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// Copyright 2006-2008 the V8 project authors. All rights reserved.
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above
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// copyright notice, this list of conditions and the following
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// disclaimer in the documentation and/or other materials provided
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// with the distribution.
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// * Neither the name of Google Inc. nor the names of its
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// contributors may be used to endorse or promote products derived
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// from this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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#ifndef V8_HANDLES_H_
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#define V8_HANDLES_H_
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#include "apiutils.h"
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namespace v8 {
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namespace internal {
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// ----------------------------------------------------------------------------
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// A Handle provides a reference to an object that survives relocation by
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// the garbage collector.
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// Handles are only valid within a HandleScope.
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// When a handle is created for an object a cell is allocated in the heap.
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template<typename T>
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class Handle {
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public:
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INLINE(explicit Handle(T** location)) { location_ = location; }
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INLINE(explicit Handle(T* obj));
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INLINE(Handle()) : location_(NULL) {}
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// Constructor for handling automatic up casting.
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// Ex. Handle<JSFunction> can be passed when Handle<Object> is expected.
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template <class S> Handle(Handle<S> handle) {
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#ifdef DEBUG
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T* a = NULL;
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S* b = NULL;
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a = b; // Fake assignment to enforce type checks.
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USE(a);
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#endif
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location_ = reinterpret_cast<T**>(handle.location());
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}
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INLINE(T* operator ->() const) { return operator*(); }
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// Check if this handle refers to the exact same object as the other handle.
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bool is_identical_to(const Handle<T> other) const {
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return operator*() == *other;
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}
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// Provides the C++ dereference operator.
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INLINE(T* operator*() const);
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// Returns the address to where the raw pointer is stored.
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T** location() const {
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ASSERT(location_ == NULL ||
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reinterpret_cast<Address>(*location_) != kZapValue);
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return location_;
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}
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template <class S> static Handle<T> cast(Handle<S> that) {
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T::cast(*that);
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return Handle<T>(reinterpret_cast<T**>(that.location()));
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}
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static Handle<T> null() { return Handle<T>(); }
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bool is_null() { return location_ == NULL; }
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// Closes the given scope, but lets this handle escape. See
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// implementation in api.h.
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inline Handle<T> EscapeFrom(v8::HandleScope* scope);
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private:
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T** location_;
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};
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// A handle-scope based variable. The value stored in the variable can change
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// over time. The value stored in the variable at any time is a root
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// for garbage collection.
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// The variable is backed by the current HandleScope.
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template <typename T>
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class HandleCell {
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public:
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// Create a new HandleCell holding the given value.
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explicit HandleCell(Handle<T> value);
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explicit HandleCell(T* value);
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// Create an alias of an existing HandleCell.
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explicit HandleCell(const HandleCell<T>& value)
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: location_(value.location_) { }
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INLINE(T* operator->() const) { return operator*(); }
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INLINE(T* operator*() const) {
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return *location_;
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}
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INLINE(void operator=(T* value)) {
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*location_ = value;
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}
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INLINE(void operator=(Handle<T> value)) {
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*location_ = *value;
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}
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INLINE(void operator=(const HandleCell<T>& value)) {
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*location_ = *value.location_;
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}
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// Extract the value of the variable and cast it to a give type.
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// This is typically used for calling methods on a more specialized type.
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template <typename S>
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inline S* cast() {
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S::cast(*location_);
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return *reinterpret_cast<S**>(location_);
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}
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Handle<T> ToHandle() const {
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return Handle<T>(*location_);
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}
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private:
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// Prevent implicit constructor from being created.
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HandleCell();
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T** location_;
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};
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// A stack-allocated class that governs a number of local handles.
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// After a handle scope has been created, all local handles will be
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// allocated within that handle scope until either the handle scope is
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// deleted or another handle scope is created. If there is already a
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// handle scope and a new one is created, all allocations will take
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// place in the new handle scope until it is deleted. After that,
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// new handles will again be allocated in the original handle scope.
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//
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// After the handle scope of a local handle has been deleted the
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// garbage collector will no longer track the object stored in the
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// handle and may deallocate it. The behavior of accessing a handle
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// for which the handle scope has been deleted is undefined.
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class HandleScope {
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public:
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HandleScope() : prev_next_(current_.next), prev_limit_(current_.limit) {
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current_.level++;
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}
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~HandleScope() {
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current_.next = prev_next_;
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current_.level--;
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if (current_.limit != prev_limit_) {
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current_.limit = prev_limit_;
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DeleteExtensions();
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}
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#ifdef DEBUG
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ZapRange(prev_next_, prev_limit_);
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#endif
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}
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// Counts the number of allocated handles.
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static int NumberOfHandles();
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// Creates a new handle with the given value.
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template <typename T>
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static inline T** CreateHandle(T* value) {
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internal::Object** cur = current_.next;
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if (cur == current_.limit) cur = Extend();
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// Update the current next field, set the value in the created
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// handle, and return the result.
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ASSERT(cur < current_.limit);
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current_.next = cur + 1;
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T** result = reinterpret_cast<T**>(cur);
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*result = value;
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return result;
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}
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// Deallocates any extensions used by the current scope.
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static void DeleteExtensions();
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static Address current_next_address();
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static Address current_limit_address();
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static Address current_level_address();
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private:
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// Prevent heap allocation or illegal handle scopes.
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HandleScope(const HandleScope&);
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void operator=(const HandleScope&);
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void* operator new(size_t size);
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void operator delete(void* size_t);
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static v8::ImplementationUtilities::HandleScopeData current_;
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Object** const prev_next_;
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Object** const prev_limit_;
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// Extend the handle scope making room for more handles.
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static internal::Object** Extend();
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// Zaps the handles in the half-open interval [start, end).
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static void ZapRange(internal::Object** start, internal::Object** end);
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friend class v8::HandleScope;
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friend class v8::ImplementationUtilities;
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};
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// ----------------------------------------------------------------------------
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// Handle operations.
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// They might invoke garbage collection. The result is an handle to
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// an object of expected type, or the handle is an error if running out
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// of space or encountering an internal error.
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void NormalizeProperties(Handle<JSObject> object,
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PropertyNormalizationMode mode,
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int expected_additional_properties);
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void NormalizeElements(Handle<JSObject> object);
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void TransformToFastProperties(Handle<JSObject> object,
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int unused_property_fields);
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void NumberDictionarySet(Handle<NumberDictionary> dictionary,
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uint32_t index,
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Handle<Object> value,
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PropertyDetails details);
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// Flattens a string.
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void FlattenString(Handle<String> str);
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// Flattens a string and returns the underlying external or sequential
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// string.
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Handle<String> FlattenGetString(Handle<String> str);
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Handle<Object> SetProperty(Handle<JSObject> object,
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Handle<String> key,
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Handle<Object> value,
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PropertyAttributes attributes);
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Handle<Object> SetProperty(Handle<Object> object,
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Handle<Object> key,
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Handle<Object> value,
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PropertyAttributes attributes);
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Handle<Object> ForceSetProperty(Handle<JSObject> object,
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Handle<Object> key,
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Handle<Object> value,
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PropertyAttributes attributes);
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Handle<Object> SetNormalizedProperty(Handle<JSObject> object,
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Handle<String> key,
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Handle<Object> value,
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PropertyDetails details);
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Handle<Object> ForceDeleteProperty(Handle<JSObject> object,
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Handle<Object> key);
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Handle<Object> SetLocalPropertyIgnoreAttributes(
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Handle<JSObject> object,
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Handle<String> key,
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Handle<Object> value,
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PropertyAttributes attributes);
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// Used to set local properties on the object we totally control
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// and which therefore has no accessors and alikes.
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void SetLocalPropertyNoThrow(Handle<JSObject> object,
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Handle<String> key,
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Handle<Object> value,
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PropertyAttributes attributes = NONE);
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Handle<Object> SetPropertyWithInterceptor(Handle<JSObject> object,
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Handle<String> key,
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Handle<Object> value,
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PropertyAttributes attributes);
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Handle<Object> SetElement(Handle<JSObject> object,
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uint32_t index,
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Handle<Object> value);
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Handle<Object> SetOwnElement(Handle<JSObject> object,
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uint32_t index,
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Handle<Object> value);
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Handle<Object> GetProperty(Handle<JSObject> obj,
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const char* name);
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Handle<Object> GetProperty(Handle<Object> obj,
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Handle<Object> key);
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Handle<Object> GetElement(Handle<Object> obj,
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uint32_t index);
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Handle<Object> GetPropertyWithInterceptor(Handle<JSObject> receiver,
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Handle<JSObject> holder,
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Handle<String> name,
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PropertyAttributes* attributes);
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Handle<Object> GetPrototype(Handle<Object> obj);
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Handle<Object> SetPrototype(Handle<JSObject> obj, Handle<Object> value);
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// Return the object's hidden properties object. If the object has no hidden
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// properties and create_if_needed is true, then a new hidden property object
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// will be allocated. Otherwise the Heap::undefined_value is returned.
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Handle<Object> GetHiddenProperties(Handle<JSObject> obj, bool create_if_needed);
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Handle<Object> DeleteElement(Handle<JSObject> obj, uint32_t index);
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Handle<Object> DeleteProperty(Handle<JSObject> obj, Handle<String> prop);
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Handle<Object> LookupSingleCharacterStringFromCode(uint32_t index);
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Handle<JSObject> Copy(Handle<JSObject> obj);
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Handle<Object> SetAccessor(Handle<JSObject> obj, Handle<AccessorInfo> info);
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Handle<FixedArray> AddKeysFromJSArray(Handle<FixedArray>,
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Handle<JSArray> array);
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// Get the JS object corresponding to the given script; create it
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// if none exists.
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Handle<JSValue> GetScriptWrapper(Handle<Script> script);
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// Script line number computations.
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void InitScriptLineEnds(Handle<Script> script);
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// For string calculates an array of line end positions. If the string
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// does not end with a new line character, this character may optionally be
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// imagined.
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Handle<FixedArray> CalculateLineEnds(Handle<String> string,
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bool with_imaginary_last_new_line);
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int GetScriptLineNumber(Handle<Script> script, int code_position);
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// The safe version does not make heap allocations but may work much slower.
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int GetScriptLineNumberSafe(Handle<Script> script, int code_position);
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// Computes the enumerable keys from interceptors. Used for debug mirrors and
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// by GetKeysInFixedArrayFor below.
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v8::Handle<v8::Array> GetKeysForNamedInterceptor(Handle<JSObject> receiver,
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Handle<JSObject> object);
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v8::Handle<v8::Array> GetKeysForIndexedInterceptor(Handle<JSObject> receiver,
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Handle<JSObject> object);
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enum KeyCollectionType { LOCAL_ONLY, INCLUDE_PROTOS };
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// Computes the enumerable keys for a JSObject. Used for implementing
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// "for (n in object) { }".
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Handle<FixedArray> GetKeysInFixedArrayFor(Handle<JSObject> object,
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KeyCollectionType type);
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Handle<JSArray> GetKeysFor(Handle<JSObject> object);
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Handle<FixedArray> GetEnumPropertyKeys(Handle<JSObject> object,
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bool cache_result);
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// Computes the union of keys and return the result.
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// Used for implementing "for (n in object) { }"
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Handle<FixedArray> UnionOfKeys(Handle<FixedArray> first,
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Handle<FixedArray> second);
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Handle<String> SubString(Handle<String> str,
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int start,
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int end,
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PretenureFlag pretenure = NOT_TENURED);
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// Sets the expected number of properties for the function's instances.
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void SetExpectedNofProperties(Handle<JSFunction> func, int nof);
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// Sets the prototype property for a function instance.
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void SetPrototypeProperty(Handle<JSFunction> func, Handle<JSObject> value);
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// Sets the expected number of properties based on estimate from compiler.
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void SetExpectedNofPropertiesFromEstimate(Handle<SharedFunctionInfo> shared,
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int estimate);
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Handle<JSGlobalProxy> ReinitializeJSGlobalProxy(
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Handle<JSFunction> constructor,
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Handle<JSGlobalProxy> global);
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Handle<Object> SetPrototype(Handle<JSFunction> function,
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Handle<Object> prototype);
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// Does lazy compilation of the given function. Returns true on success and
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// false if the compilation resulted in a stack overflow.
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enum ClearExceptionFlag { KEEP_EXCEPTION, CLEAR_EXCEPTION };
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bool EnsureCompiled(Handle<SharedFunctionInfo> shared,
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ClearExceptionFlag flag);
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bool CompileLazyShared(Handle<SharedFunctionInfo> shared,
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ClearExceptionFlag flag);
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bool CompileLazy(Handle<JSFunction> function, ClearExceptionFlag flag);
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bool CompileLazyInLoop(Handle<JSFunction> function, ClearExceptionFlag flag);
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bool CompileOptimized(Handle<JSFunction> function,
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int osr_ast_id,
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ClearExceptionFlag flag);
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class NoHandleAllocation BASE_EMBEDDED {
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public:
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#ifndef DEBUG
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|
NoHandleAllocation() {}
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~NoHandleAllocation() {}
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#else
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inline NoHandleAllocation();
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inline ~NoHandleAllocation();
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private:
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int level_;
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#endif
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};
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// ----------------------------------------------------------------------------
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// Stack allocated wrapper call for optimizing adding multiple
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|
|
// properties to an object.
|
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|
|
class OptimizedObjectForAddingMultipleProperties BASE_EMBEDDED {
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|
public:
|
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|
OptimizedObjectForAddingMultipleProperties(Handle<JSObject> object,
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|
|
int expected_property_count,
|
|
|
|
bool condition = true);
|
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|
|
~OptimizedObjectForAddingMultipleProperties();
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|
|
private:
|
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|
bool has_been_transformed_; // Tells whether the object has been transformed.
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int unused_property_fields_; // Captures the unused number of field.
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|
|
Handle<JSObject> object_; // The object being optimized.
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};
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} } // namespace v8::internal
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#endif // V8_HANDLES_H_
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