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package jdk.nashorn.internal.runtime;
import static jdk.nashorn.internal.lookup.Lookup.MH;
import static jdk.nashorn.internal.runtime.UnwarrantedOptimismException.isValid;
import java.lang.invoke.MethodHandle;
import jdk.dynalink.linker.LinkRequest;
import jdk.nashorn.internal.codegen.ObjectClassGenerator;
import jdk.nashorn.internal.objects.Global;
This class represents the result from a find property search.
/**
* This class represents the result from a find property search.
*/
public final class FindProperty {
Object where search began. /** Object where search began. */
private final ScriptObject self;
Object where search finish. /** Object where search finish. */
private final ScriptObject prototype;
Found property. /** Found property. */
private final Property property;
Constructor
Params: - self – script object where search began
- prototype – prototype where property was found, may be
self
if not inherited - property – property that was search result
/**
* Constructor
*
* @param self script object where search began
* @param prototype prototype where property was found, may be {@code self} if not inherited
* @param property property that was search result
*/
public FindProperty(final ScriptObject self, final ScriptObject prototype, final Property property) {
this.self = self;
this.prototype = prototype;
this.property = property;
}
Return a copy of this FindProperty with a different property.
Params: - newProperty – the new property
Returns: the new FindProperty instance
/**
* Return a copy of this FindProperty with a different property.
*
* @param newProperty the new property
* @return the new FindProperty instance
*/
public FindProperty replaceProperty(final Property newProperty) {
assert this.property.getKey().equals(newProperty.getKey());
assert this.property.getSlot() == newProperty.getSlot();
return new FindProperty(self, prototype, newProperty);
}
Ask for a getter that returns the given type. The type has nothing to do with the
internal representation of the property. It may be an Object (boxing primitives) or
a primitive (primitive fields with -Dnashorn.fields.dual=true)
Params: - type – type of getter, e.g. int.class if we want a function with
get()I
signature - programPoint – program point, or INVALID_PROGRAM_POINT if pessimistic
- request – link request
See Also: - ObjectClassGenerator
Returns: method handle for the getter
/**
* Ask for a getter that returns the given type. The type has nothing to do with the
* internal representation of the property. It may be an Object (boxing primitives) or
* a primitive (primitive fields with -Dnashorn.fields.dual=true)
* @see ObjectClassGenerator
*
* @param type type of getter, e.g. int.class if we want a function with {@code get()I} signature
* @param programPoint program point, or INVALID_PROGRAM_POINT if pessimistic
* @param request link request
*
* @return method handle for the getter
*/
public MethodHandle getGetter(final Class<?> type, final int programPoint, final LinkRequest request) {
MethodHandle getter;
if (isValid(programPoint)) {
getter = property.getOptimisticGetter(type, programPoint);
} else {
getter = property.getGetter(type);
}
if (property instanceof UserAccessorProperty) {
getter = MH.insertArguments(getter, 1, UserAccessorProperty.getINVOKE_UA_GETTER(type, programPoint));
if (isValid(programPoint) && type.isPrimitive()) {
getter = MH.insertArguments(getter, 1, programPoint);
}
property.setType(type);
return insertAccessorsGetter((UserAccessorProperty) property, request, getter);
}
return getter;
}
Ask for a setter that sets the given type. The type has nothing to do with the
internal representation of the property. It may be an Object (boxing primitives) or
a primitive (primitive fields with -Dnashorn.fields.dual=true)
Params: - type – type of setter, e.g. int.class if we want a function with
set(I)V
signature - strict – are we in strict mode
- request – link request
See Also: - ObjectClassGenerator
Returns: method handle for the getter
/**
* Ask for a setter that sets the given type. The type has nothing to do with the
* internal representation of the property. It may be an Object (boxing primitives) or
* a primitive (primitive fields with -Dnashorn.fields.dual=true)
* @see ObjectClassGenerator
*
* @param type type of setter, e.g. int.class if we want a function with {@code set(I)V} signature
* @param strict are we in strict mode
* @param request link request
*
* @return method handle for the getter
*/
public MethodHandle getSetter(final Class<?> type, final boolean strict, final LinkRequest request) {
MethodHandle setter = property.getSetter(type, getOwner().getMap());
if (property instanceof UserAccessorProperty) {
setter = MH.insertArguments(setter, 1, UserAccessorProperty.getINVOKE_UA_SETTER(type), strict ? property.getKey() : null);
property.setType(type);
return insertAccessorsGetter((UserAccessorProperty) property, request, setter);
}
return setter;
}
// Fold an accessor getter into the method handle of a user accessor property.
private MethodHandle insertAccessorsGetter(final UserAccessorProperty uap, final LinkRequest request, final MethodHandle mh) {
MethodHandle superGetter = uap.getAccessorsGetter();
if (!isSelf()) {
superGetter = ScriptObject.addProtoFilter(superGetter, getProtoChainLength());
}
if (request != null && !(request.getReceiver() instanceof ScriptObject)) {
final MethodHandle wrapFilter = Global.getPrimitiveWrapFilter(request.getReceiver());
superGetter = MH.filterArguments(superGetter, 0, wrapFilter.asType(wrapFilter.type().changeReturnType(superGetter.type().parameterType(0))));
}
superGetter = MH.asType(superGetter, superGetter.type().changeParameterType(0, Object.class));
return MH.foldArguments(mh, superGetter);
}
Return the ScriptObject
owning of the property: this means the prototype. Returns: owner of property
/**
* Return the {@code ScriptObject} owning of the property: this means the prototype.
* @return owner of property
*/
public ScriptObject getOwner() {
return prototype;
}
Return the ScriptObject
where the search started. This is usually the ScriptObject the operation was started on, except for properties found inside a 'with' statement, where it is the top-level 'with' expression object. Returns: the start object.
/**
* Return the {@code ScriptObject} where the search started. This is usually the ScriptObject the
* operation was started on, except for properties found inside a 'with' statement, where it is the
* top-level 'with' expression object.
*
* @return the start object.
*/
public ScriptObject getSelf() {
return self;
}
Return the appropriate receiver for a getter.
Returns: appropriate receiver
/**
* Return the appropriate receiver for a getter.
* @return appropriate receiver
*/
public ScriptObject getGetterReceiver() {
return property != null && property.isAccessorProperty() ? self : prototype;
}
Return the appropriate receiver for a setter.
Returns: appropriate receiver
/**
* Return the appropriate receiver for a setter.
* @return appropriate receiver
*/
public ScriptObject getSetterReceiver() {
return property != null && property.hasSetterFunction(prototype) ? self : prototype;
}
Return the property that was found
Returns: property
/**
* Return the property that was found
* @return property
*/
public Property getProperty() {
return property;
}
Check if the property found was inherited from a prototype and it is an ordinary
property (one that has no accessor function).
Returns: true if the found property is an inherited ordinary property
/**
* Check if the property found was inherited from a prototype and it is an ordinary
* property (one that has no accessor function).
* @return true if the found property is an inherited ordinary property
*/
public boolean isInheritedOrdinaryProperty() {
return !isSelf() && !getProperty().isAccessorProperty();
}
Check if the property found was NOT inherited, i.e. defined in the script
object, rather than in the prototype
Returns: true if not inherited
/**
* Check if the property found was NOT inherited, i.e. defined in the script
* object, rather than in the prototype
* @return true if not inherited
*/
public boolean isSelf() {
return self == prototype;
}
Check if the property is in the scope
Returns: true if on scope
/**
* Check if the property is in the scope
* @return true if on scope
*/
public boolean isScope() {
return prototype.isScope();
}
Get the property value from self as object.
Returns: the property value
/**
* Get the property value from self as object.
* @return the property value
*/
public int getIntValue() {
return property.getIntValue(getGetterReceiver(), getOwner());
}
Get the property value from self as object.
Returns: the property value
/**
* Get the property value from self as object.
* @return the property value
*/
public double getDoubleValue() {
return property.getDoubleValue(getGetterReceiver(), getOwner());
}
Get the property value from self as object.
Returns: the property value
/**
* Get the property value from self as object.
* @return the property value
*/
public Object getObjectValue() {
return property.getObjectValue(getGetterReceiver(), getOwner());
}
Set the property value in self.
Params: - value – the new value
- strict – strict flag
/**
* Set the property value in self.
*
* @param value the new value
* @param strict strict flag
*/
public void setValue(final int value, final boolean strict) {
property.setValue(getSetterReceiver(), getOwner(), value, strict);
}
Set the property value in self.
Params: - value – the new value
- strict – strict flag
/**
* Set the property value in self.
*
* @param value the new value
* @param strict strict flag
*/
public void setValue(final double value, final boolean strict) {
property.setValue(getSetterReceiver(), getOwner(), value, strict);
}
Set the property value in self.
Params: - value – the new value
- strict – strict flag
/**
* Set the property value in self.
*
* @param value the new value
* @param strict strict flag
*/
public void setValue(final Object value, final boolean strict) {
property.setValue(getSetterReceiver(), getOwner(), value, strict);
}
Get the number of objects in the prototype chain between the self
and the owner
objects. Returns: the prototype chain length
/**
* Get the number of objects in the prototype chain between the {@code self} and the
* {@code owner} objects.
* @return the prototype chain length
*/
int getProtoChainLength() {
assert self != null;
int length = 0;
for (ScriptObject obj = self; obj != prototype; obj = obj.getProto()) {
assert !(obj instanceof WithObject);
++length;
}
return length;
}
@Override
public String toString() {
return "[FindProperty: " + property.getKey() + ']';
}
}