src/runtime.js - platform/external/v8 - Git at Google

 // Copyright 2006-2008 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 // This files contains runtime support implemented in JavaScript.

 // CAUTION: Some of the functions specified in this file are called
 // directly from compiled code. These are the functions with names in
 // ALL CAPS. The compiled code passes the first argument in 'this'.


 /* -----------------------------------
    - - -   C o m p a r i s o n   - - -
    -----------------------------------
 */

 // The following declarations are shared with other native JS files.
 // They are all declared at this one spot to avoid redeclaration errors.
 var $Object = global.Object;
 var $Array = global.Array;
 var $String = global.String;
 var $Number = global.Number;
 var $Function = global.Function;
 var $Boolean = global.Boolean;
 var $NaN = %GetRootNaN();

 // ECMA-262 Section 11.9.3.
 function EQUALS(y) {
   if (IS_STRING(this) && IS_STRING(y)) return %StringEquals(this, y);
   var x = this;

   while (true) {
     if (IS_NUMBER(x)) {
       while (true) {
         if (IS_NUMBER(y)) return %NumberEquals(x, y);
         if (IS_NULL_OR_UNDEFINED(y)) return 1;  // not equal
         if (IS_SYMBOL(y)) return 1;  // not equal
         if (!IS_SPEC_OBJECT(y)) {
           // String or boolean.
           return %NumberEquals(x, %ToNumber(y));
         }
         y = %ToPrimitive(y, NO_HINT);
       }
     } else if (IS_STRING(x)) {
       while (true) {
         if (IS_STRING(y)) return %StringEquals(x, y);
         if (IS_SYMBOL(y)) return 1;  // not equal
         if (IS_NUMBER(y)) return %NumberEquals(%ToNumber(x), y);
         if (IS_BOOLEAN(y)) return %NumberEquals(%ToNumber(x), %ToNumber(y));
         if (IS_NULL_OR_UNDEFINED(y)) return 1;  // not equal
         y = %ToPrimitive(y, NO_HINT);
       }
     } else if (IS_SYMBOL(x)) {
       if (IS_SYMBOL(y)) return %_ObjectEquals(x, y) ? 0 : 1;
       return 1; // not equal
     } else if (IS_BOOLEAN(x)) {
       if (IS_BOOLEAN(y)) return %_ObjectEquals(x, y) ? 0 : 1;
       if (IS_NULL_OR_UNDEFINED(y)) return 1;
       if (IS_NUMBER(y)) return %NumberEquals(%ToNumber(x), y);
       if (IS_STRING(y)) return %NumberEquals(%ToNumber(x), %ToNumber(y));
       if (IS_SYMBOL(y)) return 1;  // not equal
       // y is object.
       x = %ToNumber(x);
       y = %ToPrimitive(y, NO_HINT);
     } else if (IS_NULL_OR_UNDEFINED(x)) {
       return IS_NULL_OR_UNDEFINED(y) ? 0 : 1;
     } else {
       // x is an object.
       if (IS_SPEC_OBJECT(y)) {
         return %_ObjectEquals(x, y) ? 0 : 1;
       }
       if (IS_NULL_OR_UNDEFINED(y)) return 1;  // not equal
       if (IS_SYMBOL(y)) return 1;  // not equal
       if (IS_BOOLEAN(y)) y = %ToNumber(y);
       x = %ToPrimitive(x, NO_HINT);
     }
   }
 }

 // ECMA-262, section 11.9.4, page 56.
 function STRICT_EQUALS(x) {
   if (IS_STRING(this)) {
     if (!IS_STRING(x)) return 1;  // not equal
     return %StringEquals(this, x);
   }

   if (IS_NUMBER(this)) {
     if (!IS_NUMBER(x)) return 1;  // not equal
     return %NumberEquals(this, x);
   }

   // If anything else gets here, we just do simple identity check.
   // Objects (including functions), null, undefined and booleans were
   // checked in the CompareStub, so there should be nothing left.
   return %_ObjectEquals(this, x) ? 0 : 1;
 }


 // ECMA-262, section 11.8.5, page 53. The 'ncr' parameter is used as
 // the result when either (or both) the operands are NaN.
 function COMPARE(x, ncr) {
   var left;
   var right;
   // Fast cases for string, numbers and undefined compares.
   if (IS_STRING(this)) {
     if (IS_STRING(x)) return %_StringCompare(this, x);
     if (IS_UNDEFINED(x)) return ncr;
     left = this;
   } else if (IS_NUMBER(this)) {
     if (IS_NUMBER(x)) return %NumberCompare(this, x, ncr);
     if (IS_UNDEFINED(x)) return ncr;
     left = this;
   } else if (IS_UNDEFINED(this)) {
     if (!IS_UNDEFINED(x)) {
       %ToPrimitive(x, NUMBER_HINT);
     }
     return ncr;
   } else if (IS_UNDEFINED(x)) {
     %ToPrimitive(this, NUMBER_HINT);
     return ncr;
   } else {
     left = %ToPrimitive(this, NUMBER_HINT);
   }

   right = %ToPrimitive(x, NUMBER_HINT);
   if (IS_STRING(left) && IS_STRING(right)) {
     return %_StringCompare(left, right);
   } else {
     var left_number = %ToNumber(left);
     var right_number = %ToNumber(right);
     if (NUMBER_IS_NAN(left_number) || NUMBER_IS_NAN(right_number)) return ncr;
     return %NumberCompare(left_number, right_number, ncr);
   }
 }


 /* -----------------------------------
    - - -   A r i t h m e t i c   - - -
    -----------------------------------
 */

 // ECMA-262, section 11.6.1, page 50.
 function ADD(x) {
   // Fast case: Check for number operands and do the addition.
   if (IS_NUMBER(this) && IS_NUMBER(x)) return %NumberAdd(this, x);
   if (IS_STRING(this) && IS_STRING(x)) return %_StringAdd(this, x);

   // Default implementation.
   var a = %ToPrimitive(this, NO_HINT);
   var b = %ToPrimitive(x, NO_HINT);

   if (IS_STRING(a)) {
     return %_StringAdd(a, %ToString(b));
   } else if (IS_STRING(b)) {
     return %_StringAdd(%NonStringToString(a), b);
   } else {
     return %NumberAdd(%ToNumber(a), %ToNumber(b));
   }
 }


 // Left operand (this) is already a string.
 function STRING_ADD_LEFT(y) {
   if (!IS_STRING(y)) {
     if (IS_STRING_WRAPPER(y) && %_IsStringWrapperSafeForDefaultValueOf(y)) {
       y = %_ValueOf(y);
     } else {
       y = IS_NUMBER(y)
           ? %_NumberToString(y)
           : %ToString(%ToPrimitive(y, NO_HINT));
     }
   }
   return %_StringAdd(this, y);
 }


 // Right operand (y) is already a string.
 function STRING_ADD_RIGHT(y) {
   var x = this;
   if (!IS_STRING(x)) {
     if (IS_STRING_WRAPPER(x) && %_IsStringWrapperSafeForDefaultValueOf(x)) {
       x = %_ValueOf(x);
     } else {
       x = IS_NUMBER(x)
           ? %_NumberToString(x)
           : %ToString(%ToPrimitive(x, NO_HINT));
     }
   }
   return %_StringAdd(x, y);
 }


 // ECMA-262, section 11.6.2, page 50.
 function SUB(y) {
   var x = IS_NUMBER(this) ? this : %NonNumberToNumber(this);
   if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
   return %NumberSub(x, y);
 }


 // ECMA-262, section 11.5.1, page 48.
 function MUL(y) {
   var x = IS_NUMBER(this) ? this : %NonNumberToNumber(this);
   if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
   return %NumberMul(x, y);
 }


 // ECMA-262, section 11.5.2, page 49.
 function DIV(y) {
   var x = IS_NUMBER(this) ? this : %NonNumberToNumber(this);
   if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
   return %NumberDiv(x, y);
 }


 // ECMA-262, section 11.5.3, page 49.
 function MOD(y) {
   var x = IS_NUMBER(this) ? this : %NonNumberToNumber(this);
   if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
   return %NumberMod(x, y);
 }


 /* -------------------------------------------
    - - -   B i t   o p e r a t i o n s   - - -
    -------------------------------------------
 */

 // ECMA-262, section 11.10, page 57.
 function BIT_OR(y) {
   var x = IS_NUMBER(this) ? this : %NonNumberToNumber(this);
   if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
   return %NumberOr(x, y);
 }


 // ECMA-262, section 11.10, page 57.
 function BIT_AND(y) {
   var x;
   if (IS_NUMBER(this)) {
     x = this;
     if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
   } else {
     x = %NonNumberToNumber(this);
     // Make sure to convert the right operand to a number before
     // bailing out in the fast case, but after converting the
     // left operand. This ensures that valueOf methods on the right
     // operand are always executed.
     if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
     // Optimize for the case where we end up AND'ing a value
     // that doesn't convert to a number. This is common in
     // certain benchmarks.
     if (NUMBER_IS_NAN(x)) return 0;
   }
   return %NumberAnd(x, y);
 }


 // ECMA-262, section 11.10, page 57.
 function BIT_XOR(y) {
   var x = IS_NUMBER(this) ? this : %NonNumberToNumber(this);
   if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
   return %NumberXor(x, y);
 }


 // ECMA-262, section 11.7.1, page 51.
 function SHL(y) {
   var x = IS_NUMBER(this) ? this : %NonNumberToNumber(this);
   if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
   return %NumberShl(x, y);
 }


 // ECMA-262, section 11.7.2, page 51.
 function SAR(y) {
   var x;
   if (IS_NUMBER(this)) {
     x = this;
     if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
   } else {
     x = %NonNumberToNumber(this);
     // Make sure to convert the right operand to a number before
     // bailing out in the fast case, but after converting the
     // left operand. This ensures that valueOf methods on the right
     // operand are always executed.
     if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
     // Optimize for the case where we end up shifting a value
     // that doesn't convert to a number. This is common in
     // certain benchmarks.
     if (NUMBER_IS_NAN(x)) return 0;
   }
   return %NumberSar(x, y);
 }


 // ECMA-262, section 11.7.3, page 52.
 function SHR(y) {
   var x = IS_NUMBER(this) ? this : %NonNumberToNumber(this);
   if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
   return %NumberShr(x, y);
 }


 /* -----------------------------
    - - -   H e l p e r s   - - -
    -----------------------------
 */

 // ECMA-262, section 11.4.1, page 46.
 function DELETE(key, strict) {
   return %DeleteProperty(%ToObject(this), %ToName(key), strict);
 }


 // ECMA-262, section 11.8.7, page 54.
 function IN(x) {
   if (!IS_SPEC_OBJECT(x)) {
     throw %MakeTypeError('invalid_in_operator_use', [this, x]);
   }
   if (%_IsNonNegativeSmi(this)) {
     if (IS_ARRAY(x) && %_HasFastPackedElements(x)) {
       return this < x.length;
     }
     return %HasElement(x, this);
   }
   return %HasProperty(x, %ToName(this));
 }


 // ECMA-262, section 11.8.6, page 54. To make the implementation more
 // efficient, the return value should be zero if the 'this' is an
 // instance of F, and non-zero if not. This makes it possible to avoid
 // an expensive ToBoolean conversion in the generated code.
 function INSTANCE_OF(F) {
   var V = this;
   if (!IS_SPEC_FUNCTION(F)) {
     throw %MakeTypeError('instanceof_function_expected', [F]);
   }

   // If V is not an object, return false.
   if (!IS_SPEC_OBJECT(V)) {
     return 1;
   }

   // Check if function is bound, if so, get [[BoundFunction]] from it
   // and use that instead of F.
   var bindings = %BoundFunctionGetBindings(F);
   if (bindings) {
     F = bindings[kBoundFunctionIndex];  // Always a non-bound function.
   }
   // Get the prototype of F; if it is not an object, throw an error.
   var O = F.prototype;
   if (!IS_SPEC_OBJECT(O)) {
     throw %MakeTypeError('instanceof_nonobject_proto', [O]);
   }

   // Return whether or not O is in the prototype chain of V.
   return %IsInPrototypeChain(O, V) ? 0 : 1;
 }


 // Filter a given key against an object by checking if the object
 // has a property with the given key; return the key as a string if
 // it has. Otherwise returns 0 (smi). Used in for-in statements.
 function FILTER_KEY(key) {
   var string = %ToName(key);
   if (%HasProperty(this, string)) return string;
   return 0;
 }


 function CALL_NON_FUNCTION() {
   var delegate = %GetFunctionDelegate(this);
   if (!IS_FUNCTION(delegate)) {
     throw %MakeTypeError('called_non_callable', [typeof this]);
   }
   return %Apply(delegate, this, arguments, 0, %_ArgumentsLength());
 }


 function CALL_NON_FUNCTION_AS_CONSTRUCTOR() {
   var delegate = %GetConstructorDelegate(this);
   if (!IS_FUNCTION(delegate)) {
     throw %MakeTypeError('called_non_callable', [typeof this]);
   }
   return %Apply(delegate, this, arguments, 0, %_ArgumentsLength());
 }


 function CALL_FUNCTION_PROXY() {
   var arity = %_ArgumentsLength() - 1;
   var proxy = %_Arguments(arity);  // The proxy comes in as an additional arg.
   var trap = %GetCallTrap(proxy);
   return %Apply(trap, this, arguments, 0, arity);
 }


 function CALL_FUNCTION_PROXY_AS_CONSTRUCTOR() {
   var proxy = this;
   var trap = %GetConstructTrap(proxy);
   return %Apply(trap, this, arguments, 0, %_ArgumentsLength());
 }


 function APPLY_PREPARE(args) {
   var length;
   // First check whether length is a positive Smi and args is an
   // array. This is the fast case. If this fails, we do the slow case
   // that takes care of more eventualities.
   if (IS_ARRAY(args)) {
     length = args.length;
     if (%_IsSmi(length) && length >= 0 && length < 0x800000 &&
         IS_SPEC_FUNCTION(this)) {
       return length;
     }
   }

   length = (args == null) ? 0 : %ToUint32(args.length);

   // We can handle any number of apply arguments if the stack is
   // big enough, but sanity check the value to avoid overflow when
   // multiplying with pointer size.
   if (length > 0x800000) {
     throw %MakeRangeError('stack_overflow', []);
   }

   if (!IS_SPEC_FUNCTION(this)) {
     throw %MakeTypeError('apply_non_function',
                          [ %ToString(this), typeof this ]);
   }

   // Make sure the arguments list has the right type.
   if (args != null && !IS_SPEC_OBJECT(args)) {
     throw %MakeTypeError('apply_wrong_args', []);
   }

   // Return the length which is the number of arguments to copy to the
   // stack. It is guaranteed to be a small integer at this point.
   return length;
 }


 function STACK_OVERFLOW(length) {
   throw %MakeRangeError('stack_overflow', []);
 }


 // Convert the receiver to an object - forward to ToObject.
 function TO_OBJECT() {
   return %ToObject(this);
 }


 // Convert the receiver to a number - forward to ToNumber.
 function TO_NUMBER() {
   return %ToNumber(this);
 }


 // Convert the receiver to a string - forward to ToString.
 function TO_STRING() {
   return %ToString(this);
 }


 /* -------------------------------------
    - - -   C o n v e r s i o n s   - - -
    -------------------------------------
 */

 // ECMA-262, section 9.1, page 30. Use null/undefined for no hint,
 // (1) for number hint, and (2) for string hint.
 function ToPrimitive(x, hint) {
   // Fast case check.
   if (IS_STRING(x)) return x;
   // Normal behavior.
   if (!IS_SPEC_OBJECT(x)) return x;
   if (IS_SYMBOL_WRAPPER(x)) throw MakeTypeError('symbol_to_primitive', []);
   if (hint == NO_HINT) hint = (IS_DATE(x)) ? STRING_HINT : NUMBER_HINT;
   return (hint == NUMBER_HINT) ? %DefaultNumber(x) : %DefaultString(x);
 }


 // ECMA-262, section 9.2, page 30
 function ToBoolean(x) {
   if (IS_BOOLEAN(x)) return x;
   if (IS_STRING(x)) return x.length != 0;
   if (x == null) return false;
   if (IS_NUMBER(x)) return !((x == 0) || NUMBER_IS_NAN(x));
   return true;
 }


 // ECMA-262, section 9.3, page 31.
 function ToNumber(x) {
   if (IS_NUMBER(x)) return x;
   if (IS_STRING(x)) {
     return %_HasCachedArrayIndex(x) ? %_GetCachedArrayIndex(x)
                                     : %StringToNumber(x);
   }
   if (IS_BOOLEAN(x)) return x ? 1 : 0;
   if (IS_UNDEFINED(x)) return NAN;
   if (IS_SYMBOL(x)) throw MakeTypeError('symbol_to_number', []);
   return (IS_NULL(x)) ? 0 : ToNumber(%DefaultNumber(x));
 }

 function NonNumberToNumber(x) {
   if (IS_STRING(x)) {
     return %_HasCachedArrayIndex(x) ? %_GetCachedArrayIndex(x)
                                     : %StringToNumber(x);
   }
   if (IS_BOOLEAN(x)) return x ? 1 : 0;
   if (IS_UNDEFINED(x)) return NAN;
   if (IS_SYMBOL(x)) throw MakeTypeError('symbol_to_number', []);
   return (IS_NULL(x)) ? 0 : ToNumber(%DefaultNumber(x));
 }


 // ECMA-262, section 9.8, page 35.
 function ToString(x) {
   if (IS_STRING(x)) return x;
   if (IS_NUMBER(x)) return %_NumberToString(x);
   if (IS_BOOLEAN(x)) return x ? 'true' : 'false';
   if (IS_UNDEFINED(x)) return 'undefined';
   if (IS_SYMBOL(x)) throw %MakeTypeError('symbol_to_string', []);
   return (IS_NULL(x)) ? 'null' : %ToString(%DefaultString(x));
 }

 function NonStringToString(x) {
   if (IS_NUMBER(x)) return %_NumberToString(x);
   if (IS_BOOLEAN(x)) return x ? 'true' : 'false';
   if (IS_UNDEFINED(x)) return 'undefined';
   if (IS_SYMBOL(x)) throw %MakeTypeError('symbol_to_string', []);
   return (IS_NULL(x)) ? 'null' : %ToString(%DefaultString(x));
 }


 // ES6 symbols
 function ToName(x) {
   return IS_SYMBOL(x) ? x : %ToString(x);
 }


 // ECMA-262, section 9.9, page 36.
 function ToObject(x) {
   if (IS_STRING(x)) return new $String(x);
   if (IS_NUMBER(x)) return new $Number(x);
   if (IS_BOOLEAN(x)) return new $Boolean(x);
   if (IS_SYMBOL(x)) return %NewSymbolWrapper(x);
   if (IS_NULL_OR_UNDEFINED(x) && !IS_UNDETECTABLE(x)) {
     throw %MakeTypeError('undefined_or_null_to_object', []);
   }
   return x;
 }


 // ECMA-262, section 9.4, page 34.
 function ToInteger(x) {
   if (%_IsSmi(x)) return x;
   return %NumberToInteger(ToNumber(x));
 }


 // ES6, draft 08-24-14, section 7.1.15
 function ToLength(arg) {
   arg = ToInteger(arg);
   if (arg < 0) return 0;
   return arg < $Number.MAX_SAFE_INTEGER ? arg : $Number.MAX_SAFE_INTEGER;
 }


 // ECMA-262, section 9.6, page 34.
 function ToUint32(x) {
   if (%_IsSmi(x) && x >= 0) return x;
   return %NumberToJSUint32(ToNumber(x));
 }


 // ECMA-262, section 9.5, page 34
 function ToInt32(x) {
   if (%_IsSmi(x)) return x;
   return %NumberToJSInt32(ToNumber(x));
 }


 // ES5, section 9.12
 function SameValue(x, y) {
   if (typeof x != typeof y) return false;
   if (IS_NUMBER(x)) {
     if (NUMBER_IS_NAN(x) && NUMBER_IS_NAN(y)) return true;
     // x is +0 and y is -0 or vice versa.
     if (x === 0 && y === 0 && %_IsMinusZero(x) != %_IsMinusZero(y)) {
       return false;
     }
   }
   return x === y;
 }

 // ES6, section 7.2.4
 function SameValueZero(x, y) {
   if (typeof x != typeof y) return false;
   if (IS_NUMBER(x)) {
     if (NUMBER_IS_NAN(x) && NUMBER_IS_NAN(y)) return true;
   }
   return x === y;
 }


 /* ---------------------------------
    - - -   U t i l i t i e s   - - -
    ---------------------------------
 */

 // Returns if the given x is a primitive value - not an object or a
 // function.
 function IsPrimitive(x) {
   // Even though the type of null is "object", null is still
   // considered a primitive value. IS_SPEC_OBJECT handles this correctly
   // (i.e., it will return false if x is null).
   return !IS_SPEC_OBJECT(x);
 }


 // ES6, draft 10-14-14, section 22.1.3.1.1
 function IsConcatSpreadable(O) {
   if (!IS_SPEC_OBJECT(O)) return false;
   var spreadable = O[symbolIsConcatSpreadable];
   if (IS_UNDEFINED(spreadable)) return IS_ARRAY(O);
   return ToBoolean(spreadable);
 }


 // ECMA-262, section 8.6.2.6, page 28.
 function DefaultNumber(x) {
   if (!IS_SYMBOL_WRAPPER(x)) {
     var valueOf = x.valueOf;
     if (IS_SPEC_FUNCTION(valueOf)) {
       var v = %_CallFunction(x, valueOf);
       if (%IsPrimitive(v)) return v;
     }

     var toString = x.toString;
     if (IS_SPEC_FUNCTION(toString)) {
       var s = %_CallFunction(x, toString);
       if (%IsPrimitive(s)) return s;
     }
   }
   throw %MakeTypeError('cannot_convert_to_primitive', []);
 }

 // ECMA-262, section 8.6.2.6, page 28.
 function DefaultString(x) {
   if (!IS_SYMBOL_WRAPPER(x)) {
     var toString = x.toString;
     if (IS_SPEC_FUNCTION(toString)) {
       var s = %_CallFunction(x, toString);
       if (%IsPrimitive(s)) return s;
     }

     var valueOf = x.valueOf;
     if (IS_SPEC_FUNCTION(valueOf)) {
       var v = %_CallFunction(x, valueOf);
       if (%IsPrimitive(v)) return v;
     }
   }
   throw %MakeTypeError('cannot_convert_to_primitive', []);
 }

 function ToPositiveInteger(x, rangeErrorName) {
   var i = TO_INTEGER_MAP_MINUS_ZERO(x);
   if (i < 0) throw MakeRangeError(rangeErrorName);
   return i;
 }


 // NOTE: Setting the prototype for Array must take place as early as
 // possible due to code generation for array literals.  When
 // generating code for a array literal a boilerplate array is created
 // that is cloned when running the code.  It is essential that the
 // boilerplate gets the right prototype.
 %FunctionSetPrototype($Array, new $Array(0));
	// Copyright 2006-2008 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	// This files contains runtime support implemented in JavaScript.

	// CAUTION: Some of the functions specified in this file are called
	// directly from compiled code. These are the functions with names in
	// ALL CAPS. The compiled code passes the first argument in 'this'.


	/* -----------------------------------
	- - - C o m p a r i s o n - - -
	-----------------------------------
	*/

	// The following declarations are shared with other native JS files.
	// They are all declared at this one spot to avoid redeclaration errors.
	var $Object = global.Object;
	var $Array = global.Array;
	var $String = global.String;
	var $Number = global.Number;
	var $Function = global.Function;
	var $Boolean = global.Boolean;
	var $NaN = %GetRootNaN();

	// ECMA-262 Section 11.9.3.
	function EQUALS(y) {
	if (IS_STRING(this) && IS_STRING(y)) return %StringEquals(this, y);
	var x = this;

	while (true) {
	if (IS_NUMBER(x)) {
	while (true) {
	if (IS_NUMBER(y)) return %NumberEquals(x, y);
	if (IS_NULL_OR_UNDEFINED(y)) return 1; // not equal
	if (IS_SYMBOL(y)) return 1; // not equal
	if (!IS_SPEC_OBJECT(y)) {
	// String or boolean.
	return %NumberEquals(x, %ToNumber(y));
	}
	y = %ToPrimitive(y, NO_HINT);
	}
	} else if (IS_STRING(x)) {
	while (true) {
	if (IS_STRING(y)) return %StringEquals(x, y);
	if (IS_SYMBOL(y)) return 1; // not equal
	if (IS_NUMBER(y)) return %NumberEquals(%ToNumber(x), y);
	if (IS_BOOLEAN(y)) return %NumberEquals(%ToNumber(x), %ToNumber(y));
	if (IS_NULL_OR_UNDEFINED(y)) return 1; // not equal
	y = %ToPrimitive(y, NO_HINT);
	}
	} else if (IS_SYMBOL(x)) {
	if (IS_SYMBOL(y)) return %_ObjectEquals(x, y) ? 0 : 1;
	return 1; // not equal
	} else if (IS_BOOLEAN(x)) {
	if (IS_BOOLEAN(y)) return %_ObjectEquals(x, y) ? 0 : 1;
	if (IS_NULL_OR_UNDEFINED(y)) return 1;
	if (IS_NUMBER(y)) return %NumberEquals(%ToNumber(x), y);
	if (IS_STRING(y)) return %NumberEquals(%ToNumber(x), %ToNumber(y));
	if (IS_SYMBOL(y)) return 1; // not equal
	// y is object.
	x = %ToNumber(x);
	y = %ToPrimitive(y, NO_HINT);
	} else if (IS_NULL_OR_UNDEFINED(x)) {
	return IS_NULL_OR_UNDEFINED(y) ? 0 : 1;
	} else {
	// x is an object.
	if (IS_SPEC_OBJECT(y)) {
	return %_ObjectEquals(x, y) ? 0 : 1;
	}
	if (IS_NULL_OR_UNDEFINED(y)) return 1; // not equal
	if (IS_SYMBOL(y)) return 1; // not equal
	if (IS_BOOLEAN(y)) y = %ToNumber(y);
	x = %ToPrimitive(x, NO_HINT);
	}
	}
	}

	// ECMA-262, section 11.9.4, page 56.
	function STRICT_EQUALS(x) {
	if (IS_STRING(this)) {
	if (!IS_STRING(x)) return 1; // not equal
	return %StringEquals(this, x);
	}

	if (IS_NUMBER(this)) {
	if (!IS_NUMBER(x)) return 1; // not equal
	return %NumberEquals(this, x);
	}

	// If anything else gets here, we just do simple identity check.
	// Objects (including functions), null, undefined and booleans were
	// checked in the CompareStub, so there should be nothing left.
	return %_ObjectEquals(this, x) ? 0 : 1;
	}


	// ECMA-262, section 11.8.5, page 53. The 'ncr' parameter is used as
	// the result when either (or both) the operands are NaN.
	function COMPARE(x, ncr) {
	var left;
	var right;
	// Fast cases for string, numbers and undefined compares.
	if (IS_STRING(this)) {
	if (IS_STRING(x)) return %_StringCompare(this, x);
	if (IS_UNDEFINED(x)) return ncr;
	left = this;
	} else if (IS_NUMBER(this)) {
	if (IS_NUMBER(x)) return %NumberCompare(this, x, ncr);
	if (IS_UNDEFINED(x)) return ncr;
	left = this;
	} else if (IS_UNDEFINED(this)) {
	if (!IS_UNDEFINED(x)) {
	%ToPrimitive(x, NUMBER_HINT);
	}
	return ncr;
	} else if (IS_UNDEFINED(x)) {
	%ToPrimitive(this, NUMBER_HINT);
	return ncr;
	} else {
	left = %ToPrimitive(this, NUMBER_HINT);
	}

	right = %ToPrimitive(x, NUMBER_HINT);
	if (IS_STRING(left) && IS_STRING(right)) {
	return %_StringCompare(left, right);
	} else {
	var left_number = %ToNumber(left);
	var right_number = %ToNumber(right);
	if (NUMBER_IS_NAN(left_number) \|\| NUMBER_IS_NAN(right_number)) return ncr;
	return %NumberCompare(left_number, right_number, ncr);
	}
	}



	/* -----------------------------------
	- - - A r i t h m e t i c - - -
	-----------------------------------
	*/

	// ECMA-262, section 11.6.1, page 50.
	function ADD(x) {
	// Fast case: Check for number operands and do the addition.
	if (IS_NUMBER(this) && IS_NUMBER(x)) return %NumberAdd(this, x);
	if (IS_STRING(this) && IS_STRING(x)) return %_StringAdd(this, x);

	// Default implementation.
	var a = %ToPrimitive(this, NO_HINT);
	var b = %ToPrimitive(x, NO_HINT);

	if (IS_STRING(a)) {
	return %_StringAdd(a, %ToString(b));
	} else if (IS_STRING(b)) {
	return %_StringAdd(%NonStringToString(a), b);
	} else {
	return %NumberAdd(%ToNumber(a), %ToNumber(b));
	}
	}


	// Left operand (this) is already a string.
	function STRING_ADD_LEFT(y) {
	if (!IS_STRING(y)) {
	if (IS_STRING_WRAPPER(y) && %_IsStringWrapperSafeForDefaultValueOf(y)) {
	y = %_ValueOf(y);
	} else {
	y = IS_NUMBER(y)
	? %_NumberToString(y)
	: %ToString(%ToPrimitive(y, NO_HINT));
	}
	}
	return %_StringAdd(this, y);
	}


	// Right operand (y) is already a string.
	function STRING_ADD_RIGHT(y) {
	var x = this;
	if (!IS_STRING(x)) {
	if (IS_STRING_WRAPPER(x) && %_IsStringWrapperSafeForDefaultValueOf(x)) {
	x = %_ValueOf(x);
	} else {
	x = IS_NUMBER(x)
	? %_NumberToString(x)
	: %ToString(%ToPrimitive(x, NO_HINT));
	}
	}
	return %_StringAdd(x, y);
	}


	// ECMA-262, section 11.6.2, page 50.
	function SUB(y) {
	var x = IS_NUMBER(this) ? this : %NonNumberToNumber(this);
	if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
	return %NumberSub(x, y);
	}


	// ECMA-262, section 11.5.1, page 48.
	function MUL(y) {
	var x = IS_NUMBER(this) ? this : %NonNumberToNumber(this);
	if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
	return %NumberMul(x, y);
	}


	// ECMA-262, section 11.5.2, page 49.
	function DIV(y) {
	var x = IS_NUMBER(this) ? this : %NonNumberToNumber(this);
	if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
	return %NumberDiv(x, y);
	}


	// ECMA-262, section 11.5.3, page 49.
	function MOD(y) {
	var x = IS_NUMBER(this) ? this : %NonNumberToNumber(this);
	if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
	return %NumberMod(x, y);
	}



	/* -------------------------------------------
	- - - B i t o p e r a t i o n s - - -
	-------------------------------------------
	*/

	// ECMA-262, section 11.10, page 57.
	function BIT_OR(y) {
	var x = IS_NUMBER(this) ? this : %NonNumberToNumber(this);
	if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
	return %NumberOr(x, y);
	}


	// ECMA-262, section 11.10, page 57.
	function BIT_AND(y) {
	var x;
	if (IS_NUMBER(this)) {
	x = this;
	if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
	} else {
	x = %NonNumberToNumber(this);
	// Make sure to convert the right operand to a number before
	// bailing out in the fast case, but after converting the
	// left operand. This ensures that valueOf methods on the right
	// operand are always executed.
	if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
	// Optimize for the case where we end up AND'ing a value
	// that doesn't convert to a number. This is common in
	// certain benchmarks.
	if (NUMBER_IS_NAN(x)) return 0;
	}
	return %NumberAnd(x, y);
	}


	// ECMA-262, section 11.10, page 57.
	function BIT_XOR(y) {
	var x = IS_NUMBER(this) ? this : %NonNumberToNumber(this);
	if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
	return %NumberXor(x, y);
	}


	// ECMA-262, section 11.7.1, page 51.
	function SHL(y) {
	var x = IS_NUMBER(this) ? this : %NonNumberToNumber(this);
	if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
	return %NumberShl(x, y);
	}


	// ECMA-262, section 11.7.2, page 51.
	function SAR(y) {
	var x;
	if (IS_NUMBER(this)) {
	x = this;
	if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
	} else {
	x = %NonNumberToNumber(this);
	// Make sure to convert the right operand to a number before
	// bailing out in the fast case, but after converting the
	// left operand. This ensures that valueOf methods on the right
	// operand are always executed.
	if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
	// Optimize for the case where we end up shifting a value
	// that doesn't convert to a number. This is common in
	// certain benchmarks.
	if (NUMBER_IS_NAN(x)) return 0;
	}
	return %NumberSar(x, y);
	}


	// ECMA-262, section 11.7.3, page 52.
	function SHR(y) {
	var x = IS_NUMBER(this) ? this : %NonNumberToNumber(this);
	if (!IS_NUMBER(y)) y = %NonNumberToNumber(y);
	return %NumberShr(x, y);
	}



	/* -----------------------------
	- - - H e l p e r s - - -
	-----------------------------
	*/

	// ECMA-262, section 11.4.1, page 46.
	function DELETE(key, strict) {
	return %DeleteProperty(%ToObject(this), %ToName(key), strict);
	}


	// ECMA-262, section 11.8.7, page 54.
	function IN(x) {
	if (!IS_SPEC_OBJECT(x)) {
	throw %MakeTypeError('invalid_in_operator_use', [this, x]);
	}
	if (%_IsNonNegativeSmi(this)) {
	if (IS_ARRAY(x) && %_HasFastPackedElements(x)) {
	return this < x.length;
	}
	return %HasElement(x, this);
	}
	return %HasProperty(x, %ToName(this));
	}


	// ECMA-262, section 11.8.6, page 54. To make the implementation more
	// efficient, the return value should be zero if the 'this' is an
	// instance of F, and non-zero if not. This makes it possible to avoid
	// an expensive ToBoolean conversion in the generated code.
	function INSTANCE_OF(F) {
	var V = this;
	if (!IS_SPEC_FUNCTION(F)) {
	throw %MakeTypeError('instanceof_function_expected', [F]);
	}

	// If V is not an object, return false.
	if (!IS_SPEC_OBJECT(V)) {
	return 1;
	}

	// Check if function is bound, if so, get [[BoundFunction]] from it
	// and use that instead of F.
	var bindings = %BoundFunctionGetBindings(F);
	if (bindings) {
	F = bindings[kBoundFunctionIndex]; // Always a non-bound function.
	}
	// Get the prototype of F; if it is not an object, throw an error.
	var O = F.prototype;
	if (!IS_SPEC_OBJECT(O)) {
	throw %MakeTypeError('instanceof_nonobject_proto', [O]);
	}

	// Return whether or not O is in the prototype chain of V.
	return %IsInPrototypeChain(O, V) ? 0 : 1;
	}


	// Filter a given key against an object by checking if the object
	// has a property with the given key; return the key as a string if
	// it has. Otherwise returns 0 (smi). Used in for-in statements.
	function FILTER_KEY(key) {
	var string = %ToName(key);
	if (%HasProperty(this, string)) return string;
	return 0;
	}


	function CALL_NON_FUNCTION() {
	var delegate = %GetFunctionDelegate(this);
	if (!IS_FUNCTION(delegate)) {
	throw %MakeTypeError('called_non_callable', [typeof this]);
	}
	return %Apply(delegate, this, arguments, 0, %_ArgumentsLength());
	}


	function CALL_NON_FUNCTION_AS_CONSTRUCTOR() {
	var delegate = %GetConstructorDelegate(this);
	if (!IS_FUNCTION(delegate)) {
	throw %MakeTypeError('called_non_callable', [typeof this]);
	}
	return %Apply(delegate, this, arguments, 0, %_ArgumentsLength());
	}


	function CALL_FUNCTION_PROXY() {
	var arity = %_ArgumentsLength() - 1;
	var proxy = %_Arguments(arity); // The proxy comes in as an additional arg.
	var trap = %GetCallTrap(proxy);
	return %Apply(trap, this, arguments, 0, arity);
	}


	function CALL_FUNCTION_PROXY_AS_CONSTRUCTOR() {
	var proxy = this;
	var trap = %GetConstructTrap(proxy);
	return %Apply(trap, this, arguments, 0, %_ArgumentsLength());
	}


	function APPLY_PREPARE(args) {
	var length;
	// First check whether length is a positive Smi and args is an
	// array. This is the fast case. If this fails, we do the slow case
	// that takes care of more eventualities.
	if (IS_ARRAY(args)) {
	length = args.length;
	if (%_IsSmi(length) && length >= 0 && length < 0x800000 &&
	IS_SPEC_FUNCTION(this)) {
	return length;
	}
	}

	length = (args == null) ? 0 : %ToUint32(args.length);

	// We can handle any number of apply arguments if the stack is
	// big enough, but sanity check the value to avoid overflow when
	// multiplying with pointer size.
	if (length > 0x800000) {
	throw %MakeRangeError('stack_overflow', []);
	}

	if (!IS_SPEC_FUNCTION(this)) {
	throw %MakeTypeError('apply_non_function',
	[ %ToString(this), typeof this ]);
	}

	// Make sure the arguments list has the right type.
	if (args != null && !IS_SPEC_OBJECT(args)) {
	throw %MakeTypeError('apply_wrong_args', []);
	}

	// Return the length which is the number of arguments to copy to the
	// stack. It is guaranteed to be a small integer at this point.
	return length;
	}


	function STACK_OVERFLOW(length) {
	throw %MakeRangeError('stack_overflow', []);
	}


	// Convert the receiver to an object - forward to ToObject.
	function TO_OBJECT() {
	return %ToObject(this);
	}


	// Convert the receiver to a number - forward to ToNumber.
	function TO_NUMBER() {
	return %ToNumber(this);
	}


	// Convert the receiver to a string - forward to ToString.
	function TO_STRING() {
	return %ToString(this);
	}


	/* -------------------------------------
	- - - C o n v e r s i o n s - - -
	-------------------------------------
	*/

	// ECMA-262, section 9.1, page 30. Use null/undefined for no hint,
	// (1) for number hint, and (2) for string hint.
	function ToPrimitive(x, hint) {
	// Fast case check.
	if (IS_STRING(x)) return x;
	// Normal behavior.
	if (!IS_SPEC_OBJECT(x)) return x;
	if (IS_SYMBOL_WRAPPER(x)) throw MakeTypeError('symbol_to_primitive', []);
	if (hint == NO_HINT) hint = (IS_DATE(x)) ? STRING_HINT : NUMBER_HINT;
	return (hint == NUMBER_HINT) ? %DefaultNumber(x) : %DefaultString(x);
	}


	// ECMA-262, section 9.2, page 30
	function ToBoolean(x) {
	if (IS_BOOLEAN(x)) return x;
	if (IS_STRING(x)) return x.length != 0;
	if (x == null) return false;
	if (IS_NUMBER(x)) return !((x == 0) \|\| NUMBER_IS_NAN(x));
	return true;
	}


	// ECMA-262, section 9.3, page 31.
	function ToNumber(x) {
	if (IS_NUMBER(x)) return x;
	if (IS_STRING(x)) {
	return %_HasCachedArrayIndex(x) ? %_GetCachedArrayIndex(x)
	: %StringToNumber(x);
	}
	if (IS_BOOLEAN(x)) return x ? 1 : 0;
	if (IS_UNDEFINED(x)) return NAN;
	if (IS_SYMBOL(x)) throw MakeTypeError('symbol_to_number', []);
	return (IS_NULL(x)) ? 0 : ToNumber(%DefaultNumber(x));
	}

	function NonNumberToNumber(x) {
	if (IS_STRING(x)) {
	return %_HasCachedArrayIndex(x) ? %_GetCachedArrayIndex(x)
	: %StringToNumber(x);
	}
	if (IS_BOOLEAN(x)) return x ? 1 : 0;
	if (IS_UNDEFINED(x)) return NAN;
	if (IS_SYMBOL(x)) throw MakeTypeError('symbol_to_number', []);
	return (IS_NULL(x)) ? 0 : ToNumber(%DefaultNumber(x));
	}


	// ECMA-262, section 9.8, page 35.
	function ToString(x) {
	if (IS_STRING(x)) return x;
	if (IS_NUMBER(x)) return %_NumberToString(x);
	if (IS_BOOLEAN(x)) return x ? 'true' : 'false';
	if (IS_UNDEFINED(x)) return 'undefined';
	if (IS_SYMBOL(x)) throw %MakeTypeError('symbol_to_string', []);
	return (IS_NULL(x)) ? 'null' : %ToString(%DefaultString(x));
	}

	function NonStringToString(x) {
	if (IS_NUMBER(x)) return %_NumberToString(x);
	if (IS_BOOLEAN(x)) return x ? 'true' : 'false';
	if (IS_UNDEFINED(x)) return 'undefined';
	if (IS_SYMBOL(x)) throw %MakeTypeError('symbol_to_string', []);
	return (IS_NULL(x)) ? 'null' : %ToString(%DefaultString(x));
	}


	// ES6 symbols
	function ToName(x) {
	return IS_SYMBOL(x) ? x : %ToString(x);
	}


	// ECMA-262, section 9.9, page 36.
	function ToObject(x) {
	if (IS_STRING(x)) return new $String(x);
	if (IS_NUMBER(x)) return new $Number(x);
	if (IS_BOOLEAN(x)) return new $Boolean(x);
	if (IS_SYMBOL(x)) return %NewSymbolWrapper(x);
	if (IS_NULL_OR_UNDEFINED(x) && !IS_UNDETECTABLE(x)) {
	throw %MakeTypeError('undefined_or_null_to_object', []);
	}
	return x;
	}


	// ECMA-262, section 9.4, page 34.
	function ToInteger(x) {
	if (%_IsSmi(x)) return x;
	return %NumberToInteger(ToNumber(x));
	}


	// ES6, draft 08-24-14, section 7.1.15
	function ToLength(arg) {
	arg = ToInteger(arg);
	if (arg < 0) return 0;
	return arg < $Number.MAX_SAFE_INTEGER ? arg : $Number.MAX_SAFE_INTEGER;
	}


	// ECMA-262, section 9.6, page 34.
	function ToUint32(x) {
	if (%_IsSmi(x) && x >= 0) return x;
	return %NumberToJSUint32(ToNumber(x));
	}


	// ECMA-262, section 9.5, page 34
	function ToInt32(x) {
	if (%_IsSmi(x)) return x;
	return %NumberToJSInt32(ToNumber(x));
	}


	// ES5, section 9.12
	function SameValue(x, y) {
	if (typeof x != typeof y) return false;
	if (IS_NUMBER(x)) {
	if (NUMBER_IS_NAN(x) && NUMBER_IS_NAN(y)) return true;
	// x is +0 and y is -0 or vice versa.
	if (x === 0 && y === 0 && %_IsMinusZero(x) != %_IsMinusZero(y)) {
	return false;
	}
	}
	return x === y;
	}

	// ES6, section 7.2.4
	function SameValueZero(x, y) {
	if (typeof x != typeof y) return false;
	if (IS_NUMBER(x)) {
	if (NUMBER_IS_NAN(x) && NUMBER_IS_NAN(y)) return true;
	}
	return x === y;
	}


	/* ---------------------------------
	- - - U t i l i t i e s - - -
	---------------------------------
	*/

	// Returns if the given x is a primitive value - not an object or a
	// function.
	function IsPrimitive(x) {
	// Even though the type of null is "object", null is still
	// considered a primitive value. IS_SPEC_OBJECT handles this correctly
	// (i.e., it will return false if x is null).
	return !IS_SPEC_OBJECT(x);
	}


	// ES6, draft 10-14-14, section 22.1.3.1.1
	function IsConcatSpreadable(O) {
	if (!IS_SPEC_OBJECT(O)) return false;
	var spreadable = O[symbolIsConcatSpreadable];
	if (IS_UNDEFINED(spreadable)) return IS_ARRAY(O);
	return ToBoolean(spreadable);
	}


	// ECMA-262, section 8.6.2.6, page 28.
	function DefaultNumber(x) {
	if (!IS_SYMBOL_WRAPPER(x)) {
	var valueOf = x.valueOf;
	if (IS_SPEC_FUNCTION(valueOf)) {
	var v = %_CallFunction(x, valueOf);
	if (%IsPrimitive(v)) return v;
	}

	var toString = x.toString;
	if (IS_SPEC_FUNCTION(toString)) {
	var s = %_CallFunction(x, toString);
	if (%IsPrimitive(s)) return s;
	}
	}
	throw %MakeTypeError('cannot_convert_to_primitive', []);
	}

	// ECMA-262, section 8.6.2.6, page 28.
	function DefaultString(x) {
	if (!IS_SYMBOL_WRAPPER(x)) {
	var toString = x.toString;
	if (IS_SPEC_FUNCTION(toString)) {
	var s = %_CallFunction(x, toString);
	if (%IsPrimitive(s)) return s;
	}

	var valueOf = x.valueOf;
	if (IS_SPEC_FUNCTION(valueOf)) {
	var v = %_CallFunction(x, valueOf);
	if (%IsPrimitive(v)) return v;
	}
	}
	throw %MakeTypeError('cannot_convert_to_primitive', []);
	}

	function ToPositiveInteger(x, rangeErrorName) {
	var i = TO_INTEGER_MAP_MINUS_ZERO(x);
	if (i < 0) throw MakeRangeError(rangeErrorName);
	return i;
	}


	// NOTE: Setting the prototype for Array must take place as early as
	// possible due to code generation for array literals. When
	// generating code for a array literal a boilerplate array is created
	// that is cloned when running the code. It is essential that the
	// boilerplate gets the right prototype.
	%FunctionSetPrototype($Array, new $Array(0));