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package org.pkl.thirdparty.truffle.api.object;

import java.util.EnumSet;
import java.util.List;
import java.util.Objects;
import java.util.function.Predicate;

import org.pkl.thirdparty.graalvm.collections.EconomicMap;
import org.pkl.thirdparty.graalvm.collections.Equivalence;
import org.pkl.thirdparty.graalvm.collections.Pair;

import org.pkl.thirdparty.truffle.api.Assumption;
import org.pkl.thirdparty.truffle.api.CompilerAsserts;
import org.pkl.thirdparty.truffle.api.CompilerDirectives;
import org.pkl.thirdparty.truffle.api.dsl.Idempotent;
import org.pkl.thirdparty.truffle.api.dsl.NonIdempotent;

/**
 * A Shape is an immutable descriptor of the current object "shape" of a DynamicObject, i.e., object
 * layout, metadata ({@linkplain Shape#getDynamicType() type}, {@linkplain Shape#getFlags() flags}),
 * and a mapping of {@linkplain Property properties} to storage locations. This allows cached
 * {@link DynamicObjectLibrary} to do a simple shape check to determine the contents of an object
 * and do fast, constant-time property accesses.
 *
 * 

* Shapes are shared between objects that assume the same shape if they follow the same shape * transitions, like adding the same properties in the same order, starting from a common root * shape. Shape transitions are automatically, weakly cached. * *

* Dynamic objects start off with an initial shape that has no instance properties (but may have * constant properties that are stored in the shape). Initial shapes are created via * {@link Shape#newBuilder()}. * * @see DynamicObject * @see Shape#newBuilder() * @see Property * @since 0.8 or earlier */ public abstract class Shape { static final int OBJECT_FLAGS_MASK = 0x0000_00ff; static final int OBJECT_FLAGS_SHIFT = 0; static final int OBJECT_SHARED = 1 << 16; static final int OBJECT_PROPERTY_ASSUMPTIONS = 1 << 17; /** * Creates a new initial shape builder. * * * The builder instance is not thread-safe and must not be used from multiple threads at the * same time. * * @since 20.2.0 */ public static Builder newBuilder() { CompilerAsserts.neverPartOfCompilation(); return new Builder(); } /** * Internal superclass shared by {@link Builder} and {@link DerivedBuilder}. * * @since 20.2.0 */ abstract static class AbstractBuilder> { /** * Sets initial dynamic object type identifier. * * See {@link DynamicObjectLibrary#setDynamicType(DynamicObject, Object)} for more * information. * * @param dynamicType a non-null object type identifier * @throws NullPointerException if the type is {@code null} * @since 20.2.0 */ public abstract T dynamicType(Object dynamicType); /** * Sets initial shape flags (default: 0). Currently limited to 8 bits. * * See {@link DynamicObjectLibrary#setShapeFlags(DynamicObject, int)} for more information. * * @param flags an int value in the range from 0 to 255 (inclusive) * @throws IllegalArgumentException if the flags value is not in the supported range * @since 20.2.0 */ public abstract T shapeFlags(int flags); /** * Adds a property with a constant value to the shape. The key must not be {@code null} and * must not be equal to any previously added property's key. * * @param key the property's key * @param value the property's value * @param flags the property's flags * @throws NullPointerException if the key is {@code null} * @throws IllegalArgumentException if a property with the key already exists * @see DynamicObjectLibrary#putConstant(DynamicObject, Object, Object, int) * @since 20.2.0 */ public abstract T addConstantProperty(Object key, Object value, int flags); static Object checkDynamicType(Object dynamicType) { Objects.requireNonNull(dynamicType, "dynamicType"); return dynamicType; } static int checkShapeFlags(int flags) { if ((flags & ~OBJECT_FLAGS_MASK) != 0) { throw new IllegalArgumentException("flags must be in the range (0, 255)"); } return flags; } } /** * Builder class to construct initial {@link Shape} instances. * * The builder instance is not thread-safe and must not be used from multiple threads at the * same time. * * @see Shape#newBuilder() * @since 20.2.0 */ @SuppressWarnings({"hiding", "deprecation"}) public static final class Builder extends AbstractBuilder { private Class layoutClass = DynamicObject.class; private Object dynamicType = ObjectType.DEFAULT; private int shapeFlags; private boolean allowImplicitCastIntToDouble; private boolean allowImplicitCastIntToLong; private boolean shared; private boolean propertyAssumptions; private Object sharedData; private Assumption singleContextAssumption; private EconomicMap> properties; Builder() { } /** * Sets custom object layout class (default: {@link DynamicObject} base class). * * Enables the use of dynamic object fields declared in subclasses using the * {@code DynamicField} annotation. * *

* Examples: * *

         * 
         * public class MyObject extends DynamicObject implements TruffleObject {
         *
         *     @DynamicField private Object _obj1;
         *     @DynamicField private Object _obj2;
         *     @DynamicField private long _long1;
         *     @DynamicField private long _long2;
         *
         *     public MyObject(Shape shape) {
         *         super(shape);
         *     }
         * }
         *
         *
         * Shape myObjShape = Shape.newBuilder().layout(MyObject.class).build();
         * MyObject obj = new MyObject(myObjShape);
         * 
         * 
* * @param layoutClass custom object layout class * @since 20.2.0 */ public Builder layout(Class layoutClass) { CompilerAsserts.neverPartOfCompilation(); if (!DynamicObject.class.isAssignableFrom(layoutClass)) { throw new IllegalArgumentException(String.format("Expected a subclass of %s but got: %s", DynamicObject.class.getName(), layoutClass.getTypeName())); } this.layoutClass = layoutClass; return this; } /** * {@inheritDoc} * * @throws NullPointerException {@inheritDoc} * @throws IllegalArgumentException {@inheritDoc} * @see DynamicObjectLibrary#getDynamicType(DynamicObject) * @see DynamicObjectLibrary#setDynamicType(DynamicObject, Object) * @since 20.2.0 */ @Override public Builder dynamicType(Object dynamicType) { CompilerAsserts.neverPartOfCompilation(); this.dynamicType = checkDynamicType(dynamicType); return this; } /** * {@inheritDoc} * * @throws IllegalArgumentException {@inheritDoc} * @see DynamicObjectLibrary#getShapeFlags(DynamicObject) * @see DynamicObjectLibrary#setShapeFlags(DynamicObject, int) * @since 20.2.0 */ @Override public Builder shapeFlags(int flags) { CompilerAsserts.neverPartOfCompilation(); this.shapeFlags = checkShapeFlags(flags); return this; } /** * If {@code true}, makes the object shared (default: {@code false}). * * @see Shape#isShared() * @see DynamicObjectLibrary#isShared(DynamicObject) * @see DynamicObjectLibrary#markShared(DynamicObject) * @since 20.2.0 */ public Builder shared(boolean isShared) { CompilerAsserts.neverPartOfCompilation(); this.shared = isShared; return this; } /** * If {@code true}, enables the use of {@linkplain Shape#getPropertyAssumption(Object) * property assumptions} for this object shape and any derived shapes (default: * {@code false}). Property assumptions allow speculating on select properties being absent * or stable across shape changes. * *

* Use of property assumptions can be beneficial in single-context mode for long-lived * objects with stable properties but recurrent shape changes due to properties being added * (e.g. global objects of a context), in which case a shape cache would be unstable while * the property assumption allows for a stable cache. * * @see Shape#getPropertyAssumption(Object) * @since 20.2.0 */ public Builder propertyAssumptions(boolean enable) { CompilerAsserts.neverPartOfCompilation(); this.propertyAssumptions = enable; return this; } /** * Sets shared data to be associated with the root shape and any derived shapes (e.g. a * {@code TruffleLanguage} instance). May be null (the default). * * @see Shape#getSharedData() * @since 20.2.0 */ public Builder sharedData(Object sharedData) { CompilerAsserts.neverPartOfCompilation(); this.sharedData = sharedData; return this; } /** * Sets an assumption that allows specializations on constant object instances with this * shape, as long as the assumption is valid. The assumption should be valid only if code is * not shared across contexts and invalidated when this is not longer true. The assumption * may be {@code null} in which case this feature is disabled (the default). * * @see #propertyAssumptions(boolean) * @since 20.2.0 */ public Builder singleContextAssumption(Assumption assumption) { CompilerAsserts.neverPartOfCompilation(); this.singleContextAssumption = assumption; return this; } /** * {@inheritDoc} * * @throws NullPointerException {@inheritDoc} * @throws IllegalArgumentException {@inheritDoc} * @see DynamicObjectLibrary#putConstant(DynamicObject, Object, Object, int) * @since 20.2.0 */ @Override public Builder addConstantProperty(Object key, Object value, int flags) { CompilerAsserts.neverPartOfCompilation(); Objects.requireNonNull(key, "key"); if (properties == null) { properties = EconomicMap.create(Equivalence.DEFAULT); } if (properties.containsKey(key)) { throw new IllegalArgumentException(String.format("Property already exists: %s.", key)); } properties.put(key, Pair.create(value, flags)); return this; } /** * Allows values to be implicitly cast from int to long in this shape and any derived * shapes. * * @see #layout(Class) * @since 20.2.0 */ public Builder allowImplicitCastIntToLong(boolean allow) { this.allowImplicitCastIntToLong = allow; return this; } /** * Allows values to be implicitly cast from int to double in this shape and any derived * shapes. * * @see #layout(Class) * @since 20.2.0 */ public Builder allowImplicitCastIntToDouble(boolean allow) { this.allowImplicitCastIntToDouble = allow; return this; } /** * Builds a new shape using the configuration of this builder. * * @since 20.2.0 */ public Shape build() { CompilerAsserts.neverPartOfCompilation(); int flags = shapeFlags; if (shared) { flags = shapeFlags | OBJECT_SHARED; } if (propertyAssumptions) { flags = shapeFlags | OBJECT_PROPERTY_ASSUMPTIONS; } int implicitCastFlags = (allowImplicitCastIntToDouble ? Layout.INT_TO_DOUBLE_FLAG : 0) | (allowImplicitCastIntToLong ? Layout.INT_TO_LONG_FLAG : 0); Shape shape = Layout.getFactory().createShape(new Object[]{layoutClass, implicitCastFlags, dynamicType, sharedData, flags, properties, singleContextAssumption}); assert shape.isShared() == shared && shape.getFlags() == shapeFlags && shape.getDynamicType() == dynamicType; return shape; } } /** * Creates a new derived shape builder that allows changing a root shape's flags and dynamic * type and adding constant properties. * * The builder instance is not thread-safe and must not be used from multiple threads at the * same time. * * @param baseShape the shape to be modified * @see Shape#newBuilder() * @since 20.2.0 */ public static DerivedBuilder newBuilder(Shape baseShape) { CompilerAsserts.neverPartOfCompilation(); return new DerivedBuilder(baseShape); } /** * Builder class to construct derived {@link Shape} instances. * * The builder instance is not thread-safe and must not be used from multiple threads at the * same time. * * @see Shape#newBuilder(Shape) * @since 20.2.0 */ @SuppressWarnings("hiding") public static final class DerivedBuilder extends AbstractBuilder { private final Shape baseShape; private Object dynamicType; private int shapeFlags; private EconomicMap properties; DerivedBuilder(Shape baseShape) { this.baseShape = baseShape; this.dynamicType = baseShape.getDynamicType(); this.shapeFlags = baseShape.getFlags(); } /** * {@inheritDoc} * * @throws NullPointerException {@inheritDoc} * @throws IllegalArgumentException {@inheritDoc} * @see DynamicObjectLibrary#getDynamicType(DynamicObject) * @see DynamicObjectLibrary#setDynamicType(DynamicObject, Object) * @since 20.2.0 */ @Override public DerivedBuilder dynamicType(Object dynamicType) { CompilerAsserts.neverPartOfCompilation(); this.dynamicType = checkDynamicType(dynamicType); return this; } /** * {@inheritDoc} * * @throws IllegalArgumentException {@inheritDoc} * @see DynamicObjectLibrary#getShapeFlags(DynamicObject) * @see DynamicObjectLibrary#setShapeFlags(DynamicObject, int) * @since 20.2.0 */ @Override public DerivedBuilder shapeFlags(int flags) { CompilerAsserts.neverPartOfCompilation(); this.shapeFlags = checkShapeFlags(flags); return this; } /** * {@inheritDoc} * * @throws NullPointerException {@inheritDoc} * @throws IllegalArgumentException {@inheritDoc} * @see DynamicObjectLibrary#putConstant(DynamicObject, Object, Object, int) * @since 20.2.0 */ @SuppressWarnings("deprecation") @Override public DerivedBuilder addConstantProperty(Object key, Object value, int flags) { CompilerAsserts.neverPartOfCompilation(); Objects.requireNonNull(key, "key"); if (properties == null) { properties = EconomicMap.create(Equivalence.DEFAULT); } if (baseShape.getProperty(key) != null || properties.containsKey(key)) { throw new IllegalArgumentException(String.format("Property already exists: %s.", key)); } Location location = baseShape.allocator().constantLocation(value); properties.put(key, Property.create(key, location, flags)); return this; } /** * Builds a derived shape from the base shape supplied to the constructor using the * configuration of this builder. * * @return a new or cached shape * @since 20.2.0 */ public Shape build() { CompilerAsserts.neverPartOfCompilation(); Shape derivedShape = baseShape; if (dynamicType != derivedShape.getDynamicType()) { derivedShape = derivedShape.setDynamicType(dynamicType); } if (shapeFlags != derivedShape.getFlags()) { derivedShape = derivedShape.setFlags(shapeFlags); } if (properties != null) { for (Property property : properties.getValues()) { derivedShape = derivedShape.addProperty(property); } } return derivedShape; } } /** * Constructor for subclasses. * * @since 0.8 or earlier */ protected Shape() { } /** * Get a property entry by key. * * @param key the identifier to look up * @return a Property object, or {@code null} if not found * @since 0.8 or earlier */ public abstract Property getProperty(Object key); /** * 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 0.8 or earlier * @deprecated Use {@link DynamicObjectLibrary#put} or {@link DynamicObjectLibrary#putWithFlags} * to add properties to an object. */ @Deprecated(since = "22.2") public abstract Shape addProperty(Property property); /** * Add or change property in the map, yielding a new or cached Shape object. * * @return the shape after defining the property * @since 0.8 or earlier * @deprecated Use {@link DynamicObjectLibrary#put(DynamicObject, Object, Object)} or * {@link DynamicObjectLibrary#putWithFlags(DynamicObject, Object, Object, int)}. */ @Deprecated(since = "22.2") public abstract Shape defineProperty(Object key, Object value, int flags); /** * Add or change property in the map, yielding a new or cached Shape object. * * @return the shape after defining the property * @since 0.8 or earlier * @deprecated Use {@link DynamicObjectLibrary#put(DynamicObject, Object, Object)} or * {@link DynamicObjectLibrary#putWithFlags(DynamicObject, Object, Object, int)} or * {@link DynamicObjectLibrary#putConstant(DynamicObject, Object, Object, int)} */ @Deprecated(since = "20.2") public abstract Shape defineProperty(Object key, Object value, int flags, @SuppressWarnings("deprecation") LocationFactory locationFactory); /** * An {@link Iterable} over the shape's properties in insertion order. * * @since 0.8 or earlier */ public abstract Iterable getProperties(); /** * Get a list of all properties that this Shape stores. * * Properties with a {@link HiddenKey} are not included. * * @return list of properties * @since 0.8 or earlier */ public abstract List getPropertyList(); /** * Returns all (also hidden) property objects in this shape. * * @param ascending desired order ({@code true} for insertion order, {@code false} for reverse * insertion order) * @since 0.8 or earlier */ public abstract List getPropertyListInternal(boolean ascending); /** * Get a list of all property keys in insertion order. * * * Properties with a {@link HiddenKey} are not included. * * @since 0.8 or earlier */ public abstract List getKeyList(); /** * Get all property keys in insertion order. * * @since 0.8 or earlier */ public abstract Iterable getKeys(); /** * Get an assumption that the shape is valid. * * @since 0.8 or earlier */ @Idempotent public abstract Assumption getValidAssumption(); /** * Check whether this shape is valid. * * @since 0.8 or earlier */ @NonIdempotent public abstract boolean isValid(); /** * Get an assumption that the shape is a leaf. * * @since 0.8 or earlier */ @NonIdempotent public abstract Assumption getLeafAssumption(); /** * Check whether this shape is a leaf in the transition graph, i.e. transitionless. * * @since 0.8 or earlier */ @NonIdempotent public abstract boolean isLeaf(); /** * @return the parent shape or {@code null} if none. * @since 0.8 or earlier * @deprecated no replacement, do not rely on a specific parent shape */ @Deprecated(since = "20.2") public abstract Shape getParent(); /** * Check whether the shape has a property with the given key. * * @since 0.8 or earlier */ public abstract boolean hasProperty(Object key); /** * Remove the given property from the shape. * * @since 0.8 or earlier * @deprecated Use {@link DynamicObjectLibrary#removeKey} to remove properties from an object. */ @Deprecated(since = "20.2") public abstract Shape removeProperty(Property property); /** * Replace a property in the shape. * * @since 0.8 or earlier * @deprecated Use {@link DynamicObjectLibrary#put} to replace properties in an object. */ @Deprecated(since = "20.2") public abstract Shape replaceProperty(Property oldProperty, Property newProperty); /** * Get the last property. * * @since 0.8 or earlier */ public abstract Property getLastProperty(); /** * Returns the language-specific shape flags previously set using * {@link DynamicObjectLibrary#setShapeFlags(DynamicObject, int)} or * {@link Shape.Builder#shapeFlags(int)}. If no shape flags were explicitly set, the default of * 0 is returned. * * These flags may be used to tag objects that possess characteristics that need to be queried * efficiently on fast and slow paths. For example, they can be used to mark objects as frozen. * * @see DynamicObjectLibrary#getShapeFlags(DynamicObject) * @see DynamicObjectLibrary#setShapeFlags(DynamicObject, int) * @see Shape.Builder#shapeFlags(int) * @since 20.2.0 */ @Idempotent public int getFlags() { CompilerAsserts.neverPartOfCompilation(); throw CompilerDirectives.shouldNotReachHere(); } /** * Returns a copy of the shape, with the shape flags set to {@code newFlags}. * * @param newFlags the new shape flags; an int value in the range from 0 to 255 (inclusive) * @throws IllegalArgumentException if the flags value is not in the supported range * @see Shape.Builder#shapeFlags(int) * @since 20.2.0 */ protected Shape setFlags(int newFlags) { CompilerAsserts.neverPartOfCompilation(); throw CompilerDirectives.shouldNotReachHere(); } /** * Obtain an {@link Allocator} instance for the purpose of allocating locations. * * @since 0.8 or earlier * @deprecated no replacement. */ @Deprecated(since = "22.2") public abstract Allocator allocator(); /** * Returns the number of properties in this shape. * * @since 0.8 or earlier */ public abstract int getPropertyCount(); /** * Get the shape's object type info. * * @since 0.8 or earlier * @see #getDynamicType() * @deprecated Deprecated since 20.3.0. Replaced by {@link #getDynamicType()}. */ @Deprecated(since = "20.3") @SuppressWarnings("deprecation") public abstract ObjectType getObjectType(); /** * Get the shape's dynamic object type identifier. * * @since 20.2.0 */ public Object getDynamicType() { CompilerAsserts.neverPartOfCompilation(); throw CompilerDirectives.shouldNotReachHere(); } /** * Returns a copy of the shape, with the dynamic object type identifier set to * {@code dynamicType}. * * @param dynamicType the new dynamic object type identifier * @throws NullPointerException if the argument is null. * @see Shape.Builder#dynamicType(Object) * @since 20.2.0 */ protected Shape setDynamicType(Object dynamicType) { CompilerAsserts.neverPartOfCompilation(); Objects.requireNonNull(dynamicType); throw CompilerDirectives.shouldNotReachHere(); } /** * Get the root shape. * * Planned to be deprecated. * * @since 0.8 or earlier */ public abstract Shape getRoot(); /** * Checks whether the given object's shape is identical to this shape. * * @since 0.8 or earlier */ public abstract boolean check(DynamicObject subject); /** * Get the shape's layout. * * @see Shape.Builder#layout(Class) * @since 0.8 or earlier * @deprecated since 21.1. You can get the shape's layout class using {@link #getLayoutClass()}. */ @Deprecated(since = "21.1") @SuppressWarnings("deprecation") public abstract Layout getLayout(); /** * Get the shape's layout class. * * @see Shape.Builder#layout(Class) * @since 21.1 */ @SuppressWarnings("deprecation") public Class getLayoutClass() { return getLayout().getType(); } /** * Get the shape's shared data. * * @see Shape.Builder#sharedData(Object) * @since 0.8 or earlier */ public abstract Object getSharedData(); /** * Change the shape's type, yielding a new shape. * * @since 0.8 or earlier * @deprecated No replacement. Use {@link DynamicObjectLibrary#setDynamicType} instead. */ @Deprecated(since = "22.2") public abstract Shape changeType(@SuppressWarnings("deprecation") ObjectType newOps); /** * Create a new {@link DynamicObject} instance with this shape. * * @throws UnsupportedOperationException if this layout does not support construction * @since 0.8 or earlier * @deprecated no replacement. */ @Deprecated(since = "22.2") public abstract DynamicObject newInstance(); /** * Create a {@link DynamicObjectFactory} for creating instances of this shape. * * @throws UnsupportedOperationException if this layout does not support construction * @since 0.8 or earlier * @deprecated no replacement. */ @SuppressWarnings("deprecation") @Deprecated(since = "22.2") public abstract DynamicObjectFactory createFactory(); /** * Get mutex object shared by related shapes, i.e. shapes with a common root. * * @since 0.8 or earlier * @deprecated no replacement. */ @Deprecated(since = "22.2") public abstract Object getMutex(); /** * Try to merge two related shapes to a more general shape that has the same properties and can * store at least the values of both shapes. * * @return this, other, or a new shape that is compatible with both shapes * @since 0.8 or earlier */ public abstract Shape tryMerge(Shape other); /** * Returns {@code true} if this shape is marked as shared. * * @see DynamicObjectLibrary#isShared(DynamicObject) * @see DynamicObjectLibrary#markShared(DynamicObject) * @see Shape.Builder#shared(boolean) * @since 0.18 */ @Idempotent public boolean isShared() { return false; } /** * Make a shared variant of this shape, to allow safe usage of this object between threads. * Shared shapes will not reuse storage locations for other fields. In combination with careful * synchronization on writes, this can prevent reading out-of-thin-air values. *

* Note: Where possible, avoid using this method and use * {@link DynamicObjectLibrary#markShared(DynamicObject)} instead. * * @return a cached and shared variant of this shape * @see #isShared() * @see DynamicObjectLibrary#markShared(DynamicObject) * @since 0.18 */ public Shape makeSharedShape() { CompilerAsserts.neverPartOfCompilation(); throw CompilerDirectives.shouldNotReachHere(); } /** * Returns {@code true} if this shape has instance properties (i.e., stored in the object). * * @since 20.2.0 */ @Idempotent protected boolean hasInstanceProperties() { return true; } /** * Gets a stable property assumption for the given property key. May be invalid. If a valid * assumption is returned, it may be used to assume this particular property is still absent or * present at the current storage location in objects of this shape. The assumption is * invalidated if a shape change is triggered because of a property with the given key was * added, removed, or changed, or a {@link DynamicObjectLibrary#resetShape resetShape}. * *

* Only applicable if {@linkplain Builder#propertyAssumptions(boolean) property assumptions} are * enabled for this shape, otherwise always returns an invalid assumption. * * @param key the property key of interest * @return an assumption that the property is stable or an invalid assumption * @see Shape.Builder#propertyAssumptions(boolean) * @since 20.2.0 */ public Assumption getPropertyAssumption(Object key) { return Assumption.NEVER_VALID; } /** * Tests if all properties in the shape match the provided predicate. May not evaluate the * predicate on all properties if a predicate did not match. If the shape does not contain any * properties, returns {@code true} and does not evaluate the predicate. * * @return {@code true} if the all properties match the predicate, else {@code false} * @since 20.2.0 */ public boolean allPropertiesMatch(@SuppressWarnings("unused") Predicate predicate) { CompilerAsserts.neverPartOfCompilation(); throw CompilerDirectives.shouldNotReachHere(); } /** * Makes a property getter for this shape and the given property key, if it exists. Otherwise, * returns {@code null}. * * Note that the returned {@link PropertyGetter} only accepts objects of this particular * {@link Shape}. * * @param key the identifier to look up * @return a {@link PropertyGetter}, or {@code null} if the property was not found in this shape * @since 22.2 */ @CompilerDirectives.TruffleBoundary public PropertyGetter makePropertyGetter(Object key) { Property property = getProperty(key); if (property == null) { return null; } return new PropertyGetter(this, property); } /** * Utility class to allocate locations in an object layout. * * @since 0.8 or earlier * @deprecated since 22.1, without replacement. Property locations are automatically allocated * by {@link DynamicObjectLibrary} methods; there's no need for manual allocation. */ @Deprecated(since = "22.2") public abstract static class Allocator { /** * @since 0.8 or earlier */ @Deprecated(since = "22.2") protected Allocator() { } /** @since 0.8 or earlier */ @Deprecated(since = "19.3") protected abstract Location locationForValue(Object value, boolean useFinal, boolean nonNull); /** * Create a new location compatible with the given initial value. * * Use {@link #locationForType(Class)} or {@link Shape#defineProperty(Object, Object, int)} * instead. * * @param value the initial value this location is going to be assigned * @since 0.8 or earlier */ @Deprecated(since = "20.2") public final Location locationForValue(Object value) { return locationForValue(value, false, value != null); } /** * Create a new location compatible with the given initial value. * * @param value the initial value this location is going to be assigned * @param modifiers additional restrictions and semantics * @since 0.8 or earlier * @deprecated use {@link #locationForType(Class, EnumSet)} or * {@link Shape#defineProperty(Object, Object, int)} instead */ @SuppressWarnings("deprecation") @Deprecated(since = "19.3") public final Location locationForValue(Object value, EnumSet modifiers) { assert value != null || !modifiers.contains(LocationModifier.NonNull); return locationForValue(value, modifiers.contains(LocationModifier.Final), modifiers.contains(LocationModifier.NonNull)); } /** @since 0.8 or earlier */ @Deprecated(since = "22.2") protected abstract Location locationForType(Class type, boolean useFinal, boolean nonNull); /** * Create a new location for a fixed type. It can only be assigned to values of this type. * * @param type the Java type this location must be compatible with (may be primitive) * @since 0.8 or earlier */ @Deprecated(since = "22.2") public final Location locationForType(Class type) { return locationForType(type, false, false); } /** * Create a new location for a fixed type. * * @param type the Java type this location must be compatible with (may be primitive) * @param modifiers additional restrictions and semantics * @since 0.8 or earlier */ @SuppressWarnings("deprecation") @Deprecated(since = "22.2") public final Location locationForType(Class type, EnumSet modifiers) { return locationForType(type, modifiers.contains(LocationModifier.Final), modifiers.contains(LocationModifier.NonNull)); } /** * Creates a new location from a constant value. The value is stored in the shape rather * than in the object. * * @since 0.8 or earlier */ @Deprecated(since = "22.2") public abstract Location constantLocation(Object value); /** * Creates a new declared location with a default value. A declared location only assumes a * type after the first set (initialization). * * @since 0.8 or earlier */ @Deprecated(since = "22.2") public abstract Location declaredLocation(Object value); /** * Reserves space for the given location, so that it will not be available to subsequently * allocated locations. * * @since 0.8 or earlier */ @Deprecated(since = "22.2") public abstract Allocator addLocation(Location location); /** * Creates an copy of this allocator state. * * @since 0.8 or earlier */ @Deprecated(since = "22.2") public abstract Allocator copy(); } }