Examples with MethodAccessor - jdk.internal.reflect.MethodAccessor

Example 1 with MethodAccessor

use of jdk.internal.reflect.MethodAccessor in project Bytecoder by mirkosertic.

the class Method method acquireMethodAccessor.

// NOTE that there is no synchronization used here. It is correct
// (though not efficient) to generate more than one MethodAccessor
// for a given Method. However, avoiding synchronization will
// probably make the implementation more scalable.
private MethodAccessor acquireMethodAccessor() {
    // First check to see if one has been created yet, and take it
    // if so
    MethodAccessor tmp = null;
    if (root != null)
        tmp = root.getMethodAccessor();
    if (tmp != null) {
        methodAccessor = tmp;
    } else {
        // Otherwise fabricate one and propagate it up to the root
        tmp = reflectionFactory.newMethodAccessor(this);
        setMethodAccessor(tmp);
    }
    return tmp;
}

Also used : MethodAccessor(jdk.internal.reflect.MethodAccessor)

Example 2 with MethodAccessor

use of jdk.internal.reflect.MethodAccessor in project Bytecoder by mirkosertic.

the class Method method invoke.

/**
 * Invokes the underlying method represented by this {@code Method}
 * object, on the specified object with the specified parameters.
 * Individual parameters are automatically unwrapped to match
 * primitive formal parameters, and both primitive and reference
 * parameters are subject to method invocation conversions as
 * necessary.
 *
 * <p>If the underlying method is static, then the specified {@code obj}
 * argument is ignored. It may be null.
 *
 * <p>If the number of formal parameters required by the underlying method is
 * 0, the supplied {@code args} array may be of length 0 or null.
 *
 * <p>If the underlying method is an instance method, it is invoked
 * using dynamic method lookup as documented in The Java Language
 * Specification, Second Edition, section 15.12.4.4; in particular,
 * overriding based on the runtime type of the target object will occur.
 *
 * <p>If the underlying method is static, the class that declared
 * the method is initialized if it has not already been initialized.
 *
 * <p>If the method completes normally, the value it returns is
 * returned to the caller of invoke; if the value has a primitive
 * type, it is first appropriately wrapped in an object. However,
 * if the value has the type of an array of a primitive type, the
 * elements of the array are <i>not</i> wrapped in objects; in
 * other words, an array of primitive type is returned.  If the
 * underlying method return type is void, the invocation returns
 * null.
 *
 * @param obj  the object the underlying method is invoked from
 * @param args the arguments used for the method call
 * @return the result of dispatching the method represented by
 * this object on {@code obj} with parameters
 * {@code args}
 *
 * @exception IllegalAccessException    if this {@code Method} object
 *              is enforcing Java language access control and the underlying
 *              method is inaccessible.
 * @exception IllegalArgumentException  if the method is an
 *              instance method and the specified object argument
 *              is not an instance of the class or interface
 *              declaring the underlying method (or of a subclass
 *              or implementor thereof); if the number of actual
 *              and formal parameters differ; if an unwrapping
 *              conversion for primitive arguments fails; or if,
 *              after possible unwrapping, a parameter value
 *              cannot be converted to the corresponding formal
 *              parameter type by a method invocation conversion.
 * @exception InvocationTargetException if the underlying method
 *              throws an exception.
 * @exception NullPointerException      if the specified object is null
 *              and the method is an instance method.
 * @exception ExceptionInInitializerError if the initialization
 * provoked by this method fails.
 */
@CallerSensitive
// to ensure Reflection.getCallerClass optimization
@ForceInline
@HotSpotIntrinsicCandidate
public Object invoke(Object obj, Object... args) throws IllegalAccessException, IllegalArgumentException, InvocationTargetException {
    if (!override) {
        Class<?> caller = Reflection.getCallerClass();
        checkAccess(caller, clazz, Modifier.isStatic(modifiers) ? null : obj.getClass(), modifiers);
    }
    // read volatile
    MethodAccessor ma = methodAccessor;
    if (ma == null) {
        ma = acquireMethodAccessor();
    }
    return ma.invoke(obj, args);
}

Also used : MethodAccessor(jdk.internal.reflect.MethodAccessor) ForceInline(jdk.internal.vm.annotation.ForceInline) CallerSensitive(jdk.internal.reflect.CallerSensitive) HotSpotIntrinsicCandidate(jdk.internal.HotSpotIntrinsicCandidate)

Aggregations

MethodAccessor (jdk.internal.reflect.MethodAccessor)2 HotSpotIntrinsicCandidate (jdk.internal.HotSpotIntrinsicCandidate)1 CallerSensitive (jdk.internal.reflect.CallerSensitive)1 ForceInline (jdk.internal.vm.annotation.ForceInline)1