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Introduction Personalized and intelligent information appliances are necessities in our life today. Such appliances can be: cell phones two-way pagers smart cards personal organizers palmtops These appliances tend to be special-purpose, limited-resource, network-connected devices. J2ME 1 Environment requirements We need an environment which is adapted for constrained devices - devices that have limitations on what they can do when compared to standard desktop or server computers. The constraints are: extremely limited memory small screen sizes alternative input methods slow processors J2ME 2 Java Editions Different devices have different requirements and different expectations of Java. One platform (solution) cannot address all the market segments (web server, video games etc.) Users/developers want flexibility. They want to choose what they want to use and what they do not. J2ME 3 Java Editions The Java 2 Platform is split into three editions. Each edition provides a complete environment for running Java-based applications, including the Java virtual machine (VM) and runtime classes. The three editions target different kinds of applications running on different kinds of devices. J2ME 4 Java Editions Java 2 Platform Java2 Standard Edition (J2SE™) Java2 Enterprise Edition (J2EE™) Java2 Micro Edition (J2ME™) Standard desktop & workstation applications Heavy duty server systems Small & memory constrained devices J2ME 5 Java Editions Each edition defines different sets of class libraries. There are thousands of core J2SE runtime classes, taking up to 10-20 megabytes of space. J2EE J2ME-based devices have J2SE fewer classes. J2ME J2ME 6 J2ME Core Concepts Configuration Minimum platform required for a group of devices J2ME Libraries Profile J2ME Profile Addresses specific needs of a certain device family Java Language Java Virtual Machine Optional Packages Host Operating System J2ME 7 J2ME Core Concepts J2ME is based on 3 core concepts: Configurations Profiles Optional packages J2ME 8 Configurations A configuration is a complete Java runtime environment, consisting of: Java virtual machine (VM) to execute Java bytecode Native code to interface to the underlying system Set of core Java runtime classes To use a configuration, a device must meet certain minimum requirements. J2ME 9 Configurations The set of core classes is normally quite small and must be enhanced with additional classes supplied by J2ME profiles or by configuration implementor. Configurations do not define any user interface classes. J2ME 10 Configurations Configuration CLDC CDC Connected Limited Device Configuration Connected Device Configuration J2ME 11 CLDC vs. CDC CLDC For very constrained devices 160 - 512 KB of total memory 16-bit or 32-bit processor Low power consumption and often operating with battery power Connectivity with limited bandwidth J2ME CDC 2 MB or more memory for Java platform 32-bit processor High bandwidth network connection, most often using TCP/IP 12 CLDC vs. CDC - VM Features missing in the CLDC VM: Floating point types Object finalization JNI or reflection Thread groups or daemon threads User Class loaders The CDC supports a complete, fullfeatured Java 2 virtual machine Change in classfile verification preverification J2ME 13 The KVM and CVM KVM - Java virtual machines for the CLDC CVM - Java virtual machines for the CDC Written specifically to work in the constrained environment of a handheld or embedded device and to be easily ported to different platforms. CLDC and CDC specifications do not require the use of the KVM or the CVM. J2ME 14 CLDC vs. CDC – J2SE Subset The CLDC includes classes from: java.lang java.io java.util The CDC includes 17 packages Includes more classes even in the shared packages Only selected classes from each package are included J2ME 15 CLDC vs. CDC – J2SE Subset J2SE CDC J2ME CLDC 16 Handling I/O J2SE includes many classes for performing input and output. There are a large number of I/O classes and they tend to encapsulate I/O models that are not necessarily found on all devices. For example, some handheld devices do not have file systems. Socket support is not universal, either. J2ME 17 Handling I/O in CLDC The CLDC has define a new set of APIs for I/O called the Generic Connection Framework. The GCF, part of the new javax.microedition.io package, defines interfaces for the different kinds of I/O that are possible. The CLDC does not actually define any I/O implementations these are left to the profiles and/or the device vendor to define. J2ME 18 GCF - example import java.io.*; import javax.microedition.io.*; StreamConnection conn = null; InputStream is = null; String url = "socket://somewhere.com:8909"; try { conn = (StreamConnection) Connector.open( url ); is = conn.openInputStream(); .... // etc. etc. }… J2ME 19 Handling I/O in CDC Since the CDC is a superset of the CLDC, it includes the GCF. CDC also requires GCF support for two specific connection types: files and datagrams. The reason: CDC includes the relevant classes from java.io and java.net packages. J2ME 20 J2ME Core Concepts J2ME is based on 3 core concepts: Configurations Profiles Optional packages J2ME 21 Profiles Adds domain-specific classes to a configuration: To fill in missing functionality To support specific uses of a device Most profiles define user interface classes for building interactive applications. To use a profile, the device must meet the minimum requirements of the underlying configuration and of the profile. J2ME 22 Profiles Profile MIDP Mobile Information Device Profile PDAP Personal Digital Assistant Profile FP Foundation Profile J2ME PBP PP Personal Basis Profile Personal Profile 23 MIDP – MID Profile MIDP is targeted at a class of devices known as mobile information devices (MIDs). Minimal characteristics of MIDs: Enough memory to run MIDP applications Display of at least 96 X 56 pixels, either monochrome or color A keypad, keyboard, or touch screen Two-way wireless networking capability J2ME 24 MIDP - Specification There are two versions of the MIDP: MIDP 1.0 - released in September 2000. Many devices currently on the market support it. MIDP 2.0 - currently in proposed final draft form. No devices yet support it. J2ME 25 MIDP - Specification The MIDP adds APIs to the basic APIs defined by the CLDC. The new features include: Support for application lifecycle management similar to the way applets are defined in J2SE. Persistent storage of data. HTTP-based network connectivity based on the CLDC's GCF. Simple user interface support, with enough flexibility to build games or business applications. J2ME 26 MIDP - Specification The MIDP specification is silent about a number of things: No standard way to interface to the device's phonebook, in order to initiate voice calls. How MIDP applications are loaded onto a device and how they are activated or deactivated. J2ME 27 MIDP Applications restrictions Memory is a particularly scarce resource. The early Motorola J2ME-enabled phones limited the size of an application to 50K. Some Nokia phones limit them to even less, about 30K. MIDP 1.0 applications cannot share classes. Placing part of the application in a web or application server (as a servlet, typically) that the MIDP application calls is almost a requirement for anything serious. J2ME 28 J2ME Core Concepts J2ME is based on 3 core concepts: Configurations Profiles Optional packages J2ME 29 Optional Packages Set of APIs in support of additional, common behaviors. Have specific dependencies on a particular configuration and/or one or more profiles. Examples of optional packages : RMI Optional Package Bluetooth Optional Package JDBC Optional Package J2ME 30 What it all means "J2ME application" is an ambiguous term. Configuration, profile and optional packages should be chosen. CDC-based profiles make development simpler due to J2SE-like APIs, but don’t suit the low-end devices. CLDC-based profiles makes the development task harder, especially when trying to shrink the size of the application to run on many of the small devices. J2ME 31 The END! You can download all the demos JARs from: www.cs.huji.ac.il/~kerengaz/j2me/ Have Fun!!! J2ME 32