WO2003077113A1 - Mise en oeuvre de session javabean de systeme, procede et logiciel de creation ou de conservation de la persistance transparente repartie d'objets de donnees complexes et leurs relations de donnees - Google Patents

Mise en oeuvre de session javabean de systeme, procede et logiciel de creation ou de conservation de la persistance transparente repartie d'objets de donnees complexes et leurs relations de donnees Download PDF

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Publication number
WO2003077113A1
WO2003077113A1 PCT/US2003/006987 US0306987W WO03077113A1 WO 2003077113 A1 WO2003077113 A1 WO 2003077113A1 US 0306987 W US0306987 W US 0306987W WO 03077113 A1 WO03077113 A1 WO 03077113A1
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Prior art keywords
model
data
objects
cdog
persistence
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PCT/US2003/006987
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English (en)
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Ward Mullins
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Thought, Inc.
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Priority to AU2003220077A priority Critical patent/AU2003220077A1/en
Publication of WO2003077113A1 publication Critical patent/WO2003077113A1/fr

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F16/00Information retrieval; Database structures therefor; File system structures therefor
    • G06F16/20Information retrieval; Database structures therefor; File system structures therefor of structured data, e.g. relational data
    • G06F16/28Databases characterised by their database models, e.g. relational or object models
    • G06F16/289Object oriented databases
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F16/00Information retrieval; Database structures therefor; File system structures therefor
    • G06F16/90Details of database functions independent of the retrieved data types
    • G06F16/95Retrieval from the web
    • G06F16/958Organisation or management of web site content, e.g. publishing, maintaining pages or automatic linking

Definitions

  • the field of the present invention relates generally to computer systems, computer data stores and to methods and software for accessing and utilizing data stores. More particularly, the present invention relates to a system, methods and software for creating or maintaining distributed transparent persistence of complex data objects and associated data stores. In one aspect, the invention also relates to an application programming object capable of creating or maintaining distributed transparent persistence of data objects or data object graphs without the necessity of inserting any byte codes or modification of the object graph. Virtually any java object or object graph can be transparently persisted. Further, copies of a data graph or a portion of the data graph can be automatically reconciled and changes persisted without any persistence coding in the object model.
  • the methods for producing persistence for a data object, complex data object or a data store conflict with the goals of producing pure object application models where the object models do not include persistence objects or persistence byte code.
  • Patent 5,857,197 (and its associated programming interfaces (“APIs”)) describes tools for translating object data to relational data, relational data to object data, and object data to object data to expedite the use of data stores.
  • Persistence problems arise with the creation, access, changing or deleting of an object application model that utilizes such data stores.
  • the object application model may be distributed over multiple physical computer machine locations or eyen distributed over multiple Internet website locations that may be independent of the data stores.
  • the object application model may utilize a different set of data objects or different set of definitions for relationships between data objects than that of one or more of its data sources. In most situations, the respective structures of the data sources and of the object applications model simply do not conveniently allow for mapping, accessing or changing of an overall schema of application data objects as well as any associated definitions of relationships between two or more data objects or elements within a data object.
  • relationships may exist between a data object and one or more of the other data objects found in the object application model or in a data object of the data source.
  • a relationship between one data object and another data object or with a data source may be member selected from the group of three relationship types consisting of 1 to 1 (1-1), 1 to many (1-M) or many to many (M-M). Complex combinations of these relationships may exist as a data object relationships definition for a given data object. These relationships are described or illustrated in further detail later in this document.
  • Objects may logically span multiple relational tables or multiple object databases, and may even be distributed over a logical (or hypothetical) computer system involving multiple physically independent computer systems or even multiple website locations.
  • Creating, accessing, maintaining or updating an object application model can require working with multiple translation modules and require tedious and repetitive updating of multiple individual computer systems or multiple data sources in order to do useful work and keep the object application model synchronized.
  • Such approaches are both costly and unwieldy in terms of computing and development resources, particularly with respect to Internet based electronic commerce (eCommerce) object application models.
  • Data objects of an object application model are often a feature of eCommerce object programming applications, where information is obtained from a data source and the data is defined as a data object (e.g., as a Java class) for use with another computer application.
  • a data object or model of data objects may exist only in the random access memory of a computer memory system, or may be saved to either a data source or to some other type of retrievable information repository.
  • a programmer or administrator of an object data application cannot easily access or track the overall model or diagram of data objects for an object application model or some of its specific elements.
  • tools for accessing and persisting data objects and associated data object relationships of a complex data object graph model have not been well implemented in the field of object language programming.
  • a computer application can execute one or more of the following non-limiting actions with respect to one or more of the members selected from the group consisting of data, a data object, and a data object definition: access data, change data, create data, create a new relationship between one or more data objects by creating or changing at least one data object relationship definition, change or delete a relationship between one or more data objects by changing or deleting at least one data object relationship definition, access a data object relationship definition and use its parameters to access a data source or a data object, and access one or more data object relationship definitions or data objects to create a new data object or data object relationship.
  • a data object and an associated data object relationship definition may be represented by a complex data object graph ("CDOG").
  • CDOG for the purposes of this document, may be thought of as a computer program data object graph that represents a data object having at least one relationship with at least one other data object or with itself via a circular link.
  • JDOG Java Data Object Graph
  • a computer applications programmer tool designed to assist a programmer or administrator in the actions of providing persistence for data objects or data object graphs when deleting, inactivating or updating a CDOG
  • the computer applications programmer tool can be configured to automatically reconcile all or a portion of a CDOG and copies thereof on a distributed environment when data objects or relationships are inserted, deleted, inactivated or updated for a CDOG.
  • Class as referred to in this document in the context of computer software applications is a logic unit in a computer application or a computer software program where the application or program is based upon an objected oriented programming language (e.g., Java).
  • objected oriented programming language e.g., Java
  • a class is a logical unit used as a logical template in an object oriented language from which to allocate new instances of objects.
  • Object as used in the context of this document is a general term referring to a logic unit in a computer application or a computer software program where the application or program is based upon an objected oriented prograrnming language (e.g., Java).
  • object may ordinarily be used interchangeably with the term “class” as a template or as an instance depending on the context.
  • Data object as referred to in the context of this document represents the concept of the occurrence of an object that holds data within a specific computer application domain and is likely to have its contents stored in a persistent data source of a computer system (e.g., a database server, a binary file, a text file, or even in a combination of two or more of such a persistent data sources of a computer system).
  • a data object may exist as an independent data object without any relationship to any other data object or it may have one or more relationships with itself or with one or more other data objects.
  • Complex data object refers to the occurrence of a data object that has at least one or more relationships with itself, or at least one or more relationships with one or more other data object(s). In a given instance of a CDO at least one relationship is populated as a link, as defined below.
  • a CDO may have a multiplicity of different relationships with itself or with one or more additional CDOs.
  • Relationship or "data relationship” as used in the context of a CDO refers to the type of logical combination that occurs between a data object with itself, or refers to the type of logical combination that occurs between a data object and at least one another data object. Among other references or descriptions, such a relationship is always referred to or partially described by a "relationship type". This term is used in an object oriented language context to reference or describe any expectations, actions and limitations possible between two or more data objects.
  • Relationship type in the context of this document is a label that specifies the possible multiple combinations that can occur between a CDO and itself or with at least one other CDO.
  • the possible relationship type labels are 1-1 (one to one), 1-M (one to many) and M-M (many to many).
  • a given CDO may be simultaneously related to more than one other CDO through several different types of relationship. This is also sometimes referred to as the multiplicity of the relationship.
  • Link as used in this document with respect to a CDO identifies a particular occurrence of a relationship between a CDO and itself, between a CDO and another CDO. The occurrence of at least one populated link results in an instance of the CDO. This may be considered a synonym for a "relationship" between two objects.
  • “Circular link” as used in this document with respect to a CDO identifies a particular occurrence of a relationship between a CDO and itself that may be direct or indirect (e.g., linked to itself through another CDO).
  • Relationship definition or “relationship description” in the context of this document and computer software applications refers to information, or an abstraction of information, regarding a “relationship”, “data relationship” “relationship type” or a “link” that can be stored, accessed, transferred, communicated, displayed or edited.
  • Complex data object graph or "CDOG” is a term employed herein as an abstraction to logically represent a set of complex data objects and a set of their corresponding relationships.
  • Java data object graph or "JDOG” is a term employed herein as an abstraction to logically represent a set of complex data objects and a set of their corresponding relationships that are part of a Java programming application.
  • Application model or simply “model” are essentially interchangeable terms employed herein as abstractions to logically convey a collective description or other representation for a set of complex data objects and a corresponding description or other representation of their relationships. In one respect, these terms are used logically herein provide a general way of efficiently communicating when referring to set of metadata (i.e., data about data) that describes possible data entities (e.g., objects, database tables, maps, etc,) data relationship types, and data constraints involved in a computer system or application, or in a specific instance of an application. It is important to understand the context in which the terms "application model” and “model” are used in this document.
  • model is an abstraction rather than a specific possibility or instance of the model as applied.
  • application model or “model”. From the context of its use the term will be clear.
  • the model is the abstract relationship between classes, wherein the CEDO is an instance (or set of instances) that expresses) the model.
  • “Navigation”, “navigating” or “navigated” in the context of the present document refers to an action implementing at least one object to interact with a set of related objects for a certain purpose, such as creation, access, insertion, modification and deletion of an object, or of one of its relationships. It is the physical act of traversing the relationships, which might be referred to as “walking up or down the graph” in common lingo.
  • “Navigation model” as used herein is a special type of application model that is applied specifically to a description (or other representation) of how objects can relate to each other and what might be the expected behavior when a CDOG is navigated for a certain, purpose.
  • Object schema is a term employed herein as an abstraction referring to the set of data object classes that describe the possible data objects that can be created, modified or maintained in an application, or describing an instance of a set of data object classes in an application.
  • Distribution Transparent Persistence is a term employed herein as an abstraction referring to the concept of providing persistence for a member selected from the group consisting of a data object, a data object graph, associated data and data object relationships in a distributed environment without the need for the insertion of byte code or data objects in an object model or schema.
  • CocoBase Proxy Classes is a term employed herein used in referring to wrapper classes that provide CocoBase runtime compatibility for objects that aren't inherently database aware.
  • a computer system can persist the attributes and data for any data object that is wrapped with a CocoProxy wrapper class by simply using CocoBase facilities.
  • CocoBase facilities For example, source code for the (attribute based) CocoProxy and (get/set method based) CocoProxyM classes are available under the thought ⁇ cocode o3tier3i ⁇ demos ⁇ pguide directory, when the CocoBase software tools suite is installed on a computer system. This optional design provides an extensible mechanism for instances of data extraction and propagation.
  • CocoBase Navigation API is a term employed herein to refer to an example of an API that provides database relationship mapping and object graph management capability for persistent objects. Database relationships are mapped to object links using CocoBase Navigator link definitions. Persistence control is provided at each class level in the object graph. Each of the Select, Insert, Update and Delete operations are individually configurable.
  • CocoBase Transaction API is a term employed herein to refer to an example of an API that provides object oriented transaction support. Transaction objects are used to persist data object attributes and maintain synchronization between database and in memory attribute values. The Transaction API has many built in optimizations, and applications utilizing CocoBase transactions generally benefit from reduced database and network overhead. This facility allows the developer to group together object changes into a single unit of work whose implementation or storage will succeed or fail all at once.
  • CocoBase Factories is a term employed herein to refer to examples of software modules and softwares libraries that are used to provide automated, custom object instantiation behavior. Factory behavior is completely customizable. For example, a factory may be used to bind newly instantiated objects to a transaction object, to load a graph of related objects using the CocoBase Navigator, or to implement polymo ⁇ hism in a database result set.
  • a ProxyFactory class is part of the current CocoBase software tools suite distribution in the thought ⁇ cocodemo3tier3i ⁇ deinos ⁇ pguide directory, and this factory returns result set objects wrapped in a CocoProxy wrapper, when a CocoProxy wrapped key object is passed into the CocoBase runtime software module as part of a query that needs processing by the CocoBase runtime module.
  • CocoBase Repository is a term employed herein as an abstraction referring to a datasource to dataobject mapping repository and associated software modules that is installed into a datasource (or may optionally be a single stand alone file or set of files that circumscribe a set of datasource to dataobject mapping definitions and associated software modules, or may be an alternate data source).
  • a repository can optionally be in a format such as XML, XMI and the like. See, U.S. Patent Number 5,857,197, the CocoBaseEnte ⁇ rise O/R Tools Suite, and the co-pending patent appliction entitled "Dynamic Object-Driven Database Manipulation and Mapping System" for more detailed descriptions of mapping repositories, and the like.
  • CocoBase Transparent Persistence for Objects and Object Models All models using a relational database for map storage require the CocoBase repository to be installed into the database, or in a stand-alone source accessable to CocoBase.
  • the installation of a mapping repository can occur automatically, if required, when using CocoAdmin to log into the database.
  • Pre-existing database tables can be used, provided that the CocoBase repository is first installed into the database, or accessible to CocoBase from an alternate location.
  • applications that implement CocoBase transparent persistence are included in the CocoBase software tools suite distribution (see the distribution documentation for the location of folders or directories containing such examples).
  • An object of the present invention is to provide a system for creating or maintaining transparent persistence of a complex data object, a complex data object graph (CDOG) model, or a portion of a CDOG.
  • an object of the present invention is to provide such a system that can selectively persist all or a portion of a CDOG model when the model is a member selected from the group consisting of an object model generated from a data object mapping repository and an object model generated from data object modeling tool repository.
  • a further object is to provide such a system is located on, or is part of, a local or distributed computer system.
  • An object of the present invention is to provide a method for creating, maintaining, accessing, navigating and persisting complex data objects stores in a repository.
  • an object of the present invention is to provide such a method having the step utilizing the storage facilities of an ente ⁇ rise EJB server to store and maintain the data object graph.
  • such a method involves a local or distributed computer system.
  • An object of the present invention is to provide a computer software component that operates in an EJB environment, or the like, wherein the component has the capacity to access an object model repository or an instance thereof in a computer memory or in another temporary computer storage store device and persist at least one action selected from the group consisting of creating, maintaining, accessing, navigating, updating or deleting complex data objects as a CDOG model.
  • the computer software component is an Ente ⁇ rise Bean selected from the group consisting of Stateless, Stateful and Entity Beans.
  • the computer software component is an EJB Session Bean built on top of CocoBase runtime libraries having the ability to persist all or a portion of a CDOG model or instance thereof.
  • An even more preferred object is to provide such a computer software component capable of transparently persisting all or a portion of a CDOG model or instance thereof for a local or distributed computer system and automatically reconciling and persisting any changes to an instance of the CDOG model or any changes to the repository definition for the CDOG model.
  • a preferred object of the present invention is to provide a software tool comprising a navigation API and software component ( as described above), adapted for a local network or a distributed network environment, wherein said software tool provides persistence in an object oriented language environment transparently by implementing a configurable network component capable of acquiring and persisting CDOGs through network APIs.
  • a further object of the present invention is a software tool capable of reading a source programming object logic model or a database in a format selected from the group consisting of a UML data file a XMI data file, and a XML file and converting the information into a target member selected from the group consisting of a database definition XML file, a database mapping definition file, and a CDOG definition file.
  • the software can automatically generate a transparent persistence layer that corresponds to the object model information of the source file.
  • a further object of the present invention is to provide a software module and source code known as a an Java entity bean (such as a generic session bean) that is capable of providing persistence of either or both of a data objects and a data model, in total or in part as determined through setting established by a user of the computer system.
  • a software module and source code known as a an Java entity bean (such as a generic session bean) that is capable of providing persistence of either or both of a data objects and a data model, in total or in part as determined through setting established by a user of the computer system.
  • FIG. 1 is a complex data object (CDO) graph drawing, which illustrates a customer object and some of its related objects (billing address, orders and items ordered), as well as relationships between the objects. Relationships of the types 1 to 1 (1-1) and 1 to many (1-M) are shown in this CDO graph. More specifically, FIG. 1 illustrates a CDO graph drawing presenting an instance of a customer object 1 having a 1 to 1 (1-1) relationship (5) with its customer billing address object 10, and a 1 to many relationship (collectively 15, 25, and 35) with the three outstanding order objects 20, 30 and 40, respectively.
  • Order object 20 is an instance of an outstanding order object having a 1 to many relationship (collectively 45 and 55) with the two items ordered objects 50 and 60, respectively.
  • Order object 30 is an instance of an outstanding order object having a relationship with a single order item, but order object 30 has a 1 to many relationship (65) with the item ordered object 70, since many order items could have been associated.
  • Order object 40 is an instance illustrates a 1 to many relationship (collectively 75 and 85) with the two items ordered objects 80 and 90, respectively.
  • FIG. 2 is a complex data object (CDO) graph drawing, which illustrates a company object and some of its related objects (co ⁇ orate address object and some of its departments and employees), as well as relationships between the objects. Relationships of all three types: 1 to 1 (1-1), 1 to many (1-M) and many to many (M- M) are shown in this CDO graph. More specifically, FIG. 2 illustrates a CDO graph drawing presenting an instance of a company object 100 having a 1 to 1 relationship (650) with its co ⁇ orate address object 700, and a 1 to many relationship (collectively 150, 250, and 350) with the three company department objects 200, 300 and 400, respectively.
  • CDO complex data object
  • the company department objects 200, 300 and 400 in FIG. 2 are three instances (many) of company department objects having relationships (425, 450, 550 and 575, respectively) with two (many) employee objects (respectively, 500 and 600).
  • the cross-assignment of employee object 500 to both company department objects 200 and 300, and of employee object 600 to both company department objects 300 and 400, illustrate a complex many to many (M-M) relationship of departments to employees for this company.
  • the present invention provides a system for creating or maintaining persistence for all or a part of a complex data object graph model when a user is creating, maintaining, accessing and navigating complex data objects as a complex data object graph model.
  • the system comprises a computer system having a user interface, a working memory storage area and at least one device for permanently storing information, and said system being loaded with at least one portion of a computer software program, wherein said software program comprises at least one user access interface and a set of programming routines designed for creating or maintaining transparent persistence when a user is creating, maintaining, accessing and navigating complex data objects as a CDOG model.
  • the present invention provides such a system that can persist any part or all of a CDOG model instance, and to resolve and persist any changes to the model or to the repository for the CDOG model.
  • a system providing a point and click graphical user interface.
  • the present invention provides a method for creating, maintaining, accessing, navigating and persisting complex data objects stores as a CDOG model and providing transparent persistence in a distributed environment, comprising the steps of: a) creating or accessing a CDOG representation definition or accessing an instance of the CDOG, b) monitoring and recording any changes to the CDOG or a portion thereof on a local or distributed computer system, and c) persisting any changes to the CDOG on a local or distributed computer system by updating the CDOG or CDOG representation definition to reflect and changes to any copies of the CDOG or CDOG representation definition, and saving a copy of the updated CDOG representation definition to a data source or to another type of information repository.
  • the present invention provides such a method wherein the information data is a data store managed by an EJB Ente ⁇ rise server.
  • an EJB Ente ⁇ rise Java Bean is the software component having the ability to access a CDOG repository file, an UML XMI file or an instance of the at least one portion of the CDOG in a computer's memory or on a distributed network and provide the transparent persistence for the CDOG model.
  • the present invention provides a computer software program having at least one user interface and having at least one feature that provides for at least one action selected from the group consisting of creating or maintaining transparent persistence when a user of a CDOG model is creating, maintaining, accessing or navigating a CDOG model.
  • the present invention provides a software program, or an association with a software program, having a feature for displaying, printing or displaying and printing a representation of the CDOG model as a graph, or as a set of tables representing a CDOG model.
  • such a software program has an editing interface for editing the CDOG model, or has an editable input or source, such as a file, that can be modified to implement changes to the complex data object CDOG model (or has both an interface for editing and an editable input or source, such as a file).
  • the present invention also provides an application programming interface ("API"), as a preferred embodiment, wherein the API can be accessed to create, maintain, access, navigate and persisting complex data objects as a CDOG model.
  • the API can be accessed by an independent computer software program, or by a computer software program module that is part of a software package including the API, to provide at least one action selected from the group consisting of creating, maintaining, accessing, navigating and persisting complex data objects as a CDOG model.
  • the present invention provides such an API as part of a software tool package that provides a method for displaying or printing a representation of the CDOG model as a graph or set of tables representing the CDOG model (or providing methods for both displaying and printing a representation of the CDOG model).
  • such a software tool package that includes the API provides an editing interface for editing the CDOG model, or has an editable input or source, such as a file, that can be modified to implement changes to the CDOG model (or provides both an editing interface and an editable input or source, such as a file,).
  • a preferred embodiment of the present invention provides a software tool comprising the API according ( as described above), adapted for a local network or a distributed network environment, wherein said software tool provides persistence in an object oriented language environment transparently by implementing a configurable network component capable of acquiring and persisting CDOGs through network APIs.
  • the CDOG API is the CocoNavigator API (or the more automated CBFacade API) which provides support for manipulating complex objects in conjunction with the THOUGHT Inc. CocoBase Ente ⁇ rise Object/Relational (O/R) database (hereinafter "CocoBase") mapping tool (see U.S. Patent 5,857,197 (inco ⁇ orated herein in its entirety), for concepts upon which the CocoBase mapping tool is based).
  • An object is considered to be complex when it has established or potential relationships (i.e. links) to other objects. For instance, a Company object instance may be linked to an instance of its co ⁇ orate address and instances of a Department object, which in turn may be linked to a set of instances of Employee objects.
  • FIG.2 An example of such an CDOG is shown in FIG.2, for example.
  • the combination of these objects and their links constitute a graph of objects (CDOG model) that can be manipulated using the CocoNavigator API. Since the CocoNavigator API (or the CBFacade) works in a Java Programming language environment, this CDOG example may also be referred to as a JDOG example.
  • the invention provides a system for creating or maintaining transparent persistence of a member selected from the group consisting of a data object, an object graph model and a portion of an object graph model when a user of the system is creating, maintaining, accessing or navigating complex data objects as a CDOG model, comprising: a) a set of definitions for the relationships between a data source schema and objects capable of sotring data for an object language application, wherein the set of definitions is stored in a repository; b) a set of definitions for the relationships between objects for an object language application, c) an object name, a list of objects, or a set of objects that are to be persisted, d) an object or set of objects as a programming module that contains logic capable of persisting an indicated object or set of objects, e) an input method to inform the programming module of d) with the location of information related to a), b) and c), and f) at least one data source to which persisted data may be stored.
  • a preferred system as described above is such a system that does not require any modifications to an object model or the inclusion of any persistence byte code in the object model in order to provide persistence for all or a portion of the CDOG model. More preferred is such a system that provides persistence for a CDOG model on a distributed network environment. Even more preferred is such a system for creating or maintaining transparent persistence of a member selected from the group consisting of a data object, an object graph model and a portion of an object graph model when a user of the system is creating, maintaining, accessing or navigating complex data objects as a CDOG model, wherein d) comprises a generic ejb stateful session bean. Even more preferred is such a system that provides persistence for a CDOG model on a distributed network environment.
  • such a system as described above does not require any modifications to an object model or the inclusion of any persistence byte code in the object model in order to provide persistence for all or a portion of the CDOG model, wherein d) comprises a generic ejb stateful session bean.
  • the invention provides a software module, or set of modules, for creating or maintaining transparent persistence of a member selected from the group consisting of a data object, an object graph model and a portion of an object graph model when a user of the system is creating, maintaining, accessing or navigating complex data objects as a CDOG model, comprising: i) a software module for creating a set of definitions for the relationships between a data source schema and its stored data to objects in a object language application, ii) a software module for creating set of definitions for the relationships between objects in an object language application, iii) a software module providing an input means for an object name, a list of objects, or a set of objects that are to be persisted, iv) a software module containing the programming logic to persist an object or set of objects based upon access to (a) a set of definitions for the relationships between a data source schema and objects capable of storing data for an object language application, (b) a set of definitions for the relationships between objects for
  • a preferred embodiment of the above invention comprises a software module, or set of modules, as described above, for creating or maintaining transparent persistence of a member selected from the group consisting of a data object, an object graph model and a portion of an object graph model when a user of the system is creating, maintaining, accessing or navigating complex data objects as a CDOG model, comprising software code for generating, accessing, or maintaining a generic ejb stateful session bean object as part of the software module of iv).
  • the invention provides a software tool comprising the API according to the invention or interfacing therewith, wherein the software is adapted for performing the following steps: a) reading a source programming object logic model or a database definition in a format selected from the group consisting of a Unified Modeling Language (“UML”) data file, an XML Metadata Interchange (“XMI”) data file, and an Extensible Markup Language (“XMI”) file; and b) converting the information of (a) into a target member selected from the group consisting of a database definition XML file, a database mapping definition file, and a CDOG definition file.
  • UML Unified Modeling Language
  • XMI XML Metadata Interchange
  • XMI Extensible Markup Language
  • the present invention provides a software tool as described above that is adapted for performing at least one of the following additional steps: a) displaying a representation of a source programming object logic model or a database definition file in a format selected from the group consisting of a UML data file, a XMI data file, and a XML file; b) storing a representation of a source programming object logic model or a database definition file in a format selected from the group consisting of a UML data file, a XMI data file, and a XML file; c) printing a representation of a source programming object logic model or a database definition file in a format selected from the group consisting of a UML data file, a XMI data file, and a XML file; d) displaying the target information of (b); e) storing the target information of (b); and f) printing the target information of (b).
  • the software tool described above provides target information that is at least one member selected from the group consisting a CocoBase database definition repository file, a CocoBase map, a CocoNavigate (or CBFacade) CDOG definition, a CocoNavigate (or CBFacade) object link descriptor, and a CDOG object graph definition data file.
  • target information is at least one member selected from the group consisting a CocoBase database definition repository file, a CocoBase map, a CocoNavigate (or CBFacade) CDOG definition, a CocoNavigate (or CBFacade) object link descriptor, and a CDOG object graph definition data file.
  • the source is a UML/XMI document containing sufficient DTD information to exchange modeling information with a UML modeling tool.
  • the software tool can be set to automatically generate a persistence layer that corresponds to the source UML class diagrams provided by an exported source file from a case tool capable of exporting UML/XMI, such as Rational Rose, Together and ArgoUML.
  • a CDOG Navigator API such as the CocoNavigator API
  • CocoNavigator API can provide at least one object to intercept any accesses to the data objects and their relationships that constitute the CDOG, as well as any changes to the data source upon which the CDOG depends, in order to provide a means to persist any changes to the CDOG (or CDOG model) or related data in the data source.
  • Any changes to the CDOG (or CDOG model) can then be propagated by the CDOG Navigator API to a persistent data source through a CocoBase Ente ⁇ rise O/R connection.
  • persistent data that updates a data source can be utilized to create a CDOG model or to update a CDOG model.
  • Each CDOG (or CDOG model) managed by the CDOG Navigator API (or CBFacade) can be associated by the CDOG Navigator API (or CBFacade) with a CDOG descriptor (such as a file) that may be utilized to represent all or part of a "navigation model".
  • a navigation model may be abstractly described as essentially a namespace in which a set of data objects and a set of link descriptions (i.e., relationship types between data objects) are each defined.
  • a data source, data field, data field size and data field type are listed for each data object in the set of data objects.
  • At least one link description for two data objects, or for a single data object having a circular link contains one or more of the following types of information (however other related information may be utilized):
  • CocoBase map that will impact upon a relationship between two data object should be cascaded to other related map(s) a setting parameter indicating whether a deletion of information from a particular CocoBase map that will impact upon a relationship between two data object should be cascaded to other related map(s)
  • CocoNavigator API When utilized with the CocoBase mapping tool, or with a similar mapping tool, are as follows:
  • a preferred embodiment of the CocoNavigator API or an associated program module is configured to allow many navigation models to be used with the same set of java classes and CocoBase maps that are associated with a CDOG model.
  • This preferred embodiment API, or an associated computer program module may also be configured to permit a user to switch dynamically from one such navigation model to another.
  • a given application is being executed, it is possible to completely change the relationships between data objects and how CDOGs of a CDOG model should be managed.
  • a preferred embodiment of the CocoNavigator API, or an associated computer program module, is configured to permit a user to create, access, support and correctly manage circular data object links.
  • a circular link may be defined as occurring when a data object is directly or indirectly linked to itself as part of a CDOG. Such relationships can be created, accessed, supported and correctly managed via the CocoNavigator API.
  • a preferred embodiment of the CocoNavigator API, or an associated computer program module is configured to permit a user to create, access, support and correctly manage links between data objects as either a bi-directional link or as an oriented link.
  • links between data objects are usually bi-directional links and can be navigated back and forth as an un-oriented navigational model of the CDOG model. With such a bi-directional link feature activated, any object in the navigation model in a given CDOG model can be used as a navigation entry point.
  • the link In an oriented link navigation model, the link may be set as an oriented link accessible from a single direction. Thus, changes must be made from top down or from bottom up on a relationship tree representation of the navigation model, and some actions may need to originate from a pre-set node of the relationship tree.
  • such types of links can be created, accessed, supported and correctly managed via the CocoNavigator API.
  • the CocoNavigator API is configured to permit a user to populate any object property (e.g. , public field or a getter/setter pair) having its type declared as an object class with special dynamic proxies that can monitor and update the state of a relationship link.
  • object property e.g. , public field or a getter/setter pair
  • object classes are thought.Cocobase.navapi.LinkObjProxy of CocoBase and the Sun Microsystems java class, java.util.Vector. Bi- directional or single directional object references can be consistently maintained in this manner, or by other similar logical mechanisms.
  • the CocoNavigator API can be configured to automatically merge a data object and its properties into a CDOG navigation model representation when the class of object being navigated (being created, accessed, supported or maintained) has a property (e.g. , a field or a getter/setter pair) with a name matching the name of a corresponding link as defined in the navigation model.
  • a property e.g. , a field or a getter/setter pair
  • the CocoNavigator API can be configured to include a data object as a relationship link to another data object in a navigation model without the need to declare fields and properties for the data object.
  • Such links should be limited however to cases where no computer code dependency will exist between the java classes that will be associated with such linked data objects of the navigation model.
  • a navigation model can be a pure abstraction, and more reusable than just a populated version or single hypothetical instance of the abstraction.
  • the CocoNavigator API can provide an interface which can be configured to permit a visitor object to use this interface to visit (e.g. , access or change) a data object that is part of a CDOG navigation model.
  • a visitor object e.g. , access or change
  • a data object e.g. , access or change
  • CocoBase an example of CocoNavigator API implementing this concept might using a LinkVisitor object (class). Other similar classes may be defined for this pu ⁇ ose.
  • the visitor interface provides a way for a user to customize and adapt the software, and thereby allows a user to extend the functionality of the CocoNavigator API, or the functionality of an associated computer program module, to provide a desired customizable behavior in their CDOG navigation model.
  • the CocoNavigator API can be configured to operate as a tool to create, access, support and correctly manage a CDOG navigation model in a server environment (e.g., in an EJB container) and to persist any changes to the CDOG navigation model when a navigation model is distributed across a local network or when the navigation model involves a distributed network (e.g., a navigation model distributed across internet connections).
  • a CDO or a CDOG model of any complexity sent by clients (e.g., serialized copies) across a local network, or across a distributed network can be correctly merged into a CDOG model by the CocoNavigator API, or by an associated computer program module.
  • the CocoNavigator API can be configured to send a CDO or CDOG model to a client along with link proxies serialized with parts of the CDO or CDOG model that are being monitored by such link proxies.
  • link proxies serialized with parts of the CDO or CDOG model that are being monitored by such link proxies.
  • dynamic link proxies (described above in (d)) can be used by the client side. Accordingly, a CDOG navigation model can be created, accessed, supported, managed and persisted over a distributed network.
  • the CocoNavigator API can be configured to monitor some or all of the data objects (and associated relationship definitions) participating in links of a CDOG navigation model.
  • the data objects (and associated relationship definitions) participating in links of a CDOG navigation model can be loaded as they are needed (lazy loading) from a persistent data source or from another type of information repository.
  • This lazy loading feature can permit a very large CDOG navigation model to be loaded in a per-link basis as needed.
  • the lazy loading feature can be configured to prevent a link from being loaded twice and can be configured to detect cycles of related loads that have been previously loaded. Such configuration adaptability can be exploited to provide the more efficient use of the resources for a computer system or network or for a distributed computer network.
  • CocoBase transactions Some examples of preferred features that can be provided by the CocoNavigator API and its associated software, which are particularly enhanced when utilized with the currently existing CocoBase mapping tool, are as follows: (aa) CocoBase transactions
  • a preferred embodiment of the CocoNavigator API or an associated program module is configured to bind a data object or data object relationship of a CDOG navigation model with a CocoBase transaction. Such configurations may be utilized to optimize access to the database server and to enhance performance of the computer system, or systems, involved with the CDOG navigation model.
  • the CocoNavigator API or an associated program module can be configured to automatically detect non-CBProp objects (objects with classes that do not implement the CocoBase interface known as the CBProp interface), and automatically create proxies in order to persist such objects as part of a CDOG navigation model.
  • non-CBProp objects objects with classes that do not implement the CocoBase interface known as the CBProp interface
  • the CocoNavigator API or an associated computer program module can be configured to use proxy classes of CocoBase, such as the CocoProxyM classes, when appropriate.
  • proxy classes such as the CocoProxyM classes can provide a system for creating, accessing, supporting, properly maintaining and persisting virtual foreign key fields (i.e., foreign key fields do not need to be defined in the object class for Java programming implementations) by the CocoNavigator API, or by an associated computer program module.
  • the CocoNavigator API or an associated computer program module can be configured to use a configurable network component capable of acquiring and persisting CDOGs through network APIs and thereby provide persistence transparently with respect to the applications that are using the CDOGs.
  • a software tool comprising the CocoNavigator API that is adapted for a local network or for a distributed network environment, wherein the software tool provides persistence in an object oriented language environment transparently by implementing a configurable network component capable of acquiring and persisting CDOGS.
  • Such a concept may be referred to as transparent persistence in the context of this API, because persistence can be obtained without requiring reconfiguring of an existing CDOG model or software application in order to provide such persistence to a computer software application.
  • the CBFacade or other modules containing high level API's can be utilized that can function in place of the CocoNavigator API (or coordinate with it) to automate many of the transparent persistence functions.
  • a software module or modules can be utilized in concert with a local or distributed implementation such as a session bean to provide an easier and quicker establishment of transparent persistence.
  • the CBFacade can provide the functions as defined in (dd) and the session bean can provide a communication link between modules such as a transaction API and the navigation API (and/or with the CBFacade) to assure that transparent persistence occurrs as required.
  • Such transparent persistence in the context of this API can be obtained without requiring reconfiguring of an existing CDOG model or software application in order to provide such persistence to a computer software application.
  • CocoNavigator API has an at least one user access interface, at least one data source access interface and at least three main programming modules consisting of the following programming modules or routines:
  • a programming module or routine constructed to operate on a computer system and to provide the following features to a user or to a software program module of the computer system: a) a computer programming sub-routine or sub-module for obtaining from a member selected from the group consisting of a data source, an information repository, and an input device, sufficient information to construct a CDOG model containing one or more CDOGs, b) a computer programming sub-routine or sub-module for constructing and loading into the memory registers of the computer system a CDOG or a CDOG model representation definition from a data source or other repository, and c) a computer programming sub-routine or sub-module for sending a copy of some portion or all of the CDOG representation definition to a user or to a software program module on a local computer system or on a distributed network;
  • a programming module or routine constructed to operate on a computer system and to provide the following features to a user or to a software program module of the computer system: a) a computer programming sub-routine or sub-module for monitoring a user or a software program module on a computer system that has accessed or changed a portion of a CDOG or CDOG model, which is included in the CDOG, or CDOG model, representation definition of (I), above, and obtaining any changes to the CDOG or CDOG model, b) a computer programming sub-routine or sub-module for monitoring a user or a software program module on a computer system who has obtained a copy of any portion of the CDOG, or CDOG model, representation definition, and for obtaining a copy of any changes that the user might have made to any portion of the CDOG, or CDOG model, representation definition, and c) a computer programming sub-routine or sub-module for comparing a copy of a CDOG, CDOG model, or a representation definition of either the CDOG or CDOG
  • a programming module or routine constructed to operate on a computer system and to provide the following features to a user or software program module of the computer system: a) a computer programming sub-routine or sub-module for storing a new CDOG or CDOG model, or storing a definition of either the CDOG or CDOG model, in a data source or in another information repository, and b) a computer programming sub-routine or sub-module for persisting (saving to permanent storage) either a changed portion of an updated CDOG, an updated CDOG model, or an updated definition representation for either a CDOG or a CDOG model, to a data source or to another type of information repository.
  • the CDOG API according to the invention can be written with an interface that accesses and uses functionalities of the CocoBase mapping tool, associated programming routines, or associated class libraries. Both the object code and the source code of the CDOG API are contemplated as part of this invention.
  • the above described CDOG API can be accessed to create, maintain, access, navigate and persisting complex data objects as a CDOG model.
  • the API can be accessed by a computer software program such as the CocoBase mapping tool, or by a computer software program module that is part of a software package including the API, to provide at least one action selected from the group consisting of creating, maintaining, accessing, navigating and persisting complex data objects as a CDOG model.
  • the present invention provides such an API as part of a software tool package having a feature or method for displaying or printing a graph or set of tables representing a CDOG or a CDOG model.
  • such a software tool package including the API provides an interface for editing a CDOG, a CDOG model, or for editing a representation definition for a CDOG or a CDOG model to provide a modification that implements a change to a CDOG, or to its definition.
  • a software component according to the invention that is capable of persisting all or a portion of a CDOG may be an Ente ⁇ rise Java Bean selected from the group consisting of Stateless, Stateful or even Entity Beans.
  • CocoBase Ente ⁇ rise Beans are a preferred embodiment of the invention and constitute a set of Ente ⁇ rise Java Beans build upon or accessing CocoBase Runtime and EJB APIs to provide persistence in a generic, efficient and transparent way. Distributed transparent persistence can be provided without the need for any object model changes or byte code modifications.
  • CBEBs can be directly deployed on an EJB server with or without customized settings and are capable of persisting virtually any Java Object, any Java Object graph or any portion of the Object graph.
  • Java Objects of any complexity that are arbitrarily created by client applications can be persisted, and the corresponding object classes can be properly mapped to a CocoBase repository or other object repository such as a UML XMI repository. Copies of the Java Object, any portion of an Object Graph, or all of an Object Graph can be automatically reconciled and the changes can be persisted to a storage repository.
  • the CocoBase Navigation API maps database foreign key -primary key relationships to object references.
  • the relationship maps (sometimes referred to herein as navigation models), like the database maps, are stored in a special CocoBase repository, or may be converted into an XML file (or files) and stored in a stand-alone file or directory.
  • the Navigation API supports 1 to 1, 1 to M, and M to M links in both the object and relational spaces. For M to M relationships, an associative table and a corresponding associative map are required, since relational databases do not directly support M to M relationships.
  • a navigation model must be created, or properly reference, before CocoBase links can be defined.
  • a navigation model is a namespace used to categorize and store a set of link definitions. Generally, a single navigation model is sufficient for simple applications. Multiple navigation models are useful if an application switches between several relationship configurations. This allows different views of complex object data for the same set of underlying database tables. Having relationship mapping separated from table mapping is unique to CocoBase. Since maps can be used with multiple link models, it provides reusability at the mapping level.
  • the CBSession EJB is a Stateful Session Bean that works as an abstraction layer for CocoBase runtime classes. It provides generic transparent persistence to Java objects of any complexity in a simple yet elegant way. It is designed to run in any Java Application Server, thus combining CocoBase transparent object persistence capabilities with most features provided by such servers, such as transaction management, security, resource pooling and so forth.
  • the CBSession bean is very simple and easy to use.
  • session bean of Examples 2-4 below might be implemented and used:
  • Context ic new InitialContext(...);
  • Object ref ic.lookup("CBSession”);
  • CBSessionHome home (CBSessionHome) PortableRemoteObject.narrow (ref,CBSessionHome.class);
  • MyComplexObject obj new MyComplexObject()
  • coco_home/classes and coco_home/demos must be in your App Server classpath.
  • the Ant script build.xml will generate a deployable jar file with the CBSession bean for a particular server. Make sure the entry in the beginning of the build.xml file has the entry
  • Targets currently defined include WebLogic 6.1, JBoss 2.4 and a generic jar file. Each subdirectory corresponds to a server, containing the standard descriptor and proprietary descriptors for that server. These descriptors can be modified in case it is required to do so.
  • the jar file for JBoss can be generated as follows: os-prompt> ant jboss
  • IMPORTANT In order to have CBSession working for a particular application model, all the required java classes and resources (i.e. the map pre-load configuration properties file, the navigation model properties file) must be in the classpath (for example, these classes and resources could be copied to the coco_home/demos/resources directory, provided this directory is included in the app server classpath). Another alternative would be to add all needed classes and resources to the CBSession bean jar file. This can be done simply by copying these classes and resources to the directory corresponding to the target server and running the ant script again. For example, for JBoss, the following directory structure would generate ajar file with all classes and resources: cbsession
  • Examples 2-4 source code for CBSession Bean and its use are as follows:
  • the behavior of the session data source can be customized by
  • Object loadedObj this.nav.loadAllLinks(dbobj,mapName,true);
  • this.dataSource CocoDriver.getCocoDriver(this.prop_driver,”",tl ⁇ is.prop_url 5 this.prop_user,this.prop_p assword); if(this.dataSource instanceof thought.CocoBase.CocoPowder) ⁇ thought.CocoBase.CocoPowder.setSilentFlag(true);
  • CocoFactoryInterface() ⁇ public Object getInstance(Object src,
  • Object newContainedObject ((thought.CocoBase.CocoProxyM)src).getObject().getClass0.newInstance();
  • Enumeration keys props.keys(); while (keys.hasMoreElements()) ⁇
  • the CBFacadeRemote is a Wrapper API that works with the CBSession EJB (described in detail previously) It provides a high level API that simplifies the task of remote programming and distributed usage in a very elegant API. It is compatible with an interface which makes it possible to swap out Local and Distributed implementations at will, and at runtime. It is designed to run in any Java Application Server, thus combining CocoBase transparent object persistence capabilities with most features provided by such servers, such as transaction management, security, resource pooling and so forth.
  • Source Code File Name CBFacadeRemote.java package thought.CocoBase;
  • cocosource.navmodel navigation j-nodel_string
  • cocosource.jndiname cbsessionjndi_lookup_string
  • This document is a brief overview of how to create Java applications that use CocoBase Transparent Persistence features starting from SQL database tables. Such Transparent Persistence can be run locally on a system instead of in a distributed environment.
  • a local application server or a JSP server such as TomCat can be utilized to connect a JSP to a database and provide persistence of objects in the model or database.
  • dialog box will appear indicating a successful login and providing a number of task options and/or a tool bar with pull down windows.
  • a window will appear with a tree indicating connections and tables that are available.
  • a Link model is a set of Link definitions. Multiple Link models are useful when an application needs to switch between several relationship configurations, since it allows different views of complex object data over the same set of underlying tables.
  • the idea of having relationship mapping separated from table mapping is unique of CocoBase. It provides reusability at the mapping level, since a given Map can be reused across multiple Link models.
  • Link model usually, one single Link model is sufficient for a simple application.
  • To create a link model right click on the Links branch in the Map editor tree.
  • a pop-up menu like the following will appear giving options such as New Model, Import Model, Save, Save to location, Reload, and the like.
  • the new Link model will be inserted as a sub-node in the editor tree.
  • Link definition would normally be created for each foreign- primary key relationship in the database tables or, in the case of many-to-many relationships, for each associative table.
  • a Link definition is basically a combination of two roles, each having the following information: Map Name - the name of the Map participating in the relationship
  • Link Name the name of the link that connects to the Map in the opposite role. It normally matches the name of the object property (field or get/set method pair) that holds instances of the related objects.
  • Key Fields the comma-separated list of fields defined according to the following guidelines:
  • Java Class the full qualified name of the Java class that will be instantiated when the relationship is loaded from the database. This is normally a class corresponding to the Map specified in the opposite role.
  • M:M Key Fields - This is relevant only for many-to-many Link definitions and is the comma-separated list of the fields in the associative map that refer to the Key Fields of this role. In this case, the name of associative map must be specified in the box M:M Map Name.
  • Link definitions are given in published CocoBase literature. Click on the appropriate boxes to edit the Link definition for the model being defined. Repeat this procedure for each table relationship that is relevant to the application being developed.
  • CocoBase Maps Link models are not kept in the CocoBase repository in the current release. Instead, for each Link model, CocoBase will create a property file called modelname.properties containing all the Link definitions for that model. This property file is stored under the demos/resources directory (by default - although this can be overridden). As long as the property file describing the Link model is in the classpath (either directly or in a subdirectory called resources), CocoBase runtime classes will load the model and register the navigation information. CocoBase Transparent Persistence
  • CocoBase runtime classes can be used to provide transparent persistence to a Java Object Model which corresponds to the created Maps and Links.
  • CocoBase accomplishes transparent persistence with java object models without using bytecode manipulation, proprietary interfaces or class hierarchy intrusion. This means that no special classes or interfaces are needed in the Object Model in order to do persistence with CocoBase. The only requirement is that they must have a default constructor with no arguments.
  • CocoBase Runtime O/R mapping class that wrappers the JDBC driver and issues queries and does the actual persistence calls. This is a class such as thought . CocoBase . CocoPo der or thought . CocoBase . CocoPowder Plugin20 (for jdbc 2.0 connections).
  • CocoBase Transaction object that can track changes of instances, and acts as a change 'buffer'. If a Transaction object is used, then it only calls a CocoBase Runtime driver - O/R mapping runtime class - when the txn.commitQ is called.
  • the Navigator class can function in conjunction with a Transaction object or it can function standalone. While complex object graphs can be transparently managed directly by the Navigator and without the Transaction object, the use of the Transaction object is generally preferred because of its buffering and update optimizations which only persist those attributes that have changed. Creating Applications with CocoBase Transparent Persistence
  • CocoBase runtime classes can be used to persist instances of these classes.
  • CocoBase runtime classes can be used to persist instances of these classes.
  • CocoBase transaction object to manage any objects that are retrieved. Notice how the transaction object is configured through parameters and property settings.
  • CocoBase CocoProxyM (dept) , "Department") ;
  • the Navigator supports one-to-one, one-to-many & many-to-many link definitions with cycle detection. It also detects this locally or by reconciling serialized or copied objects without object model or bytecode intrusion. This is truly transparent persistence that's architected and designed for the NM oriented Java language. There are also more advanced applications included in the demos/pguide/navapi subdirectory that demonstrate all of the mapping one-to- one, one-to-many & many-to-many relationships as well as an EJB using the Navigator system to manage a graph of java objects.
  • This Appendix is an Example describing how to add CocoBase Transparent Persistence to Object Models and applications from SQL database tables (graphic dialogs have been omitted for simplicity, and the options and dialogs may vary somewhat with new releases). This can be done in a local non-distributed environment.
  • a wrapper can be used to wrapper objects and the CBSession class objects (Transparent Persistence mechanism). It is only a brief overview of what can be done with CocoBase.
  • the architecture and implementation presented here is uniquely suited to work in every application from the tiny local application to the enterprise J2EE and to do so with superior performance and manageability.

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Abstract

L'invention concerne des systèmes, des procédés et un logiciel servant à créer ou conserver une persistance transparente répartie d'objets de données (1, 10, 20, 30, 40, 50, 60, 70, 80, 90) et de magasins de données associés. Par ailleurs, l'invention concerne un objet de programmation d'application pouvant créer ou conserver une persistance transparente répartie d'objets de données ou de graphiques d'objets de données sans qu'il soit nécessaire d'introduire des codes à octets ou de modifier le graphique d'objet. Virtuellement, tout objet java ou graphique d'objet peut être sauvegardé de façon transparente. En outre, des copies d'un graphique de données ou d'une partie du graphique de données peuvent être automatiquement appariées et les modifications peuvent être sauvegardées sans codage de persistance dans le modèle objet.
PCT/US2003/006987 2002-03-07 2003-03-07 Mise en oeuvre de session javabean de systeme, procede et logiciel de creation ou de conservation de la persistance transparente repartie d'objets de donnees complexes et leurs relations de donnees WO2003077113A1 (fr)

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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5857197A (en) * 1997-03-20 1999-01-05 Thought Inc. System and method for accessing data stores as objects
US6263498B1 (en) * 1998-12-03 2001-07-17 International Business Machines Corporation Method and apparatus for enabling server side distributed object modification
US6269373B1 (en) * 1999-02-26 2001-07-31 International Business Machines Corporation Method and system for persisting beans as container-managed fields
US6298478B1 (en) * 1998-12-31 2001-10-02 International Business Machines Corporation Technique for managing enterprise JavaBeans (™) which are the target of multiple concurrent and/or nested transactions
US6327628B1 (en) * 2000-05-19 2001-12-04 Epicentric, Inc. Portal server that provides a customizable user Interface for access to computer networks
US6334117B1 (en) * 1996-11-27 2001-12-25 Diebold, Incorporated Automated banking machine and system

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Publication number Priority date Publication date Assignee Title
US6334117B1 (en) * 1996-11-27 2001-12-25 Diebold, Incorporated Automated banking machine and system
US5857197A (en) * 1997-03-20 1999-01-05 Thought Inc. System and method for accessing data stores as objects
US6263498B1 (en) * 1998-12-03 2001-07-17 International Business Machines Corporation Method and apparatus for enabling server side distributed object modification
US6298478B1 (en) * 1998-12-31 2001-10-02 International Business Machines Corporation Technique for managing enterprise JavaBeans (™) which are the target of multiple concurrent and/or nested transactions
US6269373B1 (en) * 1999-02-26 2001-07-31 International Business Machines Corporation Method and system for persisting beans as container-managed fields
US6327628B1 (en) * 2000-05-19 2001-12-04 Epicentric, Inc. Portal server that provides a customizable user Interface for access to computer networks

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