/* -*- Mode: Java; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* vim: set shiftwidth=4 tabstop=4 autoindent cindent expandtab: */ 'use strict'; var Native = {}; Native.create = createAlternateImpl.bind(null, Native); Native.create("java/lang/System.arraycopy.(Ljava/lang/Object;ILjava/lang/Object;II)V", function(ctx, src, srcOffset, dst, dstOffset, length) { if (!src || !dst) throw new JavaException("java/lang/NullPointerException", "Cannot copy to/from a null array."); var srcClass = src.class; var dstClass = dst.class; if (!srcClass.isArrayClass || !dstClass.isArrayClass) throw new JavaException("java/lang/ArrayStoreException", "Can only copy to/from array types."); if (srcOffset < 0 || (srcOffset+length) > src.length || dstOffset < 0 || (dstOffset+length) > dst.length || length < 0) throw new JavaException("java/lang/ArrayIndexOutOfBoundsException", "Invalid index."); if ((!!srcClass.elementClass != !!dstClass.elementClass) || (!srcClass.elementClass && srcClass != dstClass)) { throw new JavaException("java/lang/ArrayStoreException", "Incompatible component types: " + srcClass.constructor.name + " -> " + dstClass.constructor.name); } if (dstClass.elementClass) { if (srcClass != dstClass && !srcClass.elementClass.isAssignableTo(dstClass.elementClass)) { var copy = function(to, from) { var obj = src[from]; if (obj && !obj.class.isAssignableTo(dstClass.elementClass)) throw new JavaException("java/lang/ArrayStoreException", "Incompatible component types."); dst[to] = obj; } if (dst !== src || dstOffset < srcOffset) { for (var n = 0; n < length; ++n) copy(dstOffset++, srcOffset++); } else { dstOffset += length; srcOffset += length; for (var n = 0; n < length; ++n) copy(--dstOffset, --srcOffset); } return; } } if (dst !== src || dstOffset < srcOffset) { for (var n = 0; n < length; ++n) dst[dstOffset++] = src[srcOffset++]; } else { dstOffset += length; srcOffset += length; for (var n = 0; n < length; ++n) dst[--dstOffset] = src[--srcOffset]; } }); Native.create("java/lang/System.getProperty0.(Ljava/lang/String;)Ljava/lang/String;", function(ctx, key) { var value; switch (util.fromJavaString(key)) { case "microedition.encoding": value = "UTF-8"; break; case "microedition.locale": value = navigator.language; break; case "microedition.platform": value = "NOKIA503/JAVA_RUNTIME_VERSION=NOKIA_ASHA_1_2"; break; case "microedition.platformimpl": value = ""; break; case "microedition.profiles": value = "MIDP-2.0" break; case "fileconn.dir.memorycard": value = "fcfile:///"; break; case "fileconn.dir.private": value = "fcfile:///"; break; case "fileconn.dir.applications.bookmarks": value = "fcfile:///"; break; case "fileconn.dir.received": value = "fcfile:///"; break; case "fileconn.dir.roots.names": // The names here should be localized. value = "Memory card;Phone memory;Private" break; case "fileconn.dir.roots.external": value = "fcfile:///MemoryCard;fcfile:///;fcfile:///"; break; case "fileconn.dir.photos.name": value = "Photos"; break; case "fileconn.dir.videos.name": value = "Videos"; break; case "fileconn.dir.recordings.name": value = "Recordings"; break; case "file.separator": value = "/"; break; case "com.sun.cldc.util.j2me.TimeZoneImpl.timezone": // Date.toString() returns something like the following: // "Wed Sep 17 2014 12:11:23 GMT-0700 (PDT)" // // Per http://www.spectrum3847.org/frc2013api/com/sun/cldc/util/j2me/TimeZoneImpl.html, // timezones can be of the format GMT+0600, which is what this // regex currently matches. (Those actually in GMT would not // match the regex, causing the default "GMT" to be returned.) // If we find this to be a problem, we could alternately return the // zone name as provided in parenthesis, but that seems locale-specific. var match = /GMT[+-]\d+/.exec(new Date().toString()); value = (match && match[0]) || "GMT"; break; case "javax.microedition.io.Connector.protocolpath": value = "com.sun.midp.io"; break; case "javax.microedition.io.Connector.protocolpath.fallback": value = "com.sun.cldc.io"; break; case "com.nokia.keyboard.type": value = "None"; break; case "com.nokia.multisim.slots": console.warn("Property 'com.nokia.multisim.slots' is a stub"); value = "1"; break; case "com.nokia.multisim.imsi.sim2": console.warn("Property 'com.nokia.multisim.imsi.sim2' is a stub"); value = null; break; case "com.nokia.mid.imsi": console.warn("Property 'com.nokia.mid.imsi' is a stub"); value = "000000000000000"; break; case "com.nokia.mid.ui.version": console.warn("Property 'com.nokia.mid.ui.version' is a stub"); value = "1.6"; break; case "com.nokia.mid.mnc": // The concatenation of the MCC and MNC for the ICC (i.e. SIM card). value = util.pad(mobileInfo.icc.mcc, 3) + util.pad(mobileInfo.icc.mnc, 3); break; case "com.nokia.mid.networkID": // The concatenation of MCC and MNC for the network. value = util.pad(mobileInfo.network.mcc, 3) + util.pad(mobileInfo.network.mnc, 3); break; case "com.nokia.mid.ui.customfontsize": console.warn("Property 'com.nokia.mid.ui.customfontsize' is a stub"); value = "false"; break; case "classpathext": value = null; break; default: console.warn("UNKNOWN PROPERTY (java/lang/System): " + util.fromJavaString(key)); break; } return value ? value : null; }); Native.create("java/lang/System.currentTimeMillis.()J", function(ctx) { return Long.fromNumber(Date.now()); }); Native.create("com/sun/cldchi/jvm/JVM.unchecked_char_arraycopy.([CI[CII)V", function(ctx, src, srcOffset, dst, dstOffset, length) { dst.set(src.subarray(srcOffset, srcOffset + length), dstOffset); }); Native.create("com/sun/cldchi/jvm/JVM.unchecked_int_arraycopy.([II[III)V", function(ctx, src, srcOffset, dst, dstOffset, length) { dst.set(src.subarray(srcOffset, srcOffset + length), dstOffset); }); Native.create("com/sun/cldchi/jvm/JVM.unchecked_obj_arraycopy.([Ljava/lang/Object;I[Ljava/lang/Object;II)V", function(ctx, src, srcOffset, dst, dstOffset, length) { if (dst !== src || dstOffset < srcOffset) { for (var n = 0; n < length; ++n) dst[dstOffset++] = src[srcOffset++]; } else { dstOffset += length; srcOffset += length; for (var n = 0; n < length; ++n) dst[--dstOffset] = src[--srcOffset]; } }); Native.create("com/sun/cldchi/jvm/JVM.monotonicTimeMillis.()J", function(ctx) { return Long.fromNumber(performance.now()); }); Native.create("java/lang/Object.getClass.()Ljava/lang/Class;", function(ctx) { return this.class.getClassObject(ctx); }); Native.create("java/lang/Object.hashCode.()I", function(ctx) { var hashCode = this.hashCode; while (!hashCode) hashCode = this.hashCode = util.id(); return hashCode; }); Native.create("java/lang/Object.wait.(J)V", function(ctx, timeout, _) { ctx.wait(this, timeout.toNumber()); }); Native.create("java/lang/Object.notify.()V", function(ctx) { ctx.notify(this); }); Native.create("java/lang/Object.notifyAll.()V", function(ctx) { ctx.notify(this, true); }); Native.create("java/lang/Class.invoke_clinit.()V", function(ctx) { var classInfo = this.vmClass; var className = classInfo.className; var runtime = ctx.runtime; if (runtime.initialized[className] || runtime.pending[className]) return; runtime.pending[className] = true; if (className === "com/sun/cldc/isolate/Isolate") { // The very first isolate is granted access to the isolate API. ctx.runtime.setStatic(CLASSES.getField(classInfo, "S._API_access_ok.I"), 1); } var clinit = CLASSES.getMethod(classInfo, "S..()V"); if (clinit) ctx.pushFrame(clinit, 0); if (classInfo.superClass) ctx.pushClassInitFrame(classInfo.superClass); throw VM.Yield; }); Native.create("java/lang/Class.init9.()V", function(ctx) { var classInfo = this.vmClass; var className = classInfo.className; var runtime = ctx.runtime; if (runtime.initialized[className]) return; runtime.pending[className] = false; runtime.initialized[className] = true; }); Native.create("java/lang/Class.getName.()Ljava/lang/String;", function(ctx) { return this.vmClass.className.replace(/\//g, "."); }); Native.create("java/lang/Class.forName.(Ljava/lang/String;)Ljava/lang/Class;", function(ctx, name) { try { if (!name) throw new Classes.ClassNotFoundException(); var className = util.fromJavaString(name).replace(/\./g, "/"); var classInfo = null; classInfo = CLASSES.getClass(className); } catch (e) { if (e instanceof (Classes.ClassNotFoundException)) ctx.raiseExceptionAndYield("java/lang/ClassNotFoundException", "'" + className + "' not found."); throw e; } return classInfo.getClassObject(ctx); }); Native.create("java/lang/Class.newInstance.()Ljava/lang/Object;", function(ctx) { var className = this.vmClass.className; var syntheticMethod = new MethodInfo({ name: "ClassNewInstanceSynthetic", signature: "()Ljava/lang/Object;", isStatic: true, classInfo: { className: className, vmc: {}, vfc: {}, constant_pool: [ null, { tag: TAGS.CONSTANT_Class, name_index: 2 }, { bytes: className }, { tag: TAGS.CONSTANT_Methodref, class_index: 1, name_and_type_index: 4 }, { name_index: 5, signature_index: 6 }, { bytes: "" }, { bytes: "()V" }, ] }, code: new Uint8Array([ 0xbb, 0x00, 0x01, // new 0x59, // dup 0xb7, 0x00, 0x03, // invokespecial 0xb0 // areturn ]), }); ctx.pushFrame(syntheticMethod); throw VM.Yield; }); Native.create("java/lang/Class.isInterface.()Z", function(ctx) { return ACCESS_FLAGS.isInterface(this.vmClass.access_flags); }); Native.create("java/lang/Class.isArray.()Z", function(ctx) { return !!this.vmClass.isArrayClass; }); Native.create("java/lang/Class.isAssignableFrom.(Ljava/lang/Class;)Z", function(ctx, fromClass) { if (!fromClass) throw new JavaException("java/lang/NullPointerException"); return fromClass.vmClass.isAssignableTo(this.vmClass); }); Native.create("java/lang/Class.isInstance.(Ljava/lang/Object;)Z", function(ctx, obj) { return obj && obj.class.isAssignableTo(this.vmClass); }); Native.create("java/lang/Float.floatToIntBits.(F)I", (function() { var fa = new Float32Array(1); var ia = new Int32Array(fa.buffer); return function(ctx, val) { fa[0] = val; return ia[0]; } })()); Native.create("java/lang/Double.doubleToLongBits.(D)J", (function() { var da = new Float64Array(1); var ia = new Int32Array(da.buffer); return function(ctx, val, _) { da[0] = val; return Long.fromBits(ia[0], ia[1]); } })()); Native.create("java/lang/Float.intBitsToFloat.(I)F", (function() { var fa = new Float32Array(1); var ia = new Int32Array(fa.buffer); return function(ctx, val) { ia[0] = val; return fa[0]; } })()); Native.create("java/lang/Double.longBitsToDouble.(J)D", (function() { var da = new Float64Array(1); var ia = new Int32Array(da.buffer); return function(ctx, l, _) { ia[0] = l.low_; ia[1] = l.high_; return da[0]; } })()); Native.create("java/lang/Throwable.fillInStackTrace.()V", function(ctx) { this.stackTrace = []; ctx.frames.forEach(function(frame) { if (!frame.methodInfo) return; var methodInfo = frame.methodInfo; var methodName = methodInfo.name; if (!methodName) return; var classInfo = methodInfo.classInfo; var className = classInfo.className; this.stackTrace.unshift({ className: className, methodName: methodName, offset: frame.ip }); }.bind(this)); }); Native.create("java/lang/Throwable.obtainBackTrace.()Ljava/lang/Object;", function(ctx) { var result = null; if (this.stackTrace) { var depth = this.stackTrace.length; var classNames = ctx.newArray("[Ljava/lang/Object;", depth); var methodNames = ctx.newArray("[Ljava/lang/Object;", depth); var offsets = ctx.newPrimitiveArray("I", depth); this.stackTrace.forEach(function(e, n) { classNames[n] = ctx.newString(e.className); methodNames[n] = ctx.newString(e.methodName); offsets[n] = e.offset; }); result = ctx.newArray("[Ljava/lang/Object;", 3); result[0] = classNames; result[1] = methodNames; result[2] = offsets; } return result; }); Native.create("java/lang/Runtime.freeMemory.()J", function(ctx) { return Long.fromInt(0x800000); }); Native.create("java/lang/Runtime.totalMemory.()J", function(ctx) { return Long.fromInt(0x1000000); }); Native.create("java/lang/Runtime.gc.()V", function(ctx) { }); Native.create("java/lang/Math.floor.(D)D", function(ctx, val, _) { return Math.floor(val); }); Native.create("java/lang/Math.asin.(D)D", function(ctx, val, _) { return Math.asin(val); }); Native.create("java/lang/Math.acos.(D)D", function(ctx, val, _) { return Math.acos(val); }); Native.create("java/lang/Math.atan.(D)D", function(ctx, val, _) { return Math.atan(val); }); Native.create("java/lang/Math.atan2.(DD)D", function(ctx, x, _1, y, _2) { return Math.atan2(x, y); }); Native.create("java/lang/Math.sin.(D)D", function(ctx, val, _) { return Math.sin(val); }); Native.create("java/lang/Math.cos.(D)D", function(ctx, val, _) { return Math.cos(val); }); Native.create("java/lang/Math.tan.(D)D", function(ctx, val, _) { return Math.tan(val); }); Native.create("java/lang/Math.sqrt.(D)D", function(ctx, val, _) { return Math.sqrt(val); }); Native.create("java/lang/Math.ceil.(D)D", function(ctx, val, _) { return Math.ceil(val); }); Native.create("java/lang/Math.floor.(D)D", function(ctx, val, _) { return Math.floor(val); }); Native.create("java/lang/Thread.currentThread.()Ljava/lang/Thread;", function(ctx) { return ctx.thread; }); Native.create("java/lang/Thread.setPriority0.(II)V", function(ctx, oldPriority, newPriority) { }); Native.create("java/lang/Thread.start0.()V", function(ctx) { // The main thread starts during bootstrap and don't allow calling start() // on already running threads. if (this === ctx.runtime.mainThread || this.alive) throw new JavaException("java/lang/IllegalThreadStateException"); this.alive = true; this.pid = util.id(); var run = CLASSES.getMethod(this.class, "I.run.()V"); // Create a context for the thread and start it. var ctx = new Context(ctx.runtime); ctx.thread = this; var syntheticMethod = new MethodInfo({ name: "ThreadStart0Synthetic", signature: "()V", classInfo: { className: this.class.className, vmc: {}, vfc: {}, constant_pool: [ null, { tag: TAGS.CONSTANT_Methodref, class_index: 2, name_and_type_index: 4 }, { tag: TAGS.CONSTANT_Class, name_index: 3 }, { bytes: "java/lang/Thread" }, { tag: TAGS.CONSTANT_Methodref, name_index: 5, signature_index: 6 }, { bytes: "run" }, { bytes: "()V" }, { tag: TAGS.CONSTANT_Methodref, class_index: 2, name_and_type_index: 8 }, { name_index: 9, signature_index: 10 }, { bytes: "internalExit" }, { bytes: "()V" }, ], }, code: new Uint8Array([ 0x2a, // aload_0 0x59, // dup 0xb6, 0x00, 0x01, // invokespecial 0xb7, 0x00, 0x07, // invokespecial 0xb1, // return ]) }); ctx.frames.push(new Frame(syntheticMethod, [ this ], 0)); ctx.resume(); }); Native.create("java/lang/Thread.internalExit.()V", function(ctx) { this.alive = false; }); Native.create("java/lang/Thread.isAlive.()Z", function(ctx) { return !!this.alive; }); Native.create("java/lang/Thread.sleep.(J)V", function(ctx, delay, _) { window.setTimeout(function() { ctx.resume(); }, delay.toNumber()); throw VM.Pause; }); Native.create("java/lang/Thread.yield.()V", function(ctx) { throw VM.Yield; }); Native.create("java/lang/Thread.activeCount.()I", function(ctx) { return ctx.runtime.threadCount; }); Native.create("com/sun/cldchi/io/ConsoleOutputStream.write.(I)V", function(ctx, ch) { console.print(ch); }); Native.create("com/sun/cldc/io/ResourceInputStream.open.(Ljava/lang/String;)Ljava/lang/Object;", function(ctx, name) { var fileName = util.fromJavaString(name); var data = CLASSES.loadFile(fileName); var obj = null; if (data) { obj = ctx.newObject(CLASSES.java_lang_Object); obj.data = new Uint8Array(data); obj.pos = 0; } return obj; }); Override.create("com/sun/cldc/io/ResourceInputStream.available.()I", function(ctx) { var handle = this.class.getField("I.fileDecoder.Ljava/lang/Object;").get(this); if (!handle) { throw new JavaException("java/io/IOException"); } return handle.data.length - handle.pos; }); Override.create("com/sun/cldc/io/ResourceInputStream.read.()I", function(ctx) { var handle = this.class.getField("I.fileDecoder.Ljava/lang/Object;").get(this); if (!handle) { throw new JavaException("java/io/IOException"); } return (handle.data.length - handle.pos > 0) ? handle.data[handle.pos++] : -1; }); Native.create("com/sun/cldc/io/ResourceInputStream.readBytes.(Ljava/lang/Object;[BII)I", function(ctx, handle, b, off, len) { var data = handle.data; var remaining = data.length - handle.pos; if (len > remaining) len = remaining; for (var n = 0; n < len; ++n) b[off+n] = data[handle.pos+n]; handle.pos += len; return (len > 0) ? len : -1; }); Native.create("com/sun/cldc/i18n/uclc/DefaultCaseConverter.toLowerCase.(C)C", function(ctx, char) { return String.fromCharCode(char).toLowerCase().charCodeAt(0); }); Native.create("com/sun/cldc/i18n/uclc/DefaultCaseConverter.toUpperCase.(C)C", function(ctx, char) { return String.fromCharCode(char).toUpperCase().charCodeAt(0); }); Native.create("java/lang/ref/WeakReference.initializeWeakReference.(Ljava/lang/Object;)V", function(ctx, target) { this.target = target; }); Native.create("java/lang/ref/WeakReference.get.()Ljava/lang/Object;", function(ctx) { return this.target ? this.target : null; }); Native.create("java/lang/ref/WeakReference.clear.()V", function(ctx) { this.target = null; }); Native.create("com/sun/cldc/isolate/Isolate.registerNewIsolate.()V", function(ctx) { this.id = util.id(); }); Native.create("com/sun/cldc/isolate/Isolate.getStatus.()I", function(ctx) { return this.runtime ? this.runtime.status : 1; // NEW }); Native.create("com/sun/cldc/isolate/Isolate.nativeStart.()V", function(ctx) { ctx.runtime.vm.startIsolate(this); }); Native.create("com/sun/cldc/isolate/Isolate.waitStatus.(I)V", function(ctx, status) { var runtime = this.runtime; if (runtime.status >= status) return; function waitForStatus() { if (runtime.status >= status) { ctx.resume(); return; } runtime.waitStatus(waitForStatus); } waitForStatus(); }); Native.create("com/sun/cldc/isolate/Isolate.currentIsolate0.()Lcom/sun/cldc/isolate/Isolate;", function(ctx) { return ctx.runtime.isolate; }); Native.create("com/sun/cldc/isolate/Isolate.getIsolates0.()[Lcom/sun/cldc/isolate/Isolate;", function(ctx) { var isolates = ctx.newArray("[Ljava/lang/Object;", Runtime.all.keys().length); var n = 0; Runtime.all.forEach(function (runtime) { isolates[n++] = runtime.isolate; }); return isolates; }); Native.create("com/sun/cldc/isolate/Isolate.id0.()I", function(ctx) { return this.id; }); Native.create("com/sun/cldc/isolate/Isolate.setPriority0.(I)V", function(ctx, newPriority) { }); var links = {}; var waitingForLinks = {}; Native["com/sun/midp/links/LinkPortal.getLinkCount0.()I"] = function(ctx, stack) { var isolateId = ctx.runtime.isolate.id; if (!links[isolateId]) { waitingForLinks[isolateId] = function() { stack.push(links[isolateId].length); ctx.resume(); } throw VM.Pause; } stack.push(links[isolateId].length); } Native.create("com/sun/midp/links/LinkPortal.getLinks0.([Lcom/sun/midp/links/Link;)V", function(ctx, linkArray) { var isolateId = ctx.runtime.isolate.id; for (var i = 0; i < links[isolateId].length; i++) { var nativePointer = links[isolateId][i].class.getField("I.nativePointer.I").get(links[isolateId][i]); linkArray[i].class.getField("I.nativePointer.I").set(linkArray[i], nativePointer); linkArray[i].sender = links[isolateId][i].sender; linkArray[i].receiver = links[isolateId][i].receiver; } }); Native.create("com/sun/midp/links/LinkPortal.setLinks0.(I[Lcom/sun/midp/links/Link;)V", function(ctx, id, linkArray) { links[id] = linkArray; if (waitingForLinks[id]) { waitingForLinks[id](); } }); Native.create("com/sun/midp/links/Link.init0.(II)V", function(ctx, sender, receiver) { this.sender = sender; this.receiver = receiver; this.class.getField("I.nativePointer.I").set(this, util.id()); }); Native.create("com/sun/midp/links/Link.receive0.(Lcom/sun/midp/links/LinkMessage;Lcom/sun/midp/links/Link;)V", function(ctx, linkMessage, link) { // TODO: Implement when something hits send0 console.warn("Called com/sun/midp/links/Link.receive0.(Lcom/sun/midp/links/LinkMessage;Lcom/sun/midp/links/Link;)V"); throw VM.Pause; }); Native.create("com/sun/cldc/i18n/j2me/UTF_8_Reader.init.([B)V", function(ctx, data) { this.decoded = new TextDecoder("UTF-8").decode(data); }); Native.create("com/sun/cldc/i18n/j2me/UTF_8_Reader.read.([CII)I", function(ctx, cbuf, off, len) { if (this.decoded.length === 0) { return -1; } for (var i = 0; i < len; i++) { cbuf[i + off] = this.decoded.charCodeAt(i); } this.decoded = this.decoded.substring(len); return len; }); Native.create("com/sun/cldc/i18n/j2me/UTF_8_Writer.encodeUTF8.([CII)[B", function(ctx, cbuf, off, len) { var outputArray = []; var pendingSurrogate = this.class.getField("I.pendingSurrogate.I").get(this); var inputChar = 0; var outputSize = 0; var count = 0; while (count < len) { var outputByte = new Uint8Array(4); // Never more than 4 encoded bytes inputChar = 0xffff & cbuf[off + count]; if (0 != pendingSurrogate) { if (0xdc00 <= inputChar && inputChar <= 0xdfff) { //000u uuuu xxxx xxxx xxxx xxxx //1101 10ww wwxx xxxx 1101 11xx xxxx xxxx var highHalf = (pendingSurrogate & 0x03ff) + 0x0040; var lowHalf = inputChar & 0x03ff; inputChar = (highHalf << 10) | lowHalf; } else { // write replacement value instead of unpaired surrogate outputByte[0] = replacementValue; outputSize = 1; outputArray.push(outputByte.subarray(0, outputSize)); } pendingSurrogate = 0; } if (inputChar < 0x80) { outputByte[0] = inputChar; outputSize = 1; } else if (inputChar < 0x800) { outputByte[0] = 0xc0 | ((inputChar >> 6) & 0x1f); outputByte[1] = 0x80 | (inputChar & 0x3f); outputSize = 2; } else if (0xd800 <= inputChar && inputChar <= 0xdbff) { pendingSurrogate = inputChar; outputSize = 0; } else if (0xdc00 <= inputChar && inputChar <= 0xdfff) { // unpaired surrogate outputByte[0] = replacementValue; outputSize = 1; } else if (inputChar < 0x10000) { outputByte[0] = 0xe0 | ((inputChar >> 12) & 0x0f); outputByte[1] = 0x80 | ((inputChar >> 6) & 0x3f); outputByte[2] = 0x80 | (inputChar & 0x3f); outputSize = 3; } else { /* 21 bits: 1111 0xxx 10xx xxxx 10xx xxxx 10xx xxxx * a aabb bbbb cccc ccdd dddd */ outputByte[0] = 0xf0 | ((inputChar >> 18) & 0x07); outputByte[1] = 0x80 | ((inputChar >> 12) & 0x3f); outputByte[2] = 0x80 | ((inputChar >> 6) & 0x3f); outputByte[3] = 0x80 | (inputChar & 0x3f); outputSize = 4; } outputArray.push(outputByte.subarray(0, outputSize)); count++; } this.class.getField("I.pendingSurrogate.I").set(this, pendingSurrogate); var totalSize = outputArray.reduce(function(total, cur) { return total + cur.length; }, 0); var res = ctx.newPrimitiveArray("B", totalSize); outputArray.reduce(function(total, cur) { res.set(cur, total); return total + cur.length; }, 0); return res; }); Native.create("com/sun/cldc/i18n/j2me/UTF_8_Writer.sizeOf.([CII)I", function(ctx, cbuf, off, len) { var inputChar = 0; var outputSize = 0; var outputCount = 0; var count = 0; var localPendingSurrogate = this.class.getField("I.pendingSurrogate.I").get(this); while (count < length) { inputChar = 0xffff & cbuf[offset + count]; if (0 != localPendingSurrogate) { if (0xdc00 <= inputChar && inputChar <= 0xdfff) { //000u uuuu xxxx xxxx xxxx xxxx //1101 10ww wwxx xxxx 1101 11xx xxxx xxxx var highHalf = (localPendingSurrogate & 0x03ff) + 0x0040; var lowHalf = inputChar & 0x03ff; inputChar = (highHalf << 10) | lowHalf; } else { // going to write replacement value instead of unpaired surrogate outputSize = 1; outputCount += outputSize; } localPendingSurrogate = 0; } if (inputChar < 0x80) { outputSize = 1; } else if (inputChar < 0x800) { outputSize = 2; } else if (0xd800 <= inputChar && inputChar <= 0xdbff) { localPendingSurrogate = inputChar; outputSize = 0; } else if (0xdc00 <= inputChar && inputChar <= 0xdfff) { // unpaired surrogate // going to output replacementValue; outputSize = 1; } else if (inputChar < 0x10000) { outputSize = 3; } else { /* 21 bits: 1111 0xxx 10xx xxxx 10xx xxxx 10xx xxxx * a aabb bbbb cccc ccdd dddd */ outputSize = 4; } outputCount += outputSize; count++; } return outputCount; });