JP2011028352A - System design support device, system design support method, and system design support program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a system design support device, a system design support method and a system design support program, which improve flexibility of a system. <P>SOLUTION: The system design support device for defining a model figure having a plurality of layers with different definitions is provided with: a model figure drawing part 100 for drawing and displaying each layer and a model figure belonging to each layer; an input processing part 400 for receiving a part of the model figure belonging to any layer to be moved to another layer different from the current layer and event information showing that the other layer has been selected by the user; and a model figure processing part 200 for converting the model figure information of the part to be moved to the other layer into model figure information defined by the other layer when the event information is received. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a system design support apparatus, a system design support method, and a system design support program.

  In recent years, IT has advanced and various services have been incorporated into the system. The contents of this service change as the business environment changes. Therefore, there is a demand for the construction of a system that can be flexibly and quickly adapted according to changes in the business environment and the like. As an example of realizing such a system, there is an SOA (Service Oriented Architecture). SOA is an architecture that is intended to be applied to new services by componentizing applications in service units and combining these applications. In the SOA, a hierarchy can be formed for each editor that defines a service processing procedure, and the processing procedure can be defined for each layer. Therefore, processing procedures defined by different editors can be mixed in the system. Patent Document 1 below discloses a technique for generating a processing procedure.

JP-A-5-210493

  In the technique described in Patent Document 1, a processing procedure is generated by a specific editor. Therefore, when a part of the processing procedure generated by this editor is incorporated into a processing procedure generated by another editor, an operation of adding a part of the processing procedure using another editor occurs.

  The present invention has been made to solve the above-described problems, and an object thereof is to provide a system design support apparatus, a system design support method, and a system design support program that can improve the flexibility of the system. To do.

  The system design support apparatus of the present invention is an apparatus that supports the design of a system that has a plurality of layers and defines a model diagram of a service flow that has a different definition for each layer. A drawing means for drawing a model diagram belonging to a layer and displaying it on the display screen, and a model diagram belonging to the first layer, which is one of a plurality of layers displayed on the display screen, A part to be moved to a second layer different from the first layer, a receiving means for receiving event information indicating that the second layer has been selected, and a second unit when event information is received. Model diagram information conversion means for converting model diagram information relating to the model diagram of the portion to be moved to the layer into model diagram information defined in the second layer.

  The system design support method of the present invention is a system design support method that is executed by an apparatus that supports design of a system that has a plurality of layers and defines a model diagram of a service flow that has a different definition for each layer. A drawing step of drawing a plurality of layers and model diagrams belonging to the respective layers and displaying them on the display screen, and a first layer which is one of the plurality of layers displayed on the display screen A part to be moved to a second layer different from the first layer from the model diagram to which it belongs, a reception step for receiving event information indicating that the second layer has been selected, and event information is received. A model diagram information conversion step of converting model diagram information relating to the model diagram of the portion to be moved to the second layer into model diagram information defined in the second layer.

  The system design support program of the present invention causes a computer to execute each step included in the system design support method.

  According to the present invention, the flexibility of the system can be improved.

It is a block diagram which shows schematic structure of the system design assistance apparatus in embodiment. It is a block diagram which shows the detailed structure of the model diagram process part shown in FIG. It is a figure which shows the data structure of model figure figure information DB. It is a figure which shows the data structure of hierarchy specific information DB. It is a figure which shows the data structure of mapping rule DB. It is a figure which shows the data structure of editor setting DB. It is a flowchart for demonstrating the drawing process of a model figure. It is a flowchart for demonstrating the edit process of a model figure. It is a flowchart for demonstrating the conversion process of model figure information. It is a flowchart for demonstrating a model figure figure information conversion process. It is a flowchart for demonstrating the hierarchy specific information conversion process. It is a figure which illustrates the screen which displayed the integrated model figure. It is a figure which illustrates the screen at the time of editing a model figure. It is a figure which illustrates an edit screen. It is a figure which shows an example of the edit performed on an edit screen. It is a figure which illustrates the screen at the time of converting model figure information. It is a figure which illustrates the screen at the time of converting model figure information.

  DESCRIPTION OF EMBODIMENTS Hereinafter, preferred embodiments of a system design support apparatus, a system design support method, and a system design support program according to the present invention will be described with reference to the accompanying drawings.

  First, the system design support apparatus in the embodiment is mounted with an SOA. In this embodiment, the SOA environment is realized by four layers: a UI (User Interface) layer, a BPM (Business Process Management) layer, an ESB (Enterprise Service Bus) layer, and a WS (Web Service) layer. Yes. The UI layer is a layer that implements software for controlling input / output with a user, and in this embodiment, a browser is implemented. The BPM layer, ESB layer, and WS layer are layers that implement software that defines a model diagram that models a service flow that is a processing procedure. In this embodiment, an editor for BPM, an editor for ESB, and a WS Each editor is implemented.

  The system design support apparatus can mount a plurality of software programs for executing services according to the model diagram, and a hierarchy is formed by the plurality of software programs. That is, the system design support apparatus according to the present embodiment is provided with a BPM editor, an ESB editor, and a WS editor, so that a hierarchy of three layers of a BPM layer, an ESB layer, and a WS layer is formed. Yes. The system design support apparatus of this embodiment is characterized in that a part of a model diagram belonging to a certain hierarchy can be moved to a model diagram belonging to another hierarchy. The configuration and operation of the system design support apparatus having such characteristics will be described below.

  First, the configuration of the system design support apparatus in the embodiment will be described with reference to FIGS. 1 and 2. FIG. 1 is a schematic configuration diagram of a system design support apparatus. FIG. 2 is a detailed block diagram of the model diagram processing unit shown in FIG.

  As shown in FIG. 1, the system design support apparatus 1 includes a model diagram drawing unit 100 (drawing unit) having a function of displaying a model diagram, and a model diagram processing unit 200 (model diagram information) having a function of editing the model diagram. Conversion unit), a storage unit 300 having a function of storing various types of information, and an input processing unit 400 (receiving unit) having a function of inputting various types of event information by the user.

  The model diagram drawing unit 100 includes an integrated model diagram drawing unit 101 and a hierarchical model diagram drawing unit 102. The integrated model diagram drawing unit 101 integrates and displays the model diagrams of the respective layers. The model diagram is expressed by combining model diagram figures that are elements of the model diagram. The model diagram figure corresponds to, for example, a node indicating the processing content and a flow line connecting the nodes. The hierarchical model diagram drawing unit 102 is provided for each BPM layer, ESB layer, and WS layer. Each hierarchical model diagram drawing unit 102 displays model diagrams belonging to the respective layers.

  The model diagram processing unit 200 includes a hierarchical model diagram processing unit 201, a graphic information conversion unit 202, and a property mapping unit 203. The figure information conversion unit 202 and the property mapping unit 203 have a function as model diagram information conversion means for converting the model diagram information of the model diagram moved between layers so that it can be used in the moved layer. The model diagram information includes model diagram graphic information that is information related to the arrangement relationship of model diagram graphics and unique information that is information related to properties unique to each hierarchy.

  The hierarchical model diagram processing unit 201 is provided for each BPM layer, ESB layer, and WS layer. Each hierarchical model diagram processing unit 201 edits model diagrams belonging to the respective layers. The hierarchical model diagram processing unit 201 executes registration / update / deletion of a model diagram according to event information input from the input processing unit 400, for example.

  As shown in FIG. 2, the graphic information conversion unit 202 includes a storage unit 202a, a conversion unit 202b, a complementing unit 202c, and a reading unit 202d. The storage unit 202a stores model diagram graphic information, which is information about the model diagram graphic, in the model diagram graphic information DB 301. The reading unit 202d reads model diagram graphic information from the model diagram graphic information DB 301.

  With reference to FIG. 3, the data configuration of the model diagram graphic information DB 301 for storing model diagram graphic information will be described. The model diagram graphic information includes, for example, a hierarchy, ID, type, and arrangement information. In the hierarchy, identification information for specifying the hierarchy to which the model diagram figure belongs is stored. In the ID, identification information for specifying the model diagram figure is stored. The type stores the type of model diagram figure. Examples of model diagram figures include nodes, flow lines, and inter-hierarchical flow lines. The arrangement information stores information for specifying the position where the model diagram figure is arranged on the model diagram. For example, when the model figure figure is a node, the center coordinates of the node and the radius from the center coordinate are stored in the arrangement information. When the model figure figure is a flow line, the start point of the node The ID and the ID of the node that is the end point are stored.

  The conversion unit 202b illustrated in FIG. 2 refers to the model diagram graphic information DB 301, and converts the model diagram graphic information of a model diagram belonging to any one of the BPM layer, ESB layer, and WS layer to a model belonging to another layer. Convert to figure figure information. That is, the conversion unit 202b has a function of reflecting the arrangement relationship of the model diagram figure in the layer before the movement on the model diagram in the layer after the movement when a part of the model diagram is moved between the layers.

  The complementing unit 202c shown in FIG. 2 is a part in which when a part of a model diagram belonging to a certain hierarchy is moved to a model figure belonging to another hierarchy, the part moved to a different hierarchy remains in the hierarchy before the movement. Complementary processing such as generating nodes that connect the hierarchies is executed so that the processing proceeds by linking with. Examples of the complementary processing include, for example, processing for generating / editing a call node that calls a node of the model diagram after movement from the model diagram before movement, processing for generating / editing a reception node called by the call node, model after movement There is processing for generating / editing a reply node when returning from the diagram to the model diagram before movement.

  The property mapping unit 203 includes a mapping rule reading unit 203a, a mapping rule storage unit 203b, a property conversion unit 203c, a hierarchical specific information storage unit 203d, and a hierarchical specific information reading unit 203e.

  The hierarchical specific information storage unit 203d stores, in the hierarchical specific information DB 302, specific information that is information related to a unique property for each hierarchy. The hierarchical specific information reading unit 203e reads the specific information from the hierarchical specific information DB 302.

  With reference to FIG. 4, the data structure of the hierarchical specific information DB 302 that stores the specific information will be described. The unique information includes, for example, a hierarchy, ID, property, and value. In the hierarchy, identification information for specifying the hierarchy to which the unique information belongs is stored. In the ID, identification information for specifying the unique information is stored. In the property, identification information for specifying the property is stored. The value stores the value set in the property. As the property value, for example, when the hierarchy is a BPM layer or an ESB layer, there are a file name to be processed, a URL, a protocol, a timeout time, and the like. Further, when the hierarchy is the WS layer, there is information on the object type, constraints, and the like.

  The mapping rule reading unit 203a illustrated in FIG. 2 reads a mapping rule that is a conversion rule for specific information from the mapping rule DB 303. The mapping rule storage unit 203b stores the mapping rule in the mapping rule DB 303.

  With reference to FIG. 5, the data configuration of the mapping rule DB 303 that stores the mapping rules will be described. The mapping rule includes, for example, a rule ID, a hierarchy, a type, and a property. The rule ID stores identification information for specifying mapping rules belonging to the same group. The hierarchy stores identification information for specifying the hierarchy to which the mapping rule is applied. The type stores the type of model diagram figure. In the property, identification information for specifying the property is stored. A mapping rule is a grouping of properties that have the same meaning between layers. Therefore, when the rule ID and the type match between the layers, the property stored corresponding to the layer before conversion is replaced with the property stored corresponding to the layer after conversion, You can convert properties.

  The property conversion unit 203c illustrated in FIG. 2 refers to the mapping rule DB 303 and sets the unique information of the model diagram belonging to any one of the BPM layer, ESB layer, and WS layer to the uniqueness of the model diagram belonging to the other layer. Convert to information. That is, the property conversion unit 203c has a function of replacing the property of the model figure figure in the hierarchy before the movement with the property of the model figure figure in the hierarchy after the movement when a part of the model figure is moved between the hierarchies. .

  The storage unit 300 illustrated in FIG. 1 includes a model diagram graphic information DB 301, a hierarchical specific information DB 302, a mapping rule DB 303, and an editor setting DB 304. With reference to FIG. 6, the data structure of the editor setting DB 304 that stores editor information related to the editor used in each hierarchy will be described. The editor information includes, for example, a hierarchy and an editor. The hierarchy stores identification information for specifying the hierarchy using the editor. The editor stores identification information for specifying an editor used in the hierarchy.

  The input processing unit 400 illustrated in FIG. 1 includes a coordinate input unit 401, a coordinate input interpretation unit 402, a mapping rule input unit 403, and a mapping rule input interpretation unit 404. The coordinate input unit 401 receives event information input by the user. The coordinate input interpretation unit 402 interprets the input event information and transmits a control signal corresponding to the event information to the model diagram processing unit 200. The mapping rule input unit 403 receives a mapping rule input by the user. The mapping rule input interpretation unit 404 interprets the input mapping rule and transmits a control signal for storing the mapping rule to the model diagram processing unit 200.

  The input processing unit 400 confirms that the user has selected a part to be moved from a model diagram belonging to one of the hierarchies displayed on the browser screen to a hierarchy different from the currently belonging hierarchy. And a function of receiving event information indicating that the other layer is selected by the user.

  Next, the operation of the system design support apparatus in the embodiment will be described with reference to FIGS. 7 to 11 are flowcharts for explaining the flow of various processes executed in the system design support apparatus.

  With reference to FIG. 7, a drawing process when drawing a model diagram on the browser screen of the system design support apparatus will be described.

  First, when the system is activated, each hierarchical model diagram drawing unit 102 determines whether there is existing model diagram information (step A1). When it is determined that there is existing model diagram information (step A1; YES), each hierarchical model diagram drawing unit 102 reads model diagram information (step A2). On the other hand, when determining that there is no existing model diagram information (step A1; NO), each hierarchical model diagram drawing unit 102 creates a new model diagram information frame (step A3).

  Subsequently, each hierarchical model diagram drawing unit 102 executes drawing processing of model diagrams belonging to the respective layers based on the model diagram information (step A4).

  Subsequently, the integrated model diagram drawing unit 101 integrates the model diagrams drawn by the hierarchical model diagram drawing units 102 and displays them on the browser screen (step A5). FIG. 12 shows an example of a screen on which an integrated model diagram is displayed. L0 shown in FIG. 12 is a UI layer, L1 is a BPM layer, L2 is an ESB layer, and L3 is a WS layer. B is a browser screen, and M1 to M3 are model diagrams belonging to each layer. DB is each database, and SR is a service registry that manages all services registered in the system.

  Subsequently, when the model diagram displayed on the browser screen is changed by the user (step A6; YES), the model diagram processing unit 200, based on the changed model diagram information, the model diagram graphic information DB 301 and the hierarchical level The unique information DB 302 is updated (step A7). On the other hand, when a new model diagram is added to the model diagram displayed on the browser screen (step A8; YES), the model diagram processing unit 200 converts the added model diagram information into the model diagram graphic information DB 301. And it registers in hierarchy specific information DB302 (step A9). When the model diagram information is updated or registered, the process proceeds to step A4.

  With reference to FIG. 8, an editing process when editing a model diagram displayed on the browser screen of the system design support apparatus will be described.

  First, as shown in FIG. 13, the model diagram M1 to be edited is selected by the user from the model diagrams M1 and M2 displayed on the browser screen (step B1). As a result, the hierarchical model diagram processing unit 201 corresponding to the hierarchical level L1 of the selected model diagram M1 activates the model diagram editing screen (step B2). At the same time, the hierarchical model diagram processing unit 201 refers to the editor setting DB 304 and sets the editor stored in association with the layer L1 of the selected model diagram M1 as the editor on the editing screen ( Step B3) Start (Step B4). As a result, the user can edit the model diagram on the editing screen (step B5). FIG. 14 shows an example of the edit screen. FIG. 15 shows an example of editing performed on the editing screen. As shown in FIG. 15, when a node is dragged and dropped on the model diagram M1, the selected node is added on the model diagram M1.

  Subsequently, the model diagram processing unit 200 updates the model diagram graphic information DB 301 and the hierarchical specific information DB 302 based on the model diagram information edited by the user (step B6).

  With reference to FIG. 9, the conversion process at the time of converting model diagram information is demonstrated. In this conversion process, a conversion process when a part of the model diagram M1 belonging to the ESB layer L1 is moved to the model diagram M2 belonging to the BPM layer L2 will be described.

  First, a range of a model diagram to be moved is selected from the model diagram M1 belonging to the ESB layer L1 displayed on the browser screen B in accordance with a user operation instruction (step C1). For example, the portion R within the dotted line shown in FIG. 16 is selected.

  Subsequently, when the BPS layer L2 that is the destination layer is selected according to the user's operation instruction (step C2), the input processing unit 400 interprets this selection event, and the model diagram processing unit 200 receives the model diagram information. The conversion processing execution instruction is sent.

  Subsequently, the graphic information conversion unit 202 executes a model diagram graphic information conversion process (step C3). Details of the model diagram graphic information conversion processing will be described later.

  Subsequently, the property mapping unit 203 executes hierarchical specific information conversion processing (step C4). Details of the hierarchical specific information conversion processing will be described later.

  Subsequently, the model diagram processing unit 200 updates the model diagram graphic information DB 301 and the hierarchical specific information DB 302 based on the converted model diagram information (step C5). FIG. 17 illustrates model diagrams M1 and M2 of the respective layers after the selected portion R has moved to the BPS layer L2 as a result of selection of the dotted line portion R of FIG. 16 as the movement target.

  With reference to FIG. 10, the model diagram graphic information conversion process in step C3 of FIG. 9 described above will be described.

  First, the graphic information conversion unit 202 acquires the model diagram graphic information of the model diagram M1 belonging to the ESB layer L1 selected as the movement target from the model diagram graphic information DB 301 (step C3a).

  Subsequently, the graphic information conversion unit 202 converts the acquired model diagram graphic information into model diagram graphic information of the model diagram M2 belonging to the BPS layer L2 (step C3b).

  Subsequently, the graphic information conversion unit 202 stores the model diagram graphic information of the model diagram M1 belonging to the ESB layer L1 selected as the movement target and the model diagram graphic information of the model diagram M2 belonging to the BPS layer L2 selected as the movement destination. The nodes N1 and N2 that link the moved processing procedures are generated or edited, and the model diagram complementing process is executed (step C3c).

  With reference to FIG. 11, the hierarchical specific information conversion process in step C4 of FIG. 9 described above will be described.

  First, the property mapping unit 203 acquires the unique information of the model diagram M1 belonging to the ESB layer L1 selected as the movement target from the hierarchical specific information DB 302 (step C4a).

  Subsequently, the property mapping unit 203 acquires the type of graphic information corresponding to the hierarchy and ID included in the acquired unique information from the model diagram graphic information DB 301 (step C4b).

  Subsequently, the property mapping unit 203 acquires a mapping rule corresponding to the acquired hierarchy and type of graphic information from the mapping rule DB 303 (step C4c). If the corresponding mapping rule cannot be acquired, the user is prompted to register the mapping rule, and this process is executed again after newly registering the mapping rule.

  Subsequently, the property mapping unit 203 refers to the acquired mapping rule, converts the property specific to the ESB layer L1 that is the movement target layer to the property specific to the BPM layer L2 that is the movement target layer, and The hierarchical specific information DB 302 is updated (step C4d).

  As described above, according to the system design support apparatus 1 in the embodiment, a part of a model diagram in a certain hierarchy is moved to another hierarchy, and the model diagram information is converted to be executable in the moved hierarchy. Can do. As a result, when a part of a model diagram defined by a certain editor is moved to a model diagram defined by another editor, the model diagram can be moved without performing an additional work of the model diagram by another editor. Therefore, the flexibility of the system can be improved.

  Here, the system design support apparatus 1 is installed with a system design support program for realizing the above-described functions. The various functions described above can be realized by executing this system design support program.

  Note that the above-described embodiment is merely an example, and does not exclude various modifications and technical applications that are not explicitly described in the embodiment. That is, the present invention can be implemented by being modified into various forms without departing from the spirit of the present invention.

  In the above-described embodiment, for convenience of explanation, each layer of the BPM layer, the ESB layer, and the WS layer is expressed as a hierarchy. However, between these layers, one of the upper hierarchy and the lower hierarchy is not necessarily assigned to the other. The inclusion relationship need not be established. That is, the BPM layer, ESB layer, and WS layer may be layers that define different model diagrams.

  DESCRIPTION OF SYMBOLS 1 ... System design support apparatus, 100 ... Model figure drawing part, 101 ... Integrated model figure drawing part, 102 ... Model figure drawing part according to hierarchy, 200 ... Model figure processing part, 201 ... Model figure processing part according to hierarchy, 202 ... Graphic Information conversion unit, 203 ... Property mapping unit, 300 ... Storage unit, 301 ... Model figure / graphic information DB, 302 ... Hierarchical specific information DB, 303 ... Mapping rule DB, 304 ... Editor setting DB, 400 ... Input processing unit, 401 ... coordinate input unit, 402 ... coordinate input interpretation unit, 403 ... mapping rule input unit, 404 ... mapping rule input interpretation unit.

Claims (5)

An apparatus for supporting the design of a system having a plurality of layers and defining a model diagram of a service flow in which each layer has a different definition,
Drawing means for drawing the plurality of layers and the model diagrams belonging to the respective layers to display them on a display screen;
A portion to be moved from the model diagram belonging to the first layer which is one of the plurality of layers displayed on the display screen to a second layer different from the first layer; and Receiving means for receiving event information indicating that the second layer is selected;
Model diagram information conversion means for converting model diagram information relating to the model diagram of the portion to be moved to the second layer into the model diagram information defined in the second layer when the event information is received When,
A system design support apparatus comprising: The model diagram information includes at least model diagram graphic information that defines an arrangement relationship of elements constituting the model diagram, and unique information that is uniquely defined for each layer,
2. The system design support apparatus according to claim 1, wherein the model diagram information conversion means converts the model diagram information using the model diagram graphic information and the unique information. Model diagram graphic information storage means for storing the model diagram graphic information in association with layer identification information for specifying each of the plurality of layers;
Further comprising unique information storage means for grouping the unique information having the same meaning and storing the grouped unique information in association with the layer identification information, respectively.
The model diagram information conversion means uses the model diagram graphic information stored by the model diagram graphic information storage means based on the layer identification information of the first layer and the layer identification information of the second layer. Obtained from the unique information stored by the unique information storage means based on the obtained model diagram graphic information, the layer identification information of the first layer, and the layer identification information of the second layer, respectively. 3. The system design support apparatus according to claim 2, wherein the model diagram information is converted using the unique information. A system design support method that is executed by an apparatus that supports design of a system that has a plurality of layers and defines a model diagram of a service flow that has a different definition for each layer,
A drawing step of drawing the plurality of layers and the model diagrams belonging to the respective layers to display them on a display screen;
A portion to be moved from the model diagram belonging to the first layer which is one of the plurality of layers displayed on the display screen to a second layer different from the first layer; and A receiving step of receiving event information indicating that the second layer has been selected;
Model diagram information conversion step of converting model diagram information related to the model diagram of the portion to be moved to the second layer into the model diagram information defined in the second layer when the event information is received When,
A system design support method comprising:   A system design support program for causing a computer to execute each step according to claim 3.

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