/*
 * Copyright (c) 1997, 2008, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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/*
 * The Original Code is HAT. The Initial Developer of the
 * Original Code is Bill Foote, with contributions from others
 * at JavaSoft/Sun.
 */

package com.sun.tools.hat.internal.model;

import java.io.IOException;
import com.sun.tools.hat.internal.parser.ReadBuffer;

Represents Java instance
Author: Bill Foote
/** * Represents Java instance * * @author Bill Foote */
public class JavaObject extends JavaLazyReadObject { private Object clazz; // Number before resolve // JavaClass after resolve
Construct a new JavaObject.
Params:
  • classID – id of the class object
  • offset – The offset of field data
/** * Construct a new JavaObject. * * @param classID id of the class object * @param offset The offset of field data */
public JavaObject(long classID, long offset) { super(offset); this.clazz = makeId(classID); } public void resolve(Snapshot snapshot) { if (clazz instanceof JavaClass) { return; } if (clazz instanceof Number) { long classID = getIdValue((Number)clazz); clazz = snapshot.findThing(classID); if (! (clazz instanceof JavaClass)) { warn("Class " + Long.toHexString(classID) + " not found, " + "adding fake class!"); int length; ReadBuffer buf = snapshot.getReadBuffer(); int idSize = snapshot.getIdentifierSize(); long lenOffset = getOffset() + 2*idSize + 4; try { length = buf.getInt(lenOffset); } catch (IOException exp) { throw new RuntimeException(exp); } clazz = snapshot.addFakeInstanceClass(classID, length); } } else { throw new InternalError("should not reach here"); } JavaClass cl = (JavaClass) clazz; cl.resolve(snapshot); // while resolving, parse fields in verbose mode. // but, getFields calls parseFields in non-verbose mode // to avoid printing warnings repeatedly. parseFields(getValue(), true); cl.addInstance(this); super.resolve(snapshot); }
Are we the same type as other? We are iff our clazz is the same type as other's.
/** * Are we the same type as other? We are iff our clazz is the * same type as other's. */
public boolean isSameTypeAs(JavaThing other) { if (!(other instanceof JavaObject)) { return false; } JavaObject oo = (JavaObject) other; return getClazz().equals(oo.getClazz()); }
Return our JavaClass object. This may only be called after resolve.
/** * Return our JavaClass object. This may only be called after resolve. */
public JavaClass getClazz() { return (JavaClass) clazz; } public JavaThing[] getFields() { // pass false to verbose mode so that dereference // warnings are not printed. return parseFields(getValue(), false); } // returns the value of field of given name public JavaThing getField(String name) { JavaThing[] flds = getFields(); JavaField[] instFields = getClazz().getFieldsForInstance(); for (int i = 0; i < instFields.length; i++) { if (instFields[i].getName().equals(name)) { return flds[i]; } } return null; } public int compareTo(JavaThing other) { if (other instanceof JavaObject) { JavaObject oo = (JavaObject) other; return getClazz().getName().compareTo(oo.getClazz().getName()); } return super.compareTo(other); } public void visitReferencedObjects(JavaHeapObjectVisitor v) { super.visitReferencedObjects(v); JavaThing[] flds = getFields(); for (int i = 0; i < flds.length; i++) { if (flds[i] != null) { if (v.mightExclude() && v.exclude(getClazz().getClassForField(i), getClazz().getFieldForInstance(i))) { // skip it } else if (flds[i] instanceof JavaHeapObject) { v.visit((JavaHeapObject) flds[i]); } } } } public boolean refersOnlyWeaklyTo(Snapshot ss, JavaThing other) { if (ss.getWeakReferenceClass() != null) { final int referentFieldIndex = ss.getReferentFieldIndex(); if (ss.getWeakReferenceClass().isAssignableFrom(getClazz())) { // // REMIND: This introduces a dependency on the JDK // implementation that is undesirable. JavaThing[] flds = getFields(); for (int i = 0; i < flds.length; i++) { if (i != referentFieldIndex && flds[i] == other) { return false; } } return true; } } return false; }
Describe the reference that this thing has to target. This will only be called if target is in the array returned by getChildrenForRootset.
/** * Describe the reference that this thing has to target. This will only * be called if target is in the array returned by getChildrenForRootset. */
public String describeReferenceTo(JavaThing target, Snapshot ss) { JavaThing[] flds = getFields(); for (int i = 0; i < flds.length; i++) { if (flds[i] == target) { JavaField f = getClazz().getFieldForInstance(i); return "field " + f.getName(); } } return super.describeReferenceTo(target, ss); } public String toString() { if (getClazz().isString()) { JavaThing value = getField("value"); if (value instanceof JavaValueArray) { return ((JavaValueArray)value).valueString(); } else { return "null"; } } else { return super.toString(); } } // Internals only below this point /* * Java instance record (HPROF_GC_INSTANCE_DUMP) looks as below: * * object ID * stack trace serial number (int) * class ID * data length (int) * byte[length] */ protected final int readValueLength() throws IOException { JavaClass cl = getClazz(); int idSize = cl.getIdentifierSize(); long lengthOffset = getOffset() + 2*idSize + 4; return cl.getReadBuffer().getInt(lengthOffset); } protected final byte[] readValue() throws IOException { JavaClass cl = getClazz(); int idSize = cl.getIdentifierSize(); ReadBuffer buf = cl.getReadBuffer(); long offset = getOffset() + 2*idSize + 4; int length = buf.getInt(offset); if (length == 0) { return Snapshot.EMPTY_BYTE_ARRAY; } else { byte[] res = new byte[length]; buf.get(offset + 4, res); return res; } } private JavaThing[] parseFields(byte[] data, boolean verbose) { JavaClass cl = getClazz(); int target = cl.getNumFieldsForInstance(); JavaField[] fields = cl.getFields(); JavaThing[] fieldValues = new JavaThing[target]; Snapshot snapshot = cl.getSnapshot(); int idSize = snapshot.getIdentifierSize(); int fieldNo = 0; // In the dump file, the fields are stored in this order: // fields of most derived class (immediate class) are stored // first and then the super class and so on. In this object, // fields are stored in the reverse ("natural") order. i.e., // fields of most super class are stored first. // target variable is used to compensate for the fact that // the dump file starts field values from the leaf working // upwards in the inheritance hierarchy, whereas JavaObject // starts with the top of the inheritance hierarchy and works down. target -= fields.length; JavaClass currClass = cl; int index = 0; for (int i = 0; i < fieldValues.length; i++, fieldNo++) { while (fieldNo >= fields.length) { currClass = currClass.getSuperclass(); fields = currClass.getFields(); fieldNo = 0; target -= fields.length; } JavaField f = fields[fieldNo]; char sig = f.getSignature().charAt(0); switch (sig) { case 'L': case '[': { long id = objectIdAt(index, data); index += idSize; JavaObjectRef ref = new JavaObjectRef(id); fieldValues[target+fieldNo] = ref.dereference(snapshot, f, verbose); break; } case 'Z': { byte value = byteAt(index, data); index++; fieldValues[target+fieldNo] = new JavaBoolean(value != 0); break; } case 'B': { byte value = byteAt(index, data); index++; fieldValues[target+fieldNo] = new JavaByte(value); break; } case 'S': { short value = shortAt(index, data); index += 2; fieldValues[target+fieldNo] = new JavaShort(value); break; } case 'C': { char value = charAt(index, data); index += 2; fieldValues[target+fieldNo] = new JavaChar(value); break; } case 'I': { int value = intAt(index, data); index += 4; fieldValues[target+fieldNo] = new JavaInt(value); break; } case 'J': { long value = longAt(index, data); index += 8; fieldValues[target+fieldNo] = new JavaLong(value); break; } case 'F': { float value = floatAt(index, data); index += 4; fieldValues[target+fieldNo] = new JavaFloat(value); break; } case 'D': { double value = doubleAt(index, data); index += 8; fieldValues[target+fieldNo] = new JavaDouble(value); break; } default: throw new RuntimeException("invalid signature: " + sig); } } return fieldValues; } private void warn(String msg) { System.out.println("WARNING: " + msg); } }