PATENT ABSTRACT
A computer program is provided for developing component based software capable of handling insurance-related tasks. The program includes a data component that stores, retrieves and manipulates data utilizing a plurality of functions. Also provided is a client component that includes an adapter component that transmits and receives data to/from the data component. The client component also includes a business component that serves as a data cache and includes logic for manipulating the data. A controller component is also included which is adapted to handle events generated by a user utilizing the business component to cache data and the adapter component to ultimately persist data to a data repository. In use, the client component is suitable for receiving a plurality of tasks that achieve an insurance-related goal upon completion, allowing users to add new tasks that achieve the goal upon completion, allowing the users to edit the tasks, and generating a historical record of the tasks that are completed.

PATENT DESCRIPTION
FIELD OF THE INVENTION  
         [0001]    The present invention relates to task management and more particularly to handling task during insurance claim processing utilizing a computer system.  
         BACKGROUND OF THE INVENTION  
         [0002]    Computers have become a necessity in life today. They appear in nearly every office and household worldwide. A representative hardware environment is depicted in prior art FIG. 1, which illustrates a typical hardware configuration of a workstation having a central processing unit  110 , such as a microprocessor, and a number of other units interconnected via a system bus  112 . The workstation shown in FIG. 1 includes a Random Access Memory (RAM)  114 , Read Only Memory (ROM)  116 , an I/O adapter  118  for connecting peripheral devices such as disk storage units  120  to the bus  112 , a user interface adapter  122  for connecting a keyboard  124 , a mouse  126 , a speaker  128 , a microphone  132 , and/or other user interface devices such as a touch screen (not shown) to the bus  112 , communication adapter  134  for connecting the workstation to a communication network (e.g., a data processing network) and a display adapter  136  for connecting the bus  112  to a display device  138 . The workstation typically has resident thereon an operating system such as the Microsoft Windows NT or Windows/95 Operating System (OS), the IBM OS/2 operating system, the MAC OS, or UNIX operating system.  
           [0003]    Object oriented programming (OOP) has become increasingly used to develop complex applications. As OOP moves toward the mainstream of software design and development, various software solutions require adaptation to make use of the benefits of OOP. A need exists for these principles of OOP to be applied to a messaging interface of an electronic messaging system such that a set of OOP classes and objects for the messaging interface can be provided.  
           [0004]    OOP is a process of developing computer software using objects, including the steps of analyzing the problem, designing the system, and constructing the program. An object is a software package that contains both data and a collection of related structures and procedures. Since it contains both data and a collection of structures and procedures, it can be visualized as a self-sufficient component that does not require other additional structures, procedures or data to perform its specific task. OOP, therefore, views a computer program as a collection of largely autonomous components, called objects, each of which is responsible for a specific task. This concept of packaging data, structures, and procedures together in one component or module is called encapsulation.  
           [0005]    In general, OOP components are reusable software modules which present an interface that conforms to an object model and which are accessed at run-time through a component integration architecture. A component integration architecture is a set of architecture mechanisms which allow software modules in different process spaces to utilize each others capabilities or functions. This is generally done by assuming a common component object model on which to build the architecture. It is worthwhile to differentiate between an object and a class of objects at this point. An object is a single instance of the class of objects, which is often just called a class. A class of objects can be viewed as a blueprint, from which many objects can be formed.  
           [0006]    OOP allows the programmer to create an object that is a part of another object. For example, the object representing a piston engine is said to have a composition-relationship with the object representing a piston. In reality, a piston engine comprises a piston, valves and many other components; the fact that a piston is an element of a piston engine can be logically and semantically represented in OOP by two objects.  
           [0007]    OOP also allows creation of an object that “depends from” another object. If there are two objects, one representing a piston engine and the other representing a piston engine wherein the piston is made of ceramic, then the relationship between the two objects is not that of composition. A ceramic piston engine does not make up a piston engine. Rather it is merely one kind of piston engine that has one more limitation than the piston engine; its piston is made of ceramic. In this case, the object representing the ceramic piston engine is called a derived object, and it inherits all of the aspects of the object representing the piston engine and adds further limitation or detail to it. The object representing the ceramic piston engine “depends from” the object representing the piston engine. The relationship between these objects is called inheritance.  
           [0008]    When the object or class representing the ceramic piston engine inherits all of the aspects of the objects representing the piston engine, it inherits the thermal characteristics of a standard piston defined in the piston engine class. However, the ceramic piston engine object overrides these ceramic specific thermal characteristics, which are typically different from those associated with a metal piston. It skips over the original and uses new functions related to ceramic pistons. Different kinds of piston engines have different characteristics, but may have the same underlying functions associated with it (e.g., how many pistons in the engine, ignition sequences, lubrication, etc.). To access each of these functions in any piston engine object, a programmer would call the same functions with the same names, but each type of piston engine may have different/overriding implementations of functions behind the same name. This ability to hide different implementations of a function behind the same name is called polymorphism and it greatly simplifies communication among objects.  
           [0009]    With the concepts of composition-relationship, encapsulation, inheritance and polymorphism, an object can represent just about anything in the real world. In fact, the logical perception of the reality is the only limit on determining the kinds of things that can become objects in object-oriented software. Some typical categories are as follows:  
           [0010]    Objects can represent physical objects, such as automobiles in a traffic-flow simulation, electrical components in a circuit-design program, countries in an economics model, or aircraft in an air-traffic-control system.  
           [0011]    Objects can represent elements of the computer-user environment such as windows, menus or graphics objects.  
           [0012]    An object can represent an inventory, such as a personnel file or a table of the latitudes and longitudes of cities.  
           [0013]    An object can represent user-defined data types such as time, angles, and complex numbers, or points on the plane.  
           [0014]    With this enormous capability of an object to represent just about any logically separable matters, OOP allows the software developer to design and implement a computer program that is a model of some aspects of reality, whether that reality is a physical entity, a process, a system, or a composition of matter. Since the object can represent anything, the software developer can create an object which can be used as a component in a larger software project in the future.  
           [0015]    If 90% of a new OOP software program consists of proven, existing components made from preexisting reusable objects, then only the remaining 10% of the new software project has to be written and tested from scratch. Since 90% already came from an inventory of extensively tested reusable objects, the potential domain from which an error could originate is 10% of the program. As a result, OOP enables software developers to build objects out of other, previously built objects.  
           [0016]    This process closely resembles complex machinery being built out of assemblies and sub-assemblies. OOP technology, therefore, makes software engineering more like hardware engineering in that software is built from existing components, which are available to the developer as objects. All this adds up to an improved quality of the software as well as an increased speed of its development.  
         SUMMARY OF THE INVENTION  
         [0017]    A computer program is provided for developing component based software capable of handling insurance-related tasks. The program includes a data component that stores, retrieves and manipulates data utilizing a plurality of functions. Also provided is a client component that includes an adapter component that transmits and receives data to/from the data component. The client component also includes a business component that serves as a data cache and includes logic for manipulating the data. A controller component is also included which is adapted to handle events generated by a user utilizing the business component to cache data and the adapter component to ultimately persist data to a data repository. In use, the client component is suitable for receiving a plurality of tasks that achieve an insurance-related goal upon completion, allowing users to add new tasks that achieve the goal upon completion, allowing the users to edit the tasks, and generating a historical record of the tasks that are completed.  
       
    
    
     DESCRIPTION OF THE DRAWINGS  
       [0018]    The foregoing and other objects, aspects and advantages are better understood from the following detailed description of a preferred embodiment of the invention with reference to the drawings, in which:  
         [0019]    Prior Art FIG. 1 is a schematic diagram of the present invention; and  
         [0020]    [0020]FIG. 2A is block diagram of one embodiment of the present invention.  
         [0021]    [0021]FIG. 2B is a flowchart showing how components generally operate in accordance with one embodiment of the present invention.  
         [0022]    [0022]FIG. 2C is a flowchart showing how the UI Controller operates in accordance with one embodiment of the present invention.  
         [0023]    [0023]FIG. 2D is a flowchart showing the interactions between the CCA, the CCI, and the Server Component in accordance with one embodiment of the present invention.  
         [0024]    [0024]FIG. 3 shows the life cycle of a typical User Interface and the standard methods that are part of the Window Processing Framework.  
         [0025]    [0025]FIG. 4 is an illustration showing how different languages are repainted and recompiled.  
         [0026]    [0026]FIG. 5 is a block diagram of an Architecture Object.  
         [0027]    [0027]FIG. 6 is an illustration showing the physical layout of CodeDecode tables according to one embodiment of the present invention.  
         [0028]    [0028]FIG. 7 is a logic diagram according to one embodiment of the present invention.  
         [0029]    [0029]FIG. 8 is a block diagram of the security framework and its components.  
         [0030]    [0030]FIG. 9 is an illustration showing the relationships between the security element and other elements.  
         [0031]    [0031]FIG. 10 is an illustration of the Negotiation component of one embodiment of the present invention;  
         [0032]    [0032]FIG. 11 is a flow diagram of the operations carried out by the Organization component of one embodiment of the present invention;  
         [0033]    [0033]FIG. 12 is an illustration of the Participant component of one embodiment of the present invention;  
         [0034]    [0034]FIG. 13 is a flow diagram of the operations carried out by the Task Assistant component of one embodiment of the present invention;  
         [0035]    [0035]FIG. 14 is an illustration of the Event Processor in combination with other components of the system in accordance with on embodiment of the present invention; and  
         [0036]    [0036]FIG. 15 is an illustration of the Task Engine in accordance with one embodiment of the present invention.  
     
    
     DISCLOSURE OF THE INVENTION  
       [0037]    Programming languages are beginning to fully support the OOP principles, such as encapsulation, inheritance, polymorphism, and composition-relationship. With the advent of the C++ language, many commercial software developers have embraced OOP. C++ is an OOP language that offers a fast, machine-executable code. Furthermore, C++ is suitable for both commercial-application and systems-programming projects. For now, C++ appears to be the most popular choice among many OOP programmers, but there is a host of other OOP languages, such as Smalltalk, Common Lisp Object System (CLOS), and Eiffel. Additionally, OOP capabilities are being added to more traditional popular computer programming languages such as Pascal.  
         [0038]    The benefits of object classes can be summarized, as follows:  
         [0039]    Objects and their corresponding classes break down complex programming problems into many smaller, simpler problems.  
         [0040]    Encapsulation enforces data abstraction through the organization of data into small, independent objects that can communicate with each other. Encapsulation protects the data in an object from accidental damage, but allows other objects to interact with that data by calling the object&#39;s member functions and structures.  
         [0041]    Subclassing and inheritance make it possible to extend and modify objects through deriving new kinds of objects from the standard classes available in the system. Thus, new capabilities are created without having to start from scratch.  
         [0042]    Polymorphism and multiple inheritance make it possible for different programmers to mix and match characteristics of many different classes and create specialized objects that can still work with related objects in predictable ways.  
         [0043]    Class hierarchies and containment hierarchies provide a flexible mechanism for modeling real-world objects and the relationships among them.  
         [0044]    Libraries of reusable classes are useful in many situations, but they also have some limitations. For example:  
         [0045]    Complexity. In a complex system, the class hierarchies for related classes can become extremely confusing, with many dozens or even hundreds of classes.  
         [0046]    Flow of control. A program written with the aid of class libraries is still responsible for the flow of control (i.e., it must control the interactions among all the objects created from a particular library). The programmer has to decide which functions to call at what times for which kinds of objects.  
         [0047]    Duplication of effort. Although class libraries allow programmers to use and reuse many small pieces of code, each programmer puts those pieces together in a different way. Two different programmers can use the same set of class libraries to write two programs that do exactly the same thing but whose internal structure (i.e., design) may be quite different, depending on hundreds of small decisions each programmer makes along the way. Inevitably, similar pieces of code end up doing similar things in slightly different ways and do not work as well together as they should.  
         [0048]    Class libraries are very flexible. As programs grow more complex, more programmers are forced to reinvent basic solutions to basic problems over and over again. A relatively new extension of the class library concept is to have a framework of class libraries. This framework is more complex and consists of significant collections of collaborating classes that capture both the small scale patterns and major mechanisms that implement the common requirements and design in a specific application domain. They were first developed to free application programmers from the chores involved in displaying menus, windows, dialog boxes, and other standard user interface elements for personal computers.  
         [0049]    Frameworks also represent a change in the way programmers think about the interaction between the code they write and code written by others. In the early days of procedural programming, the programmer called libraries provided by the operating system to perform certain tasks, but basically the program executed down the page from start to finish, and the programmer was solely responsible for the flow of control. This was appropriate for printing out paychecks, calculating a mathematical table, or solving other problems with a program that executed in just one way.  
         [0050]    The development of graphical user interfaces began to turn this procedural programming arrangement inside out. These interfaces allow the user, rather than program logic, to drive the program and decide when certain actions should be performed. Today, most personal computer software accomplishes this by means of an event loop which monitors the mouse, keyboard, and other sources of external events and calls the appropriate parts of the programmer&#39;s code according to actions that the user performs. The programmer no longer determines the order in which events occur. Instead, a program is divided into separate pieces that are called at unpredictable times and in an unpredictable order. By relinquishing control in this way to users, the developer creates a program that is much easier to use. Nevertheless, individual pieces of the program written by the developer still call libraries provided by the operating system to accomplish certain tasks, and the programmer must still determine the flow of control within each piece after it&#39;s called by the event loop. Application code still “sits on top of” the system.  
         [0051]    Even event loop programs require programmers to write a lot of code that should not need to be written separately for every application. The concept of an application framework carries the event loop concept further. Instead of dealing with all the nuts and bolts of constructing basic menus, windows, and dialog boxes and then making these things all work together, programmers using application frameworks start with working application code and basic user interface elements in place. Subsequently, they build from there by replacing some of the generic capabilities of the framework with the specific capabilities of the intended application.  
         [0052]    Application frameworks reduce the total amount of code that a programmer has to write from scratch. However, because the framework is really a generic application that displays windows, supports copy and paste, and so on, the programmer can also relinquish control to a greater degree than event loop programs permit. The framework code takes care of almost all event handling and flow of control, and the programmer&#39;s code is called only when the framework needs it (e.g., to create or manipulate a proprietary data structure).  
         [0053]    A programmer writing a framework program not only relinquishes control to the user (as is also true for event loop programs), but also relinquishes the detailed flow of control within the program to the framework. This approach allows the creation of more complex systems that work together in interesting ways, as opposed to isolated programs, having custom code, being created over and over again for similar problems.  
         [0054]    Thus, as is explained above, a framework basically is a collection of cooperating classes that make up a reusable design solution for a given problem domain. It typically includes objects that provide default behavior (e.g., for menus and windows), and programmers use it by inheriting some of that default behavior and overriding other behavior so that the framework calls application code at the appropriate times.  
         [0055]    There are three main differences between frameworks and class libraries:  
         [0056]    Behavior versus protocol. Class libraries are essentially collections of behaviors that you can call when you want those individual behaviors in your program. A framework, on the other hand, provides not only behavior but also the protocol or set of rules that govern the ways in which behaviors can be combined, including rules for what a programmer is supposed to provide versus what the framework provides.  
         [0057]    Call versus override. With a class library, the code the programmer instantiates objects and calls their member functions. It&#39;s possible to instantiate and call objects in the same way with a framework (i.e., to treat the framework as a class library), but to take full advantage of a framework&#39;s reusable design, a programmer typically writes code that overrides and is called by the framework. The framework manages the flow of control among its objects. Writing a program involves dividing responsibilities among the various pieces of software that are called by the framework rather than specifying how the different pieces should work together.  
         [0058]    Implementation versus design. With class libraries, programmers reuse only implementations, whereas with frameworks, they reuse design. A framework embodies the way a family of related programs or pieces of software work. It represents a generic design solution that can be adapted to a variety of specific problems in a given domain. For example, a single framework can embody the way a user interface works, even though two different user interfaces created with the same framework might solve quite different interface problems.  
         [0059]    Thus, through the development of frameworks for solutions to various problems and programming tasks, significant reductions in the design and development effort for software can be achieved. A preferred embodiment of the invention utilizes HyperText Markup Language (HTML) to implement documents on the Internet together with a general-purpose secure communication protocol for a transport medium between the client and the Newco. HTTP or other protocols could be readily substituted for HTML without undue experimentation. Information on these products is available in T. Bemers-Lee, D. Connoly, “RFC 1866: Hypertext Markup Language-2.0” (November 1995); and R. Fielding, H, Frystyk, T. Berners-Lee, J. Gettys and J. C. Mogul, “Hypertext Transfer Protocol—HTTP/1.1: HTTP Working Group Internet Draft” (May 2, 1996). HTML is a simple data format used to create hypertext documents that are portable from one platform to another. HTML documents are SGML documents with generic semantics that are appropriate for representing information from a wide range of domains. HTML has been in use by the World-Wide Web global information initiative since 1990. HTML is an application of ISO Standard 8879; 1986 Information Processing Text and Office Systems; Standard Generalized Markup Language (SGML).  
         [0060]    To date, Web development tools have been limited in their ability to create dynamic Web applications which span from client to server and interoperate with existing computing resources. Until recently, HTML has been the dominant technology used in development of Web-based solutions. However, HTML has proven to be inadequate in the following areas:  
         [0061]    Poor performance;  
         [0062]    Restricted user interface capabilities;  
         [0063]    Can only produce static Web pages;  
         [0064]    Lack of interoperability with existing applications and data; and  
         [0065]    Inability to scale.  
         [0066]    Sun Microsystem&#39;s Java language solves many of the client-side problems by:  
         [0067]    Improving performance on the client side;  
         [0068]    Enabling the creation of dynamic, real-time Web applications; and  
         [0069]    Providing the ability to create a wide variety of user interface components.  
         [0070]    With Java, developers can create robust User Interface (UI) components. Custom “widgets” (e.g., real-time stock tickers, animated icons, etc.) can be created, and client-side performance is improved. Unlike HTML, Java supports the notion of client-side validation, offloading appropriate processing onto the client for improved performance. Dynamic, real-time Web pages can be created. Using the above-mentioned custom UI components, dynamic Web pages can also be created.  
         [0071]    Sun&#39;s Java language has emerged as an industry-recognized language for “programming the Internet.” Sun defines Java as: “a simple, object-oriented, distributed, interpreted, robust, secure, architecture-neutral, portable, high-performance, multithreaded, dynamic, buzzword-compliant, general-purpose programming language. Java supports programming for the Internet in the form of platform-independent Java applets.” Java applets are small, specialized applications that comply with Sun&#39;s Java Application Programming Interface (API) allowing developers to add “interactive content” to Web documents (e.g., simple animations, page adornments, basic games, etc.). Applets execute within a Java-compatible browser (e.g., Netscape Navigator) by copying code from the server to client. From a language standpoint, Java&#39;s core feature set is based on C++. Sun&#39;s Java literature states that Java is basically, “C++ with extensions from Objective C for more dynamic method resolution.” 
         [0072]    Another technology that provides similar function to JAVA is provided by Microsoft and ActiveX Technologies, to give developers and Web designers wherewithal to build dynamic content for the Internet and personal computers. ActiveX includes tools for developing animation, 3-D virtual reality, video and other multimedia content. The tools use Internet standards, work on multiple platforms, and are being supported by over 100 companies. The group&#39;s building blocks are called ActiveX Controls, small, fast components that enable developers to embed parts of software in hypertext markup language (HTML) pages. ActiveX Controls work with a variety of programming languages including Microsoft Visual C++, Borland Delphi, Microsoft Visual Basic programming system and, in the future, Microsoft&#39;s development tool for Java, code named “Jakarta.” ActiveX Technologies also includes ActiveX Server Framework, allowing developers to create server applications. One of ordinary skill in the art readily recognizes that ActiveX could be substituted for JAVA without undue experimentation to practice the invention.  
       DETAILED DESCRIPTION  
       [0073]    One embodiment of the present invention is a server based framework utilizing component based architecture. Referring to FIG. 2A, one embodiment of the present invention includes an Architecture Object  200 , an Application Object  202 , a User Interface Form  204 , a User Interface Controller  206 , a Client Component Adapter  208 , a COM Component Interface  210 , and a Server Component  222 .  
         [0074]    In general, the components of the present invention operate as shown in FIG. 2B. In step  230 , data is stored in an object of the component. In step  232 , functions which manipulate the object are encapsulated with the object data. Later, in step  234 , the stored object data can be manipulated by other components utilizing the functions of step  232 .  
         [0075]    Architecture Object  
         [0076]    The Architecture Object  200  provides an easy-to-use object model that masks the complexity of the architecture on the client. The Architecture Object  200  provides purely technical services and does not contain any business logic or functional code. It is used on the client as the single point of access to all architecture services.  
         [0077]    On the server side, the Architecture Object  200  is supplemented by a set of global functions contained in standard VB modules  
         [0078]    The Architecture Object  200  is responsible for providing all client architecture services (i.e., codes table access, error logging, etc.), and a single point of entry for architecture services. The Architecture Object  200  is also responsible for allowing the architecture to exist as an autonomous unit, thus allowing internal changes to be made to the architecture with minimal impact to application.  
         [0079]    The Architecture Object  200  provides a code manager, client profile, text manager, ID manager, registry manager, log manager, error manager, and a security manager. The codes manager reads codes from a local database on the client, marshals the codes into objects, and makes them available to the application. The client profile provides information about the current logged-in user. The text manager provides various text manipulation services such as search and replace. The ID manager generates unique IDs and timestamps. The registry manager encapsulates access to the system registry. The log manager writes error or informational messages to the message log. The error manager provides an easy way to save and re-raise an error. And the security manager determines whether or not the current user is authorized to perform certain actions.  
         [0080]    Application Object  
         [0081]    The Application Object  202  has a method to initiate each business operation in the application. It uses late binding to instantiate target UI controllers in order to provide autonomy between windows. This allows different controllers to use the Application Object  202  without statically linking to each and every UI controller in the application.  
         [0082]    When opening a UI controller, the Application Object  202  calls the architecture initialization, class initialization, and form initialization member functions.  
         [0083]    The Application Object  202  keeps a list of every active window, so that it can shut down the application in the event of an error. When a window closes, it tells the Application Object  202 , and is removed from the Application Object&#39;s  202  list of active windows.  
         [0084]    The Application Object  202  is responsible for instantiating each UI Controller  206 , passing data/business context to the target UI Controller  206 , and invoking standard services such as initialize controller, initializing Form and Initialize Architecture. The Application Object  202  also keeps track of which windows are active so that it can coordinate the shutdown process.  
         [0085]    UI Form  
         [0086]    The UI form&#39;s  204  primary responsibility is to forward important events to its controller  206 . It remains mostly unintelligent and contains as little logic as possible. Most event handlers on the form simply delegate the work by calling methods on the form&#39;s controller  206 .  
         [0087]    The UI form  204  never enables or disables its own controls, but ask its controller  206  to do it instead. Logic is included on the UI form  204  only when it involves very simple field masking or minor visual details.  
         [0088]    The UI form  204  presents an easy-to-use, graphical interface to the user and informs its controller  206  of important user actions. The UI form  204  may also provide basic data validation (e.g., data type validation) through input masking. In addition, the UI form is responsible for intelligently resizing itself, launching context-sensitive help, and unload itself.  
         [0089]    User Interface Controller  
         [0090]    Every UI Controller  206  includes a set of standard methods for initialization, enabling and disabling controls on its UI form  204 , validating data on the form, getting data from the UI form  204 , and unloading the UI form  204 .  
         [0091]    UI Controllers  206  contain the majority of logic to manipulate Business Objects  207  and manage the appearance of its UI form  204 . If its form is not read-only, the UI Controller  206  also tracks whether or not data on the UI form  204  has changed, so as to avoid unnecessary database writes when the user decides to save. In addition, controllers of auxiliary windows (like the File-Save dialog box in Microsoft Word), keep track of their calling UI controller  206  so that they can notify it when they are ready to close.  
         [0092]    [0092]FIG. 2C is a flowchart showing how the UI Controller operates in one embodiment of the present invention. In step  236 , data is entered in a UI form by a user. In step  238 , the UI controller interprets the data entered into the UI form. In step  240 , the UI controller places the appropriate data into a Business Object to be utilized and retrieved later.  
         [0093]    A UI Controller  206  defines a Logical Unit of Work (LUW). If an LUW involves more than one UI Controller  206 , the LUW is implemented as a separate object.  
         [0094]    The UI Controller  206  is responsible for handling events generated by the user interacting with the UI form  204  and providing complex field validation and cross field validation within a Logical Unit of Work. The UI Controller  206  also contains the logic to interact with business objects  207 , and creates new business objects  207  when necessary. Finally, the UI Controller  206  interacts with Client Component Adapters  208  to add, retrieve, modify, or delete business objects  207 , and handles all client-side errors.  
         [0095]    Business Objects  
         [0096]    The Business Object&#39;s (BO)  207  primary functionality is to act as a data holder, allowing data to be shared across User Interface Controllers  206  using an object-based programming model.  
         [0097]    BOs  207  perform validation on their attributes as they are being set to maintain the integrity of the information they contain. BOs  207  also expose methods other than accessors to manipulate their data, such as methods to change the life cycle state of a BO  207  or to derive the value of a calculated attribute.  
         [0098]    In many cases, a BO  207  will have its own table in the database and its own window for viewing or editing operations.  
         [0099]    Business Objects  207  contain information about a single business entity and maintain the integrity of that information. The BO  207  encapsulates business rules that pertain to that single business entity and maintains relationships with other business objects (e.g., a claim contains a collection of supplements). Finally, the BO  207  provides additional properties relating to the status of the information it contains (such as whether that information has changed or not), provides validation of new data when necessary, and calculates attributes that are derived from other attributes (such as Full Name, which is derived from First Name, Middle Initial, and Last Name).  
         [0100]    Client Component Adapters  
         [0101]    Client Component Adapters (CCAs)  208  are responsible for retrieving, adding, updating, and deleting business objects in the database. CCAs  208  hide the storage format and location of data from the UI controller  206 . The UI controller  206  does not care about where or how objects are stored, since this is taken care of by the CCA  208 .  
         [0102]    The CCA  208  marshals data contained in recordsets returned by the server into business objects  207 . CCAs  208  masks all remote requests from UI Controller  206  to a specific component, and act as a “hook” for services such as data compression, and data encryption.  
         [0103]    COM Component Interface  
         [0104]    A COM Component Interface (CCI)  210  is a “contract” for services provided by a component. By “implementing” an interface (CCI)  210 , a component is promising to provide all the services defined by the CCI  20 .  
         [0105]    The CCI  210  is not a physical entity (which is why it is depicted with a dotted line). It&#39;s only reason for existence is to define the way a component appears to other objects. It includes the signatures or headers of all the public properties or methods that a component will provide.  
         [0106]    To implement a CCI  210 , a server component exposes a set of specially named methods, one for each method defined on the interface. These methods should do nothing except delegate the request to a private method on the component which will do the real work.  
         [0107]    The CCI  210  defines a set of related services provided by a component. The CCI allows any component to “hide” behind the interface to perform the services defined by the interface by “implementing” the interface.  
         [0108]    Server Component  
         [0109]    Server components  222  are course grained and transaction oriented. They are designed for maximum efficiency.  
         [0110]    Server Components  222  encapsulate all access to the database, and define business transaction boundaries. In addition, Server Components  222  are responsible for ensuring that business rules are honored during data access operations.  
         [0111]    A Server Component  222  performs data access operations on behalf of CCAs  208  or other components and participates in transactions spanning server components  222  by communicating with other server components  222 . The Server Component  222  is accessible by multiple front end personalities (e.g., Active Server Pages), and contains business logic designed to maintain the integrity of data in the database.  
         [0112]    [0112]FIG. 2D is a flowchart showing the interactions between the CCA, the CCI, and the Server Component in accordance with one embodiment of the present invention. In step  242 , a request is made to place client created data on the server database. In step  244 , the data is transferred to the server component  222  utilizing a CCI  210 . In step  246 , the server component  222  stores the data in the server database.  
       Business Rule Placement  
       [0113]    Overview  
         [0114]    The distribution of business rules across tiers of the application directly affects the robustness and performance of the system as a whole. Business rules can be categorized into the following sections: Relationships, Calculations, and Business Events.  
         [0115]    Relationships between Business Objects  
         [0116]    Business Objects  207  are responsible for knowing other business objects  207  with which they are associated.  
         [0117]    Relationships between BOs  207  are built by the CCA  208  during the marshaling process. For example, when a CCA  208  builds a claim BO  207 , it will also build the collection of supplements if necessary.  
         [0118]    Calculated Business Data  
         [0119]    Business rules involving calculations based on business object  207  attributes are coded in the business objects  207  themselves. Participant Full Name is a good example of a calculated attribute. Rather than force the controllers to concatenate the first name, middle initial, and last name every time they wanted to display the full name, a calculated attribute that performs this logic is exposed on the business object. In this way, the code to compose the full name only has to be written once and can be used by many controllers  206 .  
         [0120]    Another example of a calculated attribute is the display date of a repeating task. When a task with a repeat rule is completed, a new display date must be determined. This display date is calculated based on the date the task was completed, and the frequency of repetition defined by the repeat rule. Putting the logic to compute the new display date into the Task BO  207  ensures that it is coded only once.  
         [0121]    Responses to Business Events  
         [0122]    Business rules that relate to system events and involve no user interaction are enforced on the server components.  
         [0123]    Completion of a task is a major event in the system. When a task is completed, the system first ensures that the performer completing the task is added to the claim. Then, after the task is marked complete in the database, it is checked to see if the task has a repeat rule. If so, another task is created and added to the database. Finally, the event component is notified, because the Task Engine may need to react to the task completion.  
         [0124]    Consider the scenario if the logic to enforce this rule were placed on the UI controller  206 .  
         [0125]    The controller  206  calls the Performer Component to see if the performer completing the task has been added to the claim. If the performer has not been added to the claim, then the controller  206  calls the performer component again to add them.  
         [0126]    Next, the controller  206  calls the Task Component to mark the task complete in the database. If the task has a repeat rule, the controller  206  computes the date the task is to be redisplayed and calls the Task Component again to add a new task. Lastly, the controller  206  calls the Event Component to notify the Task Engine of the task completion.  
         [0127]    The above implementation requires five network round trips in its worst case. In addition, any other controller  206  or server component  222  that wants to complete a task must code this logic all over again. Enforcing this rule in the task server component  222  reduces the number of network round trips and eliminates the need to code the logic more than once.  
         [0128]    Responses to User Events  
         [0129]    All responses to user events are coordinated by the controller  206 . The controller  206  is responsible for actions such as enabling or disabling controls on its form, requesting authorization from the security component, or making calls to the CCA  208 .  
         [0130]    Authorization  
         [0131]    All logic for granting authorization is encapsulated inside the security component. Controllers  206  and components  222  must ask the security component if the current user is authorized to execute certain business operations in the system. The security component will answer yes or no according to some predefined security logic.  
                                             Summary            Type of Business Rule   Example   Responsibility               Maintaining relationships   Claim keeps a collection   Business Objects       between BOs   of supplements       Building relationships   CCA builds the claim&#39;s   CCAs       between BOs   collection of supplements       Calculated Business Data   Participant calculates its   Business Objects           full name       Responses to Business   Task Component collab-   Components       Events   orates with other           components       Requesting Authorization   Task Library controller   Controllers and           asks the security compo-   Components           nent if the current user is           allowed to access Task           Library       Granting Authorization   Security component   Security Component           determines whether or           not the current user can           access Task Library                  
 
       Window Processing Framework  
       [0132]    The Default Window Framework provides default window processing for each window contained within the system. This default processing aides the developer in developing robust, maintainable UIs, standardizes common processes (such as form initialization) and facilitates smooth integration with architecture services.  
         [0133]    [0133]FIG. 3 shows the life cycle of a typical User Interface and the standard methods that are part of the Window Processing Framework  300 .  
         [0134]    The Window Processing Framework  300  encompasses the following:  
         [0135]    Window Initialization  302 ;  
         [0136]    Window Save Processing  304 ;  
         [0137]    Window Control State Management  306 ;  
         [0138]    Window Data Validation  308 ;  
         [0139]    Window Shutdown Processing  310 .  
         [0140]    Window Initialization Processing  302 :  
         [0141]    After creating a controller  206  for the desired window, the App object  202  calls a set of standard initialization functions on the controller  206  before the form  204  is displayed to the user. Standardizing these functions makes the UIs more homogeneous throughout the application, while promoting good functional decomposition.  
         [0142]    Window Save Processing  304 :  
         [0143]    Any time a user updates any form text or adds an item to a ListBox, the UI Controller  206  marks the form as “dirty”. This allows the UI controller  206  to determine whether data has changed when the form closes and prompt the user to commit or lose their changes.  
         [0144]    Window Control State Management  306 :  
         [0145]    Enabling and disabling controls and menu options is a very complex part of building a UI. The logic that modifies the state of controls is encapsulated in a single place for maintainability.  
         [0146]    Window Data Validation  308 :  
         [0147]    Whenever data changes on a form, validation rules can be broken. The controller is able to detect those changes, validate the data, and prompt the user to correct invalid entries.  
         [0148]    Window Shutdown Processing  310 :  
         [0149]    The Window Shutdown framework provides a clear termination path for each UI in the event of an error. This reduces the chance of memory leaks, and General Protection failures.  
         [0150]    Benefits  
         [0151]    Standardized Processing:  
         [0152]    Standardizing the window processing increases the homogeneity of the application. This ensures that all windows within the application behave in a consistent manner for the end users, making the application easier to use. It also shortens the learning curve for developers and increases maintainability, since all windows are coded in a consistent manner.  
         [0153]    Simplified Development:  
         [0154]    Developers can leverage the best practices documented in the window processing framework to make effective design and coding decisions. In addition, a shell provides some “canned” code that gives developers a head start during the coding effort.  
         [0155]    Layered Architecture:  
         [0156]    Because several architecture modules provide standardized processing to each application window, the core logic can be changed for every system window by simply making modifications to a single procedure.  
       Window Initialization  302   
       [0157]    To open a new window, the App Object  202  creates the target window&#39;s controller  206  and calls a series of methods on the controller  206  to initialize it. The calling of these methods, ArchlnitClass, InitClass, InitForm, and ShowForm, is illustrated below.  
         [0158]    ArchInitClass  
         [0159]    The main purpose of the ArchlnitClass function is to tell the target controller  206  who is calling it. The App Object  202  “does the introductions” by passing the target controller  206  a reference to itself and a reference to the calling controller  206 . In addition, it serves as a hook into the controller  206  for adding architecture functionality in the future.  
                                                   Public Sub ArchInitClass(objAPP As Object, objCallingCTLR As       Object)                ′ remember who called me           Set m_objApp = objApp           Set m_objCallingCTLR = objCallingCTLR            End Sub                  
 
         [0160]    InitClass  
         [0161]    This function provides a way for the App Object  202  to give the target controller  206  any data it needs to do its processing. It is at this point that the target controller  206  can determine what “mode” it is in. Typical form modes include, add mode, edit mode, and view mode. If the window is in add mode, it creates a new BO  207  of the appropriate type in this method.  
                                                                                                               Public Sub InitClass(colPrevSelection As CArchCollection)                If colprevSelection Is Nothing Then                ′ no accounts were previously selected           Set m_colprevSelection = New CArchCollection           Set m_colNewSelection = New CArchCollection                Else                ′ some accounts may have already been selected           Set m_colPrevSelection = colprevSelection           Set m_colNewSelection = colPrevSelection.Clone()                End If           Set m_colResults = New CArchCollection           DetermineFormMode()                End Sub                      
 
         [0162]    InitForm  
         [0163]    The InitForm procedure of each controller  206  coordinates any initialization of the form  204  before it is displayed. Because initialization is often a multi-step process, InitForm creates the window and then delegates the majority of the initialization logic to helper methods that each have a single purpose, in order to follow the rules of good functional decomposition. For example, the logic to determine a form&#39;s  204  state based on user actions and relevant security restrictions and move to that state is encapsulated in the DetermineFormState method.  
                                                                                           Public Sub InitForm()                ′ create my form           Set m_frmCurrentForm = New frmAccountSearch           ′ figure out the state of my form based on arguments I                received in InitClass and                ′ enable/disable the appropriate controls           DetermineFormState()           ′ fill my form with data           PopulateForm()                End Sub                      
 
         [0164]    PopulateForm  
         [0165]    PopulateForm is a private method responsible for filling the form with data during initialization. It is called exactly once by the InitForm method. PopulateForm is used to fill combo boxes on a form  204 , get the details of an object for an editing window, or display objects that have already been selected by the user, as in the following example.  
                                                                                                                                   Private Sub PopulateForm()                Dim acct As CAccount           Dim item As GTListItem           ′ display any accounts already selected by the user           ′ create and add a ListItem for every Account in the                previous selection collection                With frmCurrentForm.lvwResults.ListItems                .Clear           For Each acct In m_colprevSelection                Set item = .Add(, acct.Number, acct.Number)           item.SubItems(1) = acct.Name                Next                End With                End Sub                      
 
         [0166]    ShowForm  
         [0167]    The ShowForm method simply centers and displays the newly initialized form  204 .  
                                                                                   Public Sub ShowForm()                ′ center my form           frmCurrentForm.Move(Screen .Width - frmCurrentForm.Width) /            2, —                  (Screen.Height - frmCurrentForm.Height)            / 2                ′ display my form           frmCurrentForm.Show vbModal            End Sub                  
 
       Window Control State Management  306   
       [0168]    It is often necessary to enable or disable controls on a form  204  in response to user actions. This section describes the patterns employed by the Component Based Architecture for MTS (CBAM) to manage this process effectively.  
         [0169]    Form Mode  
         [0170]    It is helpful to distinguish between form mode and form state. Form mode indicates the reason the form  204  has been invoked. Often, forms  204  are used for more than one purpose. A common example is the use of the same form to view, add, and edit a particular type of object, such as a task or an insurance claim. In this case, the form&#39;s modes would include View, Add, and Update.  
         [0171]    The modes of a form  204  are also used to comply with security restrictions based on the current user&#39;s access level. For example, Task Library is a window that limits access to task templates based on the current user&#39;s role. It might have a Librarian mode and a Non-Librarian mode to reflect the fact that a non-librarian user cannot be allowed to edit task templates. In this way, modes help to enforce the requirement that certain controls on the form  204  remain disabled unless the user has a certain access level.  
         [0172]    It is not always necessary for a form  204  to have a mode; a form might be so simple that it would have only one mode—the default mode. In this case, even though it is not immediately necessary, it may be beneficial to make the form “mode-aware” so that it can be easily extended should the need arise.  
         [0173]    Form State  
         [0174]    A form  204  will have a number of different states for each mode, where a state is a unique combination of enabled/disabled, visible/invisible controls. When a form  204  moves to a different state, at least one control is enabled or disabled or modified in some way.  
         [0175]    A key difference between form mode and form state is that mode is determined when the controller  206  is initialized and remains constant until the controller  206  terminates. State is determined when the window initializes, but is constantly being reevaluated in response to user actions.  
         [0176]    Handling UI Events  
         [0177]    When the value of a control on the form  204  changes, it is necessary to reevaluate the state of the controls on the form (whether or not they are enabled/disabled or visible/invisible, etc.). If changing the value of one control could cause the state of a second control to change, an event handler is written for the appropriate event of the first control.  
         [0178]    The following table lists common controls and the events that are triggered when their value changes.  
                                                   Control   Event                           TextBox   Change           ComboBox   Change           ListBox   Click           CheckBox   Click           Option Button   Click                      
 
         [0179]    The event handler calls the DetermineFormState method on the controller  206 .  
         [0180]    Setting the State of Controls  
         [0181]    It is essential for maintainability that the process of setting the state of controls be separate from the process for setting the values of those controls. The DetermineFormState method on the controller  206  forces this separation between setting the state of controls and setting their values.  
         [0182]    DetermineFormState is the only method that modifies the state of any of the controls on the form  204 . Because control state requirements are so complex and vary so widely, this is the only restriction made by the architecture framework.  
         [0183]    If necessary, parameters are passed to the DetermineFormState function to act as “hints” or “clues” for determining the new state of the form  204 . For complex forms, it is helpful to decompose the DetermineFormState function into a number of helper functions, each handling a group of related controls on the form or moving the form  204  to a different state.  
         [0184]    Example  
         [0185]    The Edit/Add/View Task Window has three modes: Edit, Add, and View. In Add mode, everything on the form is editable. Some details will stay disabled when in Edit mode, since they should be set only once when the task is added. In both Add and Edit modes, the repeat rule may be edited. Enabling editing of the repeat rule always disables the manual editing of the task&#39;s due and display dates. In View mode, only the Category combo box and Private checkbox are enabled.  
                                                                       ′ Edit/Add/View Task Form           Private Sub txtName_Change()                myController.DetermineFormState                End Sub                      
 
         [0186]    [0186]                                                                                                                                                                                                                                                                                               ′ Edit/Add/View Task Controller       Public Sub DetermineFormState()                On Error Goto ErrorHandler           Select Case m_nFormMode                ′ In Edit Mode, enable only “editable” details and            Repeat Rule editing if necessary                Case cmFormModeEdit                EnableAddDetails False           EnableEditDetails True           EnableViewDetails True           If m_frmCurrentForm.chkRepetetiveTask.Checked Then                EnableEditRepeatRule True           EnableEditDisplayDueDates False                Else                EnableEditRepeatRule False           EnableEditDisplayDueDates True                End If           If m_nFormDirty Then EnableSave True Else            EnableSave False                ′ In Add Mode, enable all details and Repeat Rule            editing if necessary                Case cmFormModeAdd                EnableAddDetails True           EnableEditDetails True           EnableViewDetails True           If m_frmCurrentForm.chkRepetetiveTask.Checked Then                EnableEditRepeatRule True           EnableEditDisplayDueDates False                Else                EnableEditRepeatRule False           EnableEditDisplayDueDates True                End If           If m_nFormDirty Then EnableSave True Else            EnableSave False                ′ In View Mode, disable everything except a few            details                Case cmFormModeView                EnableAddDetails False           EnableEditDetails False           EnableViewDetails True           EnableEditRepeatRule False           EnableEditDisplayDueDates False           EnableSave False                Case Else                End Select           Exit Sub            ErrorHandler:                ′ error handling            End Sub                    
         [0187]    [0187]                                                                                                       ′ Edit/Add/View Task Controller       Private Sub EnableAddDetails(bYesNo As Boolean)                On Error Goto ErrorHandler           ′ Enable or disable controls that should be available only            when the task is being added.                With frmCurrentForm                .Name.Enabled = bYesNo           .Description.Enabled = bYesNo           .Type.Enabled = bYesNo           .Level.Enabled = bYesNo           .Source.Enabled = bYesNo                End With           Exit Sub            ErrorHandler:                ′ error handling logic            End Sub                    
       Window Data Validation  308   
       [0188]    Window data validation is the process by which data on the window is examined for errors, inconsistencies, and proper formatting. It is important, for the sake of consistency, to implement this process similarly or identically in all windows of the application.  
         [0189]    Types of Validation  
         [0190]    Input Masking  
         [0191]    Input masking is the first line of defense. It involves screening the data (usually character by character) as it is entered, to prevent the user from even entering invalid data. Input masking may be done programmatically or via a special masked text box, however the logic is always located on the form, and is invoked whenever a masked field changes.  
         [0192]    Single-Field Range Checking  
         [0193]    Single-field range checking determines the validity of the value of one field on the form by comparing it with a set of valid values. Single-field range checking may be done via a combo box, spin button, or programmatically on the form, and is invoked whenever the range-checked field changes.  
         [0194]    Cross-Field Validation  
         [0195]    Cross-field validation compares the values of two or more fields to determine if a validation rule is met or broken, and occurs just before saving (or searching). Cross-field validation may be done on the Controller  206  or the Business Object  207 , however it is preferable to place the logic on the Business Object  207  when the validation logic can be shared by multiple Controllers  206 .  
         [0196]    Invalid data is caught and rejected as early as possible during the input process. Input masking and range checking provide the first line of defense, followed by cross-field validation when the window saves (or searches).  
         [0197]    Single-Field Validation  
         [0198]    All single-field validation is accomplished via some sort of input masking. Masks that are attached to textboxes are used to validate the type or format of data being entered. Combo boxes and spin buttons may also be used to limit the user to valid choices. If neither of these are sufficient, a small amount of logic may be placed on the form&#39;s event handler to perform the masking functionality, such as keeping a value below a certain threshold or keeping apostrophes out of a textbox.  
         [0199]    Cross-Field Validation  
         [0200]    When the user clicks OK or Save, the form calls the IsFomiDataValid on the controller to perform cross-field validation (e.g., verifying that a start date is less than an end date). If the business object  207  contains validation rules, the controller  206  may call a method on the business object  207  to make sure those rules are not violated.  
         [0201]    If invalid data is detected by the controller  206 , it will notify the user with a message box and, if possible, the indicate which field or fields are in error. Under no circumstances will the window perform validation when the user is trying to cancel.  
         [0202]    Example  
                                                                                                               ′ Generic Edit Form           Private Sub cmdOK_Click()                On Error Goto ErrorHandler           ′ shut down if my data is valid.           ′ saving/canceling will occur in my controller&#39;s                QueryUnload function                If IsFormDataValid Then Unload Me           Exit Sub                ErrorHandler:                Err.Raise Err.Number                End Sub                      
 
         [0203]    [0203]                                                                                                                               Public Function IsFormDataValid() As Boolean                On Error Goto ErrorHandler           ′ assume success           IsFormDataValid = True           ′ evaluate all validation rules           With frmCurrentForm                ′ make sure start date is earlier than end date           If .txtStartDate.Text &gt; .txtEndDate.Text Then                IsFormDataValid = False           MsgBox cmMsgInvalidEndDate           .txtEndDate.SetFocus                ElseIf ...                ′ more validation rules                End If                End With           Exit Function            ErrorHandler:                ′ error handling logic            End Function                    
       Window Save Processing  304   
       [0204]    Window “Save Processing” involves tracking changes to data on a form  204  and responding to save and cancel events initiated by the user.  
         [0205]    Tracking Changes to Form Data  
         [0206]    Each window within the CBAM application contains a field within its corresponding control object known as the dirty flag. The dirty flag is set to True whenever an end user modifies data within the window. This field is interrogated by the UI Controller  206  to determine when a user should be prompted on Cancel or if a remote procedure should be invoked upon window close.  
         [0207]    The application shell provides standard processing for each window containing an OK or Save button.  
         [0208]    Saving  
         [0209]    The default Save processing is implemented within the UI Controller  206  as follows:  
         [0210]    The UI Controller is Notified that the OK button has been clicked. Then the controller  206  checks its Dirty Flag. If flag is dirty, the controller  206  calls the InterrogateForm method to retrieve data from the form  204  and calls a server component  222  to store the business object  207  in the database. If the Dirty Flag is not set, then no save is necessary. The window is then closed.  
         [0211]    Canceling  
         [0212]    When the user cancels a window, the UI Controller  206  immediately examines the Dirty Flag. If the flag is set to true, the user is prompted that their changes will be lost if they decide to close the window.  
         [0213]    Once prompted, the user can elect to continue to close the window and lose their changes or decide not to close and continue working.  
       Window Shutdown Processing  310   
       [0214]    In the event of an error, it is sometimes necessary to shutdown a window or to terminate the entire application. It is critical that all windows follow the shutdown process in order to avoid the GPFs commonly associated with terminating incorrectly. Following is how the window/application is shutdown.  
         [0215]    Shutdown Scope  
         [0216]    The scope of the shutdown is as small as possible. If an error occurs in a controller  206  that does not affect the rest of the application, only that window is shut down. If an error occurs that threatens the entire application, there is a way to quickly close every open window in the application. The window shutdown strategy is able to accommodate both types of shutdowns.  
         [0217]    Shutdown  
         [0218]    In order to know what windows must be shut down, the architecture tracks which windows are open. Whenever the App Object  202  creates a controller  206 , it calls its RegCTLR function to add the controller  206  to a collection of open controllers. Likewise, whenever a window closes, it tells the App Object  202  that it is closing by calling the App Object&#39;s  202  UnRegCTLR function, and the App Object  202  removes the closing controller  206  from its collection. In the case of an error, the App Object  202  loops through its collection of open controllers, telling each controller to “quiesce” or shutdown immediately.  
         [0219]    GeneralErrorHandler  
         [0220]    The GeneralErrorHandler is a method in MArch.bas that acts as the point of entry into the architecture&#39;s error handling mechanism. A component or a controller will call the GeneralErrorHandler when they encounter any type of unexpected or unknown error. The general error handler will return a value indicating what the component or controller should do: (1) resume on the line that triggered the error (2) resume on the statement after the line that triggered the error (3) exit the function (4) quiesce (5) shutdown the entire application.  
                                                                                                                                                                                                                                                                   ErrorHandler:                Select Case CStr(Err.Number)                ′ handle a search with no result error           Case cmErrNoClaimTreeData                MsgBox cmMsgNoResultsQuery, vbInformation           frmCurrentForm.StatusBar.Panels(1) =            cmNoResultsQuery                ′Sets mouse pointer back to default           frmCurrentForm.MousePointer = vbDefault                Case Else                Dim nResumeCode As Integer           nResumeCode =            GeneralErrorHandler(objApp.objArch.AsMsgStruct, cmController,       —                cmClassName,            cmMethodName)                Select Case CStr(nResumeCode)                Case cmErrorResume                Resume                Case cmErrorResumeNext                Resume Next                Case cmErrorExit                Exit Sub                Case cmErrorQuiesce                Quiesce                Case Else                objApp.Shutdown                End Select                End Select            End Sub                  
 
         [0221]    In order to prevent recursive calls the GeneralErrorHandler keeps a collection of controllers that are in the process of shutting down. If it is called twice in a row by the same controller  206 , it is able to detect and short-circuit the loop. When the controller  206  finally does terminate, it calls the UnRegisterError function to let the GeneralErrorHandler know that it has shut down and removed from the collection of controllers.  
         [0222]    Shutdown Process  
         [0223]    After being told what to do by the GeneralErrorHandler, the controller  206  in error may try to execute the statement that caused the error, proceed as if nothing happened, exit the current function, call its Quiesce function to shut itself down, or call the Shutdown method on the App Object  202  to shut the entire application down.  
       Additional Standard Methods  
       [0224]    Searching  
         [0225]    Controllers  206  that manage search windows have a public method named Find&lt;Noun&gt;s where &lt;Noun&gt;is the type of object being searched for. This method is called in the event handler for the Find Now button.  
         [0226]    Saving  
         [0227]    Any controller  206  that manages an edit window has a public method called Save that saves changes the user makes to the data on the form  204 . This method is called by the event handlers for both the Save and OK buttons (when/if the OK button needs to save changes before closing).  
         [0228]    Closing  
         [0229]    A VB window is closed by the user in several ways: via the control-box in upper left corner, the X button in upper right corner, or the Close button. When the form closes, the only method that will always be called, regardless of the way in which the close was initiated, is the form&#39;s  204  QueryUnload event handler.  
         [0230]    Because of this, there cannot be a standard Close method. Any processing that must occur when a window closes is to be done in the QueryUnload method on the controller  206  (which is called by the form&#39;s QueryUnload event handler).  
         [0231]    The VB statement, Unload Me, appears in the Close button&#39;s event handler to manually initiate the unloading process. In this way, the Close button mimics the functionality of the control box and the X button, so that the closing process is handled the same way every time, regardless of how the user triggered the close. The OK button&#39;s event handler also executes the Unload Me statement, but calls the Save method on the controller first to save any pending changes.  
       Business Objects  
       [0232]    Business Objects  207  are responsible for containing data, maintaining the integrity of that data, and exposing functions that make the data easy to manipulate. Whenever logic pertains to a single BO  207  it is a candidate to be placed on that BO. This ensures that it will not be coded once for each controller  206  that needs it. Following are some standard examples of business object logic.  
       Business Logic: Managing Life Cycle State  
       [0233]    Overview  
         [0234]    The “state” of a business object  207  is the set of all its attributes. Life cycle state refers only to a single attribute (or a small group of attributes) that determine where the BO  207  is in its life cycle. For example, the life cycle states of a Task are Open, Completed, Cleared, or Error. Business objectives usually involve moving a BO toward its final state (i.e., Completed for a Task, Closed for a Supplement, etc.).  
         [0235]    Often, there are restrictions on a BO&#39;s movement through its life cycle. For example, a Task may only move to the Error state after first being Completed or Cleared. BOs provide a mechanism to ensure that they do not violate life cycle restrictions when they move from state to state.  
         [0236]    Approach  
         [0237]    A BO  207  has a method to move to each one of its different life cycle states. Rather than simply exposing a public variable containing the life cycle state of the task, the BO exposes methods, such as Task.Clear( ), Task.Complete( ), and Task.MarkInError( ), that move the task a new state. This approach prevents the task from containing an invalid value for life cycle state, and makes it obvious what the life cycle states of a task are.  
         [0238]    Example  
                                                                                                                                     ′ CTask Business Object       Public Sub MarkInError()                On Error Goto ErrorHandler           Select Case m_nLifeCycleState                ′ move to error only if I&#39;ve already been completed or            cleared                Case cmTaskCompleted, cmTaskCleared                m_nLifeCycleState = cmTaskInError           ′ otherwise, raise an error                Case Else                Err.Raise cmErrInvalidLifeCycleState                End Select           Exit Sub            ErrorHandler:                Err.Raise Err.Number            End Sub                  
 
       Business Logic: Operating on Groups of Business Objects  
       [0239]    Overview  
         [0240]    Sometimes, a BO  207  acts as a container for a group of other BOs. This happens when performing operations involving multiple BOs. For example, to close, an insurance claim ensures that it has no open supplements or tasks. There might be a method on the insurance claim BO—CanClose( )—that evaluates the business rules restricting the closing of a claim and return true or false. Another situation might involve retrieving the open tasks for a claim. The claim can loop through its collection of tasks, asking each task if it is open and, if so, adding it to a temporary collection which is returned to the caller.  
         [0241]    Example  
                                                   ′ Claim Business Object       ′ Error handling omitted for clarity       Public Function CanClose() As Boolean                CanClose = HasOpenTasks() And HasOpenSupplements()            End Function                  
 
         [0242]    [0242]                                                                                                               Public Function HasOpenTasks() As Boolean                ′ assume that I have open tasks           HasOpenTasks = True           ′ loop through all my tasks and exit if I find one that is                open                Dim task As CTask           For Each task In m_colTasks                If task.IsOpen() Then Exit Function                Next task           ′ I must not have any open tasks           HasOpenTasks = False                End Function                        
         [0243]    [0243]                                                                                                               Public Function HasOpenSupplements() As Boolean                ′ assume that I have open supplements           HasOpenSupplements = True           ′ loop through all my supplements and exit if I find one                that is open                Dim supp As CSupplement           For Each supp In m_colSupplements                If supp.IsOpen() Then Exit Function                Next supp           HasOpenSupplements = False                End Function                        
         [0244]    [0244]                                                                       Public Function GetOpenTasks() As Collection                Dim task As CTask           Dim colOpenTasks As Collection           For Each task In m_colTasks                If task.IsOpen() Then colOpenTasks.Add task, task.Id                Next task           Set GetOpenTasks = colOpenTasks            End Function                    
       Business Object Structures  
       [0245]    Overview  
         [0246]    When a BO  207  is added or updated, it sends all of its attributes down to a server component  222  to write to the database. Instead of explicitly referring to each attribute in the parameter list of the functions on the CCA  208  and server component  222 , all the attributes are sent in a single variant array. This array is also known as a structure.  
         [0247]    Approach  
         [0248]    Each editable BO  207  has a method named AsStruct that takes the object&#39;s member variables and puts them in a variant array. The CCA  208  calls this method on a BO  207  before it sends the BO  207  down to the server component  222  to be added or updated. The reason that this is necessary is that, although object references can be passed by value over the network, the objects themselves cannot. Only basic data types like Integer and String can be sent by value to a server component  222 . A VB enumeration is used to name the slots of the structure, so that the server component  222  can use a symbolic name to access elements in the array instead of an index. Note that this is generally used only when performing adds or full updates on a business object  207 .  
         [0249]    In a few cases, there is a reason to re-instantiate the BO  207  on the server side. The FromStruct method does exactly the opposite of the AsStruct method and initializes the BO  207  from a variant array. The size of the structure passed as a parameter to FromStruct is checked to increase the certainty that it is a valid structure.  
         [0250]    When a BO  207  contains a reference to another BO  207 , the AsStruct method stores the primary key of the referenced BO  207 . For example, the Task structure contains a PerformerId, not the performer BO  207  that is referenced by the task. When the FromStruct method encounters the PerformerId in the task structure, it instantiates a new performer BO and fills in the ID, leaving the rest of the performer BO empty.  
         [0251]    Example  
                                                                                   ′ CTask Business Object       ′ enumeration of all task attributes       Public Enum TaskAttributes                cmTaskId           cmTaskName           :           cmTaskDescription            End Enum       ′ all task attributes declarations here       ′ all setter and getter functions here       Public Function AsStruct() As CTask                On Error Goto ErrorHandler           ′ create and fill structure           Dim vStruct(cmTaskNumOfAttributes − 1) As Variant           vStruct(cmTaskId) = m_vId           vStruct(cmTaskName) = m_sName           vStruct(cmTaskPerformerId) = m_vPerformerId           :           vStruct(cmTaskDescription) = m_sDescription           AsStruct = vStruct           Exit Function            ErrorHandler:                Err.Raise Err.Number            End Function                  
 
         [0252]    [0252]                                                                                   Public Sub FromStruct(vStruct As Variant)                On Error Goto ErrorHandler           ′ check size of vStruct           If Ubound(vStruct) &lt;&gt; (cmTaskNumOfAttributes − 1) Then            Err.Raise cmErrInvalidParameters                ′ update my values from the structure           m_vId = vStruct(cmTaskId)           m_sName = vStruct(cmTaskName)           m_vPerformer.Id = vStruct(cmTaskPerformerId)           :           m_sDescription = vStruct(cmTaskDescription)           Exit Sub            ErrorHandler:                Err.Raise Err.Number            End Sub                    
       Cloning Business Objects  
       [0253]    Overview  
         [0254]    Often a copy of a business object  207  is made. Cloning is a way to implement this kind of functionality by encapsulating the copying process in the BO  207  itself. Controllers  206  that need to make tentative changes to a business object  207  simply ask the original BO  207  for a clone and make changes to the clone. If the user decides to save the changes, the controller  206  ask the original BO to update itself from the changes made to the clone.  
         [0255]    Approach  
         [0256]    Each BO  207  has a Clone method to return a shallow copy of itself. A shallow copy is a copy that doesn&#39;t include copies of the other objects that the BO  207  refers to, but only a copy of a reference to those objects. For example, to clone a task, it does not give the clone a brand new claim object; it gives the clone a new reference to the existing claim object. Collections are the only exception to this rule—they are always copied completely since they contain references to other BOs.  
         [0257]    Each BO  207  also has an UpdateFromClone method to allow it “merge” a clone back in to itself by changing its attributes to match the changes made to the clone.  
         [0258]    Example  
                                                                                                               ′ CTask Business Object           Public Function Clone() As CTask                On Error Goto ErrorHandler           ′ create clone object           Dim tskClone As CTask           Set tskClone = New CTask           ′ fill clone with my data           With tskClone                .Id = m_vId           .Name = m_sName           .PerformerId = m_vPerformerId           Set .Performer = m_prfPerformer           :           .Description = m_sDescription                End With           Set Clone = tskClone           Exit Function                ErrorHandler:                Err.Raise Err.Number                End Function                      
 
         [0259]    [0259]                                                                                                               Public Sub UpdateFromClone(tskClone As CTask)                On Error Goto ErrorHandler           ′ set my values equal to the clone&#39;s values           With tskClone                m_vId = .ID           m_sName = .Name           m_vPerformerId = .PerformerId           Set m_prfPerformer = .Performer           :           m_sDescription = .Description                End With           Exit Sub                ErrorHandler:                Err.Raise Err.Number                End Sub                        
       Half-Baked Business Objects  
       [0260]    Overview  
         [0261]    BOs  207  occasionally are filled only half-full for performance reasons. This is done for queries involving multiple tables that return large data sets. Using half-baked BOs  207  can be an error prone process, so it is essential that the half-baking of BOs are carefully managed and contained.  
         [0262]    In most applications, there are two kinds of windows—search windows and edit/detail windows. Search windows are the only windows that half-bake BOs  207 . Generally, half-baking only is a problem when a detail window expecting a fully-baked BO receives a half-baked BO from a search window.  
         [0263]    Approach  
         [0264]    Detail windows refresh the BOs  207  they are passed by the search windows, regardless of whether or not they were already fully-baked. This addresses the problems associated with passing half-baked BOs and also helps ensure that the BO  207  is up-to-date.  
         [0265]    This approach requires another type of method (besides Get, Add, Update, and Delete) on the CCA  208 : a Refresh method. This method is very similar to a Get method (in fact, it calls the same method on the server component) but is unique because it refreshes the data in objects that are already created. The detail window&#39;s controller  206  calls the appropriate CCA  208  passing the BO  207  to be refreshed, and may assume that, when control returns from the CCA  208 , the BO  207  will be up-to-date and fully-baked.  
         [0266]    This is may not be necessary if two windows are very closely related. If the first window is the only window that ever opens the second, it is necessary for the second window to refresh the BO  207  passed by the first window if it knows that the BO  207  is baked fully enough to be used.  
       CCAs  
       [0267]    CCAs  208  are responsible for transforming data from row and columns in a recordset to business objects  207 , and for executing calls to server components  222  on behalf of controllers  206 .  
       Retrieving Business Objects  
       [0268]    Overview  
         [0269]    After asking a component to retrieve data, the CCA  208  marshals the data returned by the component into business objects  207  that are used by the UI Controller  206 .  
         [0270]    Approach  
         [0271]    The marshaling process is as follows:  
         [0272]    CCAs  208  call GetRows on the recordset to get a copy of its data in a variant array in order to release the recordset as soon as possible. A method exist to coordinate the marshaling of each recordset returned by the component.  
         [0273]    Only one recordset is coordinated in the marshaling process of a single method. A method exist to build a BO from a single row of a recordset. This method is called once for each row in the recordset by the marshaling coordination method.  
         [0274]    Example  
                                                                                                                                   ′ Task CCA           Public Function GetAllTasks() As Collection                On Error Goto ErrorHandler           ′ call a helper method to retrieve tasks           Dim vRows As Variant           vRows = RetrieveAllTasks           Dim i As Integer           Dim task As CTask           Dim colTasks As Collection           Set colTasks = New Collection           ′ vRows is dimmed as column, row. Loop til I run out of                rows.                For i = 0 To Ubound(vRows, 2)                ′ build BO using helper method           Set task = BuildTaskFromRow(vRows, i)           ′ add to collection with ID as the key           colTasks.Add task, task.Id                Next i           Set MarshalTasks = colTasks           Exit Function                ErrorHandler:                Err.Raise Err.Number                End Function                      
 
         [0275]    [0275]                                                                                           Private Function RetrieveAllTasks() As Variant                On Error Goto ErrorHandler           ′ call my component and get a recordset full of all tasks           Dim rs As ADOR.Recordset           Set rs = tskComp.GetAllTasks()           ′ get data in variant array from the recordset           GetAllTasks = rs.GetRows           ′ release the recordset ASAP           rs.Close           Set rs = Nothing           Exit Function                ErrorHandler:                Err.Raise Err.Number                End Function                        
         [0276]    [0276]                                                                                                                                   Private Function BuildTaskFromRow(vRows As Variant,           nCurrentRow As Integer,  —                  Optional task As CTask) As                CTask                On Error Goto ErrorHandler           ′ create task if it wasn&#39;t passed           If task Is Nothing Then Set task = New CTask           ′ fill task with data           With task                .Id = vRows(0, nCurrentRow)           .Name = vRows(1, nCurrentRow)           .PerformerId = vRows(2, nCurrentRow)           :           .Description = vRows(32, nCurrentRow)                End With           Set BuildTaskFromRow = task           Exit Function                ErrorHandler:                Err.Raise Err.Number                End Function                        
       Refreshing Business Objects  
       [0277]    Overview  
         [0278]    The logic to refresh BOs  207  is very similar to the logic to create them in the first place. A “refresh” method is very similar to a “get” method, but must use BOs  207  that already exist when carrying out the marshalling process.  
         [0279]    Example  
                                                                                           ′ Task CCA           Public Sub RefreshTask(task As CTask)                On Error Goto ErrorHandler           ′ call a helper method to retrieve tasks           Dim vRow As Variant           vRow = RetrieveTaskWithId(task.Id)           BuildTaskFromRow vRow, i, task           Exit Sub                ErrorHandler:                Err.Raise Err.Number                End Sub                      
 
         [0280]    [0280]                                                                   Private Function RetrieveTaskWithId(vId As Variant) As Variant                On Error Goto ErrorHandler           ′ call my component and get a recordset full of all tasks           Dim rs As ADOR.Recordset           Set rs = tskComp.GetTaskWithId(vId)           ′ get data in variant array from the recordset           RetrieveTaskWithId = rs.GetRows           ′ release the recordset ASAP           rs.Close           Set rs = Nothing           Exit Function            ErrorHandler:                Err.Raise Err.Number            End Function                    
       Adding Business Objects  
       [0281]    Overview  
         [0282]    Controllers  206  are responsible for creating and populating new BOs  207 . To add a BO  207  to the database, the controller  206  must call the CCA  208 , passing the business object  207  to be added. The CCA  208  calls the AsStruct method on the BO  207 , and pass the BO structure down to the component to be saved. It then updates the BO  207  with the ID and timestamp generated by the server. Note the method on the CCA  208  just updates the BO  207 .  
         [0283]    Example  
                                                                                           ′ Task CCA           Public Sub AddTask (task As CTask)                On Error Goto ErrorHandler           ′ call component to add task passing a task structure           Dim vIdAndTimestamp As Variant           vIdAndTimestamp = tskComp.AddTask (task.AsStruct())           ′ update ID and Timestamp on task           task.Id = vIdAndTimestamp (0)           task.TimeStamp = vIdAndTimestamp (1)           Exit Sub                ErrorHandler:                Err.Raise Err.Number                End Sub                      
 
       Updating Business Objects  
       [0284]    Overview  
         [0285]    The update process is very similar to the add process. The only difference is that the server component only returns a timestamp, since the BO already has an ID.  
         [0286]    Example  
                                                                   ′ Task CCA       Public Sub UpdateTask(task As CTask)                On Error Goto ErrorHandler           ′ call component to update task passing a task structure           Dim lTimeStamp As Long           lTimeStamp = tskComp.AddTask(task.AsStruct())           ′ update Timestamp on task           task.TimeStamp = lTimeStamp           Exit Sub            ErrorHandler:                Err.Raise Err.Number            End Sub                  
 
       Deleting Business Objects  
       [0287]    Deleting Overview  
         [0288]    Like the add and the update methods, delete methods take a business object  207  as a parameter and do not have a return value. The delete method does not modify the object  207  it is deleting since that object will soon be discarded.  
         [0289]    Example  
                                                                                   ′ Task CCA       Public Sub DeleteTask(task As CTask)                On Error Goto ErrorHandler           ′ call component to update task passing a the ID and            Timestamp                tskComp.DeleteTask task.Id, task.TimeStamp           Exit Sub            ErrorHandler:                Err.Raise Err.Number            End Sub                  
 
       Server Component  
       [0290]    Server components  222  have two purposes: enforcing business rules and carrying out data access operations. They are designed to avoid duplicating logic between functions.  
       Designing for Reuse  
       [0291]    Enforcing Encapsulation  
         [0292]    Each server component  222  encapsulates a single database table or a set of closely related database tables. As much as possible, server components  222  select or modify data from a single table. A component occasionally selects from a table that is “owned” or encapsulated by another component in order to use a join (for efficiency reasons). A server component  222  often collaborates with other server components to complete a business transaction.  
         [0293]    Partioning Logic between Multiple Classes  
         [0294]    If the component becomes very large, it is split into more than one class. When this occurs, it is divided into two classes—one for business rules and one for data access. The business rules class implements the component&#39;s interface and utilizes the data access class to modify data as needed.  
         [0295]    Example  
                                                                                                                 Private Function MarkTaskInError(vMsg As Variant,  —                  vTaskId As Variant,  —             lTimestamp As Variant,  —             sReason As String) As Long                On Error GoTo ErrorHandler           Const cmMethodName = “MarkTaskInError”           ′ set the SQL statement           Dim sSQL As String           sSQL = cmSQLMarkTaskInError           ′ get a new timestamp           Dim lNewTimeStamp As Long           lNewTimeStamp = GetTimeStamp()           ′ create and fill a collection of arguments to be merged            with                ′ the SQL by the ExecuteQuery method           Dim colArgs As CCollection           Set colArgs = New CCollection           With colArgs                Add lNewTimeStamp           Add cmDBBooleanTrue           .Add sReason           .Add vTaskId           .Add lTimestamp                End With           ′ run the SQL and set my return value           ExecuteQuery vMsg, cmUpdate, sSQL, colArguments:=colArgs           MarkTaskInError = lNewTimeStamp           ′ tell MTS I&#39;m done           GetObjectContext.SetComplete           Exit Function            ErrorHandler:                ′ do error handling here            End Function                  
 
       Error Handling  
     General Information  
       [0296]    With the exception of “Class_Initialize”, “Class_Terminate”, and methods called within an error handler, every function or subroutine has a user defined ‘On Error GoTo’ statement. The first line in each procedure is: On Error GoTo ErrorHandler. A line near the end of the procedure is given a label “ErrorHandler”. (Note that because line labels in VB 5.0 have procedure scope, each procedure can have a line labeled “ErrorHandler”). The ErrorHandler label is preceded by a Exit Sub or Exit Function statement to avoid executing the error handling code when there is no error.  
         [0297]    Errors are handled differently based on the module&#39;s level within the application (i.e., user interface modules are responsible for displaying error messages to the user).  
         [0298]    All modules take advantage of technical architecture to log messages. Client modules that already have a reference to the architecture call the Log Manager object directly. Because server modules do not usually have a reference to the architecture, they use the LogMess ageo global function complied into each server component.  
         [0299]    Any errors that are raised within a server component  222  are handled by the calling UI controller  206 . This ensures that the user is appropriately notified of the error and that business errors are not translated to unhandled fatal errors.  
         [0300]    All unexpected errors are handled by a general error handler function at the global Architecture module in order to always gracefully shut-down the application.  
       Server Component Errors  
       [0301]    The error handler for each service module contains a Case statement to check for all anticipated errors. If the error is not a recoverable error, the logic to handle it is first tell MTS about the error by calling GetObjectContext.SetAbort( ). Next, the global LogMessage( ) function is called to log the short description intended for level one support personnel. Then the LogMessage( ) function is called a second time to log the detailed description of the error for upper level support personnel. Finally, the error is re-raised, so that the calling function will know the operation failed.  
         [0302]    A default Case condition is coded to handle any unexpected errors. This logs the VB generated error then raises it. A code sample is provided below:  
         [0303]    Following is an example of how error handling in the task component is implemented when an attempt is made to reassign a task to a performer that doesn&#39;t exist. Executing SQL to reassign a task to a non-existent performer generates a referential integrity violation error, which is trapped in this error handler:  
                                                                                                                                                                                                                                                                                                                         ′Class Declarations       Private Const cmClassName = “CTaskComp”       Public Sub ReassignTask(...)                On Error GoTo ErrorHandler           Private Const cmMethodName = “ReassignTask”           Private Const cmErrReassignTask = “Could not reassign            task.”                :           ′ logic to reassign a task           :           GetObjectContext.SetComplete           Exit Sub            ErrorHandler:                Dim sShortDescr As String           sShortDescr = cmErrReassignTask           ′ log short description as warning           LogMessage vMsg, Err.Nurnber, cmSeverityWarning,            cmClassName, cmMethodName, sShortDescr                Dim sLongDescr As String           Select Case Err.Number           Case cmErrRefIntegrityViolation                GetObjectContext.SetAbort           sLongDescr = “Referential integrity violation -            tried ”  —                  &amp; “to reassign task to a non-existant            performer. ”  —                  &amp; “Association ID: ” &amp; sAssnId  —             &amp; “Association Type: ” &amp; sAssnType  —             &amp; “Old Performer Id: ” &amp; sOldPerformerId  —             &amp; “New Performer Id: ” &amp; sNewPerformerId                ′ log long description as severe           LogMessage vMsg, Err.Number, cmSeveritySevere,            cmClassName, cmMethodName,  —                  sLongDescr                Err.Raise Err.Number                :           ′ more error handling           :           Case Else                ′ let architecture handle unanticipated error           Dim nResumeCode As Integer           nResumeCode = GeneralErrorHandler(vMsg, cmServer,            cmClassName, cmMethodName)                Select Case nResumeCode                Case cmErrorResume                Resume                Case cmErrorResumeNext                Resume Next                Case cmErrorExit                Exit Sub                Case Else                GetObjectContext.Abort           Err.Raise Err.Number                End Select                End Select            End Sub                  
 
       CCAs, CCIs, Business Objects, and Forms  
       [0304]    All CCI&#39;s, CCA&#39;s, Business Objects, and Forms raise any error that is generated. A code sample is provided below:  
                                                                                           Sub SubName ()                On Error GoTo ErrorHandler           &lt;the procedure&#39;s code here&gt;           .........           Exit Sub                ErrorHandler:                Err.Raise Err.Number                End Sub                      
 
       User Interface Controller Errors  
       [0305]    The user interface controllers  206  handle any errors generated and passed up from the lower levels of the application. UI modules are responsible for handling whatever errors might be raised by server components  222  by displaying a message box to the user.  
         [0306]    Any error generated in the UI&#39;s is also displayed to the user in a dialog box. Any error initiated on the client is logged using the LogMessage( ) procedure. Errors initiated on the server will already have been logged and therefore do not need to be logged again.  
         [0307]    All unexpected errors are trapped by a general error method at the global architecture module. Depending on the value returned from this function, the controller may resume on the statement that triggered the error, resume on the next statement, call its Quiesce function to shut itself down, or call a Shutdown method on the application object to shutdown the entire application.  
         [0308]    No errors are raised from this level of the application, since controllers handle all errors. A code sample of a controller error handler is provided below:  
                                                                                                                                                                                                                                                   ′Class Constants       Private Const cmClassName As String = “&lt;ComponentName&gt;”       Sub SubName()                On Error GoTo ErrorHandler           Const cmMethodName As String = “&lt;MethodName&gt;”           :           :           &lt;the procedure&#39;s code here&gt;           :           :           Exit Sub            ErrorHandler:                Select Case CStr(Err.Number)                Case ...                ′display the error to the user           ′ perform any necessary logic           Exit Sub (or Resume, or Resume Next)                :           :           Case Else                Dim nResumeCode As Integer           nResumeCode = GeneralErrorHandler(vMsg,            cmController, cmClassName, cmMethodName)                Select Case CStr(nResumeCode)                Case cmErrorResume                Resume                Case cmErrorResumeNext                Resume Next                Case cmErrorExit                Exit Sub                Case cmErrorQuiesce                Quiesce                Case Else                objApp.SHUTDOWN                End Select                End Select            End Sub                  
 
       Localization  
       [0309]    The CBAM application is constructed so that it can be localized for different languages and countries with a minimum effort or conversion.  
       Requirements and Scope  
       [0310]    The CBAM architecture provides support for certain localization features:  
         [0311]    Localizable Resource Repository;  
         [0312]    Flexible User Interface Design;  
         [0313]    Date Format Localization; and  
         [0314]    Exposure of Windows Operation System Localization Features.  
                                                 Localization Approach Checklist                Supported via   Supported via   Best Practices           Architecture   Architecture   and       Localization Feature   Service   API&#39;s   Assumptions*               Language Code   ✓               (Locale Identifier)       Time Zones           ✓       Date/Time       ✓       Name           ✓       Telephone Numbers           ✓       Functions to Avoid           ✓       Weights and Measures           ✓       Money           ✓       Addresses/Address           ✓       Hierarchies       Menus, Icons, Labels/           ✓       Identifiers on       Windows       Messages/Dialogs   ✓       String Functions, Sort   ✓       Order and String       Comparison       Code Tables   ✓       Drop-Down Lists   ✓       Form &amp; Correspond-           ✓       ence Templates       Online and Printed           ✓       Documentation       Database (DB2)           ✓       3 rd  Party Controls           ✓       Miscellaneous           ✓                  
 
       Localizable Literals Repository  
       [0315]    The CBAM application has an infrastructure to support multiple languages. The architecture acts as a centralized literals repository via its Codes Table Approach.  
         [0316]    The Codes Tables have localization in mind. Each row in the codes table contains an associated language identifier. Via the language identifier, any given code can support values of any language.  
       Flexible Interface  400   
       [0317]    Flexible user interface  400  and code makes customization easy. The FIG. 4 illustrates how different languages are repainted and recompiled. For example, both a English UI  404 , and a French UI  406  are easily accommodated. This entails minimal effort because both UIs share the same core code base  402 . Updates to the UIs are merely be a superficial change.  
         [0318]    Generic graphics are used and overcrowding is avoided to create a user interface which is easy to localize.  
       Data Localization  
       [0319]    Language localization settings affect the way dates are displayed on UIs (user interfaces). The default system display format is different for different Language/Countries. For Example:  
         [0320]    English (United States) displays “mm/dd/yy” (e.g., “05/16/98”)  
         [0321]    English (United Kingdom) displays “dd/mm/yy” (e.g., “16/05/98”).  
         [0322]    The present inventions UI&#39;s employ a number of third-party date controls including Sheridan Calendar Widgets (from Sheridan Software) which allow developers to set predefined input masks for dates (via the controls&#39; Property Pages; the property in this case is “Mask”).  
         [0323]    Although the Mask property can be manipulated, the default setting is preferably accepted (the default setting for Mask is “0—System Default”; it is set at design time). Accepting the default system settings eliminates the need to code for multiple locales (with some possible exceptions), does not interfere with intrinsic Visual Basic functions such as DateAdd, and allows dates to be formatted as strings for use in SQL.  
         [0324]    The test program illustrated below shows how a date using the English (United Kingdom) default system date format is reformatted to a user-defined format (in this case, a string constant for use with DB2 SQL statements):  
         [0325]    Const cmDB2DateAndTime=“mm-dd-yyyy-h.mm.ss” 
         [0326]    Private Sub cmdConvToDB2_Click( )  
         [0327]    Dim sDB2Date As String  
         [0328]    sDB2Date=Format$(SSDateCombol.Date,  
         [0329]    cmDB2DateAndTime)  
         [0330]    txtDB2String.Text=sDB2Date  
         [0331]    End Sub  
       Leverage Windows Operation System  
       [0332]    The CBAM architecture exposes interface methods on the RegistryService object to access locale specific values which are set from the control panel.  
         [0333]    The architecture exposes an API from the RegistryService object which allows access to all of the information available in the control panel. Shown below is the signature of the API:  
         [0334]    GetRegionalInfo(Info As RegionalInfo) As String  
         [0335]    Where RegionalInfo can be any of the values in the table below:  
                                                 RegionalInfo Values                                CmLanguageId   CmDTDateSeparator   cmDayLongNameMonday   cmMonthLongNameJan       CmLanguageLocalized   CmDTTimeSeparator   cmDayLongNameTuesday   cmMonthLongNameFeb       CmLanguageEnglish   CmDTShortDateFormat   cmDayLongNameWednesday   cmMonthLongNameMar       CmLanguageAbbr   CmLDTongDateFormat   cmDayLongNameThursday   cmMonthLongNameApr       CmLanguageNative   CmDTTimeFormat   cmDayLongNameFriday   cmMonthLongNameMay       CmCountryId   CmDTDateFormatOrdering   cmDayLongNameSaturday   cmMonthLongNameJun       CmCountryLocalized   CmDTLongDateOrdering   cmDayLongNameSunday   cmMonthLongNameJul       CmCountryEnglish   CmDTTimeFormatSpecifier   cmDayAbbrNameMonday   cmMonthLongNameAug       CmCountryAbbr   CmDTCenturyFormatSpecifier   cmDayAbbrNameTuesday   cmMonthLongNameSep       CmCountryNative   CmDTTimeWithLeadingZeros   cmDayAbbrNameWednesday   cmMonthLongNameOct       CmLanguageDefaultId   CmDTDayWithLeadingZeros   cmDayAbbrNameThursday   cmMonthLongNameNov       CmCountryDefaultId   CmDTMonthWithLeadingZeros   cmDayAbbrNameFriday   cmMonthLongNameDec           CmDTDesignatorAM   cmDayAbbrNameSaturday   cmMonthAbbrNameJan           CmDTDesignatorPM   cmDayAbbrNameSunday   cmMonthAbbrNameFeb                   cmMonthAbbrNameMar                   cmMonthAbbrNameApr                   cmMonthAbbrNameMay                   cmMonthAbbrNameJun                   cmMonthAbbrNameJul                   cmMonthAbbrNameAug                   cmMontbAbbrNameSep                   cmMonthAbbrNameOct                   cmMonthAbbrNameNov                   cmMonthAbbrNameDec                  
 
         [0336]    Get RegionalInfo Example:  
                                                                       Private Sub Command1_Click()                MsgBox “This is the language id for English: ” &amp;  —             GetRegionalInfo(cmLanguageId)                End Sub                      
 
       Logical Unit of Work  
       [0337]    The Logical Unit of Work (LUW) pattern enables separation of concern between UI Controllers  206  and business logic.  
         [0338]    Overview  
         [0339]    Normally, when a user opens a window, makes changes, and clicks OK or Save, a server component  222  is called to execute a transaction that will save the user&#39;s changes to the database. Because of this, it can be said that the window defines the boundary of the transaction, since the transaction is committed when the window closes.  
         [0340]    The LUW pattern is useful when database transactions span windows. For example, a user begins editing data on one window and then, without saving, opens another window and begins editing data on that window, the save process involves multiple windows. Neither window controller  206  can manage the saving process, since data from both windows must be saved as an part of an indivisible unit of work. Instead, a LUW object is introduced to manage the saving process.  
         [0341]    The LUW acts as a sort of “shopping bag”. When a controller  206  modifies a business object  207 , it puts it in the bag to be paid for (saved) later. It might give the bag to another controller  206  to finish the shopping (modify more objects), and then to a third controller who pays (asks the LUW to initiate the save).  
         [0342]    Approach  
         [0343]    Controllers  206  may have different levels of LUW “awareness”:  
         [0344]    Requires New: always creates a new LUW;  
         [0345]    Requires: requires an LUW, and creates a new LUW only if one is not passed by the calling controller;  
         [0346]    Requires Existing: requires an LUW, but does not create a new LUW if one is not passed by the calling controller. Raises an error if no LUW is passed; and  
         [0347]    Not Supported: is not capable of using an LUW.  
         [0348]    Controllers  206  that always require a new LUW create that LUW in their ArchInitClass function during initialization. They may choose whether or not to involve other windows in their LUW. If it is desirable for another window to be involved in an existing LUW, the controller  206  that owns the LUW passes a reference to that LUW when it calls the App Object  202  to open the second window. Controllers  206  that require an LUW or require an existing LUW accept the LUW as a parameter in the ArchInitClass function.  
         [0349]    LUWs contain all the necessary logic to persist their “contents”—the modified BOs  207 . They handle calling methods on the CCA  208  and updating the BOs  207  with new IDs and/or timestamps.  
       Architecture API Hierarchy  
       [0350]    Following is an overview of the architecture object model, including a description of each method and the parameters it accepts. Additional sections address the concepts behind specific areas (code caching, message logging, and data access) in more detail.  
       Arch Object  
       [0351]    [0351]FIG. 5 depicts the current properties on the Arch Object  200 .  
         [0352]    The following are APIs located on the Arch Object  200  which return either a retrieved or created instance of an object which implements the following interfaces:  
         [0353]    CodesMan( )  500 ;  
         [0354]    TextMan( )  502 ;  
         [0355]    IdMan( )  504 ;  
         [0356]    RegMan( )  506 ;  
         [0357]    LogMan( )  508 ;  
         [0358]    ErrMan( )  510 ;  
         [0359]    UserMan( )  512 ; and  
         [0360]    SecurityMan( )  514 .  
         [0361]    AsMsgStruct( )  
         [0362]    This method on the Arch Object returns a variant structure to pass along a remote message.  
         [0363]    Syntax:  
         [0364]    Public Function AsMsgStruct( ) As Variant  
         [0365]    End Function  
         [0366]    Example:  
         [0367]    Dim vMsg As Variant  
         [0368]    vMsg=objArch.AsMsgStruct  
       CodesMan  
       [0369]    The following are APIs located on the interface of the Arch Object  200  named CodesMan  500 :  
         [0370]    CheckCacheFreshness( );  
         [0371]    FillControl(ctlControl, nCategory, nFillType, [nCodeStatus], [colAssignedCodes]);  
         [0372]    FilterCodes(colAllCodes, nCodeStatus);  
         [0373]    GetCategoryCodes(nCategory);  
         [0374]    GetCodeObject(nCategory, sCode);  
         [0375]    GetResourceString(lStringId);  
         [0376]    GetServerDate( );  
         [0377]    RefreshCache( );  
         [0378]    RemoveValidDates(sCode, colPassedInAssignedCodes); and  
         [0379]    SetServerDate(dtServerDate).  
         [0380]    CheckCacheFreshness( )  
         [0381]    Checks whether the cache has expired, if so refresh.  
         [0382]    Syntax:  
         [0383]    Private Sub CheckCacheFreshness( )  
         [0384]    End Sub  
         [0385]    Example:  
         [0386]    CheckCacheFreshness  
         [0387]    FillControl( )  
         [0388]    This API is used to fill listboxes or comboboxes with values from a list of CodeDecodes. Returns a collection for subsequent lookups to Code objects used to fill controls.  
         [0389]    Syntax:  
         [0390]    Public Function FillControl(ctlControl As Object, nCategory As CodeDecodeCats, nFillType As CodeDecodeLengths, Optional nCodeStatus As CodeDecodeFilters=cmValidCodes, Optional colAssignedCodes As CCollection) As CCollection  
         [0391]    End Function  
                                                                                       Parameters:       ctlControl: A reference to a passed in listbox or combobox.       nCategory: The integer based constant which classified these       CodeDecodes from others. Several of the valid constants include:                cmCatTaskType = 1           cmCatSource           cmCatTaskStatus            nFillType: The attribute of the CodeDecode which you want to fill.       Several of the valid values include:                cmCode           cmShortDecode           cmLongDecode            nCodeStatus: Optional value which filters the Code Decodes according to       their Effective and Expiration dates. Several of the valid constants include:                cmAllCodes   Pending + Valid + Expired Codes           cmPendingCodes   Codes whose effective date is greater               than the current date           cmValidCodes   Not Pending or Expired Codes            colAssignedCodes: Used when filling a control which should fill and       include assigned values.                  
 
         [0392]    Example:  
         [0393]    ‘Declare an instance variable for States collection on object Private colstates As CCollection  
         [0394]    ‘Call FillControll API, and set local collection inst var to collection of codes which were used to fill the controll. This collection will be used for subsequent lookups.  
         [0395]    Set colStates=objArch.CodesMan.FillControl(frmCurrentForm.cboStates, cmCatStates, cmlongDecode)  
         [0396]    FilterCodes( )  
         [0397]    Returns a collection of code/decodes that are filtered using their effective and expiration dates based on which nCodeStatus is passed from the fillcontrol method.  
         [0398]    Syntax:  
         [0399]    Private Function FilterCodes(colAllCodes As CCollection, ncodeStatus As CodeDecodeFilters) As CCollection  
         [0400]    End Function  
         [0401]    Parameters:  
         [0402]    colAllCodes:  
         [0403]    ncodeStatus:  
         [0404]    Example:  
         [0405]    Set colFilteredCodes=FilterCodes(colCodes, nCodeStatus)  
         [0406]    GetCategoryCodes( )  
         [0407]    Returns a collection of CCode objects given a valid category  
         [0408]    Syntax:  
         [0409]    Public Function GetCategoryCodes(nCategory As CodeDecodeCats) As CCollection  
         [0410]    End Function  
         [0411]    Parameters:  
         [0412]    nCategory: The integer based constant which classified these CodeDecodes from others.  
         [0413]    Example:  
                                                   Dim colMyStates As CCollection       Set colMyStates = objArch.CodesMan.GetCategoryCodes(cmCatStates)       ′Below shows an example of looking up the Code value for the currently       selected state.       With frmCurrentForm.cboStates       If .ListIndex &gt; −1 Then       Dim objCode As CCode                Set objCode = colStates(.ItemData(.ListIndex))           sStateCode = objCode.Code            End If       End With                  
 
         [0414]    GetCodeObject( )  
         [0415]    Returns a valid CCode object given a specific category and code.  
         [0416]    Syntax:  
         [0417]    Public Function GetCodeObject(nCategory As CodeDecodeCats, sCode As String) As CCode  
         [0418]    End Function  
         [0419]    Parameters:  
         [0420]    nCategory: The integer based constant which classified these CodeDecodes from others.  
         [0421]    sCode: A string indicating the Code attribute of the CodeDecode object.  
         [0422]    Example:  
         [0423]    frmCurrentForm.lblState=objArch.CodesMan.GetCodeObject(cmCatStates, “IL”).LongDecode  
         [0424]    GetResourceString( )  
         [0425]    Returns a string from the resource file given a specific string ID.  
         [0426]    Syntax:  
         [0427]    Private Function GetResourceString(lStringId As Long) As String  
         [0428]    End Function  
         [0429]    Parameters:  
         [0430]    lStringId: The id associated with the string in the resource file.  
         [0431]    Example:  
         [0432]    sMsg = arch.CodesMan.GetResourceString(CLng(vMessage))  
         [0433]    GetServerDate( )  
         [0434]    Returns the date from the server.  
         [0435]    Syntax:  
         [0436]    Private Function GetServerDate( ) As Date  
         [0437]    End Function  
         [0438]    Example:  
         [0439]    SetServerDate CCA.GetServerDate  
         [0440]    Refresh Cache( )  
         [0441]    Refreshes all of the code obhjects in the cache.  
         [0442]    Syntax:  
         [0443]    Private Sub RefreshCache( )  
         [0444]    End Sub  
         [0445]    Example:  
         [0446]    m_Cache.RefreshCache  
         [0447]    RemoveValidCodes( )  
         [0448]    Removes all valid codes from the passed in assigned codes collection, which is used to see which codes are assigned and not valid.  
         [0449]    Syntax:  
         [0450]    Private Sub RemoveValidCodes(sCode As String, colPassedInAssignedCodes As CCollection)  
         [0451]    End Sub  
         [0452]    Parameters:  
         [0453]    sCode: Name of code  
         [0454]    colPassedInAssignedCodes: Codes already in use.  
         [0455]    Example:  
         [0456]    RemoveValidCodes codCode.Code, colPassedInAssignedCodes  
         [0457]    SetServerDate( )  
         [0458]    Sets the server date.  
         [0459]    Syntax:  
         [0460]    Private Sub SetServerDate(dtServerDate As Date)  
         [0461]    End Sub  
         [0462]    Parameters:  
         [0463]    dtServerDate: Date of Server.  
         [0464]    Example:  
         [0465]    SetServerDate CCA.GetServerDate  
       TextMan  
       [0466]    The following are APIs located on the interface of the Arch Object  200  named TextMan  502 .  
         [0467]    PairUpAposts( );  
         [0468]    PairUpAmps( ); and  
         [0469]    MergeParms ( ).  
         [0470]    PairUpAposts ( )  
         [0471]    Pairs up apostrophes in the passed string.  
         [0472]    Syntax:  
         [0473]    Public Function PairUpAposts(sOriginalString As String) As String  
         [0474]    End Function  
         [0475]    Parameters:  
         [0476]    sOriginalString: string passed in by the caller  
         [0477]    Example:  
         [0478]    Dim sString As String  
         [0479]    sString=objArch.TextMan.PairUpAposts(“This is Monika&#39;s string”)  
         [0480]    ‘expected return: sString=“This is Monika&#39;&#39;s string” 
         [0481]    PairUpAmps ( )  
         [0482]    Pairs up ampersands in the passed string.  
         [0483]    Syntax:  
         [0484]    Public Function PairUpAmps(soriginalString As String) As String  
         [0485]    End Function  
         [0486]    Parameters:  
         [0487]    sOriginalString: string passed in by the caller  
         [0488]    Example:  
         [0489]    Dim sString As String  
         [0490]    sString=objArch.TextMan.PairUpAmps(“Forms&amp;Corr”)  
         [0491]    ‘expected return: sString=“Forms&amp;&amp;Corr” 
         [0492]    MergeParms ( )  
         [0493]    Merges string with the passed parameters collection.  
         [0494]    Syntax:  
         [0495]    Public Function MergeParms(sString As String, colParms As CCollection) As String  
         [0496]    End Function  
         [0497]    Parameters:  
         [0498]    sOriginalString: string passed in by the caller  
         [0499]    colParms As Ccollection: collection of the parameters passed in by the caller  
         [0500]    Example:  
         [0501]    Dim sString As String  
         [0502]    sString=objArch.TextMan.MergeParms(sString, colParms)  
       IdMan  
       [0503]    The following are APIs located on the interface of the Arch Object  200  named IdMan  504 :  
         [0504]    GetGUID( );  
         [0505]    GetSequenceID( );  
         [0506]    GetTimeStamp( );  
         [0507]    GetTrackingNbr( ); and  
         [0508]    GetUniqueId( ).  
         [0509]    GetGUID ( )  
         [0510]    Syntax:  
         [0511]    Public Function GetGUID( )  
         [0512]    End Function  
         [0513]    Example:  
         [0514]    Dim vNewGuid As Variant  
         [0515]    vNewGuid=objArchIdMan.GetGUID  
         [0516]    GetSequenceId ( )  
         [0517]    Syntax:  
         [0518]    Public Function GetSequenceId(sTemplateType As CounterName) As String  
         [0519]    End Function  
         [0520]    Parameters:  
         [0521]    sTemplateType:The string specifying the template requesting a sequence id  
         [0522]    (i.e. cmCountFC=Forms &amp; Corr)  
         [0523]    Example:  
         [0524]    frmCurrentForm.txtTemplateNumber=objArch.IdMan.GetSequenceId(cmCountFC)  
         [0525]    GetTimeStamp ( )  
         [0526]    Syntax:  
         [0527]    Public Function GetTimeStamp( )  
         [0528]    End Function  
         [0529]    Example:  
         [0530]    Dim nNewTimeStamp As Long  
         [0531]    nNewTimeStamp=objArch.IdMan.GetTimeStamp  
         [0532]    GetTrackingNbr ( )  
         [0533]    Syntax:  
         [0534]    Public Function GetTrackingNbr( )  
         [0535]    End Function  
         [0536]    Example:  
         [0537]    Set objTechArch=New CTechArch  
         [0538]    sUniqueTrackNum=objTechArch.IdMan.GetTrackingNbr  
         [0539]    GetUniqueId ( )  
         [0540]    Syntax:  
         [0541]    Public Function GetUniqueId( )  
         [0542]    End Function  
         [0543]    Example:  
         [0544]    Dim vuid As Variant  
         [0545]    vNewUid=objArch.IdMan.GetUniqueId  
       RegMan  
       [0546]    The following are APIs located on the interface of the Arch Object  200  named RegMan  506 :  
         [0547]    GetCacheLife( );  
         [0548]    GetClientDSN( );  
         [0549]    GetComputerName( );  
         [0550]    GetDefaultAndValidate( );  
         [0551]    GetFCArchiveDirectory( );  
         [0552]    GetFCDistributionDirectory( );  
         [0553]    GetFCMasterDirectory( );  
         [0554]    GetFCUserDirectory( );  
         [0555]    GetFCWorkingDirectory( );  
         [0556]    GetHeIpPath( );  
         [0557]    GetLocalInfo( );  
         [0558]    GetLogLevel( );  
         [0559]    GetRegionalInfo( );  
         [0560]    GetRegValue( );  
         [0561]    GetServerDSN( );  
         [0562]    GetSetting( );  
         [0563]    GetTimerLogLevel( );  
         [0564]    GetTimerLogPath( ); and  
         [0565]    GetUseLocalCodes( ).  
         [0566]    GetCacheLife( )  
         [0567]    Syntax:  
         [0568]    Public Function GetCacheLife( ) As String  
         [0569]    End Function  
         [0570]    Example:  
         [0571]    Dim s As String  
         [0572]    s=objArch.RegMan.GetCacheLife  
         [0573]    GetClientDSN( )  
         [0574]    Syntax:  
         [0575]    Public Function GetClientDSN( ) As String  
         [0576]    End Function  
         [0577]    Example:  
         [0578]    Dim s As String  
         [0579]    s=objArch.RegMan.GetClientDSN  
         [0580]    GetComputerName( )  
         [0581]    Syntax:  
         [0582]    Public Function GetComputerName( ) As String  
         [0583]    End Function  
         [0584]    Example:  
         [0585]    Dim s As String  
         [0586]    s=objArch.RegMan.GetComputerName  
         [0587]    GetDefaultAndValidate( )  
         [0588]    Syntax:  
         [0589]    Private Function GetDefaultAndValidate(sKey As String) As String  
         [0590]    End Function  
         [0591]    Parameters:  
         [0592]    sKey: The key within the registry of which the user is requesting (i.e.: Help Path)  
         [0593]    Example:  
         [0594]    Dim sDefault As String  
         [0595]    sDefault=objArch.RegMan.GetDefaultAndValidate(sKey)  
         [0596]    GetFCArchiveDirectory( )  
         [0597]    Syntax:  
         [0598]    Public Function GetFCArchiveDirectory( ) As String  
         [0599]    End Function  
         [0600]    Example:  
         [0601]    Dim s As String  
         [0602]    s=objArch.RegMan.GetFCArchiveDirectory  
         [0603]    GetFCDistributionDirectory( )  
         [0604]    Syntax:  
         [0605]    Public Function GetFCDistributionDirectory( ) As String  
         [0606]    End Function  
         [0607]    Example:  
         [0608]    Dim s As String  
         [0609]    s=objArch.RegMan.GetFCDistributionDirectory  
         [0610]    GetFCMasterDirectory( )  
         [0611]    Syntax:  
         [0612]    Public Function GetFCMasterDirectory( ) As String  
         [0613]    End Function  
         [0614]    Example:  
         [0615]    Dim s As String  
         [0616]    s=objArch.RegMan.GetFCMasterDirectory  
         [0617]    GetFCUserDirectory( )  
         [0618]    Syntax:  
         [0619]    Public Function GetFCUserDirectory( ) As String  
         [0620]    End Function  
         [0621]    Example:  
         [0622]    Dim s As String  
         [0623]    s=objArch.RegMan.GetFCUserDirectory  
         [0624]    GetFCWorkingDirectory( )  
         [0625]    Syntax:  
         [0626]    Public Function GetFCWorkingDirectory( ) As String  
         [0627]    End Function  
         [0628]    Example:  
         [0629]    Dim s As String  
         [0630]    s=objArch.RegMan.GetFCWorkingDirectory  
         [0631]    GetHelpPath( )  
         [0632]    Syntax:  
         [0633]    Public Function GetHelpPath( ) As String  
         [0634]    End Function  
         [0635]    Example:  
         [0636]    Dim s As String  
         [0637]    s=objArch.RegMan.GetHelpPath  
         [0638]    GetLocalInfo( )  
         [0639]    Syntax:  
         [0640]    Public Function GetLocalInfo( ) As String  
         [0641]    End Function  
         [0642]    Example:  
         [0643]    Dim s As String  
         [0644]    s=objArch.RegMan.GetLocalInfo  
         [0645]    GetLogLevel( )  
         [0646]    Syntax:  
         [0647]    Public Function GetLogLevel( ) As String  
         [0648]    End Function  
         [0649]    Example:  
         [0650]    Dim s As String  
         [0651]    s=objArch.RegMan.GetLogLevel  
         [0652]    GetRegionalInfo( )  
         [0653]    Allows access to all locale specific values which are set from control panel.  
         [0654]    Syntax:  
         [0655]    Public Function GetRegionalInfo(Info As RegionalInfo) As String  
         [0656]    End Function  
         [0657]    Parameters:  
                                             Info: string containing the regional information. Several of the valid       constants include:                                    cmLanguageId = &amp;H1   ′ language id           cmLanguageLocalized = &amp;H2   ′ localized name of language           cmLanguageEnglish = &amp;H1001   ′ English name of language           cmLanguageAbbr = &amp;H3   ′ abbreviated language name           cmLanguageNative = &amp;H4   ′ native name of language                      
 
         [0658]    Example:  
         [0659]    Dim s As String  
         [0660]    s=objArch.RegMan.GetRegionalInfo  
         [0661]    GetRegValue( )  
         [0662]    Syntax:  
         [0663]    Public Function GetRegValue( ) As String  
         [0664]    End Function  
         [0665]    Example:  
         [0666]    Dim s As String  
         [0667]    s=objArch.RegMan.GetRegValue  
         [0668]    GetServerDSNO  
         [0669]    Syntax:  
         [0670]    Public Function GetServerDSN( ) As String  
         [0671]    End Function  
         [0672]    Example:  
         [0673]    Dim s As String  
         [0674]    s=objArch.RegMan.GetServerDSN  
         [0675]    GetSetting( )  
         [0676]    Get setting from the registry.  
         [0677]    Syntax:  
         [0678]    Public Function GetSetting(sKey As String) As String  
         [0679]    End Function  
         [0680]    Parameters:  
         [0681]    sKey: The key within the registry of which the user is requesting (i.e.: Help Path)  
         [0682]    Parameters:  
         [0683]    GetHelpPath=GetSetting(cmRegHelpPathKey)  
         [0684]    GetTimerLogLevel( )  
         [0685]    Syntax:  
         [0686]    Public Function GetTimerLogLevel( ) As String  
         [0687]    End Function  
         [0688]    Example:  
         [0689]    Dim s As String  
         [0690]    s=objArch.RegMan.GetTimerLogLevel  
         [0691]    GetTimerLogPath( )  
         [0692]    Syntax:  
         [0693]    Public Function GetTimerLogPath( ) As String  
         [0694]    End Function  
         [0695]    Example:  
         [0696]    Dim s As String  
         [0697]    s=objArch.RegMan.GetTimerLogPath  
         [0698]    GetUseLocalCodes( )  
         [0699]    Syntax:  
         [0700]    Public Function GetUseLocalCodes( ) As String  
         [0701]    End Function  
         [0702]    Example:  
         [0703]    Dim s As String  
         [0704]    s=objArch.RegMan.GetUseLocalCodes  
         [0705]    LPSTRToVBString( )  
         [0706]    Extracts a VB string from a buffer containing a null terminated string.  
         [0707]    Syntax:  
         [0708]    Private Function LPSTRToVBString$(ByVal s$)  
         [0709]    End Function  
       LogMan  
       [0710]    The following are APIs located on the interface of the Arch Object  200  named LogMan  508 :  
         [0711]    LogMessage ( );  
         [0712]    WriteToDatabase( ); and  
         [0713]    WriteToLocalLog( ).  
         [0714]    LogMessage ( )  
         [0715]    Used to log the message. This function will determine where the message should be logged, if at all, based on its severity and the vMsg&#39;s log level.  
                                                                 Syntax:                Public Sub LogMessage(vMsg As Variant,  —                  lSeverity As Long,  —             sClassName As String,  —             sMethodName As String,  —             sVersion As String,  —             lErrorNum As Long,  —             Optional sText As String = vbNullString)                End Sub                      
 
         [0716]    Parameters:  
         [0717]    vMsg: the standard architecture message  
         [0718]    lSeverity: the severity of the message  
         [0719]    sClassName: the name of the class logging the message  
         [0720]    sMethodName: the name of the method logging the message  
         [0721]    sversion: the version of the binary file (EXE or DLL) that contains the method logging message  
         [0722]    lErrorNum: the number of the current error  
         [0723]    sText: an optional parameter containing the text of the message. If omitted, the text will be looked up in a string file or the generic VB error description will be used  
         [0724]    Example:  
                                                                             If Err.Number &lt;&gt; 0 Then                ′ log message           Arch.LogMan.LogMessage(vMsg, cmSeverityFatal,            “COrganizationCTLR”, “InitForm”,                GetVersion(), Err.Number, Err.Description)                ′ re-raise the error           Err.Raise Err.Number            End If                  
 
         [0725]    WriteToDatabase ( )  
         [0726]    Used to log the message to the database on the server using the CLoggingComp. This function returns the Trackingld that is generated by the CLoggingObject.  
         [0727]    Syntax:  
         [0728]    Private Sub WriteToDatabase(vMsg As Variant, msgToLog As CMessage)  
         [0729]    End Sub  
         [0730]    Parameters:  
         [0731]    vMsg: the standard architecture message  
         [0732]    msgToLog: a parameter containing the text of the message.  
         [0733]    Example:  
         [0734]    If msgToLog.IsLoggableAtLevel(m lLocalLogLevel) Then  
         [0735]    WriteToDatabase vMsg, msgToLog  
         [0736]    End If  
         [0737]    WriteToLocalLog ( )  
         [0738]    Used to log the message to either a flat file, in the case of Windows 95, or the NT Event Log, in the case of Windows NT.  
         [0739]    Syntax:  
         [0740]    Private Sub WriteToLocalLog(msgToLog As CMessage)  
         [0741]    End Sub  
         [0742]    Parameters:  
         [0743]    msgToLog: a parameter containing the text of the message.  
         [0744]    Example:  
         [0745]    ErrorHandler:  
         [0746]    WriteToLocalLog msgToLog  
         [0747]    End Sub  
       ErrMan  
       [0748]    The following are APIs located on the interface of the Arch Object  200  named ErrMan  510 :  
         [0749]    HandleError( );  
         [0750]    RaiseOriginal( );  
         [0751]    ResetError( ); and  
         [0752]    Update( ).  
         [0753]    HandleError( )  
         [0754]    This method is passed through to the general error handler in MArch.bas  
         [0755]    Syntax:  
         [0756]    Public Function HandleError(vMsg As Variant, nCompType As CompType, sClassName As String, sMethodNane As String) As ErrResumeCodes  
         [0757]    End Sub  
         [0758]    Parameters:  
         [0759]    vMsg: General Architecture Information  
         [0760]    nCompType: Contains tier information (Client or Server)  
         [0761]    sClassName: Class which raised the error.  
         [0762]    sMethodName: Method which raised the error.  
         [0763]    RaiseOriginal( )  
         [0764]    This method is used to Reset the error object and raise.  
         [0765]    Syntax:  
         [0766]    Public Sub RaiseOriginal( )  
         [0767]    End Sub  
         [0768]    Example:  
         [0769]    objArch.ErrMan.RaiseOriginal  
         [0770]    ResetError( )  
         [0771]    This method is used to reset attributes.  
         [0772]    Syntax:  
         [0773]    Public Sub ResetError( )  
         [0774]    End Sub  
         [0775]    Example:  
         [0776]    objArch.ErrMan.ResetError  
         [0777]    Update( )  
         [0778]    This method is used to update attributes to the values of VBs global Error object.  
         [0779]    Syntax:  
         [0780]    Public Sub Update( )  
         [0781]    End Sub  
         [0782]    Example:  
         [0783]    objArch.ErrMan.Update  
       UserMan  
       [0784]    The following are APIs located on the interface of the Arch Object  200  named UserMan  512 .  
         [0785]    UserId;  
         [0786]    EmployeeId;  
         [0787]    EmployeeName;  
         [0788]    EmployeeFirstName;  
         [0789]    EmployeeLastName;  
         [0790]    EmployeeMiddleInitial;  
         [0791]    GetAuthorizedEmployees;  
         [0792]    IsSuperOf ( );  
         [0793]    IsRelativeOf( ); and  
         [0794]    IsInRole( ).  
         [0795]    UserId( )  
         [0796]    Syntax:  
         [0797]    Public Property Get UserId( ) As String  
         [0798]    End Property  
         [0799]    Example:  
         [0800]    Dim sNewUserId As String  
         [0801]    sNewUserId=objArch.UserMan.UserId  
         [0802]    EmployeeId( )  
         [0803]    Syntax:  
         [0804]    Public Property Get EmployeeId( ) As String  
         [0805]    End Property  
         [0806]    Example:  
         [0807]    Dim sNewEmployeeId As String  
         [0808]    sNewEmployeeId=objArch.UserMan.EmployeeId  
         [0809]    EmployeeName( )  
         [0810]    Syntax:  
         [0811]    Public Property Get EmployeeName( ) As String  
         [0812]    End Property  
         [0813]    Example:  
         [0814]    Dim sname As String  
         [0815]    sName=objArch.UserMan.EmployeeName  
         [0816]    EmployeeFirstName( )  
         [0817]    Syntax:  
         [0818]    Public Property Get EmployeeFirstNane( ) As String  
         [0819]    End Property  
         [0820]    Example:  
         [0821]    Dim sFName As String  
         [0822]    sFName=objArch.UserMan.EmployeeFirstName  
         [0823]    EmployeeLastName( )  
         [0824]    Syntax:  
         [0825]    Public Property Get EmployeeLastName( )As String  
         [0826]    End Property  
         [0827]    Example:  
         [0828]    Dim sLName As String  
         [0829]    sLName=objArch.UserMan.EmployeeLastName  
         [0830]    EmployeeMiddleInitial( )  
         [0831]    Syntax:  
         [0832]    Public Property Get EmployeeMiddleInitial( ) As String  
         [0833]    End Property  
         [0834]    Example:  
         [0835]    Dim sMI As String  
         [0836]    sMI=objArch.UserMan.EmployeeMiddleInitial  
         [0837]    GetAuthorizedEmployees( )  
         [0838]    Creates a collection of user&#39;s supervisees from the dictionary and returns GetAuthorizedEmployees—collection of authorized employees  
         [0839]    Syntax:  
         [0840]    Public Function GetAuthorizedEmployees( ) As CCollection  
         [0841]    End Function  
         [0842]    Example:  
         [0843]    Dim colAuth As Collection  
         [0844]    colAuth=objArch.UserMan.GetAuthorizedEmployees  
         [0845]    IsSuperOf ( )  
         [0846]    Checks if the current user is supervisor of the passed in user.  
         [0847]    Syntax:  
         [0848]    Public Function IsSuperOf(sEmpId As String) As Boolean  
         [0849]    End Function  
         [0850]    Parameters:  
         [0851]    sEmpId: string containing Employee ID number  
         [0852]    Example:  
         [0853]    Dim bIsSuperOfMonika As Boolean  
         [0854]    bIsSuperOfMonika=objArch.UserMan.IsSuperOf(“TS012345”)  
         [0855]    IsRelativeOf ( )  
         [0856]    Checks if the passed in user is relative of the current user.  
         [0857]    Syntax:  
         [0858]    Public Function IsRelativeof(sEmpId As String) As Boolean  
         [0859]    End Function  
         [0860]    Parameters:  
         [0861]    sEmpId: string containing Employee ID number  
         [0862]    Example:  
         [0863]    Dim bIsRelativeOfMonika As Boolean  
         [0864]    bIsRelativeOfMonika=objArch.UserMan.IsRelativeOf(“TS012345”)  
         [0865]    IsInRole ( )  
         [0866]    Checks to see if the current user is in a certain role.  
         [0867]    Syntax:  
         [0868]    Public Function IsInRole(sRole As String) As Boolean  
         [0869]    End Function  
         [0870]    Parameters:  
         [0871]    sRole: string containing role  
         [0872]    Example:  
         [0873]    Dim bIsInRoleTaskLibrarian As Boolean  
         [0874]    bIsInRoleTaskLibrarian objArch.UserMan.IsInRole(“TA”)  
       SecurityMan  
       [0875]    The following APIs are located on the interface of the Arch Object  200  named SecurityMan  514 .  
         [0876]    EvalClaimRules;  
         [0877]    EvalFileNoteRules;  
         [0878]    EvalForrmsCorrRules;  
         [0879]    EvalOrgRules;  
         [0880]    EvalRunApplicationRules;  
         [0881]    EvalRunEventProcRules;  
         [0882]    EvalTaskTemplateRules;  
         [0883]    EvalUserProfilesRules;  
         [0884]    IsOperAuthorized;  
         [0885]    GetUserId; and  
         [0886]    OverrideUser.  
         [0887]    EvalclaimRules ( )  
         [0888]    This API references business rules for claim security checking and returns a boolean if rules are met.  
         [0889]    Syntax:  
         [0890]    Private Function EvalclaimRules(lBasicOp As cinBasicOperations, vContextData As Variant) As Boolean  
         [0891]    End Function  
         [0892]    Parameters:  
         [0893]    lBasicop: a basic operation the current user is wishing to perform (i.e. Delete)  
         [0894]    vContextData: a variant array holding relevant business objects or other information.  
         [0895]    Example:  
                                             Select Case lOperation       Case cmWorkOnClaim                IsOperAuthorized = EvalClaimRules(cmView, vContextData)           And  —             EvalClaimRules(cmEdit, vContextData)                      
 
         [0896]    EvalFileNoteRules ( )  
         [0897]    This API references business rules for FileNote security checking and returns a boolean if rules are met.  
         [0898]    Syntax:  
         [0899]    Private Function EvalFileNoteRules(lBasicop As cmBasicOperations, vContextData As Variant) As Boolean  
         [0900]    End Function  
         [0901]    Parameters:  
         [0902]    lBasicOp: a basic operation the current user is wishing to perform (i.e. Delete)  
         [0903]    vContextData: a variant array holding relevant business objects or other information.  
         [0904]    Example:  
                                             Select Case lOperation       Case cmDeleteFileNote                IsOperAuthorized = EvalFileNoteRules(cmDelete,           vContextData)                      
 
         [0905]    EvalFormsCorrRules ( )  
         [0906]    This API references business rules for Forms and Corr security checking and returns a boolean if rules are met.  
         [0907]    Syntax:  
         [0908]    Private Function EvalFormsCorrRules(lBasicOp As cmBasicOperations) As Boolean  
         [0909]    End Function  
         [0910]    Parameters:  
         [0911]    lBasicop: a basic operation the current user is wishing to perform (i.e. Delete)  
         [0912]    Example:  
                                                 Select Case lOperation       Case cmMaintainFormsCorr                IsOperAuthorized =   EvalFormsCorrRules(cmEdit) And  —                 EvalFormsCorrRules(cmDelete) And  —                 EvalFormsCorrRules(cmAdd)                      
 
         [0913]    EvalOrgRules ( )  
         [0914]    This API references business rules for Event Processor security checking and returns a boolean if rules are met.  
         [0915]    Syntax:  
         [0916]    Private Function EvalorgRules(lBasicOp As cmBasicOperations) As Boolean  
         [0917]    End Function  
         [0918]    Parameters:  
         [0919]    lBasicOp: a basic operation the current user is wishing to perform (i.e. Delete)  
         [0920]    Example:  
                                                 Select Case lOperation       Case cmMaintainOrg                IsOperAuthorized =   EvalOrgRules(cmAdd) And  —                 EvalOrgRules(cmEdit) And  —                 EvalOrgRules(cmDelete)                      
 
         [0921]    EvalRunApplicationRules ( )  
         [0922]    This API references business rules for running the application and returns a boolean if rules are met.  
         [0923]    Syntax:  
         [0924]    Private Function EvalRunApplicationRules(lBasicop As cmBasicOperations) As Boolean  
         [0925]    End Function  
         [0926]    Parameters:  
         [0927]    lBasicop: a basic operation the current user is wishing to perform (i.e. Delete)  
         [0928]    Example:  
                                                       Select Case lOperation                Case cmRunApplication                IsOperAuthorized = EvalRunApplicationRules(cmExecute)                      
 
         [0929]    EvalRunEventProcRules ( )  
         [0930]    This API references business rules for Event Processor security checking and returns a boolean if rules are met.  
         [0931]    Syntax:  
         [0932]    Private Function EvalRunEventProcRules(lBasicOp As cmBasicOperations) As Boolean  
         [0933]    End Function  
         [0934]    Parameters:  
         [0935]    lBasicop: a basic operation the current user is wishing to perform (i.e. Delete)  
         [0936]    Example:  
                                             Select Case lOperation       Case cmRunEventProcessor                IsOperAuthorized = EvalRunEventProcRules(cmExecute)                      
 
         [0937]    EvalTaskTemplateRules ( )  
         [0938]    This API references business rules for Task Template security checking and returns a boolean if rules are met.  
         [0939]    Syntax:  
         [0940]    Private Function EvalTaskTemplateRules(lBasicOp As cmBasicoperations) As Boolean  
         [0941]    End Function  
         [0942]    Parameters:  
         [0943]    lBasicop: a basic operation the current user is wishing to perform (i.e. Delete)  
         [0944]    Example:  
                                                 Select Case lOperation       Case cmMaintainTaskLibrary                IsOperAuthorized =   EvalTaskTemplateRules(cmAdd) And  —                 EvalTaskTemplateRules(cmEdit) And  —                 EvalTaskTemplateRules(cmDelete)                      
 
         [0945]    EvalUserProfileRules ( )  
         [0946]    This API references business rules for Task Template security checking and returns a boolean if rules are met.  
         [0947]    Syntax:  
         [0948]    Private Function EvalUserProfileRules(lBasicop As cmBasicOperations, vContextData As Variant) As Boolean  
         [0949]    End Function  
         [0950]    Parameters:  
         [0951]    lBasicop: a basic operation the current user is wishing to perform (i.e. Delete)  
         [0952]    vContextData: a variant array holding relevant business objects or other information.  
         [0953]    Example:  
                                                                                                 Select Case lOperation       Case cmIsRelativeOf                IsOperAuthorized =   EvalUserProfileRules(cmView, vContextData)            And _                EvalUserProfileRules(cmAdd, vContextData)            And  —                  EvalUserProfileRules(cmEdit, vContextData)            And  —                  EvalUserProfileRules(cmDelete, vContextData)                      
 
         [0954]    GetUserId ( )  
         [0955]    Returns the login name/user id of the current user.  
         [0956]    Syntax:  
         [0957]    Public Function GetUserId( ) As String  
         [0958]    End Function  
         [0959]    Example:  
         [0960]    Dim sUserId as String  
         [0961]    sUserId = GetUserId  
         [0962]    IsOperAuthorized ( )  
         [0963]    This API references business rules and returns a boolean determining whether the user has security privileges to perform a certain operation.  
         [0964]    Syntax:  
         [0965]    Public Function IsOperAuthorized(vMsg, as variant, nOperation as cmoperations, vContext As Variant) As Boolean  
         [0966]    End Function  
         [0967]    Parameters:  
         [0968]    vMsg: the standard architecture message  
         [0969]    nOperation: an enumeration containing name of operation to be checked.  
         [0970]    vContext: a variant array holding relevant business objects or other information.  
         [0971]    Example:  
         [0972]    Dim bCanIDoThis As Boolean  
         [0973]    bCanIDoThis=objArch.SecurityMan.IsOperAuthorized(vMsg,aOperationName, vContext)  
         [0974]    TlbEditIcon.Enabled=bcanIDoThis  
         [0975]    OverrideUser ( )  
         [0976]    Re-initializes for a different user.  
         [0977]    Syntax:  
         [0978]    Public Sub OverrideUser(Optional sUserId As String, Optional dictRoles As CDictionary, Optional dictSubs As CDictionary)  
         [0979]    End Function  
         [0980]    Parameters:  
         [0981]    sUserId:  
         [0982]    dictRoles:  
         [0983]    dictSubs:  
         [0984]    Example:  
         [0985]    Dim x As New CTechArch  
         [0986]    x.SecurityMan.OverrideUser “Everyone”, New CDictionary, New CDictionary  
       Codes Framework  
     General Requirements  
       [0987]    Separate tables (CodesDecodes) are Created for storing the static values.  
         [0988]    Only the references to codes/decodes are stored in business tables (e.g., Task) which utilize these values. This minimizes the size of the business tables, since storing a Code value takes much less storage space than its corresponding Decode value (e.g., For State, “AL” is stored in each table row instead of the string “Alabama”).  
         [0989]    CodeDecodes are stored locally on the client workstation in a local DBMS. On Application startup, a procedure to ensure the local tables are in sync with the central DBMS is performed.  
       Infrastructure Approach  
       [0990]    The present invention&#39;s Code Decode Infrastructure  600  Approach outlines the method of physically modeling codes tables. The model allows codes to be extended with no impact to the physical data model and/or application and architecture. FIG. 6 shows the physical layout of CodeDecode tables according to one embodiment of the present invention.  
         [0991]    Infrastructure  
         [0992]    The physical model of the CodeDecode infrastructure  600  does the following: Supports relational functionality between CodeDecode objects; Supports extensibility without modification to the DBMS or Application Architecture;  
         [0993]    Provides a consistent approach for accessing all CodeDecode elements; and  
         [0994]    Is easily maintainable.  
         [0995]    These generic tables are able to handle new categories, and modification of relationships without a need to change the DBMS or CodeDecode Application Architecture.  
         [0996]    Benefits of this model are extensibility and maintainability. This model allows for the modifications of code categories without any impact to the DBMS or the Application Architecture code. This model also requires fewer tables to maintain. In addition, only one method is necessary to access CodeDecodes.  
         [0997]    Table Relationships and Field Descriptions:  
         [0998]    (pk) indicates a Primary Key  
         [0999]    Code_Category  602   
         [1000]    C_Category (pk): The category number for a group of codes  
         [1001]    C_Cache (currently not utilized): Can indicate whether the category should be cached in memory on the client machine  
         [1002]    T_Category: A text description of the category (e.g., Application Task Types, Claim Status, Days of Week)  
         [1003]    D_Last_Update: The date any data within the given category was last updated; this field is used in determining whether to update a category or categories on the local data base  
         [1004]    Relationships  
         [1005]    A one-to-many relationship with the table Code (i.e., one category can have multiple codes)  
         [1006]    Code  604   
         [1007]    C_Category (pk): The category number for a group of codes  
         [1008]    C_Code (pk): A brief code identifier (up to ten characters; the current maximum length being used is five characters)  
         [1009]    D_Effective: A date field indicating the code&#39;s effective date  
         [1010]    D_Expiration: A date field indicating the code&#39;s expiration date (the default is Jan. 1, 2999)  
         [1011]    Relationships  
         [1012]    A many-to-one relationship with Code_Category  602  (described above)  
         [1013]    A one-to-many relationship with Code_Relations  606  (a given category-and-code combination can be related to multiple other category-and-code combinations)  
         [1014]    Code_Relations  606   
         [1015]    C_Category1 (pk): The first category  
         [1016]    C_Code1 (pk): The first code  
         [1017]    C_Category2 (pk): The related category  
         [1018]    C_Code2 (pk): The related code  
         [1019]    Relationships  
         [1020]    A many-to-one relationship with the Code table (each category and code in the Code table can have multiple related category-code combinations)  
         [1021]    Code_Decode  608   
         [1022]    C_Category (pk): The category number for a group of codes  
         [1023]    C_Code (pk): A brief code identifier (up to ten characters; the current maximum length being used is five characters)  
         [1024]    N_Lang_ID (pk): A value indicating the local language setting (as defined in a given machine&#39;s Regional Settings). For example, the value for English (United States) is stored as  0409 . Use of this setting allows for the storage and selection of text code descriptions based on the language chosen  
         [1025]    T_Short_Desc: An abbreviated textual description of C_Code  
         [1026]    T_Long_Desc: A full-length textual description of C_Code—what the user will actually see (e.g., Close Supplement—Recovery, File Note, Workers Compensation)  
       Localization Support Approach  
       [1027]    Enabling Localization  
         [1028]    Codes have support for multiple languages. The key to this feature is storing a language identifier along with each CodeDecode value. This Language field makes up a part of the compound key of the Code_Decode table. Each Code API lookup includes a system level call to retrieve the Language system variable. This value is used as part of the call to retrieve the values given the correct language.  
         [1029]    Maintaining Language Localization Setting  
         [1030]    A link to the Language system environment variable to the language keys is stored on each CodeDecode. This value is modified at any time by the user simply by editing the regional settings User Interface available in the Microsoft Windows Control Panel folder.  
       Codes Expiration Approach  
       [1031]    Handling Time Sensitive Codes becomes an issue when filling controls with a list of values. One objective is to only allow the user to view and select appropriate entries. The challenge lies in being able to expire Codes without adversely affecting the application. To achieve this, consideration is given to how each UI will decide which values are appropriate to show to the user given its current mode.  
         [1032]    The three most common UI modes that affect time sensitive codes are Add Mode, View Mode, and Edit Mode.  
         [1033]    Add Mode  
         [1034]    In Add Mode, typically only valid codes are displayed to the user as selection options. Note that the constant, cmValidCodes, is the default and will still work the same even when this optional parameter is omitted.  
         [1035]    Set colStates=objArch.CodesMan.FillControl(frmCurrentForm.cboStates, cmCatStates,  
         [1036]    cmLongDecode, cmValidCodes)  
         [1037]    View Mode  
         [1038]    In View Mode, the user is typically viewing results of historical data without direct ability to edit. Editing selected historical data launches another UI. Given this the controls are filled with valid and expired codes, or in other words, non-pending codes.  
         [1039]    Set colStates = objArch.CodesMan.FillControl(frmCurrentForm.cboStates, cmCatStates,  
         [1040]    cmLongDecode, cmNonPendingCodes)  
         [1041]    Edit Mode  
         [1042]    In Edit Mode, changes are allowed to valid codes but also expired codes are displayed if already assigned to the entity.  
         [1043]    Dim colAssignedCodes As New cCollection  
         [1044]    colAssignedCodes.Add HistoricalAddress.State  
         [1045]    Set colStates=objArch.CodesMan.FillControl(frmCurrentForm.cboStates, cmCatStates,  
         [1046]    cmLongDecode, cmValidCodes, colAssignedCodes)  
       Updating Local CodeDecodes  
       [1047]    The Local CodeDecode tables are kept in sync with central storage of CodeDecodes. The architecture is responsible for making a check to see if there are any new or updated code decodes from the server on a regular basis. The architecture also, upon detection of new or modified CodeDecode categories, returns the associated data, and performs an update to the local database. FIG. 7 is a logic diagram for this process  700 .  
         [1048]    After an API call, a check is made to determine if the Arch is initialized  702 . If it is a check is made to determine if the Freshness Interval has expired  704 . If the Freshness Interval has not expired, the API call is complete  706 . However, if either the Arch is not initialized or the Freshness Interval has expired, then the “LastUpdate” fields for each category are read from the CodeDecode and passed to the server  708 . Then new and updated catagories are read from the database  710 . Finally the Local database is updated  712 .  
       Code Access APIs  
       [1049]    The following are APIs located on the interface of the Arch Object  200  named CodesMan  500 .  
         [1050]    GetCodeObject(nCategory, sCode);  
         [1051]    GetCategoryCodes(nCategory);  
         [1052]    FillControl(ctlControl, nCategory, nFillType, [nCodeStatus], [colAssignedCodes]).  
         [1053]    GetCodeObject:  
         [1054]    Returns a valid CCode object given a specific category and code.  
         [1055]    Syntax:  
         [1056]    GetCodeObject(nCategory, sCode)  
         [1057]    Parameters:  
         [1058]    nCategory: The integer based constant which classified these CodeDecodes from others.  
         [1059]    sCode: A string indicating the Code attribute of the CodeDecode object.  
         [1060]    Example:  
         [1061]    frmCurrentForm.lblstate=objArch.CodesMan.GetCodeObject (cmCatStates, “IL”).LongDecode  
         [1062]    GetCategoryCodes:  
         [1063]    Returns a collection of CCode objects given a valid category  
         [1064]    Syntax:  
         [1065]    GetCategoryCodes(nCategory)  
         [1066]    Parameters:  
         [1067]    nCategory: The integer based constant which classified these CodeDecodes from others.  
         [1068]    Example:  
         [1069]    Dim colMyStates As CCollection  
         [1070]    Set colMyStates=objArch.CodesMan.GetCategory(cmCatStates)  
         [1071]    FillControl:  
         [1072]    This API is used to fill listboxes or comboboxes with values from a list of CodeDecodes. Returns a collection for subsequent lookups to Code objects used to fill controls.  
         [1073]    Syntax:  
         [1074]    FillControl(ctlControl, nCategory, nFillType, [nCodeStatus], [colAssignedCodes])  
         [1075]    Parameters:  
         [1076]    ctlControl: A reference to a passed in listbox or combobox.  
         [1077]    nCategory: The integer based constant which classified these CodeDecodes from others.  
         [1078]    nFillType: The attribute of the CodeDecode which you want to fill. Valid values include:  
         [1079]    cmCode  
         [1080]    cmShortDecode  
         [1081]    cmLongDecode  
         [1082]    nCodeStatus: Optional value which filters the Code Decodes according to their Effective and Expiration dates. Valid constants include the following:  
                                       cmAllCodes   Pending + Valid + Expired Codes       cmPendingCodes   Codes whose effective date is greater than the           current date       cmValidCodes   Not Pending or Expired Codes       cmExpiredCodes   Codes whose expired date is greater than the           current date       cmNonPendingCodes   Valid + Expired Codes       cmNonValidCodes   Pending + Expired Codes       cmNonExpiredCodes   Pending + Valid Codes                  
 
         [1083]    colAssignedCodes: Used when filling a control which should fill and include assigned values.  
         [1084]    Example:  
         [1085]    ‘Declare an instance variable for States collection on object  
         [1086]    Private colStates As CCollection  
         [1087]    ‘Call FillControl API, and set local collection inst var to collection of codes which were used to fill the control. This collection will be used for subsequent lookups.  
         [1088]    Set colStates=objArch.CodesMan.FillControl(frmCurrentForm.cboStates, cmCatStates, cmLongDecode)  
         [1089]    ‘Below shows an example of looking up the Code value for the currently selected state.  
                                                                                           With frmCurrentForm.cboStates                If.ListIndex &gt; −1 Then                Dim objCode As CCode           Set objCode = colStates(.ItemData(.ListIndex))           sStateCode = objCode.Code                End If                End With                      
 
       Relational Codes Access APIs  
       [1090]    Code objects returned via the “GetCodeObject” or “GetCategoryCodes” APIs can have relations to other code objects. This allows for functionality in which codes are associated to other individual code objects.  
         [1091]    The APIs used to retrieve these values are similar to those on the CodesMan interface. The difference, however is that the methods are called on the Codes object rather that the CodesManager interface: Listed below again are the APIs.  
         [1092]    GetCodeObject(nCategory, sCode);  
         [1093]    GetCategoryCodes(nCategory);  
         [1094]    FillControl(ctlControl, nCategory, nFillType, [nCodeStatus], [colAssignedCodes]).  
         [1095]    Given below is some sample code to illustrate how these APIs are also called on Code objects.  
         [1096]    GetCodeObject Example:  
         [1097]    Dim objBondCode As CCode  
         [1098]    Set objBondCode=objArch.CodesMan.GetCodeObject(cmCatLOB, “B”)  
         [1099]    Dim objSuretyCode As CCode  
         [1100]    Set objSuretyCode=objBondCode.GetCodeObject(cmCatSupplement, “B01”)  
         [1101]    GetCategory Example:  
         [1102]    Dim objBondCode As CCode  
         [1103]    Set objBondCode=objArch.CodesMan.GetCodeObject(cmCatLOB, “B”)  
         [1104]    Dim colSupplements As CCollection  
         [1105]    Set colSupplements=objBondCode.GetCategory(cmCatSupplement)  
         [1106]    FillControl Example:  
         [1107]    Dim objBondCode As CCode  
         [1108]    Set objBondCode=objArch.CodesMan.GetCodeObject(cmCatLOB, “B”)  
         [1109]    Dim colSupplements As CCollection  
         [1110]    Set colSupplements=objBondCode.FillControl(frmForm.cboSupplements, cmCatSupplements,  
         [1111]    cmLongDecode)  
       Message Logging  
       [1112]    The message logging architecture allows message logging in a safe and consistent manner. The interface to the message logging component is simple and consistent, allowing message logging on any processing tier. Both error and informational messages are logged to a centralized repository.  
         [1113]    Abstracting the message logging approach allows the implementation to change without breaking existing code.  
       Best Practices  
       [1114]    Messages are always logged by the architecture when an unrecoverable error occurs (i.e., the network goes down) and it is not explicitly handled. Message logging may be used on an as-needed basis to facilitate the diagnosis and fixing of SIRs. This sort of logging is especially useful at points of integration between classes and components. Messages logged for the purpose of debugging have a severity of Informational, so as not to be confused with legitimate error messages.  
       Usage  
       [1115]    A message is logged by calling the LogMessage( ) function on the architecture.  
         [1116]    Description of Parameters:  
         [1117]    vMsg: the standard architecture message  
         [1118]    lSeverity: the severity of the message  
         [1119]    sClassName: the name of the class logging the message  
         [1120]    sMethodName: the name of the method logging the message  
         [1121]    sVersion: the version of the binary file (EXE or DLL) that contains the method logging the message  
         [1122]    lErrorNum: the number of the current error  
         [1123]    sText: an optional parameter containing the text of the message. If omitted, the text will be looked up in a string file or the generic VB error description will be used.  
         [1124]    sText: an optional parameter containing the text of the message. If omitted, the text will be looked up in a string file or the generic VB error description will be used.  
         [1125]    lLoggingOptions: an optional parameter containing a constant specifying where to log the message (i.e., passing cmLogToDBAndEventViewer to LogMessage will log the error to the database and the event viewer.)  
         [1126]    Logging Levels  
         [1127]    Before a message is logged, its severity is compared to the log level of the current machine. If the severity of the message is less than or equal to the log level, then the message is logged.  
         [1128]    Valid values for the log level are defined as an enumeration in VB. They include:  
                                           Value   Name   Description   Example                   0   CmFatal   A critical condition   Application Server               that closes or threatens   crash               the entire system       1   CmSevere   A condition that closes   Network failure               or threatens a major               component of the               entire system       2   CmWarning   A warning that some-   Optimistic locking               thing in the system is   error               wrong but it does not               close or threaten to               close the system       3   CmInformational   Notification of a   Developer debugging               particular occurrence   information               for logging and audit               purposes                  
 
         [1129]    Example  
                                                                             If Err.Number &lt;&gt; 0 Then                ′ log message           Arch.LogMan.LogMessage(vMsg, cmSeverityFatal,            “COrganizationCTLR”, “InitForm”,                GetVersion(), Err.Number, Err.Description)                ′ re-raise the error           Err.Raise Err.Number            End If                  
 
       Database Log  
       [1130]    The database log table is composed of the following fields:  
                                   Field Name   Description                   N_MSG_ID   Unique ID of the message       D_MSG   Date the message occurred       C_ERR_SEV   Severity of the error       N_USER_ID   Name of user when error occurred       N_MACH_ID   Name of the machine that the error occurred on       M_CLASS   Name of the class that the error occurred in       M_METHOD   Name of the method that the error occurred in       N_CMPNT_VER   Version of the binary file that the error occurred in       C_ERR   Number of the error       T_MSG   Text of the message                  
 
       Local Log  
       [1131]    Messages are always logged to the application server&#39;s Event Log; however this is not necessarily true for the database as noted by the optional parameter passed to LogMessage, lLoggingOptions. An administrator with the appropriate access rights can connect to the MTS application server remotely and view its Event Log. Only one MTS package contains the Event Log Component, so that errors will all be written to the same application server Event Log.  
         [1132]    Events logged via Visual Basic always have “VBRuntime” as the source. The Computer field is automatically populated with the name of the computer that is logging the event (i.e., the MTS application server) rather than the computer that generated the event (typically a client computer).  
         [1133]    The same event details that are written to the database are formatted into a readable string and written to the log. The text “The VB Application identified by . . . Logged:” is automatically added by VB; the text that follows contains the details of the message.  
       Data Access  
       [1134]    All but a few exceptional cases use the “ExecuteQuery” API. This API covers singular database operations in which there exists a single input and a single output. Essentially should only exclude certain batch type operations.  
         [1135]    The Data Access Framework serves the purposes of performance, consistency, and maintainability.  
         [1136]    Performance  
         [1137]    The “ExecuteQuery” method incorporates usage patterns for using ADO in an efficient manner. Examples of these patterns include utilization of disconnected recordsets, and explicitly declaring optional parameters which result in the best performance.  
         [1138]    Consistency  
         [1139]    This method provides a common interface for development of data access. Given a simple and stable data access interface, best practices can be developed and disseminated.  
         [1140]    Maintainability  
         [1141]    Since the method is located in a single location, it is very modularized and can be maintained with little impact to its callers.  
         [1142]    Application servers often use the ActiveX Data Objects (ADO) data access interface. This allows for a simplified programming model as well as enabling the embodiments to utilize a variety of data sources.  
       The “ExecuteQuery” Method  
       [1143]    Overview  
         [1144]    The “ExecuteQuery” method should be used for most application SQL calls. This method encapsulates functionality for using ADO in a effective and efficient manner. This API applies to situations in which a single operation needs to be executed which returns a single recordset object.  
         [1145]    Syntax  
         [1146]    Set obj=ExecuteQuery(vMsg, nTranType, SSQL, [nMaxRows], [adoTransConn], [args])  
         [1147]    Parameters  
         [1148]    vMsg  
         [1149]    This parameter is the TechArch struct. This is used as a token for information capture such as performance metrics, error information, and security.  
         [1150]    nTranType  
         [1151]    An application defined constant which indicates which type of operation is being performed. Values for this parameter can be one of the following constants:  
         [1152]    cmSelect  
         [1153]    cmSelectLocal  
         [1154]    cmUpdate  
         [1155]    cmInsert  
         [1156]    cmDelete  
         [1157]    sSQL  
         [1158]    String containing the SQL code to be performed against the DBMS.  
         [1159]    nMaxRows (Optional)  
         [1160]    Integer value which represent the maximum number of records that the recordset of the current query will return.  
         [1161]    adoTransConn (Optional)  
         [1162]    An ADO Connection object. This is created and passed into execute query for operations which require ADO transactional control (see “Using Transactions” section)  
         [1163]    args (Optional)  
         [1164]    A list of parameters to be respectfully inserted into the SQL statement.  
         [1165]    Implementation  
         [1166]    In one embodiment of the present invention the “ExecuteQuery” method resides within the MservArch.bas file. This file should be incorporated into all ServerComponent type projects. This will allow each server component access to this method.  
         [1167]    Note: Since this method is a public method in a “bas” module, it is globally available from anywhere in the project.  
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                   Public Function ExecuteQuery(vMsg As Variant,  —                  nTranType As TranTypes,  —             sSQL As String,  —             Optional nMaxRows As Integer = 0,  —             Optional adoTransConn As ADODB.Connection,  —             Optional colArguments As CCollection) As Variant                On Error GoTo ErrorHandler           Const cmMethodName As String = “ExecuteQuery”           StartTimeLogger vMsg, cmTimerIdDBTotal, cmClassName,           cmMethodName           ′find out if this call is an isolate operation or           ′part of an ADO (not MTS) transaction           Dim isAtomicTrans As Boolean           isAtomicTrans = adoTransConn Is Nothing           Dim nRecordsAffected As Integer           Dim adoRS As New ADODB.Recordset           Dim adoConn As ADODB.Connection           Dim lAuxErrNumber As Long           ′open a new connection or keep using the passed in connection           Set adoConn = IIf(isAtomicTrans, New ADODB.Connection,           adoTransConn)           If isAtomicTrans Then                adoConn.Open cmODBC_Connect           ′ADO will wait indefinitely until the execution is complete            during performance                testing           #If IsPerfTest Then                adoConn.CommandTimeout = 0                #End If                End If           ′Make sure date args are formatted for DB2 if appropriate           If Not colArguments Is Nothing Then  —                  Set colArguments = FormatArgsForDB2(colArguments)                ′merge the passed in arguments with the SQL string           sSQL = MergeSQL(sSQL, colArguments)           Debug.Print Time &amp; “: ” &amp; sSQL           ′execute the SQL statement depending on the transaction type           Select Case CStr(nTranType)                Case cmSelect                adoRS.MaxRecords = nMaxRows           adoRS.CursorLocation = adUseClient           adoRS.Open sSQL, adoConn, adOpenForwardOnly,           adLockReadOnly,            adCmdText                Set adoRS.ActiveConnection = Nothing           Set ExecuteQuery = adoRS                Case cmSelectLocal                adoRS.MaxRecords = nMaxRows           adoRS.CursorLocation = adUseClient           adoRS.Open sSQL, adoConn, adOpenStatic,            adLockBatchOptimistic, adCmdText                Set adoRS.ActiveConnection = Nothing           Set ExecuteQuery = adoRS                Case cmInsert                Set adoRS = adoConn.Execute(sSQL, nRecordsAffected,            adCmdText)                If nRecordsAffected &lt;= 0 Then Err.Raise cmErrQueryInsert           Set adoRS = Nothing                ExecuteQuery = nRecordsAffected                Case cmUpdate, cmDelete                Set adoRS = adoConn.Execute(sSQL, nRecordsAffected,            adCmdText)                If nRecordsAffected &lt;= 0 Then Err.Raise           cmErrOptimisticLock           Set adoRS = Nothing           ExecuteQuery = nRecordsAffected                Case cmSpFileNote                Set adoRS = adoConn.Execute(sSQL, nRecordsAffected,            adCmdText)                Set adoRS = Nothing                Case Else                Err.Raise cmErrInvalidParameters                End Select           StopTimeLogger vMsg, cmTimerIdDBTotal, cmClassName,           cmMethodName           Exit Function            ErrorHandler:                Dim objArch As Object           Set objArch = CreateObject(“cmArch.CTechArch”)           Select Case CStr(Err)                Case cmErrQueryInsert, cmErrOptimisticLock,           cmErrInvalidParameters                ′Raise error           Err.Raise Err                Case cmErrDSNNotFound                Dim sMsgText As String           sMsgText = “Data Source Name not found.” &amp;                vbCrLf &amp; “( ” &amp;  —             CStr(objArch.RegMan.GetServerDSN) &amp; “ )”                ′ Create a new message log and log the message           objArch.LogMan.LogMessage vMsg. cmSeverityFatal,            cmClassName, cmMethodName,                GetVersion(), cmErrDSNNotFound, sMsgText,            cmLogToEventViewerOnly                lAuxErrNumber = adoConn.Errors(0).NativeError ′The            error code is stored since                when closing the            conection it will                be lost                If adoConn.State &lt;&gt; adStateClosed Then adoConn.Close           Err.Raise cmErrDSNNotFound, , sMsgText                Case Else                ′ Create a new message log and log the message           objArch.LogMan.LogMessage vMsg, cmSeverityFatal,            cmClassName, cmMethodName,                GetVersion(), Err.Number, Err.Description,            cmLogToEventViewerOnly                lAuxErrNumber = adoConn.Errors(0).NativeError ′The            error code is stored since                when closing the            conection it will                be lost                If adoConn.State &lt;&gt; adStateClosed Then adoConn.Close           Err.Raise lAuxErrNumber                End Select            End Function                  
 
       Selecting Records  
       [1168]    ExecuteQuery utilizes disconnected recordsets for “Select” type statements. This requires that the clients, particularly the CCA&#39;s contain a reference to ADOR, ActiveX Data Object Recordset. This DLL is a subset of the ADODB DLL. ADOR contains only the recordset object.  
         [1169]    Using disconnected recordsets allows marshalling of recordset objects from sever to client. This performs much more efficiently than the variant array which is associated with using the “GetRows” API on the server. This performance gain is especially apparent when the application server is under load of a large number of concurrent users.  
         [1170]    Sample from Client Component Adapter (CCA)  
                                                                       Dim vAns as Variant           Dim adoRS As ADOR.Recordset           Set adoRS = objServer.PerformSelect(vMsg, nId)           If objRS.EOF Then                Set objRS = Nothing           Exit Function                End If           vAns = adoRS.GetRows           Set adoRS = Nothing           ′Marshall vAns into objects           . . .                      
 
         [1171]    Sample from Server Component  
                                                   Private Const cmCustSQL = “Select * from Customer where id = ?”       Public Function PerformSelect(vMsg, nId) as Variant                Dim colArgs as CCollection           Set colArgs = New Ccollection           colArgs.Add nId           Set PerformSelect = ExecuteQuery(vMSg, cmSelect,           sCustSQL, , ,colArgs)            End Function                  
 
         [1172]    Code Clip from ExecuteQuery (Select Section)  
                                                   Case cmSelect                adoRS.MaxRecords = nMaxRows           adoRS.CursorLocation = adUseClient           adoRS.Open sSQL, adoConn, adOpenForwardOnly,           adLockReadOnly, adCmdText           Set ExecuteQuery = adoRS            . . .                  
 
       Inserting Records  
       [1173]    Inserting records requires certain information pertaining to optimistic locking. On the server a unique value is requested to indicate the last time modified. This unique value is returned back to the requestor such that it can be used to later database operations.  
         [1174]    Sample from Client Component Adapter (CCA)  
         [1175]    Dim vNewTS as Variant  
         [1176]    vNewTS=objServer.PerformInsert(vMsg, nId, sName)  
         [1177]    ‘Set object&#39;s TimeStamp to vNewTS  
         [1178]    Sample from Server Component  
         [1179]    Private Const cmCustInsertSQL=“Insert Customer (nId, Name, LastUpdated) Values(?, ‘?’, ?)” 
         [1180]    Public Function PerformInsert(vMsg, nId, sName) As Variant  
         [1181]    Dim lCurrTS as Long  
         [1182]    lCurrTS=GetTimeStamp  
         [1183]    Dim colArgs as CCollection  
         [1184]    Set colArgs=New Ccollection  
         [1185]    colArgs.Add nId  
         [1186]    colArgs.Add sName  
         [1187]    colArgs.Add lCurrTS  
         [1188]    ExecuteQuery(vMsg, cmInsert, sCustInsertSQL, , , colArgs)  
         [1189]    PerformInsert=lCurrTS  
         [1190]    Code Clip from ExecuteQuery (Insert Section)  
                                   Case cmInsert        Set adoRS = adoConn.Execute(sSQL, nRecordsAffected, adCmdText)        If nRecordsAffected &lt;= 0 Then Err.Raise cmErrQueryInsert        Set adoRS = Nothing        ExecuteQuery = nRecordsAffected                  
 
       Updating Records  
       [1191]    Updating records requires certain information pertaining to optimistic locking. On the server a unique value is requested to indicate the last time modified. Also the last read timestamp is used to validate, during the update, that the record has not been modified since last time read.  
         [1192]    Sample from Client Component Adapter (CCA)  
         [1193]    Dim vNewTS as Variant  
         [1194]    vNewTS=objServer.PerformUpdate(vMsg, 1, ‘Rick’, 8907654)  
         [1195]    ‘Set objects&#39;s TimeStamp to vNewTS  
         [1196]    Sample Code Clip from Server Component  
                                                   Private Const cmCustUpdateSQL =  —         “Update Customer Set Name = ‘?’, LastUpdated = ? ” &amp;  —         “Where Id = ? ” &amp;  —         “And LastUpdated = ? ”       Public Function PerformUpdate(vMsg, nId, sName, lLastTS) As Variant                Dim lCurrTS as Long           lCurrTS = GetTimeStamp           Dim colArgs as CCollection           Set colArgs = New Ccollection           colArgs.Add sName           colArgs.Add lCurrTS           colArgs.Add nId           colArgs.Add lLastTS           PerformUpdate = ExecuteQuery(vMsg, cmUpdate,           sCustUpdateSQL, , , colArgs)           PerformUpdate = lCurrTS            End Function                  
 
         [1197]    Code Clip from ExecuteQuery (Update Section)  
                                   Case cmUpdate        Set adoRS = adoConn.Execute(sSQL, nRecordsAffected, adCmdText)        If nRecordsAffected &lt; 0 Then Err.Raise cmErrOptimisticLock        ExecuteQuery = nRecordsAffected                  
 
       Deleting Records  
       [1198]    In deleting records the last read timestamp is used to validate, during the delete, that the record has not been modified since last time read.  
         [1199]    Sample from Client Component Adapter (CCA)  
         [1200]    Dim vAns as Variant  
         [1201]    vAns=objServer.PerfornDelete(vMsg, nId lLastTS)  
         [1202]    Sample from Server Component  
                                                   Private Const cmCustDeleteSQL =  —         “Delete From Customer ” &amp;  —         “Where Id = ? ” &amp;  —         “And LastUpdated = ? ”       Public Function PerformDelete(vMsg, nId lLastTS) As Variant                Dim colArgs as CCollection           Set colArgs = New Ccollection           colArgs.Add nId           colArgs.Add lLastTS           PerformDelete = ExecuteQuery(vMsg, cmDelete, cmCustDeleteSQL)            Exit Function                  
 
         [1203]    Code Clip from ExecuteQuery (Delete Section)  
                                   Case cmDelete        Set adoRS = adoConn.Execute(sSQL, nRecordsAffected, adCmdText)        If nRecordsAffected &lt; 0 Then Err.Raise cmErrOptimisticLock        ExecuteQuery = nRecordsAffected                  
 
       Database Locking Framework  
       [1204]    Database Locking ensures the integrity of the database in a multi-user environment. Locking prevents the common problem of lost updates from multiple users updating the same record.  
       Solution Options  
       [1205]    Pessimistic Locking  
         [1206]    This policy of locking allows the first user to have full access to the record while following users are denied access or have read only access until the record is unlocked. There are drawbacks to this method of locking. It is a method that is prone to deadlocks on the database as well poor performance when conflicts are encountered.  
         [1207]    Optimistic Locking  
         [1208]    The optimistic approach to record locking is based on the assumption that it is not normal processing for multiple users to both read and update records concurrently. This situation is treated as exceptional processing rather than normal processing. Locks are not actually placed on the database at read time. A timestamp mechanism is used at time of update or delete to ensure that another user has not modified or deleted the record since you last read the record.  
         [1209]    A preferred embodiment of the present invention uses an optimistic locking approach to concurrency control. This ensures database integrity as well as the low overhead associated with this form of locking. Other benefits to this method are increased availability of records to multiple users, and a minimization of database deadlocks.  
         [1210]    Table candidates for concurrency control are identified during the “Data Modeling Exercise”. The only table which is updated concurrently is the Optimistic Locking mechanism. Once these are identified, the following is added to the application.  
         [1211]    Add “N_Last_Updt” field to table in database;  
         [1212]    Error Handling routines on those operations which modify or delete from this table; and  
         [1213]    Display/Notification to user that the error has occurred.  
       Usage  
       [1214]    The chart below describes the roles of the two basic types of components to enable optimistic locking.  
         [1215]    Assumption: The optimistic locking field is of type Date and is named “N_Last_Updt” 
                                                                 Client Components   Server Components                                    Read   Store N_Last_Updt value in the   Retrieve data (Always including N_Last_Updt field).       Access   business object for use in possible   SELECT Id, FirstName, N_Last_Updt           updates or deletes.   FROM Customer               WHERE id = 10;       Inserts   Normal   Dim 1CurrTS As Double               1CurrTS = GetTimeStamp               INSERT INTO Customer (Id, FirstName, N_Last_Updt)                  VALUES (1, “Rick”, 1CurrTS);               Return new timestamp (1CurrTS) as well as new Id       Updates   Pass previously read timestamp to   Dim 1CurrTS As Double           identify whether row was modified.   1CurrTS = GetTimeStamp           This is in addition to a unique identifier           and whatever data needs to be updated.   UPDATE Customer               SET firstName = “Richard”,           Handle exception if record has been       N_Last_Updt = 1CurrTS           previously modified.   WHERE id = 1              Notify user of conflict.   AND LastUpdate = lastReadTimestamp;              Rollback any changes.   If no rows are affected, handle and propagate error back               out to the client.               Return new timestamp (1CurrTS)       Deletes   Pass previously read timestamp to   DELETE Customer           identify whether row was modified.   WHERE id = 1           This is in addition to a unique identifier   AND N_Last_Updt = lastReadTimestamp;           Handle exception if record has been   If no rows are affected, handle and propagate error back           previously modified.   out to the client.              Notify user of conflict.              Rollback any changes.                  
 
       Large Result Set  
       [1216]    When retrieving records from a database, if the search criteria is too broad, the amount of data required to be retrieved from the database and passed across the network will affect user perceived performance. Windows requesting such data will be slow to paint and searches will be slow. The formation of the database queries is made such that a workable amount of data is retrieved. There are a few options for addressing the problems that occur from large result sets. The options are given below in order of preference.  
         [1217]    Redesign the interface/controller to return smaller result sets. By designing the controllers that present the database queries intelligently, the queries that are presented to the database server do not return a result set that is large enough to affect user perceived performance. In essence, the potential to retrieve too many records indicates that the UIs and the controllers have been designed differently. An example of a well designed Search UI is one where the user is required to enter in a minimum search criteria to prevent an excessively large result set.  
         [1218]    Have Scrollable Result Sets. The scrolling retrieval of a large result set is the incremental retrieval of a result subset repeated as many times as the user requests or until the entire result set is obtained. Results are retrieved by the Bounded Query Approach where the first record is determined by a where clause with calculated values.  
       Scrollable Result Set Client Requirements  
       [1219]    Preferred UI  
         [1220]    The preferred displays are as follows:  
         [1221]    Returned results are displayed in a GreenTree List Box;  
         [1222]    An action button with the label More . . . is provided for the user to obtain the remaining results;  
         [1223]    The More button is enabled when the user has performed an initial search and there are still results to be retrieved;  
         [1224]    The More button is disabled when there are no more results to retrieve;  
         [1225]    The List Box and the Action button is contained within a group box to provide a visual association between the button and the List Box.  
       Bounded Query  
       [1226]    Queries that are implemented with the limited result sets are sent to the server. The server implements the executeQuery method to retrieve the recordset as usual. Limited result queries have an order by clause that includes the business required sort order along with a sufficient number of columns to ensure that all rows can be uniquely identified. The recordset is limited by the nMaxRows variable passed from the client incremented to obtain the first row of the next result set. The return from the component is a recordset just the same as with a query that is not limited. The CCA  208  creates the objects and passes these back to the controller  206 . The Controller  206  adds this returned collection of object to its collection of objects (an accumulation of previous results) and while doing so will performs the comparison of the last object to the first object of the next row. The values necessary to discriminate the two rows are added to the variant array that is necessary to pass to the component for the subsequent query.  
         [1227]    The Controller  206  on the client retains the values for nMaxRows, the initial SQL statement, and array of values to discern between the last row of the previous query and the first row of the next query. The mechanism by which the controller  206  is aware that there are more records to retrieve is by checking the number of results is one greater than the max number of rows. To prevent the retrieval of records past the end of file, the controller  206  disables these functions on the UI. For example, a command button More on the UI, used to requested the data, is disabled when the number of objects returned is less than nMaxRows+1.  
       Application Responsibility  
       [1228]    Server  
         [1229]    The Server component is responsible for creating a collection of arguments and appending the SQL statement to add a where clause that will be able to discriminate between the last row of the previous query and the first row of the next.  
         [1230]    CCA  
         [1231]    The CCA  208  processes the recordset into objects as in non limited queries. The CCA  208  forwards the variant array passed from the Controller  206  to identify the limited results.  
         [1232]    Controller  
         [1233]    The controller  206  has the responsibility of disabling the More control when the end of file has been reached. The controller  206  populates the variant array (vKeys) with the values necessary to determine start of next query.  
       Example  
       [1234]    A CCA  208  is coded for a user defined search which has the potential to return a sizable result set. The code example below implements the Bounded Query approach.  
         [1235]    On the Server the developer codes the query as follows:  
                                                                                                                                                                                                                                     Public Function RetrieveBusinessObjects(vMsg As Variant, ByVal sSql As String,       ByVal nMaxRows As Integer, Optional ByVal vKeys As Variant) As Recordset                On Error GoTo ErrorHandler           ′Declare local constants           Const cmMethodName As String = “RetrieveBusinessObjects”           ′Declare local variables           Dim cmClassName As String           Dim colArgs As New CCollection           ′initialize instance variables           cmClassName = “CSRSTestComp”           ′fill argument collection           Set colArgs = ArgumentsForBusinessObject(vKeys , sSQL)           ′increment nMaxRows to obtain row for comparison           nMaxRows = nMaxRows + 1           ′ExecuteQuery                Set RetrieveBusinessObjects = ExecuteQuery(vMsg, cmSelectLocal, sQuery,            nMaxRows, , colArgs)                ′Tell MTS we&#39;re done           GetObjectContext.SetComplete           Exit Function            ErrorHandler:                Select Case Err.Number                Case Else                Dim iResumeCode As Integer           iResumeCode = GeneralErrorHandler(vMsg, cmServer, cmClassName,            cmMethodName)                Select Case iResumeCode                Case cmErrorResume                Resume                Case cmErrorResumeNext                Resume Next                Case cmErrorExit                Exit Function                Case Else                GetObjectContext.SetAbort           Err.Raise Err.Number                End Select                End Select            End Function                  
 
         [1236]    To determine the additional where clause necessary to determine the starting point of the query, the following method is added:  
                                                                                                                                   Private Function ArgumentsForBusinessObject(vKeys As Variant,       sSql As string )       As CCollection                Dim colArgs As Ccollection           Const cmGreaterThanWhereString As String = “ ? &gt; ? ”           Const cmGreaterThanOrEqualWhereString As String =           ” ? &gt;= ? AND ”           ′ initialize local variables           Set colArgs = New Ccollection           sSql = sSql + “WHERE”           With colArgs                If vKeys(0) &lt;&gt; Empty Then                .Add (“N_TASK_TEMPL_ID”)           .Add (vKeys(0))                End If           ′If vKeys(1) &lt;&gt; Nothing Then                ′.Add value2 fieldName           ′.add vKeys(1)           sSql = sSql + cmGreaterThanOrEqualWhereString                ′End If           ′If vKeys(2) &lt;&gt; Nothing Then                ′.Add value3 fieldName           ′.add vKeys(2)           sSql = sSql + cmGreaterThanOrEqualWhereString                ′End If                End With           ′finalize SQL statement           sSql = sSql + cmGreaterThanWhereString           Set ArgumentsForBusinessObject = colArgs            End Function                  
 
         [1237]    On the CCA  208 , allowance must be made for the passing of the vKeys  
         [1238]    Public Function RetrieveBusinessObjects(vMsg As Variant, sSql As String, nMaxRows As Integer, Optional ByVal vKeys As Variant) As CCollection  
                                                                                             Set percmpComponent = New CSRSTestComp           Dim i As Integer           Set adoRS = percmpComponent.RetrieveBusinessObjects(vMsg,            sSql, nMaxRows, vKeys)                ′convert recordset to business objects           adoRS.MoveFirst           Do Until adoRS.EOF                Call ConvertToBusinessObject           adoRS.MoveNext                Loop           ′return the collection of business objects           Set RetrieveBusinessObjects = dictBusinessObject           Set dictBusinessObject = New CCollection            End Function                  
 
         [1239]    The controller initiates the query and updates the variant array of keys and form  204  properties based on the return. In addition to the code shown for the example below, the More Control is enabled if the search is cleared.  
         [1240]    ‘declare instance variables  
         [1241]    Private nMaxRows As Integer  
         [1242]    Dim interimResults As CCollection  
         [1243]    Dim vResults As CCollection  
         [1244]    Dim vKeys(3) As Variant  
         [1245]    ‘declare Constants  
         [1246]    Private Const nDefaultAmount As Long =50  
         [1247]    Private Const cmRetrieveBusinessObjectSQL =“SELECT * FROM NODE_RULE ORDER BY_N_TASK_TEMPL_ID” 
         [1248]    During class initialization perform the following:  
                                                                   Public Sub Class_init()                ′obtain settings from registry           nMaxRows = CInt(GetSetting(cmRegApp, cmRegArchSection,            cmLimitedResultAmountKey, lDefaultAmount))                Call resetSearch           Set objCCA = New {CCA class name}            End Sub                  
 
         [1249]    Search reset functionality is kept outside of initialization so this may be called from other parts of the application.  
                                                                                                                                                         Public Sub resetSearch()                Dim I as Integer                Set vResults = New Ccollection           For I = 0 To 3                Set vKeys(I) = Empty                Next            Set vKeys(0) = Empty                frmCurrentForm.cmdMore.Enabled = True            End Sub       Public Sub RetrieveBusinessObjects()                Const cmMethodName As String = “retrieveBusinessObjects”           Call RetainMouse           ′ get arch message           Dim vMsg As Variant           vMsg = objApp.objArch.AsMsgStruct()           ′ call the component           Dim pair As CArchPair           ′Declare local variables           Dim sSql As String           Dim colArgs As CCollection           Dim cmClassName As String                Set interimResults = objCCA.RetrieveBusinessObjects(vMsg,            cmRetrieveBusinessObjectSQL, nMaxRows, vKeys)                ctr = ProcessObjectCollection           ′stop if size of return is less than the maximum                If ctr &lt; nMaxRows + 1           Then frmCurrentForm.cmdMore.Enabled = False           ′ restore pointer           Screen.MousePointer = lPrevPtr                End Sub                      
 
         [1250]    In order to retain the values to discriminate between the last row of the result set and the first row of the next the following method on the controller is used:  
         [1251]    Private Function ProcessObjectCollection( ) As Integer  
                                                                                                                                                                                           ′ merge results with the instance variable for the collection                Dim ctr As Integer                ctr = 0                For Each element In interimResults                ctr = ctr + 1           ′retain Keys for subsequent Queries           With element           Select Case ctr                Case nMaxRows                ′store all values that may be used for row comparison           vKeys(0) = .NodeId           ′add last object to collection           vResults.Add element                Case nMaxRows + 1                ′last object only used for comparison           ′If the proceeding value can be used to uniquely           ′identify row then delete value from array           ′ THERE SHOULD BE N − 1 nested If statements            where N = size of vKeys       ′If .value2 &lt;&gt; vKeys(1) Then                ′vKeys(2) = Empty           If .NodeId &lt;&gt; vKeys(0) Then vKeys(1) = Empty                ′End If                Case Else                vResults.Add element                End Select           End With                Next           ProcessObjectCollection = ctr            End Function                  
 
       Operation of Example With Data  
       [1252]    [1252]                                                                           Person                First Name   Last Name   Status   Unique ID                            Joy   Andersen   Closed   22           Jay   Anderson   Open   12           John   Barleycorn   Closed   512           John   Barleycorn   Open   32           Esther   Davidson   Open   88           David   Dyson   Closed   98           Bobby   Halford   Open   234           Steven   Jackowski   Closed   4           Kyle   Johnsen   Open   65           Jeff   Johansen   Open   13           Mary   Johnson   Closed   24           Larry   Olsen   Open   21           William   O&#39;Neil   Closed   29           Jane   Pick   Open   3285                        
         [1253]    For this example let nMaxRows=3. The business case calls for the result set to be ordered by the last name, and developer knows that any row can be uniquely identified by the FirstName, LastName, and Unique ID fields so the initial SQL added as a constant in the controller should be;  
         [1254]    SELECT * FROM Person ORDER BY LastName, FirstName, Unique_ID  
         [1255]    Initial Query  
         [1256]    The first query is sent with an empty vKeys Array. When the server receives this query, the method ArgumentsForBusinessObject identifies the elements as being empty and does not populate the colArgs. The query is executed with the intial SQL unchanged. The recordset of size nMaxRows+1 is returned to the CCA  208  and processed the same as non-limited results. The CCA  208  returns the collection of objects to the controller  206 . The controller  206  proceeds to populate the vResults collection with the returned objects. vResults is the comprehensive collection of objects returned. When the last object of the first request is reached (at nMaxRows), the values are stored in vKeys as such;  
         [1257]    vKeys(0)=LastName (Barleycorn)  
         [1258]    vKeys(1)=FirstName (John)  
         [1259]    vKeys(2)=Unique_ID (512)  
         [1260]    When the First Object of the next request is reached (at nMaxRows +1), comparison of the object variables against the vKeys values is performed. Because the last names match, vKeys(2) will not be deleted and no further checks are performed.  
         [1261]    Subsequent Query  
         [1262]    The subsequent query will pass vKeys along with it. The server creates the collection of arguments from vKeys and append the sSql string in accordance. The sSql statement that is passed to execute query is  
         [1263]    SELECT * FROM Person ORDER BY LastName, FirstName, Unique_ID WHERE ? &gt;= ? AND ? &gt;= ? AND ? &gt; ? 
         [1264]    This sSql and collection is included in the call to ExecuteQuery which merges the arguments with the string relying on the architecture method MergeSQL to complete the SQL statement.  
         [1265]    The starting point of the recordset is defined by the WHERE clause and the limit is set by the nMaxRows value.  
         [1266]    Query Less Restrictive WHERE Criteria  
         [1267]    After the second query the last row of the query is David Dyson and the next is Bobby Halford. Because the last name is different, vKeys will be empty except for vKeys(0)=Dyson.  
         [1268]    The ProcessObjectCollection will populate vKeys as follows when processing nMaxRows object:  
         [1269]    vKeys(0)=LastName (Dyson)  
         [1270]    vKeys(1)=FirstName (David)  
         [1271]    vKeys(2)=Unique_ID (98)  
         [1272]    After identifying the differences between vKeys values and the nMaxRows+1 object the vKeys array is updated as follows:  
         [1273]    vKeys(0)=LastName (Dyson)  
         [1274]    vKeys(1)=Empty  
         [1275]    vKeys(2)=Empty  
         [1276]    The query that is returned from ArgumentsForBusinessObject is  
         [1277]    SELECT * FROM Person ORDER BY LastName, FirstName, Unique_ID WHERE ? &gt; ? 
         [1278]    and the colArgs possessing the fieldname FirstName and the value (“David”). ExecuteQuery merges the arguments with the sql statement as before and returns the value.  
         [1279]    Ending  
         [1280]    After the fifth iteration the result set will only possess 2 records. When the controller  206  processes the returned collection the counter returned from ProcessObjectCollection is less than nMaxRows+1 which indicates that all records have been retrieved.  
       Security Framework  
       [1281]    Implementation  
         [1282]    [1282]FIG. 8 shows a representation of the Security Framework  800  and its main components.  
         [1283]    It can be seen from FIG. 8 that the Security object  802  is present at the Client and a Security API is provided at the server. The Security object  802  provides one method responsible for authorizing any operation, being given the vMsg structure, an operation ID and an optional parameter describing the operation&#39;s context.  
         [1284]    Client  
         [1285]    User Authentication:  
         [1286]    User authentication is handled via a method located in the Security object  802  called IsOperAuthorized. As the Application object loads, it calls the IsOperAuthorized method, with the operation being “Login”, before executing further processing. This method subsequently calls a authentication DLL, which is responsible for identifying the user as an authorized user within the Corporate Security.  
         [1287]    UI Controllers:  
         [1288]    The UI Controllers limit access to their functions by restricting access to specific widgets through enabling and disabling them. The logic for the enabling and disabling of widgets remains on the UI Controller  206 , but the logic to determine whether a user has access to a specific functionality is located in the Security object  802  in the form of business rules. The UI Controller  206  calls the IsOperAuthorized method in order to set the state of its widgets.  
         [1289]    Server  
         [1290]    Server security is implemented by restricting access to the data in three different ways:  
         [1291]    Server Security Method  
         [1292]    Server Components  222  call the IsOperAuthorized API in the Architecture before executing every operation. In all cases the Security object  802  returns a boolean, according to the user&#39;s access rights and the business rules  
         [1293]    SQL Filtering  
         [1294]    Includes security attributes, like claim sensitiveness or public/private file note, into the SQL statements when selecting or updating rows. This efficiently restricts the resulting data set, and avoids the return of restricted data to the client.  
       Description  
       [1295]    Any GUI related security is implemented at the Client using the Security object  802 . The information is available both at the Client Profile and Business Objects  207  which enables the security rules to be properly evaluated.  
         [1296]    IsOperAuthorized is called to set widgets upon the loading of a UI or if there is a change of state within the UI.  
         [1297]    User authentication always is used by the Application Objects  202  in order to validate user privilege to launch the application.  
         [1298]    SQL Filtering is used in the cases where sensitive data must not even be available at the Client, or where there is a great advantage on reducing the size of the data set returned to the Client.  
         [1299]    SQL Filtering is only used in very rare cases where performance is a serious concern. It is used carefully in order to avoid increased complexity and performance impacts because some queries can be cumbersome and embedding security on them could increase complexity even more.  
       Security Framework  
       [1300]    Overview  
         [1301]    The Security object  802  serves the purpose of holding hard coded business rules to grant or deny user access for various application functions. This information is returned to the UI controllers  206  which make the necessary modifications on the UI state. The ClientProfile object serves the purpose of caching user specific (and static) security information directly on the client. This information is necessary to evaluate the business rules at the Security object  802 .  
       Relationships  
       [1302]    [1302]FIG. 9 shows the relationships between the security element and other elements.  
         [1303]    Architecture Object  
         [1304]    The TechArch object is responsible for providing access and maintaining the state of the ClientProfile  902  and Security objects  802 . The ClientProfile object  902  is instantiated and destroyed in the TechArch&#39;s initialization and terminate methods, respectively. This object is maintained through an instance variable on the TechArch object.  
         [1305]    CInitCompCCA  
         [1306]    The CInitCompCCA object  904  provides two services to the architecture object  200 , it serves as an access point to the CInitComp Server  906 , and it Marshalls the query result set into a ClientProfile object  902 .  
         [1307]    CInitComp  
         [1308]    The CInitComp server object  906  provides data access to the data that resides in the organization tables  908 . This data is useful on the client to determine level of access to data based on hard coded business rules.  
         [1309]    Organization Tables  
         [1310]    The Organization tables  908  contain user, employee and unit information necessary to build the hierarchy of information necessary to determine level of access to sensitive information.  
         [1311]    Client Profile  
         [1312]    The ClientProfile object  902  serves the purpose of caching static, user specific security information directly on the client. This information is necessary to determine data access level of information to the user, which is accomplished by passing the necessary values to the Security object  802 .  
         [1313]    Security Object  
         [1314]    The Security Object  802  contains business rules used to determine a user&#39;s access privileges in relation to specific functions. The object accepts certain parameters passed in by the various UI Controllers  206  and passes them to through the business rule logic which, in turn, interrogates the Client Profile object  902  for specific user information.  
       Client Profile  
       [1315]    Attributes  
         [1316]    The following are internal attributes for the Client Profile object  902 . These attributes are not exposed to the application and should only be used by the Security object  802 :  
         [1317]    sProfile:  
         [1318]    This attribute is passed by the legacy application at start-up and contains the user&#39;s TSIds, External Indicator, Count of Group Elements and Group Elements. It is marshalled into these attributes by request of the application objects.  
         [1319]    colSpecialUsers:  
         [1320]    This attribute caches information from a table containing special users which do not fit into one of the described roles, such as Organization Librarian. (e.g., Vice President or CEO of the corporation.)  
         [1321]    sTSId:  
         [1322]    This is the current users&#39; TSId, and it corresponds to his/her Windows NT Id. It is used to get information about the current logged on user from the Organizational Tables  908 .  
         [1323]    sEmployeeId:  
         [1324]    This corresponds to the user&#39;s employee Id, as stored in the Organizational tables  908 . It is used against the passed in employee Id, in order to check relationship between performers and the current user.  
         [1325]    sEmployeeName, sEmployeeFirst, sEmployeeMI and sEmployeeLast:  
         [1326]    All these attributes correspond to the current user&#39;s name.  
         [1327]    dictClientPrivileges:  
         [1328]    This attribute contains a collection of identifiers that indicate what role/authority an individual plays/possesses. This value is used to identify the static role of the logged in user.  
         [1329]    These values are used for security business logic which grants or denies access based on whether the user is internal or external, or whether the user is in a given administrative role. Existing values are the following:  
         [1330]    SC—Indicates sensitive Claim authority  
         [1331]    CC—Indicates Change Claim status authority  
         [1332]    MT—Indicates maintain F&amp;C Templates authority  
         [1333]    MO—Indicates maintain Organization authority  
         [1334]    MR—Indicates maintain Roles authority  
         [1335]    The following are the proposed additions:  
         [1336]    TA—Indicates authority to execute Task Assistant  
         [1337]    FN—Indicates authority to execute FileNotes  
         [1338]    CH—Indicates authority to execute Claim History  
         [1339]    TL—Indicates authority to maintain Task Templates  
         [1340]    dictProxyList:  
         [1341]    This attribute contains an employees&#39; reporting hierarchy. It is used to determine whether the current user/employee has permission to perform some action based on his/her relationship to other users/employees within their hierarchy. A business example of this is the case of a supervisor, who has rights to view information that his/her subordinates have access to. The relationship API&#39;s make use of dictProxyList to determine if the user assigned to the information is super or subordinate of the current user.  
         [1342]    boolInternal:  
         [1343]    This attribute indicates whether the logged in user is external or internal. It is also marshalled from the sProfile attribute, passed in by the legacy application.  
         [1344]    Public Methods  
         [1345]    The following are the APIs exposed by the Client Profile object. These APIs are used for security checking by the Security object and should not be used by the developers in any portion of the application.  
         [1346]    GetAuthorizedEmployees As Collection  
         [1347]    This function returns a collection of employee Ids from the employees supervised by the current user.  
         [1348]    IsSuperOf(sUserld) As Boolean  
         [1349]    This API returns true if the logged in user is a super of the passed in user Id. It looks up the sUserId value inside the dictProxyList attribute.  
         [1350]    IsRelativeOf(sUserId) As Boolean  
         [1351]    This API returns true if the passed in user Id corresponds to either the logged in user or someone from the dictProxyList.  
         [1352]    IsInternal As Boolean  
         [1353]    This API is used to grant or restrict the user to information based on whether the data is private to the organization whether the user is internal or external.  
         [1354]    IsInRole(sRole) As Boolean  
         [1355]    This API looks up the appropriate sRole value contained within the dictClientRoles attribute to determine whether the current user is authorized to perform that role.  
         [1356]    The following accessors are used to get data from the Client Profile&#39;s object:  
         [1357]    UserId: returns sTSId  
         [1358]    EmployeeId: return sEmployeeId  
         [1359]    EmployeeName: returns sEmployeeName  
         [1360]    EmployeeFirstName: returns sEmployeeFirst  
         [1361]    EmployeeLastName: returns sEmployeeLast  
         [1362]    EmployeeMiddleInitial: returns sEmployeeMI  
         [1363]    ExpandTree: returns boolExpandTreePreference  
         [1364]    TemplatePathPreference: returns sTemplatePathPreference  
       Security Object  
       [1365]    Public Methods  
         [1366]    The following API is exposed by the Security Object and is used by the application for security checking:  
         [1367]    IsOperAuthorized(vMsg As Variant, nOperations As cmOperations, vContext As Variant) as Boolean  
         [1368]    This API will return true or false depending on what is returned from the business rule functions to determine user access levels. This API is called on two situations:  
         [1369]    1. When setting the initial state before loading the form. If a security requirement exists, IsOperAuthorized is called for the appropriate operation.  
         [1370]    2. After any relevant change on the UI state. For example, when a sensitive claim is highlighted on the Task Assistant window. A relevant change is one which brings the need for a security check.  
         [1371]    The valid values for the enumeration and the correspondent context data are:  
         [1372]    cmMaintainFormsCorr (none)  
         [1373]    cmRunEventProcessor (none)  
         [1374]    cmWorkOnSensitiveClaim (a Claim object)  
         [1375]    cmMaintainPersonalProfile (none)  
         [1376]    cmMaintainWorkplan (none)  
         [1377]    cmDeleteFileNote (a File Note object)  
         [1378]    cmMaintainTaskLIbrary (none)  
         [1379]    cmMaintainOrg (none)  
       Server Security APIs  
       [1380]    IsSVCOperAuthorized(vMsg As Variant, sOperations As String, vContext As Variant) as Boolean  
         [1381]    This API is called by every method on the server that persists data or can potentially access sensitive data (reactive approach).  
         [1382]    IsOperAuthorized(vMsg As Variant, nOperations As cmOperations, vContext As Variant) as Boolean  
         [1383]    This API is available for those cases where a proactive security check is needed on the server.  
       Implementation Examples  
       [1384]    The following examples show some ways to implement the options described above:  
         [1385]    Client  
         [1386]    Business Logic  
         [1387]    IsOperAuthorized  
         [1388]    Let&#39;s consider the case of the Task Assistant window, where the user should not be allowed to view any information on a sensitive claim if he/she is not the claim performer or the performer&#39;s supervisor. The following code would be at the Controller:  
                                                                                                           Private Sub TaskTree_NodeChanged(....)                myController.SetCurrentTask           myController.SetState                End Sub           Private Sub SetState()                Dim objSecurity as Object           Dim vContext(1) as Object           Set objSecurity = taaApp.taoArch.objSecurity           vContext(0) = CurrentClaim           vContext(1) = CurrentTask           tlbEditIcon.Enabled =                objSecurity.IsOperAuthorized(vMsg,            cmWorkOnSensitiveClaim, vContext)                End Sub                      
 
         [1389]    Let&#39;s consider the case of the Maintain Correspondence Search window where only a user who is a Forms and Correspondence Librarian should be allowed to delete a template. The following code would be at the Controller:  
                                                   Private Sub SetWindowMode()                Dim objSecurity as Object           Set objSecurity = taaApp.taoArch.objSecurity           . . .           tlbEditIcon.Enabled = objSecurity.IsOperAuthorized(vMsg,            cmMaintainFormsCorr)       End Sub                  
 
         [1390]    Server  
         [1391]    SQL Filtering:  
         [1392]    Let&#39;s consider the example of the Draft File Note window, where a user can only look at the draft file notes on which he/she is the author. At the controller, one would have:  
                                                   Public Sub GetDraftFNotes()                Dim objCP as Object           Set objCP = taoArch.objClientProfile           Dim fntCCA as Object           Set fntCCA = taaApp.taoArch.GetCCA(cmCCAFileNote)           Call fntCCA.GetADraftFNote(vMsg, objCP.sOrgUserId,           colFNotes)            End Sub                  
 
         [1393]    And at the Component, the SQL statement would be:  
                                                             Select nFNoteId,                sFNoteAuthor,           dFNoteFinal,           :           :           From File Note           Where sFileNoteSts = ‘D’           And sFNoteAuthor = sAuthor                      
 
       Task Engine Application  
       [1394]    This application runs on the server as a background process or service with no direct interaction with Client applications, so it doesn&#39;t need any GUI related security. Basically, its main actions are limited to the generation of new tasks in response to externally generated events or, more specifically, it:  
         [1395]    Reads static information from the Task Template tables;  
         [1396]    Reads events from the Event tables;  
         [1397]    Inserts tasks on the Task table.  
         [1398]    In this sense, its security is totally dependent on external entities as described below:  
         [1399]    The Task Library application is the entrance point for any changes on the Task Template database tables. It will make use of the options described above in order to fulfill its security requirements.  
         [1400]    Events are generated from legacy applications, so the Task Engine relies completely on the security implemented for these applications in order to control the generation of events.  
         [1401]    Another level of security for event generation relies on the Database authorization and authentication functions. Only authorized components have access to the database tables (this is valid for all the other applications as well).  
       Claim Folder  
       [1402]    Definition  
         [1403]    The Claim Folder manages claim information from first notice through closing and archiving. It does this by providing a structured and easy to use interface that supports multiple business processes for handling claims. The information that it captures is fed to many other components that allow claims professionals to make use of enabling applications that reduce their workload. Because physical claim files are still required, the claim folder provides capabilities that support physical file tracking. It works with the LEGACY system to support all the capabilities that exist within the current system.  
         [1404]    The primary processes supported by the Claim Folder are:  
         [1405]    First Notice of Loss  
         [1406]    The Claim Folder is the primary entry point for new loss information. Claim files exist in the Claim Folder before they are “pushed” to the LEGACY system to perform financial processing.  
         [1407]    Claim Inquiry  
         [1408]    Claim Folder supports internal and external inquires for claim information. The folder design allows quick access to various levels of information within the claim for many different reasons.  
         [1409]    Initiation of Claim Handling  
         [1410]    The Claim Folder provides initial loss information to the claim professional so they may begin the process of making first contacts with appropriate participants in the claim. It allows them to view and enter data received through their initial contacts and investigation.  
         [1411]    Investigation and Evaluation  
         [1412]    The Claim Folder provides access to detailed information needed for the investigation and evaluation process. It allows the claim handler to navigate between all the applications and information they need to support these processes.  
         [1413]    Identifying Claim Events  
         [1414]    The Claim Folder identifies critical events that occur in the life of a claim, such as a change of status, which can trigger responses in other components to perform automated functions, like triggering tasks in the Task Assistant.  
         [1415]    Managing the Physical File  
         [1416]    The Claim Folder supports better tracking capabilities for the physical files that go along with the electronic record of a claim.  
         [1417]    Value  
         [1418]    By capturing detailed information on claims, the Claim Folder tries to improve the efficiency of claim professionals in many ways. First, because the information is organized in a logical, easy to use format, there is less digging required to find basic information to support any number of inquiries. Second, the Claim Folder uses its information to support other applications like Forms and Correspondence, so that claim information does not have to be reentered every time it is needed. Third, it provides better ways to find physical files to reduce the time required finding and working with them. Beyond this, there are many other potential uses of claim folder information.  
         [1419]    The Claim Folder also tries to overcome some of the current processing requirements that the LEGACY system imposes such as recording losses without claims, requiring policy numbers for claim set-up, requiring reserves for lines, and other restrictions. This will reduce some of the low-value added work required to feed the LEGACY system.  
         [1420]    Finally, the Claim Folder organizes and coordinates information on participants and performers so that all people involved in a claim can be identified quickly and easily.  
         [1421]    Key Users  
         [1422]    Although claim professionals are the primary users of the Claim Folder, any claims professional can utilize the Claim Folder to learn about a claim or answer an inquiry about a claim.  
         [1423]    Component Functionality  
         [1424]    Because the Claim Folder is the primary entry point for new claims, it needs to capture information necessary to set-up new claims and be able to pass the information to the LEGACY system. Once the information is passed, the LEGACY system owns all information contained in both systems, and it is uneditable in the Claim Folder. However, the Claim Folder has more information than what is contained in the LEGACY system, and therefore allows certain information to be entered and modified once the claim is pushed to the LEGACY system.  
         [1425]    The Claim Folder decomposes a claim into different levels that reflect the policy, the insured, the claim, the claimants, and the claimant&#39;s lines. Each level has a structured set of information that applies to it. For example, the claim level of the claim has information on the claim status, line of business, and performers. An individual line has information which includes the line type, jurisdiction, and property or vehicle damages. The claimant level contains contact information as well as injury descriptions.  
         [1426]    The information at each level is grouped into sections for organization purposes. Each level has a details section that includes the basic information about the level.  
         [1427]    The key levels on the Claim Folder and their information sections are:  
         [1428]    The Policy Level: Details and Covered Auto for auto claims, Covered Property for property claims and Covered Yacht for marine claims.  
         [1429]    The Claim Level: Details, Facts of Loss, Events, Liability. Liability is considered part of the Negotiation component and described there.  
         [1430]    The Participant Level: Details and Contact Information. For claimants, additional sections are shown to display, Events, Injury and Disability Management. The participant level is discussed in the Participant Component.  
         [1431]    The Line Level: Details, Damaged Vehicle for vehicle lines, Damaged Property for property lines, Damaged Yacht for marine lines, Events, Damages, and Negotiation. Damages and Negotiation are considered part of the Negotiation component and described there.  
         [1432]    Events are triggered in the Claim Folder by performing certain actions like changing a jurisdiction, identifying an injury, or closing a line. Other general events are triggered in the Event Section on most levels by clicking the one that has occurred. These events are processed by the Event Processor and could generate any number of responses. In one embodiment of the present invention, the primary response is to trigger new tasks in the Task Assistant for a claim.  
         [1433]    User Interfaces  
         [1434]    Claim Folder UI  
         [1435]    Policy Level—Policy Details Tab  
         [1436]    Policy Level—Covered Vehicle Tab  
         [1437]    Policy Level—Covered Property Tab  
         [1438]    Policy Level—Covered Yacht Tab  
         [1439]    Claim level—Claim Details Tab  
         [1440]    Claim level—Facts of Loss Tab  
         [1441]    Claim level—Events Tab  
         [1442]    Claim level—Liability Tab  
         [1443]    Line level—Line Details Tab  
         [1444]    Line level—Damaged Property Tab  
         [1445]    Line level—Damaged Auto Tab  
         [1446]    Line level—Damaged Yacht Tab  
         [1447]    Line level—Events Tab  
         [1448]    Line level—Damages Tab  
         [1449]    Line level—Negotiation Tab  
         [1450]    Task Assistant  
         [1451]    File Notes  
         [1452]    Claim History  
         [1453]    Search Task Template  
         [1454]    Search for Correspondence  
         [1455]    Find claims  
         [1456]    Version 7  
         [1457]    View File Folder  
         [1458]    Print Label  
       Claim Folder Tree and Menu Design  
       [1459]    Claim Tree  
         [1460]    The claim tree in the Claim Folder window decomposes the claim into policy, insured, claim, claimant, and line levels depending on the specific composition of the claim.  
         [1461]    The policy level is always the first node in the claim tree and is identified by the policy number. Before the policy number is entered, the field is listed as “Unknown”. If a claim is uncoded, the field is listed as “Uncoded”. Selecting the policy level brings up the policy level tabs in the body of the Claim Folder.  
         [1462]    The insured level is always the second node in the claim tree and is identified by the insured&#39;s name. Before the insured is identified, the field is listed as “Unknown”. Selecting the insured level brings up the insured participant tabs in the body of the claim folder. Only one insured is listed at this level as identified in the policy level tabs, however, multiple insureds can still be added. Additional insureds are shown in the participant list below the claim tree.  
         [1463]    The claim level is always the third node in the claim tree and is identified by the claim number. When the claim level is selected, the claim level tabs appears in the body of the Claim Folder.  
         [1464]    After the claim level, all claimants are listed with their associated lines in a hierarchy format. When a claimant is added, a node is added to the tree, and the field identifying the claimant is listed as “Unknown”. Once a participant has been identified, partial or client, the name of the claimant is listed on the level.  
         [1465]    When the level is selected, the participant level tabs for the claimant is shown in the body of the claim folder.  
         [1466]    Line levels are identified by their line type. Before a line type is selected, the line level is listed as “Unknown”. When a line level is selected, the line level tabs for the specific line are shown in the body of the claim folder.  
         [1467]    There are several things that can alter the claim tree once it has been set up. First, if a claimant or line is deleted, it is removed from the claim tree. A claim that is marked in error does not change the appearance of the levels. Second, the claim, claimant, and line levels are identified by different icons depending on whether they are pushed to V7 or not. Third, when a line or claimant is offset, it is identified as such.  
         [1468]    Participant List  
         [1469]    The participant list box contains all the non-claimant and non-insured participants on the claim. (claimants and insureds are shown in the claim tree and not repeated here.) Participants are shown with their name and role. When a participant is selected, the participant level tabs are displayed in the claim folder.  
         [1470]    Claim Folder Menu Items  
         [1471]    The claim folder menus contain the actions that a user would need to perform within the claim folder. They can all be accessed through keyboard selection. The menu options become enabled or disabled based on the state of the Claim Folder. The Claim Folder can be in view mode or edit mode for a specific level in the Claim Tree. When the Claim Folder is in edit mode, most options are disabled until the user saves their changes and is returned to view mode. The enabling/disabling of menu options is also dependent on whether the claim or portions of the claim have been pushed to V7.  
         [1472]    Claim Folder Tool Bar  
         [1473]    The tool bar represents common action that a user performs that can be easily accessed by clicking the appropriate icon. There are five groups of button on the Claim Folder tool bar that represent, in order, common activities, adding new items to a claim, launching utilities, performing V7 activities, and accessing help functions. The enabling/disabling of tool bar buttons follows the same logic as for menu items.  
         [1474]    Window Description  
                                                       Default       Control Name   Type   Description   Value/State                   Claim Tree   Tree   The Claim Tree lists the   The current claim           View   policy, insured, all of   tree structure for               the claimants and their   the selected               related lines in a claim   claim. The claim               tree format.   level is selected                   and the claim                   level tabs are                   displayed.       Participant List   List   A list of all non-insured   All participants           View   and non-claimant   who are not               participants associated   claimants or               with a claim.   insureds for the                   claim and their                   roles       Edit Tool Bar   Command   Changes the tabs for the   Enabled when       Button   Button   level selected in the   claim is in view               claim tree or participant   mode.               list view to edit mode.       Refresh Tool   Command   Refreshes the current   Enabled when       Bar Button   Button   claim, including all   claim is in view               Participant and Line   mode.               information.       Find Tool Bar   Command   Opens the Claim Search   Enabled       Button   Button   window to allow the               user to search for               another claim       Claim Alloca-   Command   Opens the Claim   Enabled when       tion Tool Bar   Button   Allocation window,   claim is in view       Button           mode.       Manage   Command   Opens the Manage   Enabled when       Physical File   Button   Physical File window,   claim is in view       Tool Bar           mode.       Button       Declare Event   Command   Opens the Declare   Enabled when       Tool Bar   Button   Events window,   claim is in view       Button           mode.       Claimant Tool   Command   Adds claimant and   Enabled when       Bar Button   Button   opens Participant tabs in   claim is in view               edit mode for entry of a   mode. V7 limit               new claimant level node   for claimants is                   999, we will not                   edit this here.       Participant   Command   Adds a new participant   Enabled when       Tool Bar   Button   and opens Participant   claim is in view       Button       tabs in edit mode.   mode.       Line Tool Bar   Command   Adds line and opens   Enabled when       Button   Button   Line tabs in edit mode   claim is in view               for entry of a new line   mode and               level node.   claimant context                   selected in claim                   tree. V7 limit for                   lines is 15 per                   claimant, this                   button will be                   disabled after 15                   added.       Assign   Command   Opens Assign Performer   Enabled when       Performer Tool   Button   window   claim is in view       Bar Button           mode.       Print Screen   Command   Prints the current claim   Enabled       Tool Bar   Button   folder window.       Button       Task Assistant   Command   Launches Task Assistant   Enabled when       Tool Bar   Button   for the current claim   claim in view       Button           mode.       File Notes Tool   Command   Launch File Notes for   Enabled when       Bar Button   Button   the current claim   claim in view                   mode.       Claim History   Command   Launch Claim History   Enabled when       Tool Bar   Button   for the current claim   claim in view       Button           mode.       Correspon-   Command   Opens Forms and   Enabled when       dence Tool Bar   Button   Correspondence window   claim in view       Button           mode.       Push to V7   Command   Open the terminal   Enabled when       Tool Bar   Button   emulator window at the   claim is in view       Button       first V7 setup screen.   mode and claim                   status is pre-push                   or open and there                   are new claimants                   or lines to push.       Make Payment   Command   Open the V7 PUEM   Enabled when       Tool Bar   Button   screen in the terminal   claim had been       Button       emulator window if a   pushed to V7 and               claimant or participant   a participant is               tied to one claimant is   selected.               selected. Otherwise,               display window that               requires user to select a               claimant.       Help Tool Bar   Command   Opens Help   Enabled       Button   Button       Claim | Edit   Menu   Changes Claim tabs into   Enabled when           Option   Edit mode so that the   claim is in view               user can make changes   mode.       Claim | Refresh   Menu   Refreshes the current   Enabled when           Option   claim, including all   claim is in view               Participant and Line   mode.               information.       Claim | Find   Menu   Opens the Claim Search   Enabled           Option   window       Claim | Save   Menu   Save the claim level   Enabled when the           Option   when it is in edit mode.   claim level is in                   edit mode.       Claim | Claim   Menu   Changes the status of   Enabled when       Status | First   Option   the claim to   claim is in view       Report       “Unassigned” and   mode and claim       Complete       creates First Report   status is “New”.               Complete Event.       Claim | Claim   Menu   Changes the status of   Enabled when       Status |   Option   the claim to “Open” and   claim is in view       Assignment       creates Assignment   mode and claim       Complete       Complete Event.   status is                   “Unassigned”.       Claim | Claim   Menu   Initiates the close claim   Enabled when       Status | Close   Option   process   claim is in view                   mode, V7 claim                   status is closed,                   and Millennium                   Claim Status is                   not “Closed” or                   “Archived”       Claim | Claim   Menu   Changes the status of   Enabled when       Status | Reopen   Option   the claim to “Open”.   claim is in view                   mode and                   “Closed” or                   “Archived”.       Claim | Claim   Menu   Marks the current claim   Enabled when       Status | Mark   Option   and all of its lines in   claim is in view       In Error       error. Expires all   mode, and not               participants.   pushed to V7.       Claim |   Menu   Opens the Claim   Enabled when       Allocate   Option   Allocation window.   claim is in view                   mode.       Claim |   Menu   Opens Physical File   Enabled when       Manage   Option   window   claim is in view       Physical File           mode.       Claim | Declare   Menu   Opens Declare Event   Enabled when       Event   Option   window   claim is in view                   mode.       Claim | Close   Menu   Closes current claim   Enabled       Claim Folder   Option   folder window       Edit | Cut   Menu   Move selected text to   Disabled           Option   the clipboard       Edit | Copy   Menu   Copy selected text to the   Disabled           Option   clipboard       Edit | Paste   Menu   Paste text from the   Disabled           Option   clipboard       View |   Menu   Collapses the claim tree   Enabled       Collapse All   Option       View | Expand   Menu   Expand the claim tree   Enabled       All   Option       Policy | Edit   Menu   Opens policy tabs in edit   Enabled when           Option   mode.   claim is in view                   mode.       Policy | Save   Menu   Save current policy tab   Enabled when           Option   information.   policy level is in                   edit mode.       Participant |   Menu   Opens Participant tabs   Enabled when       New | Claimant   Option   in edit mode for entry of   claim in view               a new claimant level   mode.               node in the claim tree.       Participant |   Menu   Opens Participant tabs   Enabled when       New | Insured   Option   in edit mode for entry of   claim in view               a new insured level node   mode.               in the claim tree.       Participant |   Menu   Opens Participant tabs   Enabled when       New | Other   Option   in edit mode for entry of   claim in view               a new entry in the   mode.               Participant list.       Participant |   Menu   Puts currently selected   Enabled when       Edit   Option   participant tabs into edit   claim is in view               mode.   mode and                   participant                   selected in tree or                   list box.       Participant |   Menu   Saves information   Enabled only       Save   Option   changed on participant   when a               tabs and returns claim to   participant level               view mode.   is in edit mode.       Participant |   Menu   Deletes selected   Enabled only       Delete   Option   participant   when claim is in                   view mode and                   participant is                   selected.       Line | New   Menu   Adds new line to claim   Enabled when           Option   tree and opens line tabs   claim is in view               in edit mode.   mode, claimant                   has been selected,                   and limit of 15                   lines per claimant                   has not been                   exceeded.       Line | Edit   Menu   Puts Line tabs into edit   Enabled when           Option   mode so that the user   claim is in view               can change line details   mode and line is                   selected.       Line | Save   Menu   Save information   Enabled when a           Option   entered on line tabs and   line is in edit               returns claim to view   mode.               mode.       Line | Change   Menu   Changes status of a line   Enabled when       Status | Close   Option   in the claim folder to   claim is in view               “Closed”   mode, a line is                   selected, the line                   is not closed, and                   its V7 status is                   closed.       Line | Change   Menu   Changes the status of   Enabled when       Status | Reopen   Option   the line selected to   claim is in view               “Open”.   mode, a line is                   selected, and line                   is “Closed”.       Line | Change   Menu   Marks selected line in   Enabled when       Status | Mark   Option   error.   claim is in view       in Error           mode, a line is                   selected, and line                   has not been                   pushed.       Line | Allocate   Menu   Opens the Claim   Enabled           Option   Allocation window.       Performers |   Menu   Opens the Assign   Enabled when       Assign   Option   Performers window   claim is in view                   mode.       Performers |   Menu   Displays all claim   Enabled when       View All   Option   performers assigned to   claim is in view               the claim in View   mode.               Performer UI.       Utilities | Print   Menu   Prints current screen.   Enabled       Screen   Option       Utilities | View   Menu   Opens Task Assistant   Enabled when       Task Assistant   Option   window for current   claim is in view               claim.   mode.       Utilities |   Menu   Opens File Notes   Enabled when       Create New   Option   window for current   claim is in view       File Note       claim.   mode.       Utilities | View   Menu   Opens Claim History   Enabled when       Claim History   Option   window for current   claim is in view               claim.   mode.       Utilities |   Menu   Opens Forms and   Enabled when       Create   Option   Correspondence   claim is in view       Correspon-       window.   mode.       dence       Version 7 |   Menu   Launches V7 to start the   Enabled when       Push Claim   Option   push process.   claim is in view                   mode and in “Pre-                   Push” status or                   open when there                   are unpushed                   claimants and                   lines.       Version 7 |   Menu   Reverts claim to pre-   Enabled when       Undo Push   Option   push status.   claim is in view                   mode and status                   is “Push-                   Pending”.       Version 7 |   Menu   Open the V7 PUEM   Enabled when       Make Payment   Option   screen in the terminal   claim had been               emulator window if a   pushed to V7 and               claimant or participant   a participant is               tied to one claimant is   selected.               selected. Otherwise,               display window that               requires user to select a               claimant.       Help | Contents   Menu   Opens help file to   Enabled           Option   content menu.       Help | Search   Menu   Open help file to search   Enabled       For Help On   Option   window.       Help | About   Menu   Opens window   Enabled           Option   displaying information               about the application.                  
 
         [1475]    Window Details  
                                                                                     Initial   Defualt   Tab           Control Name   Focus   Button   Order                                        Claim Tree   Yes       1           Participant List           2           Claim Menu           3           Edit Menu           4           View Menu           5           Policy Menu           6           Participant Menu           7           Line Menu           8           Performer Menu           9           Utilities Menu           10           Version 7 Menu           11           Help Menu           12                      
 
         [1476]    CAR Diagram  
                                                           Short   Mnem-                   Cut   onic       Control Name   Action   Response   Key   Key                   Claim Tree   Click   Highlights Node in                       Tree               Disable participant in               list view if one selected               previously               Shows related tabs in               view mode.               Enable appropriate               menu items and tool               bar buttons.           Double   Level selected in tree           Click   enters Edit mode.       All Text Fields   High-   Enable Cut and Copy.       Participant List   light   Highlights participant           Click   in list box               Deselects level in claim               tree if one selected               previously               Shows related tabs in               view mode.               Enable appropriate               menu items and tool               bar buttons.           Double   Participant selected in           Click   list view enters Edit               mode.       Edit Tool Bar   Click   Changes the tabs for       Button       the level selected in the               claim tree or participant               list view to edit mode.       Refresh Tool Bar   Click   Refreshes the current       Button       claim, including all               Participant and Line               information.       Find Tool Bar   Click   Opens the Claim       Button       Search window to               allow the user to search               for another claim       Claim Allocation   Click   Opens the Claim       Tool Bar Button       Allocation window.       Manage Physical   Click   Opens the Manage       File Tool Bar       Physical File window.       Button       Declare Event Tool   Click   Opens the Declare       Bar Button       Events window.       Claimant Tool Bar   Click   Adds claimant and       Button       opens Participant tabs               in edit mode for entry               of a new claimant level               node       Participant Tool Bar   Click   Adds new participant       Button       and opens Participant               tabs in edit mode.       Line Tool Bar   Click   Adds line and opens       Button       Line tabs in edit mode               for entry of a new line               level node.       Assign Performer   Click   Opens Assign       Tool Bar Button       Performer window       Print Screen Tool   Click   Prints the current claim       Bar Button       folder window.       Task Assistant Tool   Click   Launches Task       Bar Button       Assistant for the               current claim       File Notes Tool Bar   Click   Launch File Notes for       Button       the current claim       Claim History Tool   Click   Launch Claim History       Bar Button       for the current claim       Correspondence   Click   Opens Forms and       Tool Bar Button       Correspondence               window       Push to V7 Tool Bar   Click   Open the terminal       Button       emulator window at the               first V7 setup screen.       Make Payment Tool   Click   Open the V7 PUEM       Bar Button       screen in the terminal               emulator window if a               claimant or participant               tied to one claimant is               selected. Otherwise,               display window that               requires user to select a               claimant.       Help Tool Bar   Click   Opens Help       Button       Claim | Edit   Click   Changes Claim tabs               into Edit mode so that               the user can make               changes       Claim | Refresh   Click   Refreshes the current       Ctrl + R               claim, including all               Participant and Line               information.       Claim | Find   Click   Opens the Claim       Ctrl + F               Search window       Claim | Save   Click   Save the claim level               when it is in edit mode.       Claim | Claim   Click   Changes the status of       Status | First Report       the claim to       Complete       “Unassigned” and               creates First Report               Complete Event.       Claim | Claim   Click   Changes the status of       Status | Assignment       the claim to “Open”       Complete       and creates Assignment               Complete Event.       Claim | Claim   Click   Initiates the close claim       Status | Close       process       Claim | Claim   Click   Changes the status of       Status | Reopen       the claim to “Open”.       Claim | Claim   Click   Marks the current claim       Status | Mark In       and all of its lines in       Error       error. Expires all               participants.       Claim | Allocate   Click   Opens the Claim               Allocation window.       Claim | Manage   Click   Opens Physical File       Physical File       window       Claim | Declare   Click   Opens Declare Event       Event       window       Claim | Close Claim   Click   Closes current claim       Folder       folder window       Edit | Cut   Click   Move selected text to       Ctrl +               the clipboard       X       Edit | Copy   Click   Copy selected text to       Ctrl + C               the clipboard       Edit | Paste   Click   Paste text from the       Ctrl +               clipboard       V       View | Collapse All   Click   Collapses the claim tree       View | Expand All   Click   Expand the claim tree       Policy | Edit   Click   Opens Policy tabs in               edit mode       Policy | Save   Click   Save policy               information and returns               tabs to view mode.       Participant | New |   Click   Opens Participant tabs       Claimant       in edit mode for entry               of a new claimant level               node in the claim tree.       Participant | New |   Click   Opens Participant tabs       Insured       in edit mode for entry               of a new insured level               node in the claim tree.       Participant | New |   Click   Opens Participant tabs       Other       in edit mode for entry               of a new entry in the               Participant list.       Participant | Edit   Click   Puts currently selected               participant tabs into               edit mode.       Participant | Save   Click   Saves information               changed on participant               tabs and returns claim               to view mode.       Participant | Delete   Click   Deletes selected               participant       Line | New   Click   Adds new line to claim               tree and opens line tabs               in edit mode.       Line | Edit   Click   Puts Line tabs into edit               mode so that the user               can change line details       Line | Save   Click   Save information               entered on line tabs and               returns claim to view               mode.       Line | Change   Click   Changes status of a line       Status | Close       in the claim folder to               “Closed”       Line | Change   Click   Changes the status of       Status | Reopen       the line selected to               “Open”.       Line | Change   Click   Marks selected line in       Status |Mark in       error.       Error       Line | Allocate   Click   Opens the Claim               Allocation window.       Performers | Assign   Click   Opens the Assign               Performers window       Performers | View   Click   Displays all claim       All       performers assigned to               the claim in View               Performer UI.       Utilities | Print   Click   Prints current screen.       Ctrl + P       Screen       Utilities | View   Click   Opens Task Assistant       Task Assistant       window for current               claim.       Utilities | Create   Click   Opens File Notes       New File Note       window for current               claim.       Utilities | View   Click   Opens Claim History       Claim History       window for current               claim.       Utilities | Create   Click   Opens Forms and       Correspondence       Correspondence               window.       Version 7 | Push   Click   Launches V7 to start       Claim       the push process.       Version 7 | Undo   Click   Reverts claim to pre-       Push       push status.       Version 7 | Make   Click   Open the V7 PUEM       Payment       screen in the terminal               emulator window if a               claimant or participant               tied to one claimant is               selected. Otherwise,               display window that               requires user to select a               claimant.       Help | Contents   Click   Opens help file to               content menu.       Help | Search For   Click   Open help file to search       Help On       window.       Help | About   Click   Opens window               displaying information               about the application.                  
 
         [1477]    Data Elements  
                                                                         Control   Data Entity   Edit   Error       Literal   Length   Type   Tie   Rules*   Handling                                Claim Tree   Tree               View       - Policy   Tree   Policy           View   Number           Node   (Policy)       - Insured   Tree   Participant           View   Preferred           Node   Name               (Insurance               Involvement               )       - Claim   Tree   Claim           View   Number           Node   (Claim)       - Claimant   Tree   Particiapant           View   Preferred           Node   Name               (Insurance               Involvement               )       - Line   Tree   Line Type           View   (Line)       Participant List   List   Participant       Box   View   Preferred               Name and               Role               (Insurance               Involvement               &amp;               Involvement               Role)                  
 
         [1478]    Commit Points  
                                       Claim   | Save Menu Option - Saves all claim level data       Policy   | Save Menu Option - Saves all policy level data       Participant   | Save Menu Option - Saves all participant level data       Line   | Save Menu Option - Saves all line level data       Claim   | Close Claim Folder Menu Option - Prompts user to save           changes if in edit mode.                  
 
       Claim History  
       [1479]    Definition  
         [1480]    Claim history shows information in one user interface that is intended to include all the constituent elements of a claim file. The four types of history included in the component are searchable by common indexing criteria like participant, performer, and claim phase. A caption report can be produced which shows the history selected in a document format.  
         [1481]    Value  
         [1482]    Claim history provides the users with one common interface through which to view a large variety of information about the claim. It includes all history available on a claim, and is expanded as claim capabilities are built, like incoming mail capture. Users develop customized views of history based on any criteria the history can be indexed by, and these reports are saved as customizable Word documents. The way the history information is indexed provides quick access to pertinent data needed to respond to a variety of requests.  
         [1483]    Key Users  
         [1484]    All members of the claims organization can use claim history as a way to quickly see all activity performed on a claim. This utility increases the ability to locate key information regarding any claim.  
         [1485]    Component Functionality  
         [1486]    Claim history is a component that contains a simple process to retrieve history from the other components in the system. It contains no native data itself. Even viewing a history element is done in the component window where the item was first captured.  
         [1487]    The second key process of claim history is to produce a caption report of all history elements according to the items the user wants to include.  
         [1488]    There are two user interfaces needed for this component that correspond to the two key functions above:  
         [1489]    Claim History Search: This window utilizes the claim phase, participant, performer and history type fields on each history record to help the user narrow the search for specific history.  
         [1490]    Caption Report: This report uses the functionality of Word to produce a report of each history item the user wants to see and its associated detail. Since the report is produced in Word, it can be fully customized according to many different needs.  
         [1491]    User Interfaces  
         [1492]    Claim History Search  
         [1493]    Caption Report (Word document, not UI design)  
       Forms and Correspondence  
       [1494]    Definition  
         [1495]    The Forms &amp; Correspondence component supports internal and external claim communication and documentation across all parts of the claims handling process.  
         [1496]    The Forms and Correspondence  
         [1497]    Create Correspondence function provides the ability to search for a template using various search criteria, select a template for use and then leverage claim data into the selected template.  
         [1498]    The Forms and Correspondence  
         [1499]    Template Maintenance function is a tool for the librarian to create, delete, and update Correspondence templates and their associated criteria.  
         [1500]    Some specific processes supported by Forms &amp; Correspondence are:  
         [1501]    Reporting of claims  
         [1502]    to state/federal agencies, etc. at First Notice of Loss  
         [1503]    internal requests for information  
         [1504]    Advising Participants  
         [1505]    Contacting Participants  
         [1506]    Performing Calculations  
         [1507]    Creating correspondence for claims or non-claims  
         [1508]    Value  
         [1509]    The Forms and Correspondence component supports user in creating documentation.  
         [1510]    Leveraging information from the claim directly into correspondence reduces the amount of typing and dictating done to create forms and letters. The typical data available to the templates should include: author, addressee, claim number, date of loss, insured name, policy number, etc. A librarian adds and maintains standardized forms and letters in logical groupings made available for the entire company.  
         [1511]    Key Users  
         [1512]    Claim employees are the primary users of the Forms and Correspondence component, but it can be used by anyone who has access to the system to create documents using existing templates.  
         [1513]    Forms and Correspondence librarians use the system to create, update or remove templates.  
         [1514]    Component Functionality  
         [1515]    Forms and Correspondence—Create Correspondence  
         [1516]    1. Search for a template based on search criteria.  
         [1517]    2. Create a correspondence from a template using claim data.  
         [1518]    3. Create a correspondence from a template without using claim data.  
         [1519]    4. View the criteria for a selected template.  
         [1520]    5. View the Microsoft Word template before leveraging any data.  
         [1521]    Forms and Correspondence—Template Maintenance  
         [1522]    1. Search for a template based on search criteria.  
         [1523]    2. Create, duplicate, edit, and delete Correspondence templates and their criteria.  
         [1524]    3. Internally test and approve newly created/edited templates.  
         [1525]    4. Properly copy Word templates for NAN distribution.  
         [1526]    User Interfaces  
         [1527]    Search for Correspondence  
         [1528]    Correspondence Details  
         [1529]    Associate Fields  
         [1530]    Maintain Correspondence Search  
         [1531]    Correspondence Template Information—Details tab  
         [1532]    Correspondence Template Information—Criteria tab  
         [1533]    Microsoft Word  
       File Notes  
       [1534]    Definition  
         [1535]    File notes captures the textual information that cannot be gathered in discrete data elements as part of claim data capture. They are primarily a documentation tool, but also are used for internal communication between claim professionals. Users can sort the notes by participant or claim phase (medical, investigation, coverage, etc.) in order to permit rapid retrieval and organization of this textual information.  
         [1536]    Value  
         [1537]    File notes speeds the retrieval and reporting of claim information. A file notes search utility with multiple indexing criteria provides claim professionals and supervisors with the ability to quickly find a file note written about a particular person or topic. The file notes tool utilizes modern word processing capabilities which speed entry, reduce error, and allow for important information to be highlighted. Furthermore, the categorization and key field search eases the process of finding and grouping file notes. Finally, file notes improves communication as they can be sent back and forth between those involved in managing the claim.  
         [1538]    Key Users  
         [1539]    All members of the claims organization can utilize file notes. External parties via RMS can view file notes marked General. This utility increases the ability to locate key information regarding a claim. Anyone who wants to learn more about a claim or wants to record information about a claim utilizes the file notes tool.  
         [1540]    Component Functionality  
         [1541]    File Notes searching is included as part of the claim history component which allows the user to search the historical elements of a claim file including tasks, letters, and significant claim change events.  
         [1542]    The user interfaces that are needed for this component are:  
         [1543]    The File Notes Search (part of claims History component): This window utilizes the claim phase fields on the file notes record to help the user narrow the search for specific file notes. Also, it allows users to view all file notes that meet specified criteria in a report style format.  
         [1544]    File Notes Entry: The window used to record the file note. It embeds a word processing system and provides the ability to categorize, indicate a note as company (private) vs. general (public), save the note as a draft or a final copy, and send the note to another person.  
         [1545]    User Interfaces  
         [1546]    File Notes  
         [1547]    Draft File Note Review  
         [1548]    Participant Search  
         [1549]    Performer Search  
       Address Book  
       [1550]    Definition  
         [1551]    Address Book is the interface between the claims system and the Client database. The Client application is a new component designed to keep track of people or organizations that interact with RELIANCE for any reason, but claims are most likely the first application to use Client. The Address Book is accessed directly from the Desktop and from the Claim Folder.  
         [1552]    The Address Book meets several needs within the claim organization. Although, its primary function is to support the adding of participants to a claim, it acts as a pathway to the Client database for searching out existing participants, and adding new people or organizations to the corporate database.  
         [1553]    The Client database maintains information on names, addresses, phone numbers, and other information that always applies to a person or organization no matter what role they play on a claim.  
         [1554]    Value  
         [1555]    Address Book provides a common definition of people or organizations that interact with RELIANCE, and therefore provides a much more efficient means of capturing this information. Each Client database entry provides the ability to link a person or organization to all the different roles that they play across the organization, and therefore makes retrieving information on a client by client basis quick and easy.  
         [1556]    There are many benefits to RELIANCE by having a common address book. Information on people and organizations is leveraged into other activities like enabled tasks that lookup a client&#39;s phone numbers when a call needs to be made. Information that has been redundantly stored in the past can be entered once and reused. Once all areas of RELIANCE use the Client application, different areas of the company can share definitions of individuals and organizations.  
         [1557]    Component Functionality  
         [1558]    Address Book allows users to add, edit and delete records from the Client database. It also provides a robust search facility, including phonetic name searches to find people contained in the Client database.  
         [1559]    There are two primary user interfaces for the Address Book:  
         [1560]    Find Address Book Entry—This is a search window that allows a user to find records in the Client database using names, addresses, phone numbers, and other identifiers. From this window, specific records can be selected and attached as participants on claims.  
         [1561]    Maintain Address Book Entry—This window allows users to add or edit information about a client by specifying their names, addresses, phone numbers, email information, and identification numbers like a SSN or TIN.  
         [1562]    The Address Book is created concurrently with the Client application to make sure that a consistent design approach is followed.  
         [1563]    Key Users  
         [1564]    All members of the claim organization use the Address Book to look up information on people and organizations in the client database. Those who set up and handle claims use the Address Book to identify participants.  
         [1565]    User Interfaces  
         [1566]    Find Client  
         [1567]    Maintain Client  
       Index  
       [1568]    Definition  
         [1569]    The Index, or Claim Search, component provides the ability to locate claims within the system using various search criteria. The criteria cover a wider variety of search capabilities than exist today including, but not limited to, claim performers, participants, phonetic name searches, addresses, roles, offices, and lines of business. The search results display selected claim, participant, and performer data to help identify each claim.  
         [1570]    The Index component also allows easy navigation to various claim components like the Claim Folder, once a claim has been identified. It can be accessed from the Desktop and from any open Claim Folder.  
         [1571]    The Index component is designed to support several business processes within the claim organization. Its functions are critical to improving claim staff productivity and customer service in the following areas:  
         [1572]    Matching Mail  
         [1573]    The capabilities of the Index search make it easier to identify the claim a piece of mail belongs to based on criteria used to identify claims in forms, correspondence, and bills. The performers for a claim can also be identified for mail routing purposes.  
         [1574]    Phone Inquiries  
         [1575]    This window is the primary point to handle incoming phone inquiries for any claim. Users can find claims quickly without having to burden the caller with requests for additional information.  
         [1576]    Duplicate claims  
         [1577]    Prior to setting up new claims, checks can be done to ensure that the claim has not already been entered into the system. The additional search capabilities provide a greater assurance that duplicate claims will not be entered. This reduces the need to delete or merge claim records.  
         [1578]    Fraud Identification  
         [1579]    Because claims can be searched easily by participant and other criteria, fraud questions can be easily researched. This is not the primary purpose of this component, however.  
         [1580]    Value  
         [1581]    Index reduces the time required to find existing claims, and also reduces potential rework from not finding claims when they are needed for matching mail or duplicate checks.  
         [1582]    Key Users  
         [1583]    Claim employees are the primary users of the Index window, but it can be used by anyone who has access to the system to access claims without having to memorize tracking numbers.  
         [1584]    Component Functionality  
         [1585]    Index is primarily a robust search engine that quickly and efficiently searches for claims. It is not a component that stores its own data, as it is primarily focused on pointing users more quickly and directly to claim data.  
         [1586]    Index is composed of one search window that follows the format of all other search windows in the system.  
         [1587]    User Interfaces  
         [1588]    Find claims  
       Injury  
       [1589]    Definition  
         [1590]    The Injury component captures versions of a claimant&#39;s injuries as they progress. This window captures injury information in the form of discrete data fields, reducing the need for free form text file notes. Capturing data, instead of text, allows the injury to be closely tracked and quickly reported. The data can also serve as feedback statistics, i.e. for building best claims practices and in risk selection. The preferred method of identifying and documenting injuries is the ICD-9 code. The user can enter or search for the ICD-9 code using descriptors or numbers.  
         [1591]    Value  
         [1592]    Data on every injury is captured and summarized in a consistent, accessible format, making recording and reviewing the case considerably less time consuming and more organized, allowing the adjuster to focus on desired outcomes. This “snapshot” of the current status and history of an injury greatly facilitates handing off or file transfers between claim professionals. Additionally, the discrete data field capture enables the use of events to identify action points in the lifecycle of a claim that has injuries.  
         [1593]    Key Users  
         [1594]    All members of the claims organization can utilize the Injury component. This component increases the ability to locate and summarize key information regarding an injury.  
         [1595]    Component Functionality  
         [1596]    Injury is an aspect of participant information, which is related to the claimant participants on the claim. The participant component relates clients to all other claim-related entities. Information on injuries will be related to participant records and displayed at the participant level information in the Claim Folder. New entities are needed to implement injury data capture: injury and ICD-9 search. The Injury component interacts with five other components: Claim Folder-which contains Disability Management data about a claimant; Participant-which lists the individuals associated with the claim; as well as File Notes, Task Assistant and the Event Processor. The injury component also uses Microsoft WORD to create a formatted, historical injury report for a particular individual.  
         [1597]    The user interfaces that are needed for this component are:  
         [1598]    Injury: This is the primary injury window which captures basic injury report data, including: the source of the injury report, the date of the injury report, a Prior Medical History indicator, and then a detailed list of the injuries associated with that report. The detailed list includes discrete fields for the following data: ICD-9 code, body part, type, kind, severity, treatment, diagnostic, a free form text description field, and a causal relation indicator.  
         [1599]    ICD-9: This is the search window for locating ICD- 9  codes and associated descriptions.  
         [1600]    Disability Management: This window contains a subset of participant data fields that enables more effective injury management.  
         [1601]    User Interfaces  
         [1602]    Claim Folder—Participant Level—Injury Tab  
         [1603]    ICD-9 Search Window  
         [1604]    Claim Folder—Participant Level—Disability Management Tab  
       Negotiation  
       [1605]    Definition  
         [1606]    [1606]FIG. 10 is an illustration of the Negotiation component of one embodiment of the present invention. Negotiation provides a single, structured template that is supplemented by supporting views, to capture events regarding a negotiation. The negotiation interface  1000  captures key elements of a negotiation, such as a settlement target range, current demands and offers, and Supporting Strengths and Opposing Assertions of the claim. Negotiation information is gathered in discrete data elements  1002 , enabling the capability to generate events  1006  based on key attributes or changes in a negotiation. These events  1006  are then sent to a common event queue  1008 . The negotiation component  1000  interfaces with the File Notes  1004  component to provide additional documentation capability, in a non-structured format. The negotiation template is supported by all other data contained in the Claim Folder.  
         [1607]    Value  
         [1608]    Data on every case is summarized in a consistent, accessible format, making recording and reviewing the case considerably less time consuming and more organized, allowing the adjuster to focus on negotiation strategy and desired outcomes. This “snapshot” of the current status greatly facilitates handing off or file transfers between claim professionals. Additionally, the discrete data field capture enables the use of events to identify action points in a negotiation.  
         [1609]    Key Users  
         [1610]    All members of the claims organization can utilize Negotiation. This component increases the ability to locate and summarize key information regarding a negotiation.  
         [1611]    Component Functionality  
         [1612]    Negotiation is a type of resolution activity, which is part of the claim component of the claims entity model. The claim component is the central focus of the claims entity model, because it contains the essential information about a claim. The claim component supports the core claim data capture functionality, first notice processes, and resolution activity for claims. The main types/classes of data within the claim component are: Claim, Claimant, Line, Claim History, Resolution Activity, Reserve Item, and Reserve Item Change. Three entities are needed to implement negotiation: resolution activity, claim and claim history. There is also interaction between the Negotiation component and the Task Assistant, File Notes and Event Processor components.  
         [1613]    The user interfaces needed for negotiation are:  
         [1614]    Negotiation: This window captures demand and offer data, including: amount, date, type and mode of communication. The target settlement range, lowest and highest, is captured, along with strengths and weaknesses of the case.  
         [1615]    Supporting user interfaces, which are also part of the Claim Folder, include:  
         [1616]    Liability (claim level tab): This window is used to document liability factors in evaluating and pricing a claim. The liability factors include percent of liability for all involved parties; form of negligence that prevails for that jurisdiction; theories of liability that the claim handler believes to be applicable to the claim. Used prior to developing negotiation strategy.  
         [1617]    Damages (line level tab): This window provides the capability for pricing and evaluating a claim based on incurred and expected damages. Used prior to developing negotiation strategy.  
         [1618]    User Interfaces  
         [1619]    Claim Folder—Line Level—Negotiation Tab  
         [1620]    Claim Folder—Claim Level—Liability Tab  
         [1621]    Claim Folder—Line Level—Damages Tab  
       Organization  
       [1622]    Definition  
         [1623]    [1623]FIG. 11 is a flow diagram of the operations utilized by the Organization component in accordance with one embodiment of the present invention. The Organization component  1100  allows common information for the people who perform work on claims to be stored, searched, and reused across all the claims they work.  
         [1624]    In one embodiment of the organization component  1100 , all employee records are kept in a common database  1102  so that they can be attached to the specific claims they work, located in a claim database  1104 . The common information that is kept on the employee record includes name, location, phone, and some minimal organizational context information like office or division. This is the minimum required to support the tracking of performers on claims. The employee information  1102  is then linked  1106  to the claim information  1104  and the databases are updated  1108 . Having linked the employees  1102  with the claims  1104  they are working on, the database can be searched by employee or claim  1110 .  
         [1625]    However, this version of the organization can be expanded to include organization relationships (specifically tracking where an employee falls in the organization structure), groups of individuals as performers for claim assignment, and claim allocation within the organization structure. These capabilities are to support any notion of caseload analysis, management reporting, or automated assignment that would need to be included.  
         [1626]    Value  
         [1627]    By tracking common definitions of employees across claims, indexing capabilities are improved and performers on claims are accurately tracked.  
         [1628]    Key Users  
         [1629]    The primary users of the organization capabilities are the administrative personnel who set up performers, as well as the technicians who track who is working a claim.  
         [1630]    Component Functionality  
         [1631]    The design of the minimum scope of the organization component includes a search window to find employees in the organization and a detail window to see specific information on each employee.  
         [1632]    User Interfaces  
         [1633]    Organization Entity Search  
         [1634]    Add/Edit Organization Entity  
       Participant  
       [1635]    Definition  
         [1636]    [1636]FIG. 12 is an illustration of the Participant component in accordance with one embodiment of the present invention. Participant  1200  provides the link between claims and individuals and organizations stored in the Client database and accessed through the Address Book  1202 . Participant links clients to claims  1204  by defining the roles that they play, e.g. claimant, driver, or doctor. It reuses the information contained in the Address Book  1202  so that it does not have to be reentered for each participant.  
         [1637]    The participant component also allows linkages  1206  to be made between participant and to various items on claims. A doctor can be linked to the claimant they treat and a driver can be linked to the damaged vehicle they were driving.  
         [1638]    Once a participant has been added to a claim, additional information  1208  that is specific to that claim can be attached. This information includes injury, employment, and many other types of information that are specific to the role that a person or organization plays in a claim.  
         [1639]    The business processes primarily supported by Participant  1200  are:  
         [1640]    Recording Involvement in a Claim  
         [1641]    There is a basic data capture requirement to keep track of individuals and organizations involved in a claim, and this is done most efficiently using the participant approach.  
         [1642]    Recording Role Specific Information  
         [1643]    Address Book  1202  stores information that can be reused across claims, but the Participant component  1200  needs to maintain the information that is specific to an individual or organization&#39;s involvement in a specific claim.  
         [1644]    Making Contact with Clients  
         [1645]    Because participant ties back to the common Address Book  1202 , any contact information contained there can be quickly and easily obtained.  
         [1646]    Forms and Correspondence  1210   
         [1647]    Leveraging address information into letters provides an efficiency enablement to all users who don&#39;t need to look up name and address information.  
         [1648]    Categorizing History Information  
         [1649]    Participants are used to categorize history items like tasks and file notes so that information relating to a single participant on a claim can be easily retrieved.  
         [1650]    Claim Indexing  
         [1651]    Attaching participants to a claim allows the Index component to be more effective in the processing of claim inquires.  
         [1652]    Key Users  
         [1653]    The primary users of the Participant components  1200  are those who work directly on processing claims. They are the ones who maintain the participant relationships.  
         [1654]    Claims professionals who deal with injuries use the Participant tabs in the claim folder to track injuries and manage disabilities for a better result on the claim.  
         [1655]    Value  
         [1656]    Because the Participant component  1200  only seeks to define the roles that individuals and organization play across all claims, there is no redundant entry of name, address, and phone information. This is all stored in the Address Book  1202 .  
         [1657]    The number of potential participant roles that can be defined is virtually limitless, and therefore expandable, as the involvement of additional people and organizations needs to be captured.  
         [1658]    Component Functionality  
         [1659]    Most participant functionality is executed within the context of the Claim Folder. The Claim Folder contains participants levels in two ways. First, claimants are shown in the claim tree on the left-hand side of the window. Below this, other participants are shown in a list. Selecting any participant displays a set of participant information tabs that displays the following information:  
         [1660]    Participant Details—Basic information about the role that a participant plays in a claim and all the other participants that are associated to it.  
         [1661]    Contact Information—Information from the Address Book on names, addresses, and phone numbers.  
         [1662]    Injury—Specific information on the nature of injuries suffered by injured claimants.  
         [1663]    Disability Management—Information on injured claimants with disabilities.  
         [1664]    Only the first two tabs will be consistently displayed for all participants. Other tabs can appear based on the role and characteristics of a participant&#39;s involvement in a claim.  
         [1665]    Adding or editing participant role information is actually done through the Address Book  1202  search window. The process is as simple as finding the Address Book  1202  record for the intended participant and specifying the role the participant plays in the claim. Once this is done, the participant will be shown in the Claim Folder, and additional information can be added.  
         [1666]    The notion of a participant is a generic concept that is not specific to claims alone. It is a based on design pattern that can be expanded as additional claims capabilities are built. Any involvement of an individual or an organization can be modeled this way.  
         [1667]    User Interfaces  
         [1668]    Participant Level—Participant Details Tab  
         [1669]    Participant Level—Contact Information Tab  
         [1670]    Participant Level—Events Tab  
         [1671]    Participant Level—Injury Tab (Injury Component)  
         [1672]    Participant Level—Disability Management Tab (Injury Component)  
         [1673]    View Participant List  
       Performer  
       [1674]    Definition  
         [1675]    The Perforer component allows organizational entities (individuals, groups, offices, etc.) to be assigned to various roles in handling the claim from report to resolution. The Performer component is utilized on a claim-by-claim basis.  
         [1676]    A performer is defined as any individual or group that can be assigned to fulfill a role on a claim.  
         [1677]    The Performer component supports the assignment processes within the claim handling process. This goes beyond the assignment of claim at FNOL. This component allows the assignment of work (tasks) as well.  
         [1678]    Some specific processes supported by Performer are:  
         [1679]    Assign claims  
         [1680]    identification of different roles on the claims in order to assign the claim (Initiate Claim—DC Process work)  
         [1681]    Keeps roles and relationships of performers within claims  
         [1682]    Assigning tasks  
         [1683]    Reassignments  
         [1684]    Supports Initiate claim process—assignment  
         [1685]    Search mechanism for employees, offices  
         [1686]    All performers should be in the Organization component  
         [1687]    Provides history of assignments  
         [1688]    Value  
         [1689]    The Performer component allows the assignment of roles or tasks to individuals or groups. The data about performers resides in a common repository: the Organization component.  
         [1690]    The Performer component reduces the time required to find employees, teams or any potential performer, and ensures consistency of data.  
         [1691]    Key Users  
         [1692]    The primary users of the Performer component are those who work directly on processing claims. They are the ones who maintain the assignment of roles or tasks related to a claim.  
         [1693]    Component Functionality  
         [1694]    The Performer component supports an informational function and an assignment function.  
         [1695]    1. View details for performers (employee, office, unit, etc.). These details may suggest organizational entity relationships but in no way define or maintain them.  
         [1696]    2. View all performers assigned to a claim, currently and historically (includes individuals, groups, offices, etc.)  
         [1697]    3. Assign performers to a claim—at the claim level, claimant, and supplement levels (including individuals, office, groups, etc.)  
         [1698]    User Interfaces  
         [1699]    Assign Performer  
         [1700]    Performer Roles  
         [1701]    View Performer List  
       Task Assistant  
       [1702]    Definition  
         [1703]    The Task Assistant is the cornerstone of a claim professional&#39;s working environment. It provides diary functions at a work step level that allow the management of complex claim events. It enables the consistent execution of claim best practices by assembling and re-assembling all of the tasks that need to be performed for a claim based on detailed claim characteristics. These characteristics come from regulatory compliance requirements, account servicing commitments, and best practices for handling all types of claims. The Task Assistant also provides mechanisms that automate a portion of or all of the work in performing a task to assist the claim professional in completing his or her work. Once a task is completed, the Task Assistant generates a historical record to document the claim handler&#39;s actions.  
         [1704]    The Task Assistant is . . .  
         [1705]    A method for ensuring consistent execution of regulatory requirements, account servicing commitments and claim handling best practices  
         [1706]    A source of automated assistance for claim professionals  
         [1707]    An organization-wide communication tool within the context of a claim (it does not replace Lotus Notes).  
         [1708]    A mechanism for making claims strategy common practice and sharing corporate experience  
         [1709]    A diary application to keep track of claims  
         [1710]    A historical tracking tool  
         [1711]    A way to get a claim professional&#39;s or a team leader&#39;s attention  
         [1712]    A mechanism for making process changes in the organization quickly  
         [1713]    Within the Task Assistant, claim professionals have the ultimate control to determine if and when tasks need to be completed. They also have the ability to add tasks to the list to represent work they do that is not reflected in standard definitions of tasks in the system. This supports a vision of the claim professional as a knowledgeable worker who spends most of his or her time focused on a successful result through investigation, evaluation, and negotiation of the best possible outcome.  
         [1714]    Value  
         [1715]    The Task Assistant reduces the time required to handle a claim by providing the claim professional with the automatic scheduling of claim activity. It helps the claim professional remember, perform and record tasks completed for every claim. Completed tasks are self-documenting and remain part of the claim history.  
         [1716]    The Task Assistant also ensures the consistent handling of claims throughout the organization, and by doing so can significantly impact expenses and loss costs. Furthermore, it helps ensure regulatory compliance and the fulfillment of account promises. It supports the teamwork required in handling difficult claims as a structure communication mechanism.  
         [1717]    The automated enablements for tasks reduce the amount of time claim professionals have to spend on low value-added activities such as writing correspondence. They can therefore spend a larger amount of time investigating, evaluating, and negotiating each claim.  
         [1718]    Key Users  
         [1719]    While claim professionals are the primary users of the Task Assistant, others use the application as well. The entire claims department utilizes the Task Assistant to structure work and communicate with one another. Team leaders use the Task Assistant to conduct file review and to guide the work of the claim professional. Administrative staff use the Task Assistant as a means to receive work and to communicate the completion of that work. Claim professionals use the Task Assistant to complete work and to request assistance from team leaders and specialty claim professionals.  
         [1720]    The Task Assistant requires a new type of user to set-up and maintain the variety of tasks that are created. A task librarian maintains the task library, which contains the list of all the standardized tasks across the organization. The librarian defines rules which cause tasks to be placed on task lists based on claim characteristics, dates which define when tasks are due, and task enablement through other applications.  
         [1721]    Component Functionality  
         [1722]    [1722]FIG. 13 is a flow diagram of the operations utilized by the Task Assistant component of the present invention. The processing of tasks through the Task Assistant comprises the lifecycle of the task from its creation to its completion or deletion. In first operation  1300 , the Task engine provides tasks to the Task Assistant. In the second operation  1302 , the Task Assistant then displays the list of tasks provided by the Task Engine. In the third operation  1304 , the user is allowed to add tasks and edit tasks provided by the Task Engine. The fourth operation  1306  occurs as the claim is processed. As the claim is processed, the user and the Task Engine determine when the various tasks are completed. When a tasks is completed, the fifth operation  1308  occurs. In the fifth  1308  operation, a historical record is generated for any tasks which is determined to be completed.  
         [1723]    The key user interfaces for this component are:  
         [1724]    The Task Assistant: This is the utility that supports the population, execution, and historical tracking of tasks. It allows users to perform tasks, complete tasks, and remove tasks that have been automatically added.  
         [1725]    The Task Workplan: This user interface allows the user to strategize the plan for a specific claim. It shows tasks attached to their respective levels of the claim including lines, participants, and the claim itself.  
         [1726]    Task Enablement Windows: There are many windows that can be added to enable task with other applications such as telephone support, forms and correspondence, and file notes. The number of potential task enablements is virtually limitless.  
         [1727]    Task Entry: Allows a user to add new task that weren&#39;t automatically added to the task list to cover situations where the claim handler wants to indicate work to be done that is not reflected by the standard task definitions in the task library.  
         [1728]    Behind the functioning of the Task Assistant, the Task Engine continually evaluates messages sent from other components and determines based on the rules established by the task librarian, which tasks should be populated on the Task Assistant. Messages are sent to the Task Assistant when something significant occurs in another component. The messages contain the characteristics the Task Engine needs to evaluate in order to place the proper tasks on the task list.  
         [1729]    User Interfaces  
         [1730]    Task Assistant  
         [1731]    Reassign Task  
         [1732]    Edit/Add Task  
         [1733]    Clear Task  
         [1734]    Mark Task In Error  
         [1735]    Build Workplan  
         [1736]    Participant Search  
         [1737]    Participant Phone Number  
         [1738]    Phone Task  
         [1739]    Personal Profile  
         [1740]    Account Search  
         [1741]    Organization Search  
         [1742]    Performer Search  
       Event Processor/Task Engine  
       [1743]    Definition  
         [1744]    [1744]FIG. 14 is an illustration of the Event Processor  1400  in combination with other components of the system in accordance with on embodiment of the present invention. The Event Processor  1400  works behind the scenes of all claims applications to listen for significant events that have occurred in the life of various entities in the system like claims (but potentially many more like accounts or policies in the future). It determines what the response should be to each event and passes it onto the system component that will process it. The Event Processor is completely generic to any specific entity or event in the system and therefore enables automation based on an almost limitless number of events and responses that could be defined.  
         [1745]    [1745]FIG. 15 is an illustration of the Task Engine  1404  in accordance with one embodiment of the present invention. The Task Engine  1404  processes the most common set of event responses, those that need to generate tasks  1406  based on events  1006  that have occurred. It compares the tasks that have been defined to the system to a set of claim criteria to tell which tasks should be added and which tasks should now be marked complete.  
         [1746]    The only interface the user sees to these components is the task library  1500 , which allows task librarians  1502  to define the tasks and the rules that create them which are used by the Task Engine  1404 . Working with these components is almost entirely a function performed by specialists who understand the complexity of the rules involved in ensuring events  1006  and tasks  1406  are handled properly.  
         [1747]    The event processor  1400  also manages the communication and data synchronization between new claim components and LEGACY claim systems. This single point of contact effectively encapsulates the complex processes of translation and notification of events between the two systems.  
         [1748]    Value  
         [1749]    The automated determination of event responses provides enormous benefits to system users by reducing the maintenance they have to perform in ensuring the correct disposition of claims. Users trigger events by the data they enter and the system activities they perform, and the system automatically responds with appropriate automated activities like generating tasks.  
         [1750]    The task generation rules defined in the Task Library provide an extremely flexible definition of claim handling processes limited only by the data available in the system on which task creation rules can be based. Process changes can be implemented quickly by task librarians, and enforced through the Task Assistant.  
         [1751]    Key Users  
         [1752]    Although all claim personnel directly benefit from the functioning of the event processor and task assistant, only specially trained users control the processing of these components. Task Librarians using the Task Library user interface handle the process of defining new tasks and the rules that trigger them in the Task Engine.  
         [1753]    Operations personnel who ensure that all events are processed correctly and that the appropriate system resources are available to manage the throughput handle event processing.  
         [1754]    Component Functionality  
         [1755]    As shown in FIG. 14, the Event Processor  1400  utilizes a common queue  208  of events  1006  that are populated by any component  1402  of the system to identify what events have occurred. Working this queue, the Event Processor determines the appropriate response for an event and provides information to other components that need to process them. The Event Processor does not process any events itself and maintains clear encapsulation of system responsibilities. For example, an event that affects claim data is processed by the claim component.  
         [1756]    The Task Engine  1404  follows a process of evaluating events  1006 , determining claim characteristics, and matching the claim&#39;s characteristics to tasks defined in the Task Library  1500 .  
         [1757]    The key user interface for the Task Engine  1404  is the Task Library  1500 . The Task Library  1500  maintains the templates that contain the fields and values with which tasks are established. A task template might contain statements like “When event=litigation AND line of business=commercial auto, then . . . ” Templates also identify what a tasks due date should be and how the task is enabled with other applications.  
         [1758]    User Interfaces  
         [1759]    Search Task Template  
         [1760]    Search Triggering Templates  
         [1761]    Task Template Details  
         [1762]    While various embodiments have been described above, it should be understood that they have been presented by way of example only, and not limitation. Thus, the breadth and scope of a preferred embodiment should not be limited by any of the above described exemplary embodiments, but should be defined only in accordance with the following claims and their equivalents.