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/*
 * Copyright (c) 2012, 2014, 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
 * or visit www.oracle.com if you need additional information or have any
 * questions.
 */
package com.oracle.truffle.object;

import java.util.AbstractMap;
import java.util.ArrayDeque;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.Iterator;
import java.util.List;
import java.util.ListIterator;
import java.util.Map;
import java.util.Objects;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.atomic.AtomicReferenceFieldUpdater;

import com.oracle.truffle.api.Assumption;
import com.oracle.truffle.api.CompilerAsserts;
import com.oracle.truffle.api.CompilerDirectives;
import com.oracle.truffle.api.CompilerDirectives.CompilationFinal;
import com.oracle.truffle.api.CompilerDirectives.TruffleBoundary;
import com.oracle.truffle.api.Truffle;
import com.oracle.truffle.api.interop.ForeignAccess;
import com.oracle.truffle.api.nodes.ExplodeLoop;
import com.oracle.truffle.api.object.DynamicObject;
import com.oracle.truffle.api.object.DynamicObjectFactory;
import com.oracle.truffle.api.object.Layout;
import com.oracle.truffle.api.object.Location;
import com.oracle.truffle.api.object.LocationFactory;
import com.oracle.truffle.api.object.ObjectType;
import com.oracle.truffle.api.object.Property;
import com.oracle.truffle.api.object.Shape;
import com.oracle.truffle.api.object.ShapeListener;
import com.oracle.truffle.api.utilities.NeverValidAssumption;
import com.oracle.truffle.object.LocationImpl.LocationVisitor;
import com.oracle.truffle.object.Locations.ConstantLocation;
import com.oracle.truffle.object.Locations.DeclaredLocation;
import com.oracle.truffle.object.Locations.ValueLocation;
import com.oracle.truffle.object.Transition.AddPropertyTransition;
import com.oracle.truffle.object.Transition.ObjectTypeTransition;
import com.oracle.truffle.object.Transition.PropertyTransition;
import com.oracle.truffle.object.Transition.ShareShapeTransition;

/**
 * Shape objects create a mapping of Property objects to indexes. The mapping of those indexes to an
 * actual store is not part of Shape's role, but DynamicObject's. Shapes are immutable; adding or
 * deleting a property yields a new Shape which links to the old one. This allows inline caching to
 * simply check the identity of an object's Shape to determine if the cache is valid. There is one
 * exception to this immutability, the transition map, but that is used simply to assure that an
 * identical series of property additions and deletions will yield the same Shape object.
 *
 * @see DynamicObject
 * @see Property
 * @see Locations
 * @since 0.17 or earlier
 */
public abstract class ShapeImpl extends Shape {
    private final int id;

    /** @since 0.17 or earlier */
    protected final LayoutImpl layout;
    /** @since 0.17 or earlier */
    protected final ObjectType objectType;
    /** @since 0.17 or earlier */
    protected final ShapeImpl parent;
    /** @since 0.17 or earlier */
    protected final PropertyMap propertyMap;

    private final Object sharedData;
    private final ShapeImpl root;

    /** @since 0.17 or earlier */
    protected final int objectArraySize;
    /** @since 0.17 or earlier */
    protected final int objectArrayCapacity;
    /** @since 0.17 or earlier */
    protected final int objectFieldSize;
    /** @since 0.17 or earlier */
    protected final int primitiveFieldSize;
    /** @since 0.17 or earlier */
    protected final int primitiveArraySize;
    /** @since 0.17 or earlier */
    protected final int primitiveArrayCapacity;
    /** @since 0.17 or earlier */
    protected final boolean hasPrimitiveArray;

    /** @since 0.18 */
    protected final boolean shared;

    /** @since 0.17 or earlier */
    protected final int depth;
    /** @since 0.17 or earlier */
    protected final int propertyCount;

    /** @since 0.17 or earlier */
    protected final Assumption validAssumption;
    /** @since 0.17 or earlier */
    @CompilationFinal protected volatile Assumption leafAssumption;

    /**
     * Shape transition map; lazily initialized. One of:
     * 
    *
  1. {@code null}: empty map *
  2. {@link Map.Entry}: immutable single entry map *
  3. {@link Map}: mutable multiple entry map *
* * @see #getTransitionMapForRead() * @see #addTransitionInternal(Transition, ShapeImpl) */ private volatile Object transitionMap; private final Transition transitionFromParent; private static final AtomicReferenceFieldUpdater TRANSITION_MAP_UPDATER = AtomicReferenceFieldUpdater.newUpdater(ShapeImpl.class, Object.class, "transitionMap"); private static final AtomicReferenceFieldUpdater LEAF_ASSUMPTION_UPDATER = AtomicReferenceFieldUpdater.newUpdater(ShapeImpl.class, Assumption.class, "leafAssumption"); /** * Private constructor. * * @param parent predecessor shape * @param transitionFromParent direct transition from parent shape * * @see #ShapeImpl(Layout, ShapeImpl, ObjectType, Object, PropertyMap, Transition, * BaseAllocator, int) */ private ShapeImpl(Layout layout, ShapeImpl parent, ObjectType objectType, Object sharedData, PropertyMap propertyMap, Transition transitionFromParent, int objectArraySize, int objectFieldSize, int primitiveFieldSize, int primitiveArraySize, boolean hasPrimitiveArray, int id) { this.layout = (LayoutImpl) layout; this.objectType = Objects.requireNonNull(objectType); this.propertyMap = Objects.requireNonNull(propertyMap); this.root = parent != null ? parent.getRoot() : this; this.parent = parent; this.objectArraySize = objectArraySize; this.objectArrayCapacity = capacityFromSize(objectArraySize); this.objectFieldSize = objectFieldSize; this.primitiveFieldSize = primitiveFieldSize; this.primitiveArraySize = primitiveArraySize; this.primitiveArrayCapacity = capacityFromSize(primitiveArraySize); this.hasPrimitiveArray = hasPrimitiveArray; this.shared = transitionFromParent instanceof ShareShapeTransition || (parent != null && parent.shared); if (parent != null) { this.propertyCount = makePropertyCount(parent, propertyMap); this.depth = parent.depth + 1; } else { this.propertyCount = 0; this.depth = 0; } this.validAssumption = createValidAssumption(); this.id = id; this.transitionFromParent = transitionFromParent; this.sharedData = sharedData; shapeCount.inc(); if (ObjectStorageOptions.DumpShapes) { Debug.trackShape(this); } } /** @since 0.17 or earlier */ protected ShapeImpl(Layout layout, ShapeImpl parent, ObjectType operations, Object sharedData, PropertyMap propertyMap, Transition transition, Allocator allocator, int id) { this(layout, parent, operations, sharedData, propertyMap, transition, ((BaseAllocator) allocator).objectArraySize, ((BaseAllocator) allocator).objectFieldSize, ((BaseAllocator) allocator).primitiveFieldSize, ((BaseAllocator) allocator).primitiveArraySize, ((BaseAllocator) allocator).hasPrimitiveArray, id); } /** @since 0.17 or earlier */ @SuppressWarnings("hiding") protected abstract ShapeImpl createShape(Layout layout, Object sharedData, ShapeImpl parent, ObjectType operations, PropertyMap propertyMap, Transition transition, Allocator allocator, int id); /** @since 0.17 or earlier */ protected ShapeImpl(Layout layout, ObjectType operations, Object sharedData, int id) { this(layout, null, operations, sharedData, PropertyMap.empty(), null, layout.createAllocator(), id); } private static int makePropertyCount(ShapeImpl parent, PropertyMap propertyMap) { if (propertyMap.size() > parent.propertyMap.size()) { Property lastProperty = propertyMap.getLastProperty(); if (!lastProperty.isHidden()) { return parent.propertyCount + 1; } } return parent.propertyCount; } /** @since 0.17 or earlier */ @Override public final Property getLastProperty() { return propertyMap.getLastProperty(); } /** @since 0.17 or earlier */ @Override public final int getId() { return this.id; } /** * Calculate array size for the given number of elements. */ private static int capacityFromSize(int size) { if (size == 0) { return 0; } else if (size < 4) { return 4; } else if (size < 32) { return ((size + 7) / 8) * 8; } else { return ((size + 15) / 16) * 16; } } /** @since 0.17 or earlier */ public final int getObjectArraySize() { return objectArraySize; } /** @since 0.17 or earlier */ public final int getObjectFieldSize() { return objectFieldSize; } /** @since 0.17 or earlier */ public final int getPrimitiveFieldSize() { return primitiveFieldSize; } /** @since 0.17 or earlier */ public final int getObjectArrayCapacity() { return objectArrayCapacity; } /** @since 0.17 or earlier */ public final int getPrimitiveArrayCapacity() { return primitiveArrayCapacity; } /** @since 0.17 or earlier */ public final int getPrimitiveArraySize() { return primitiveArraySize; } /** @since 0.17 or earlier */ public final boolean hasPrimitiveArray() { return hasPrimitiveArray; } /** * Get a property entry by string name. * * @param key the name to look up * @return a Property object, or null if not found * @since 0.17 or earlier */ @Override @TruffleBoundary public Property getProperty(Object key) { return propertyMap.get(key); } /** @since 0.17 or earlier */ public final PropertyMap getPropertyMap() { return propertyMap; } /** @since 0.17 or earlier */ public final void addDirectTransition(Transition transition, ShapeImpl next) { assert next.getParent() == this && transition.isDirect(); addTransitionInternal(transition, next); } /** @since 0.17 or earlier */ public final void addIndirectTransition(Transition transition, ShapeImpl next) { assert !isShared(); assert next.getParent() != this && !transition.isDirect(); addTransitionInternal(transition, next); } @SuppressWarnings("unchecked") private void addTransitionInternal(Transition transition, ShapeImpl successor) { Object prev; Object next; do { prev = TRANSITION_MAP_UPDATER.get(this); if (prev == null) { invalidateLeafAssumption(); next = new AbstractMap.SimpleImmutableEntry<>(transition, successor); } else if (prev instanceof Map.Entry) { Map.Entry entry = (Map.Entry) prev; ConcurrentHashMap map = new ConcurrentHashMap<>(); map.put(entry.getKey(), entry.getValue()); map.put(transition, successor); next = map; } else { assert prev instanceof Map; Map map = (Map) prev; map.put(transition, successor); break; } } while (!TRANSITION_MAP_UPDATER.compareAndSet(this, prev, next)); } /** @since 0.17 or earlier */ @SuppressWarnings("unchecked") public final Map getTransitionMapForRead() { Object trans = transitionMap; if (trans == null) { return Collections. emptyMap(); } else if (trans instanceof Map.Entry) { Map.Entry entry = (Map.Entry) trans; return Collections.singletonMap(entry.getKey(), entry.getValue()); } else { assert trans instanceof Map; Map map = (Map) trans; return map; } } @SuppressWarnings("unchecked") private ShapeImpl queryTransitionImpl(Transition transition) { Object trans = transitionMap; if (trans == null) { return null; } else if (trans instanceof Map.Entry) { Map.Entry entry = (Map.Entry) trans; if (entry.getKey().equals(transition)) { return entry.getValue(); } else { return null; } } else { assert trans instanceof Map; Map map = (Map) trans; return map.get(transition); } } /** @since 0.17 or earlier */ public final ShapeImpl queryTransition(Transition transition) { ShapeImpl cachedShape = queryTransitionImpl(transition); if (cachedShape != null) { shapeCacheHitCount.inc(); return cachedShape; } shapeCacheMissCount.inc(); return null; } /** * Add a new property in the map, yielding a new or cached Shape object. * * @param property the property to add * @return the new Shape * @since 0.17 or earlier */ @TruffleBoundary @Override public ShapeImpl addProperty(Property property) { assert isValid(); onPropertyTransition(property); return layout.getStrategy().addProperty(this, property); } /** @since 0.17 or earlier */ protected void onPropertyTransition(Property property) { if (sharedData instanceof ShapeListener) { ((ShapeListener) sharedData).onPropertyTransition(property.getKey()); } } /** @since 0.17 or earlier */ @TruffleBoundary @Override public ShapeImpl defineProperty(Object key, Object value, int flags) { return defineProperty(key, value, flags, layout.getStrategy().getDefaultLocationFactory()); } /** @since 0.17 or earlier */ @TruffleBoundary @Override public ShapeImpl defineProperty(Object key, Object value, int flags, LocationFactory locationFactory) { return layout.getStrategy().defineProperty(this, key, value, flags, locationFactory); } /** @since 0.17 or earlier */ protected ShapeImpl cloneRoot(ShapeImpl from, Object newSharedData) { return createShape(from.layout, newSharedData, null, from.objectType, from.propertyMap, null, from.allocator(), from.id); } /** * Create a separate clone of a shape. * * @param newParent the cloned parent shape * @since 0.17 or earlier */ protected final ShapeImpl cloneOnto(ShapeImpl newParent) { ShapeImpl from = this; ShapeImpl newShape = createShape(newParent.layout, newParent.sharedData, newParent, from.objectType, from.propertyMap, from.transitionFromParent, from.allocator(), newParent.id); shapeCloneCount.inc(); newParent.addDirectTransition(from.transitionFromParent, newShape); return newShape; } /** @since 0.17 or earlier */ public final Transition getTransitionFromParent() { return transitionFromParent; } /** * Create a new shape that adds a property to the parent shape. * * @since 0.17 or earlier */ protected static ShapeImpl makeShapeWithAddedProperty(ShapeImpl parent, AddPropertyTransition addTransition) { Property addend = addTransition.getProperty(); BaseAllocator allocator = parent.allocator().addLocation(addend.getLocation()); PropertyMap newPropertyMap = parent.propertyMap.putCopy(addend); ShapeImpl newShape = parent.createShape(parent.layout, parent.sharedData, parent, parent.objectType, newPropertyMap, addTransition, allocator, parent.id); assert ((LocationImpl) addend.getLocation()).primitiveArrayCount() == 0 || newShape.hasPrimitiveArray; assert newShape.depth == allocator.depth; return newShape; } /** * Create a new shape that reserves the primitive extension array field. * * @since 0.17 or earlier */ protected static ShapeImpl makeShapeWithPrimitiveExtensionArray(ShapeImpl parent, Transition transition) { assert parent.getLayout().hasPrimitiveExtensionArray(); assert !parent.hasPrimitiveArray(); BaseAllocator allocator = parent.allocator().addLocation(parent.getLayout().getPrimitiveArrayLocation()); ShapeImpl newShape = parent.createShape(parent.layout, parent.sharedData, parent, parent.objectType, parent.propertyMap, transition, allocator, parent.id); assert newShape.hasPrimitiveArray(); assert newShape.depth == allocator.depth; return newShape; } /** * Are these two shapes related, i.e. do they have the same root? * * @param other Shape to compare to * @return true if one shape is an upcast of the other, or the Shapes are equal * @since 0.17 or earlier */ @Override public boolean isRelated(Shape other) { if (this == other) { return true; } if (this.getRoot() == getRoot()) { return true; } return false; } /** * Get a list of all properties that this Shape stores. * * @return list of properties * @since 0.17 or earlier */ @TruffleBoundary @Override public final List getPropertyList(Pred filter) { ArrayDeque props = new ArrayDeque<>(); for (Iterator it = this.propertyMap.reverseOrderedValueIterator(); it.hasNext();) { Property currentProperty = it.next(); if (!currentProperty.isHidden() && filter.test(currentProperty)) { props.addFirst(currentProperty); } } return Arrays.asList(props.toArray(new Property[0])); } /** @since 0.17 or earlier */ @TruffleBoundary @Override public final List getPropertyList() { Property[] props = new Property[getPropertyCount()]; int i = props.length; for (Iterator it = this.propertyMap.reverseOrderedValueIterator(); it.hasNext();) { Property currentProperty = it.next(); if (!currentProperty.isHidden()) { props[--i] = currentProperty; } } return Arrays.asList(props); } /** * Returns all (also hidden) Property objects in this shape. * * @param ascending desired order * @since 0.17 or earlier */ @TruffleBoundary @Override public final List getPropertyListInternal(boolean ascending) { Property[] props = new Property[this.propertyMap.size()]; int i = ascending ? props.length : 0; for (Iterator it = this.propertyMap.reverseOrderedValueIterator(); it.hasNext();) { Property current = it.next(); if (ascending) { props[--i] = current; } else { props[i++] = current; } } return Arrays.asList(props); } /** * Get a list of all (visible) property names in insertion order. * * @return list of property names * @since 0.17 or earlier */ @TruffleBoundary @Override public final List getKeyList(Pred filter) { ArrayDeque keys = new ArrayDeque<>(); for (Iterator it = this.propertyMap.reverseOrderedValueIterator(); it.hasNext();) { Property currentProperty = it.next(); if (!currentProperty.isHidden() && filter.test(currentProperty)) { keys.addFirst(currentProperty.getKey()); } } return Arrays.asList(keys.toArray(new Object[0])); } /** @since 0.17 or earlier */ @TruffleBoundary @Override public final List getKeyList() { Object[] props = new Object[getPropertyCount()]; int i = props.length; for (Iterator it = this.propertyMap.reverseOrderedValueIterator(); it.hasNext();) { Property currentProperty = it.next(); if (!currentProperty.isHidden()) { props[--i] = currentProperty.getKey(); } } return Arrays.asList(props); } /** @since 0.17 or earlier */ @Override public Iterable getKeys() { return getKeyList(); } /** @since 0.17 or earlier */ @Override public final boolean isValid() { return getValidAssumption().isValid(); } /** @since 0.17 or earlier */ @Override public final Assumption getValidAssumption() { return validAssumption; } private static Assumption createValidAssumption() { return Truffle.getRuntime().createAssumption("valid shape"); } /** @since 0.17 or earlier */ public final void invalidateValidAssumption() { getValidAssumption().invalidate(); } /** @since 0.17 or earlier */ @Override public final boolean isLeaf() { Assumption assumption = leafAssumption; return assumption == null || assumption.isValid(); } /** @since 0.17 or earlier */ @Override public final Assumption getLeafAssumption() { Assumption assumption = leafAssumption; if (assumption != null) { return assumption; } else { CompilerDirectives.transferToInterpreterAndInvalidate(); Assumption prev; Assumption next; do { prev = LEAF_ASSUMPTION_UPDATER.get(this); if (prev != null) { return prev; } else { boolean isLeafShape = transitionMap == null; next = isLeafShape ? createLeafAssumption() : NeverValidAssumption.INSTANCE; } } while (!LEAF_ASSUMPTION_UPDATER.compareAndSet(this, prev, next)); return next; } } private static Assumption createLeafAssumption() { return Truffle.getRuntime().createAssumption("leaf shape"); } private void invalidateLeafAssumption() { Assumption prev; do { prev = LEAF_ASSUMPTION_UPDATER.get(this); if (prev == NeverValidAssumption.INSTANCE) { break; } if (prev != null) { prev.invalidate(); } } while (!LEAF_ASSUMPTION_UPDATER.compareAndSet(this, prev, NeverValidAssumption.INSTANCE)); } /** @since 0.17 or earlier */ @Override public String toString() { return toStringLimit(Integer.MAX_VALUE); } /** @since 0.17 or earlier */ @TruffleBoundary public String toStringLimit(int limit) { StringBuilder sb = new StringBuilder(); sb.append('@'); sb.append(Integer.toHexString(hashCode())); if (!isValid()) { sb.append('!'); } sb.append("{"); for (Iterator iterator = propertyMap.reverseOrderedValueIterator(); iterator.hasNext();) { Property p = iterator.next(); sb.append(p); if (iterator.hasNext()) { sb.append(","); } if (sb.length() >= limit) { sb.append("..."); break; } sb.append("\n"); } sb.append("}"); return sb.toString(); } /** @since 0.17 or earlier */ @Override public final ShapeImpl getParent() { return parent; } /** @since 0.17 or earlier */ public final int getDepth() { return depth; } /** @since 0.17 or earlier */ @Override public final boolean hasProperty(Object name) { return getProperty(name) != null; } /** @since 0.17 or earlier */ @TruffleBoundary @Override public final ShapeImpl removeProperty(Property prop) { assert isValid(); if (shared) { throw new UnsupportedOperationException("Do not use delete() with a shared shape as it moves locations"); } onPropertyTransition(prop); return layout.getStrategy().removeProperty(this, prop); } /** @since 0.17 or earlier */ @TruffleBoundary @Override public final ShapeImpl append(Property oldProperty) { return addProperty(oldProperty.relocate(allocator().moveLocation(oldProperty.getLocation()))); } /** @since 0.17 or earlier */ @Override public final BaseAllocator allocator() { return layout.getStrategy().createAllocator(this); } /** * Duplicate shape exchanging existing property with new property. * * @since 0.17 or earlier */ @Override public ShapeImpl replaceProperty(Property oldProperty, Property newProperty) { assert oldProperty.getKey().equals(newProperty.getKey()); onPropertyTransition(oldProperty); return layout.getStrategy().replaceProperty(this, oldProperty, newProperty); } /** * Find lowest common ancestor of two related shapes. * * @since 0.17 or earlier */ public static ShapeImpl findCommonAncestor(ShapeImpl left, ShapeImpl right) { if (!left.isRelated(right)) { throw new IllegalArgumentException("shapes must have the same root"); } else if (left == right) { return left; } int leftLength = left.depth; int rightLength = right.depth; ShapeImpl leftPtr = left; ShapeImpl rightPtr = right; while (leftLength > rightLength) { leftPtr = leftPtr.parent; leftLength--; } while (rightLength > leftLength) { rightPtr = rightPtr.parent; rightLength--; } while (leftPtr != rightPtr) { leftPtr = leftPtr.parent; rightPtr = rightPtr.parent; } return leftPtr; } /** @since 0.17 or earlier */ @Override public final int getPropertyCount() { return propertyCount; } /** * Find difference between two shapes. * * @see ObjectStorageOptions#TraceReshape * @since 0.17 or earlier */ public static List diff(Shape oldShape, Shape newShape) { List oldList = oldShape.getPropertyListInternal(false); List newList = newShape.getPropertyListInternal(false); List diff = new ArrayList<>(oldList); diff.addAll(newList); List intersection = new ArrayList<>(oldList); intersection.retainAll(newList); diff.removeAll(intersection); return diff; } /** @since 0.17 or earlier */ @Override public ObjectType getObjectType() { return objectType; } /** @since 0.17 or earlier */ @Override public ShapeImpl getRoot() { return root; } /** @since 0.17 or earlier */ @Override public final boolean check(DynamicObject subject) { return subject.getShape() == this; } /** @since 0.17 or earlier */ @Override public final LayoutImpl getLayout() { return layout; } /** @since 0.17 or earlier */ @Override public final Object getSharedData() { return sharedData; } /** @since 0.17 or earlier */ @TruffleBoundary @Override public final boolean hasTransitionWithKey(Object key) { for (Transition transition : getTransitionMapForRead().keySet()) { if (transition instanceof PropertyTransition) { if (((PropertyTransition) transition).getProperty().getKey().equals(key)) { return true; } } } return false; } /** * Clone off a separate shape with new shared data. * * @since 0.17 or earlier */ @TruffleBoundary @Override public final ShapeImpl createSeparateShape(Object newSharedData) { if (parent == null) { return cloneRoot(this, newSharedData); } else { return this.cloneOnto(parent.createSeparateShape(newSharedData)); } } /** @since 0.17 or earlier */ @Override @TruffleBoundary public final ShapeImpl changeType(ObjectType newOps) { ObjectTypeTransition transition = new ObjectTypeTransition(newOps); ShapeImpl cachedShape = queryTransition(transition); if (cachedShape != null) { return layout.getStrategy().ensureValid(cachedShape); } ShapeImpl newShape = createShape(layout, sharedData, this, newOps, propertyMap, transition, allocator(), id); addDirectTransition(transition, newShape); return newShape; } /** @since 0.17 or earlier */ @Override public final ShapeImpl reservePrimitiveExtensionArray() { if (layout.hasPrimitiveExtensionArray() && !hasPrimitiveArray()) { return layout.getStrategy().addPrimitiveExtensionArray(this); } return this; } /** @since 0.17 or earlier */ @Override public final Iterable getProperties() { return getPropertyList(); } /** @since 0.17 or earlier */ @Override public final DynamicObject newInstance() { return layout.newInstance(this); } /** @since 0.17 or earlier */ @Override public final DynamicObjectFactory createFactory() { List properties = getPropertyListInternal(true); List filtered = null; for (ListIterator iterator = properties.listIterator(); iterator.hasNext();) { Property property = iterator.next(); // skip non-instance fields assert property.getLocation() != layout.getPrimitiveArrayLocation(); if (property.getLocation() instanceof ValueLocation) { if (filtered == null) { filtered = new ArrayList<>(); filtered.addAll(properties.subList(0, iterator.previousIndex())); } } else if (filtered != null) { filtered.add(property); } } if (filtered != null) { properties = filtered; } return new DynamicObjectFactoryImpl(this, properties); } /** @since 0.17 or earlier */ @Override public Object getMutex() { return getRoot(); } /** @since 0.17 or earlier */ @Override public Shape tryMerge(Shape other) { return null; } /** @since 0.18 */ @Override public boolean isShared() { return shared; } /** @since 0.18 */ @Override public Shape makeSharedShape() { if (shared) { throw new UnsupportedOperationException("makeSharedShape() can only be called on non-shared shapes."); } Transition transition = new ShareShapeTransition(); ShapeImpl cachedShape = queryTransition(transition); if (cachedShape != null) { return layout.getStrategy().ensureValid(cachedShape); } ShapeImpl newShape = createShape(layout, sharedData, this, objectType, propertyMap, transition, allocator(), id); addDirectTransition(transition, newShape); return newShape; } private static final class DynamicObjectFactoryImpl implements DynamicObjectFactory { private final ShapeImpl shape; @CompilationFinal(dimensions = 1) private final PropertyImpl[] instanceFields; private static final PropertyImpl[] EMPTY = new PropertyImpl[0]; private DynamicObjectFactoryImpl(ShapeImpl shape, List properties) { this.shape = shape; this.instanceFields = properties.toArray(EMPTY); } @ExplodeLoop public DynamicObject newInstance(Object... initialValues) { assert initialValues.length == instanceFields.length : wrongArguments(initialValues.length); DynamicObject store = shape.newInstance(); CompilerAsserts.partialEvaluationConstant(instanceFields.length); for (int i = 0; i < instanceFields.length; i++) { instanceFields[i].setInternal(store, initialValues[i]); } return store; } private String wrongArguments(int givenLength) { String message = givenLength + " arguments given but the factory takes " + instanceFields.length + ": "; for (int i = 0; i < instanceFields.length; i++) { message += instanceFields[i].getKey(); if (i != instanceFields.length - 1) { message += ", "; } } return message; } public Shape getShape() { return shape; } } /** @since 0.17 or earlier */ public abstract static class BaseAllocator extends Allocator implements LocationVisitor, Cloneable { /** @since 0.17 or earlier */ protected final LayoutImpl layout; /** @since 0.17 or earlier */ protected int objectArraySize; /** @since 0.17 or earlier */ protected int objectFieldSize; /** @since 0.17 or earlier */ protected int primitiveFieldSize; /** @since 0.17 or earlier */ protected int primitiveArraySize; /** @since 0.17 or earlier */ protected boolean hasPrimitiveArray; /** @since 0.17 or earlier */ protected int depth; /** @since 0.18 */ protected boolean shared; /** @since 0.17 or earlier */ protected BaseAllocator(LayoutImpl layout) { this.layout = layout; } /** @since 0.17 or earlier */ protected BaseAllocator(ShapeImpl shape) { this(shape.getLayout()); this.objectArraySize = shape.objectArraySize; this.objectFieldSize = shape.objectFieldSize; this.primitiveFieldSize = shape.primitiveFieldSize; this.primitiveArraySize = shape.primitiveArraySize; this.hasPrimitiveArray = shape.hasPrimitiveArray; this.depth = shape.depth; this.shared = shape.shared; } /** @since 0.17 or earlier */ protected abstract Location moveLocation(Location oldLocation); /** @since 0.17 or earlier */ protected abstract Location newObjectLocation(boolean useFinal, boolean nonNull); /** @since 0.17 or earlier */ protected abstract Location newTypedObjectLocation(boolean useFinal, Class type, boolean nonNull); /** @since 0.17 or earlier */ protected abstract Location newIntLocation(boolean useFinal); /** @since 0.17 or earlier */ protected abstract Location newDoubleLocation(boolean useFinal); /** @since 0.17 or earlier */ protected abstract Location newLongLocation(boolean useFinal); /** @since 0.17 or earlier */ protected abstract Location newBooleanLocation(boolean useFinal); /** @since 0.17 or earlier */ @Override public final Location constantLocation(Object value) { return new ConstantLocation(value); } /** @since 0.17 or earlier */ @Override public Location declaredLocation(Object value) { return new DeclaredLocation(value); } /** @since 0.17 or earlier */ @Override protected Location locationForValue(Object value, boolean useFinal, boolean nonNull) { if (value instanceof Integer) { return newIntLocation(useFinal); } else if (value instanceof Double) { return newDoubleLocation(useFinal); } else if (value instanceof Long) { return newLongLocation(useFinal); } else if (value instanceof Boolean) { return newBooleanLocation(useFinal); } else if (ObjectStorageOptions.TypedObjectLocations && value != null) { return newTypedObjectLocation(useFinal, value.getClass(), nonNull); } return newObjectLocation(useFinal, nonNull && value != null); } /** @since 0.17 or earlier */ protected abstract Location locationForValueUpcast(Object value, Location oldLocation); /** @since 0.17 or earlier */ @Override protected Location locationForType(Class type, boolean useFinal, boolean nonNull) { if (type == int.class) { return newIntLocation(useFinal); } else if (type == double.class) { return newDoubleLocation(useFinal); } else if (type == long.class) { return newLongLocation(useFinal); } else if (type == boolean.class) { return newBooleanLocation(useFinal); } else if (ObjectStorageOptions.TypedObjectLocations && type != null && type != Object.class) { assert !type.isPrimitive() : "unsupported primitive type"; return newTypedObjectLocation(useFinal, type, nonNull); } return newObjectLocation(useFinal, nonNull); } /** @since 0.17 or earlier */ protected T advance(T location0) { if (location0 instanceof LocationImpl) { LocationImpl location = (LocationImpl) location0; if (location != layout.getPrimitiveArrayLocation()) { location.accept(this); } if (layout.hasPrimitiveExtensionArray()) { hasPrimitiveArray |= location == layout.getPrimitiveArrayLocation() || primitiveArraySize > 0; } else { assert !hasPrimitiveArray && primitiveArraySize == 0; } } depth++; return location0; } /** @since 0.17 or earlier */ @Override public BaseAllocator addLocation(Location location) { advance(location); return this; } /** @since 0.17 or earlier */ public void visitObjectField(int index, int count) { objectFieldSize = Math.max(objectFieldSize, index + count); } /** @since 0.17 or earlier */ public void visitObjectArray(int index, int count) { objectArraySize = Math.max(objectArraySize, index + count); } /** @since 0.17 or earlier */ public void visitPrimitiveArray(int index, int count) { primitiveArraySize = Math.max(primitiveArraySize, index + count); } /** @since 0.17 or earlier */ public void visitPrimitiveField(int index, int count) { primitiveFieldSize = Math.max(primitiveFieldSize, index + count); } /** @since 0.17 or earlier */ @Override public final BaseAllocator copy() { return clone(); } /** @since 0.17 or earlier */ @Override protected final BaseAllocator clone() { try { return (BaseAllocator) super.clone(); } catch (CloneNotSupportedException e) { throw new AssertionError(e); } } /** @since 0.17 or earlier */ public Location existingLocationForValue(Object value, Location oldLocation, ShapeImpl oldShape) { assert oldShape.getLayout() == this.layout; Location newLocation; if (oldLocation.canSet(value)) { newLocation = oldLocation; } else { newLocation = oldShape.allocator().locationForValueUpcast(value, oldLocation); } return newLocation; } } private static final DebugCounter shapeCount = DebugCounter.create("Shapes allocated total"); private static final DebugCounter shapeCloneCount = DebugCounter.create("Shapes allocated cloned"); private static final DebugCounter shapeCacheHitCount = DebugCounter.create("Shape cache hits"); private static final DebugCounter shapeCacheMissCount = DebugCounter.create("Shape cache misses"); /** @since 0.17 or earlier */ public ForeignAccess getForeignAccessFactory(DynamicObject object) { return getObjectType().getForeignAccessFactory(object); } }