src/macros.py - v8/v8 - Git at Google

 # Copyright 2006-2009 the V8 project authors. All rights reserved.
 # 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.

 # Dictionary that is passed as defines for js2c.py.
 # Used for defines that must be defined for all native JS files.

 const NONE        = 0;
 const READ_ONLY   = 1;
 const DONT_ENUM   = 2;
 const DONT_DELETE = 4;
 const NEW_ONE_BYTE_STRING = true;
 const NEW_TWO_BYTE_STRING = false;

 # Constants used for getter and setter operations.
 const GETTER = 0;
 const SETTER = 1;

 const NO_HINT     = 0;
 const NUMBER_HINT = 1;
 const STRING_HINT = 2;

 # For date.js.
 const HoursPerDay      = 24;
 const MinutesPerHour   = 60;
 const SecondsPerMinute = 60;
 const msPerSecond      = 1000;
 const msPerMinute      = 60000;
 const msPerHour        = 3600000;
 const msPerDay         = 86400000;
 const msPerMonth       = 2592000000;

 # Note: kDayZeroInJulianDay = ToJulianDay(1970, 0, 1).
 const kInvalidDate        = 'Invalid Date';
 const kDayZeroInJulianDay = 2440588;
 const kMonthMask          = 0x1e0;
 const kDayMask            = 0x01f;
 const kYearShift          = 9;
 const kMonthShift         = 5;

 # Limits for parts of the date, so that we support all the dates that
 # ECMA 262 - 15.9.1.1 requires us to, but at the same time be sure that
 # the date (days since 1970) is in SMI range.
 const kMinYear  = -1000000;
 const kMaxYear  = 1000000;
 const kMinMonth = -10000000;
 const kMaxMonth = 10000000;

 # Strict mode flags for passing to %SetProperty
 const kSloppyMode = 0;
 const kStrictMode = 1;

 # Native cache ids.
 const STRING_TO_REGEXP_CACHE_ID = 0;

 # Type query macros.
 #
 # Note: We have special support for typeof(foo) === 'bar' in the compiler.
 #       It will *not* generate a runtime typeof call for the most important
 #       values of 'bar'.
 macro IS_NULL(arg)              = (arg === null);
 macro IS_NULL_OR_UNDEFINED(arg) = (arg == null);
 macro IS_UNDEFINED(arg)         = (arg === (void 0));
 macro IS_NUMBER(arg)            = (typeof(arg) === 'number');
 macro IS_STRING(arg)            = (typeof(arg) === 'string');
 macro IS_BOOLEAN(arg)           = (typeof(arg) === 'boolean');
 macro IS_SYMBOL(arg)            = (typeof(arg) === 'symbol');
 macro IS_OBJECT(arg)            = (%_IsObject(arg));
 macro IS_ARRAY(arg)             = (%_IsArray(arg));
 macro IS_FUNCTION(arg)          = (%_IsFunction(arg));
 macro IS_REGEXP(arg)            = (%_IsRegExp(arg));
 macro IS_SET(arg)               = (%_ClassOf(arg) === 'Set');
 macro IS_MAP(arg)               = (%_ClassOf(arg) === 'Map');
 macro IS_WEAKMAP(arg)           = (%_ClassOf(arg) === 'WeakMap');
 macro IS_WEAKSET(arg)           = (%_ClassOf(arg) === 'WeakSet');
 macro IS_DATE(arg)              = (%_ClassOf(arg) === 'Date');
 macro IS_NUMBER_WRAPPER(arg)    = (%_ClassOf(arg) === 'Number');
 macro IS_STRING_WRAPPER(arg)    = (%_ClassOf(arg) === 'String');
 macro IS_SYMBOL_WRAPPER(arg)    = (%_ClassOf(arg) === 'Symbol');
 macro IS_BOOLEAN_WRAPPER(arg)   = (%_ClassOf(arg) === 'Boolean');
 macro IS_ERROR(arg)             = (%_ClassOf(arg) === 'Error');
 macro IS_SCRIPT(arg)            = (%_ClassOf(arg) === 'Script');
 macro IS_ARGUMENTS(arg)         = (%_ClassOf(arg) === 'Arguments');
 macro IS_GLOBAL(arg)            = (%_ClassOf(arg) === 'global');
 macro IS_ARRAYBUFFER(arg)       = (%_ClassOf(arg) === 'ArrayBuffer');
 macro IS_DATAVIEW(arg)          = (%_ClassOf(arg) === 'DataView');
 macro IS_GENERATOR(arg)         = (%_ClassOf(arg) === 'Generator');
 macro IS_SET_ITERATOR(arg)      = (%_ClassOf(arg) === 'Set Iterator');
 macro IS_MAP_ITERATOR(arg)      = (%_ClassOf(arg) === 'Map Iterator');
 macro IS_UNDETECTABLE(arg)      = (%_IsUndetectableObject(arg));
 macro FLOOR(arg)                = $floor(arg);

 # Macro for ECMAScript 5 queries of the type:
 # "Type(O) is object."
 # This is the same as being either a function or an object in V8 terminology
 # (including proxies).
 # In addition, an undetectable object is also included by this.
 macro IS_SPEC_OBJECT(arg)   = (%_IsSpecObject(arg));

 # Macro for ECMAScript 5 queries of the type:
 # "IsCallable(O)"
 # We assume here that this is the same as being either a function or a function
 # proxy. That ignores host objects with [[Call]] methods, but in most situations
 # we cannot handle those anyway.
 macro IS_SPEC_FUNCTION(arg) = (%_ClassOf(arg) === 'Function');

 # Macro for ES6 CheckObjectCoercible
 # Will throw a TypeError of the form "[functionName] called on null or undefined".
 macro CHECK_OBJECT_COERCIBLE(arg, functionName) = if (IS_NULL_OR_UNDEFINED(arg) && !IS_UNDETECTABLE(arg)) throw MakeTypeError('called_on_null_or_undefined', [functionName]);

 # Indices in bound function info retrieved by %BoundFunctionGetBindings(...).
 const kBoundFunctionIndex = 0;
 const kBoundThisIndex = 1;
 const kBoundArgumentsStartIndex = 2;

 # Inline macros. Use %IS_VAR to make sure arg is evaluated only once.
 macro NUMBER_IS_NAN(arg) = (!%_IsSmi(%IS_VAR(arg)) && !(arg == arg));
 macro NUMBER_IS_FINITE(arg) = (%_IsSmi(%IS_VAR(arg)) || ((arg == arg) && (arg != 1/0) && (arg != -1/0)));
 macro TO_INTEGER(arg) = (%_IsSmi(%IS_VAR(arg)) ? arg : %NumberToInteger(ToNumber(arg)));
 macro TO_INTEGER_FOR_SIDE_EFFECT(arg) = (%_IsSmi(%IS_VAR(arg)) ? arg : ToNumber(arg));
 macro TO_INTEGER_MAP_MINUS_ZERO(arg) = (%_IsSmi(%IS_VAR(arg)) ? arg : %NumberToIntegerMapMinusZero(ToNumber(arg)));
 macro TO_INT32(arg) = (%_IsSmi(%IS_VAR(arg)) ? arg : (arg >> 0));
 macro TO_UINT32(arg) = (arg >>> 0);
 macro TO_STRING_INLINE(arg) = (IS_STRING(%IS_VAR(arg)) ? arg : NonStringToString(arg));
 macro TO_NUMBER_INLINE(arg) = (IS_NUMBER(%IS_VAR(arg)) ? arg : NonNumberToNumber(arg));
 macro TO_OBJECT_INLINE(arg) = (IS_SPEC_OBJECT(%IS_VAR(arg)) ? arg : ToObject(arg));
 macro JSON_NUMBER_TO_STRING(arg) = ((%_IsSmi(%IS_VAR(arg)) || arg - arg == 0) ? %_NumberToString(arg) : "null");
 macro HAS_OWN_PROPERTY(obj, index) = (%_CallFunction(obj, index, ObjectHasOwnProperty));
 macro SHOULD_CREATE_WRAPPER(functionName, receiver) = (!IS_SPEC_OBJECT(receiver) && %IsSloppyModeFunction(functionName));
 macro HAS_INDEX(array, index, is_array) = ((is_array && %_HasFastPackedElements(%IS_VAR(array))) ? (index < array.length) : (index in array));

 # Private names.
 # GET_PRIVATE should only be used if the property is known to exists on obj
 # itself (it should really use %GetOwnProperty, but that would be way slower).
 macro GLOBAL_PRIVATE(name) = (%CreateGlobalPrivateOwnSymbol(name));
 macro NEW_PRIVATE_OWN(name) = (%CreatePrivateOwnSymbol(name));
 macro IS_PRIVATE(sym) = (%SymbolIsPrivate(sym));
 macro HAS_PRIVATE(obj, sym) = (%HasOwnProperty(obj, sym));
 macro HAS_DEFINED_PRIVATE(obj, sym) = (!IS_UNDEFINED(obj[sym]));
 macro GET_PRIVATE(obj, sym) = (obj[sym]);
 macro SET_PRIVATE(obj, sym, val) = (obj[sym] = val);
 macro DELETE_PRIVATE(obj, sym) = (delete obj[sym]);

 # Constants.  The compiler constant folds them.
 const NAN = $NaN;
 const INFINITY = (1/0);
 const UNDEFINED = (void 0);

 # Macros implemented in Python.
 python macro CHAR_CODE(str) = ord(str[1]);

 # Constants used on an array to implement the properties of the RegExp object.
 const REGEXP_NUMBER_OF_CAPTURES = 0;
 const REGEXP_FIRST_CAPTURE = 3;

 # We can't put macros in macros so we use constants here.
 # REGEXP_NUMBER_OF_CAPTURES
 macro NUMBER_OF_CAPTURES(array) = ((array)[0]);

 # Limit according to ECMA 262 15.9.1.1
 const MAX_TIME_MS = 8640000000000000;
 # Limit which is MAX_TIME_MS + msPerMonth.
 const MAX_TIME_BEFORE_UTC = 8640002592000000;

 # Gets the value of a Date object. If arg is not a Date object
 # a type error is thrown.
 macro CHECK_DATE(arg) = if (%_ClassOf(arg) !== 'Date') ThrowDateTypeError();
 macro LOCAL_DATE_VALUE(arg) = (%_DateField(arg, 0) + %_DateField(arg, 21));
 macro UTC_DATE_VALUE(arg)    = (%_DateField(arg, 0));

 macro LOCAL_YEAR(arg)        = (%_DateField(arg, 1));
 macro LOCAL_MONTH(arg)       = (%_DateField(arg, 2));
 macro LOCAL_DAY(arg)         = (%_DateField(arg, 3));
 macro LOCAL_WEEKDAY(arg)     = (%_DateField(arg, 4));
 macro LOCAL_HOUR(arg)        = (%_DateField(arg, 5));
 macro LOCAL_MIN(arg)         = (%_DateField(arg, 6));
 macro LOCAL_SEC(arg)         = (%_DateField(arg, 7));
 macro LOCAL_MS(arg)          = (%_DateField(arg, 8));
 macro LOCAL_DAYS(arg)        = (%_DateField(arg, 9));
 macro LOCAL_TIME_IN_DAY(arg) = (%_DateField(arg, 10));

 macro UTC_YEAR(arg)        = (%_DateField(arg, 11));
 macro UTC_MONTH(arg)       = (%_DateField(arg, 12));
 macro UTC_DAY(arg)         = (%_DateField(arg, 13));
 macro UTC_WEEKDAY(arg)     = (%_DateField(arg, 14));
 macro UTC_HOUR(arg)        = (%_DateField(arg, 15));
 macro UTC_MIN(arg)         = (%_DateField(arg, 16));
 macro UTC_SEC(arg)         = (%_DateField(arg, 17));
 macro UTC_MS(arg)          = (%_DateField(arg, 18));
 macro UTC_DAYS(arg)        = (%_DateField(arg, 19));
 macro UTC_TIME_IN_DAY(arg) = (%_DateField(arg, 20));

 macro TIMEZONE_OFFSET(arg)   = (%_DateField(arg, 21));

 macro SET_UTC_DATE_VALUE(arg, value) = (%DateSetValue(arg, value, 1));
 macro SET_LOCAL_DATE_VALUE(arg, value) = (%DateSetValue(arg, value, 0));

 # Last input and last subject of regexp matches.
 const LAST_SUBJECT_INDEX = 1;
 macro LAST_SUBJECT(array) = ((array)[1]);
 macro LAST_INPUT(array) = ((array)[2]);

 # REGEXP_FIRST_CAPTURE
 macro CAPTURE(index) = (3 + (index));
 const CAPTURE0 = 3;
 const CAPTURE1 = 4;

 # For the regexp capture override array.  This has the same
 # format as the arguments to a function called from
 # String.prototype.replace.
 macro OVERRIDE_MATCH(override) = ((override)[0]);
 macro OVERRIDE_POS(override) = ((override)[(override).length - 2]);
 macro OVERRIDE_SUBJECT(override) = ((override)[(override).length - 1]);
 # 1-based so index of 1 returns the first capture
 macro OVERRIDE_CAPTURE(override, index) = ((override)[(index)]);

 # PropertyDescriptor return value indices - must match
 # PropertyDescriptorIndices in runtime-object.cc.
 const IS_ACCESSOR_INDEX = 0;
 const VALUE_INDEX = 1;
 const GETTER_INDEX = 2;
 const SETTER_INDEX = 3;
 const WRITABLE_INDEX = 4;
 const ENUMERABLE_INDEX = 5;
 const CONFIGURABLE_INDEX = 6;

 # For messages.js
 # Matches Script::Type from objects.h
 const TYPE_NATIVE = 0;
 const TYPE_EXTENSION = 1;
 const TYPE_NORMAL = 2;

 # Matches Script::CompilationType from objects.h
 const COMPILATION_TYPE_HOST = 0;
 const COMPILATION_TYPE_EVAL = 1;
 const COMPILATION_TYPE_JSON = 2;

 # Matches Messages::kNoLineNumberInfo from v8.h
 const kNoLineNumberInfo = 0;

 # Matches PropertyAttributes from property-details.h
 const PROPERTY_ATTRIBUTES_NONE = 0;
 const PROPERTY_ATTRIBUTES_STRING = 8;
 const PROPERTY_ATTRIBUTES_SYMBOLIC = 16;
 const PROPERTY_ATTRIBUTES_PRIVATE_SYMBOL = 32;

 # Use for keys, values and entries iterators.
 const ITERATOR_KIND_KEYS = 1;
 const ITERATOR_KIND_VALUES = 2;
 const ITERATOR_KIND_ENTRIES = 3;

 # Check whether debug is active.
 const DEBUG_IS_ACTIVE = (%_DebugIsActive() != 0);
 macro DEBUG_IS_STEPPING(function) = (%_DebugIsActive() != 0 && %DebugCallbackSupportsStepping(function));
 macro DEBUG_PREPARE_STEP_IN_IF_STEPPING(function) = if (DEBUG_IS_STEPPING(function)) %DebugPrepareStepInIfStepping(function);
	# Copyright 2006-2009 the V8 project authors. All rights reserved.
	# 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.

	# Dictionary that is passed as defines for js2c.py.
	# Used for defines that must be defined for all native JS files.

	const NONE = 0;
	const READ_ONLY = 1;
	const DONT_ENUM = 2;
	const DONT_DELETE = 4;
	const NEW_ONE_BYTE_STRING = true;
	const NEW_TWO_BYTE_STRING = false;

	# Constants used for getter and setter operations.
	const GETTER = 0;
	const SETTER = 1;

	const NO_HINT = 0;
	const NUMBER_HINT = 1;
	const STRING_HINT = 2;

	# For date.js.
	const HoursPerDay = 24;
	const MinutesPerHour = 60;
	const SecondsPerMinute = 60;
	const msPerSecond = 1000;
	const msPerMinute = 60000;
	const msPerHour = 3600000;
	const msPerDay = 86400000;
	const msPerMonth = 2592000000;

	# Note: kDayZeroInJulianDay = ToJulianDay(1970, 0, 1).
	const kInvalidDate = 'Invalid Date';
	const kDayZeroInJulianDay = 2440588;
	const kMonthMask = 0x1e0;
	const kDayMask = 0x01f;
	const kYearShift = 9;
	const kMonthShift = 5;

	# Limits for parts of the date, so that we support all the dates that
	# ECMA 262 - 15.9.1.1 requires us to, but at the same time be sure that
	# the date (days since 1970) is in SMI range.
	const kMinYear = -1000000;
	const kMaxYear = 1000000;
	const kMinMonth = -10000000;
	const kMaxMonth = 10000000;

	# Strict mode flags for passing to %SetProperty
	const kSloppyMode = 0;
	const kStrictMode = 1;

	# Native cache ids.
	const STRING_TO_REGEXP_CACHE_ID = 0;

	# Type query macros.
	#
	# Note: We have special support for typeof(foo) === 'bar' in the compiler.
	# It will not generate a runtime typeof call for the most important
	# values of 'bar'.
	macro IS_NULL(arg) = (arg === null);
	macro IS_NULL_OR_UNDEFINED(arg) = (arg == null);
	macro IS_UNDEFINED(arg) = (arg === (void 0));
	macro IS_NUMBER(arg) = (typeof(arg) === 'number');
	macro IS_STRING(arg) = (typeof(arg) === 'string');
	macro IS_BOOLEAN(arg) = (typeof(arg) === 'boolean');
	macro IS_SYMBOL(arg) = (typeof(arg) === 'symbol');
	macro IS_OBJECT(arg) = (%_IsObject(arg));
	macro IS_ARRAY(arg) = (%_IsArray(arg));
	macro IS_FUNCTION(arg) = (%_IsFunction(arg));
	macro IS_REGEXP(arg) = (%_IsRegExp(arg));
	macro IS_SET(arg) = (%_ClassOf(arg) === 'Set');
	macro IS_MAP(arg) = (%_ClassOf(arg) === 'Map');
	macro IS_WEAKMAP(arg) = (%_ClassOf(arg) === 'WeakMap');
	macro IS_WEAKSET(arg) = (%_ClassOf(arg) === 'WeakSet');
	macro IS_DATE(arg) = (%_ClassOf(arg) === 'Date');
	macro IS_NUMBER_WRAPPER(arg) = (%_ClassOf(arg) === 'Number');
	macro IS_STRING_WRAPPER(arg) = (%_ClassOf(arg) === 'String');
	macro IS_SYMBOL_WRAPPER(arg) = (%_ClassOf(arg) === 'Symbol');
	macro IS_BOOLEAN_WRAPPER(arg) = (%_ClassOf(arg) === 'Boolean');
	macro IS_ERROR(arg) = (%_ClassOf(arg) === 'Error');
	macro IS_SCRIPT(arg) = (%_ClassOf(arg) === 'Script');
	macro IS_ARGUMENTS(arg) = (%_ClassOf(arg) === 'Arguments');
	macro IS_GLOBAL(arg) = (%_ClassOf(arg) === 'global');
	macro IS_ARRAYBUFFER(arg) = (%_ClassOf(arg) === 'ArrayBuffer');
	macro IS_DATAVIEW(arg) = (%_ClassOf(arg) === 'DataView');
	macro IS_GENERATOR(arg) = (%_ClassOf(arg) === 'Generator');
	macro IS_SET_ITERATOR(arg) = (%_ClassOf(arg) === 'Set Iterator');
	macro IS_MAP_ITERATOR(arg) = (%_ClassOf(arg) === 'Map Iterator');
	macro IS_UNDETECTABLE(arg) = (%_IsUndetectableObject(arg));
	macro FLOOR(arg) = $floor(arg);

	# Macro for ECMAScript 5 queries of the type:
	# "Type(O) is object."
	# This is the same as being either a function or an object in V8 terminology
	# (including proxies).
	# In addition, an undetectable object is also included by this.
	macro IS_SPEC_OBJECT(arg) = (%_IsSpecObject(arg));

	# Macro for ECMAScript 5 queries of the type:
	# "IsCallable(O)"
	# We assume here that this is the same as being either a function or a function
	# proxy. That ignores host objects with [[Call]] methods, but in most situations
	# we cannot handle those anyway.
	macro IS_SPEC_FUNCTION(arg) = (%_ClassOf(arg) === 'Function');

	# Macro for ES6 CheckObjectCoercible
	# Will throw a TypeError of the form "[functionName] called on null or undefined".
	macro CHECK_OBJECT_COERCIBLE(arg, functionName) = if (IS_NULL_OR_UNDEFINED(arg) && !IS_UNDETECTABLE(arg)) throw MakeTypeError('called_on_null_or_undefined', [functionName]);

	# Indices in bound function info retrieved by %BoundFunctionGetBindings(...).
	const kBoundFunctionIndex = 0;
	const kBoundThisIndex = 1;
	const kBoundArgumentsStartIndex = 2;

	# Inline macros. Use %IS_VAR to make sure arg is evaluated only once.
	macro NUMBER_IS_NAN(arg) = (!%_IsSmi(%IS_VAR(arg)) && !(arg == arg));
	macro NUMBER_IS_FINITE(arg) = (%_IsSmi(%IS_VAR(arg)) \|\| ((arg == arg) && (arg != 1/0) && (arg != -1/0)));
	macro TO_INTEGER(arg) = (%_IsSmi(%IS_VAR(arg)) ? arg : %NumberToInteger(ToNumber(arg)));
	macro TO_INTEGER_FOR_SIDE_EFFECT(arg) = (%_IsSmi(%IS_VAR(arg)) ? arg : ToNumber(arg));
	macro TO_INTEGER_MAP_MINUS_ZERO(arg) = (%_IsSmi(%IS_VAR(arg)) ? arg : %NumberToIntegerMapMinusZero(ToNumber(arg)));
	macro TO_INT32(arg) = (%_IsSmi(%IS_VAR(arg)) ? arg : (arg >> 0));
	macro TO_UINT32(arg) = (arg >>> 0);
	macro TO_STRING_INLINE(arg) = (IS_STRING(%IS_VAR(arg)) ? arg : NonStringToString(arg));
	macro TO_NUMBER_INLINE(arg) = (IS_NUMBER(%IS_VAR(arg)) ? arg : NonNumberToNumber(arg));
	macro TO_OBJECT_INLINE(arg) = (IS_SPEC_OBJECT(%IS_VAR(arg)) ? arg : ToObject(arg));
	macro JSON_NUMBER_TO_STRING(arg) = ((%_IsSmi(%IS_VAR(arg)) \|\| arg - arg == 0) ? %_NumberToString(arg) : "null");
	macro HAS_OWN_PROPERTY(obj, index) = (%_CallFunction(obj, index, ObjectHasOwnProperty));
	macro SHOULD_CREATE_WRAPPER(functionName, receiver) = (!IS_SPEC_OBJECT(receiver) && %IsSloppyModeFunction(functionName));
	macro HAS_INDEX(array, index, is_array) = ((is_array && %_HasFastPackedElements(%IS_VAR(array))) ? (index < array.length) : (index in array));

	# Private names.
	# GET_PRIVATE should only be used if the property is known to exists on obj
	# itself (it should really use %GetOwnProperty, but that would be way slower).
	macro GLOBAL_PRIVATE(name) = (%CreateGlobalPrivateOwnSymbol(name));
	macro NEW_PRIVATE_OWN(name) = (%CreatePrivateOwnSymbol(name));
	macro IS_PRIVATE(sym) = (%SymbolIsPrivate(sym));
	macro HAS_PRIVATE(obj, sym) = (%HasOwnProperty(obj, sym));
	macro HAS_DEFINED_PRIVATE(obj, sym) = (!IS_UNDEFINED(obj[sym]));
	macro GET_PRIVATE(obj, sym) = (obj[sym]);
	macro SET_PRIVATE(obj, sym, val) = (obj[sym] = val);
	macro DELETE_PRIVATE(obj, sym) = (delete obj[sym]);

	# Constants. The compiler constant folds them.
	const NAN = $NaN;
	const INFINITY = (1/0);
	const UNDEFINED = (void 0);

	# Macros implemented in Python.
	python macro CHAR_CODE(str) = ord(str[1]);

	# Constants used on an array to implement the properties of the RegExp object.
	const REGEXP_NUMBER_OF_CAPTURES = 0;
	const REGEXP_FIRST_CAPTURE = 3;

	# We can't put macros in macros so we use constants here.
	# REGEXP_NUMBER_OF_CAPTURES
	macro NUMBER_OF_CAPTURES(array) = ((array)[0]);

	# Limit according to ECMA 262 15.9.1.1
	const MAX_TIME_MS = 8640000000000000;
	# Limit which is MAX_TIME_MS + msPerMonth.
	const MAX_TIME_BEFORE_UTC = 8640002592000000;

	# Gets the value of a Date object. If arg is not a Date object
	# a type error is thrown.
	macro CHECK_DATE(arg) = if (%_ClassOf(arg) !== 'Date') ThrowDateTypeError();
	macro LOCAL_DATE_VALUE(arg) = (%_DateField(arg, 0) + %_DateField(arg, 21));
	macro UTC_DATE_VALUE(arg) = (%_DateField(arg, 0));

	macro LOCAL_YEAR(arg) = (%_DateField(arg, 1));
	macro LOCAL_MONTH(arg) = (%_DateField(arg, 2));
	macro LOCAL_DAY(arg) = (%_DateField(arg, 3));
	macro LOCAL_WEEKDAY(arg) = (%_DateField(arg, 4));
	macro LOCAL_HOUR(arg) = (%_DateField(arg, 5));
	macro LOCAL_MIN(arg) = (%_DateField(arg, 6));
	macro LOCAL_SEC(arg) = (%_DateField(arg, 7));
	macro LOCAL_MS(arg) = (%_DateField(arg, 8));
	macro LOCAL_DAYS(arg) = (%_DateField(arg, 9));
	macro LOCAL_TIME_IN_DAY(arg) = (%_DateField(arg, 10));

	macro UTC_YEAR(arg) = (%_DateField(arg, 11));
	macro UTC_MONTH(arg) = (%_DateField(arg, 12));
	macro UTC_DAY(arg) = (%_DateField(arg, 13));
	macro UTC_WEEKDAY(arg) = (%_DateField(arg, 14));
	macro UTC_HOUR(arg) = (%_DateField(arg, 15));
	macro UTC_MIN(arg) = (%_DateField(arg, 16));
	macro UTC_SEC(arg) = (%_DateField(arg, 17));
	macro UTC_MS(arg) = (%_DateField(arg, 18));
	macro UTC_DAYS(arg) = (%_DateField(arg, 19));
	macro UTC_TIME_IN_DAY(arg) = (%_DateField(arg, 20));

	macro TIMEZONE_OFFSET(arg) = (%_DateField(arg, 21));

	macro SET_UTC_DATE_VALUE(arg, value) = (%DateSetValue(arg, value, 1));
	macro SET_LOCAL_DATE_VALUE(arg, value) = (%DateSetValue(arg, value, 0));

	# Last input and last subject of regexp matches.
	const LAST_SUBJECT_INDEX = 1;
	macro LAST_SUBJECT(array) = ((array)[1]);
	macro LAST_INPUT(array) = ((array)[2]);

	# REGEXP_FIRST_CAPTURE
	macro CAPTURE(index) = (3 + (index));
	const CAPTURE0 = 3;
	const CAPTURE1 = 4;

	# For the regexp capture override array. This has the same
	# format as the arguments to a function called from
	# String.prototype.replace.
	macro OVERRIDE_MATCH(override) = ((override)[0]);
	macro OVERRIDE_POS(override) = ((override)[(override).length - 2]);
	macro OVERRIDE_SUBJECT(override) = ((override)[(override).length - 1]);
	# 1-based so index of 1 returns the first capture
	macro OVERRIDE_CAPTURE(override, index) = ((override)[(index)]);

	# PropertyDescriptor return value indices - must match
	# PropertyDescriptorIndices in runtime-object.cc.
	const IS_ACCESSOR_INDEX = 0;
	const VALUE_INDEX = 1;
	const GETTER_INDEX = 2;
	const SETTER_INDEX = 3;
	const WRITABLE_INDEX = 4;
	const ENUMERABLE_INDEX = 5;
	const CONFIGURABLE_INDEX = 6;

	# For messages.js
	# Matches Script::Type from objects.h
	const TYPE_NATIVE = 0;
	const TYPE_EXTENSION = 1;
	const TYPE_NORMAL = 2;

	# Matches Script::CompilationType from objects.h
	const COMPILATION_TYPE_HOST = 0;
	const COMPILATION_TYPE_EVAL = 1;
	const COMPILATION_TYPE_JSON = 2;

	# Matches Messages::kNoLineNumberInfo from v8.h
	const kNoLineNumberInfo = 0;

	# Matches PropertyAttributes from property-details.h
	const PROPERTY_ATTRIBUTES_NONE = 0;
	const PROPERTY_ATTRIBUTES_STRING = 8;
	const PROPERTY_ATTRIBUTES_SYMBOLIC = 16;
	const PROPERTY_ATTRIBUTES_PRIVATE_SYMBOL = 32;

	# Use for keys, values and entries iterators.
	const ITERATOR_KIND_KEYS = 1;
	const ITERATOR_KIND_VALUES = 2;
	const ITERATOR_KIND_ENTRIES = 3;

	# Check whether debug is active.
	const DEBUG_IS_ACTIVE = (%_DebugIsActive() != 0);
	macro DEBUG_IS_STEPPING(function) = (%_DebugIsActive() != 0 && %DebugCallbackSupportsStepping(function));
	macro DEBUG_PREPARE_STEP_IN_IF_STEPPING(function) = if (DEBUG_IS_STEPPING(function)) %DebugPrepareStepInIfStepping(function);