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node/deps/v8/src/objects.h

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Upgrade to v8 1.2.7
16 years ago
// Copyright 2006-2009 the V8 project authors. All rights reserved.
import full versions of dependency libraries!
16 years ago
// 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.
#ifndef V8_OBJECTS_H_
#define V8_OBJECTS_H_
#include "builtins.h"
#include "code-stubs.h"
#include "smart-pointer.h"
#include "unicode-inl.h"
Upgrade v8 to 1.3.16 and apply my V8 patch for debugging.
15 years ago
#if V8_TARGET_ARCH_ARM
#include "arm/constants-arm.h"
#endif
import full versions of dependency libraries!
16 years ago
//
// All object types in the V8 JavaScript are described in this file.
//
// Inheritance hierarchy:
// - Object
// - Smi (immediate small integer)
// - Failure (immediate for marking failed operation)
// - HeapObject (superclass for everything allocated in the heap)
// - JSObject
// - JSArray
// - JSRegExp
// - JSFunction
// - GlobalObject
// - JSGlobalObject
// - JSBuiltinsObject
// - JSGlobalProxy
// - JSValue
// - Array
// - ByteArray
Upgrade V8 to 1.3.1
15 years ago
// - PixelArray
Upgrade v8 to 1.3.17
15 years ago
// - ExternalArray
// - ExternalByteArray
// - ExternalUnsignedByteArray
// - ExternalShortArray
// - ExternalUnsignedShortArray
// - ExternalIntArray
// - ExternalUnsignedIntArray
// - ExternalFloatArray
import full versions of dependency libraries!
16 years ago
// - FixedArray
// - DescriptorArray
// - HashTable
// - Dictionary
// - SymbolTable
// - CompilationCacheTable
// - MapCache
// - Context
// - GlobalContext
// - String
// - SeqString
// - SeqAsciiString
// - SeqTwoByteString
// - ConsString
// - SlicedString
// - ExternalString
// - ExternalAsciiString
// - ExternalTwoByteString
// - HeapNumber
// - Code
// - Map
// - Oddball
// - Proxy
// - SharedFunctionInfo
// - Struct
// - AccessorInfo
// - AccessCheckInfo
// - InterceptorInfo
// - CallHandlerInfo
Upgrade to v8 1.2.7
16 years ago
// - TemplateInfo
// - FunctionTemplateInfo
// - ObjectTemplateInfo
// - Script
import full versions of dependency libraries!
16 years ago
// - SignatureInfo
// - TypeSwitchInfo
// - DebugInfo
// - BreakPointInfo
//
// Formats of Object*:
// Smi: [31 bit signed int] 0
// HeapObject: [32 bit direct pointer] (4 byte aligned) | 01
// Failure: [30 bit signed int] 11
// Ecma-262 3rd 8.6.1
enum PropertyAttributes {
NONE = v8::None,
READ_ONLY = v8::ReadOnly,
DONT_ENUM = v8::DontEnum,
DONT_DELETE = v8::DontDelete,
ABSENT = 16 // Used in runtime to indicate a property is absent.
// ABSENT can never be stored in or returned from a descriptor's attributes
// bitfield. It is only used as a return value meaning the attributes of
// a non-existent property.
};
Upgrade to v8 1.2.7
16 years ago
namespace v8 {
namespace internal {
import full versions of dependency libraries!
16 years ago
// PropertyDetails captures type and attributes for a property.
// They are used both in property dictionaries and instance descriptors.
class PropertyDetails BASE_EMBEDDED {
public:
PropertyDetails(PropertyAttributes attributes,
PropertyType type,
int index = 0) {
ASSERT(TypeField::is_valid(type));
ASSERT(AttributesField::is_valid(attributes));
ASSERT(IndexField::is_valid(index));
value_ = TypeField::encode(type)
| AttributesField::encode(attributes)
| IndexField::encode(index);
ASSERT(type == this->type());
ASSERT(attributes == this->attributes());
ASSERT(index == this->index());
}
// Conversion for storing details as Object*.
inline PropertyDetails(Smi* smi);
inline Smi* AsSmi();
PropertyType type() { return TypeField::decode(value_); }
bool IsTransition() {
PropertyType t = type();
ASSERT(t != INTERCEPTOR);
return t == MAP_TRANSITION || t == CONSTANT_TRANSITION;
}
bool IsProperty() {
return type() < FIRST_PHANTOM_PROPERTY_TYPE;
}
PropertyAttributes attributes() { return AttributesField::decode(value_); }
int index() { return IndexField::decode(value_); }
Upgrade V8 to 1.2.14
16 years ago
inline PropertyDetails AsDeleted();
import full versions of dependency libraries!
16 years ago
static bool IsValidIndex(int index) { return IndexField::is_valid(index); }
bool IsReadOnly() { return (attributes() & READ_ONLY) != 0; }
bool IsDontDelete() { return (attributes() & DONT_DELETE) != 0; }
bool IsDontEnum() { return (attributes() & DONT_ENUM) != 0; }
Upgrade V8 to 1.2.14
16 years ago
bool IsDeleted() { return DeletedField::decode(value_) != 0;}
import full versions of dependency libraries!
16 years ago
// Bit fields in value_ (type, shift, size). Must be public so the
// constants can be embedded in generated code.
class TypeField: public BitField<PropertyType, 0, 3> {};
class AttributesField: public BitField<PropertyAttributes, 3, 3> {};
Upgrade V8 to 1.2.14
16 years ago
class DeletedField: public BitField<uint32_t, 6, 1> {};
class IndexField: public BitField<uint32_t, 7, 31-7> {};
import full versions of dependency libraries!
16 years ago
static const int kInitialIndex = 1;
private:
uint32_t value_;
};
// Setter that skips the write barrier if mode is SKIP_WRITE_BARRIER.
enum WriteBarrierMode { SKIP_WRITE_BARRIER, UPDATE_WRITE_BARRIER };
// PropertyNormalizationMode is used to specify whether to keep
// inobject properties when normalizing properties of a JSObject.
enum PropertyNormalizationMode {
CLEAR_INOBJECT_PROPERTIES,
KEEP_INOBJECT_PROPERTIES
};
// All Maps have a field instance_type containing a InstanceType.
// It describes the type of the instances.
//
// As an example, a JavaScript object is a heap object and its map
// instance_type is JS_OBJECT_TYPE.
//
// The names of the string instance types are intended to systematically
// mirror their encoding in the instance_type field of the map. The length
// (SHORT, MEDIUM, or LONG) is always mentioned. The default encoding is
// considered TWO_BYTE. It is not mentioned in the name. ASCII encoding is
// mentioned explicitly in the name. Likewise, the default representation is
// considered sequential. It is not mentioned in the name. The other
// representations (eg, CONS, SLICED, EXTERNAL) are explicitly mentioned.
// Finally, the string is either a SYMBOL_TYPE (if it is a symbol) or a
// STRING_TYPE (if it is not a symbol).
//
// NOTE: The following things are some that depend on the string types having
// instance_types that are less than those of all other types:
// HeapObject::Size, HeapObject::IterateBody, the typeof operator, and
// Object::IsString.
//
// NOTE: Everything following JS_VALUE_TYPE is considered a
// JSObject for GC purposes. The first four entries here have typeof
// 'object', whereas JS_FUNCTION_TYPE has typeof 'function'.
Upgrade v8 to 1.3.14
15 years ago
#define INSTANCE_TYPE_LIST_ALL(V) \
import full versions of dependency libraries!
16 years ago
V(SHORT_SYMBOL_TYPE) \
V(MEDIUM_SYMBOL_TYPE) \
V(LONG_SYMBOL_TYPE) \
V(SHORT_ASCII_SYMBOL_TYPE) \
V(MEDIUM_ASCII_SYMBOL_TYPE) \
V(LONG_ASCII_SYMBOL_TYPE) \
V(SHORT_CONS_SYMBOL_TYPE) \
V(MEDIUM_CONS_SYMBOL_TYPE) \
V(LONG_CONS_SYMBOL_TYPE) \
V(SHORT_CONS_ASCII_SYMBOL_TYPE) \
V(MEDIUM_CONS_ASCII_SYMBOL_TYPE) \
V(LONG_CONS_ASCII_SYMBOL_TYPE) \
V(SHORT_SLICED_SYMBOL_TYPE) \
V(MEDIUM_SLICED_SYMBOL_TYPE) \
V(LONG_SLICED_SYMBOL_TYPE) \
V(SHORT_SLICED_ASCII_SYMBOL_TYPE) \
V(MEDIUM_SLICED_ASCII_SYMBOL_TYPE) \
V(LONG_SLICED_ASCII_SYMBOL_TYPE) \
V(SHORT_EXTERNAL_SYMBOL_TYPE) \
V(MEDIUM_EXTERNAL_SYMBOL_TYPE) \
V(LONG_EXTERNAL_SYMBOL_TYPE) \
V(SHORT_EXTERNAL_ASCII_SYMBOL_TYPE) \
V(MEDIUM_EXTERNAL_ASCII_SYMBOL_TYPE) \
V(LONG_EXTERNAL_ASCII_SYMBOL_TYPE) \
V(SHORT_STRING_TYPE) \
V(MEDIUM_STRING_TYPE) \
V(LONG_STRING_TYPE) \
V(SHORT_ASCII_STRING_TYPE) \
V(MEDIUM_ASCII_STRING_TYPE) \
V(LONG_ASCII_STRING_TYPE) \
V(SHORT_CONS_STRING_TYPE) \
V(MEDIUM_CONS_STRING_TYPE) \
V(LONG_CONS_STRING_TYPE) \
V(SHORT_CONS_ASCII_STRING_TYPE) \
V(MEDIUM_CONS_ASCII_STRING_TYPE) \
V(LONG_CONS_ASCII_STRING_TYPE) \
V(SHORT_SLICED_STRING_TYPE) \
V(MEDIUM_SLICED_STRING_TYPE) \
V(LONG_SLICED_STRING_TYPE) \
V(SHORT_SLICED_ASCII_STRING_TYPE) \
V(MEDIUM_SLICED_ASCII_STRING_TYPE) \
V(LONG_SLICED_ASCII_STRING_TYPE) \
V(SHORT_EXTERNAL_STRING_TYPE) \
V(MEDIUM_EXTERNAL_STRING_TYPE) \
V(LONG_EXTERNAL_STRING_TYPE) \
V(SHORT_EXTERNAL_ASCII_STRING_TYPE) \
V(MEDIUM_EXTERNAL_ASCII_STRING_TYPE) \
V(LONG_EXTERNAL_ASCII_STRING_TYPE) \
V(LONG_PRIVATE_EXTERNAL_ASCII_STRING_TYPE) \
\
V(MAP_TYPE) \
V(HEAP_NUMBER_TYPE) \
V(FIXED_ARRAY_TYPE) \
V(CODE_TYPE) \
Upgrade V8 to 1.2.14
16 years ago
V(JS_GLOBAL_PROPERTY_CELL_TYPE) \
import full versions of dependency libraries!
16 years ago
V(ODDBALL_TYPE) \
V(PROXY_TYPE) \
V(BYTE_ARRAY_TYPE) \
Upgrade V8 to 1.3.1
15 years ago
V(PIXEL_ARRAY_TYPE) \
Upgrade v8 to 1.3.17
15 years ago
/* Note: the order of these external array */ \
/* types is relied upon in */ \
/* Object::IsExternalArray(). */ \
V(EXTERNAL_BYTE_ARRAY_TYPE) \
V(EXTERNAL_UNSIGNED_BYTE_ARRAY_TYPE) \
V(EXTERNAL_SHORT_ARRAY_TYPE) \
V(EXTERNAL_UNSIGNED_SHORT_ARRAY_TYPE) \
V(EXTERNAL_INT_ARRAY_TYPE) \
V(EXTERNAL_UNSIGNED_INT_ARRAY_TYPE) \
V(EXTERNAL_FLOAT_ARRAY_TYPE) \
import full versions of dependency libraries!
16 years ago
V(FILLER_TYPE) \
\
V(ACCESSOR_INFO_TYPE) \
V(ACCESS_CHECK_INFO_TYPE) \
V(INTERCEPTOR_INFO_TYPE) \
V(SHARED_FUNCTION_INFO_TYPE) \
V(CALL_HANDLER_INFO_TYPE) \
V(FUNCTION_TEMPLATE_INFO_TYPE) \
V(OBJECT_TEMPLATE_INFO_TYPE) \
V(SIGNATURE_INFO_TYPE) \
V(TYPE_SWITCH_INFO_TYPE) \
V(SCRIPT_TYPE) \
\
V(JS_VALUE_TYPE) \
V(JS_OBJECT_TYPE) \
V(JS_CONTEXT_EXTENSION_OBJECT_TYPE) \
V(JS_GLOBAL_OBJECT_TYPE) \
V(JS_BUILTINS_OBJECT_TYPE) \
V(JS_GLOBAL_PROXY_TYPE) \
V(JS_ARRAY_TYPE) \
V(JS_REGEXP_TYPE) \
\
V(JS_FUNCTION_TYPE) \
Upgrade v8 to 1.3.14
15 years ago
#ifdef ENABLE_DEBUGGER_SUPPORT
#define INSTANCE_TYPE_LIST_DEBUGGER(V) \
V(DEBUG_INFO_TYPE) \
V(BREAK_POINT_INFO_TYPE)
#else
#define INSTANCE_TYPE_LIST_DEBUGGER(V)
#endif
#define INSTANCE_TYPE_LIST(V) \
INSTANCE_TYPE_LIST_ALL(V) \
INSTANCE_TYPE_LIST_DEBUGGER(V)
import full versions of dependency libraries!
16 years ago
Upgrade V8 to 1.2.14
16 years ago
import full versions of dependency libraries!
16 years ago
// Since string types are not consecutive, this macro is used to
// iterate over them.
#define STRING_TYPE_LIST(V) \
Upgrade V8 to 1.2.14
16 years ago
V(SHORT_SYMBOL_TYPE, \
SeqTwoByteString::kAlignedSize, \
short_symbol, \
ShortSymbol) \
V(MEDIUM_SYMBOL_TYPE, \
SeqTwoByteString::kAlignedSize, \
medium_symbol, \
MediumSymbol) \
V(LONG_SYMBOL_TYPE, \
SeqTwoByteString::kAlignedSize, \
long_symbol, \
LongSymbol) \
V(SHORT_ASCII_SYMBOL_TYPE, \
SeqAsciiString::kAlignedSize, \
short_ascii_symbol, \
ShortAsciiSymbol) \
Upgrade to v8 1.2.7
16 years ago
V(MEDIUM_ASCII_SYMBOL_TYPE, \
SeqAsciiString::kAlignedSize, \
Upgrade V8 to 1.2.14
16 years ago
medium_ascii_symbol, \
MediumAsciiSymbol) \
V(LONG_ASCII_SYMBOL_TYPE, \
SeqAsciiString::kAlignedSize, \
long_ascii_symbol, \
LongAsciiSymbol) \
V(SHORT_CONS_SYMBOL_TYPE, \
ConsString::kSize, \
short_cons_symbol, \
ShortConsSymbol) \
V(MEDIUM_CONS_SYMBOL_TYPE, \
ConsString::kSize, \
medium_cons_symbol, \
MediumConsSymbol) \
V(LONG_CONS_SYMBOL_TYPE, \
ConsString::kSize, \
long_cons_symbol, \
LongConsSymbol) \
V(SHORT_CONS_ASCII_SYMBOL_TYPE, \
ConsString::kSize, \
short_cons_ascii_symbol, \
ShortConsAsciiSymbol) \
V(MEDIUM_CONS_ASCII_SYMBOL_TYPE, \
ConsString::kSize, \
medium_cons_ascii_symbol, \
MediumConsAsciiSymbol) \
V(LONG_CONS_ASCII_SYMBOL_TYPE, \
ConsString::kSize, \
long_cons_ascii_symbol, \
LongConsAsciiSymbol) \
V(SHORT_SLICED_SYMBOL_TYPE, \
SlicedString::kSize, \
short_sliced_symbol, \
ShortSlicedSymbol) \
V(MEDIUM_SLICED_SYMBOL_TYPE, \
SlicedString::kSize, \
medium_sliced_symbol, \
MediumSlicedSymbol) \
V(LONG_SLICED_SYMBOL_TYPE, \
SlicedString::kSize, \
long_sliced_symbol, \
LongSlicedSymbol) \
import full versions of dependency libraries!
16 years ago
V(SHORT_SLICED_ASCII_SYMBOL_TYPE, \
SlicedString::kSize, \
Upgrade V8 to 1.2.14
16 years ago
short_sliced_ascii_symbol, \
ShortSlicedAsciiSymbol) \
import full versions of dependency libraries!
16 years ago
V(MEDIUM_SLICED_ASCII_SYMBOL_TYPE, \
SlicedString::kSize, \
Upgrade V8 to 1.2.14
16 years ago
medium_sliced_ascii_symbol, \
MediumSlicedAsciiSymbol) \
import full versions of dependency libraries!
16 years ago
V(LONG_SLICED_ASCII_SYMBOL_TYPE, \
SlicedString::kSize, \
Upgrade V8 to 1.2.14
16 years ago
long_sliced_ascii_symbol, \
LongSlicedAsciiSymbol) \
import full versions of dependency libraries!
16 years ago
V(SHORT_EXTERNAL_SYMBOL_TYPE, \
ExternalTwoByteString::kSize, \
Upgrade V8 to 1.2.14
16 years ago
short_external_symbol, \
ShortExternalSymbol) \
import full versions of dependency libraries!
16 years ago
V(MEDIUM_EXTERNAL_SYMBOL_TYPE, \
ExternalTwoByteString::kSize, \
Upgrade V8 to 1.2.14
16 years ago
medium_external_symbol, \
MediumExternalSymbol) \
import full versions of dependency libraries!
16 years ago
V(LONG_EXTERNAL_SYMBOL_TYPE, \
ExternalTwoByteString::kSize, \
Upgrade V8 to 1.2.14
16 years ago
long_external_symbol, \
LongExternalSymbol) \
import full versions of dependency libraries!
16 years ago
V(SHORT_EXTERNAL_ASCII_SYMBOL_TYPE, \
ExternalAsciiString::kSize, \
Upgrade V8 to 1.2.14
16 years ago
short_external_ascii_symbol, \
ShortExternalAsciiSymbol) \
import full versions of dependency libraries!
16 years ago
V(MEDIUM_EXTERNAL_ASCII_SYMBOL_TYPE, \
ExternalAsciiString::kSize, \
Upgrade V8 to 1.2.14
16 years ago
medium_external_ascii_symbol, \
MediumExternalAsciiSymbol) \
import full versions of dependency libraries!
16 years ago
V(LONG_EXTERNAL_ASCII_SYMBOL_TYPE, \
ExternalAsciiString::kSize, \
Upgrade V8 to 1.2.14
16 years ago
long_external_ascii_symbol, \
LongExternalAsciiSymbol) \
V(SHORT_STRING_TYPE, \
SeqTwoByteString::kAlignedSize, \
short_string, \
ShortString) \
V(MEDIUM_STRING_TYPE, \
SeqTwoByteString::kAlignedSize, \
medium_string, \
MediumString) \
V(LONG_STRING_TYPE, \
SeqTwoByteString::kAlignedSize, \
long_string, \
LongString) \
V(SHORT_ASCII_STRING_TYPE, \
SeqAsciiString::kAlignedSize, \
short_ascii_string, \
ShortAsciiString) \
Upgrade to v8 1.2.7
16 years ago
V(MEDIUM_ASCII_STRING_TYPE, \
SeqAsciiString::kAlignedSize, \
Upgrade V8 to 1.2.14
16 years ago
medium_ascii_string, \
MediumAsciiString) \
V(LONG_ASCII_STRING_TYPE, \
SeqAsciiString::kAlignedSize, \
long_ascii_string, \
LongAsciiString) \
V(SHORT_CONS_STRING_TYPE, \
ConsString::kSize, \
short_cons_string, \
ShortConsString) \
V(MEDIUM_CONS_STRING_TYPE, \
ConsString::kSize, \
medium_cons_string, \
MediumConsString) \
V(LONG_CONS_STRING_TYPE, \
ConsString::kSize, \
long_cons_string, \
LongConsString) \
V(SHORT_CONS_ASCII_STRING_TYPE, \
ConsString::kSize, \
short_cons_ascii_string, \
ShortConsAsciiString) \
V(MEDIUM_CONS_ASCII_STRING_TYPE, \
ConsString::kSize, \
medium_cons_ascii_string, \
MediumConsAsciiString) \
V(LONG_CONS_ASCII_STRING_TYPE, \
ConsString::kSize, \
long_cons_ascii_string, \
LongConsAsciiString) \
V(SHORT_SLICED_STRING_TYPE, \
SlicedString::kSize, \
short_sliced_string, \
ShortSlicedString) \
V(MEDIUM_SLICED_STRING_TYPE, \
SlicedString::kSize, \
medium_sliced_string, \
MediumSlicedString) \
V(LONG_SLICED_STRING_TYPE, \
SlicedString::kSize, \
long_sliced_string, \
LongSlicedString) \
import full versions of dependency libraries!
16 years ago
V(SHORT_SLICED_ASCII_STRING_TYPE, \
SlicedString::kSize, \
Upgrade V8 to 1.2.14
16 years ago
short_sliced_ascii_string, \
ShortSlicedAsciiString) \
import full versions of dependency libraries!
16 years ago
V(MEDIUM_SLICED_ASCII_STRING_TYPE, \
SlicedString::kSize, \
Upgrade V8 to 1.2.14
16 years ago
medium_sliced_ascii_string, \
MediumSlicedAsciiString) \
import full versions of dependency libraries!
16 years ago
V(LONG_SLICED_ASCII_STRING_TYPE, \
SlicedString::kSize, \
Upgrade V8 to 1.2.14
16 years ago
long_sliced_ascii_string, \
LongSlicedAsciiString) \
import full versions of dependency libraries!
16 years ago
V(SHORT_EXTERNAL_STRING_TYPE, \
ExternalTwoByteString::kSize, \
Upgrade V8 to 1.2.14
16 years ago
short_external_string, \
ShortExternalString) \
import full versions of dependency libraries!
16 years ago
V(MEDIUM_EXTERNAL_STRING_TYPE, \
ExternalTwoByteString::kSize, \
Upgrade V8 to 1.2.14
16 years ago
medium_external_string, \
MediumExternalString) \
import full versions of dependency libraries!
16 years ago
V(LONG_EXTERNAL_STRING_TYPE, \
ExternalTwoByteString::kSize, \
Upgrade V8 to 1.2.14
16 years ago
long_external_string, \
LongExternalString) \
import full versions of dependency libraries!
16 years ago
V(SHORT_EXTERNAL_ASCII_STRING_TYPE, \
ExternalAsciiString::kSize, \
Upgrade V8 to 1.2.14
16 years ago
short_external_ascii_string, \
ShortExternalAsciiString) \
import full versions of dependency libraries!
16 years ago
V(MEDIUM_EXTERNAL_ASCII_STRING_TYPE, \
ExternalAsciiString::kSize, \
Upgrade V8 to 1.2.14
16 years ago
medium_external_ascii_string, \
MediumExternalAsciiString) \
import full versions of dependency libraries!
16 years ago
V(LONG_EXTERNAL_ASCII_STRING_TYPE, \
ExternalAsciiString::kSize, \
Upgrade V8 to 1.2.14
16 years ago
long_external_ascii_string, \
LongExternalAsciiString)
import full versions of dependency libraries!
16 years ago
// A struct is a simple object a set of object-valued fields. Including an
// object type in this causes the compiler to generate most of the boilerplate
// code for the class including allocation and garbage collection routines,
// casts and predicates. All you need to define is the class, methods and
// object verification routines. Easy, no?
//
// Note that for subtle reasons related to the ordering or numerical values of
// type tags, elements in this list have to be added to the INSTANCE_TYPE_LIST
// manually.
Upgrade v8 to version 1.2.3.
16 years ago
#define STRUCT_LIST_ALL(V) \
import full versions of dependency libraries!
16 years ago
V(ACCESSOR_INFO, AccessorInfo, accessor_info) \
V(ACCESS_CHECK_INFO, AccessCheckInfo, access_check_info) \
V(INTERCEPTOR_INFO, InterceptorInfo, interceptor_info) \
V(CALL_HANDLER_INFO, CallHandlerInfo, call_handler_info) \
V(FUNCTION_TEMPLATE_INFO, FunctionTemplateInfo, function_template_info) \
V(OBJECT_TEMPLATE_INFO, ObjectTemplateInfo, object_template_info) \
V(SIGNATURE_INFO, SignatureInfo, signature_info) \
V(TYPE_SWITCH_INFO, TypeSwitchInfo, type_switch_info) \
V(SCRIPT, Script, script)
Upgrade v8 to version 1.2.3.
16 years ago
#ifdef ENABLE_DEBUGGER_SUPPORT
#define STRUCT_LIST_DEBUGGER(V) \
V(DEBUG_INFO, DebugInfo, debug_info) \
V(BREAK_POINT_INFO, BreakPointInfo, break_point_info)
#else
#define STRUCT_LIST_DEBUGGER(V)
#endif
#define STRUCT_LIST(V) \
STRUCT_LIST_ALL(V) \
STRUCT_LIST_DEBUGGER(V)
import full versions of dependency libraries!
16 years ago
// We use the full 8 bits of the instance_type field to encode heap object
// instance types. The high-order bit (bit 7) is set if the object is not a
// string, and cleared if it is a string.
const uint32_t kIsNotStringMask = 0x80;
const uint32_t kStringTag = 0x0;
const uint32_t kNotStringTag = 0x80;
// If bit 7 is clear, bit 5 indicates that the string is a symbol (if set) or
// not (if cleared).
const uint32_t kIsSymbolMask = 0x20;
const uint32_t kNotSymbolTag = 0x0;
const uint32_t kSymbolTag = 0x20;
// If bit 7 is clear, bits 3 and 4 are the string's size (short, medium or
// long). These values are very special in that they are also used to shift
// the length field to get the length, removing the hash value. This avoids
// using if or switch when getting the length of a string.
const uint32_t kStringSizeMask = 0x18;
const uint32_t kShortStringTag = 0x18;
const uint32_t kMediumStringTag = 0x10;
const uint32_t kLongStringTag = 0x00;
// If bit 7 is clear then bit 2 indicates whether the string consists of
// two-byte characters or one-byte characters.
const uint32_t kStringEncodingMask = 0x4;
const uint32_t kTwoByteStringTag = 0x0;
const uint32_t kAsciiStringTag = 0x4;
// If bit 7 is clear, the low-order 2 bits indicate the representation
// of the string.
const uint32_t kStringRepresentationMask = 0x03;
enum StringRepresentationTag {
kSeqStringTag = 0x0,
kConsStringTag = 0x1,
kSlicedStringTag = 0x2,
kExternalStringTag = 0x3
};
// A ConsString with an empty string as the right side is a candidate
// for being shortcut by the garbage collector unless it is a
// symbol. It's not common to have non-flat symbols, so we do not
// shortcut them thereby avoiding turning symbols into strings. See
// heap.cc and mark-compact.cc.
const uint32_t kShortcutTypeMask =
kIsNotStringMask |
kIsSymbolMask |
kStringRepresentationMask;
const uint32_t kShortcutTypeTag = kConsStringTag;
enum InstanceType {
SHORT_SYMBOL_TYPE = kShortStringTag | kSymbolTag | kSeqStringTag,
MEDIUM_SYMBOL_TYPE = kMediumStringTag | kSymbolTag | kSeqStringTag,
LONG_SYMBOL_TYPE = kLongStringTag | kSymbolTag | kSeqStringTag,
SHORT_ASCII_SYMBOL_TYPE =
kShortStringTag | kAsciiStringTag | kSymbolTag | kSeqStringTag,
MEDIUM_ASCII_SYMBOL_TYPE =
kMediumStringTag | kAsciiStringTag | kSymbolTag | kSeqStringTag,
LONG_ASCII_SYMBOL_TYPE =
kLongStringTag | kAsciiStringTag | kSymbolTag | kSeqStringTag,
SHORT_CONS_SYMBOL_TYPE = kShortStringTag | kSymbolTag | kConsStringTag,
MEDIUM_CONS_SYMBOL_TYPE = kMediumStringTag | kSymbolTag | kConsStringTag,
LONG_CONS_SYMBOL_TYPE = kLongStringTag | kSymbolTag | kConsStringTag,
SHORT_CONS_ASCII_SYMBOL_TYPE =
kShortStringTag | kAsciiStringTag | kSymbolTag | kConsStringTag,
MEDIUM_CONS_ASCII_SYMBOL_TYPE =
kMediumStringTag | kAsciiStringTag | kSymbolTag | kConsStringTag,
LONG_CONS_ASCII_SYMBOL_TYPE =
kLongStringTag | kAsciiStringTag | kSymbolTag | kConsStringTag,
SHORT_SLICED_SYMBOL_TYPE = kShortStringTag | kSymbolTag | kSlicedStringTag,
MEDIUM_SLICED_SYMBOL_TYPE = kMediumStringTag | kSymbolTag | kSlicedStringTag,
LONG_SLICED_SYMBOL_TYPE = kLongStringTag | kSymbolTag | kSlicedStringTag,
SHORT_SLICED_ASCII_SYMBOL_TYPE =
kShortStringTag | kAsciiStringTag | kSymbolTag | kSlicedStringTag,
MEDIUM_SLICED_ASCII_SYMBOL_TYPE =
kMediumStringTag | kAsciiStringTag | kSymbolTag | kSlicedStringTag,
LONG_SLICED_ASCII_SYMBOL_TYPE =
kLongStringTag | kAsciiStringTag | kSymbolTag | kSlicedStringTag,
SHORT_EXTERNAL_SYMBOL_TYPE =
kShortStringTag | kSymbolTag | kExternalStringTag,
MEDIUM_EXTERNAL_SYMBOL_TYPE =
kMediumStringTag | kSymbolTag | kExternalStringTag,
LONG_EXTERNAL_SYMBOL_TYPE = kLongStringTag | kSymbolTag | kExternalStringTag,
SHORT_EXTERNAL_ASCII_SYMBOL_TYPE =
kShortStringTag | kAsciiStringTag | kSymbolTag | kExternalStringTag,
MEDIUM_EXTERNAL_ASCII_SYMBOL_TYPE =
kMediumStringTag | kAsciiStringTag | kSymbolTag | kExternalStringTag,
LONG_EXTERNAL_ASCII_SYMBOL_TYPE =
kLongStringTag | kAsciiStringTag | kSymbolTag | kExternalStringTag,
SHORT_STRING_TYPE = kShortStringTag | kSeqStringTag,
MEDIUM_STRING_TYPE = kMediumStringTag | kSeqStringTag,
LONG_STRING_TYPE = kLongStringTag | kSeqStringTag,
SHORT_ASCII_STRING_TYPE = kShortStringTag | kAsciiStringTag | kSeqStringTag,
MEDIUM_ASCII_STRING_TYPE = kMediumStringTag | kAsciiStringTag | kSeqStringTag,
LONG_ASCII_STRING_TYPE = kLongStringTag | kAsciiStringTag | kSeqStringTag,
SHORT_CONS_STRING_TYPE = kShortStringTag | kConsStringTag,
MEDIUM_CONS_STRING_TYPE = kMediumStringTag | kConsStringTag,
LONG_CONS_STRING_TYPE = kLongStringTag | kConsStringTag,
SHORT_CONS_ASCII_STRING_TYPE =
kShortStringTag | kAsciiStringTag | kConsStringTag,
MEDIUM_CONS_ASCII_STRING_TYPE =
kMediumStringTag | kAsciiStringTag | kConsStringTag,
LONG_CONS_ASCII_STRING_TYPE =
kLongStringTag | kAsciiStringTag | kConsStringTag,
SHORT_SLICED_STRING_TYPE = kShortStringTag | kSlicedStringTag,
MEDIUM_SLICED_STRING_TYPE = kMediumStringTag | kSlicedStringTag,
LONG_SLICED_STRING_TYPE = kLongStringTag | kSlicedStringTag,
SHORT_SLICED_ASCII_STRING_TYPE =
kShortStringTag | kAsciiStringTag | kSlicedStringTag,
MEDIUM_SLICED_ASCII_STRING_TYPE =
kMediumStringTag | kAsciiStringTag | kSlicedStringTag,
LONG_SLICED_ASCII_STRING_TYPE =
kLongStringTag | kAsciiStringTag | kSlicedStringTag,
SHORT_EXTERNAL_STRING_TYPE = kShortStringTag | kExternalStringTag,
MEDIUM_EXTERNAL_STRING_TYPE = kMediumStringTag | kExternalStringTag,
LONG_EXTERNAL_STRING_TYPE = kLongStringTag | kExternalStringTag,
SHORT_EXTERNAL_ASCII_STRING_TYPE =
kShortStringTag | kAsciiStringTag | kExternalStringTag,
MEDIUM_EXTERNAL_ASCII_STRING_TYPE =
kMediumStringTag | kAsciiStringTag | kExternalStringTag,
LONG_EXTERNAL_ASCII_STRING_TYPE =
kLongStringTag | kAsciiStringTag | kExternalStringTag,
LONG_PRIVATE_EXTERNAL_ASCII_STRING_TYPE = LONG_EXTERNAL_ASCII_STRING_TYPE,
MAP_TYPE = kNotStringTag,
HEAP_NUMBER_TYPE,
FIXED_ARRAY_TYPE,
CODE_TYPE,
ODDBALL_TYPE,
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16 years ago
JS_GLOBAL_PROPERTY_CELL_TYPE,
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PROXY_TYPE,
BYTE_ARRAY_TYPE,
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PIXEL_ARRAY_TYPE,
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EXTERNAL_BYTE_ARRAY_TYPE,
EXTERNAL_UNSIGNED_BYTE_ARRAY_TYPE,
EXTERNAL_SHORT_ARRAY_TYPE,
EXTERNAL_UNSIGNED_SHORT_ARRAY_TYPE,
EXTERNAL_INT_ARRAY_TYPE,
EXTERNAL_UNSIGNED_INT_ARRAY_TYPE,
EXTERNAL_FLOAT_ARRAY_TYPE,
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FILLER_TYPE,
SMI_TYPE,
ACCESSOR_INFO_TYPE,
ACCESS_CHECK_INFO_TYPE,
INTERCEPTOR_INFO_TYPE,
SHARED_FUNCTION_INFO_TYPE,
CALL_HANDLER_INFO_TYPE,
FUNCTION_TEMPLATE_INFO_TYPE,
OBJECT_TEMPLATE_INFO_TYPE,
SIGNATURE_INFO_TYPE,
TYPE_SWITCH_INFO_TYPE,
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#ifdef ENABLE_DEBUGGER_SUPPORT
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DEBUG_INFO_TYPE,
BREAK_POINT_INFO_TYPE,
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#endif
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SCRIPT_TYPE,
JS_VALUE_TYPE,
JS_OBJECT_TYPE,
JS_CONTEXT_EXTENSION_OBJECT_TYPE,
JS_GLOBAL_OBJECT_TYPE,
JS_BUILTINS_OBJECT_TYPE,
JS_GLOBAL_PROXY_TYPE,
JS_ARRAY_TYPE,
JS_REGEXP_TYPE,
JS_FUNCTION_TYPE,
// Pseudo-types
FIRST_NONSTRING_TYPE = MAP_TYPE,
FIRST_TYPE = 0x0,
INVALID_TYPE = FIRST_TYPE - 1,
LAST_TYPE = JS_FUNCTION_TYPE,
// Boundaries for testing the type is a JavaScript "object". Note that
// function objects are not counted as objects, even though they are
// implemented as such; only values whose typeof is "object" are included.
FIRST_JS_OBJECT_TYPE = JS_VALUE_TYPE,
LAST_JS_OBJECT_TYPE = JS_REGEXP_TYPE
};
enum CompareResult {
LESS = -1,
EQUAL = 0,
GREATER = 1,
NOT_EQUAL = GREATER
};
#define DECL_BOOLEAN_ACCESSORS(name) \
inline bool name(); \
inline void set_##name(bool value); \
#define DECL_ACCESSORS(name, type) \
inline type* name(); \
inline void set_##name(type* value, \
WriteBarrierMode mode = UPDATE_WRITE_BARRIER); \
class StringStream;
class ObjectVisitor;
struct ValueInfo : public Malloced {
ValueInfo() : type(FIRST_TYPE), ptr(NULL), str(NULL), number(0) { }
InstanceType type;
Object* ptr;
const char* str;
double number;
};
// A template-ized version of the IsXXX functions.
template <class C> static inline bool Is(Object* obj);
// Object is the abstract superclass for all classes in the
// object hierarchy.
// Object does not use any virtual functions to avoid the
// allocation of the C++ vtable.
// Since Smi and Failure are subclasses of Object no
// data members can be present in Object.
class Object BASE_EMBEDDED {
public:
// Type testing.
inline bool IsSmi();
inline bool IsHeapObject();
inline bool IsHeapNumber();
inline bool IsString();
inline bool IsSymbol();
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#ifdef DEBUG
// See objects-inl.h for more details
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inline bool IsSeqString();
inline bool IsSlicedString();
inline bool IsExternalString();
inline bool IsExternalTwoByteString();
inline bool IsExternalAsciiString();
inline bool IsSeqTwoByteString();
inline bool IsSeqAsciiString();
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#endif // DEBUG
inline bool IsConsString();
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inline bool IsNumber();
inline bool IsByteArray();
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inline bool IsPixelArray();
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inline bool IsExternalArray();
inline bool IsExternalByteArray();
inline bool IsExternalUnsignedByteArray();
inline bool IsExternalShortArray();
inline bool IsExternalUnsignedShortArray();
inline bool IsExternalIntArray();
inline bool IsExternalUnsignedIntArray();
inline bool IsExternalFloatArray();
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inline bool IsFailure();
inline bool IsRetryAfterGC();
inline bool IsOutOfMemoryFailure();
inline bool IsException();
inline bool IsJSObject();
inline bool IsJSContextExtensionObject();
inline bool IsMap();
inline bool IsFixedArray();
inline bool IsDescriptorArray();
inline bool IsContext();
inline bool IsCatchContext();
inline bool IsGlobalContext();
inline bool IsJSFunction();
inline bool IsCode();
inline bool IsOddball();
inline bool IsSharedFunctionInfo();
inline bool IsJSValue();
inline bool IsStringWrapper();
inline bool IsProxy();
inline bool IsBoolean();
inline bool IsJSArray();
inline bool IsJSRegExp();
inline bool IsHashTable();
inline bool IsDictionary();
inline bool IsSymbolTable();
inline bool IsCompilationCacheTable();
inline bool IsMapCache();
inline bool IsPrimitive();
inline bool IsGlobalObject();
inline bool IsJSGlobalObject();
inline bool IsJSBuiltinsObject();
inline bool IsJSGlobalProxy();
inline bool IsUndetectableObject();
inline bool IsAccessCheckNeeded();
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inline bool IsJSGlobalPropertyCell();
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// Returns true if this object is an instance of the specified
// function template.
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inline bool IsInstanceOf(FunctionTemplateInfo* type);
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inline bool IsStruct();
#define DECLARE_STRUCT_PREDICATE(NAME, Name, name) inline bool Is##Name();
STRUCT_LIST(DECLARE_STRUCT_PREDICATE)
#undef DECLARE_STRUCT_PREDICATE
// Oddball testing.
INLINE(bool IsUndefined());
INLINE(bool IsTheHole());
INLINE(bool IsNull());
INLINE(bool IsTrue());
INLINE(bool IsFalse());
// Extract the number.
inline double Number();
inline bool HasSpecificClassOf(String* name);
Object* ToObject(); // ECMA-262 9.9.
Object* ToBoolean(); // ECMA-262 9.2.
// Convert to a JSObject if needed.
// global_context is used when creating wrapper object.
Object* ToObject(Context* global_context);
// Converts this to a Smi if possible.
// Failure is returned otherwise.
inline Object* ToSmi();
void Lookup(String* name, LookupResult* result);
// Property access.
inline Object* GetProperty(String* key);
inline Object* GetProperty(String* key, PropertyAttributes* attributes);
Object* GetPropertyWithReceiver(Object* receiver,
String* key,
PropertyAttributes* attributes);
Object* GetProperty(Object* receiver,
LookupResult* result,
String* key,
PropertyAttributes* attributes);
Object* GetPropertyWithCallback(Object* receiver,
Object* structure,
String* name,
Object* holder);
Object* GetPropertyWithDefinedGetter(Object* receiver,
JSFunction* getter);
inline Object* GetElement(uint32_t index);
Object* GetElementWithReceiver(Object* receiver, uint32_t index);
// Return the object's prototype (might be Heap::null_value()).
Object* GetPrototype();
// Returns true if this is a JSValue containing a string and the index is
// < the length of the string. Used to implement [] on strings.
inline bool IsStringObjectWithCharacterAt(uint32_t index);
#ifdef DEBUG
// Prints this object with details.
void Print();
void PrintLn();
// Verifies the object.
void Verify();
// Verify a pointer is a valid object pointer.
static void VerifyPointer(Object* p);
#endif
// Prints this object without details.
void ShortPrint();
// Prints this object without details to a message accumulator.
void ShortPrint(StringStream* accumulator);
// Casting: This cast is only needed to satisfy macros in objects-inl.h.
static Object* cast(Object* value) { return value; }
// Layout description.
static const int kHeaderSize = 0; // Object does not take up any space.
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(Object);
};
// Smi represents integer Numbers that can be stored in 31 bits.
// Smis are immediate which means they are NOT allocated in the heap.
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// The this pointer has the following format: [31 bit signed int] 0
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// For long smis it has the following format:
// [32 bit signed int] [31 bits zero padding] 0
// Smi stands for small integer.
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class Smi: public Object {
public:
// Returns the integer value.
inline int value();
// Convert a value to a Smi object.
static inline Smi* FromInt(int value);
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static inline Smi* FromIntptr(intptr_t value);
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// Returns whether value can be represented in a Smi.
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static inline bool IsValid(intptr_t value);
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// Casting.
static inline Smi* cast(Object* object);
// Dispatched behavior.
void SmiPrint();
void SmiPrint(StringStream* accumulator);
#ifdef DEBUG
void SmiVerify();
#endif
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static const int kMinValue = (-1 << (kSmiValueSize - 1));
static const int kMaxValue = -(kMinValue + 1);
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private:
DISALLOW_IMPLICIT_CONSTRUCTORS(Smi);
};
// Failure is used for reporting out of memory situations and
// propagating exceptions through the runtime system. Failure objects
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// are transient and cannot occur as part of the object graph.
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//
// Failures are a single word, encoded as follows:
// +-------------------------+---+--+--+
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// |...rrrrrrrrrrrrrrrrrrrrrr|sss|tt|11|
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// +-------------------------+---+--+--+
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// 7 6 4 32 10
//
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//
// The low two bits, 0-1, are the failure tag, 11. The next two bits,
// 2-3, are a failure type tag 'tt' with possible values:
// 00 RETRY_AFTER_GC
// 01 EXCEPTION
// 10 INTERNAL_ERROR
// 11 OUT_OF_MEMORY_EXCEPTION
//
// The next three bits, 4-6, are an allocation space tag 'sss'. The
// allocation space tag is 000 for all failure types except
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// RETRY_AFTER_GC. For RETRY_AFTER_GC, the possible values are the
// allocation spaces (the encoding is found in globals.h).
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//
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// The remaining bits is the size of the allocation request in units
// of the pointer size, and is zeroed except for RETRY_AFTER_GC
// failures. The 25 bits (on a 32 bit platform) gives a representable
// range of 2^27 bytes (128MB).
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// Failure type tag info.
const int kFailureTypeTagSize = 2;
const int kFailureTypeTagMask = (1 << kFailureTypeTagSize) - 1;
class Failure: public Object {
public:
// RuntimeStubs assumes EXCEPTION = 1 in the compiler-generated code.
enum Type {
RETRY_AFTER_GC = 0,
EXCEPTION = 1, // Returning this marker tells the real exception
// is in Top::pending_exception.
INTERNAL_ERROR = 2,
OUT_OF_MEMORY_EXCEPTION = 3
};
inline Type type() const;
// Returns the space that needs to be collected for RetryAfterGC failures.
inline AllocationSpace allocation_space() const;
// Returns the number of bytes requested (up to the representable maximum)
// for RetryAfterGC failures.
inline int requested() const;
inline bool IsInternalError() const;
inline bool IsOutOfMemoryException() const;
static Failure* RetryAfterGC(int requested_bytes, AllocationSpace space);
static inline Failure* RetryAfterGC(int requested_bytes); // NEW_SPACE
static inline Failure* Exception();
static inline Failure* InternalError();
static inline Failure* OutOfMemoryException();
// Casting.
static inline Failure* cast(Object* object);
// Dispatched behavior.
void FailurePrint();
void FailurePrint(StringStream* accumulator);
#ifdef DEBUG
void FailureVerify();
#endif
private:
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inline intptr_t value() const;
static inline Failure* Construct(Type type, intptr_t value = 0);
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DISALLOW_IMPLICIT_CONSTRUCTORS(Failure);
};
// Heap objects typically have a map pointer in their first word. However,
// during GC other data (eg, mark bits, forwarding addresses) is sometimes
// encoded in the first word. The class MapWord is an abstraction of the
// value in a heap object's first word.
class MapWord BASE_EMBEDDED {
public:
// Normal state: the map word contains a map pointer.
// Create a map word from a map pointer.
static inline MapWord FromMap(Map* map);
// View this map word as a map pointer.
inline Map* ToMap();
// Scavenge collection: the map word of live objects in the from space
// contains a forwarding address (a heap object pointer in the to space).
// True if this map word is a forwarding address for a scavenge
// collection. Only valid during a scavenge collection (specifically,
// when all map words are heap object pointers, ie. not during a full GC).
inline bool IsForwardingAddress();
// Create a map word from a forwarding address.
static inline MapWord FromForwardingAddress(HeapObject* object);
// View this map word as a forwarding address.
inline HeapObject* ToForwardingAddress();
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// True if this map word is a serialization address. This will only be the
// case during a destructive serialization of the heap.
inline bool IsSerializationAddress();
// Create a map word from a serialization address.
static inline MapWord FromSerializationAddress(int raw);
// View this map word as a serialization address.
inline int ToSerializationAddress();
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// Marking phase of full collection: the map word of live objects is
// marked, and may be marked as overflowed (eg, the object is live, its
// children have not been visited, and it does not fit in the marking
// stack).
// True if this map word's mark bit is set.
inline bool IsMarked();
// Return this map word but with its mark bit set.
inline void SetMark();
// Return this map word but with its mark bit cleared.
inline void ClearMark();
// True if this map word's overflow bit is set.
inline bool IsOverflowed();
// Return this map word but with its overflow bit set.
inline void SetOverflow();
// Return this map word but with its overflow bit cleared.
inline void ClearOverflow();
// Compacting phase of a full compacting collection: the map word of live
// objects contains an encoding of the original map address along with the
// forwarding address (represented as an offset from the first live object
// in the same page as the (old) object address).
// Create a map word from a map address and a forwarding address offset.
static inline MapWord EncodeAddress(Address map_address, int offset);
// Return the map address encoded in this map word.
inline Address DecodeMapAddress(MapSpace* map_space);
// Return the forwarding offset encoded in this map word.
inline int DecodeOffset();
// During serialization: the map word is used to hold an encoded
// address, and possibly a mark bit (set and cleared with SetMark
// and ClearMark).
// Create a map word from an encoded address.
static inline MapWord FromEncodedAddress(Address address);
inline Address ToEncodedAddress();
// Bits used by the marking phase of the garbage collector.
//
// The first word of a heap object is normally a map pointer. The last two
// bits are tagged as '01' (kHeapObjectTag). We reuse the last two bits to
// mark an object as live and/or overflowed:
// last bit = 0, marked as alive
// second bit = 1, overflowed
// An object is only marked as overflowed when it is marked as live while
// the marking stack is overflowed.
static const int kMarkingBit = 0; // marking bit
static const int kMarkingMask = (1 << kMarkingBit); // marking mask
static const int kOverflowBit = 1; // overflow bit
static const int kOverflowMask = (1 << kOverflowBit); // overflow mask
// Forwarding pointers and map pointer encoding
// 31 21 20 10 9 0
// +-----------------+------------------+-----------------+
// |forwarding offset|page offset of map|page index of map|
// +-----------------+------------------+-----------------+
// 11 bits 11 bits 10 bits
static const int kMapPageIndexBits = 10;
static const int kMapPageOffsetBits = 11;
static const int kForwardingOffsetBits = 11;
static const int kMapPageIndexShift = 0;
static const int kMapPageOffsetShift =
kMapPageIndexShift + kMapPageIndexBits;
static const int kForwardingOffsetShift =
kMapPageOffsetShift + kMapPageOffsetBits;
// 0x000003FF
static const uint32_t kMapPageIndexMask =
(1 << kMapPageOffsetShift) - 1;
// 0x001FFC00
static const uint32_t kMapPageOffsetMask =
((1 << kForwardingOffsetShift) - 1) & ~kMapPageIndexMask;
// 0xFFE00000
static const uint32_t kForwardingOffsetMask =
~(kMapPageIndexMask | kMapPageOffsetMask);
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private:
// HeapObject calls the private constructor and directly reads the value.
friend class HeapObject;
explicit MapWord(uintptr_t value) : value_(value) {}
uintptr_t value_;
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};
// HeapObject is the superclass for all classes describing heap allocated
// objects.
class HeapObject: public Object {
public:
// [map]: Contains a map which contains the object's reflective
// information.
inline Map* map();
inline void set_map(Map* value);
// During garbage collection, the map word of a heap object does not
// necessarily contain a map pointer.
inline MapWord map_word();
inline void set_map_word(MapWord map_word);
// Converts an address to a HeapObject pointer.
static inline HeapObject* FromAddress(Address address);
// Returns the address of this HeapObject.
inline Address address();
// Iterates over pointers contained in the object (including the Map)
void Iterate(ObjectVisitor* v);
// Iterates over all pointers contained in the object except the
// first map pointer. The object type is given in the first
// parameter. This function does not access the map pointer in the
// object, and so is safe to call while the map pointer is modified.
void IterateBody(InstanceType type, int object_size, ObjectVisitor* v);
// This method only applies to struct objects. Iterates over all the fields
// of this struct.
void IterateStructBody(int object_size, ObjectVisitor* v);
// Returns the heap object's size in bytes
inline int Size();
// Given a heap object's map pointer, returns the heap size in bytes
// Useful when the map pointer field is used for other purposes.
// GC internal.
inline int SizeFromMap(Map* map);
// Support for the marking heap objects during the marking phase of GC.
// True if the object is marked live.
inline bool IsMarked();
// Mutate this object's map pointer to indicate that the object is live.
inline void SetMark();
// Mutate this object's map pointer to remove the indication that the
// object is live (ie, partially restore the map pointer).
inline void ClearMark();
// True if this object is marked as overflowed. Overflowed objects have
// been reached and marked during marking of the heap, but their children
// have not necessarily been marked and they have not been pushed on the
// marking stack.
inline bool IsOverflowed();
// Mutate this object's map pointer to indicate that the object is
// overflowed.
inline void SetOverflow();
// Mutate this object's map pointer to remove the indication that the
// object is overflowed (ie, partially restore the map pointer).
inline void ClearOverflow();
// Returns the field at offset in obj, as a read/write Object* reference.
// Does no checking, and is safe to use during GC, while maps are invalid.
// Does not update remembered sets, so should only be assigned to
// during marking GC.
static inline Object** RawField(HeapObject* obj, int offset);
// Casting.
static inline HeapObject* cast(Object* obj);
// Return the write barrier mode for this.
inline WriteBarrierMode GetWriteBarrierMode();
// Dispatched behavior.
void HeapObjectShortPrint(StringStream* accumulator);
#ifdef DEBUG
void HeapObjectPrint();
void HeapObjectVerify();
inline void VerifyObjectField(int offset);
void PrintHeader(const char* id);
// Verify a pointer is a valid HeapObject pointer that points to object
// areas in the heap.
static void VerifyHeapPointer(Object* p);
#endif
// Layout description.
// First field in a heap object is map.
static const int kMapOffset = Object::kHeaderSize;
static const int kHeaderSize = kMapOffset + kPointerSize;
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STATIC_CHECK(kMapOffset == Internals::kHeapObjectMapOffset);
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protected:
// helpers for calling an ObjectVisitor to iterate over pointers in the
// half-open range [start, end) specified as integer offsets
inline void IteratePointers(ObjectVisitor* v, int start, int end);
// as above, for the single element at "offset"
inline void IteratePointer(ObjectVisitor* v, int offset);
// Computes the object size from the map.
// Should only be used from SizeFromMap.
int SlowSizeFromMap(Map* map);
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(HeapObject);
};
// The HeapNumber class describes heap allocated numbers that cannot be
// represented in a Smi (small integer)
class HeapNumber: public HeapObject {
public:
// [value]: number value.
inline double value();
inline void set_value(double value);
// Casting.
static inline HeapNumber* cast(Object* obj);
// Dispatched behavior.
Object* HeapNumberToBoolean();
void HeapNumberPrint();
void HeapNumberPrint(StringStream* accumulator);
#ifdef DEBUG
void HeapNumberVerify();
#endif
// Layout description.
static const int kValueOffset = HeapObject::kHeaderSize;
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16 years ago
// IEEE doubles are two 32 bit words. The first is just mantissa, the second
// is a mixture of sign, exponent and mantissa. Our current platforms are all
// little endian apart from non-EABI arm which is little endian with big
// endian floating point word ordering!
Upgrade v8 to 1.3.16 and apply my V8 patch for debugging.
15 years ago
#if !defined(V8_HOST_ARCH_ARM) || defined(USE_ARM_EABI)
upgrade v8 to 1.2.8
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static const int kMantissaOffset = kValueOffset;
static const int kExponentOffset = kValueOffset + 4;
#else
static const int kMantissaOffset = kValueOffset + 4;
static const int kExponentOffset = kValueOffset;
# define BIG_ENDIAN_FLOATING_POINT 1
#endif
import full versions of dependency libraries!
16 years ago
static const int kSize = kValueOffset + kDoubleSize;
upgrade v8 to 1.2.8
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static const uint32_t kSignMask = 0x80000000u;
static const uint32_t kExponentMask = 0x7ff00000u;
static const uint32_t kMantissaMask = 0xfffffu;
static const int kExponentBias = 1023;
static const int kExponentShift = 20;
static const int kMantissaBitsInTopWord = 20;
static const int kNonMantissaBitsInTopWord = 12;
import full versions of dependency libraries!
16 years ago
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(HeapNumber);
};
// The JSObject describes real heap allocated JavaScript objects with
// properties.
// Note that the map of JSObject changes during execution to enable inline
// caching.
class JSObject: public HeapObject {
public:
Upgrade V8 to 1.2.14
16 years ago
enum DeleteMode { NORMAL_DELETION, FORCE_DELETION };
Upgrade V8 to 1.3.1
15 years ago
enum ElementsKind {
FAST_ELEMENTS,
DICTIONARY_ELEMENTS,
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15 years ago
PIXEL_ELEMENTS,
EXTERNAL_BYTE_ELEMENTS,
EXTERNAL_UNSIGNED_BYTE_ELEMENTS,
EXTERNAL_SHORT_ELEMENTS,
EXTERNAL_UNSIGNED_SHORT_ELEMENTS,
EXTERNAL_INT_ELEMENTS,
EXTERNAL_UNSIGNED_INT_ELEMENTS,
EXTERNAL_FLOAT_ELEMENTS
Upgrade V8 to 1.3.1
15 years ago
};
Upgrade V8 to 1.2.14
16 years ago
import full versions of dependency libraries!
16 years ago
// [properties]: Backing storage for properties.
// properties is a FixedArray in the fast case, and a Dictionary in the
// slow case.
DECL_ACCESSORS(properties, FixedArray) // Get and set fast properties.
inline void initialize_properties();
inline bool HasFastProperties();
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16 years ago
inline StringDictionary* property_dictionary(); // Gets slow properties.
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// [elements]: The elements (properties with names that are integers).
// elements is a FixedArray in the fast case, and a Dictionary in the slow
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// case or a PixelArray in a special case.
DECL_ACCESSORS(elements, Array) // Get and set fast elements.
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inline void initialize_elements();
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15 years ago
inline ElementsKind GetElementsKind();
import full versions of dependency libraries!
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inline bool HasFastElements();
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inline bool HasDictionaryElements();
inline bool HasPixelElements();
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15 years ago
inline bool HasExternalArrayElements();
inline bool HasExternalByteElements();
inline bool HasExternalUnsignedByteElements();
inline bool HasExternalShortElements();
inline bool HasExternalUnsignedShortElements();
inline bool HasExternalIntElements();
inline bool HasExternalUnsignedIntElements();
inline bool HasExternalFloatElements();
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16 years ago
inline NumberDictionary* element_dictionary(); // Gets slow elements.
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16 years ago
Upgrade v8 to version 1.2.3.
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// Collects elements starting at index 0.
// Undefined values are placed after non-undefined values.
// Returns the number of non-undefined values.
Object* PrepareElementsForSort(uint32_t limit);
// As PrepareElementsForSort, but only on objects where elements is
// a dictionary, and it will stay a dictionary.
Object* PrepareSlowElementsForSort(uint32_t limit);
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Object* SetProperty(String* key,
Object* value,
PropertyAttributes attributes);
Object* SetProperty(LookupResult* result,
String* key,
Object* value,
PropertyAttributes attributes);
Object* SetPropertyWithFailedAccessCheck(LookupResult* result,
String* name,
Object* value);
Object* SetPropertyWithCallback(Object* structure,
String* name,
Object* value,
JSObject* holder);
Object* SetPropertyWithDefinedSetter(JSFunction* setter,
Object* value);
Object* SetPropertyWithInterceptor(String* name,
Object* value,
PropertyAttributes attributes);
Object* SetPropertyPostInterceptor(String* name,
Object* value,
PropertyAttributes attributes);
Object* IgnoreAttributesAndSetLocalProperty(String* key,
Object* value,
PropertyAttributes attributes);
Upgrade V8 to 1.2.14
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// Retrieve a value in a normalized object given a lookup result.
// Handles the special representation of JS global objects.
Object* GetNormalizedProperty(LookupResult* result);
// Sets the property value in a normalized object given a lookup result.
// Handles the special representation of JS global objects.
Object* SetNormalizedProperty(LookupResult* result, Object* value);
// Sets the property value in a normalized object given (key, value, details).
// Handles the special representation of JS global objects.
Object* SetNormalizedProperty(String* name,
Object* value,
PropertyDetails details);
// Deletes the named property in a normalized object.
Object* DeleteNormalizedProperty(String* name, DeleteMode mode);
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// Sets a property that currently has lazy loading.
Object* SetLazyProperty(LookupResult* result,
String* name,
Object* value,
PropertyAttributes attributes);
// Returns the class name ([[Class]] property in the specification).
String* class_name();
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// Returns the constructor name (the name (possibly, inferred name) of the
// function that was used to instantiate the object).
String* constructor_name();
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// Retrieve interceptors.
InterceptorInfo* GetNamedInterceptor();
InterceptorInfo* GetIndexedInterceptor();
inline PropertyAttributes GetPropertyAttribute(String* name);
PropertyAttributes GetPropertyAttributeWithReceiver(JSObject* receiver,
String* name);
PropertyAttributes GetLocalPropertyAttribute(String* name);
Object* DefineAccessor(String* name, bool is_getter, JSFunction* fun,
PropertyAttributes attributes);
Object* LookupAccessor(String* name, bool is_getter);
// Used from Object::GetProperty().
Object* GetPropertyWithFailedAccessCheck(Object* receiver,
LookupResult* result,
String* name,
PropertyAttributes* attributes);
Object* GetPropertyWithInterceptor(JSObject* receiver,
String* name,
PropertyAttributes* attributes);
Object* GetPropertyPostInterceptor(JSObject* receiver,
String* name,
PropertyAttributes* attributes);
Object* GetLazyProperty(Object* receiver,
LookupResult* result,
String* name,
PropertyAttributes* attributes);
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// Tells whether this object needs to be loaded.
inline bool IsLoaded();
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// Returns true if this is an instance of an api function and has
// been modified since it was created. May give false positives.
bool IsDirty();
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bool HasProperty(String* name) {
return GetPropertyAttribute(name) != ABSENT;
}
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// Can cause a GC if it hits an interceptor.
import full versions of dependency libraries!
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bool HasLocalProperty(String* name) {
return GetLocalPropertyAttribute(name) != ABSENT;
}
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Object* DeleteProperty(String* name, DeleteMode mode);
Object* DeleteElement(uint32_t index, DeleteMode mode);
Object* DeleteLazyProperty(LookupResult* result,
String* name,
DeleteMode mode);
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// Tests for the fast common case for property enumeration.
bool IsSimpleEnum();
// Do we want to keep the elements in fast case when increasing the
// capacity?
bool ShouldConvertToSlowElements(int new_capacity);
// Returns true if the backing storage for the slow-case elements of
// this object takes up nearly as much space as a fast-case backing
// storage would. In that case the JSObject should have fast
// elements.
bool ShouldConvertToFastElements();
// Return the object's prototype (might be Heap::null_value()).
inline Object* GetPrototype();
// Tells whether the index'th element is present.
inline bool HasElement(uint32_t index);
bool HasElementWithReceiver(JSObject* receiver, uint32_t index);
bool HasLocalElement(uint32_t index);
bool HasElementWithInterceptor(JSObject* receiver, uint32_t index);
bool HasElementPostInterceptor(JSObject* receiver, uint32_t index);
Object* SetFastElement(uint32_t index, Object* value);
// Set the index'th array element.
// A Failure object is returned if GC is needed.
Object* SetElement(uint32_t index, Object* value);
// Returns the index'th element.
// The undefined object if index is out of bounds.
Object* GetElementWithReceiver(JSObject* receiver, uint32_t index);
void SetFastElements(FixedArray* elements);
Object* SetSlowElements(Object* length);
// Lookup interceptors are used for handling properties controlled by host
// objects.
inline bool HasNamedInterceptor();
inline bool HasIndexedInterceptor();
// Support functions for v8 api (needed for correct interceptor behavior).
bool HasRealNamedProperty(String* key);
bool HasRealElementProperty(uint32_t index);
bool HasRealNamedCallbackProperty(String* key);
// Initializes the array to a certain length
Object* SetElementsLength(Object* length);
// Get the header size for a JSObject. Used to compute the index of
// internal fields as well as the number of internal fields.
inline int GetHeaderSize();
inline int GetInternalFieldCount();
inline Object* GetInternalField(int index);
inline void SetInternalField(int index, Object* value);
// Lookup a property. If found, the result is valid and has
// detailed information.
void LocalLookup(String* name, LookupResult* result);
void Lookup(String* name, LookupResult* result);
// The following lookup functions skip interceptors.
void LocalLookupRealNamedProperty(String* name, LookupResult* result);
void LookupRealNamedProperty(String* name, LookupResult* result);
void LookupRealNamedPropertyInPrototypes(String* name, LookupResult* result);
void LookupCallbackSetterInPrototypes(String* name, LookupResult* result);
Object* LookupCallbackSetterInPrototypes(uint32_t index);
void LookupCallback(String* name, LookupResult* result);
// Returns the number of properties on this object filtering out properties
// with the specified attributes (ignoring interceptors).
int NumberOfLocalProperties(PropertyAttributes filter);
// Returns the number of enumerable properties (ignoring interceptors).
int NumberOfEnumProperties();
// Fill in details for properties into storage starting at the specified
// index.
void GetLocalPropertyNames(FixedArray* storage, int index);
// Returns the number of properties on this object filtering out properties
// with the specified attributes (ignoring interceptors).
int NumberOfLocalElements(PropertyAttributes filter);
// Returns the number of enumerable elements (ignoring interceptors).
int NumberOfEnumElements();
// Returns the number of elements on this object filtering out elements
// with the specified attributes (ignoring interceptors).
int GetLocalElementKeys(FixedArray* storage, PropertyAttributes filter);
// Count and fill in the enumerable elements into storage.
// (storage->length() == NumberOfEnumElements()).
// If storage is NULL, will count the elements without adding
// them to any storage.
// Returns the number of enumerable elements.
int GetEnumElementKeys(FixedArray* storage);
// Add a property to a fast-case object using a map transition to
// new_map.
Object* AddFastPropertyUsingMap(Map* new_map,
String* name,
Object* value);
// Add a constant function property to a fast-case object.
// This leaves a CONSTANT_TRANSITION in the old map, and
// if it is called on a second object with this map, a
// normal property is added instead, with a map transition.
// This avoids the creation of many maps with the same constant
// function, all orphaned.
Object* AddConstantFunctionProperty(String* name,
JSFunction* function,
PropertyAttributes attributes);
Object* ReplaceSlowProperty(String* name,
Object* value,
PropertyAttributes attributes);
// Converts a descriptor of any other type to a real field,
// backed by the properties array. Descriptors of visible
// types, such as CONSTANT_FUNCTION, keep their enumeration order.
// Converts the descriptor on the original object's map to a
// map transition, and the the new field is on the object's new map.
Object* ConvertDescriptorToFieldAndMapTransition(
String* name,
Object* new_value,
PropertyAttributes attributes);
// Converts a descriptor of any other type to a real field,
// backed by the properties array. Descriptors of visible
// types, such as CONSTANT_FUNCTION, keep their enumeration order.
Object* ConvertDescriptorToField(String* name,
Object* new_value,
PropertyAttributes attributes);
// Add a property to a fast-case object.
Object* AddFastProperty(String* name,
Object* value,
PropertyAttributes attributes);
// Add a property to a slow-case object.
Object* AddSlowProperty(String* name,
Object* value,
PropertyAttributes attributes);
// Add a property to an object.
Object* AddProperty(String* name,
Object* value,
PropertyAttributes attributes);
// Convert the object to use the canonical dictionary
Upgrade V8 to 1.3.1
15 years ago
// representation. If the object is expected to have additional properties
// added this number can be indicated to have the backing store allocated to
// an initial capacity for holding these properties.
Object* NormalizeProperties(PropertyNormalizationMode mode,
int expected_additional_properties);
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Object* NormalizeElements();
// Transform slow named properties to fast variants.
// Returns failure if allocation failed.
Object* TransformToFastProperties(int unused_property_fields);
// Access fast-case object properties at index.
inline Object* FastPropertyAt(int index);
inline Object* FastPropertyAtPut(int index, Object* value);
// Access to in object properties.
inline Object* InObjectPropertyAt(int index);
inline Object* InObjectPropertyAtPut(int index,
Object* value,
WriteBarrierMode mode
= UPDATE_WRITE_BARRIER);
// initializes the body after properties slot, properties slot is
// initialized by set_properties
// Note: this call does not update write barrier, it is caller's
// reponsibility to ensure that *v* can be collected without WB here.
inline void InitializeBody(int object_size);
// Check whether this object references another object
bool ReferencesObject(Object* obj);
// Casting.
static inline JSObject* cast(Object* obj);
// Dispatched behavior.
void JSObjectIterateBody(int object_size, ObjectVisitor* v);
void JSObjectShortPrint(StringStream* accumulator);
#ifdef DEBUG
void JSObjectPrint();
void JSObjectVerify();
void PrintProperties();
void PrintElements();
// Structure for collecting spill information about JSObjects.
class SpillInformation {
public:
void Clear();
void Print();
int number_of_objects_;
int number_of_objects_with_fast_properties_;
int number_of_objects_with_fast_elements_;
int number_of_fast_used_fields_;
int number_of_fast_unused_fields_;
int number_of_slow_used_properties_;
int number_of_slow_unused_properties_;
int number_of_fast_used_elements_;
int number_of_fast_unused_elements_;
int number_of_slow_used_elements_;
int number_of_slow_unused_elements_;
};
void IncrementSpillStatistics(SpillInformation* info);
#endif
Object* SlowReverseLookup(Object* value);
static const uint32_t kMaxGap = 1024;
static const int kMaxFastElementsLength = 5000;
static const int kInitialMaxFastElementArray = 100000;
static const int kMaxFastProperties = 8;
static const int kMaxInstanceSize = 255 * kPointerSize;
// When extending the backing storage for property values, we increase
// its size by more than the 1 entry necessary, so sequentially adding fields
// to the same object requires fewer allocations and copies.
static const int kFieldsAdded = 3;
// Layout description.
static const int kPropertiesOffset = HeapObject::kHeaderSize;
static const int kElementsOffset = kPropertiesOffset + kPointerSize;
static const int kHeaderSize = kElementsOffset + kPointerSize;
Upgrade V8 to 1.3.9
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STATIC_CHECK(kHeaderSize == Internals::kJSObjectHeaderSize);
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Object* GetElementWithInterceptor(JSObject* receiver, uint32_t index);
private:
Object* SetElementWithInterceptor(uint32_t index, Object* value);
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Object* SetElementWithoutInterceptor(uint32_t index, Object* value);
import full versions of dependency libraries!
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Object* GetElementPostInterceptor(JSObject* receiver, uint32_t index);
Upgrade to v8 1.2.7
16 years ago
Object* DeletePropertyPostInterceptor(String* name, DeleteMode mode);
import full versions of dependency libraries!
16 years ago
Object* DeletePropertyWithInterceptor(String* name);
Upgrade to v8 1.2.7
16 years ago
Object* DeleteElementPostInterceptor(uint32_t index, DeleteMode mode);
import full versions of dependency libraries!
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Object* DeleteElementWithInterceptor(uint32_t index);
PropertyAttributes GetPropertyAttributePostInterceptor(JSObject* receiver,
String* name,
bool continue_search);
PropertyAttributes GetPropertyAttributeWithInterceptor(JSObject* receiver,
String* name,
bool continue_search);
PropertyAttributes GetPropertyAttributeWithFailedAccessCheck(
Object* receiver,
LookupResult* result,
String* name,
bool continue_search);
PropertyAttributes GetPropertyAttribute(JSObject* receiver,
LookupResult* result,
String* name,
bool continue_search);
// Returns true if most of the elements backing storage is used.
bool HasDenseElements();
Object* DefineGetterSetter(String* name, PropertyAttributes attributes);
void LookupInDescriptor(String* name, LookupResult* result);
DISALLOW_IMPLICIT_CONSTRUCTORS(JSObject);
};
// Abstract super class arrays. It provides length behavior.
class Array: public HeapObject {
public:
// [length]: length of the array.
inline int length();
inline void set_length(int value);
// Convert an object to an array index.
// Returns true if the conversion succeeded.
static inline bool IndexFromObject(Object* object, uint32_t* index);
// Layout descriptor.
static const int kLengthOffset = HeapObject::kHeaderSize;
Upgrade V8 to 1.3.1
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protected:
// No code should use the Array class directly, only its subclasses.
// Use the kHeaderSize of the appropriate subclass, which may be aligned.
import full versions of dependency libraries!
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static const int kHeaderSize = kLengthOffset + kIntSize;
Upgrade to v8 1.2.7
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static const int kAlignedSize = POINTER_SIZE_ALIGN(kHeaderSize);
import full versions of dependency libraries!
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private:
DISALLOW_IMPLICIT_CONSTRUCTORS(Array);
};
// FixedArray describes fixed sized arrays where element
// type is Object*.
class FixedArray: public Array {
public:
// Setter and getter for elements.
inline Object* get(int index);
// Setter that uses write barrier.
inline void set(int index, Object* value);
// Setter that doesn't need write barrier).
inline void set(int index, Smi* value);
// Setter with explicit barrier mode.
inline void set(int index, Object* value, WriteBarrierMode mode);
// Setters for frequently used oddballs located in old space.
inline void set_undefined(int index);
inline void set_null(int index);
inline void set_the_hole(int index);
// Copy operations.
inline Object* Copy();
Object* CopySize(int new_length);
// Add the elements of a JSArray to this FixedArray.
Object* AddKeysFromJSArray(JSArray* array);
// Compute the union of this and other.
Object* UnionOfKeys(FixedArray* other);
// Copy a sub array from the receiver to dest.
void CopyTo(int pos, FixedArray* dest, int dest_pos, int len);
// Garbage collection support.
static int SizeFor(int length) { return kHeaderSize + length * kPointerSize; }
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// Code Generation support.
static int OffsetOfElementAt(int index) { return SizeFor(index); }
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// Casting.
static inline FixedArray* cast(Object* obj);
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// Align data at kPointerSize, even if Array.kHeaderSize isn't aligned.
static const int kHeaderSize = POINTER_SIZE_ALIGN(Array::kHeaderSize);
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// Dispatched behavior.
int FixedArraySize() { return SizeFor(length()); }
void FixedArrayIterateBody(ObjectVisitor* v);
#ifdef DEBUG
void FixedArrayPrint();
void FixedArrayVerify();
// Checks if two FixedArrays have identical contents.
bool IsEqualTo(FixedArray* other);
#endif
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// Swap two elements in a pair of arrays. If this array and the
// numbers array are the same object, the elements are only swapped
// once.
void SwapPairs(FixedArray* numbers, int i, int j);
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16 years ago
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// Sort prefix of this array and the numbers array as pairs wrt. the
// numbers. If the numbers array and the this array are the same
// object, the prefix of this array is sorted.
void SortPairs(FixedArray* numbers, uint32_t len);
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protected:
// Set operation on FixedArray without using write barriers.
static inline void fast_set(FixedArray* array, int index, Object* value);
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(FixedArray);
};
// DescriptorArrays are fixed arrays used to hold instance descriptors.
// The format of the these objects is:
// [0]: point to a fixed array with (value, detail) pairs.
// [1]: next enumeration index (Smi), or pointer to small fixed array:
// [0]: next enumeration index (Smi)
// [1]: pointer to fixed array with enum cache
// [2]: first key
// [length() - 1]: last key
//
class DescriptorArray: public FixedArray {
public:
// Is this the singleton empty_descriptor_array?
inline bool IsEmpty();
// Returns the number of descriptors in the array.
int number_of_descriptors() {
return IsEmpty() ? 0 : length() - kFirstIndex;
}
int NextEnumerationIndex() {
if (IsEmpty()) return PropertyDetails::kInitialIndex;
Object* obj = get(kEnumerationIndexIndex);
if (obj->IsSmi()) {
return Smi::cast(obj)->value();
} else {
Object* index = FixedArray::cast(obj)->get(kEnumCacheBridgeEnumIndex);
return Smi::cast(index)->value();
}
}
// Set next enumeration index and flush any enum cache.
void SetNextEnumerationIndex(int value) {
if (!IsEmpty()) {
fast_set(this, kEnumerationIndexIndex, Smi::FromInt(value));
}
}
bool HasEnumCache() {
return !IsEmpty() && !get(kEnumerationIndexIndex)->IsSmi();
}
Object* GetEnumCache() {
ASSERT(HasEnumCache());
FixedArray* bridge = FixedArray::cast(get(kEnumerationIndexIndex));
return bridge->get(kEnumCacheBridgeCacheIndex);
}
// Initialize or change the enum cache,
// using the supplied storage for the small "bridge".
void SetEnumCache(FixedArray* bridge_storage, FixedArray* new_cache);
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// Accessors for fetching instance descriptor at descriptor number.
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inline String* GetKey(int descriptor_number);
inline Object* GetValue(int descriptor_number);
inline Smi* GetDetails(int descriptor_number);
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inline PropertyType GetType(int descriptor_number);
inline int GetFieldIndex(int descriptor_number);
inline JSFunction* GetConstantFunction(int descriptor_number);
inline Object* GetCallbacksObject(int descriptor_number);
inline AccessorDescriptor* GetCallbacks(int descriptor_number);
inline bool IsProperty(int descriptor_number);
inline bool IsTransition(int descriptor_number);
inline bool IsNullDescriptor(int descriptor_number);
inline bool IsDontEnum(int descriptor_number);
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// Accessor for complete descriptor.
inline void Get(int descriptor_number, Descriptor* desc);
inline void Set(int descriptor_number, Descriptor* desc);
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// Transfer complete descriptor from another descriptor array to
// this one.
inline void CopyFrom(int index, DescriptorArray* src, int src_index);
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// Copy the descriptor array, insert a new descriptor and optionally
// remove map transitions. If the descriptor is already present, it is
// replaced. If a replaced descriptor is a real property (not a transition
// or null), its enumeration index is kept as is.
// If adding a real property, map transitions must be removed. If adding
// a transition, they must not be removed. All null descriptors are removed.
Object* CopyInsert(Descriptor* descriptor, TransitionFlag transition_flag);
// Remove all transitions. Return a copy of the array with all transitions
// removed, or a Failure object if the new array could not be allocated.
Object* RemoveTransitions();
// Sort the instance descriptors by the hash codes of their keys.
void Sort();
// Search the instance descriptors for given name.
inline int Search(String* name);
// Tells whether the name is present int the array.
bool Contains(String* name) { return kNotFound != Search(name); }
// Perform a binary search in the instance descriptors represented
// by this fixed array. low and high are descriptor indices. If there
// are three instance descriptors in this array it should be called
// with low=0 and high=2.
int BinarySearch(String* name, int low, int high);
// Perform a linear search in the instance descriptors represented
// by this fixed array. len is the number of descriptor indices that are
// valid. Does not require the descriptors to be sorted.
int LinearSearch(String* name, int len);
// Allocates a DescriptorArray, but returns the singleton
// empty descriptor array object if number_of_descriptors is 0.
static Object* Allocate(int number_of_descriptors);
// Casting.
static inline DescriptorArray* cast(Object* obj);
// Constant for denoting key was not found.
static const int kNotFound = -1;
static const int kContentArrayIndex = 0;
static const int kEnumerationIndexIndex = 1;
static const int kFirstIndex = 2;
// The length of the "bridge" to the enum cache.
static const int kEnumCacheBridgeLength = 2;
static const int kEnumCacheBridgeEnumIndex = 0;
static const int kEnumCacheBridgeCacheIndex = 1;
// Layout description.
static const int kContentArrayOffset = FixedArray::kHeaderSize;
static const int kEnumerationIndexOffset = kContentArrayOffset + kPointerSize;
static const int kFirstOffset = kEnumerationIndexOffset + kPointerSize;
// Layout description for the bridge array.
static const int kEnumCacheBridgeEnumOffset = FixedArray::kHeaderSize;
static const int kEnumCacheBridgeCacheOffset =
kEnumCacheBridgeEnumOffset + kPointerSize;
#ifdef DEBUG
// Print all the descriptors.
void PrintDescriptors();
// Is the descriptor array sorted and without duplicates?
bool IsSortedNoDuplicates();
// Are two DescriptorArrays equal?
bool IsEqualTo(DescriptorArray* other);
#endif
// The maximum number of descriptors we want in a descriptor array (should
// fit in a page).
static const int kMaxNumberOfDescriptors = 1024 + 512;
private:
// Conversion from descriptor number to array indices.
static int ToKeyIndex(int descriptor_number) {
return descriptor_number+kFirstIndex;
}
static int ToValueIndex(int descriptor_number) {
return descriptor_number << 1;
}
static int ToDetailsIndex(int descriptor_number) {
return( descriptor_number << 1) + 1;
}
bool is_null_descriptor(int descriptor_number) {
return PropertyDetails(GetDetails(descriptor_number)).type() ==
NULL_DESCRIPTOR;
}
// Swap operation on FixedArray without using write barriers.
static inline void fast_swap(FixedArray* array, int first, int second);
// Swap descriptor first and second.
inline void Swap(int first, int second);
FixedArray* GetContentArray() {
return FixedArray::cast(get(kContentArrayIndex));
}
DISALLOW_IMPLICIT_CONSTRUCTORS(DescriptorArray);
};
// HashTable is a subclass of FixedArray that implements a hash table
// that uses open addressing and quadratic probing.
//
// In order for the quadratic probing to work, elements that have not
// yet been used and elements that have been deleted are
// distinguished. Probing continues when deleted elements are
// encountered and stops when unused elements are encountered.
//
// - Elements with key == undefined have not been used yet.
// - Elements with key == null have been deleted.
//
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16 years ago
// The hash table class is parameterized with a Shape and a Key.
// Shape must be a class with the following interface:
// class ExampleShape {
// public:
// // Tells whether key matches other.
// static bool IsMatch(Key key, Object* other);
// // Returns the hash value for key.
// static uint32_t Hash(Key key);
// // Returns the hash value for object.
// static uint32_t HashForObject(Key key, Object* object);
// // Convert key to an object.
// static inline Object* AsObject(Key key);
// // The prefix size indicates number of elements in the beginning
// // of the backing storage.
// static const int kPrefixSize = ..;
// // The Element size indicates number of elements per entry.
// static const int kEntrySize = ..;
// };
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15 years ago
// The prefix size indicates an amount of memory in the
import full versions of dependency libraries!
16 years ago
// beginning of the backing storage that can be used for non-element
// information by subclasses.
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template<typename Shape, typename Key>
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class HashTable: public FixedArray {
public:
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15 years ago
// Returns the number of elements in the hash table.
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16 years ago
int NumberOfElements() {
return Smi::cast(get(kNumberOfElementsIndex))->value();
}
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15 years ago
// Returns the capacity of the hash table.
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16 years ago
int Capacity() {
return Smi::cast(get(kCapacityIndex))->value();
}
// ElementAdded should be called whenever an element is added to a
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15 years ago
// hash table.
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16 years ago
void ElementAdded() { SetNumberOfElements(NumberOfElements() + 1); }
// ElementRemoved should be called whenever an element is removed from
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15 years ago
// a hash table.
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void ElementRemoved() { SetNumberOfElements(NumberOfElements() - 1); }
void ElementsRemoved(int n) { SetNumberOfElements(NumberOfElements() - n); }
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15 years ago
// Returns a new HashTable object. Might return Failure.
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static Object* Allocate(int at_least_space_for);
// Returns the key at entry.
Object* KeyAt(int entry) { return get(EntryToIndex(entry)); }
// Tells whether k is a real key. Null and undefined are not allowed
// as keys and can be used to indicate missing or deleted elements.
bool IsKey(Object* k) {
return !k->IsNull() && !k->IsUndefined();
}
// Garbage collection support.
void IteratePrefix(ObjectVisitor* visitor);
void IterateElements(ObjectVisitor* visitor);
// Casting.
static inline HashTable* cast(Object* obj);
// Compute the probe offset (quadratic probing).
INLINE(static uint32_t GetProbeOffset(uint32_t n)) {
return (n + n * n) >> 1;
}
static const int kNumberOfElementsIndex = 0;
static const int kCapacityIndex = 1;
static const int kPrefixStartIndex = 2;
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16 years ago
static const int kElementsStartIndex =
kPrefixStartIndex + Shape::kPrefixSize;
static const int kEntrySize = Shape::kEntrySize;
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static const int kElementsStartOffset =
kHeaderSize + kElementsStartIndex * kPointerSize;
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// Constant used for denoting a absent entry.
static const int kNotFound = -1;
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// Find entry for key otherwise return -1.
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int FindEntry(Key key);
protected:
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// Find the entry at which to insert element with the given key that
// has the given hash value.
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uint32_t FindInsertionEntry(uint32_t hash);
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// Returns the index for an entry (of the key)
static inline int EntryToIndex(int entry) {
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return (entry * kEntrySize) + kElementsStartIndex;
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16 years ago
}
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15 years ago
// Update the number of elements in the hash table.
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void SetNumberOfElements(int nof) {
fast_set(this, kNumberOfElementsIndex, Smi::FromInt(nof));
}
// Sets the capacity of the hash table.
void SetCapacity(int capacity) {
// To scale a computed hash code to fit within the hash table, we
// use bit-wise AND with a mask, so the capacity must be positive
// and non-zero.
ASSERT(capacity > 0);
fast_set(this, kCapacityIndex, Smi::FromInt(capacity));
}
// Returns probe entry.
static uint32_t GetProbe(uint32_t hash, uint32_t number, uint32_t size) {
ASSERT(IsPowerOf2(size));
return (hash + GetProbeOffset(number)) & (size - 1);
}
// Ensure enough space for n additional elements.
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Object* EnsureCapacity(int n, Key key);
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16 years ago
};
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// HashTableKey is an abstract superclass for virtual key behavior.
class HashTableKey {
public:
// Returns whether the other object matches this key.
virtual bool IsMatch(Object* other) = 0;
// Returns the hash value for this key.
virtual uint32_t Hash() = 0;
// Returns the hash value for object.
virtual uint32_t HashForObject(Object* key) = 0;
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15 years ago
// Returns the key object for storing into the hash table.
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// If allocations fails a failure object is returned.
virtual Object* AsObject() = 0;
// Required.
virtual ~HashTableKey() {}
};
class SymbolTableShape {
public:
static bool IsMatch(HashTableKey* key, Object* value) {
return key->IsMatch(value);
}
static uint32_t Hash(HashTableKey* key) {
return key->Hash();
}
static uint32_t HashForObject(HashTableKey* key, Object* object) {
return key->HashForObject(object);
}
static Object* AsObject(HashTableKey* key) {
return key->AsObject();
}
static const int kPrefixSize = 0;
static const int kEntrySize = 1;
};
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16 years ago
// SymbolTable.
//
// No special elements in the prefix and the element size is 1
// because only the symbol itself (the key) needs to be stored.
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class SymbolTable: public HashTable<SymbolTableShape, HashTableKey*> {
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public:
// Find symbol in the symbol table. If it is not there yet, it is
// added. The return value is the symbol table which might have
// been enlarged. If the return value is not a failure, the symbol
// pointer *s is set to the symbol found.
Object* LookupSymbol(Vector<const char> str, Object** s);
Object* LookupString(String* key, Object** s);
// Looks up a symbol that is equal to the given string and returns
// true if it is found, assigning the symbol to the given output
// parameter.
bool LookupSymbolIfExists(String* str, String** symbol);
// Casting.
static inline SymbolTable* cast(Object* obj);
private:
Object* LookupKey(HashTableKey* key, Object** s);
DISALLOW_IMPLICIT_CONSTRUCTORS(SymbolTable);
};
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16 years ago
class MapCacheShape {
public:
static bool IsMatch(HashTableKey* key, Object* value) {
return key->IsMatch(value);
}
static uint32_t Hash(HashTableKey* key) {
return key->Hash();
}
static uint32_t HashForObject(HashTableKey* key, Object* object) {
return key->HashForObject(object);
}
static Object* AsObject(HashTableKey* key) {
return key->AsObject();
}
static const int kPrefixSize = 0;
static const int kEntrySize = 2;
};
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16 years ago
// MapCache.
//
// Maps keys that are a fixed array of symbols to a map.
// Used for canonicalize maps for object literals.
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16 years ago
class MapCache: public HashTable<MapCacheShape, HashTableKey*> {
import full versions of dependency libraries!
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public:
// Find cached value for a string key, otherwise return null.
Object* Lookup(FixedArray* key);
Object* Put(FixedArray* key, Map* value);
static inline MapCache* cast(Object* obj);
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(MapCache);
};
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16 years ago
template <typename Shape, typename Key>
class Dictionary: public HashTable<Shape, Key> {
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public:
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static inline Dictionary<Shape, Key>* cast(Object* obj) {
return reinterpret_cast<Dictionary<Shape, Key>*>(obj);
}
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// Returns the value at entry.
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Object* ValueAt(int entry) {
return get(HashTable<Shape, Key>::EntryToIndex(entry)+1);
}
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// Set the value for entry.
void ValueAtPut(int entry, Object* value) {
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16 years ago
set(HashTable<Shape, Key>::EntryToIndex(entry)+1, value);
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16 years ago
}
// Returns the property details for the property at entry.
PropertyDetails DetailsAt(int entry) {
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ASSERT(entry >= 0); // Not found is -1, which is not caught by get().
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return PropertyDetails(
Smi::cast(get(HashTable<Shape, Key>::EntryToIndex(entry) + 2)));
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16 years ago
}
// Set the details for entry.
void DetailsAtPut(int entry, PropertyDetails value) {
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set(HashTable<Shape, Key>::EntryToIndex(entry) + 2, value.AsSmi());
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16 years ago
}
// Sorting support
void CopyValuesTo(FixedArray* elements);
// Delete a property from the dictionary.
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Object* DeleteProperty(int entry, JSObject::DeleteMode mode);
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// Returns the number of elements in the dictionary filtering out properties
// with the specified attributes.
int NumberOfElementsFilterAttributes(PropertyAttributes filter);
// Returns the number of enumerable elements in the dictionary.
int NumberOfEnumElements();
// Copies keys to preallocated fixed array.
void CopyKeysTo(FixedArray* storage, PropertyAttributes filter);
// Fill in details for properties into storage.
void CopyKeysTo(FixedArray* storage);
// Accessors for next enumeration index.
void SetNextEnumerationIndex(int index) {
fast_set(this, kNextEnumerationIndexIndex, Smi::FromInt(index));
}
int NextEnumerationIndex() {
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return Smi::cast(FixedArray::get(kNextEnumerationIndexIndex))->value();
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16 years ago
}
// Returns a new array for dictionary usage. Might return Failure.
static Object* Allocate(int at_least_space_for);
// Ensure enough space for n additional elements.
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Object* EnsureCapacity(int n, Key key);
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#ifdef DEBUG
void Print();
#endif
// Returns the key (slow).
Object* SlowReverseLookup(Object* value);
// Sets the entry to (key, value) pair.
inline void SetEntry(int entry,
Object* key,
Object* value,
PropertyDetails details);
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16 years ago
Object* Add(Key key, Object* value, PropertyDetails details);
protected:
// Generic at put operation.
Object* AtPut(Key key, Object* value);
// Add entry to dictionary.
Object* AddEntry(Key key,
Object* value,
PropertyDetails details,
uint32_t hash);
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// Generate new enumeration indices to avoid enumeration index overflow.
Object* GenerateNewEnumerationIndices();
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static const int kMaxNumberKeyIndex =
HashTable<Shape, Key>::kPrefixStartIndex;
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static const int kNextEnumerationIndexIndex = kMaxNumberKeyIndex + 1;
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16 years ago
};
class StringDictionaryShape {
public:
static inline bool IsMatch(String* key, Object* other);
static inline uint32_t Hash(String* key);
static inline uint32_t HashForObject(String* key, Object* object);
static inline Object* AsObject(String* key);
static const int kPrefixSize = 2;
static const int kEntrySize = 3;
static const bool kIsEnumerable = true;
};
class StringDictionary: public Dictionary<StringDictionaryShape, String*> {
public:
static inline StringDictionary* cast(Object* obj) {
ASSERT(obj->IsDictionary());
return reinterpret_cast<StringDictionary*>(obj);
}
// Copies enumerable keys to preallocated fixed array.
void CopyEnumKeysTo(FixedArray* storage, FixedArray* sort_array);
// For transforming properties of a JSObject.
Object* TransformPropertiesToFastFor(JSObject* obj,
int unused_property_fields);
};
import full versions of dependency libraries!
16 years ago
Upgrade V8 to 1.2.14
16 years ago
class NumberDictionaryShape {
public:
static inline bool IsMatch(uint32_t key, Object* other);
static inline uint32_t Hash(uint32_t key);
static inline uint32_t HashForObject(uint32_t key, Object* object);
static inline Object* AsObject(uint32_t key);
static const int kPrefixSize = 2;
static const int kEntrySize = 3;
static const bool kIsEnumerable = false;
};
class NumberDictionary: public Dictionary<NumberDictionaryShape, uint32_t> {
public:
static NumberDictionary* cast(Object* obj) {
ASSERT(obj->IsDictionary());
return reinterpret_cast<NumberDictionary*>(obj);
}
// Type specific at put (default NONE attributes is used when adding).
Object* AtNumberPut(uint32_t key, Object* value);
Object* AddNumberEntry(uint32_t key,
Object* value,
PropertyDetails details);
// Set an existing entry or add a new one if needed.
Object* Set(uint32_t key, Object* value, PropertyDetails details);
void UpdateMaxNumberKey(uint32_t key);
// If slow elements are required we will never go back to fast-case
// for the elements kept in this dictionary. We require slow
// elements if an element has been added at an index larger than
// kRequiresSlowElementsLimit or set_requires_slow_elements() has been called
// when defining a getter or setter with a number key.
inline bool requires_slow_elements();
inline void set_requires_slow_elements();
// Get the value of the max number key that has been added to this
// dictionary. max_number_key can only be called if
// requires_slow_elements returns false.
inline uint32_t max_number_key();
// Remove all entries were key is a number and (from <= key && key < to).
void RemoveNumberEntries(uint32_t from, uint32_t to);
// Bit masks.
static const int kRequiresSlowElementsMask = 1;
static const int kRequiresSlowElementsTagSize = 1;
static const uint32_t kRequiresSlowElementsLimit = (1 << 29) - 1;
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};
// ByteArray represents fixed sized byte arrays. Used by the outside world,
// such as PCRE, and also by the memory allocator and garbage collector to
// fill in free blocks in the heap.
class ByteArray: public Array {
public:
// Setter and getter.
inline byte get(int index);
inline void set(int index, byte value);
// Treat contents as an int array.
inline int get_int(int index);
static int SizeFor(int length) {
Upgrade to v8 1.2.7
16 years ago
return OBJECT_SIZE_ALIGN(kHeaderSize + length);
import full versions of dependency libraries!
16 years ago
}
// We use byte arrays for free blocks in the heap. Given a desired size in
// bytes that is a multiple of the word size and big enough to hold a byte
// array, this function returns the number of elements a byte array should
// have.
static int LengthFor(int size_in_bytes) {
ASSERT(IsAligned(size_in_bytes, kPointerSize));
ASSERT(size_in_bytes >= kHeaderSize);
return size_in_bytes - kHeaderSize;
}
// Returns data start address.
inline Address GetDataStartAddress();
// Returns a pointer to the ByteArray object for a given data start address.
static inline ByteArray* FromDataStartAddress(Address address);
// Casting.
static inline ByteArray* cast(Object* obj);
// Dispatched behavior.
int ByteArraySize() { return SizeFor(length()); }
#ifdef DEBUG
void ByteArrayPrint();
void ByteArrayVerify();
#endif
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// ByteArray headers are not quadword aligned.
static const int kHeaderSize = Array::kHeaderSize;
static const int kAlignedSize = Array::kAlignedSize;
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private:
DISALLOW_IMPLICIT_CONSTRUCTORS(ByteArray);
};
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15 years ago
// A PixelArray represents a fixed-size byte array with special semantics
// used for implementing the CanvasPixelArray object. Please see the
// specification at:
// http://www.whatwg.org/specs/web-apps/current-work/
// multipage/the-canvas-element.html#canvaspixelarray
// In particular, write access clamps the value written to 0 or 255 if the
// value written is outside this range.
class PixelArray: public Array {
public:
// [external_pointer]: The pointer to the external memory area backing this
// pixel array.
DECL_ACCESSORS(external_pointer, uint8_t) // Pointer to the data store.
// Setter and getter.
inline uint8_t get(int index);
inline void set(int index, uint8_t value);
// This accessor applies the correct conversion from Smi, HeapNumber and
// undefined and clamps the converted value between 0 and 255.
Object* SetValue(uint32_t index, Object* value);
// Casting.
static inline PixelArray* cast(Object* obj);
#ifdef DEBUG
void PixelArrayPrint();
void PixelArrayVerify();
#endif // DEBUG
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15 years ago
// Maximal acceptable length for a pixel array.
static const int kMaxLength = 0x3fffffff;
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15 years ago
// PixelArray headers are not quadword aligned.
static const int kExternalPointerOffset = Array::kAlignedSize;
static const int kHeaderSize = kExternalPointerOffset + kPointerSize;
static const int kAlignedSize = OBJECT_SIZE_ALIGN(kHeaderSize);
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(PixelArray);
};
Upgrade v8 to 1.3.17
15 years ago
// An ExternalArray represents a fixed-size array of primitive values
// which live outside the JavaScript heap. Its subclasses are used to
// implement the CanvasArray types being defined in the WebGL
// specification. As of this writing the first public draft is not yet
// available, but Khronos members can access the draft at:
// https://cvs.khronos.org/svn/repos/3dweb/trunk/doc/spec/WebGL-spec.html
//
// The semantics of these arrays differ from CanvasPixelArray.
// Out-of-range values passed to the setter are converted via a C
// cast, not clamping. Out-of-range indices cause exceptions to be
// raised rather than being silently ignored.
class ExternalArray: public Array {
public:
// [external_pointer]: The pointer to the external memory area backing this
// external array.
DECL_ACCESSORS(external_pointer, void) // Pointer to the data store.
// Casting.
static inline ExternalArray* cast(Object* obj);
// Maximal acceptable length for an external array.
static const int kMaxLength = 0x3fffffff;
// ExternalArray headers are not quadword aligned.
static const int kExternalPointerOffset = Array::kAlignedSize;
static const int kHeaderSize = kExternalPointerOffset + kPointerSize;
static const int kAlignedSize = OBJECT_SIZE_ALIGN(kHeaderSize);
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(ExternalArray);
};
class ExternalByteArray: public ExternalArray {
public:
// Setter and getter.
inline int8_t get(int index);
inline void set(int index, int8_t value);
// This accessor applies the correct conversion from Smi, HeapNumber
// and undefined.
Object* SetValue(uint32_t index, Object* value);
// Casting.
static inline ExternalByteArray* cast(Object* obj);
#ifdef DEBUG
void ExternalByteArrayPrint();
void ExternalByteArrayVerify();
#endif // DEBUG
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(ExternalByteArray);
};
class ExternalUnsignedByteArray: public ExternalArray {
public:
// Setter and getter.
inline uint8_t get(int index);
inline void set(int index, uint8_t value);
// This accessor applies the correct conversion from Smi, HeapNumber
// and undefined.
Object* SetValue(uint32_t index, Object* value);
// Casting.
static inline ExternalUnsignedByteArray* cast(Object* obj);
#ifdef DEBUG
void ExternalUnsignedByteArrayPrint();
void ExternalUnsignedByteArrayVerify();
#endif // DEBUG
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(ExternalUnsignedByteArray);
};
class ExternalShortArray: public ExternalArray {
public:
// Setter and getter.
inline int16_t get(int index);
inline void set(int index, int16_t value);
// This accessor applies the correct conversion from Smi, HeapNumber
// and undefined.
Object* SetValue(uint32_t index, Object* value);
// Casting.
static inline ExternalShortArray* cast(Object* obj);
#ifdef DEBUG
void ExternalShortArrayPrint();
void ExternalShortArrayVerify();
#endif // DEBUG
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(ExternalShortArray);
};
class ExternalUnsignedShortArray: public ExternalArray {
public:
// Setter and getter.
inline uint16_t get(int index);
inline void set(int index, uint16_t value);
// This accessor applies the correct conversion from Smi, HeapNumber
// and undefined.
Object* SetValue(uint32_t index, Object* value);
// Casting.
static inline ExternalUnsignedShortArray* cast(Object* obj);
#ifdef DEBUG
void ExternalUnsignedShortArrayPrint();
void ExternalUnsignedShortArrayVerify();
#endif // DEBUG
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(ExternalUnsignedShortArray);
};
class ExternalIntArray: public ExternalArray {
public:
// Setter and getter.
inline int32_t get(int index);
inline void set(int index, int32_t value);
// This accessor applies the correct conversion from Smi, HeapNumber
// and undefined.
Object* SetValue(uint32_t index, Object* value);
// Casting.
static inline ExternalIntArray* cast(Object* obj);
#ifdef DEBUG
void ExternalIntArrayPrint();
void ExternalIntArrayVerify();
#endif // DEBUG
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(ExternalIntArray);
};
class ExternalUnsignedIntArray: public ExternalArray {
public:
// Setter and getter.
inline uint32_t get(int index);
inline void set(int index, uint32_t value);
// This accessor applies the correct conversion from Smi, HeapNumber
// and undefined.
Object* SetValue(uint32_t index, Object* value);
// Casting.
static inline ExternalUnsignedIntArray* cast(Object* obj);
#ifdef DEBUG
void ExternalUnsignedIntArrayPrint();
void ExternalUnsignedIntArrayVerify();
#endif // DEBUG
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(ExternalUnsignedIntArray);
};
class ExternalFloatArray: public ExternalArray {
public:
// Setter and getter.
inline float get(int index);
inline void set(int index, float value);
// This accessor applies the correct conversion from Smi, HeapNumber
// and undefined.
Object* SetValue(uint32_t index, Object* value);
// Casting.
static inline ExternalFloatArray* cast(Object* obj);
#ifdef DEBUG
void ExternalFloatArrayPrint();
void ExternalFloatArrayVerify();
#endif // DEBUG
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(ExternalFloatArray);
};
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// Code describes objects with on-the-fly generated machine code.
class Code: public HeapObject {
public:
// Opaque data type for encapsulating code flags like kind, inline
// cache state, and arguments count.
enum Flags { };
enum Kind {
FUNCTION,
STUB,
BUILTIN,
LOAD_IC,
KEYED_LOAD_IC,
CALL_IC,
STORE_IC,
KEYED_STORE_IC,
// No more than eight kinds. The value currently encoded in three bits in
// Flags.
// Pseudo-kinds.
REGEXP = BUILTIN,
FIRST_IC_KIND = LOAD_IC,
LAST_IC_KIND = KEYED_STORE_IC
};
enum {
NUMBER_OF_KINDS = KEYED_STORE_IC + 1
};
#ifdef ENABLE_DISASSEMBLER
// Printing
static const char* Kind2String(Kind kind);
static const char* ICState2String(InlineCacheState state);
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static const char* PropertyType2String(PropertyType type);
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void Disassemble(const char* name);
#endif // ENABLE_DISASSEMBLER
// [instruction_size]: Size of the native instructions
inline int instruction_size();
inline void set_instruction_size(int value);
// [relocation_size]: Size of relocation information.
inline int relocation_size();
inline void set_relocation_size(int value);
// [sinfo_size]: Size of scope information.
inline int sinfo_size();
inline void set_sinfo_size(int value);
// [flags]: Various code flags.
inline Flags flags();
inline void set_flags(Flags flags);
// [flags]: Access to specific code flags.
inline Kind kind();
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inline InlineCacheState ic_state(); // Only valid for IC stubs.
Upgrade V8 to 1.2.14
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inline InLoopFlag ic_in_loop(); // Only valid for IC stubs.
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16 years ago
inline PropertyType type(); // Only valid for monomorphic IC stubs.
inline int arguments_count(); // Only valid for call IC stubs.
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// Testers for IC stub kinds.
inline bool is_inline_cache_stub();
inline bool is_load_stub() { return kind() == LOAD_IC; }
inline bool is_keyed_load_stub() { return kind() == KEYED_LOAD_IC; }
inline bool is_store_stub() { return kind() == STORE_IC; }
inline bool is_keyed_store_stub() { return kind() == KEYED_STORE_IC; }
inline bool is_call_stub() { return kind() == CALL_IC; }
// [major_key]: For kind STUB, the major key.
inline CodeStub::Major major_key();
inline void set_major_key(CodeStub::Major major);
// Flags operations.
static inline Flags ComputeFlags(Kind kind,
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InLoopFlag in_loop = NOT_IN_LOOP,
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InlineCacheState ic_state = UNINITIALIZED,
PropertyType type = NORMAL,
int argc = -1);
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static inline Flags ComputeMonomorphicFlags(
Kind kind,
PropertyType type,
InLoopFlag in_loop = NOT_IN_LOOP,
int argc = -1);
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static inline Kind ExtractKindFromFlags(Flags flags);
static inline InlineCacheState ExtractICStateFromFlags(Flags flags);
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static inline InLoopFlag ExtractICInLoopFromFlags(Flags flags);
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static inline PropertyType ExtractTypeFromFlags(Flags flags);
static inline int ExtractArgumentsCountFromFlags(Flags flags);
static inline Flags RemoveTypeFromFlags(Flags flags);
// Convert a target address into a code object.
static inline Code* GetCodeFromTargetAddress(Address address);
// Returns the address of the first instruction.
inline byte* instruction_start();
// Returns the size of the instructions, padding, and relocation information.
inline int body_size();
// Returns the address of the first relocation info (read backwards!).
inline byte* relocation_start();
// Code entry point.
inline byte* entry();
// Returns true if pc is inside this object's instructions.
inline bool contains(byte* pc);
// Returns the address of the scope information.
inline byte* sinfo_start();
// Relocate the code by delta bytes. Called to signal that this code
// object has been moved by delta bytes.
void Relocate(int delta);
// Migrate code described by desc.
void CopyFrom(const CodeDesc& desc);
// Returns the object size for a given body and sinfo size (Used for
// allocation).
static int SizeFor(int body_size, int sinfo_size) {
ASSERT_SIZE_TAG_ALIGNED(body_size);
ASSERT_SIZE_TAG_ALIGNED(sinfo_size);
return RoundUp(kHeaderSize + body_size + sinfo_size, kCodeAlignment);
}
// Calculate the size of the code object to report for log events. This takes
// the layout of the code object into account.
int ExecutableSize() {
// Check that the assumptions about the layout of the code object holds.
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ASSERT_EQ(static_cast<int>(instruction_start() - address()),
Code::kHeaderSize);
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return instruction_size() + Code::kHeaderSize;
}
// Locating source position.
int SourcePosition(Address pc);
int SourceStatementPosition(Address pc);
// Casting.
static inline Code* cast(Object* obj);
// Dispatched behavior.
int CodeSize() { return SizeFor(body_size(), sinfo_size()); }
void CodeIterateBody(ObjectVisitor* v);
#ifdef DEBUG
void CodePrint();
void CodeVerify();
#endif
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// Code entry points are aligned to 32 bytes.
static const int kCodeAlignment = 32;
static const int kCodeAlignmentMask = kCodeAlignment - 1;
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// Layout description.
static const int kInstructionSizeOffset = HeapObject::kHeaderSize;
static const int kRelocationSizeOffset = kInstructionSizeOffset + kIntSize;
static const int kSInfoSizeOffset = kRelocationSizeOffset + kIntSize;
static const int kFlagsOffset = kSInfoSizeOffset + kIntSize;
static const int kKindSpecificFlagsOffset = kFlagsOffset + kIntSize;
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// Add padding to align the instruction start following right after
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// the Code object header.
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static const int kHeaderSize =
(kKindSpecificFlagsOffset + kIntSize + kCodeAlignmentMask) &
~kCodeAlignmentMask;
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// Byte offsets within kKindSpecificFlagsOffset.
static const int kStubMajorKeyOffset = kKindSpecificFlagsOffset + 1;
// Flags layout.
static const int kFlagsICStateShift = 0;
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static const int kFlagsICInLoopShift = 3;
static const int kFlagsKindShift = 4;
static const int kFlagsTypeShift = 7;
static const int kFlagsArgumentsCountShift = 10;
static const int kFlagsICStateMask = 0x00000007; // 0000000111
static const int kFlagsICInLoopMask = 0x00000008; // 0000001000
static const int kFlagsKindMask = 0x00000070; // 0001110000
static const int kFlagsTypeMask = 0x00000380; // 1110000000
static const int kFlagsArgumentsCountMask = 0xFFFFFC00;
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Upgrade to v8 1.2.7
16 years ago
static const int kFlagsNotUsedInLookup =
(kFlagsICInLoopMask | kFlagsTypeMask);
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private:
DISALLOW_IMPLICIT_CONSTRUCTORS(Code);
};
// All heap objects have a Map that describes their structure.
// A Map contains information about:
// - Size information about the object
// - How to iterate over an object (for garbage collection)
class Map: public HeapObject {
public:
// Instance size.
inline int instance_size();
inline void set_instance_size(int value);
// Count of properties allocated in the object.
inline int inobject_properties();
inline void set_inobject_properties(int value);
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// Count of property fields pre-allocated in the object when first allocated.
inline int pre_allocated_property_fields();
inline void set_pre_allocated_property_fields(int value);
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// Instance type.
inline InstanceType instance_type();
inline void set_instance_type(InstanceType value);
// Tells how many unused property fields are available in the
// instance (only used for JSObject in fast mode).
inline int unused_property_fields();
inline void set_unused_property_fields(int value);
// Bit field.
inline byte bit_field();
inline void set_bit_field(byte value);
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// Bit field 2.
inline byte bit_field2();
inline void set_bit_field2(byte value);
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// Tells whether the object in the prototype property will be used
// for instances created from this function. If the prototype
// property is set to a value that is not a JSObject, the prototype
// property will not be used to create instances of the function.
// See ECMA-262, 13.2.2.
inline void set_non_instance_prototype(bool value);
inline bool has_non_instance_prototype();
// Tells whether the instance with this map should be ignored by the
// __proto__ accessor.
inline void set_is_hidden_prototype() {
set_bit_field(bit_field() | (1 << kIsHiddenPrototype));
}
inline bool is_hidden_prototype() {
return ((1 << kIsHiddenPrototype) & bit_field()) != 0;
}
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// Records and queries whether the instance has a named interceptor.
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inline void set_has_named_interceptor() {
set_bit_field(bit_field() | (1 << kHasNamedInterceptor));
}
inline bool has_named_interceptor() {
return ((1 << kHasNamedInterceptor) & bit_field()) != 0;
}
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// Records and queries whether the instance has an indexed interceptor.
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inline void set_has_indexed_interceptor() {
set_bit_field(bit_field() | (1 << kHasIndexedInterceptor));
}
inline bool has_indexed_interceptor() {
return ((1 << kHasIndexedInterceptor) & bit_field()) != 0;
}
// Tells whether the instance is undetectable.
// An undetectable object is a special class of JSObject: 'typeof' operator
// returns undefined, ToBoolean returns false. Otherwise it behaves like
// a normal JS object. It is useful for implementing undetectable
// document.all in Firefox & Safari.
// See https://bugzilla.mozilla.org/show_bug.cgi?id=248549.
inline void set_is_undetectable() {
set_bit_field(bit_field() | (1 << kIsUndetectable));
}
inline bool is_undetectable() {
return ((1 << kIsUndetectable) & bit_field()) != 0;
}
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inline void set_needs_loading(bool value) {
if (value) {
set_bit_field2(bit_field2() | (1 << kNeedsLoading));
} else {
set_bit_field2(bit_field2() & ~(1 << kNeedsLoading));
}
}
// Does this object or function require a lazily loaded script to be
// run before being used?
inline bool needs_loading() {
return ((1 << kNeedsLoading) & bit_field2()) != 0;
}
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// Tells whether the instance has a call-as-function handler.
inline void set_has_instance_call_handler() {
set_bit_field(bit_field() | (1 << kHasInstanceCallHandler));
}
inline bool has_instance_call_handler() {
return ((1 << kHasInstanceCallHandler) & bit_field()) != 0;
}
// Tells whether the instance needs security checks when accessing its
// properties.
inline void set_is_access_check_needed(bool access_check_needed);
inline bool is_access_check_needed();
// [prototype]: implicit prototype object.
DECL_ACCESSORS(prototype, Object)
// [constructor]: points back to the function responsible for this map.
DECL_ACCESSORS(constructor, Object)
// [instance descriptors]: describes the object.
DECL_ACCESSORS(instance_descriptors, DescriptorArray)
// [stub cache]: contains stubs compiled for this map.
DECL_ACCESSORS(code_cache, FixedArray)
// Returns a copy of the map.
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Object* CopyDropDescriptors();
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// Returns a copy of the map, with all transitions dropped from the
// instance descriptors.
Object* CopyDropTransitions();
// Returns the property index for name (only valid for FAST MODE).
int PropertyIndexFor(String* name);
// Returns the next free property index (only valid for FAST MODE).
int NextFreePropertyIndex();
// Returns the number of properties described in instance_descriptors.
int NumberOfDescribedProperties();
// Casting.
static inline Map* cast(Object* obj);
// Locate an accessor in the instance descriptor.
AccessorDescriptor* FindAccessor(String* name);
// Code cache operations.
// Clears the code cache.
inline void ClearCodeCache();
// Update code cache.
Object* UpdateCodeCache(String* name, Code* code);
// Returns the found code or undefined if absent.
Object* FindInCodeCache(String* name, Code::Flags flags);
// Returns the non-negative index of the code object if it is in the
// cache and -1 otherwise.
int IndexInCodeCache(Code* code);
// Removes a code object from the code cache at the given index.
void RemoveFromCodeCache(int index);
// For every transition in this map, makes the transition's
// target's prototype pointer point back to this map.
// This is undone in MarkCompactCollector::ClearNonLiveTransitions().
void CreateBackPointers();
// Set all map transitions from this map to dead maps to null.
// Also, restore the original prototype on the targets of these
// transitions, so that we do not process this map again while
// following back pointers.
void ClearNonLiveTransitions(Object* real_prototype);
// Dispatched behavior.
void MapIterateBody(ObjectVisitor* v);
#ifdef DEBUG
void MapPrint();
void MapVerify();
#endif
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static const int kMaxPreAllocatedPropertyFields = 255;
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// Layout description.
static const int kInstanceSizesOffset = HeapObject::kHeaderSize;
static const int kInstanceAttributesOffset = kInstanceSizesOffset + kIntSize;
static const int kPrototypeOffset = kInstanceAttributesOffset + kIntSize;
static const int kConstructorOffset = kPrototypeOffset + kPointerSize;
static const int kInstanceDescriptorsOffset =
kConstructorOffset + kPointerSize;
static const int kCodeCacheOffset = kInstanceDescriptorsOffset + kPointerSize;
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static const int kSize = kCodeCacheOffset + kPointerSize;
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// Byte offsets within kInstanceSizesOffset.
static const int kInstanceSizeOffset = kInstanceSizesOffset + 0;
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static const int kInObjectPropertiesByte = 1;
static const int kInObjectPropertiesOffset =
kInstanceSizesOffset + kInObjectPropertiesByte;
static const int kPreAllocatedPropertyFieldsByte = 2;
static const int kPreAllocatedPropertyFieldsOffset =
kInstanceSizesOffset + kPreAllocatedPropertyFieldsByte;
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// The byte at position 3 is not in use at the moment.
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// Byte offsets within kInstanceAttributesOffset attributes.
static const int kInstanceTypeOffset = kInstanceAttributesOffset + 0;
static const int kUnusedPropertyFieldsOffset = kInstanceAttributesOffset + 1;
static const int kBitFieldOffset = kInstanceAttributesOffset + 2;
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static const int kBitField2Offset = kInstanceAttributesOffset + 3;
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STATIC_CHECK(kInstanceTypeOffset == Internals::kMapInstanceTypeOffset);
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// Bit positions for bit field.
static const int kUnused = 0; // To be used for marking recently used maps.
static const int kHasNonInstancePrototype = 1;
static const int kIsHiddenPrototype = 2;
static const int kHasNamedInterceptor = 3;
static const int kHasIndexedInterceptor = 4;
static const int kIsUndetectable = 5;
static const int kHasInstanceCallHandler = 6;
static const int kIsAccessCheckNeeded = 7;
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// Bit positions for bit field 2
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static const int kNeedsLoading = 0;
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private:
DISALLOW_IMPLICIT_CONSTRUCTORS(Map);
};
// An abstract superclass, a marker class really, for simple structure classes.
// It doesn't carry much functionality but allows struct classes to me
// identified in the type system.
class Struct: public HeapObject {
public:
inline void InitializeBody(int object_size);
static inline Struct* cast(Object* that);
};
// Script describes a script which has been added to the VM.
class Script: public Struct {
public:
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// Script types.
enum Type {
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TYPE_NATIVE = 0,
TYPE_EXTENSION = 1,
TYPE_NORMAL = 2
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};
// Script compilation types.
enum CompilationType {
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COMPILATION_TYPE_HOST = 0,
COMPILATION_TYPE_EVAL = 1,
COMPILATION_TYPE_JSON = 2
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};
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// [source]: the script source.
DECL_ACCESSORS(source, Object)
// [name]: the script name.
DECL_ACCESSORS(name, Object)
// [id]: the script id.
DECL_ACCESSORS(id, Object)
// [line_offset]: script line offset in resource from where it was extracted.
DECL_ACCESSORS(line_offset, Smi)
// [column_offset]: script column offset in resource from where it was
// extracted.
DECL_ACCESSORS(column_offset, Smi)
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// [data]: additional data associated with this script.
DECL_ACCESSORS(data, Object)
// [context_data]: context data for the context this script was compiled in.
DECL_ACCESSORS(context_data, Object)
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// [wrapper]: the wrapper cache.
DECL_ACCESSORS(wrapper, Proxy)
// [type]: the script type.
DECL_ACCESSORS(type, Smi)
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// [compilation]: how the the script was compiled.
DECL_ACCESSORS(compilation_type, Smi)
// [line_ends]: array of line ends positions.
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DECL_ACCESSORS(line_ends, Object)
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// [eval_from_function]: for eval scripts the funcion from which eval was
// called.
DECL_ACCESSORS(eval_from_function, Object)
// [eval_from_instructions_offset]: the instruction offset in the code for the
// function from which eval was called where eval was called.
DECL_ACCESSORS(eval_from_instructions_offset, Smi)
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static inline Script* cast(Object* obj);
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// If script source is an external string, check that the underlying
// resource is accessible. Otherwise, always return true.
inline bool HasValidSource();
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#ifdef DEBUG
void ScriptPrint();
void ScriptVerify();
#endif
static const int kSourceOffset = HeapObject::kHeaderSize;
static const int kNameOffset = kSourceOffset + kPointerSize;
static const int kLineOffsetOffset = kNameOffset + kPointerSize;
static const int kColumnOffsetOffset = kLineOffsetOffset + kPointerSize;
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static const int kDataOffset = kColumnOffsetOffset + kPointerSize;
static const int kContextOffset = kDataOffset + kPointerSize;
static const int kWrapperOffset = kContextOffset + kPointerSize;
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static const int kTypeOffset = kWrapperOffset + kPointerSize;
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static const int kCompilationTypeOffset = kTypeOffset + kPointerSize;
static const int kLineEndsOffset = kCompilationTypeOffset + kPointerSize;
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static const int kIdOffset = kLineEndsOffset + kPointerSize;
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static const int kEvalFromFunctionOffset = kIdOffset + kPointerSize;
static const int kEvalFrominstructionsOffsetOffset =
kEvalFromFunctionOffset + kPointerSize;
static const int kSize = kEvalFrominstructionsOffsetOffset + kPointerSize;
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private:
DISALLOW_IMPLICIT_CONSTRUCTORS(Script);
};
// SharedFunctionInfo describes the JSFunction information that can be
// shared by multiple instances of the function.
class SharedFunctionInfo: public HeapObject {
public:
// [name]: Function name.
DECL_ACCESSORS(name, Object)
// [code]: Function code.
DECL_ACCESSORS(code, Code)
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// [construct stub]: Code stub for constructing instances of this function.
DECL_ACCESSORS(construct_stub, Code)
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// Returns if this function has been compiled to native code yet.
inline bool is_compiled();
// [length]: The function length - usually the number of declared parameters.
// Use up to 2^30 parameters.
inline int length();
inline void set_length(int value);
// [formal parameter count]: The declared number of parameters.
inline int formal_parameter_count();
inline void set_formal_parameter_count(int value);
// Set the formal parameter count so the function code will be
// called without using argument adaptor frames.
inline void DontAdaptArguments();
// [expected_nof_properties]: Expected number of properties for the function.
inline int expected_nof_properties();
inline void set_expected_nof_properties(int value);
// [instance class name]: class name for instances.
DECL_ACCESSORS(instance_class_name, Object)
// [function data]: This field has been added for make benefit the API.
// In the long run we don't want all functions to have this field but
// we can fix that when we have a better model for storing hidden data
// on objects.
DECL_ACCESSORS(function_data, Object)
// [script info]: Script from which the function originates.
DECL_ACCESSORS(script, Object)
// [start_position_and_type]: Field used to store both the source code
// position, whether or not the function is a function expression,
// and whether or not the function is a toplevel function. The two
// least significants bit indicates whether the function is an
// expression and the rest contains the source code position.
inline int start_position_and_type();
inline void set_start_position_and_type(int value);
// [debug info]: Debug information.
DECL_ACCESSORS(debug_info, Object)
// [inferred name]: Name inferred from variable or property
// assignment of this function. Used to facilitate debugging and
// profiling of JavaScript code written in OO style, where almost
// all functions are anonymous but are assigned to object
// properties.
DECL_ACCESSORS(inferred_name, String)
// Position of the 'function' token in the script source.
inline int function_token_position();
inline void set_function_token_position(int function_token_position);
// Position of this function in the script source.
inline int start_position();
inline void set_start_position(int start_position);
// End position of this function in the script source.
inline int end_position();
inline void set_end_position(int end_position);
// Is this function a function expression in the source code.
inline bool is_expression();
inline void set_is_expression(bool value);
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// Is this function a top-level function (scripts, evals).
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inline bool is_toplevel();
inline void set_is_toplevel(bool value);
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// Bit field containing various information collected by the compiler to
// drive optimization.
inline int compiler_hints();
inline void set_compiler_hints(int value);
// Add information on assignments of the form this.x = ...;
void SetThisPropertyAssignmentsInfo(
bool has_only_this_property_assignments,
bool has_only_simple_this_property_assignments,
FixedArray* this_property_assignments);
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// Clear information on assignments of the form this.x = ...;
void ClearThisPropertyAssignmentsInfo();
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// Indicate that this function only consists of assignments of the form
// this.x = ...;.
inline bool has_only_this_property_assignments();
// Indicate that this function only consists of assignments of the form
// this.x = y; where y is either a constant or refers to an argument.
inline bool has_only_simple_this_property_assignments();
// For functions which only contains this property assignments this provides
// access to the names for the properties assigned.
DECL_ACCESSORS(this_property_assignments, Object)
inline int this_property_assignments_count();
inline void set_this_property_assignments_count(int value);
String* GetThisPropertyAssignmentName(int index);
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bool IsThisPropertyAssignmentArgument(int index);
int GetThisPropertyAssignmentArgument(int index);
Object* GetThisPropertyAssignmentConstant(int index);
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// [source code]: Source code for the function.
bool HasSourceCode();
Object* GetSourceCode();
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// Calculate the instance size.
int CalculateInstanceSize();
// Calculate the number of in-object properties.
int CalculateInObjectProperties();
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// Dispatched behavior.
void SharedFunctionInfoIterateBody(ObjectVisitor* v);
// Set max_length to -1 for unlimited length.
void SourceCodePrint(StringStream* accumulator, int max_length);
#ifdef DEBUG
void SharedFunctionInfoPrint();
void SharedFunctionInfoVerify();
#endif
// Casting.
static inline SharedFunctionInfo* cast(Object* obj);
// Constants.
static const int kDontAdaptArgumentsSentinel = -1;
// Layout description.
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// (An even number of integers has a size that is a multiple of a pointer.)
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static const int kNameOffset = HeapObject::kHeaderSize;
static const int kCodeOffset = kNameOffset + kPointerSize;
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static const int kConstructStubOffset = kCodeOffset + kPointerSize;
static const int kLengthOffset = kConstructStubOffset + kPointerSize;
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static const int kFormalParameterCountOffset = kLengthOffset + kIntSize;
static const int kExpectedNofPropertiesOffset =
kFormalParameterCountOffset + kIntSize;
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static const int kStartPositionAndTypeOffset =
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kExpectedNofPropertiesOffset + kIntSize;
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static const int kEndPositionOffset = kStartPositionAndTypeOffset + kIntSize;
static const int kFunctionTokenPositionOffset = kEndPositionOffset + kIntSize;
static const int kInstanceClassNameOffset =
kFunctionTokenPositionOffset + kIntSize;
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static const int kExternalReferenceDataOffset =
kInstanceClassNameOffset + kPointerSize;
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static const int kScriptOffset = kExternalReferenceDataOffset + kPointerSize;
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static const int kDebugInfoOffset = kScriptOffset + kPointerSize;
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static const int kInferredNameOffset = kDebugInfoOffset + kPointerSize;
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static const int kCompilerHintsOffset = kInferredNameOffset + kPointerSize;
static const int kThisPropertyAssignmentsOffset =
kCompilerHintsOffset + kPointerSize;
static const int kThisPropertyAssignmentsCountOffset =
kThisPropertyAssignmentsOffset + kPointerSize;
static const int kSize = kThisPropertyAssignmentsCountOffset + kPointerSize;
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private:
// Bit positions in length_and_flg.
// The least significant bit is used as the flag.
static const int kFlagBit = 0;
static const int kLengthShift = 1;
static const int kLengthMask = ~((1 << kLengthShift) - 1);
// Bit positions in start_position_and_type.
// The source code start position is in the 30 most significant bits of
// the start_position_and_type field.
static const int kIsExpressionBit = 0;
static const int kIsTopLevelBit = 1;
static const int kStartPositionShift = 2;
static const int kStartPositionMask = ~((1 << kStartPositionShift) - 1);
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// Bit positions in compiler_hints.
static const int kHasOnlyThisPropertyAssignments = 0;
static const int kHasOnlySimpleThisPropertyAssignments = 1;
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DISALLOW_IMPLICIT_CONSTRUCTORS(SharedFunctionInfo);
};
// JSFunction describes JavaScript functions.
class JSFunction: public JSObject {
public:
// [prototype_or_initial_map]:
DECL_ACCESSORS(prototype_or_initial_map, Object)
// [shared_function_info]: The information about the function that
// can be shared by instances.
DECL_ACCESSORS(shared, SharedFunctionInfo)
// [context]: The context for this function.
inline Context* context();
inline Object* unchecked_context();
inline void set_context(Object* context);
// [code]: The generated code object for this function. Executed
// when the function is invoked, e.g. foo() or new foo(). See
// [[Call]] and [[Construct]] description in ECMA-262, section
// 8.6.2, page 27.
inline Code* code();
inline void set_code(Code* value);
// Tells whether this function is a context-independent boilerplate
// function.
inline bool IsBoilerplate();
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// Tells whether this function is builtin.
inline bool IsBuiltin();
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// [literals]: Fixed array holding the materialized literals.
//
// If the function contains object, regexp or array literals, the
// literals array prefix contains the object, regexp, and array
// function to be used when creating these literals. This is
// necessary so that we do not dynamically lookup the object, regexp
// or array functions. Performing a dynamic lookup, we might end up
// using the functions from a new context that we should not have
// access to.
DECL_ACCESSORS(literals, FixedArray)
// The initial map for an object created by this constructor.
inline Map* initial_map();
inline void set_initial_map(Map* value);
inline bool has_initial_map();
// Get and set the prototype property on a JSFunction. If the
// function has an initial map the prototype is set on the initial
// map. Otherwise, the prototype is put in the initial map field
// until an initial map is needed.
inline bool has_prototype();
inline bool has_instance_prototype();
inline Object* prototype();
inline Object* instance_prototype();
Object* SetInstancePrototype(Object* value);
Object* SetPrototype(Object* value);
// Accessor for this function's initial map's [[class]]
// property. This is primarily used by ECMA native functions. This
// method sets the class_name field of this function's initial map
// to a given value. It creates an initial map if this function does
// not have one. Note that this method does not copy the initial map
// if it has one already, but simply replaces it with the new value.
// Instances created afterwards will have a map whose [[class]] is
// set to 'value', but there is no guarantees on instances created
// before.
Object* SetInstanceClassName(String* name);
// Returns if this function has been compiled to native code yet.
inline bool is_compiled();
// Casting.
static inline JSFunction* cast(Object* obj);
// Dispatched behavior.
#ifdef DEBUG
void JSFunctionPrint();
void JSFunctionVerify();
#endif
// Returns the number of allocated literals.
inline int NumberOfLiterals();
// Retrieve the global context from a function's literal array.
static Context* GlobalContextFromLiterals(FixedArray* literals);
// Layout descriptors.
static const int kPrototypeOrInitialMapOffset = JSObject::kHeaderSize;
static const int kSharedFunctionInfoOffset =
kPrototypeOrInitialMapOffset + kPointerSize;
static const int kContextOffset = kSharedFunctionInfoOffset + kPointerSize;
static const int kLiteralsOffset = kContextOffset + kPointerSize;
static const int kSize = kLiteralsOffset + kPointerSize;
// Layout of the literals array.
static const int kLiteralsPrefixSize = 1;
static const int kLiteralGlobalContextIndex = 0;
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(JSFunction);
};
// JSGlobalProxy's prototype must be a JSGlobalObject or null,
// and the prototype is hidden. JSGlobalProxy always delegates
// property accesses to its prototype if the prototype is not null.
//
// A JSGlobalProxy can be reinitialized which will preserve its identity.
//
// Accessing a JSGlobalProxy requires security check.
class JSGlobalProxy : public JSObject {
public:
// [context]: the owner global context of this proxy object.
// It is null value if this object is not used by any context.
DECL_ACCESSORS(context, Object)
// Casting.
static inline JSGlobalProxy* cast(Object* obj);
// Dispatched behavior.
#ifdef DEBUG
void JSGlobalProxyPrint();
void JSGlobalProxyVerify();
#endif
// Layout description.
static const int kContextOffset = JSObject::kHeaderSize;
static const int kSize = kContextOffset + kPointerSize;
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(JSGlobalProxy);
};
// Forward declaration.
class JSBuiltinsObject;
// Common super class for JavaScript global objects and the special
// builtins global objects.
class GlobalObject: public JSObject {
public:
// [builtins]: the object holding the runtime routines written in JS.
DECL_ACCESSORS(builtins, JSBuiltinsObject)
// [global context]: the global context corresponding to this global object.
DECL_ACCESSORS(global_context, Context)
// [global receiver]: the global receiver object of the context
DECL_ACCESSORS(global_receiver, JSObject)
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// Retrieve the property cell used to store a property.
Object* GetPropertyCell(LookupResult* result);
// Ensure that the global object has a cell for the given property name.
Object* EnsurePropertyCell(String* name);
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// Casting.
static inline GlobalObject* cast(Object* obj);
// Layout description.
static const int kBuiltinsOffset = JSObject::kHeaderSize;
static const int kGlobalContextOffset = kBuiltinsOffset + kPointerSize;
static const int kGlobalReceiverOffset = kGlobalContextOffset + kPointerSize;
static const int kHeaderSize = kGlobalReceiverOffset + kPointerSize;
private:
friend class AGCCVersionRequiresThisClassToHaveAFriendSoHereItIs;
DISALLOW_IMPLICIT_CONSTRUCTORS(GlobalObject);
};
// JavaScript global object.
class JSGlobalObject: public GlobalObject {
public:
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// Casting.
static inline JSGlobalObject* cast(Object* obj);
// Dispatched behavior.
#ifdef DEBUG
void JSGlobalObjectPrint();
void JSGlobalObjectVerify();
#endif
// Layout description.
static const int kSize = GlobalObject::kHeaderSize;
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(JSGlobalObject);
};
// Builtins global object which holds the runtime routines written in
// JavaScript.
class JSBuiltinsObject: public GlobalObject {
public:
// Accessors for the runtime routines written in JavaScript.
inline Object* javascript_builtin(Builtins::JavaScript id);
inline void set_javascript_builtin(Builtins::JavaScript id, Object* value);
// Casting.
static inline JSBuiltinsObject* cast(Object* obj);
// Dispatched behavior.
#ifdef DEBUG
void JSBuiltinsObjectPrint();
void JSBuiltinsObjectVerify();
#endif
// Layout description. The size of the builtins object includes
// room for one pointer per runtime routine written in javascript.
static const int kJSBuiltinsCount = Builtins::id_count;
static const int kJSBuiltinsOffset = GlobalObject::kHeaderSize;
static const int kSize =
kJSBuiltinsOffset + (kJSBuiltinsCount * kPointerSize);
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(JSBuiltinsObject);
};
// Representation for JS Wrapper objects, String, Number, Boolean, Date, etc.
class JSValue: public JSObject {
public:
// [value]: the object being wrapped.
DECL_ACCESSORS(value, Object)
// Casting.
static inline JSValue* cast(Object* obj);
// Dispatched behavior.
#ifdef DEBUG
void JSValuePrint();
void JSValueVerify();
#endif
// Layout description.
static const int kValueOffset = JSObject::kHeaderSize;
static const int kSize = kValueOffset + kPointerSize;
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(JSValue);
};
// Regular expressions
// The regular expression holds a single reference to a FixedArray in
// the kDataOffset field.
// The FixedArray contains the following data:
// - tag : type of regexp implementation (not compiled yet, atom or irregexp)
// - reference to the original source string
// - reference to the original flag string
// If it is an atom regexp
// - a reference to a literal string to search for
// If it is an irregexp regexp:
// - a reference to code for ASCII inputs (bytecode or compiled).
// - a reference to code for UC16 inputs (bytecode or compiled).
// - max number of registers used by irregexp implementations.
// - number of capture registers (output values) of the regexp.
class JSRegExp: public JSObject {
public:
// Meaning of Type:
// NOT_COMPILED: Initial value. No data has been stored in the JSRegExp yet.
// ATOM: A simple string to match against using an indexOf operation.
// IRREGEXP: Compiled with Irregexp.
// IRREGEXP_NATIVE: Compiled to native code with Irregexp.
enum Type { NOT_COMPILED, ATOM, IRREGEXP };
enum Flag { NONE = 0, GLOBAL = 1, IGNORE_CASE = 2, MULTILINE = 4 };
class Flags {
public:
explicit Flags(uint32_t value) : value_(value) { }
bool is_global() { return (value_ & GLOBAL) != 0; }
bool is_ignore_case() { return (value_ & IGNORE_CASE) != 0; }
bool is_multiline() { return (value_ & MULTILINE) != 0; }
uint32_t value() { return value_; }
private:
uint32_t value_;
};
DECL_ACCESSORS(data, Object)
inline Type TypeTag();
inline int CaptureCount();
inline Flags GetFlags();
inline String* Pattern();
inline Object* DataAt(int index);
// Set implementation data after the object has been prepared.
inline void SetDataAt(int index, Object* value);
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static int code_index(bool is_ascii) {
if (is_ascii) {
return kIrregexpASCIICodeIndex;
} else {
return kIrregexpUC16CodeIndex;
}
}
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static inline JSRegExp* cast(Object* obj);
// Dispatched behavior.
#ifdef DEBUG
void JSRegExpVerify();
#endif
static const int kDataOffset = JSObject::kHeaderSize;
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static const int kSize = kDataOffset + kPointerSize;
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// Indices in the data array.
static const int kTagIndex = 0;
static const int kSourceIndex = kTagIndex + 1;
static const int kFlagsIndex = kSourceIndex + 1;
static const int kDataIndex = kFlagsIndex + 1;
// The data fields are used in different ways depending on the
// value of the tag.
// Atom regexps (literal strings).
static const int kAtomPatternIndex = kDataIndex;
static const int kAtomDataSize = kAtomPatternIndex + 1;
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// Irregexp compiled code or bytecode for ASCII. If compilation
// fails, this fields hold an exception object that should be
// thrown if the regexp is used again.
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static const int kIrregexpASCIICodeIndex = kDataIndex;
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// Irregexp compiled code or bytecode for UC16. If compilation
// fails, this fields hold an exception object that should be
// thrown if the regexp is used again.
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static const int kIrregexpUC16CodeIndex = kDataIndex + 1;
// Maximal number of registers used by either ASCII or UC16.
// Only used to check that there is enough stack space
static const int kIrregexpMaxRegisterCountIndex = kDataIndex + 2;
// Number of captures in the compiled regexp.
static const int kIrregexpCaptureCountIndex = kDataIndex + 3;
static const int kIrregexpDataSize = kIrregexpCaptureCountIndex + 1;
};
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class CompilationCacheShape {
public:
static inline bool IsMatch(HashTableKey* key, Object* value) {
return key->IsMatch(value);
}
static inline uint32_t Hash(HashTableKey* key) {
return key->Hash();
}
static inline uint32_t HashForObject(HashTableKey* key, Object* object) {
return key->HashForObject(object);
}
static Object* AsObject(HashTableKey* key) {
return key->AsObject();
}
static const int kPrefixSize = 0;
static const int kEntrySize = 2;
};
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class CompilationCacheTable: public HashTable<CompilationCacheShape,
HashTableKey*> {
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public:
// Find cached value for a string key, otherwise return null.
Object* Lookup(String* src);
Object* LookupEval(String* src, Context* context);
Object* LookupRegExp(String* source, JSRegExp::Flags flags);
Object* Put(String* src, Object* value);
Object* PutEval(String* src, Context* context, Object* value);
Object* PutRegExp(String* src, JSRegExp::Flags flags, FixedArray* value);
static inline CompilationCacheTable* cast(Object* obj);
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(CompilationCacheTable);
};
enum AllowNullsFlag {ALLOW_NULLS, DISALLOW_NULLS};
enum RobustnessFlag {ROBUST_STRING_TRAVERSAL, FAST_STRING_TRAVERSAL};
class StringHasher {
public:
inline StringHasher(int length);
// Returns true if the hash of this string can be computed without
// looking at the contents.
inline bool has_trivial_hash();
// Add a character to the hash and update the array index calculation.
inline void AddCharacter(uc32 c);
// Adds a character to the hash but does not update the array index
// calculation. This can only be called when it has been verified
// that the input is not an array index.
inline void AddCharacterNoIndex(uc32 c);
// Returns the value to store in the hash field of a string with
// the given length and contents.
uint32_t GetHashField();
// Returns true if the characters seen so far make up a legal array
// index.
bool is_array_index() { return is_array_index_; }
bool is_valid() { return is_valid_; }
void invalidate() { is_valid_ = false; }
private:
uint32_t array_index() {
ASSERT(is_array_index());
return array_index_;
}
inline uint32_t GetHash();
int length_;
uint32_t raw_running_hash_;
uint32_t array_index_;
bool is_array_index_;
bool is_first_char_;
bool is_valid_;
};
// The characteristics of a string are stored in its map. Retrieving these
// few bits of information is moderately expensive, involving two memory
// loads where the second is dependent on the first. To improve efficiency
// the shape of the string is given its own class so that it can be retrieved
// once and used for several string operations. A StringShape is small enough
// to be passed by value and is immutable, but be aware that flattening a
// string can potentially alter its shape. Also be aware that a GC caused by
// something else can alter the shape of a string due to ConsString
// shortcutting. Keeping these restrictions in mind has proven to be error-
// prone and so we no longer put StringShapes in variables unless there is a
// concrete performance benefit at that particular point in the code.
class StringShape BASE_EMBEDDED {
public:
inline explicit StringShape(String* s);
inline explicit StringShape(Map* s);
inline explicit StringShape(InstanceType t);
inline bool IsSequential();
inline bool IsExternal();
inline bool IsCons();
inline bool IsSliced();
inline bool IsExternalAscii();
inline bool IsExternalTwoByte();
inline bool IsSequentialAscii();
inline bool IsSequentialTwoByte();
inline bool IsSymbol();
inline StringRepresentationTag representation_tag();
inline uint32_t full_representation_tag();
inline uint32_t size_tag();
#ifdef DEBUG
inline uint32_t type() { return type_; }
inline void invalidate() { valid_ = false; }
inline bool valid() { return valid_; }
#else
inline void invalidate() { }
#endif
private:
uint32_t type_;
#ifdef DEBUG
inline void set_valid() { valid_ = true; }
bool valid_;
#else
inline void set_valid() { }
#endif
};
// The String abstract class captures JavaScript string values:
//
// Ecma-262:
// 4.3.16 String Value
// A string value is a member of the type String and is a finite
// ordered sequence of zero or more 16-bit unsigned integer values.
//
// All string values have a length field.
class String: public HeapObject {
public:
// Get and set the length of the string.
inline int length();
inline void set_length(int value);
// Get and set the uninterpreted length field of the string. Notice
// that the length field is also used to cache the hash value of
// strings. In order to get or set the actual length of the string
// use the length() and set_length methods.
inline uint32_t length_field();
inline void set_length_field(uint32_t value);
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inline bool IsAsciiRepresentation();
inline bool IsTwoByteRepresentation();
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// Get and set individual two byte chars in the string.
inline void Set(int index, uint16_t value);
// Get individual two byte char in the string. Repeated calls
// to this method are not efficient unless the string is flat.
inline uint16_t Get(int index);
// Try to flatten the top level ConsString that is hiding behind this
// string. This is a no-op unless the string is a ConsString or a
// SlicedString. Flatten mutates the ConsString and might return a
// failure.
Object* TryFlatten();
// Try to flatten the string. Checks first inline to see if it is necessary.
// Do not handle allocation failures. After calling TryFlattenIfNotFlat, the
// string could still be a ConsString, in which case a failure is returned.
// Use FlattenString from Handles.cc to be sure to flatten.
inline Object* TryFlattenIfNotFlat();
Vector<const char> ToAsciiVector();
Vector<const uc16> ToUC16Vector();
// Mark the string as an undetectable object. It only applies to
// ascii and two byte string types.
bool MarkAsUndetectable();
// Slice the string and return a substring.
Object* Slice(int from, int to);
// String equality operations.
inline bool Equals(String* other);
bool IsEqualTo(Vector<const char> str);
// Return a UTF8 representation of the string. The string is null
// terminated but may optionally contain nulls. Length is returned
// in length_output if length_output is not a null pointer The string
// should be nearly flat, otherwise the performance of this method may
// be very slow (quadratic in the length). Setting robustness_flag to
// ROBUST_STRING_TRAVERSAL invokes behaviour that is robust This means it
// handles unexpected data without causing assert failures and it does not
// do any heap allocations. This is useful when printing stack traces.
SmartPointer<char> ToCString(AllowNullsFlag allow_nulls,
RobustnessFlag robustness_flag,
int offset,
int length,
int* length_output = 0);
SmartPointer<char> ToCString(
AllowNullsFlag allow_nulls = DISALLOW_NULLS,
RobustnessFlag robustness_flag = FAST_STRING_TRAVERSAL,
int* length_output = 0);
int Utf8Length();
// Return a 16 bit Unicode representation of the string.
// The string should be nearly flat, otherwise the performance of
// of this method may be very bad. Setting robustness_flag to
// ROBUST_STRING_TRAVERSAL invokes behaviour that is robust This means it
// handles unexpected data without causing assert failures and it does not
// do any heap allocations. This is useful when printing stack traces.
SmartPointer<uc16> ToWideCString(
RobustnessFlag robustness_flag = FAST_STRING_TRAVERSAL);
// Tells whether the hash code has been computed.
inline bool HasHashCode();
// Returns a hash value used for the property table
inline uint32_t Hash();
static uint32_t ComputeLengthAndHashField(unibrow::CharacterStream* buffer,
int length);
static bool ComputeArrayIndex(unibrow::CharacterStream* buffer,
uint32_t* index,
int length);
// Externalization.
bool MakeExternal(v8::String::ExternalStringResource* resource);
bool MakeExternal(v8::String::ExternalAsciiStringResource* resource);
// Conversion.
inline bool AsArrayIndex(uint32_t* index);
// Casting.
static inline String* cast(Object* obj);
void PrintOn(FILE* out);
// For use during stack traces. Performs rudimentary sanity check.
bool LooksValid();
// Dispatched behavior.
void StringShortPrint(StringStream* accumulator);
#ifdef DEBUG
void StringPrint();
void StringVerify();
#endif
inline bool IsFlat();
// Layout description.
static const int kLengthOffset = HeapObject::kHeaderSize;
static const int kSize = kLengthOffset + kIntSize;
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// Notice: kSize is not pointer-size aligned if pointers are 64-bit.
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// Maximum number of characters to consider when trying to convert a string
// value into an array index.
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static const int kMaxArrayIndexSize = 10;
// Max ascii char code.
static const int kMaxAsciiCharCode = unibrow::Utf8::kMaxOneByteChar;
static const unsigned kMaxAsciiCharCodeU = unibrow::Utf8::kMaxOneByteChar;
static const int kMaxUC16CharCode = 0xffff;
// Minimum length for a cons or sliced string.
static const int kMinNonFlatLength = 13;
// Mask constant for checking if a string has a computed hash code
// and if it is an array index. The least significant bit indicates
// whether a hash code has been computed. If the hash code has been
// computed the 2nd bit tells whether the string can be used as an
// array index.
static const int kHashComputedMask = 1;
static const int kIsArrayIndexMask = 1 << 1;
static const int kNofLengthBitFields = 2;
// Array index strings this short can keep their index in the hash
// field.
static const int kMaxCachedArrayIndexLength = 7;
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// Shift constants for retrieving length and hash code from
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// length/hash field.
static const int kHashShift = kNofLengthBitFields;
static const int kShortLengthShift = kHashShift + kShortStringTag;
static const int kMediumLengthShift = kHashShift + kMediumStringTag;
static const int kLongLengthShift = kHashShift + kLongStringTag;
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// Maximal string length that can be stored in the hash/length field for
// different types of strings.
static const int kMaxShortSize = (1 << (32 - kShortLengthShift)) - 1;
static const int kMaxMediumSize = (1 << (32 - kMediumLengthShift)) - 1;
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static const int kMaxLength = (1 << (32 - kLongLengthShift)) - 1;
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// Limit for truncation in short printing.
static const int kMaxShortPrintLength = 1024;
// Support for regular expressions.
const uc16* GetTwoByteData();
const uc16* GetTwoByteData(unsigned start);
// Support for StringInputBuffer
static const unibrow::byte* ReadBlock(String* input,
unibrow::byte* util_buffer,
unsigned capacity,
unsigned* remaining,
unsigned* offset);
static const unibrow::byte* ReadBlock(String** input,
unibrow::byte* util_buffer,
unsigned capacity,
unsigned* remaining,
unsigned* offset);
// Helper function for flattening strings.
template <typename sinkchar>
static void WriteToFlat(String* source,
sinkchar* sink,
int from,
int to);
protected:
class ReadBlockBuffer {
public:
ReadBlockBuffer(unibrow::byte* util_buffer_,
unsigned cursor_,
unsigned capacity_,
unsigned remaining_) :
util_buffer(util_buffer_),
cursor(cursor_),
capacity(capacity_),
remaining(remaining_) {
}
unibrow::byte* util_buffer;
unsigned cursor;
unsigned capacity;
unsigned remaining;
};
// NOTE: If you call StringInputBuffer routines on strings that are
// too deeply nested trees of cons and slice strings, then this
// routine will overflow the stack. Strings that are merely deeply
// nested trees of cons strings do not have a problem apart from
// performance.
static inline const unibrow::byte* ReadBlock(String* input,
ReadBlockBuffer* buffer,
unsigned* offset,
unsigned max_chars);
static void ReadBlockIntoBuffer(String* input,
ReadBlockBuffer* buffer,
unsigned* offset_ptr,
unsigned max_chars);
private:
// Slow case of String::Equals. This implementation works on any strings
// but it is most efficient on strings that are almost flat.
bool SlowEquals(String* other);
// Slow case of AsArrayIndex.
bool SlowAsArrayIndex(uint32_t* index);
// Compute and set the hash code.
uint32_t ComputeAndSetHash();
DISALLOW_IMPLICIT_CONSTRUCTORS(String);
};
// The SeqString abstract class captures sequential string values.
class SeqString: public String {
public:
// Casting.
static inline SeqString* cast(Object* obj);
// Dispatched behaviour.
// For regexp code.
uint16_t* SeqStringGetTwoByteAddress();
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(SeqString);
};
// The AsciiString class captures sequential ascii string objects.
// Each character in the AsciiString is an ascii character.
class SeqAsciiString: public SeqString {
public:
// Dispatched behavior.
inline uint16_t SeqAsciiStringGet(int index);
inline void SeqAsciiStringSet(int index, uint16_t value);
// Get the address of the characters in this string.
inline Address GetCharsAddress();
inline char* GetChars();
// Casting
static inline SeqAsciiString* cast(Object* obj);
// Garbage collection support. This method is called by the
// garbage collector to compute the actual size of an AsciiString
// instance.
inline int SeqAsciiStringSize(InstanceType instance_type);
// Computes the size for an AsciiString instance of a given length.
static int SizeFor(int length) {
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return OBJECT_SIZE_ALIGN(kHeaderSize + length * kCharSize);
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}
// Layout description.
static const int kHeaderSize = String::kSize;
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static const int kAlignedSize = POINTER_SIZE_ALIGN(kHeaderSize);
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// Support for StringInputBuffer.
inline void SeqAsciiStringReadBlockIntoBuffer(ReadBlockBuffer* buffer,
unsigned* offset,
unsigned chars);
inline const unibrow::byte* SeqAsciiStringReadBlock(unsigned* remaining,
unsigned* offset,
unsigned chars);
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(SeqAsciiString);
};
// The TwoByteString class captures sequential unicode string objects.
// Each character in the TwoByteString is a two-byte uint16_t.
class SeqTwoByteString: public SeqString {
public:
// Dispatched behavior.
inline uint16_t SeqTwoByteStringGet(int index);
inline void SeqTwoByteStringSet(int index, uint16_t value);
// Get the address of the characters in this string.
inline Address GetCharsAddress();
inline uc16* GetChars();
// For regexp code.
const uint16_t* SeqTwoByteStringGetData(unsigned start);
// Casting
static inline SeqTwoByteString* cast(Object* obj);
// Garbage collection support. This method is called by the
// garbage collector to compute the actual size of a TwoByteString
// instance.
inline int SeqTwoByteStringSize(InstanceType instance_type);
// Computes the size for a TwoByteString instance of a given length.
static int SizeFor(int length) {
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return OBJECT_SIZE_ALIGN(kHeaderSize + length * kShortSize);
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}
// Layout description.
static const int kHeaderSize = String::kSize;
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static const int kAlignedSize = POINTER_SIZE_ALIGN(kHeaderSize);
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// Support for StringInputBuffer.
inline void SeqTwoByteStringReadBlockIntoBuffer(ReadBlockBuffer* buffer,
unsigned* offset_ptr,
unsigned chars);
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(SeqTwoByteString);
};
// The ConsString class describes string values built by using the
// addition operator on strings. A ConsString is a pair where the
// first and second components are pointers to other string values.
// One or both components of a ConsString can be pointers to other
// ConsStrings, creating a binary tree of ConsStrings where the leaves
// are non-ConsString string values. The string value represented by
// a ConsString can be obtained by concatenating the leaf string
// values in a left-to-right depth-first traversal of the tree.
class ConsString: public String {
public:
// First string of the cons cell.
inline String* first();
// Doesn't check that the result is a string, even in debug mode. This is
// useful during GC where the mark bits confuse the checks.
inline Object* unchecked_first();
inline void set_first(String* first,
WriteBarrierMode mode = UPDATE_WRITE_BARRIER);
// Second string of the cons cell.
inline String* second();
// Doesn't check that the result is a string, even in debug mode. This is
// useful during GC where the mark bits confuse the checks.
inline Object* unchecked_second();
inline void set_second(String* second,
WriteBarrierMode mode = UPDATE_WRITE_BARRIER);
// Dispatched behavior.
uint16_t ConsStringGet(int index);
// Casting.
static inline ConsString* cast(Object* obj);
// Garbage collection support. This method is called during garbage
// collection to iterate through the heap pointers in the body of
// the ConsString.
void ConsStringIterateBody(ObjectVisitor* v);
// Layout description.
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static const int kFirstOffset = POINTER_SIZE_ALIGN(String::kSize);
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static const int kSecondOffset = kFirstOffset + kPointerSize;
static const int kSize = kSecondOffset + kPointerSize;
// Support for StringInputBuffer.
inline const unibrow::byte* ConsStringReadBlock(ReadBlockBuffer* buffer,
unsigned* offset_ptr,
unsigned chars);
inline void ConsStringReadBlockIntoBuffer(ReadBlockBuffer* buffer,
unsigned* offset_ptr,
unsigned chars);
// Minimum length for a cons string.
static const int kMinLength = 13;
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(ConsString);
};
// The SlicedString class describes string values that are slices of
// some other string. SlicedStrings consist of a reference to an
// underlying heap-allocated string value, a start index, and the
// length field common to all strings.
class SlicedString: public String {
public:
// The underlying string buffer.
inline String* buffer();
inline void set_buffer(String* buffer);
// The start index of the slice.
inline int start();
inline void set_start(int start);
// Dispatched behavior.
uint16_t SlicedStringGet(int index);
// Casting.
static inline SlicedString* cast(Object* obj);
// Garbage collection support.
void SlicedStringIterateBody(ObjectVisitor* v);
// Layout description
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#if V8_HOST_ARCH_64_BIT
// Optimizations expect buffer to be located at same offset as a ConsString's
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// first substring. In 64 bit mode we have room for the start offset before
// the buffer.
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static const int kStartOffset = String::kSize;
static const int kBufferOffset = kStartOffset + kIntSize;
static const int kSize = kBufferOffset + kPointerSize;
#else
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static const int kBufferOffset = String::kSize;
static const int kStartOffset = kBufferOffset + kPointerSize;
static const int kSize = kStartOffset + kIntSize;
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#endif
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// Support for StringInputBuffer.
inline const unibrow::byte* SlicedStringReadBlock(ReadBlockBuffer* buffer,
unsigned* offset_ptr,
unsigned chars);
inline void SlicedStringReadBlockIntoBuffer(ReadBlockBuffer* buffer,
unsigned* offset_ptr,
unsigned chars);
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(SlicedString);
};
// The ExternalString class describes string values that are backed by
// a string resource that lies outside the V8 heap. ExternalStrings
// consist of the length field common to all strings, a pointer to the
// external resource. It is important to ensure (externally) that the
// resource is not deallocated while the ExternalString is live in the
// V8 heap.
//
// The API expects that all ExternalStrings are created through the
// API. Therefore, ExternalStrings should not be used internally.
class ExternalString: public String {
public:
// Casting
static inline ExternalString* cast(Object* obj);
// Layout description.
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static const int kResourceOffset = POINTER_SIZE_ALIGN(String::kSize);
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static const int kSize = kResourceOffset + kPointerSize;
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STATIC_CHECK(kResourceOffset == Internals::kStringResourceOffset);
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private:
DISALLOW_IMPLICIT_CONSTRUCTORS(ExternalString);
};
// The ExternalAsciiString class is an external string backed by an
// ASCII string.
class ExternalAsciiString: public ExternalString {
public:
typedef v8::String::ExternalAsciiStringResource Resource;
// The underlying resource.
inline Resource* resource();
inline void set_resource(Resource* buffer);
// Dispatched behavior.
uint16_t ExternalAsciiStringGet(int index);
// Casting.
static inline ExternalAsciiString* cast(Object* obj);
// Support for StringInputBuffer.
const unibrow::byte* ExternalAsciiStringReadBlock(unsigned* remaining,
unsigned* offset,
unsigned chars);
inline void ExternalAsciiStringReadBlockIntoBuffer(ReadBlockBuffer* buffer,
unsigned* offset,
unsigned chars);
// Identify the map for the external string/symbol with a particular length.
static inline Map* StringMap(int length);
static inline Map* SymbolMap(int length);
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(ExternalAsciiString);
};
// The ExternalTwoByteString class is an external string backed by a UTF-16
// encoded string.
class ExternalTwoByteString: public ExternalString {
public:
typedef v8::String::ExternalStringResource Resource;
// The underlying string resource.
inline Resource* resource();
inline void set_resource(Resource* buffer);
// Dispatched behavior.
uint16_t ExternalTwoByteStringGet(int index);
// For regexp code.
const uint16_t* ExternalTwoByteStringGetData(unsigned start);
// Casting.
static inline ExternalTwoByteString* cast(Object* obj);
// Support for StringInputBuffer.
void ExternalTwoByteStringReadBlockIntoBuffer(ReadBlockBuffer* buffer,
unsigned* offset_ptr,
unsigned chars);
// Identify the map for the external string/symbol with a particular length.
static inline Map* StringMap(int length);
static inline Map* SymbolMap(int length);
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(ExternalTwoByteString);
};
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// Utility superclass for stack-allocated objects that must be updated
// on gc. It provides two ways for the gc to update instances, either
// iterating or updating after gc.
class Relocatable BASE_EMBEDDED {
public:
inline Relocatable() : prev_(top_) { top_ = this; }
virtual ~Relocatable() {
ASSERT_EQ(top_, this);
top_ = prev_;
}
virtual void IterateInstance(ObjectVisitor* v) { }
virtual void PostGarbageCollection() { }
static void PostGarbageCollectionProcessing();
static int ArchiveSpacePerThread();
static char* ArchiveState(char* to);
static char* RestoreState(char* from);
static void Iterate(ObjectVisitor* v);
static void Iterate(ObjectVisitor* v, Relocatable* top);
static char* Iterate(ObjectVisitor* v, char* t);
private:
static Relocatable* top_;
Relocatable* prev_;
};
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// A flat string reader provides random access to the contents of a
// string independent of the character width of the string. The handle
// must be valid as long as the reader is being used.
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class FlatStringReader : public Relocatable {
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public:
explicit FlatStringReader(Handle<String> str);
explicit FlatStringReader(Vector<const char> input);
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void PostGarbageCollection();
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inline uc32 Get(int index);
int length() { return length_; }
private:
String** str_;
bool is_ascii_;
int length_;
const void* start_;
};
// Note that StringInputBuffers are not valid across a GC! To fix this
// it would have to store a String Handle instead of a String* and
// AsciiStringReadBlock would have to be modified to use memcpy.
//
// StringInputBuffer is able to traverse any string regardless of how
// deeply nested a sequence of ConsStrings it is made of. However,
// performance will be better if deep strings are flattened before they
// are traversed. Since flattening requires memory allocation this is
// not always desirable, however (esp. in debugging situations).
class StringInputBuffer: public unibrow::InputBuffer<String, String*, 1024> {
public:
virtual void Seek(unsigned pos);
inline StringInputBuffer(): unibrow::InputBuffer<String, String*, 1024>() {}
inline StringInputBuffer(String* backing):
unibrow::InputBuffer<String, String*, 1024>(backing) {}
};
class SafeStringInputBuffer
: public unibrow::InputBuffer<String, String**, 256> {
public:
virtual void Seek(unsigned pos);
inline SafeStringInputBuffer()
: unibrow::InputBuffer<String, String**, 256>() {}
inline SafeStringInputBuffer(String** backing)
: unibrow::InputBuffer<String, String**, 256>(backing) {}
};
template <typename T>
class VectorIterator {
public:
VectorIterator(T* d, int l) : data_(Vector<const T>(d, l)), index_(0) { }
explicit VectorIterator(Vector<const T> data) : data_(data), index_(0) { }
T GetNext() { return data_[index_++]; }
bool has_more() { return index_ < data_.length(); }
private:
Vector<const T> data_;
int index_;
};
// The Oddball describes objects null, undefined, true, and false.
class Oddball: public HeapObject {
public:
// [to_string]: Cached to_string computed at startup.
DECL_ACCESSORS(to_string, String)
// [to_number]: Cached to_number computed at startup.
DECL_ACCESSORS(to_number, Object)
// Casting.
static inline Oddball* cast(Object* obj);
// Dispatched behavior.
void OddballIterateBody(ObjectVisitor* v);
#ifdef DEBUG
void OddballVerify();
#endif
// Initialize the fields.
Object* Initialize(const char* to_string, Object* to_number);
// Layout description.
static const int kToStringOffset = HeapObject::kHeaderSize;
static const int kToNumberOffset = kToStringOffset + kPointerSize;
static const int kSize = kToNumberOffset + kPointerSize;
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(Oddball);
};
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class JSGlobalPropertyCell: public HeapObject {
public:
// [value]: value of the global property.
DECL_ACCESSORS(value, Object)
// Casting.
static inline JSGlobalPropertyCell* cast(Object* obj);
// Dispatched behavior.
void JSGlobalPropertyCellIterateBody(ObjectVisitor* v);
#ifdef DEBUG
void JSGlobalPropertyCellVerify();
void JSGlobalPropertyCellPrint();
#endif
// Layout description.
static const int kValueOffset = HeapObject::kHeaderSize;
static const int kSize = kValueOffset + kPointerSize;
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(JSGlobalPropertyCell);
};
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// Proxy describes objects pointing from JavaScript to C structures.
// Since they cannot contain references to JS HeapObjects they can be
// placed in old_data_space.
class Proxy: public HeapObject {
public:
// [proxy]: field containing the address.
inline Address proxy();
inline void set_proxy(Address value);
// Casting.
static inline Proxy* cast(Object* obj);
// Dispatched behavior.
inline void ProxyIterateBody(ObjectVisitor* v);
#ifdef DEBUG
void ProxyPrint();
void ProxyVerify();
#endif
// Layout description.
static const int kProxyOffset = HeapObject::kHeaderSize;
static const int kSize = kProxyOffset + kPointerSize;
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STATIC_CHECK(kProxyOffset == Internals::kProxyProxyOffset);
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private:
DISALLOW_IMPLICIT_CONSTRUCTORS(Proxy);
};
// The JSArray describes JavaScript Arrays
// Such an array can be in one of two modes:
// - fast, backing storage is a FixedArray and length <= elements.length();
// Please note: push and pop can be used to grow and shrink the array.
// - slow, backing storage is a HashTable with numbers as keys.
class JSArray: public JSObject {
public:
// [length]: The length property.
DECL_ACCESSORS(length, Object)
Object* JSArrayUpdateLengthFromIndex(uint32_t index, Object* value);
// Initialize the array with the given capacity. The function may
// fail due to out-of-memory situations, but only if the requested
// capacity is non-zero.
Object* Initialize(int capacity);
// Set the content of the array to the content of storage.
inline void SetContent(FixedArray* storage);
// Casting.
static inline JSArray* cast(Object* obj);
// Uses handles. Ensures that the fixed array backing the JSArray has at
// least the stated size.
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inline void EnsureSize(int minimum_size_of_backing_fixed_array);
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// Dispatched behavior.
#ifdef DEBUG
void JSArrayPrint();
void JSArrayVerify();
#endif
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// Number of element slots to pre-allocate for an empty array.
static const int kPreallocatedArrayElements = 4;
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// Layout description.
static const int kLengthOffset = JSObject::kHeaderSize;
static const int kSize = kLengthOffset + kPointerSize;
private:
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// Expand the fixed array backing of a fast-case JSArray to at least
// the requested size.
void Expand(int minimum_size_of_backing_fixed_array);
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DISALLOW_IMPLICIT_CONSTRUCTORS(JSArray);
};
// An accessor must have a getter, but can have no setter.
//
// When setting a property, V8 searches accessors in prototypes.
// If an accessor was found and it does not have a setter,
// the request is ignored.
//
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// If the accessor in the prototype has the READ_ONLY property attribute, then
// a new value is added to the local object when the property is set.
// This shadows the accessor in the prototype.
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class AccessorInfo: public Struct {
public:
DECL_ACCESSORS(getter, Object)
DECL_ACCESSORS(setter, Object)
DECL_ACCESSORS(data, Object)
DECL_ACCESSORS(name, Object)
DECL_ACCESSORS(flag, Smi)
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DECL_ACCESSORS(load_stub_cache, Object)
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inline bool all_can_read();
inline void set_all_can_read(bool value);
inline bool all_can_write();
inline void set_all_can_write(bool value);
inline bool prohibits_overwriting();
inline void set_prohibits_overwriting(bool value);
inline PropertyAttributes property_attributes();
inline void set_property_attributes(PropertyAttributes attributes);
static inline AccessorInfo* cast(Object* obj);
#ifdef DEBUG
void AccessorInfoPrint();
void AccessorInfoVerify();
#endif
static const int kGetterOffset = HeapObject::kHeaderSize;
static const int kSetterOffset = kGetterOffset + kPointerSize;
static const int kDataOffset = kSetterOffset + kPointerSize;
static const int kNameOffset = kDataOffset + kPointerSize;
static const int kFlagOffset = kNameOffset + kPointerSize;
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static const int kLoadStubCacheOffset = kFlagOffset + kPointerSize;
static const int kSize = kLoadStubCacheOffset + kPointerSize;
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private:
// Bit positions in flag.
static const int kAllCanReadBit = 0;
static const int kAllCanWriteBit = 1;
static const int kProhibitsOverwritingBit = 2;
class AttributesField: public BitField<PropertyAttributes, 3, 3> {};
DISALLOW_IMPLICIT_CONSTRUCTORS(AccessorInfo);
};
class AccessCheckInfo: public Struct {
public:
DECL_ACCESSORS(named_callback, Object)
DECL_ACCESSORS(indexed_callback, Object)
DECL_ACCESSORS(data, Object)
static inline AccessCheckInfo* cast(Object* obj);
#ifdef DEBUG
void AccessCheckInfoPrint();
void AccessCheckInfoVerify();
#endif
static const int kNamedCallbackOffset = HeapObject::kHeaderSize;
static const int kIndexedCallbackOffset = kNamedCallbackOffset + kPointerSize;
static const int kDataOffset = kIndexedCallbackOffset + kPointerSize;
static const int kSize = kDataOffset + kPointerSize;
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(AccessCheckInfo);
};
class InterceptorInfo: public Struct {
public:
DECL_ACCESSORS(getter, Object)
DECL_ACCESSORS(setter, Object)
DECL_ACCESSORS(query, Object)
DECL_ACCESSORS(deleter, Object)
DECL_ACCESSORS(enumerator, Object)
DECL_ACCESSORS(data, Object)
static inline InterceptorInfo* cast(Object* obj);
#ifdef DEBUG
void InterceptorInfoPrint();
void InterceptorInfoVerify();
#endif
static const int kGetterOffset = HeapObject::kHeaderSize;
static const int kSetterOffset = kGetterOffset + kPointerSize;
static const int kQueryOffset = kSetterOffset + kPointerSize;
static const int kDeleterOffset = kQueryOffset + kPointerSize;
static const int kEnumeratorOffset = kDeleterOffset + kPointerSize;
static const int kDataOffset = kEnumeratorOffset + kPointerSize;
static const int kSize = kDataOffset + kPointerSize;
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(InterceptorInfo);
};
class CallHandlerInfo: public Struct {
public:
DECL_ACCESSORS(callback, Object)
DECL_ACCESSORS(data, Object)
static inline CallHandlerInfo* cast(Object* obj);
#ifdef DEBUG
void CallHandlerInfoPrint();
void CallHandlerInfoVerify();
#endif
static const int kCallbackOffset = HeapObject::kHeaderSize;
static const int kDataOffset = kCallbackOffset + kPointerSize;
static const int kSize = kDataOffset + kPointerSize;
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(CallHandlerInfo);
};
class TemplateInfo: public Struct {
public:
DECL_ACCESSORS(tag, Object)
DECL_ACCESSORS(property_list, Object)
#ifdef DEBUG
void TemplateInfoVerify();
#endif
static const int kTagOffset = HeapObject::kHeaderSize;
static const int kPropertyListOffset = kTagOffset + kPointerSize;
static const int kHeaderSize = kPropertyListOffset + kPointerSize;
protected:
friend class AGCCVersionRequiresThisClassToHaveAFriendSoHereItIs;
DISALLOW_IMPLICIT_CONSTRUCTORS(TemplateInfo);
};
class FunctionTemplateInfo: public TemplateInfo {
public:
DECL_ACCESSORS(serial_number, Object)
DECL_ACCESSORS(call_code, Object)
DECL_ACCESSORS(property_accessors, Object)
DECL_ACCESSORS(prototype_template, Object)
DECL_ACCESSORS(parent_template, Object)
DECL_ACCESSORS(named_property_handler, Object)
DECL_ACCESSORS(indexed_property_handler, Object)
DECL_ACCESSORS(instance_template, Object)
DECL_ACCESSORS(class_name, Object)
DECL_ACCESSORS(signature, Object)
DECL_ACCESSORS(instance_call_handler, Object)
DECL_ACCESSORS(access_check_info, Object)
DECL_ACCESSORS(flag, Smi)
// Following properties use flag bits.
DECL_BOOLEAN_ACCESSORS(hidden_prototype)
DECL_BOOLEAN_ACCESSORS(undetectable)
// If the bit is set, object instances created by this function
// requires access check.
DECL_BOOLEAN_ACCESSORS(needs_access_check)
static inline FunctionTemplateInfo* cast(Object* obj);
#ifdef DEBUG
void FunctionTemplateInfoPrint();
void FunctionTemplateInfoVerify();
#endif
static const int kSerialNumberOffset = TemplateInfo::kHeaderSize;
static const int kCallCodeOffset = kSerialNumberOffset + kPointerSize;
static const int kPropertyAccessorsOffset = kCallCodeOffset + kPointerSize;
static const int kPrototypeTemplateOffset =
kPropertyAccessorsOffset + kPointerSize;
static const int kParentTemplateOffset =
kPrototypeTemplateOffset + kPointerSize;
static const int kNamedPropertyHandlerOffset =
kParentTemplateOffset + kPointerSize;
static const int kIndexedPropertyHandlerOffset =
kNamedPropertyHandlerOffset + kPointerSize;
static const int kInstanceTemplateOffset =
kIndexedPropertyHandlerOffset + kPointerSize;
static const int kClassNameOffset = kInstanceTemplateOffset + kPointerSize;
static const int kSignatureOffset = kClassNameOffset + kPointerSize;
static const int kInstanceCallHandlerOffset = kSignatureOffset + kPointerSize;
static const int kAccessCheckInfoOffset =
kInstanceCallHandlerOffset + kPointerSize;
static const int kFlagOffset = kAccessCheckInfoOffset + kPointerSize;
static const int kSize = kFlagOffset + kPointerSize;
private:
// Bit position in the flag, from least significant bit position.
static const int kHiddenPrototypeBit = 0;
static const int kUndetectableBit = 1;
static const int kNeedsAccessCheckBit = 2;
DISALLOW_IMPLICIT_CONSTRUCTORS(FunctionTemplateInfo);
};
class ObjectTemplateInfo: public TemplateInfo {
public:
DECL_ACCESSORS(constructor, Object)
DECL_ACCESSORS(internal_field_count, Object)
static inline ObjectTemplateInfo* cast(Object* obj);
#ifdef DEBUG
void ObjectTemplateInfoPrint();
void ObjectTemplateInfoVerify();
#endif
static const int kConstructorOffset = TemplateInfo::kHeaderSize;
static const int kInternalFieldCountOffset =
kConstructorOffset + kPointerSize;
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static const int kSize = kInternalFieldCountOffset + kPointerSize;
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};
class SignatureInfo: public Struct {
public:
DECL_ACCESSORS(receiver, Object)
DECL_ACCESSORS(args, Object)
static inline SignatureInfo* cast(Object* obj);
#ifdef DEBUG
void SignatureInfoPrint();
void SignatureInfoVerify();
#endif
static const int kReceiverOffset = Struct::kHeaderSize;
static const int kArgsOffset = kReceiverOffset + kPointerSize;
static const int kSize = kArgsOffset + kPointerSize;
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(SignatureInfo);
};
class TypeSwitchInfo: public Struct {
public:
DECL_ACCESSORS(types, Object)
static inline TypeSwitchInfo* cast(Object* obj);
#ifdef DEBUG
void TypeSwitchInfoPrint();
void TypeSwitchInfoVerify();
#endif
static const int kTypesOffset = Struct::kHeaderSize;
static const int kSize = kTypesOffset + kPointerSize;
};
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#ifdef ENABLE_DEBUGGER_SUPPORT
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// The DebugInfo class holds additional information for a function being
// debugged.
class DebugInfo: public Struct {
public:
// The shared function info for the source being debugged.
DECL_ACCESSORS(shared, SharedFunctionInfo)
// Code object for the original code.
DECL_ACCESSORS(original_code, Code)
// Code object for the patched code. This code object is the code object
// currently active for the function.
DECL_ACCESSORS(code, Code)
// Fixed array holding status information for each active break point.
DECL_ACCESSORS(break_points, FixedArray)
// Check if there is a break point at a code position.
bool HasBreakPoint(int code_position);
// Get the break point info object for a code position.
Object* GetBreakPointInfo(int code_position);
// Clear a break point.
static void ClearBreakPoint(Handle<DebugInfo> debug_info,
int code_position,
Handle<Object> break_point_object);
// Set a break point.
static void SetBreakPoint(Handle<DebugInfo> debug_info, int code_position,
int source_position, int statement_position,
Handle<Object> break_point_object);
// Get the break point objects for a code position.
Object* GetBreakPointObjects(int code_position);
// Find the break point info holding this break point object.
static Object* FindBreakPointInfo(Handle<DebugInfo> debug_info,
Handle<Object> break_point_object);
// Get the number of break points for this function.
int GetBreakPointCount();
static inline DebugInfo* cast(Object* obj);
#ifdef DEBUG
void DebugInfoPrint();
void DebugInfoVerify();
#endif
static const int kSharedFunctionInfoIndex = Struct::kHeaderSize;
static const int kOriginalCodeIndex = kSharedFunctionInfoIndex + kPointerSize;
static const int kPatchedCodeIndex = kOriginalCodeIndex + kPointerSize;
static const int kActiveBreakPointsCountIndex =
kPatchedCodeIndex + kPointerSize;
static const int kBreakPointsStateIndex =
kActiveBreakPointsCountIndex + kPointerSize;
static const int kSize = kBreakPointsStateIndex + kPointerSize;
private:
static const int kNoBreakPointInfo = -1;
// Lookup the index in the break_points array for a code position.
int GetBreakPointInfoIndex(int code_position);
DISALLOW_IMPLICIT_CONSTRUCTORS(DebugInfo);
};
// The BreakPointInfo class holds information for break points set in a
// function. The DebugInfo object holds a BreakPointInfo object for each code
// position with one or more break points.
class BreakPointInfo: public Struct {
public:
// The position in the code for the break point.
DECL_ACCESSORS(code_position, Smi)
// The position in the source for the break position.
DECL_ACCESSORS(source_position, Smi)
// The position in the source for the last statement before this break
// position.
DECL_ACCESSORS(statement_position, Smi)
// List of related JavaScript break points.
DECL_ACCESSORS(break_point_objects, Object)
// Removes a break point.
static void ClearBreakPoint(Handle<BreakPointInfo> info,
Handle<Object> break_point_object);
// Set a break point.
static void SetBreakPoint(Handle<BreakPointInfo> info,
Handle<Object> break_point_object);
// Check if break point info has this break point object.
static bool HasBreakPointObject(Handle<BreakPointInfo> info,
Handle<Object> break_point_object);
// Get the number of break points for this code position.
int GetBreakPointCount();
static inline BreakPointInfo* cast(Object* obj);
#ifdef DEBUG
void BreakPointInfoPrint();
void BreakPointInfoVerify();
#endif
static const int kCodePositionIndex = Struct::kHeaderSize;
static const int kSourcePositionIndex = kCodePositionIndex + kPointerSize;
static const int kStatementPositionIndex =
kSourcePositionIndex + kPointerSize;
static const int kBreakPointObjectsIndex =
kStatementPositionIndex + kPointerSize;
static const int kSize = kBreakPointObjectsIndex + kPointerSize;
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(BreakPointInfo);
};
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#endif // ENABLE_DEBUGGER_SUPPORT
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#undef DECL_BOOLEAN_ACCESSORS
#undef DECL_ACCESSORS
// Abstract base class for visiting, and optionally modifying, the
// pointers contained in Objects. Used in GC and serialization/deserialization.
class ObjectVisitor BASE_EMBEDDED {
public:
virtual ~ObjectVisitor() {}
// Visits a contiguous arrays of pointers in the half-open range
// [start, end). Any or all of the values may be modified on return.
virtual void VisitPointers(Object** start, Object** end) = 0;
// To allow lazy clearing of inline caches the visitor has
// a rich interface for iterating over Code objects..
// Visits a code target in the instruction stream.
virtual void VisitCodeTarget(RelocInfo* rinfo);
// Visits a runtime entry in the instruction stream.
virtual void VisitRuntimeEntry(RelocInfo* rinfo) {}
// Visits a debug call target in the instruction stream.
virtual void VisitDebugTarget(RelocInfo* rinfo);
// Handy shorthand for visiting a single pointer.
virtual void VisitPointer(Object** p) { VisitPointers(p, p + 1); }
// Visits a contiguous arrays of external references (references to the C++
// heap) in the half-open range [start, end). Any or all of the values
// may be modified on return.
virtual void VisitExternalReferences(Address* start, Address* end) {}
inline void VisitExternalReference(Address* p) {
VisitExternalReferences(p, p + 1);
}
#ifdef DEBUG
// Intended for serialization/deserialization checking: insert, or
// check for the presence of, a tag at this position in the stream.
virtual void Synchronize(const char* tag) {}
Upgrade v8 to 1.3.17
15 years ago
#else
inline void Synchronize(const char* tag) {}
import full versions of dependency libraries!
16 years ago
#endif
};
// BooleanBit is a helper class for setting and getting a bit in an
// integer or Smi.
class BooleanBit : public AllStatic {
public:
static inline bool get(Smi* smi, int bit_position) {
return get(smi->value(), bit_position);
}
static inline bool get(int value, int bit_position) {
return (value & (1 << bit_position)) != 0;
}
static inline Smi* set(Smi* smi, int bit_position, bool v) {
return Smi::FromInt(set(smi->value(), bit_position, v));
}
static inline int set(int value, int bit_position, bool v) {
if (v) {
value |= (1 << bit_position);
} else {
value &= ~(1 << bit_position);
}
return value;
}
};
} } // namespace v8::internal
#endif // V8_OBJECTS_H_