/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* * Copyright (C) 2008 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package java.lang.reflect; import java.lang.annotation.Annotation; import java.util.Comparator; import org.apache.harmony.kernel.vm.StringUtils; import libcore.reflect.GenericSignatureParser; import libcore.reflect.Types; /** * This class represents a field. Information about the field can be accessed, * and the field's value can be accessed dynamically. */ public final class Field extends AccessibleObject implements Member { /** * Orders fields by their name and declaring class. * * @hide */ public static final Comparator ORDER_BY_NAME_AND_DECLARING_CLASS = new Comparator() { @Override public int compare(Field a, Field b) { int comparison = a.name.compareTo(b.name); if (comparison != 0) { return comparison; } return a.getDeclaringClass().getName().compareTo(b.getDeclaringClass().getName()); } }; private Class declaringClass; private Class type; private Type genericType; private volatile boolean genericTypesAreInitialized = false; private String name; private int slot; private final int fieldDexIndex; private static final char TYPE_BOOLEAN = 'Z'; private static final char TYPE_BYTE = 'B'; private static final char TYPE_CHAR = 'C'; private static final char TYPE_SHORT = 'S'; private static final char TYPE_INTEGER = 'I'; private static final char TYPE_FLOAT = 'F'; private static final char TYPE_LONG = 'J'; private static final char TYPE_DOUBLE = 'D'; private Field(Class declaringClass, Class type, String name, int slot, int fieldDexIndex) { this.declaringClass = declaringClass; this.type = type; this.name = name; this.slot = slot; this.fieldDexIndex = fieldDexIndex; } /** * Returns the index of this field's ID in its dex file. * @hide */ public int getDexFieldIndex() { return fieldDexIndex; } private synchronized void initGenericType() { if (!genericTypesAreInitialized) { String signatureAttribute = getSignatureAttribute(); GenericSignatureParser parser = new GenericSignatureParser( declaringClass.getClassLoader()); parser.parseForField(this.declaringClass, signatureAttribute); genericType = parser.fieldType; if (genericType == null) { genericType = getType(); } genericTypesAreInitialized = true; } } /** {@inheritDoc} */ @Override /* package */String getSignatureAttribute() { Object[] annotation = getSignatureAnnotation(declaringClass, slot); if (annotation == null) { return null; } return StringUtils.combineStrings(annotation); } /** * Get the Signature annotation for this field. Returns null if not found. */ native private Object[] getSignatureAnnotation(Class declaringClass, int slot); /** * Indicates whether or not this field is synthetic. * * @return {@code true} if this field is synthetic, {@code false} otherwise */ public boolean isSynthetic() { int flags = getFieldModifiers(declaringClass, slot); return (flags & Modifier.SYNTHETIC) != 0; } /** * Returns the string representation of this field, including the field's * generic type. * * @return the string representation of this field */ public String toGenericString() { StringBuilder sb = new StringBuilder(80); // append modifiers if any int modifier = getModifiers(); if (modifier != 0) { sb.append(Modifier.toString(modifier)).append(' '); } // append generic type appendGenericType(sb, getGenericType()); sb.append(' '); // append full field name sb.append(getDeclaringClass().getName()).append('.').append(getName()); return sb.toString(); } /** * Indicates whether or not this field is an enumeration constant. * * @return {@code true} if this field is an enumeration constant, {@code * false} otherwise */ public boolean isEnumConstant() { int flags = getFieldModifiers(declaringClass, slot); return (flags & Modifier.ENUM) != 0; } /** * Returns the generic type of this field. * * @return the generic type * @throws GenericSignatureFormatError * if the generic field signature is invalid * @throws TypeNotPresentException * if the generic type points to a missing type * @throws MalformedParameterizedTypeException * if the generic type points to a type that cannot be * instantiated for some reason */ public Type getGenericType() { initGenericType(); return Types.getType(genericType); } @Override public Annotation[] getDeclaredAnnotations() { return getDeclaredAnnotations(declaringClass, slot); } private static native Annotation[] getDeclaredAnnotations(Class declaringClass, int slot); @Override public A getAnnotation(Class annotationType) { if (annotationType == null) { throw new NullPointerException("annotationType == null"); } return getAnnotation(declaringClass, slot, annotationType); } private static native A getAnnotation( Class declaringClass, int slot, Class annotationType); @Override public boolean isAnnotationPresent(Class annotationType) { if (annotationType == null) { throw new NullPointerException("annotationType == null"); } return isAnnotationPresent(declaringClass, slot, annotationType); } private static native boolean isAnnotationPresent( Class declaringClass, int slot, Class annotationType); /** * Indicates whether or not the specified {@code object} is equal to this * field. To be equal, the specified object must be an instance of * {@code Field} with the same declaring class, type and name as this field. * * @param object * the object to compare * @return {@code true} if the specified object is equal to this method, * {@code false} otherwise * @see #hashCode */ @Override public boolean equals(Object object) { return object instanceof Field && toString().equals(object.toString()); } /** * Returns the value of the field in the specified object. This reproduces * the effect of {@code object.fieldName} * *

If the type of this field is a primitive type, the field value is * automatically boxed. * *

If this field is static, the object argument is ignored. * Otherwise, if the object is null, a NullPointerException is thrown. If * the object is not an instance of the declaring class of the method, an * IllegalArgumentException is thrown. * *

If this Field object is enforcing access control (see AccessibleObject) * and this field is not accessible from the current context, an * IllegalAccessException is thrown. * * @param object * the object to access * @return the field value, possibly boxed * @throws NullPointerException * if the object is {@code null} and the field is non-static * @throws IllegalArgumentException * if the object is not compatible with the declaring class * @throws IllegalAccessException * if this field is not accessible */ public Object get(Object object) throws IllegalAccessException, IllegalArgumentException { return getField(object, declaringClass, type, slot, flag); } /** * Returns the value of the field in the specified object as a {@code * boolean}. This reproduces the effect of {@code object.fieldName} *

* If this field is static, the object argument is ignored. * Otherwise, if the object is {@code null}, a NullPointerException is * thrown. If the object is not an instance of the declaring class of the * method, an IllegalArgumentException is thrown. *

* If this Field object is enforcing access control (see AccessibleObject) * and this field is not accessible from the current context, an * IllegalAccessException is thrown. * * @param object * the object to access * @return the field value * @throws NullPointerException * if the object is {@code null} and the field is non-static * @throws IllegalArgumentException * if the object is not compatible with the declaring class * @throws IllegalAccessException * if this field is not accessible */ public boolean getBoolean(Object object) throws IllegalAccessException, IllegalArgumentException { return getZField(object, declaringClass, type, slot, flag, TYPE_BOOLEAN); } /** * Returns the value of the field in the specified object as a {@code byte}. * This reproduces the effect of {@code object.fieldName} *

* If this field is static, the object argument is ignored. * Otherwise, if the object is {@code null}, a NullPointerException is * thrown. If the object is not an instance of the declaring class of the * method, an IllegalArgumentException is thrown. *

* If this Field object is enforcing access control (see AccessibleObject) * and this field is not accessible from the current context, an * IllegalAccessException is thrown. * * @param object * the object to access * @return the field value * @throws NullPointerException * if the object is {@code null} and the field is non-static * @throws IllegalArgumentException * if the object is not compatible with the declaring class * @throws IllegalAccessException * if this field is not accessible */ public byte getByte(Object object) throws IllegalAccessException, IllegalArgumentException { return getBField(object, declaringClass, type, slot, flag, TYPE_BYTE); } /** * Returns the value of the field in the specified object as a {@code char}. * This reproduces the effect of {@code object.fieldName} *

* If this field is static, the object argument is ignored. * Otherwise, if the object is {@code null}, a NullPointerException is * thrown. If the object is not an instance of the declaring class of the * method, an IllegalArgumentException is thrown. *

* If this Field object is enforcing access control (see AccessibleObject) * and this field is not accessible from the current context, an * IllegalAccessException is thrown. * * @param object * the object to access * @return the field value * @throws NullPointerException * if the object is {@code null} and the field is non-static * @throws IllegalArgumentException * if the object is not compatible with the declaring class * @throws IllegalAccessException * if this field is not accessible */ public char getChar(Object object) throws IllegalAccessException, IllegalArgumentException { return getCField(object, declaringClass, type, slot, flag, TYPE_CHAR); } /** * Returns the class that declares this field. * * @return the declaring class */ public Class getDeclaringClass() { return declaringClass; } /** * Returns the value of the field in the specified object as a {@code * double}. This reproduces the effect of {@code object.fieldName} *

* If this field is static, the object argument is ignored. * Otherwise, if the object is {@code null}, a NullPointerException is * thrown. If the object is not an instance of the declaring class of the * method, an IllegalArgumentException is thrown. *

* If this Field object is enforcing access control (see AccessibleObject) * and this field is not accessible from the current context, an * IllegalAccessException is thrown. * * @param object * the object to access * @return the field value * @throws NullPointerException * if the object is {@code null} and the field is non-static * @throws IllegalArgumentException * if the object is not compatible with the declaring class * @throws IllegalAccessException * if this field is not accessible */ public double getDouble(Object object) throws IllegalAccessException, IllegalArgumentException { return getDField(object, declaringClass, type, slot, flag, TYPE_DOUBLE); } /** * Returns the value of the field in the specified object as a {@code float} * . This reproduces the effect of {@code object.fieldName} *

* If this field is static, the object argument is ignored. * Otherwise, if the object is {@code null}, a NullPointerException is * thrown. If the object is not an instance of the declaring class of the * method, an IllegalArgumentException is thrown. *

* If this Field object is enforcing access control (see AccessibleObject) * and this field is not accessible from the current context, an * IllegalAccessException is thrown. * * @param object * the object to access * @return the field value * @throws NullPointerException * if the object is {@code null} and the field is non-static * @throws IllegalArgumentException * if the object is not compatible with the declaring class * @throws IllegalAccessException * if this field is not accessible */ public float getFloat(Object object) throws IllegalAccessException, IllegalArgumentException { return getFField(object, declaringClass, type, slot, flag, TYPE_FLOAT); } /** * Returns the value of the field in the specified object as an {@code int}. * This reproduces the effect of {@code object.fieldName} *

* If this field is static, the object argument is ignored. * Otherwise, if the object is {@code null}, a NullPointerException is * thrown. If the object is not an instance of the declaring class of the * method, an IllegalArgumentException is thrown. *

* If this Field object is enforcing access control (see AccessibleObject) * and this field is not accessible from the current context, an * IllegalAccessException is thrown. * * @param object * the object to access * @return the field value * @throws NullPointerException * if the object is {@code null} and the field is non-static * @throws IllegalArgumentException * if the object is not compatible with the declaring class * @throws IllegalAccessException * if this field is not accessible */ public int getInt(Object object) throws IllegalAccessException, IllegalArgumentException { return getIField(object, declaringClass, type, slot, flag, TYPE_INTEGER); } /** * Returns the value of the field in the specified object as a {@code long}. * This reproduces the effect of {@code object.fieldName} *

* If this field is static, the object argument is ignored. * Otherwise, if the object is {@code null}, a NullPointerException is * thrown. If the object is not an instance of the declaring class of the * method, an IllegalArgumentException is thrown. *

* If this Field object is enforcing access control (see AccessibleObject) * and this field is not accessible from the current context, an * IllegalAccessException is thrown. * * @param object * the object to access * @return the field value * @throws NullPointerException * if the object is {@code null} and the field is non-static * @throws IllegalArgumentException * if the object is not compatible with the declaring class * @throws IllegalAccessException * if this field is not accessible */ public long getLong(Object object) throws IllegalAccessException, IllegalArgumentException { return getJField(object, declaringClass, type, slot, flag, TYPE_LONG); } /** * Returns the modifiers for this field. The {@link Modifier} class should * be used to decode the result. * * @return the modifiers for this field * @see Modifier */ public int getModifiers() { return getFieldModifiers(declaringClass, slot); } private native int getFieldModifiers(Class declaringClass, int slot); /** * Returns the name of this field. * * @return the name of this field */ public String getName() { return name; } /** * Returns the value of the field in the specified object as a {@code short} * . This reproduces the effect of {@code object.fieldName} *

* If this field is static, the object argument is ignored. * Otherwise, if the object is {@code null}, a NullPointerException is * thrown. If the object is not an instance of the declaring class of the * method, an IllegalArgumentException is thrown. *

* If this Field object is enforcing access control (see AccessibleObject) * and this field is not accessible from the current context, an * IllegalAccessException is thrown. * * @param object * the object to access * @return the field value * @throws NullPointerException * if the object is {@code null} and the field is non-static * @throws IllegalArgumentException * if the object is not compatible with the declaring class * @throws IllegalAccessException * if this field is not accessible */ public short getShort(Object object) throws IllegalAccessException, IllegalArgumentException { return getSField(object, declaringClass, type, slot, flag, TYPE_SHORT); } /** * Returns the constructor's signature in non-printable form. This is called * (only) from IO native code and needed for deriving the serialVersionUID * of the class * * @return the constructor's signature. */ @SuppressWarnings("unused") private String getSignature() { return getSignature(type); } /** * Return the {@link Class} associated with the type of this field. * * @return the type of this field */ public Class getType() { return type; } /** * Returns an integer hash code for this field. Objects which are equal * return the same value for this method. *

* The hash code for a Field is the exclusive-or combination of the hash * code of the field's name and the hash code of the name of its declaring * class. * * @return the hash code for this field * @see #equals */ @Override public int hashCode() { return name.hashCode() ^ getDeclaringClass().getName().hashCode(); } /** * Sets the value of the field in the specified object to the value. This * reproduces the effect of {@code object.fieldName = value} * *

If this field is static, the object argument is ignored. * Otherwise, if the object is {@code null}, a NullPointerException is * thrown. If the object is not an instance of the declaring class of the * method, an IllegalArgumentException is thrown. * *

If this Field object is enforcing access control (see AccessibleObject) * and this field is not accessible from the current context, an * IllegalAccessException is thrown. * *

If the field type is a primitive type, the value is automatically * unboxed. If the unboxing fails, an IllegalArgumentException is thrown. If * the value cannot be converted to the field type via a widening * conversion, an IllegalArgumentException is thrown. * * @param object * the object to access * @param value * the new value * @throws NullPointerException * if the object is {@code null} and the field is non-static * @throws IllegalArgumentException * if the object is not compatible with the declaring class * @throws IllegalAccessException * if this field is not accessible */ public void set(Object object, Object value) throws IllegalAccessException, IllegalArgumentException { setField(object, declaringClass, type, slot, flag, value); } /** * Sets the value of the field in the specified object to the {@code * boolean} value. This reproduces the effect of {@code object.fieldName = * value} *

* If this field is static, the object argument is ignored. * Otherwise, if the object is {@code null}, a NullPointerException is * thrown. If the object is not an instance of the declaring class of the * method, an IllegalArgumentException is thrown. *

* If this Field object is enforcing access control (see AccessibleObject) * and this field is not accessible from the current context, an * IllegalAccessException is thrown. *

* If the value cannot be converted to the field type via a widening * conversion, an IllegalArgumentException is thrown. * * @param object * the object to access * @param value * the new value * @throws NullPointerException * if the object is {@code null} and the field is non-static * @throws IllegalArgumentException * if the object is not compatible with the declaring class * @throws IllegalAccessException * if this field is not accessible */ public void setBoolean(Object object, boolean value) throws IllegalAccessException, IllegalArgumentException { setZField(object, declaringClass, type, slot, flag, TYPE_BOOLEAN, value); } /** * Sets the value of the field in the specified object to the {@code byte} * value. This reproduces the effect of {@code object.fieldName = value} *

* If this field is static, the object argument is ignored. * Otherwise, if the object is {@code null}, a NullPointerException is * thrown. If the object is not an instance of the declaring class of the * method, an IllegalArgumentException is thrown. *

* If this Field object is enforcing access control (see AccessibleObject) * and this field is not accessible from the current context, an * IllegalAccessException is thrown. *

* If the value cannot be converted to the field type via a widening * conversion, an IllegalArgumentException is thrown. * * @param object * the object to access * @param value * the new value * @throws NullPointerException * if the object is {@code null} and the field is non-static * @throws IllegalArgumentException * if the object is not compatible with the declaring class * @throws IllegalAccessException * if this field is not accessible */ public void setByte(Object object, byte value) throws IllegalAccessException, IllegalArgumentException { setBField(object, declaringClass, type, slot, flag, TYPE_BYTE, value); } /** * Sets the value of the field in the specified object to the {@code char} * value. This reproduces the effect of {@code object.fieldName = value} *

* If this field is static, the object argument is ignored. * Otherwise, if the object is {@code null}, a NullPointerException is * thrown. If the object is not an instance of the declaring class of the * method, an IllegalArgumentException is thrown. *

* If this Field object is enforcing access control (see AccessibleObject) * and this field is not accessible from the current context, an * IllegalAccessException is thrown. *

* If the value cannot be converted to the field type via a widening * conversion, an IllegalArgumentException is thrown. * * @param object * the object to access * @param value * the new value * @throws NullPointerException * if the object is {@code null} and the field is non-static * @throws IllegalArgumentException * if the object is not compatible with the declaring class * @throws IllegalAccessException * if this field is not accessible */ public void setChar(Object object, char value) throws IllegalAccessException, IllegalArgumentException { setCField(object, declaringClass, type, slot, flag, TYPE_CHAR, value); } /** * Sets the value of the field in the specified object to the {@code double} * value. This reproduces the effect of {@code object.fieldName = value} *

* If this field is static, the object argument is ignored. * Otherwise, if the object is {@code null}, a NullPointerException is * thrown. If the object is not an instance of the declaring class of the * method, an IllegalArgumentException is thrown. *

* If this Field object is enforcing access control (see AccessibleObject) * and this field is not accessible from the current context, an * IllegalAccessException is thrown. *

* If the value cannot be converted to the field type via a widening * conversion, an IllegalArgumentException is thrown. * * @param object * the object to access * @param value * the new value * @throws NullPointerException * if the object is {@code null} and the field is non-static * @throws IllegalArgumentException * if the object is not compatible with the declaring class * @throws IllegalAccessException * if this field is not accessible */ public void setDouble(Object object, double value) throws IllegalAccessException, IllegalArgumentException { setDField(object, declaringClass, type, slot, flag, TYPE_DOUBLE, value); } /** * Sets the value of the field in the specified object to the {@code float} * value. This reproduces the effect of {@code object.fieldName = value} *

* If this field is static, the object argument is ignored. * Otherwise, if the object is {@code null}, a NullPointerException is * thrown. If the object is not an instance of the declaring class of the * method, an IllegalArgumentException is thrown. *

* If this Field object is enforcing access control (see AccessibleObject) * and this field is not accessible from the current context, an * IllegalAccessException is thrown. *

* If the value cannot be converted to the field type via a widening * conversion, an IllegalArgumentException is thrown. * * @param object * the object to access * @param value * the new value * @throws NullPointerException * if the object is {@code null} and the field is non-static * @throws IllegalArgumentException * if the object is not compatible with the declaring class * @throws IllegalAccessException * if this field is not accessible */ public void setFloat(Object object, float value) throws IllegalAccessException, IllegalArgumentException { setFField(object, declaringClass, type, slot, flag, TYPE_FLOAT, value); } /** * Set the value of the field in the specified object to the {@code int} * value. This reproduces the effect of {@code object.fieldName = value} *

* If this field is static, the object argument is ignored. * Otherwise, if the object is {@code null}, a NullPointerException is * thrown. If the object is not an instance of the declaring class of the * method, an IllegalArgumentException is thrown. *

* If this Field object is enforcing access control (see AccessibleObject) * and this field is not accessible from the current context, an * IllegalAccessException is thrown. *

* If the value cannot be converted to the field type via a widening * conversion, an IllegalArgumentException is thrown. * * @param object * the object to access * @param value * the new value * @throws NullPointerException * if the object is {@code null} and the field is non-static * @throws IllegalArgumentException * if the object is not compatible with the declaring class * @throws IllegalAccessException * if this field is not accessible */ public void setInt(Object object, int value) throws IllegalAccessException, IllegalArgumentException { setIField(object, declaringClass, type, slot, flag, TYPE_INTEGER, value); } /** * Sets the value of the field in the specified object to the {@code long} * value. This reproduces the effect of {@code object.fieldName = value} *

* If this field is static, the object argument is ignored. * Otherwise, if the object is {@code null}, a NullPointerException is * thrown. If the object is not an instance of the declaring class of the * method, an IllegalArgumentException is thrown. *

* If this Field object is enforcing access control (see AccessibleObject) * and this field is not accessible from the current context, an * IllegalAccessException is thrown. *

* If the value cannot be converted to the field type via a widening * conversion, an IllegalArgumentException is thrown. * * @param object * the object to access * @param value * the new value * @throws NullPointerException * if the object is {@code null} and the field is non-static * @throws IllegalArgumentException * if the object is not compatible with the declaring class * @throws IllegalAccessException * if this field is not accessible */ public void setLong(Object object, long value) throws IllegalAccessException, IllegalArgumentException { setJField(object, declaringClass, type, slot, flag, TYPE_LONG, value); } /** * Sets the value of the field in the specified object to the {@code short} * value. This reproduces the effect of {@code object.fieldName = value} *

* If this field is static, the object argument is ignored. * Otherwise, if the object is {@code null}, a NullPointerException is * thrown. If the object is not an instance of the declaring class of the * method, an IllegalArgumentException is thrown. *

* If this Field object is enforcing access control (see AccessibleObject) * and this field is not accessible from the current context, an * IllegalAccessException is thrown. *

* If the value cannot be converted to the field type via a widening * conversion, an IllegalArgumentException is thrown. * * @param object * the object to access * @param value * the new value * @throws NullPointerException * if the object is {@code null} and the field is non-static * @throws IllegalArgumentException * if the object is not compatible with the declaring class * @throws IllegalAccessException * if this field is not accessible */ public void setShort(Object object, short value) throws IllegalAccessException, IllegalArgumentException { setSField(object, declaringClass, type, slot, flag, TYPE_SHORT, value); } /** * Returns a string containing a concise, human-readable description of this * field. *

* The format of the string is: *

    *
  1. modifiers (if any) *
  2. type *
  3. declaring class name *
  4. '.' *
  5. field name *
*

* For example: {@code public static java.io.InputStream * java.lang.System.in} * * @return a printable representation for this field */ @Override public String toString() { StringBuilder result = new StringBuilder(Modifier.toString(getModifiers())); if (result.length() != 0) { result.append(' '); } appendTypeName(result, type); result.append(' '); appendTypeName(result, declaringClass); result.append('.'); result.append(name); return result.toString(); } private native Object getField(Object o, Class declaringClass, Class type, int slot, boolean noAccessCheck) throws IllegalAccessException; private native double getDField(Object o, Class declaringClass, Class type, int slot, boolean noAccessCheck, char descriptor) throws IllegalAccessException; private native int getIField(Object o, Class declaringClass, Class type, int slot, boolean noAccessCheck, char descriptor) throws IllegalAccessException; private native long getJField(Object o, Class declaringClass, Class type, int slot, boolean noAccessCheck, char descriptor) throws IllegalAccessException; private native boolean getZField(Object o, Class declaringClass, Class type, int slot, boolean noAccessCheck, char descriptor) throws IllegalAccessException; private native float getFField(Object o, Class declaringClass, Class type, int slot, boolean noAccessCheck, char descriptor) throws IllegalAccessException; private native char getCField(Object o, Class declaringClass, Class type, int slot, boolean noAccessCheck, char descriptor) throws IllegalAccessException; private native short getSField(Object o, Class declaringClass, Class type, int slot, boolean noAccessCheck, char descriptor) throws IllegalAccessException; private native byte getBField(Object o, Class declaringClass, Class type, int slot, boolean noAccessCheck, char descriptor) throws IllegalAccessException; private native void setField(Object o, Class declaringClass, Class type, int slot, boolean noAccessCheck, Object value) throws IllegalAccessException; private native void setDField(Object o, Class declaringClass, Class type, int slot, boolean noAccessCheck, char descriptor, double v) throws IllegalAccessException; private native void setIField(Object o, Class declaringClass, Class type, int slot, boolean noAccessCheck, char descriptor, int i) throws IllegalAccessException; private native void setJField(Object o, Class declaringClass, Class type, int slot, boolean noAccessCheck, char descriptor, long j) throws IllegalAccessException; private native void setZField(Object o, Class declaringClass, Class type, int slot, boolean noAccessCheck, char descriptor, boolean z) throws IllegalAccessException; private native void setFField(Object o, Class declaringClass, Class type, int slot, boolean noAccessCheck, char descriptor, float f) throws IllegalAccessException; private native void setCField(Object o, Class declaringClass, Class type, int slot, boolean noAccessCheck, char descriptor, char c) throws IllegalAccessException; private native void setSField(Object o, Class declaringClass, Class type, int slot, boolean noAccessCheck, char descriptor, short s) throws IllegalAccessException; private native void setBField(Object o, Class declaringClass, Class type, int slot, boolean noAccessCheck, char descriptor, byte b) throws IllegalAccessException; }