package otto import ( "math" "strconv" ) // Number func numberValueFromNumberArgumentList(argumentList []Value) Value { if len(argumentList) > 0 { return argumentList[0].numberValue() } return toValue_int(0) } func builtinNumber(call FunctionCall) Value { return numberValueFromNumberArgumentList(call.ArgumentList) } func builtinNewNumber(self *_object, argumentList []Value) Value { return toValue_object(self.runtime.newNumber(numberValueFromNumberArgumentList(argumentList))) } func builtinNumber_toString(call FunctionCall) Value { // Will throw a TypeError if ThisObject is not a Number value := call.thisClassObject(classNumber).primitiveValue() radix := 10 radixArgument := call.Argument(0) if radixArgument.IsDefined() { integer := toIntegerFloat(radixArgument) if integer < 2 || integer > 36 { panic(call.runtime.panicRangeError("toString() radix must be between 2 and 36")) } radix = int(integer) } if radix == 10 { return toValue_string(value.string()) } return toValue_string(numberToStringRadix(value, radix)) } func builtinNumber_valueOf(call FunctionCall) Value { return call.thisClassObject(classNumber).primitiveValue() } func builtinNumber_toFixed(call FunctionCall) Value { precision := toIntegerFloat(call.Argument(0)) if 20 < precision || 0 > precision { panic(call.runtime.panicRangeError("toFixed() precision must be between 0 and 20")) } if call.This.IsNaN() { return toValue_string("NaN") } value := call.This.float64() if math.Abs(value) >= 1e21 { return toValue_string(floatToString(value, 64)) } return toValue_string(strconv.FormatFloat(call.This.float64(), 'f', int(precision), 64)) } func builtinNumber_toExponential(call FunctionCall) Value { if call.This.IsNaN() { return toValue_string("NaN") } precision := float64(-1) if value := call.Argument(0); value.IsDefined() { precision = toIntegerFloat(value) if 0 > precision { panic(call.runtime.panicRangeError("toString() radix must be between 2 and 36")) } } return toValue_string(strconv.FormatFloat(call.This.float64(), 'e', int(precision), 64)) } func builtinNumber_toPrecision(call FunctionCall) Value { if call.This.IsNaN() { return toValue_string("NaN") } value := call.Argument(0) if value.IsUndefined() { return toValue_string(call.This.string()) } precision := toIntegerFloat(value) if 1 > precision { panic(call.runtime.panicRangeError("toPrecision() precision must be greater than 1")) } return toValue_string(strconv.FormatFloat(call.This.float64(), 'g', int(precision), 64)) } func builtinNumber_isNaN(call FunctionCall) Value { if len(call.ArgumentList) < 1 { return toValue_bool(false) } return toValue_bool(call.Argument(0).IsNaN()) } func builtinNumber_toLocaleString(call FunctionCall) Value { return builtinNumber_toString(call) }