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Rhino is an open-source implementation of JavaScript written entirely in Java. It is typically embedded into Java applications to provide scripting to end users.

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/* -*- Mode: java; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
 *
 * This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

package org.mozilla.javascript;

/**
 * This class implements the Number native object.
 *
 * 

See ECMA 15.7. * * @author Norris Boyd */ final class NativeNumber extends IdScriptableObject { private static final long serialVersionUID = 3504516769741512101L; /** @see https://www.ecma-international.org/ecma-262/6.0/#sec-number.max_safe_integer */ public static final double MAX_SAFE_INTEGER = 9007199254740991.0; // Math.pow(2, 53) - 1 private static final Object NUMBER_TAG = "Number"; private static final int MAX_PRECISION = 100; private static final double MIN_SAFE_INTEGER = -MAX_SAFE_INTEGER; private static final double EPSILON = 2.220446049250313e-16; // Math.pow(2, -52) static void init(Scriptable scope, boolean sealed) { NativeNumber obj = new NativeNumber(0.0); obj.exportAsJSClass(MAX_PROTOTYPE_ID, scope, sealed); } NativeNumber(double number) { doubleValue = number; } @Override public String getClassName() { return "Number"; } @Override protected void fillConstructorProperties(IdFunctionObject ctor) { final int attr = ScriptableObject.DONTENUM | ScriptableObject.PERMANENT | ScriptableObject.READONLY; ctor.defineProperty("NaN", ScriptRuntime.NaNobj, attr); ctor.defineProperty( "POSITIVE_INFINITY", ScriptRuntime.wrapNumber(Double.POSITIVE_INFINITY), attr); ctor.defineProperty( "NEGATIVE_INFINITY", ScriptRuntime.wrapNumber(Double.NEGATIVE_INFINITY), attr); ctor.defineProperty("MAX_VALUE", ScriptRuntime.wrapNumber(Double.MAX_VALUE), attr); ctor.defineProperty("MIN_VALUE", ScriptRuntime.wrapNumber(Double.MIN_VALUE), attr); ctor.defineProperty("MAX_SAFE_INTEGER", ScriptRuntime.wrapNumber(MAX_SAFE_INTEGER), attr); ctor.defineProperty("MIN_SAFE_INTEGER", ScriptRuntime.wrapNumber(MIN_SAFE_INTEGER), attr); ctor.defineProperty("EPSILON", ScriptRuntime.wrapNumber(EPSILON), attr); addIdFunctionProperty(ctor, NUMBER_TAG, ConstructorId_isFinite, "isFinite", 1); addIdFunctionProperty(ctor, NUMBER_TAG, ConstructorId_isNaN, "isNaN", 1); addIdFunctionProperty(ctor, NUMBER_TAG, ConstructorId_isInteger, "isInteger", 1); addIdFunctionProperty(ctor, NUMBER_TAG, ConstructorId_isSafeInteger, "isSafeInteger", 1); Object parseFloat = ScriptRuntime.getTopLevelProp(ctor, "parseFloat"); if (parseFloat instanceof IdFunctionObject) { ((IdFunctionObject) parseFloat).addAsProperty(ctor); } Object parseInt = ScriptRuntime.getTopLevelProp(ctor, "parseInt"); if (parseInt instanceof IdFunctionObject) { ((IdFunctionObject) parseInt).addAsProperty(ctor); } super.fillConstructorProperties(ctor); } @Override protected void initPrototypeId(int id) { String s; int arity; switch (id) { case Id_constructor: arity = 1; s = "constructor"; break; case Id_toString: arity = 1; s = "toString"; break; case Id_toLocaleString: arity = 1; s = "toLocaleString"; break; case Id_toSource: arity = 0; s = "toSource"; break; case Id_valueOf: arity = 0; s = "valueOf"; break; case Id_toFixed: arity = 1; s = "toFixed"; break; case Id_toExponential: arity = 1; s = "toExponential"; break; case Id_toPrecision: arity = 1; s = "toPrecision"; break; default: throw new IllegalArgumentException(String.valueOf(id)); } initPrototypeMethod(NUMBER_TAG, id, s, arity); } @Override public Object execIdCall( IdFunctionObject f, Context cx, Scriptable scope, Scriptable thisObj, Object[] args) { if (!f.hasTag(NUMBER_TAG)) { return super.execIdCall(f, cx, scope, thisObj, args); } int id = f.methodId(); if (id == Id_constructor) { double val = (args.length >= 1) ? ScriptRuntime.toNumeric(args[0]).doubleValue() : 0.0; if (thisObj == null) { // new Number(val) creates a new Number object. return new NativeNumber(val); } // Number(val) converts val to a number value. return ScriptRuntime.wrapNumber(val); } else if (id < Id_constructor) { return execConstructorCall(id, args); } // The rest of Number.prototype methods require thisObj to be Number double value = ensureType(thisObj, NativeNumber.class, f).doubleValue; switch (id) { case Id_toString: case Id_toLocaleString: { // toLocaleString is just an alias for toString for now int base = (args.length == 0 || Undefined.isUndefined(args[0])) ? 10 : ScriptRuntime.toInt32(args[0]); return ScriptRuntime.numberToString(value, base); } case Id_toSource: return "(new Number(" + ScriptRuntime.toString(value) + "))"; case Id_valueOf: return ScriptRuntime.wrapNumber(value); case Id_toFixed: int precisionMin = cx.version < Context.VERSION_ES6 ? -20 : 0; return num_to(value, args, DToA.DTOSTR_FIXED, DToA.DTOSTR_FIXED, precisionMin, 0); case Id_toExponential: { // Handle special values before range check if (Double.isNaN(value)) { return "NaN"; } if (Double.isInfinite(value)) { if (value >= 0) { return "Infinity"; } return "-Infinity"; } // General case return num_to( value, args, DToA.DTOSTR_STANDARD_EXPONENTIAL, DToA.DTOSTR_EXPONENTIAL, 0, 1); } case Id_toPrecision: { // Undefined precision, fall back to ToString() if (args.length == 0 || Undefined.isUndefined(args[0])) { return ScriptRuntime.numberToString(value, 10); } // Handle special values before range check if (Double.isNaN(value)) { return "NaN"; } if (Double.isInfinite(value)) { if (value >= 0) { return "Infinity"; } return "-Infinity"; } return num_to(value, args, DToA.DTOSTR_STANDARD, DToA.DTOSTR_PRECISION, 1, 0); } default: throw new IllegalArgumentException(String.valueOf(id)); } } private static Object execConstructorCall(int id, Object[] args) { switch (id) { case ConstructorId_isFinite: if ((args.length == 0) || Undefined.isUndefined(args[0])) { return Boolean.FALSE; } if (args[0] instanceof Number) { // Match ES6 polyfill, which only works for "number" types return isFinite(args[0]); } return Boolean.FALSE; case ConstructorId_isNaN: if ((args.length == 0) || Undefined.isUndefined(args[0])) { return Boolean.FALSE; } if (args[0] instanceof Number) { return isNaN((Number) args[0]); } return Boolean.FALSE; case ConstructorId_isInteger: if ((args.length == 0) || Undefined.isUndefined(args[0])) { return Boolean.FALSE; } if (args[0] instanceof Number) { return Boolean.valueOf(isInteger((Number) args[0])); } return Boolean.FALSE; case ConstructorId_isSafeInteger: if ((args.length == 0) || (Undefined.instance == args[0])) { return Boolean.FALSE; } if (args[0] instanceof Number) { return Boolean.valueOf(isSafeInteger((Number) args[0])); } return Boolean.FALSE; default: throw new IllegalArgumentException(String.valueOf(id)); } } @Override public String toString() { return ScriptRuntime.numberToString(doubleValue, 10); } private static String num_to( double val, Object[] args, int zeroArgMode, int oneArgMode, int precisionMin, int precisionOffset) { int precision; if (args.length == 0) { precision = 0; oneArgMode = zeroArgMode; } else { /* We allow a larger range of precision than ECMA requires; this is permitted by ECMA. */ double p = ScriptRuntime.toInteger(args[0]); if (p < precisionMin || p > MAX_PRECISION) { String msg = ScriptRuntime.getMessageById( "msg.bad.precision", ScriptRuntime.toString(args[0])); throw ScriptRuntime.rangeError(msg); } precision = ScriptRuntime.toInt32(p); } StringBuilder sb = new StringBuilder(); DToA.JS_dtostr(sb, oneArgMode, precision + precisionOffset, val); return sb.toString(); } static Object isFinite(Object val) { double d = ScriptRuntime.toNumber(val); Double nd = Double.valueOf(d); return ScriptRuntime.wrapBoolean(!nd.isInfinite() && !nd.isNaN()); } private static Boolean isNaN(Number val) { if (val instanceof Double) { return Boolean.valueOf(((Double) val).isNaN()); } double d = val.doubleValue(); return Boolean.valueOf(Double.isNaN(d)); } private static boolean isInteger(Number val) { if (val instanceof Double) { return isDoubleInteger((Double) val); } return isDoubleInteger(val.doubleValue()); } private static boolean isDoubleInteger(Double d) { return !d.isInfinite() && !d.isNaN() && (Math.floor(d.doubleValue()) == d.doubleValue()); } private static boolean isDoubleInteger(double d) { return !Double.isInfinite(d) && !Double.isNaN(d) && (Math.floor(d) == d); } private static boolean isSafeInteger(Number val) { if (val instanceof Double) { return isDoubleSafeInteger((Double) val); } return isDoubleSafeInteger(val.doubleValue()); } private static boolean isDoubleSafeInteger(Double d) { return isDoubleInteger(d) && (d.doubleValue() <= MAX_SAFE_INTEGER) && (d.doubleValue() >= MIN_SAFE_INTEGER); } private static boolean isDoubleSafeInteger(double d) { return isDoubleInteger(d) && (d <= MAX_SAFE_INTEGER) && (d >= MIN_SAFE_INTEGER); } @Override protected int findPrototypeId(String s) { int id; switch (s) { case "constructor": id = Id_constructor; break; case "toString": id = Id_toString; break; case "toLocaleString": id = Id_toLocaleString; break; case "toSource": id = Id_toSource; break; case "valueOf": id = Id_valueOf; break; case "toFixed": id = Id_toFixed; break; case "toExponential": id = Id_toExponential; break; case "toPrecision": id = Id_toPrecision; break; default: id = 0; break; } return id; } private static final int ConstructorId_isFinite = -1, ConstructorId_isNaN = -2, ConstructorId_isInteger = -3, ConstructorId_isSafeInteger = -4, Id_constructor = 1, Id_toString = 2, Id_toLocaleString = 3, Id_toSource = 4, Id_valueOf = 5, Id_toFixed = 6, Id_toExponential = 7, Id_toPrecision = 8, MAX_PROTOTYPE_ID = 8; private double doubleValue; }





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