e) ) );
// e->constraints = constraintList_exprNodemerge (exprData_getPairA (data),exprData_getPairB(data));
break;
-
+
+
case XPR_IFELSE:
DPRINTF(("Starting IFELSE"));
// ret = message ("if (%s) %s else %s",
exprNode_generateConstraints (trueBranch);
exprNode_generateConstraints (falseBranch);
- // do requires clauses
-
- cons = reflectChanges (trueBranch->requiresConstraints, p->trueEnsuresConstraints);
- cons = reflectChanges (cons,
- p->ensuresConstraints);
- e->requiresConstraints = constraintList_copy (cons);
-
- cons = reflectChanges (falseBranch->requiresConstraints, p->falseEnsuresConstraints);
- cons = reflectChanges (cons,
- p->ensuresConstraints);
- e->requiresConstraints = constraintList_addList (e->requiresConstraints,
- cons);
- e->requiresConstraints = constraintList_addList (e->requiresConstraints,
- p->requiresConstraints);
+ p->ensuresConstraints = exprNode_traversEnsuresConstraints (p);
+ p->requiresConstraints = exprNode_traversRequiresConstraints (p);
- // do ensures clauses
- // find the the ensures lists for each subbranch
- t = constraintList_mergeEnsures (p->trueEnsuresConstraints, trueBranch->ensuresConstraints);
- t = constraintList_mergeEnsures (p->ensuresConstraints, t);
+ p->trueEnsuresConstraints = exprNode_traversTrueEnsuresConstraints(p);
+ p->falseEnsuresConstraints = exprNode_traversFalseEnsuresConstraints(p);
- f = constraintList_mergeEnsures (p->falseEnsuresConstraints, falseBranch->ensuresConstraints);
- f = constraintList_mergeEnsures (p->ensuresConstraints, f);
-
- // find ensures for whole if/else statement
-
- e->ensuresConstraints = constraintList_logicalOr (t, f);
+ e = doIfElse (e, p, trueBranch, falseBranch);
DPRINTF( ("Done IFELSE") );
break;
- case XPR_WHILE:
- e1 = exprData_getPairA (data);
- e2 = exprData_getPairB (data);
- exprNode_exprTraverse (e1,
- FALSE, FALSE, exprNode_loc(e1));
+
+ case XPR_DOWHILE:
+ e2 = (exprData_getPairB (data));
+ e1 = (exprData_getPairA (data));
+
+ DPRINTF((message ("do { %s } while (%s)", exprNode_unparse(e2), exprNode_unparse(e1) ) ));
exprNode_generateConstraints (e2);
+ exprNode_generateConstraints (e1);
+ e = exprNode_copyConstraints (e, e2);
+ DPRINTF ((message ("e = %s ", constraintList_print(e->requiresConstraints) ) ));
- e1->trueEnsuresConstraints = exprNode_traversTrueEnsuresConstraints(e1);
-
- e->requiresConstraints = reflectChanges (e2->requiresConstraints, e1->trueEnsuresConstraints);
-
- e->requiresConstraints = reflectChanges (e->requiresConstraints,
- e1->ensuresConstraints);
-#warning bad
- e->ensuresConstraints = constraintList_copy (e1->ensuresConstraints);
-
- // ret = message ("while (%s) %s",
- exprNode_generateConstraints (exprData_getPairA (data));
- exprNode_generateConstraints (exprData_getPairB (data));
- // e->constraints = constraintList_exprNodemerge (exprData_getPairA (data), exprData_getPairB (data) );
- break;
-
- case XPR_DOWHILE:
- // ret = message ("do { %s } while (%s)",
- exprNode_generateConstraints (exprData_getPairB (data));
- exprNode_generateConstraints (exprData_getPairA (data));
break;
case XPR_BLOCK:
// e->constraints = (exprData_getSingle (data))->constraints;
break;
+ case XPR_SWITCH:
+ e = doSwitch (e);
+ break;
case XPR_STMT:
case XPR_STMTLIST:
return exprNode_stmtList (e);
bool exprNode_exprTraverse (exprNode e, bool definatelv, bool definaterv, fileloc sequencePoint)
{
- exprNode t1, t2;
+ exprNode t1, t2, fcn;
lltok tok;
bool handledExprNode;
exprData data;
constraint cons;
- if (exprNode_isError(e) )
- {
- return FALSE;
- }
-
- DPRINTF((message ("exprNode_exprTraverset Analysising %s %s at", exprNode_unparse( e),
+ if (exprNode_isError(e) )
+ {
+ return FALSE;
+ }
+
+ DPRINTF((message ("exprNode_exprTraverset Analysising %s %s at", exprNode_unparse( e),
fileloc_unparse(exprNode_getfileloc(e) ) ) ) );
-
- e->requiresConstraints = constraintList_new();
- e->ensuresConstraints = constraintList_new();
- e->trueEnsuresConstraints = constraintList_new();;
- e->falseEnsuresConstraints = constraintList_new();;
-
- if (exprNode_isUnhandled (e) )
+
+ e->requiresConstraints = constraintList_new();
+ e->ensuresConstraints = constraintList_new();
+ e->trueEnsuresConstraints = constraintList_new();;
+ e->falseEnsuresConstraints = constraintList_new();;
+
+ if (exprNode_isUnhandled (e) )
{
return FALSE;
}
cons = constraint_makeEnsureMaxReadAtLeast (t1, t2, sequencePoint);
e->ensuresConstraints = constraintList_add(e->ensuresConstraints, cons);
- cons = constraint_makeEnsureLteMaxRead (t1, t2);
+ cons = constraint_makeEnsureLteMaxRead (t2, t1);
e->trueEnsuresConstraints = constraintList_add(e->trueEnsuresConstraints, cons);
// cons = constraint_makeEnsureMinReadAtMost (t1, t2, sequencePoint);
break;
case XPR_CALL:
- exprNode_exprTraverse (exprData_getFcn (data), definatelv, definaterv, sequencePoint );
+ fcn = exprData_getFcn(data);
+
+ exprNode_exprTraverse (fcn, definatelv, definaterv, sequencePoint );
exprNodeList_unparse (exprData_getArgs (data) );
- DPRINTF ( (message ("Got call that %s ( %s) ", exprNode_unparse(exprData_getFcn(data) ), exprNodeList_unparse (exprData_getArgs (data) ) ) ) );
+ DPRINTF ( (message ("Got call that %s ( %s) ", exprNode_unparse(fcn), exprNodeList_unparse (exprData_getArgs (data) ) ) ) );
-
+ fcn->requiresConstraints = constraintList_addList (fcn->requiresConstraints,
+ checkCall (fcn, exprData_getArgs (data) ) );
+
+ fcn->ensuresConstraints = constraintList_addList (fcn->ensuresConstraints,
+ getPostConditions(fcn, exprData_getArgs (data),e ) );
- e->requiresConstraints = constraintList_addList (e->requiresConstraints,
- checkCall (exprData_getFcn (data), exprData_getArgs (data) ) );
+ t1 = exprNode_createNew (exprNode_getType (e) );
+
+ checkArgumentList (t1, exprData_getArgs(data), sequencePoint);
- e->ensuresConstraints = constraintList_addList (e->ensuresConstraints,
- getPostConditions(exprData_getFcn (data), exprData_getArgs (data),e ) );
+
+ mergeResolve (e, t1, fcn);
+
// e->constraints = constraintList_add (e->constraints, constraint_create (e,exprNode_undefined, GT, CALLSAFE ) );
break;
e->ensuresConstraints = constraintList_add (e->ensuresConstraints, cons);
}
break;
+ case XPR_CAST:
+ llassert(FALSE);
+ exprNode_exprTraverse (exprData_getCastNode (data), definatelv, definaterv, sequencePoint );
+ break;
+ case XPR_COND:
+ {
+ exprNode pred, true, false;
+ llassert(FALSE);
+ pred = exprData_getTriplePred (data);
+ true = exprData_getTripleTrue (data);
+ false = exprData_getTripleFalse (data);
+
+ exprNode_exprTraverse (pred, FALSE, TRUE, sequencePoint );
+ pred->ensuresConstraints = exprNode_traversEnsuresConstraints(pred);
+ pred->requiresConstraints = exprNode_traversRequiresConstraints(pred);
+
+ pred->trueEnsuresConstraints = exprNode_traversTrueEnsuresConstraints(pred);
+ pred->falseEnsuresConstraints = exprNode_traversFalseEnsuresConstraints(pred);
+
+ exprNode_exprTraverse (true, FALSE, TRUE, sequencePoint );
+ true->ensuresConstraints = exprNode_traversEnsuresConstraints(true);
+ true->requiresConstraints = exprNode_traversRequiresConstraints(true);
+
+ true->trueEnsuresConstraints = exprNode_traversTrueEnsuresConstraints(true);
+ true->falseEnsuresConstraints = exprNode_traversFalseEnsuresConstraints(true);
+
+ exprNode_exprTraverse (false, FALSE, TRUE, sequencePoint );
+ false->ensuresConstraints = exprNode_traversEnsuresConstraints(false);
+ false->requiresConstraints = exprNode_traversRequiresConstraints(false);
+
+ false->trueEnsuresConstraints = exprNode_traversTrueEnsuresConstraints(false);
+ false->falseEnsuresConstraints = exprNode_traversFalseEnsuresConstraints(false);
+
+
+ /* if pred is true e equals true otherwise pred equals false */
+
+ cons = constraint_makeEnsureEqual (e, true, sequencePoint);
+ true->ensuresConstraints = constraintList_add(true->ensuresConstraints, cons);
+
+ cons = constraint_makeEnsureEqual (e, true, sequencePoint);
+ false->ensuresConstraints = constraintList_add(false->ensuresConstraints, cons);
+
+ e = doIfElse (e, pred, true, false);
+
+ }
+ break;
+ case XPR_COMMA:
+ llassert(FALSE);
+ t1 = exprData_getPairA (data);
+ t2 = exprData_getPairB (data);
+ /* we essiantially treat this like expr1; expr2
+ of course sequencePoint isn't adjusted so this isn't completely accurate
+ problems../ */
+ exprNode_exprTraverse (t1, FALSE, FALSE, sequencePoint );
+ exprNode_exprTraverse (t2, definatelv, definaterv, sequencePoint );
+ mergeResolve (e, t1, t2);
+ break;
+
default:
handledExprNode = FALSE;
}
e->requiresConstraints = constraintList_preserveOrig ( e->requiresConstraints);
e->ensuresConstraints = constraintList_preserveOrig ( e->ensuresConstraints);
- DPRINTF((message ("ensures constraint for %s are %s", exprNode_unparse(e), constraintList_print(e->ensuresConstraints) ) ));
+ e->requiresConstraints = constraintList_addGeneratingExpr ( e->requiresConstraints, e);
+
+ e->ensuresConstraints = constraintList_addGeneratingExpr ( e->ensuresConstraints, e);
+
+ DPRINTF((message ("ensures constraint for %s are %s", exprNode_unparse(e), constraintList_printDetailed(e->ensuresConstraints) ) ));
return handledExprNode;
}
constraintList exprNode_traversTrueEnsuresConstraints (exprNode e)
{
- // exprNode t1, t2;
+ exprNode t1;
bool handledExprNode;
// char * mes;
switch (e->kind)
{
+ case XPR_WHILEPRED:
+ t1 = exprData_getSingle (data);
+ ret = constraintList_addList ( ret,exprNode_traversTrueEnsuresConstraints (t1) );
+ break;
case XPR_FETCH:
exprNode_traversTrueEnsuresConstraints
(exprData_getUopNode (data) ) );
break;
+
+ case XPR_CAST:
+
+ ret = constraintList_addList (ret,
+ exprNode_traversTrueEnsuresConstraints
+ (exprData_getCastNode (data) ) );
+ break;
+
+ break;
+ default:
+ break;
+ }
+
+ return ret;
+}
+
+constraintList exprNode_traversFalseEnsuresConstraints (exprNode e)
+{
+ exprNode t1;
+
+ bool handledExprNode;
+ // char * mes;
+ exprData data;
+ constraintList ret;
+
+ if (exprNode_handleError (e))
+ {
+ ret = constraintList_new();
+ return ret;
+ }
+ ret = constraintList_copy (e->falseEnsuresConstraints );
+
+ handledExprNode = TRUE;
+
+ data = e->edata;
+
+ switch (e->kind)
+ {
+ case XPR_WHILEPRED:
+ t1 = exprData_getSingle (data);
+ ret = constraintList_addList ( ret,exprNode_traversFalseEnsuresConstraints (t1) );
+ break;
+
+ case XPR_FETCH:
+
+ ret = constraintList_addList (ret,
+ exprNode_traversFalseEnsuresConstraints
+ (exprData_getPairA (data) ) );
+
+ ret = constraintList_addList (ret,
+ exprNode_traversFalseEnsuresConstraints
+ (exprData_getPairB (data) ) );
+ break;
+ case XPR_PREOP:
+
+ ret = constraintList_addList (ret,
+ exprNode_traversFalseEnsuresConstraints
+ (exprData_getUopNode (data) ) );
+ break;
+
+ case XPR_PARENS:
+ ret = constraintList_addList (ret, exprNode_traversFalseEnsuresConstraints
+ (exprData_getUopNode (data) ) );
+ break;
+ case XPR_ASSIGN:
+ ret = constraintList_addList (ret,
+ exprNode_traversFalseEnsuresConstraints
+ (exprData_getOpA (data) ) );
+
+ ret = constraintList_addList (ret,
+ exprNode_traversFalseEnsuresConstraints
+ (exprData_getOpB (data) ) );
+ break;
+ case XPR_OP:
+ ret = constraintList_addList (ret,
+ exprNode_traversFalseEnsuresConstraints
+ (exprData_getOpA (data) ) );
+
+ ret = constraintList_addList (ret,
+ exprNode_traversFalseEnsuresConstraints
+ (exprData_getOpB (data) ) );
+ break;
+ case XPR_SIZEOFT:
+
+ // ctype_unparse (qtype_getType (exprData_getType (data) ) );
+
+ break;
+
+ case XPR_SIZEOF:
+
+ ret = constraintList_addList (ret,
+ exprNode_traversFalseEnsuresConstraints
+ (exprData_getSingle (data) ) );
+ break;
+
+ case XPR_CALL:
+ ret = constraintList_addList (ret,
+ exprNode_traversFalseEnsuresConstraints
+ (exprData_getFcn (data) ) );
+ /*@i11*/ // exprNodeList_unparse (exprData_getArgs (data) );
+ break;
+
+ case XPR_RETURN:
+ ret = constraintList_addList (ret,
+ exprNode_traversFalseEnsuresConstraints
+ (exprData_getSingle (data) ) );
+ break;
+
+ case XPR_NULLRETURN:
+ // cstring_makeLiteral ("return");;
+ break;
+
+ case XPR_FACCESS:
+ ret = constraintList_addList (ret,
+ exprNode_traversFalseEnsuresConstraints
+ (exprData_getFieldNode (data) ) );
+ //exprData_getFieldName (data) ;
+ break;
+
+ case XPR_ARROW:
+ ret = constraintList_addList (ret,
+ exprNode_traversFalseEnsuresConstraints
+ (exprData_getFieldNode (data) ) );
+ // exprData_getFieldName (data);
+ break;
+
+ case XPR_STRINGLITERAL:
+ // cstring_copy (exprData_getLiteral (data));
+ break;
+
+ case XPR_NUMLIT:
+ // cstring_copy (exprData_getLiteral (data));
+ break;
+ case XPR_POSTOP:
+
+ ret = constraintList_addList (ret,
+ exprNode_traversFalseEnsuresConstraints
+ (exprData_getUopNode (data) ) );
+ break;
+
+ case XPR_CAST:
+
+ ret = constraintList_addList (ret,
+ exprNode_traversFalseEnsuresConstraints
+ (exprData_getCastNode (data) ) );
+ break;
+
default:
break;
}
/* walk down the tree and get all requires Constraints in each subexpression*/
constraintList exprNode_traversRequiresConstraints (exprNode e)
{
- // exprNode t1, t2;
+ exprNode t1;
bool handledExprNode;
// char * mes;
switch (e->kind)
{
+ case XPR_WHILEPRED:
+ t1 = exprData_getSingle (data);
+ ret = constraintList_addList ( ret,exprNode_traversRequiresConstraints (t1) );
+ break;
case XPR_FETCH:
exprNode_traversRequiresConstraints
(exprData_getUopNode (data) ) );
break;
+
+ case XPR_CAST:
+
+ ret = constraintList_addList (ret,
+ exprNode_traversRequiresConstraints
+ (exprData_getCastNode (data) ) );
+ break;
+
default:
break;
}
/* walk down the tree and get all Ensures Constraints in each subexpression*/
constraintList exprNode_traversEnsuresConstraints (exprNode e)
{
- // exprNode t1, t2;
+ exprNode t1;
bool handledExprNode;
// char * mes;
switch (e->kind)
{
+ case XPR_WHILEPRED:
+ t1 = exprData_getSingle (data);
+ ret = constraintList_addList ( ret,exprNode_traversEnsuresConstraints (t1) );
+ break;
case XPR_FETCH:
exprNode_traversEnsuresConstraints
(exprData_getUopNode (data) ) );
break;
+ case XPR_CAST:
+
+ ret = constraintList_addList (ret,
+ exprNode_traversEnsuresConstraints
+ (exprData_getCastNode (data) ) );
+ break;
+
default:
break;
}