/** 11.2.2, 11.2.3, 13.2.1, and 13.2.2 'new' / function call. */
@Override
public void visit(CallNode n, State state) {
if (n.getFunctionRegister()
!= AbstractNode.NO_VALUE) // old style call (where the function is given as a variable read)
FunctionCalls.callFunction(
new OrdinaryCallInfo(n, state) {
@Override
public Value getFunctionValue() {
Value functionValue = state.readRegister(n.getFunctionRegister());
if (n.getLiteralConstructorKind() != null) {
// these literal invocations can not be spurious in ES5
switch (n.getLiteralConstructorKind()) {
case ARRAY:
functionValue =
Value.makeObject(new ObjectLabel(ECMAScriptObjects.ARRAY, Kind.FUNCTION));
break;
case REGEXP:
functionValue =
Value.makeObject(new ObjectLabel(ECMAScriptObjects.REGEXP, Kind.FUNCTION));
break;
default:
throw new AnalysisException(
"Unhandled literal constructor type: " + n.getLiteralConstructorKind());
}
}
return functionValue;
}
@Override
public Set<ObjectLabel> prepareThis(State caller_state, State callee_state) {
return UserFunctionCalls.determineThis(
n, caller_state, callee_state, c, n.getBaseRegister());
}
},
state,
c);
else { // getPropertyString / getPropertyRegister - like ReadPropertyNode
Value baseval = state.readRegister(n.getBaseRegister());
baseval = UnknownValueResolver.getRealValue(baseval, state);
Set<ObjectLabel> objlabels =
baseval.getObjectLabels(); // the ReadPropertyNode has updated baseval to account for
// ToObject
Value propertyval;
int propertyreg;
if (n.isPropertyFixed()) {
propertyreg = AbstractNode.NO_VALUE;
propertyval = Value.makeStr(n.getPropertyString());
} else {
propertyreg = n.getPropertyRegister();
propertyval = state.readRegister(propertyreg);
propertyval = UnknownValueResolver.getRealValue(propertyval, state);
}
boolean maybe_undef = propertyval.isMaybeUndef();
boolean maybe_null = propertyval.isMaybeNull();
boolean maybe_nan = propertyval.isMaybeNaN();
propertyval = propertyval.restrictToNotNullNotUndef().restrictToNotNaN();
Str propertystr = Conversion.toString(propertyval, propertyreg, c);
// read the object property value, as fixed property name or unknown property name, and
// separately for "undefined"/"null"/"NaN"
Map<ObjectLabel, Set<ObjectLabel>> target2this = newMap();
List<Value> nonfunctions = newList();
for (ObjectLabel objlabel :
objlabels) { // find possible targets for each possible base object
Set<ObjectLabel> singleton = singleton(objlabel);
Value v;
boolean read_undefined = false;
boolean read_null = false;
boolean read_nan = false;
if (propertystr.isMaybeSingleStr()) {
String propertyname = propertystr.getStr();
v = state.readPropertyValue(singleton, propertyname);
} else if (!propertystr.isNotStr()) {
v = state.readPropertyValue(singleton, propertystr);
read_undefined = propertystr.isMaybeStr("undefined");
read_null = propertystr.isMaybeStr("null");
read_nan = propertystr.isMaybeStr("NaN");
} else v = Value.makeNone();
if (maybe_undef && !read_undefined) {
v = UnknownValueResolver.join(v, state.readPropertyValue(singleton, "undefined"), state);
}
if (maybe_null && !read_null) {
v = UnknownValueResolver.join(v, state.readPropertyValue(singleton, "null"), state);
}
if (maybe_nan && !read_nan) {
v = UnknownValueResolver.join(v, state.readPropertyValue(singleton, "NaN"), state);
}
v = UnknownValueResolver.getRealValue(v, state);
// finally, remove all the TAJS hooks, which are spurious if accessed through a dynamic
// property
if (!n.isPropertyFixed()) {
v = JSGlobal.removeTAJSSpecificFunctions(v);
}
for (ObjectLabel target : v.getObjectLabels()) {
if (target.getKind() == Kind.FUNCTION) {
addToMapSet(target2this, target, objlabel);
} else {
nonfunctions.add(Value.makeObject(target));
}
}
if (v.isMaybePrimitive()) {
nonfunctions.add(v.restrictToNotObject());
}
}
// do calls to each target with the corresponding values of this
for (Entry<ObjectLabel, Set<ObjectLabel>> me : target2this.entrySet()) {
ObjectLabel target = me.getKey();
Set<ObjectLabel> this_objs = me.getValue();
FunctionCalls.callFunction(
new OrdinaryCallInfo(n, state) {
@Override
public Value getFunctionValue() {
return Value.makeObject(target);
}
@Override
public Set<ObjectLabel> prepareThis(State caller_state, State callee_state) {
return this_objs;
}
},
state,
c);
}
// also model calls to non-function values
FunctionCalls.callFunction(
new OrdinaryCallInfo(n, state) {
@Override
public Value getFunctionValue() {
return Value.join(nonfunctions);
}
@Override
public Set<ObjectLabel> prepareThis(State caller_state, State callee_state) {
return Collections.emptySet();
}
},
state,
c);
}
}
/** 11.2.1 assignment with right-hand-side property accessor. */
@Override
public void visit(ReadPropertyNode n, State state) {
// get the base value, coerce with ToObject
Value baseval = state.readRegister(n.getBaseRegister());
baseval = UnknownValueResolver.getRealValue(baseval, state);
m.visitPropertyAccess(n, baseval);
Set<ObjectLabel> objlabels = Conversion.toObjectLabels(state, n, baseval, c);
if (objlabels.isEmpty() && !Options.get().isPropagateDeadFlow()) {
state.setToNone();
return;
}
state.writeRegister(
n.getBaseRegister(),
Value.makeObject(objlabels)); // if null/undefined, an exception would have been thrown via
// toObjectLabels
// get the property name value, separate the undefined/null/NaN components, coerce with ToString
Value propertyval;
int propertyreg;
if (n.isPropertyFixed()) {
propertyreg = AbstractNode.NO_VALUE;
propertyval = Value.makeStr(n.getPropertyString());
} else {
propertyreg = n.getPropertyRegister();
propertyval = state.readRegister(propertyreg);
propertyval = UnknownValueResolver.getRealValue(propertyval, state);
}
boolean maybe_undef = propertyval.isMaybeUndef();
boolean maybe_null = propertyval.isMaybeNull();
boolean maybe_nan = propertyval.isMaybeNaN();
propertyval = propertyval.restrictToNotNullNotUndef().restrictToNotNaN();
Str propertystr = Conversion.toString(propertyval, propertyreg, c);
// read the object property value, as fixed property name or unknown property name, and
// separately for "undefined"/"null"/"NaN"
Value v;
boolean read_undefined = false;
boolean read_null = false;
boolean read_nan = false;
if (propertystr.isMaybeSingleStr()) {
String propertyname = propertystr.getStr();
m.visitReadProperty(n, objlabels, propertystr, maybe_undef || maybe_null || maybe_nan, state);
v = state.readPropertyValue(objlabels, propertyname);
m.visitPropertyRead(n, objlabels, propertystr, state, true);
} else if (!propertystr.isNotStr()) {
m.visitReadProperty(n, objlabels, propertystr, true, state);
m.visitPropertyRead(n, objlabels, propertystr, state, true);
v = state.readPropertyValue(objlabels, propertystr);
read_undefined = propertystr.isMaybeStr("undefined");
read_null = propertystr.isMaybeStr("null");
read_nan = propertystr.isMaybeStr("NaN");
} else v = Value.makeNone();
if (maybe_undef && !read_undefined) {
m.visitReadProperty(n, objlabels, Value.makeTemporaryStr("undefined"), true, state);
v = UnknownValueResolver.join(v, state.readPropertyValue(objlabels, "undefined"), state);
}
if (maybe_null && !read_null) {
m.visitReadProperty(n, objlabels, Value.makeTemporaryStr("null"), true, state);
v = UnknownValueResolver.join(v, state.readPropertyValue(objlabels, "null"), state);
}
if (maybe_nan && !read_nan) {
m.visitReadProperty(n, objlabels, Value.makeTemporaryStr("NaN"), true, state);
v = UnknownValueResolver.join(v, state.readPropertyValue(objlabels, "NaN"), state);
}
// remove all the TAJS hooks, which are spurious if accessed through a dynamic property
if (!n.isPropertyFixed()) {
v = JSGlobal.removeTAJSSpecificFunctions(v);
}
m.visitVariableOrProperty(
n.getPropertyString(), n.getSourceLocation(), v, state.getContext(), state);
m.visitRead(n, v, state);
if (v.isNotPresent() && !Options.get().isPropagateDeadFlow()) {
state.setToNone();
return;
}
// store the resulting value
if (n.getResultRegister() != AbstractNode.NO_VALUE)
state.writeRegister(n.getResultRegister(), v);
}