CN101499004A - System and method for connecting virtual machine and user interface - Google Patents

Abstract

This invention claims a bridging system and a bridging method capable of transferring information between a virtual machine and a user interface, supporting an independent development of a UML model and a GUI, separating the business logic and the user interface, so as to simulate the whole system including a function logic module and the GUI. The bridging system of this invention connects the virtual machine and the user interface, the virtual machine having a function of event processing, the user interface and the event processing of the virtual machine separately running; the bridging system comprising a user interface pile module for receiving and processing events from the user interface; a virtual machine pile module for receiving and processing events from the virtual machine; a data exchange module for exchanging the events from the user interface received and processed by the user interface pile module with the events from the virtual machine received and processed by the virtual machine pile module.

Description

The system and method that connects virtual machine and user interface

Technical field

The present invention relates to a kind of application system that has bridge system and have bridge system, particularly a kind of application system that for example in the ATM application system, connects bridging method, the bridge system of virtual machine and user interface and have bridge system.

Background technology

In software development process, the designer adopts model to come the descriptive system design usually.Unified modeling language (UML) is adopted in system design widely.In traditional exploitation, be responsible for making up UML by the designer and design a model, the code that the developer designs a model system for writing and compiling to realize with reference to UML based on UML.In the UML dummy machine system, introduced a kind of executable UML, executable code can directly be carried out or generate to this uml model by virtual machine, therefore can the simulation system operation.

The UML tool software TAU and the Raphsody of Telelogic company can support the dry run uml model.By direct operation uml model, can between system design and code, set up conforming association, thereby support to generate complete executable code, improved efficiency of software, avoided some the artificial mistakes in cataloged procedure from uml model.On the other hand,, can find the problem that exists in the system design as soon as possible, avoid that problem is left over coding and realized test phase by operation in the system design stage simulation system.

In the reality exploitation, UML is used to the representation function logic module usually.Usually, partly constitute application system by function logic module, graphic user interface (GUI), hardware etc.UML is because self lacks the mechanism of describing graphic user interface GUI, make and in the system of the operation of simulating, be difficult to add graphic user interface GUI, can't carry out complete simulation to the total system that comprises function logic and GUI, thereby can't realize real virtual machine execution model.Therefore, above-mentioned software can not be supported mutual between uml model and the GUI.Based on the exploitation of above software normally by uml model systematic function logical code, again these codes are inserted in the GUI code, in case this mode GUI code or uml model have change, need again from the model generating code, duplicated code insertion work again, if directly revise the code after synthesizing, it is inconsistent to make that final code and UML design a model, and brings great inconvenience for later maintenance work.

N.Sukaviriya etc. are at " Model-Driven Approach for Managing HumanInterface Design Life Cycle " (Proceedings of 10th InternationalConference on Model Driven Engineering Languages and Systems.G.Engels, B.Opdyke, D.C.Schmidt, F.Weil, Eds.Nashville, TN, a kind of method from model generation GUI code is proposed USA.2007.pp.226-240). article, the business model that author's proposition makes up UML is converted to the method based on the model and the generating code of user interface.This method has been safeguarded the consistance of design and code to a certain extent by the automatic generation technique of GUI code, but can only the generating code framework.Compare existing GUI design tool, uml model can't intactly be described all characteristics of GUI, adopts uml model describing mode efficient low and not directly perceived.Therefore, the GUI that needs a kind of effective method to be connected uml model with system and to design by common GUI design tool.

Summary of the invention

One object of the present invention is to provide a kind of bridge system and bridging method, can be between virtual machine and user interface pass-along message, can support the stand-alone development of user interfaces such as virtual machines such as UML and GUI, service logic is separated with user interface, thereby make and to simulate the total system that comprises function logic module and GUI.

The invention provides a kind of bridge system, connect virtual machine and user interface, described virtual machine has the event handling function, it is characterized in that, described bridge system comprises:

The user interface stubs, acceptance and processing are from the incident of user interface;

The virtual machine stubs, the incident that acceptance and processing come self virtualizing machine;

Data exchange module according to predetermined transformation rule, the incident from user interface of the user interface stubs being accepted and handling, is accepted with the virtual machine stubs and the incident of coming self virtualizing machine handled is changed mutually.

Described data exchange module comprises:

Rule editor, editor's transformation rule;

Loading bin loads described rule editor editor's transformation rule;

The incident converter, according to described transformation rule to changing from the incident of user interface stubs and described virtual machine stubs.

Bridge system of the present invention also has transport module, to transmitting from the incident of described user interface and described virtual machine,

Described incident converter:

Obtaining incoming event is the incident that arrives at first in the event queue of described user interface stubs and described virtual machine stubs;

Search the transformation rule that whether has corresponding to described incoming event;

Obtain the precondition incident of described incoming event;

Create the outgoing event object;

Attribute assignment to the outgoing event object;

Described incoming event of deletion and precondition incident thereof in the incoming event formation.

Described user interface is graphic user interface, operating system or speech interface.

Described virtual machine processing events adopts modeling language model or standard and descriptive model.

Described user interface stubs comprises:

The event capturing device is caught the incident from user interface;

Event handler is handled the incident from the model virtual machine;

Event queue, the message event of storage user interface;

Event interface connects described data exchange module.

Described virtual machine stake comprises:

Event queue, storage is from the model incident of described virtual machine;

Event handler is handled described model incident;

The mark editing machine is edited label information, and this label information is used for expression information is sent;

The mark loading bin loads described label information;

Markup interpreter is explained described label information;

Event interface connects described data exchange module.

The event handling of described user interface and described virtual machine moves independently.

The invention provides a kind of application system, it is characterized in that, have virtual machine, bridge system and user interface, described virtual machine has the event handling function, described bridge system connects described virtual machine and described user interface, described bridge system comprises: the user interface stubs, and acceptance and processing are from the incident of user interface; The virtual machine stubs, the incident that acceptance and processing come self virtualizing machine; Data exchange module according to predetermined transformation rule, the incident from user interface of the user interface stubs being accepted and handling, is accepted with the virtual machine stubs and is handled the incident of self virtualizing machine to change mutually.

The invention provides in a kind of application system the method for virtual machine and user interface being carried out bridge joint, described application system has virtual machine, bridge system and user interface, described virtual machine dry run function logic, it is characterized in that described bridging method comprises: acceptance and processing are from the incident of user interface and virtual machine; According to predetermined transformation rule, will from the incident of user's interface, with come the incident of self virtualizing machine to change mutually.

Description of drawings

Fig. 1 shows the structural drawing with application system of bridge system of the present invention;

Fig. 2 shows the synoptic diagram of graphic user interface of the ATM of application system of the present invention;

Fig. 3 shows bridge system of the present invention and forms module map;

Fig. 4 shows the concrete structure figure of each module of bridge system of the present invention;

Fig. 5 shows the precedence diagram of data stream of each intermodule of bridge system of the present invention;

Fig. 6 shows the synoptic diagram that adds label information in the uml model of ATM of the present invention system;

Fig. 7 shows the synoptic diagram of ATM GUI of system of the present invention and ATM system uml model incident transformation rule;

Fig. 8 shows the synoptic diagram of GUI to uml model incident interaction flow;

Fig. 9 shows the synoptic diagram of incident transfer process of the present invention;

Figure 10 shows uml model of the present invention to the mutual synoptic diagram of the incident of GUI.

Embodiment

Present embodiment is that example describes with the ATM system, but is not limited to the ATM system, also can be interactive systems such as voice inquiry system, telephone expenses inquiry system, online self-help bank.As shown in Figure 1, ATM system 100 comprises: the hardware 101, operating system 102, the application system 103 that are made of storer and processor etc.Application system 103 comprises three parts: virtual machine 104, user interface 106 and bridge system 105.Here for convenience of description, suppose that virtual machine 104 is UML virtual machines, UML virtual machine 104 is used to move uml model.Uml model is used to describe the service logic part of ATM system, describe such as save, withdraw cash, the business function of inquiry into balance.This uml model can be described in the UML modeling tool graphically, operation in UML virtual machine 104 then.

User interface 106 can be graphic user interface, speech interface or operating system.In the present embodiment, be that example describes with the graphic user interface.As shown in Figure 2, the graphic user interface of ATM for example can comprise digital button 704, action button 705, viewing area 703 of plug-in card button 702, user-operable etc.Wherein, action button 705 comprises confirming button 706 and other buttons.Graphic user interface can realize in the GUI design tool, also can realize with the coded program code, be one can independent operating with the incoherent interface program of service logic.In the present invention, uml model and graphic user interface can independently be developed, and after exploitation is finished, by bridge system 105 both are coupled together.Uml model moves in UML virtual machine 104, GUI106 program independent operating, and bridge system 105 is responsible between the two mutual.

As shown in Figure 3, bridge system 105 comprises three parts: graphic user interface GUI stubs 202, data exchange module 201 and UML virtual machine stubs 203.The concrete structure of each module as shown in Figure 4, wherein graphic user interface GUI stubs 202 comprises: event capturing device 301, event handler 302, event queue 303 and event interface 304.Data exchange module 201 comprises: transformation rule editing machine 305, regular loading bin 306, incident converter 307 and transport module 308.UML virtual machine stubs 203 comprises: event queue 309, event handler 310, mark editing machine 311, mark loading bin 312, markup interpreter 313 and event interface 314.

Concrete bridge joint process of the present invention is as follows:

At first, in the code event handling of UML virtual machine 104, insert the code of UML virtual machine stubs 203, and add dependence stubs 203.In uml class figure, definition UML incident, concrete operations are for adding signal element, definition signal title, the parameter of adding signal.In UML state machine diagram and activity diagram, usage flag editing machine 311 is that uml model interpolation incident receives the mark that sends.In state machine diagram, usually define the reception incident with the trigger unit of UML, can add the event flag information that sends in the effect of state transition implementation effect, state event.

The form of above-mentioned event flag information for example is: the ^ destination object. event name (parameter 1, parameter 2 ..., parameter N).As shown in Figure 6; " wait for operation " and " select professional " two states for defining in the uml model state machine diagram; line is represented from state " wait for operation " to " the selection business " state transition; " query the balance " be the trigger of this state transition; and this trigger is represented, could trigger this state transition after receiving the incident that queries the balance." [password is correct] " be constraint condition in state transition, expression has only when satisfying the correct constraint condition of password could trigger this state transition." ^uvm.gui.Result (1) " be the implementation effect of this state transition, expression sends a Result incident toward object uvm.gui, and its parameter value is 1.In activity diagram, add to send in event flag and the constitutional diagram identical.Adding reception event flag form is: the ^^ event name (variable 1, variable 2 ..., variable N).

Insert the code of graphic user interface stubs 202 at the event handling code place of the code of the graphic user interface 701 of ATM.Transformation rule by transformation rule editing machine 305 definition UML incidents and GUI incident, this transformation rule promptly determines that from the input password of the graphic user interface of ATM system incident CLICK_BUTTON_ENTER to UML incident password authentification incident PINVERFIY transformation rule as shown in Figure 7.

In Fig. 7, Direction has defined conversion direction and has arrived the UML incident for the GUI incident.Pre_Event has defined the precondition incident for clicking bank card incident CLICK_BUTTON_CARD and digital button 704 click event CLICK_BUTTON_NUMBER.Input_Event has defined incoming event for clicking the incident CLICK_BUTTON_ENTER of confirming button ENTER key 706.Expression is clicked confirming button again and just can be excited this conversion after having only the card of insertion and input password.It is UML incident PINVERIFY that Output_Event has defined outgoing event, and it is a signal event that Type has defined this outgoing event, in uml model, define, and by markup declaration receive this signal wherein.This signal event has 1 parameter, and parameter value derives from first parameter of CLICK_BUTTON_NUMBER incident.

With reference to the method, can define other transformation rules of GUI incident and UML incident.Finish the definition back and preserve defined file.Data exchange module 201 bag is installed in respectively in 203 of GUI stubs 202 and the UML virtual machine modules, calls by event interface.Operation UML virtual machine 104, the GUI701 program of startup ATM, the GUI701 that bridge system 105 connects UML virtual machines 104 and ATM realizes communicating to connect mutually between uml model and the GUI106.

GUI701 that can operation A TM, the GUI incident will be delivered to the uml model of ATM system and handle.Simultaneously, uml model moves the incident that needs interface processing that produces and also will be delivered to the GUI701 of ATM by bridge system 105 in the UML virtual machine.

At the operation interface of the graphic user interface 701 of ATM, click bank card, input password, click ACK button as the user.The GUI incident at aforesaid operations interface will be delivered to UVM virtual machine 104 and handle by GUI stubs 202, data exchange module 201.The pass order of data between each module of system as shown in Figure 8.

Below in conjunction with Fig. 5 and Fig. 8 the transmission of data between each module and the effect of each module are described.Wherein Fig. 5 is the synoptic diagram of the transmission of data between each module.

In the step S501 of Fig. 8, at first, the user clicks bank card button 702 at the graphic user interface 701 enterprising line operates of ATM, and the expression user inserts bank card, clicks digital button 704 input passwords afterwards, clicks confirming button ENTER key 706 again; In step S502, the event capturing device 301 of GUI stubs 202 captures this incident CLICK_BUTTON_ENTER, and calls corresponding operating system by event handler 302 according to the type of incident; In step S503, incident CLICK_BUTTON_ENTER is left in the event queue 303; In step S504, call event interface 304 and handle.In step S505, event interface 304 is called data exchange module 201 and is carried out data-switching.Process about data-switching will illustrate in Fig. 9.

In step S506, be sent to UML virtual machine 104 by transport module 308 through the UML event object PinVerify after incident converter 307 conversions of bridge system; In step S507, UML virtual machine 104 receives UML event object PinVerify by the event interface 314 of UML virtual machine stubs 203; In step S508, deposit incident PinVerify 309 li of event queues; In step S509, when virtual machine 104 is explained the reception local time that uml model arrival event PinVerify receives, can searched events formation 309 whether there be events corresponding object PinVerify, if existing then handling accordingly according to the service logic that uml model is described is password authentification, check whether event object PinVerify exists or carry out other processing after the timeslice once more otherwise cross.

In step S510, event handler 310 calls corresponding operating system incident is handled after, judge whether this incident needs GUI is replied, if do not need, then arrives step S511 end process; Then generate the UML incident of an answer if desired, suppose that password authentification passes through, then generate UML incident Result, attribute value value 0 (Result is the signal that defines, and comprises attribute value) in uml model at step S512; Incident Result is left in the event queue 309; In step S513, call event interface 314 and handle; In step S514, data exchange module 201 is converted to GUI incident SHOW_SCREEN with UML incident Result, and the transformation rule has here provided example in Fig. 7, concrete transfer process as shown in Figure 9, similar step S505.

In step S515, the event object SHOW_SCREEN after the conversion is sent to graphic user interface stubs 202 by transport module 308; In step S516, event interface 304 receives event object SHOW_SCREEN; In step S517, event object SHOW_SCREEN is left in the event queue 303; In step S518, event handler 302 processing events object SHOW_SCREEN explain that the implication of return parameters 0 is that password is correct, and call corresponding operating system; In step S519, incident SHOW_SCREEN is fed back to the user visually, promptly display password is correct on viewing area 703.

Above-mentioned exchanges data concrete steps as shown in Figure 9.In step S1001, data exchange module 201 defines by the incident transformation rule that regular loading bin 306 loads by transformation rule editing machine 305 editors in data initialization; In step S1002, from event queue 303, obtain the incident CLICK_BUTTON_ENTER of up-to-date arrival; In step S1003, incident converter 307 searches whether the transformation rule corresponding with it is arranged; If there is not corresponding transformation rule to arrive end process step S1004; If have then, in step S1005 decision event formation 303, whether have precondition incident CLICK_BUTTON_CARD and the CLICK_BUTTON_NUMBER that satisfies this conversion according to the definition in the rule.If the precondition incident does not exist, then arrive step S1004 end process; If necessary precondition incident all exists, then create outgoing event object PinVerify at step S1006.

Here, the information of PinVerify for defining in uml model comprises two attributes: the password of the id of record bank card unique number and recording user input password; At step S1007, the object PinVerify that creates is carried out assignment, wherein the value of id is that first parameter of CLICK_BUTTON_CARD is the unique code of bank card, the value of password is the numeral that first parameter of CLICK_BUTTON_NUMBER is promptly imported; At step S1008, deletion incoming event CLICK_BUTTON_ENTER from formation 303; At step S1009, deletion precondition incident CLICK_BUTTON_CARD and CLICK_BUTTON_NUMBER from formation.

On the other hand, explain that at UML virtual machine 104 in the uml model process, meeting send some message to graphic user interface I106 on one's own initiative, its detailed process as shown in figure 10.Supposing to have defined in the uml model processing to overtime incident has promptly added and has shown the label information that sends timeout signal to GUI, information is " ^uvm.gui.Result (2) ", the label information here is the information about the uml model expansion, has the function of expression transmission information.When the UML virtual machine moves the uml model of ATM, will explain that by UML virtual machine stubs 203 and data exchange module 201 the GUI incident of above-mentioned mark generation is delivered to the graphic user interface 701 of ATM, feeds back to the user.

Concrete steps are as follows: in step S601, the uml model that will have label information is loaded into UML virtual machine 104; In step S602, when UML virtual machine 104 operation uml models, when running into label information, invocation flags interpreter 313 is explained the semanteme of this label information, judge whether it is the UML incident, label information for example " ^uvm.gui.Result (2) " may be interpreted as to GUI and send event object Result, the value property value of Result is-2; In step S603, generate one UML event object Result according to markup semantics, and be-2 its attribute value assignment; In step S604, deposit this event object Result in event queue 309.

In step S605, call event interface 314; In step S606, data exchange module 201 should the answer incident be converted to GUI incident SHOW_SCREEN, and transformation rule has for example provided definition in Fig. 7, concrete transfer process as shown in Figure 9, step S514 among similar Fig. 5; In step S607, the event object after the conversion is sent to GUI106; In step S608, event interface 304 receives event object SHOW_SCREEN; In step S609, event object SHOW_SCREEN is left in the event queue 303; In step S610, event handler 302 processing events object SHOW_SCREEN explain that the implication of return parameters-2 is overtime, calling system API; In step S611, incident SHOW_SCREEN is fed back to the user visually, promptly display reminding is overtime on viewing area 703.

More than bridge system of the present invention and application system with bridge system are illustrated, those skilled in the art are to be understood that, the method and system of connection uml model disclosed in this invention and GUI can be made various distortion and change under the situation that does not depart from essence of the present invention.Uml model of the present invention can be replaced by other Visualization Model with incident, Message Processing descriptive power, as standard and descriptive language (SDL) model.Graphic user interface of the present invention can utilize GUI design tool such as the design of visual programming tool to realize, also can utilize program to realize, also can be by other user interfaces such as operating system, replacements such as speech ciphering equipment, hardware.

Claims (21)

1, a kind of bridge system connects virtual machine and user interface, and described virtual machine has the event handling function, it is characterized in that, described bridge system comprises:

The user interface stubs, acceptance and processing are from the incident of user interface;

The virtual machine stubs, the incident that acceptance and processing come self virtualizing machine;

Data exchange module according to predetermined transformation rule, the incident from user interface of the user interface stubs being accepted and handling, is accepted with the virtual machine stubs and the incident of coming self virtualizing machine handled is changed mutually.

2. bridge system as claimed in claim 1 is characterized in that, described data exchange module comprises:

Rule editor, editor's transformation rule;

Loading bin loads described rule editor editor's transformation rule;

The incident converter, according to described transformation rule to changing from the incident of user interface stubs and described virtual machine stubs.

3. bridge system as claimed in claim 2 is characterized in that,

Also have transport module, to transmitting from the incident of described user interface and described virtual machine,

Described incident converter:

Obtaining incoming event is the incident that arrives at first in the event queue of described user interface stubs and described virtual machine stubs;

Search the transformation rule that whether has corresponding to described incoming event;

Obtain the precondition incident of described incoming event;

Create the outgoing event object;

Attribute assignment to the outgoing event object;

Described incoming event of deletion and precondition incident thereof in the incoming event formation.

4. bridge system as claimed in claim 1 is characterized in that,

Described user interface is graphic user interface, operating system or speech interface.

5. bridge system as claimed in claim 1 is characterized in that, described virtual machine processing events adopts modeling language model or standard and descriptive model.

6, bridge system as claimed in claim 1 is characterized in that, described user interface stubs comprises:

The event capturing device is caught the incident from user interface;

Event handler is handled the incident from the model virtual machine;

Event queue, the message event of storage user interface;

Event interface connects described data exchange module.

7, bridge system as claimed in claim 1 is characterized in that, described virtual machine stubs comprises:

Event queue, storage is from the model incident of described virtual machine;

Event handler is handled described model incident;

The mark editing machine is edited label information, and this label information is used for expression information is sent;

The mark loading bin loads described label information;

Markup interpreter is explained described label information;

Event interface connects described data exchange module.

8, bridge system as claimed in claim 1 is characterized in that, the event handling of described user interface and described virtual machine moves independently.

9. an application system is characterized in that, has virtual machine, bridge system and user interface, and described virtual machine has the event handling function, and described bridge system connects described virtual machine and described user interface,

Described bridge system comprises:

The user interface stubs, acceptance and processing are from the incident of user interface;

The virtual machine stubs, the incident that acceptance and processing come self virtualizing machine;

Data exchange module according to predetermined transformation rule, the incident from user interface of the user interface stubs being accepted and handling, is accepted with the virtual machine stubs and the incident of coming self virtualizing machine handled is changed mutually.

10. application system as claimed in claim 9 is characterized in that, described data exchange module comprises:

Rule editor, editor's transformation rule;

Loading bin loads described rule editor editor's transformation rule;

The incident converter, according to described transformation rule to changing from the incident of user interface stubs and described virtual machine stubs.

11. application system as claimed in claim 10 is characterized in that,

Also have transport module, to transmitting from the incident of described user interface and described virtual machine,

Described incident converter:

Obtaining incoming event is the incident that arrives at first in the event queue of described user interface stubs and described virtual machine stubs;

Search the transformation rule that whether has corresponding to described incoming event;

Obtain the precondition incident of described incoming event;

Create the outgoing event object;

Attribute assignment to the outgoing event object;

Described incoming event of deletion and precondition incident thereof in the incoming event formation.

12. application system as claimed in claim 9 is characterized in that,

Described user interface is graphic user interface, operating system or speech interface.

13. application system as claimed in claim 9 is characterized in that, described virtual machine processing events adopts modeling language model or standard and descriptive model.

14. application system as claimed in claim 9 is characterized in that, described application system is ATM, language inquiry system or online self-help bank.

15. application system as claimed in claim 9 is characterized in that, the event handling of described user interface and described virtual machine moves independently.

16. in the application system virtual machine and user interface are carried out the method for bridge joint, described application system has virtual machine, bridge system and user interface, described virtual machine has the event handling function, it is characterized in that,

Described bridging method comprises:

Acceptance and processing are from the incident of user interface and virtual machine;

According to predetermined transformation rule, will from the incident of user's interface, with come the incident of self virtualizing machine to change mutually.

17. method as claimed in claim 16 is characterized in that, described bridging method:

Obtaining incoming event is the incident that arrives at first in described user interface and the described virtual machine;

Search the transformation rule that whether has corresponding to described incoming event;

Obtain the precondition incident of described incoming event;

Create the outgoing event object;

Attribute assignment to the outgoing event object;

Described incoming event of deletion and precondition incident thereof in the incoming event formation.

18. method as claimed in claim 16 is characterized in that,

Described user interface is graphic user interface, operating system or speech interface.

19. method as claimed in claim 16 is characterized in that, described virtual machine processing events adopts modeling language model or standard and descriptive model.

20. method as claimed in claim 16 is characterized in that, described application system is ATM, language inquiry system or online self-help bank.

21. method as claimed in claim 16 is characterized in that, the event handling of described user interface and described virtual machine moves independently.

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