factory.cc 30.8 KB
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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
// modification, are permitted provided that the following conditions are
// met:
//
//     * Redistributions of source code must retain the above copyright
//       notice, this list of conditions and the following disclaimer.
//     * Redistributions in binary form must reproduce the above
//       copyright notice, this list of conditions and the following
//       disclaimer in the documentation and/or other materials provided
//       with the distribution.
//     * Neither the name of Google Inc. nor the names of its
//       contributors may be used to endorse or promote products derived
//       from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

#include "v8.h"

#include "api.h"
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#include "debug.h"
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#include "execution.h"
#include "factory.h"
#include "macro-assembler.h"

namespace v8 { namespace internal {


Handle<FixedArray> Factory::NewFixedArray(int size, PretenureFlag pretenure) {
  ASSERT(0 <= size);
  CALL_HEAP_FUNCTION(Heap::AllocateFixedArray(size, pretenure), FixedArray);
}


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Handle<FixedArray> Factory::NewFixedArrayWithHoles(int size) {
  ASSERT(0 <= size);
  CALL_HEAP_FUNCTION(Heap::AllocateFixedArrayWithHoles(size), FixedArray);
}


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Handle<Dictionary> Factory::NewDictionary(int at_least_space_for) {
  ASSERT(0 <= at_least_space_for);
  CALL_HEAP_FUNCTION(Dictionary::Allocate(at_least_space_for), Dictionary);
}


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Handle<DescriptorArray> Factory::NewDescriptorArray(int number_of_descriptors) {
  ASSERT(0 <= number_of_descriptors);
  CALL_HEAP_FUNCTION(DescriptorArray::Allocate(number_of_descriptors),
                     DescriptorArray);
}


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// Symbols are created in the old generation (data space).
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Handle<String> Factory::LookupSymbol(Vector<const char> string) {
  CALL_HEAP_FUNCTION(Heap::LookupSymbol(string), String);
}


Handle<String> Factory::NewStringFromAscii(Vector<const char> string,
                                           PretenureFlag pretenure) {
  CALL_HEAP_FUNCTION(Heap::AllocateStringFromAscii(string, pretenure), String);
}

Handle<String> Factory::NewStringFromUtf8(Vector<const char> string,
                                          PretenureFlag pretenure) {
  CALL_HEAP_FUNCTION(Heap::AllocateStringFromUtf8(string, pretenure), String);
}


Handle<String> Factory::NewStringFromTwoByte(Vector<const uc16> string) {
  CALL_HEAP_FUNCTION(Heap::AllocateStringFromTwoByte(string), String);
}


Handle<String> Factory::NewRawTwoByteString(int length,
                                            PretenureFlag pretenure) {
  CALL_HEAP_FUNCTION(Heap::AllocateRawTwoByteString(length, pretenure), String);
}


Handle<String> Factory::NewConsString(Handle<String> first,
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                                      Handle<String> second) {
  if (first->length() == 0) return second;
  if (second->length() == 0) return first;
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  CALL_HEAP_FUNCTION(Heap::AllocateConsString(*first, *second), String);
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}


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Handle<String> Factory::NewStringSlice(Handle<String> str,
                                       int begin,
                                       int end) {
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  CALL_HEAP_FUNCTION(str->Slice(begin, end), String);
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}


Handle<String> Factory::NewExternalStringFromAscii(
    ExternalAsciiString::Resource* resource) {
  CALL_HEAP_FUNCTION(Heap::AllocateExternalStringFromAscii(resource), String);
}


Handle<String> Factory::NewExternalStringFromTwoByte(
    ExternalTwoByteString::Resource* resource) {
  CALL_HEAP_FUNCTION(Heap::AllocateExternalStringFromTwoByte(resource), String);
}


Handle<Context> Factory::NewGlobalContext() {
  CALL_HEAP_FUNCTION(Heap::AllocateGlobalContext(), Context);
}


Handle<Context> Factory::NewFunctionContext(int length,
                                            Handle<JSFunction> closure) {
  CALL_HEAP_FUNCTION(Heap::AllocateFunctionContext(length, *closure), Context);
}


Handle<Context> Factory::NewWithContext(Handle<Context> previous,
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                                        Handle<JSObject> extension,
                                        bool is_catch_context) {
  CALL_HEAP_FUNCTION(Heap::AllocateWithContext(*previous,
                                               *extension,
                                               is_catch_context),
                     Context);
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}


Handle<Struct> Factory::NewStruct(InstanceType type) {
  CALL_HEAP_FUNCTION(Heap::AllocateStruct(type), Struct);
}


Handle<AccessorInfo> Factory::NewAccessorInfo() {
  Handle<AccessorInfo> info =
      Handle<AccessorInfo>::cast(NewStruct(ACCESSOR_INFO_TYPE));
  info->set_flag(0);  // Must clear the flag, it was initialized as undefined.
  return info;
}


Handle<Script> Factory::NewScript(Handle<String> source) {
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  // Generate id for this script.
  int id;
  if (Heap::last_script_id()->IsUndefined()) {
    // Script ids start from one.
    id = 1;
  } else {
    // Increment id, wrap when positive smi is exhausted.
    id = Smi::cast(Heap::last_script_id())->value();
    id++;
    if (!Smi::IsValid(id)) {
      id = 0;
    }
  }
  Heap::SetLastScriptId(Smi::FromInt(id));
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  // Create and initialize script object.
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  Handle<Script> script = Handle<Script>::cast(NewStruct(SCRIPT_TYPE));
  script->set_source(*source);
  script->set_name(Heap::undefined_value());
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  script->set_id(Heap::last_script_id());
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  script->set_line_offset(Smi::FromInt(0));
  script->set_column_offset(Smi::FromInt(0));
  script->set_type(Smi::FromInt(SCRIPT_TYPE_NORMAL));
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  script->set_wrapper(*Factory::NewProxy(0, TENURED));
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  script->set_line_ends(Heap::undefined_value());
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  return script;
}


Handle<Proxy> Factory::NewProxy(Address addr, PretenureFlag pretenure) {
  CALL_HEAP_FUNCTION(Heap::AllocateProxy(addr, pretenure), Proxy);
}


Handle<Proxy> Factory::NewProxy(const AccessorDescriptor* desc) {
  return NewProxy((Address) desc, TENURED);
}


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Handle<ByteArray> Factory::NewByteArray(int length, PretenureFlag pretenure) {
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  ASSERT(0 <= length);
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  CALL_HEAP_FUNCTION(Heap::AllocateByteArray(length, pretenure), ByteArray);
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}


Handle<Map> Factory::NewMap(InstanceType type, int instance_size) {
  CALL_HEAP_FUNCTION(Heap::AllocateMap(type, instance_size), Map);
}


Handle<JSObject> Factory::NewFunctionPrototype(Handle<JSFunction> function) {
  CALL_HEAP_FUNCTION(Heap::AllocateFunctionPrototype(*function), JSObject);
}


Handle<Map> Factory::CopyMap(Handle<Map> src) {
  CALL_HEAP_FUNCTION(src->Copy(), Map);
}


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Handle<Map> Factory::CopyMap(Handle<Map> src,
                             int extra_inobject_properties) {
  Handle<Map> copy = CopyMap(src);
  // Check that we do not overflow the instance size when adding the
  // extra inobject properties.
  int instance_size_delta = extra_inobject_properties * kPointerSize;
  int max_instance_size_delta =
      JSObject::kMaxInstanceSize - copy->instance_size();
  if (instance_size_delta > max_instance_size_delta) {
    // If the instance size overflows, we allocate as many properties
    // as we can as inobject properties.
    instance_size_delta = max_instance_size_delta;
    extra_inobject_properties = max_instance_size_delta >> kPointerSizeLog2;
  }
  // Adjust the map with the extra inobject properties.
  int inobject_properties =
      copy->inobject_properties() + extra_inobject_properties;
  copy->set_inobject_properties(inobject_properties);
  copy->set_unused_property_fields(inobject_properties);
  copy->set_instance_size(copy->instance_size() + instance_size_delta);
  return copy;
}

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Handle<Map> Factory::CopyMapDropTransitions(Handle<Map> src) {
  CALL_HEAP_FUNCTION(src->CopyDropTransitions(), Map);
}


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Handle<FixedArray> Factory::CopyFixedArray(Handle<FixedArray> array) {
  CALL_HEAP_FUNCTION(array->Copy(), FixedArray);
}


Handle<JSFunction> Factory::BaseNewFunctionFromBoilerplate(
    Handle<JSFunction> boilerplate,
    Handle<Map> function_map) {
  ASSERT(boilerplate->IsBoilerplate());
  ASSERT(!boilerplate->has_initial_map());
  ASSERT(!boilerplate->has_prototype());
  ASSERT(boilerplate->properties() == Heap::empty_fixed_array());
  ASSERT(boilerplate->elements() == Heap::empty_fixed_array());
  CALL_HEAP_FUNCTION(Heap::AllocateFunction(*function_map,
                                            boilerplate->shared(),
                                            Heap::the_hole_value()),
                     JSFunction);
}


Handle<JSFunction> Factory::NewFunctionFromBoilerplate(
    Handle<JSFunction> boilerplate,
    Handle<Context> context) {
  Handle<JSFunction> result =
      BaseNewFunctionFromBoilerplate(boilerplate, Top::function_map());
  result->set_context(*context);
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  int number_of_literals = boilerplate->NumberOfLiterals();
  Handle<FixedArray> literals =
      Factory::NewFixedArray(number_of_literals, TENURED);
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  if (number_of_literals > 0) {
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    // Store the object, regexp and array functions in the literals
    // array prefix.  These functions will be used when creating
    // object, regexp and array literals in this function.
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    literals->set(JSFunction::kLiteralGlobalContextIndex,
                  context->global_context());
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  }
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  result->set_literals(*literals);
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  ASSERT(!result->IsBoilerplate());
  return result;
}


Handle<Object> Factory::NewNumber(double value,
                                  PretenureFlag pretenure) {
  CALL_HEAP_FUNCTION(Heap::NumberFromDouble(value, pretenure), Object);
}


Handle<Object> Factory::NewNumberFromInt(int value) {
  CALL_HEAP_FUNCTION(Heap::NumberFromInt32(value), Object);
}


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Handle<Object> Factory::NewNumberFromUint(uint32_t value) {
  CALL_HEAP_FUNCTION(Heap::NumberFromUint32(value), Object);
}


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Handle<JSObject> Factory::NewNeanderObject() {
  CALL_HEAP_FUNCTION(Heap::AllocateJSObjectFromMap(Heap::neander_map()),
                     JSObject);
}


Handle<Object> Factory::NewTypeError(const char* type,
                                     Vector< Handle<Object> > args) {
  return NewError("MakeTypeError", type, args);
}


Handle<Object> Factory::NewTypeError(Handle<String> message) {
  return NewError("$TypeError", message);
}


Handle<Object> Factory::NewRangeError(const char* type,
                                      Vector< Handle<Object> > args) {
  return NewError("MakeRangeError", type, args);
}


Handle<Object> Factory::NewRangeError(Handle<String> message) {
  return NewError("$RangeError", message);
}


Handle<Object> Factory::NewSyntaxError(const char* type, Handle<JSArray> args) {
  return NewError("MakeSyntaxError", type, args);
}


Handle<Object> Factory::NewSyntaxError(Handle<String> message) {
  return NewError("$SyntaxError", message);
}


Handle<Object> Factory::NewReferenceError(const char* type,
                                          Vector< Handle<Object> > args) {
  return NewError("MakeReferenceError", type, args);
}


Handle<Object> Factory::NewReferenceError(Handle<String> message) {
  return NewError("$ReferenceError", message);
}


Handle<Object> Factory::NewError(const char* maker, const char* type,
    Vector< Handle<Object> > args) {
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  v8::HandleScope scope;  // Instantiate a closeable HandleScope for EscapeFrom.
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  Handle<FixedArray> array = Factory::NewFixedArray(args.length());
  for (int i = 0; i < args.length(); i++) {
    array->set(i, *args[i]);
  }
  Handle<JSArray> object = Factory::NewJSArrayWithElements(array);
  Handle<Object> result = NewError(maker, type, object);
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  return result.EscapeFrom(&scope);
}


Handle<Object> Factory::NewEvalError(const char* type,
                                     Vector< Handle<Object> > args) {
  return NewError("MakeEvalError", type, args);
}


Handle<Object> Factory::NewError(const char* type,
                                 Vector< Handle<Object> > args) {
  return NewError("MakeError", type, args);
}


Handle<Object> Factory::NewError(const char* maker,
                                 const char* type,
                                 Handle<JSArray> args) {
  Handle<String> make_str = Factory::LookupAsciiSymbol(maker);
  Handle<JSFunction> fun =
      Handle<JSFunction>(
          JSFunction::cast(
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              Top::builtins()->GetProperty(*make_str)));
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  Handle<Object> type_obj = Factory::LookupAsciiSymbol(type);
  Object** argv[2] = { type_obj.location(),
                       Handle<Object>::cast(args).location() };

  // Invoke the JavaScript factory method. If an exception is thrown while
  // running the factory method, use the exception as the result.
  bool caught_exception;
  Handle<Object> result = Execution::TryCall(fun,
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                                             Top::builtins(),
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                                             2,
                                             argv,
                                             &caught_exception);
  return result;
}


Handle<Object> Factory::NewError(Handle<String> message) {
  return NewError("$Error", message);
}


Handle<Object> Factory::NewError(const char* constructor,
                                 Handle<String> message) {
  Handle<String> constr = Factory::LookupAsciiSymbol(constructor);
  Handle<JSFunction> fun =
      Handle<JSFunction>(
          JSFunction::cast(
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              Top::builtins()->GetProperty(*constr)));
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  Object** argv[1] = { Handle<Object>::cast(message).location() };

  // Invoke the JavaScript factory method. If an exception is thrown while
  // running the factory method, use the exception as the result.
  bool caught_exception;
  Handle<Object> result = Execution::TryCall(fun,
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                                             Top::builtins(),
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                                             1,
                                             argv,
                                             &caught_exception);
  return result;
}


Handle<JSFunction> Factory::NewFunction(Handle<String> name,
                                        InstanceType type,
                                        int instance_size,
                                        Handle<Code> code,
                                        bool force_initial_map) {
  // Allocate the function
  Handle<JSFunction> function = NewFunction(name, the_hole_value());
  function->set_code(*code);

  if (force_initial_map ||
      type != JS_OBJECT_TYPE ||
      instance_size != JSObject::kHeaderSize) {
    Handle<Map> initial_map = NewMap(type, instance_size);
    Handle<JSObject> prototype = NewFunctionPrototype(function);
    initial_map->set_prototype(*prototype);
    function->set_initial_map(*initial_map);
    initial_map->set_constructor(*function);
  } else {
    ASSERT(!function->has_initial_map());
    ASSERT(!function->has_prototype());
  }

  return function;
}


Handle<JSFunction> Factory::NewFunctionBoilerplate(Handle<String> name,
                                                   int number_of_literals,
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                                                   bool contains_array_literal,
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                                                   Handle<Code> code) {
  Handle<JSFunction> function = NewFunctionBoilerplate(name);
  function->set_code(*code);
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  int literals_array_size = number_of_literals;
  // If the function contains object, regexp or array literals,
  // allocate extra space for a literals array prefix containing the
  // object, regexp and array constructor functions.
  if (number_of_literals > 0 || contains_array_literal) {
    literals_array_size += JSFunction::kLiteralsPrefixSize;
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  }
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  Handle<FixedArray> literals =
      Factory::NewFixedArray(literals_array_size, TENURED);
  function->set_literals(*literals);
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  ASSERT(!function->has_initial_map());
  ASSERT(!function->has_prototype());
  return function;
}


Handle<JSFunction> Factory::NewFunctionBoilerplate(Handle<String> name) {
  Handle<SharedFunctionInfo> shared = NewSharedFunctionInfo(name);
  CALL_HEAP_FUNCTION(Heap::AllocateFunction(Heap::boilerplate_function_map(),
                                            *shared,
                                            Heap::the_hole_value()),
                     JSFunction);
}


Handle<JSFunction> Factory::NewFunctionWithPrototype(Handle<String> name,
                                                     InstanceType type,
                                                     int instance_size,
                                                     Handle<JSObject> prototype,
                                                     Handle<Code> code,
                                                     bool force_initial_map) {
  // Allocate the function
  Handle<JSFunction> function = NewFunction(name, prototype);

  function->set_code(*code);

  if (force_initial_map ||
      type != JS_OBJECT_TYPE ||
      instance_size != JSObject::kHeaderSize) {
    Handle<Map> initial_map = NewMap(type, instance_size);
    function->set_initial_map(*initial_map);
    initial_map->set_constructor(*function);
  }

  // Set function.prototype and give the prototype a constructor
  // property that refers to the function.
  SetPrototypeProperty(function, prototype);
  SetProperty(prototype, Factory::constructor_symbol(), function, DONT_ENUM);
  return function;
}

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Handle<Code> Factory::NewCode(const CodeDesc& desc, ScopeInfo<>* sinfo,
                              Code::Flags flags, Handle<Object> self_ref) {
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  CALL_HEAP_FUNCTION(Heap::CreateCode(desc, sinfo, flags, self_ref), Code);
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}


Handle<Code> Factory::CopyCode(Handle<Code> code) {
  CALL_HEAP_FUNCTION(Heap::CopyCode(*code), Code);
}


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static inline Object* DoCopyInsert(DescriptorArray* array,
                                   String* key,
                                   Object* value,
                                   PropertyAttributes attributes) {
  CallbacksDescriptor desc(key, value, attributes);
  Object* obj = array->CopyInsert(&desc, REMOVE_TRANSITIONS);
  return obj;
}
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// Allocate the new array.
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Handle<DescriptorArray> Factory::CopyAppendProxyDescriptor(
    Handle<DescriptorArray> array,
    Handle<String> key,
    Handle<Object> value,
    PropertyAttributes attributes) {
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  CALL_HEAP_FUNCTION(DoCopyInsert(*array, *key, *value, attributes),
                     DescriptorArray);
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}


Handle<String> Factory::SymbolFromString(Handle<String> value) {
  CALL_HEAP_FUNCTION(Heap::LookupSymbol(*value), String);
}


Handle<DescriptorArray> Factory::CopyAppendCallbackDescriptors(
    Handle<DescriptorArray> array,
    Handle<Object> descriptors) {
  v8::NeanderArray callbacks(descriptors);
  int nof_callbacks = callbacks.length();
  Handle<DescriptorArray> result =
      NewDescriptorArray(array->number_of_descriptors() + nof_callbacks);

  // Number of descriptors added to the result so far.
  int descriptor_count = 0;

  // Copy the descriptors from the array.
  DescriptorWriter w(*result);
  for (DescriptorReader r(*array); !r.eos(); r.advance()) {
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    if (!r.IsNullDescriptor()) {
      w.WriteFrom(&r);
    }
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    descriptor_count++;
  }

  // Number of duplicates detected.
  int duplicates = 0;

  // Fill in new callback descriptors.  Process the callbacks from
  // back to front so that the last callback with a given name takes
  // precedence over previously added callbacks with that name.
  for (int i = nof_callbacks - 1; i >= 0; i--) {
    Handle<AccessorInfo> entry =
        Handle<AccessorInfo>(AccessorInfo::cast(callbacks.get(i)));
    // Ensure the key is a symbol before writing into the instance descriptor.
    Handle<String> key =
        SymbolFromString(Handle<String>(String::cast(entry->name())));
    // Check if a descriptor with this name already exists before writing.
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    if (result->LinearSearch(*key, descriptor_count) ==
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        DescriptorArray::kNotFound) {
      CallbacksDescriptor desc(*key, *entry, entry->property_attributes());
      w.Write(&desc);
      descriptor_count++;
    } else {
      duplicates++;
    }
  }

  // If duplicates were detected, allocate a result of the right size
  // and transfer the elements.
  if (duplicates > 0) {
    Handle<DescriptorArray> new_result =
        NewDescriptorArray(result->number_of_descriptors() - duplicates);
    DescriptorWriter w(*new_result);
    DescriptorReader r(*result);
    while (!w.eos()) {
      w.WriteFrom(&r);
      r.advance();
    }
    result = new_result;
  }

  // Sort the result before returning.
  result->Sort();
  return result;
}


Handle<JSObject> Factory::NewJSObject(Handle<JSFunction> constructor,
                                      PretenureFlag pretenure) {
  CALL_HEAP_FUNCTION(Heap::AllocateJSObject(*constructor, pretenure), JSObject);
}


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Handle<JSObject> Factory::NewJSObjectFromMap(Handle<Map> map) {
  CALL_HEAP_FUNCTION(Heap::AllocateJSObjectFromMap(*map, NOT_TENURED),
                     JSObject);
}


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Handle<JSArray> Factory::NewJSArray(int length,
                                    PretenureFlag pretenure) {
  Handle<JSObject> obj = NewJSObject(Top::array_function(), pretenure);
  CALL_HEAP_FUNCTION(Handle<JSArray>::cast(obj)->Initialize(length), JSArray);
}


Handle<JSArray> Factory::NewJSArrayWithElements(Handle<FixedArray> elements,
                                                PretenureFlag pretenure) {
  Handle<JSArray> result =
      Handle<JSArray>::cast(NewJSObject(Top::array_function(), pretenure));
  result->SetContent(*elements);
  return result;
}


Handle<SharedFunctionInfo> Factory::NewSharedFunctionInfo(Handle<String> name) {
  CALL_HEAP_FUNCTION(Heap::AllocateSharedFunctionInfo(*name),
                     SharedFunctionInfo);
}


Handle<Dictionary> Factory::DictionaryAtNumberPut(Handle<Dictionary> dictionary,
                                                  uint32_t key,
                                                  Handle<Object> value) {
  CALL_HEAP_FUNCTION(dictionary->AtNumberPut(key, *value), Dictionary);
}


Handle<JSFunction> Factory::NewFunctionHelper(Handle<String> name,
                                              Handle<Object> prototype) {
  Handle<SharedFunctionInfo> function_share = NewSharedFunctionInfo(name);
  CALL_HEAP_FUNCTION(Heap::AllocateFunction(*Top::function_map(),
                                            *function_share,
                                            *prototype),
                     JSFunction);
}


Handle<JSFunction> Factory::NewFunction(Handle<String> name,
                                        Handle<Object> prototype) {
  Handle<JSFunction> fun = NewFunctionHelper(name, prototype);
  fun->set_context(Top::context()->global_context());
  return fun;
}


Handle<Object> Factory::ToObject(Handle<Object> object,
                                 Handle<Context> global_context) {
  CALL_HEAP_FUNCTION(object->ToObject(*global_context), Object);
}


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Handle<DebugInfo> Factory::NewDebugInfo(Handle<SharedFunctionInfo> shared) {
  // Get the original code of the function.
  Handle<Code> code(shared->code());

  // Create a copy of the code before allocating the debug info object to avoid
  // allocation while setting up the debug info object.
  Handle<Code> original_code(*Factory::CopyCode(code));

  // Allocate initial fixed array for active break points before allocating the
  // debug info object to avoid allocation while setting up the debug info
  // object.
  Handle<FixedArray> break_points(
      Factory::NewFixedArray(Debug::kEstimatedNofBreakPointsInFunction));

  // Create and set up the debug info object. Debug info contains function, a
  // copy of the original code, the executing code and initial fixed array for
  // active break points.
  Handle<DebugInfo> debug_info =
      Handle<DebugInfo>::cast(Factory::NewStruct(DEBUG_INFO_TYPE));
  debug_info->set_shared(*shared);
  debug_info->set_original_code(*original_code);
  debug_info->set_code(*code);
  debug_info->set_break_points(*break_points);

  // Link debug info to function.
  shared->set_debug_info(*debug_info);

  return debug_info;
}


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Handle<JSObject> Factory::NewArgumentsObject(Handle<Object> callee,
                                             int length) {
  CALL_HEAP_FUNCTION(Heap::AllocateArgumentsObject(*callee, length), JSObject);
}


Handle<JSFunction> Factory::CreateApiFunction(
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    Handle<FunctionTemplateInfo> obj, ApiInstanceType instance_type) {
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  Handle<Code> code = Handle<Code>(Builtins::builtin(Builtins::HandleApiCall));

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  int internal_field_count = 0;
  if (!obj->instance_template()->IsUndefined()) {
    Handle<ObjectTemplateInfo> instance_template =
        Handle<ObjectTemplateInfo>(
            ObjectTemplateInfo::cast(obj->instance_template()));
    internal_field_count =
        Smi::cast(instance_template->internal_field_count())->value();
  }

  int instance_size = kPointerSize * internal_field_count;
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  InstanceType type = INVALID_TYPE;
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  switch (instance_type) {
    case JavaScriptObject:
      type = JS_OBJECT_TYPE;
      instance_size += JSObject::kHeaderSize;
      break;
    case InnerGlobalObject:
      type = JS_GLOBAL_OBJECT_TYPE;
      instance_size += JSGlobalObject::kSize;
      break;
    case OuterGlobalObject:
      type = JS_GLOBAL_PROXY_TYPE;
      instance_size += JSGlobalProxy::kSize;
      break;
    default:
      break;
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  }
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  ASSERT(type != INVALID_TYPE);
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  Handle<JSFunction> result =
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      Factory::NewFunction(Factory::empty_symbol(),
                           type,
                           instance_size,
                           code,
                           true);
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  // Set class name.
  Handle<Object> class_name = Handle<Object>(obj->class_name());
  if (class_name->IsString()) {
    result->shared()->set_instance_class_name(*class_name);
    result->shared()->set_name(*class_name);
  }

  Handle<Map> map = Handle<Map>(result->initial_map());

  // Mark as undetectable if needed.
  if (obj->undetectable()) {
    map->set_is_undetectable();
  }

  // Mark as hidden for the __proto__ accessor if needed.
  if (obj->hidden_prototype()) {
    map->set_is_hidden_prototype();
  }

  // Mark as needs_access_check if needed.
  if (obj->needs_access_check()) {
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    map->set_is_access_check_needed(true);
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  }

  // Set interceptor information in the map.
  if (!obj->named_property_handler()->IsUndefined()) {
    map->set_has_named_interceptor();
  }
  if (!obj->indexed_property_handler()->IsUndefined()) {
    map->set_has_indexed_interceptor();
  }

  // Set instance call-as-function information in the map.
  if (!obj->instance_call_handler()->IsUndefined()) {
    map->set_has_instance_call_handler();
  }

  result->shared()->set_function_data(*obj);
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  result->shared()->DontAdaptArguments();
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  // Recursively copy parent templates' accessors, 'data' may be modified.
  Handle<DescriptorArray> array =
      Handle<DescriptorArray>(map->instance_descriptors());
  while (true) {
    Handle<Object> props = Handle<Object>(obj->property_accessors());
    if (!props->IsUndefined()) {
      array = Factory::CopyAppendCallbackDescriptors(array, props);
    }
    Handle<Object> parent = Handle<Object>(obj->parent_template());
    if (parent->IsUndefined()) break;
    obj = Handle<FunctionTemplateInfo>::cast(parent);
  }
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  if (!array->IsEmpty()) {
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    map->set_instance_descriptors(*array);
  }

  return result;
}


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Handle<MapCache> Factory::NewMapCache(int at_least_space_for) {
  CALL_HEAP_FUNCTION(MapCache::Allocate(at_least_space_for), MapCache);
}


static Object* UpdateMapCacheWith(Context* context,
                                  FixedArray* keys,
                                  Map* map) {
  Object* result = MapCache::cast(context->map_cache())->Put(keys, map);
  if (!result->IsFailure()) context->set_map_cache(MapCache::cast(result));
  return result;
}


Handle<MapCache> Factory::AddToMapCache(Handle<Context> context,
                                        Handle<FixedArray> keys,
                                        Handle<Map> map) {
  CALL_HEAP_FUNCTION(UpdateMapCacheWith(*context, *keys, *map), MapCache);
}


Handle<Map> Factory::ObjectLiteralMapFromCache(Handle<Context> context,
                                               Handle<FixedArray> keys) {
  if (context->map_cache()->IsUndefined()) {
    // Allocate the new map cache for the global context.
    Handle<MapCache> new_cache = NewMapCache(24);
    context->set_map_cache(*new_cache);
  }
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  // Check to see whether there is a matching element in the cache.
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  Handle<MapCache> cache =
      Handle<MapCache>(MapCache::cast(context->map_cache()));
  Handle<Object> result = Handle<Object>(cache->Lookup(*keys));
  if (result->IsMap()) return Handle<Map>::cast(result);
  // Create a new map and add it to the cache.
  Handle<Map> map =
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      CopyMap(Handle<Map>(context->object_function()->initial_map()),
              keys->length());
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  AddToMapCache(context, keys, map);
  return Handle<Map>(map);
}


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void Factory::SetRegExpAtomData(Handle<JSRegExp> regexp,
                                JSRegExp::Type type,
                                Handle<String> source,
                                JSRegExp::Flags flags,
                                Handle<Object> data) {
  Handle<FixedArray> store = NewFixedArray(JSRegExp::kAtomDataSize);

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  store->set(JSRegExp::kTagIndex, Smi::FromInt(type));
  store->set(JSRegExp::kSourceIndex, *source);
  store->set(JSRegExp::kFlagsIndex, Smi::FromInt(flags.value()));
  store->set(JSRegExp::kAtomPatternIndex, *data);
  regexp->set_data(*store);
}

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void Factory::SetRegExpIrregexpData(Handle<JSRegExp> regexp,
                                    JSRegExp::Type type,
                                    Handle<String> source,
                                    JSRegExp::Flags flags,
                                    int capture_count) {
  Handle<FixedArray> store = NewFixedArray(JSRegExp::kIrregexpDataSize);

  store->set(JSRegExp::kTagIndex, Smi::FromInt(type));
  store->set(JSRegExp::kSourceIndex, *source);
  store->set(JSRegExp::kFlagsIndex, Smi::FromInt(flags.value()));
  store->set(JSRegExp::kIrregexpASCIICodeIndex, Heap::the_hole_value());
  store->set(JSRegExp::kIrregexpUC16CodeIndex, Heap::the_hole_value());
  store->set(JSRegExp::kIrregexpMaxRegisterCountIndex, Smi::FromInt(0));
  store->set(JSRegExp::kIrregexpCaptureCountIndex,
             Smi::FromInt(capture_count));
  regexp->set_data(*store);
}


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void Factory::ConfigureInstance(Handle<FunctionTemplateInfo> desc,
                                Handle<JSObject> instance,
                                bool* pending_exception) {
  // Configure the instance by adding the properties specified by the
  // instance template.
  Handle<Object> instance_template = Handle<Object>(desc->instance_template());
  if (!instance_template->IsUndefined()) {
    Execution::ConfigureInstance(instance,
                                 instance_template,
                                 pending_exception);
  } else {
    *pending_exception = false;
  }
}


} }  // namespace v8::internal