CN108469977A - A kind of interface data management method - Google Patents

A kind of interface data management method Download PDF

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CN108469977A
CN108469977A CN201810255331.8A CN201810255331A CN108469977A CN 108469977 A CN108469977 A CN 108469977A CN 201810255331 A CN201810255331 A CN 201810255331A CN 108469977 A CN108469977 A CN 108469977A
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interface
software
parameter value
eigenvalues
parameter
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CN108469977B (en
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张�林
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张�林
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    • GPHYSICS
    • G06COMPUTING; CALCULATING; COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F9/00Arrangements for program control, e.g. control units
    • G06F9/06Arrangements for program control, e.g. control units using stored programs, i.e. using an internal store of processing equipment to receive or retain programs
    • G06F9/44Arrangements for executing specific programs
    • G06F9/451Execution arrangements for user interfaces
    • GPHYSICS
    • G06COMPUTING; CALCULATING; COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F8/00Arrangements for software engineering
    • G06F8/30Creation or generation of source code
    • G06F8/38Creation or generation of source code for implementing user interfaces

Abstract

The invention discloses a kind of interface data management methods, including:Open the first software system interface and the second software system interface;First software system interface includes multiple the First Eigenvalues and multiple first parameter values corresponding with the First Eigenvalue respectively;Type according to the second software system interface obtains multiple Second Eigenvalues of the second software system interface and multiple second parameter values corresponding with Second Eigenvalue respectively;The correspondence of multiple the First Eigenvalues and multiple Second Eigenvalues is established respectively;When the first parameter value changes, by correspondence, the variation that the first parameter value is occurred is added to corresponding second parameter value;Alternatively, when the second parameter value changes, by correspondence, the variation that the second parameter value is occurred is added to corresponding first parameter value.The advantageous effect of the invention is:Without the integrated and independent development interface for each Member Systems, has the characteristic of good cross-system platform.

Description

A kind of interface data management method
Technical field
The present invention relates to interface data administrative skill field more particularly to a kind of interface data management methods.
Background technology
The precondition of existing heterogeneous system integrated technology all necessarily requires each Member Systems for participating in integrating to have one Determine the opening of degree, integrated depth and range depend on the degree of opening of Member Systems.
The mode that existing system external opens includes following three kinds:
The first is that data structure opens, by providing an intermediate data matchmaker for interface data specification of opening to the outside world It is situated between (database or file) to realize that the interface of data interaction, built-in system and external system follow this data structure logic Specification reads and writes data to this intermediate data medium, takes this to realize the data exchange between heterogeneous system;
It is for second that interface routine is unwrapped and put, by providing making by oneself including an encapsulation service logic for external call The program bag of adopted programming interface realizes data exchange, in order to ensure the convenience that external system is called, generally require to provide because Answer the program bag of multiple versions of different programming languages;
The third be service agreement open, the application protocol based on network connection be provided out one " request-response " or The service API of " subscription-publication " mechanism, simplifies the process of external call;
Existing system integrated framework scheme had been provided with Member Systems one kind among above-mentioned three kinds of open interfaces or It is a variety of to be built for basic premise, such as ripe SOA theories are exactly such.But do not provided for totally-enclosed it is any right When the case where range or depth Shortcomings of the interface that the Member Systems or Member Systems of outer open interface have been provided, then It can lead to that Member Systems can not integrate or its integrated result is unable to reach the target of user.
In addition, any of the above-described kind of integrated approach is all necessarily accompanied with more or less interface exploitation and writes program code Workload also brings the workload of follow-up maintenance so as to cause interface itself.
Therefore, it is necessary to break through the constraint for being limited to open interface and integrated design scheme, otherwise designed isomery Member Systems Integrated approach.
Invention content
The technical problem to be solved in the present invention is that middle interface closing for the above-mentioned prior art causes interface data to be difficult to The problem of intercommunication, provides a kind of interface data management method.
The technical solution adopted by the present invention to solve the technical problems is:
A kind of interface data management method is provided, including:
Open the first software system interface and the second software system interface;First software system interface includes multiple One characteristic value and multiple first parameter values corresponding with the First Eigenvalue respectively;
Type according to second software system interface obtains multiple second feature of second software system interface Value and multiple second parameter values corresponding with the Second Eigenvalue respectively;
The correspondence of multiple the First Eigenvalues and multiple Second Eigenvalues is established respectively;
When first parameter value changes, by the correspondence, first parameter value is occurred Variation is added to corresponding second parameter value;Alternatively, when second parameter value changes, by the correspondence, The variation that second parameter value is occurred is added to corresponding first parameter value.
In interface data management method of the present invention, the first software system interface of the opening and the second software system System interface, including:
First software system interface is configured to configure multiple the First Eigenvalues and multiple first parameter values;
First software system interface and the second software system interface are opened respectively, it is special to be presented multiple described first Value indicative and multiple first parameter values.
In interface data management method of the present invention, the type according to second software system interface obtains Take multiple Second Eigenvalues of second software system interface and multiple second ginsengs corresponding with the Second Eigenvalue respectively Numerical value, including:
Determine the type of second software system interface;
If the type of second software system interface is recognizable type, described in the extraction of preset interface function Multiple Second Eigenvalues of second software system interface and multiple second parameter values corresponding with the Second Eigenvalue respectively;
If the type of second software system interface be can not identification types, capture operation second software systems Interbehavior when interface obtains multiple Second Eigenvalues of second software system interface and more according to the interbehavior A second parameter value corresponding with the Second Eigenvalue respectively.
It is described to capture when operating second software system interface in interface data management method of the present invention Interbehavior, according to the interbehavior obtain second software system interface multiple Second Eigenvalues and it is multiple respectively with Corresponding second parameter value of the Second Eigenvalue, including:
The UI elements and its interbehavior that second software system interface is presented are captured, and is obtained in the UI elements Multiple UI daughter elements to obtain the corresponding multiple Second Eigenvalues of multiple UI daughter elements;
It is determined according to the corresponding interbehavior of multiple UI daughter elements multiple corresponding with the Second Eigenvalue respectively Second parameter value.
It is described when first parameter value changes in interface data management method of the present invention, pass through The variation that first parameter value is occurred is added to corresponding second parameter value by the correspondence, including:
Judge whether first parameter value changes by preset interface function;
If first parameter value changes, searched by the correspondence, and according to first parameter value Corresponding second parameter value;
The variation occurred according to first parameter value is added to the second found parameter value, and by corresponding UI daughter elements and its interbehavior change second parameter value.
It is described when second parameter value changes in interface data management method of the present invention, pass through The variation that second parameter value is occurred is added to corresponding first parameter value by the correspondence, including:
The UI elements that second software system interface is presented are captured in real time;
It is compared to refreshing each of front and back UI daughter elements, if unanimously, continuing to capture the UI daughter elements, if It is inconsistent, it is determined that corresponding second parameter value of the UI daughter elements changes;
Corresponding first parameter value is searched by the correspondence, and according to second parameter value;
The variation occurred according to second parameter value is added to the first found parameter value, and by preset Interface function changes first parameter value.
In interface data management method of the present invention, further include:
The parameter of multiple second software system interfaces is added to first software system interface.
In interface data management method of the present invention, the parameter by multiple second software system interfaces It is added to first software system interface, including:
The identification information of multiple second software system interfaces is respectively set;
According to the identification information by multiple Second Eigenvalues of multiple second software system interfaces and multiple difference The second parameter value corresponding with the Second Eigenvalue is added to first software system interface.
In interface data management method of the present invention, the parameter by multiple second software system interfaces It is added to first software system interface, further includes:
It is inquired according to the correspondence corresponding in first parameter value and multiple second software system interfaces Second parameter value.
In interface data management method of the present invention, what capture second software system interface was presented UI elements and its interbehavior, and it is corresponding more to obtain multiple UI daughter elements to obtain multiple UI daughter elements in the UI elements A Second Eigenvalue, including:
Repeatedly capture the UI elements and its interbehavior that second software system interface is presented;
Multiple UI daughter elements in the UI elements are repeatedly obtained to obtain multiple UI daughter elements corresponding multiple described Two characteristic values;
Deep learning is carried out to the UI elements, interbehavior, multiple Second Eigenvalues that are captured, to instruct subsequent boundary Face data management method.
A kind of interface data management method disclosed above has the advantages that:Pass through UI elements and its interbehavior Identification and UI logic reorganizations realize interconnecting between each Member Systems, because without for each Member Systems it is integrated due to it is single Only development interface, and have the characteristic of good cross-system platform;Member Systems UI elements and interbehavior identification and It sends the instruction of UI elements, and based on Member Systems open the function UI to user, therefore also there is no need to consider Whether Member Systems provide development interface, thus integrating process is also just without invading Member Systems, the environment of all Member Systems Dependence, operation operation, edition upgrading and its change keep its original independence, are not influenced by integrated.
Description of the drawings
Fig. 1 is a kind of flow chart of interface data management method provided by the invention.
Specific implementation mode
In order to make the purpose , technical scheme and advantage of the present invention be clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be appreciated that described herein, specific examples are only used to explain the present invention, not For limiting the present invention.
Referring to Fig. 1, Fig. 1 is a kind of flow chart of interface data management method provided by the invention, and the present invention is with member Based on UI (User Interface, the user interface) identifications of system and event simulation, operation is created by detecting UI variations The method of system event or browser event, the interface data management method include step S1-S4:
S1, the first software system interface and the second software system interface are opened;First software system interface includes more A the First Eigenvalue and multiple first parameter values corresponding with the First Eigenvalue respectively;Step S1 includes step S11-S12:
S11, configuration first software system interface are to configure multiple the First Eigenvalues and multiple first ginsengs Numerical value;Such as:The software that first software system interface itself is developed by sale of automobile company, the first software system interface meeting Including vehicle ID, vehicle model, body specifications etc. characteristic value data, these characteristic value datas just constitute the First Eigenvalue, And the first parameter value is then the corresponding parameter of the First Eigenvalue, such as vehicle ID is 00001, vehicle model ABCD, vehicle body rule Lattice are long 4000mm × wide 1600mm × high 1500mm ...
S12, first software system interface and the second software system interface are opened respectively, it is multiple to be presented in UI The First Eigenvalue and multiple first parameter values.Second software system interface is usually car manufactures or customer The software of required exploitation equally will include vehicle ID, vehicle model, body specifications etc. characteristic value data.But have every time not When the data of the second same software system interface needs to update to the first software system interface, existing second software system interface Often interface is incompatible.
Such as:Each Member Systems individually builds at least two independent UI template libraries, and (one is original, is remained Remaining is copy), it is the UI operating paths of Member Systems that original is corresponding, is to the exhausted complete of the UI logics of Member Systems Reduction, wherein may include invalid circulating path or have been proposed that discarded path, copy be having cleaned of seizing It can be used as providing the UI template libraries of masterplate service, copy is possible to build in response to each user of Member Systems.
UI template libraries are to provide the basis of masterplate service, and only each UI template library is confined to a member system System, therefore can be the UI template libraries that each UI template library builds multiple reflection Member Systems part of module, more just with this It is different purposes or the multiple template libraries of different user maintenances promptly.
S2, multiple second spies that second software system interface is obtained according to the type of second software system interface Value indicative and multiple second parameter values corresponding with the Second Eigenvalue respectively;Step S2 includes step S21-S23:
S21, the type for determining second software system interface;Such as:Second software system interface can be webpage, The doc files of word, Excel file etc. identifiable type, can also be independent development, interface do not open to the outside world can not Identification types.
If the type of S22, second software system interface is recognizable type, extracted by preset interface function Multiple Second Eigenvalues of second software system interface and multiple second parameters corresponding with the Second Eigenvalue respectively Value;The present invention provides preferably progressive UI elemental recognition methods, according to the running environment of Member Systems and development technique Different and automatic preferably different UI elemental recognition methods, including operating system API identifications, browser API identifications, disclosed UI Library API identifications, the self-defined UI elemental recognitions of Member Systems, and UI elements are worth classification according to user and are divided into manipulation type UI elements (being used for trigger event), label type UI elements (being used for immutable UI local identities) and data type UI elements are (variable User service data show), in response to it is different value classifications UI elements build preferred queue automatically, build this preferred team automatically The method of row includes:
1, it establishes intelligent scheduling model and depth is carried out to the UI interbehaviors of each operator of each Member Systems Fitting, intelligent scheduling model are run using the structure of calculating and masterplate phase separation, can also merge the fortune for being deployed in Member Systems Among row environment, masterplate can upload to high in the clouds, can also be downloaded from high in the clouds, and high in the clouds can be deployed as private clound, also can be used directly altogether The public cloud enjoyed;
2, local integrated software client service process is established, the fortune of Member Systems is run on as background service process Among row environment (operating system or browser), masterplate is obtained among intelligent scheduling model, is the every of each Member Systems One operator builds different preferred queues;
3, each operation behavior of each operator and corresponding UI element variations also feed back to intelligent scheduling simultaneously Model, more to deepen the degree of fitting of masterplate.
If the type of S23, second software system interface be can not identification types, capture operation second software Interbehavior when system interface obtains multiple Second Eigenvalues of second software system interface according to the interbehavior And multiple second parameter values corresponding with the Second Eigenvalue respectively.In step 23, the capture operates second software Interbehavior when system interface obtains multiple Second Eigenvalues of second software system interface according to the interbehavior And the step of multiple the second parameter values corresponding with the Second Eigenvalue respectively includes step S231-S232:
The UI elements and its interbehavior that S231, capture second software system interface are presented, and obtain the UI Multiple UI daughter elements in element are to obtain the corresponding multiple Second Eigenvalues of multiple UI daughter elements;Step S231 includes step Rapid S2311-S2313:
S2311, UI elements and its interbehavior that second software system interface is presented repeatedly are captured;
S2312, repeatedly to obtain multiple UI daughter elements in the UI elements corresponding multiple to obtain multiple UI daughter elements The Second Eigenvalue;
S2313, deep learning is carried out to the UI elements, interbehavior, multiple Second Eigenvalues that are captured, after guidance Continuous interface data management method.
Wherein, deep learning model is the big data self learning model built based on neural network algorithm, to UI elements Build multiple and different self learning models respectively in response to different recognition methods, it needs to be emphasized that:Its training data It is not simple UI elements, but UI elements and its interbehavior, that is to say, that its training data is UI elements and its this UI The preposition event and postposition event of element have wrapped up trigger action and its corresponding trigger parameter, simple UI members among event Element is only a static snapshot, could structure only by UI elements together with corresponding preposition event and postposition event link At UI logics.
Each Member Systems individually builds self independent intelligent computation model example, it is ensured that Member Systems are certainly The UI logics of body are interference-free, accurately completely restore the operation logic of Member Systems itself.
The output of deep learning model is the result is that UI characteristic values (being not figure), are exactly UI masterplates, are stored in UI masterplates Among library, to the detecting result of any UI variations of Member Systems, calculated first according to the matching of characteristic value in UI template libraries Method searches for the maximum matching object of matching degree, if without returning the result, by this UI characteristic value to pair in template library or template library The logical node answered is initialized, and otherwise, is then inputted this UI characteristic value again collectively as training data with object is matched Deep learning model persistently promotes the precision of UI characteristic values with this.
S232, according to the corresponding interbehavior of multiple UI daughter elements determine it is multiple respectively with the Second Eigenvalue pair The second parameter value answered.
It is directed to above-mentioned intelligent scheduling model, intelligent scheduling model of the invention rings UI elements positioning parsing and UI events It should be delayed as critical design element, using the variable pitch of UI elements as crucial fit object, and it is acceptable completely immutable The solidification of UI elements configures.
Local integrated software client does not do running environment unique requirement, according to the running environment of Member Systems Design different client-side program versions.
Intelligent scheduling model is kept to the highly sensitive of UI element changeabilities, therefore can be detached among all UI variations Go out to carry the user service data of label, intelligent scheduling model preserves the metadata and its read method of user service data, really Protecting user service data can converge.
Since user service data derives from the user's operation behavior constrained by Member Systems permission, Yong Huye The content of the polymerization for data of being engaged in includes operator's identity, ensures that the secondary use of aggregated data is also controlled with this.
The unique identification of user service data caused by multiple Member Systems, the repeating the operation several times of multiple operators and Duplicate removal, is another fit object of intelligent scheduling model, unless having manually provided solidification configuration.
The preferred queue of UI elemental recognition methods is to be sub-divided into the operator of each Member Systems, the identity of operator Identification is retrospective, this is the basis of single-sign-on authentication, and identification is also the identification of variable UI elements, and only it sends out Raw login link or browser page in Member Systems logs in link, and password passes through individually irreversible encryption solidification configuration Method gives management and control.
S3, the correspondence for establishing multiple the First Eigenvalues and multiple Second Eigenvalues respectively;Correspondence It can be realized by InteractLogic, such as:Triggering between Member Systems is called, and Member Systems running environment is passed through Case mechanism is achieved, and the process of another Member Systems being automatically brought into operation is triggered in the operation by a Member Systems In, for the event simulation effect being optimal, present invention design establishes " delay obstruction " mechanism, and obstruction duration passes through intelligence Scheduling model provides, it is set based on each UI element.
Triggering between Member Systems, which is called, must comply with the designed UI logics of Member Systems itself, in order to avoid because disobeying Anti- Member Systems UI logics and the error calls triggered, present invention design establish InteractLogic mechanism, InteractLogic mechanism has arranged the operation order of each UI element and its embeddable opening, and InteractLogic is certainly It defines a set of semantic (DSL), it then follows BPMN2 specifications, and business object and data type and its accordingly are defined based on BPMN2 The semantic extension of description is mapped, the example of InteractLogic is provided by intelligent scheduling model, and can manually cure configuration.
The present invention is that the method for devising parameter transmission is called in the triggering of Member Systems cross-system, is carried by InteractLogic For the source and target of parameter, the extraction in parameter source and its parameter merging of target location, by the backstage of integrated software client Service processes are completed.
S4, when first parameter value changes, by the correspondence, first parameter value is occurred Variation be added to corresponding second parameter value;Alternatively, when second parameter value changes, pass through the corresponding pass System, corresponding first parameter value is added to by the variation that second parameter value is occurred.
Wherein, described when first parameter value changes, by the correspondence, by first parameter value The step of variation occurred is added to corresponding second parameter value includes step S41-S43:
S41, judge whether first parameter value changes by preset interface function;
If S42, first parameter value change, by the correspondence, and according to first parameter value Search corresponding second parameter value;
S43, the variation occurred according to first parameter value are added to the second found parameter value, and by right The UI daughter elements and its interbehavior answered change second parameter value.
It is described when second parameter value changes, by the correspondence, second parameter value is sent out The step of raw variation is added to corresponding first parameter value includes step S44-S47:
S44, the UI elements that second software system interface is presented are captured in real time;
S45, it is compared to refreshing each of front and back UI daughter elements, if unanimously, continuing to capture the UI members Element, if inconsistent, it is determined that corresponding second parameter value of the UI daughter elements changes;Such as:Operational process is:Capture source UI changes and parses UI contents, the variation (if source system not running, starts source system) from source system acquisition to UI, and parses The UI contents of source system are submitted to intelligent scheduling model by the UI data contents after variation, and intelligent scheduling model is based on self-defined The built-in deep learning model of algorithm, calculation processing is carried out as follows to the UI contents of source system:
(1), the unique identifier of UI, the unique identifier of operator's identity are extracted, and establishes operator's identity persistence Storage;
(2), metadata is extracted according to the classification (manipulation type, label type, data type) of UI elements, according to the libraries operating system UI API, third party discloses API and figure the OCR extraction in the libraries UI and covers metadata more;
2., using UI identifiers, operator's status identifier and metadata as the input of deep learning model, calculate simultaneously defeated Go out high-precision source system UI contents;The sequencing of the UI metadata repeatedly captured according to source system and its thing triggered The type in part source builds UI masterplates, this UI masterplate can be shared with high in the clouds UI masterplates, and higher parsing precision and faster can be obtained Resolution speed;The persistent accumulation of UI masterplates and optimization, will construct default InteractLogic, InteractLogic according to The UI meta data match of source system goes out the metadata of target UI;
3., intelligent scheduling model to goal systems send UI action events opened if goal systems is not in operating status Moving-target system;
4., goal systems will start the cycle of a new round as source system;
S46, corresponding first parameter value is searched by the correspondence, and according to second parameter value;
S47, the variation occurred according to second parameter value are added to the first found parameter value, and by pre- If interface function change first parameter value.
Such as:There are several scenes for the UI interbehaviors of cross-system, including:
(1), major-minor system interaction:One Member Systems is run as main system, another or multiple Member Systems conducts Auxiliary system is run, and main system UI occupies the foreground focus interface of display screen, auxiliary system UI as the workbench of operator The suitable position of main system UI is attached to as suspended window, the UI contents of suspended window are with the variation of main system UI and with covariant Change, the UI contents of suspended window do not provide action event response;Under this scene, the UI of auxiliary system is hidden in rear end operation, suspends Window is as its projection target;
(2), merge interaction:The UI of multiple Member Systems is projected to one by the workbench constructed by intelligent scheduling model Among window, if there is the semantic UI elements repeated among the UI that each Member Systems are projected, duplicate removal processing is done;This scene Under, the UI of Member Systems is hidden in rear end operation, and as its projection target, all UI in the workbench window are handed over the workbench window Mutual behavior will synchronize the Member Systems for being sent to projection source;
Suspended window under above-mentioned scene and the workbench window are named as " phantom UI " in the present invention, and " phantom UI " is Optionally, this control for depending on InteractLogic.
Preferably, further include step S5 in the interface data management method:
S5, the parameter of multiple second software system interfaces is added to first software system interface.Step S5 Including step S51-S52:
S51, the identification information that multiple second software system interfaces are respectively set;Identification information i.e. the second software systems The identity unique mark at interface is mutually distinguished between each second software system interface.
S52, according to the identification information by multiple Second Eigenvalues of multiple second software system interfaces and multiple The second parameter value corresponding with the Second Eigenvalue is added to first software system interface respectively.
Preferably, step S5 further includes step S53:
S53, inquired according to the correspondence it is right in first parameter value and multiple second software system interfaces The second parameter value answered.
The case where being directed to multiple second software system interfaces, the present invention devises " phantom UI " mechanism, and being used for will be multiple The part of the UI of Member Systems is mapped among the window that one is provided by integrated software client, " unreal to be combined as one Shadow UI ", all operations to " phantom UI ", the actually operation to mapped Member Systems UI are as follows to reach Effect:
1, by the input item of each Member Systems by merging into an input interface, the behaviour after the completion of inputting after semantic duplicate removal Make, the simultaneously operating for calling related all Member Systems is triggered by parameter passing mechanism, the defeated of identical semanteme is avoided with this Enter the repetition typing of item;
2, by the UI elements of each Member Systems by including at the same interface, alternatively, with some member after semantic duplicate removal The interface of system is main UI, using the part UI elements of other Member Systems as the suspended window content Dynamic Announce of main UI;
The time of the display of " phantom UI " and position and its corresponding UI elements, definition is provided by InteractLogic.
Combining step S2-S4, phantom UI mapping principles are:
1, " phantom UI " be first to each Member Systems UI assignment sizes, distribution method include fixed dimension distribution method and Dynamic adaptation method:
A, fixed dimension distribution method:Determine each Member Systems in the occupied of " phantom UI " first at the beginning of operation Block, that is, the fixed shape (being not limited to rectangle) and size distributed, during whole service, Ge Gecheng The size and location of display block of member's system in " phantom UI " is all changeless;
B, dynamic adaptation method:It is not the fixed display block of each member distribution, but in the process of running according to member The variation of the UI elements of system and dynamically distribute shape and size;
2, the UI element mapping methods of phantom UI depend on the recognition methods to Member Systems UI elements, if it is Web page Surface element, the then method mapped by dom nodes, if it is shape library structure disclosed in operating system test pattern library or third party The UI elements made then call corresponding API to realize mapping, if it is the customized closed libraries UI, then pass through reading The method of FrameBuffer mappings.Mapping method is defined among InteractLogic.
3, the collaboration (the namely transmission of UI action events and event response) that block is respectively mapped in " phantom UI " passes through intelligence Scheduling model reads InteractLogic and sends event.The operation of any mapping block in " phantom UI " is equal to The direct operation of corresponding Member Systems, vice versa, is also synchronized in the UI result of variations of any operation of Member Systems aobvious Show within the correspondence block of " phantom UI ".
InteractLogic is passed through based on UI template libraries across the UI logics of multiple Member Systems The UI logics based on UI elements of different members system are linked together by InteractLogic according to semantic rules, from And construct the UI logics of a cross-system.
UI instructions coordinate administrative mechanisms when UI instruction schedulers are a set of operations, in each Member Systems independent operation or In " phantom UI " when operation, instruction is sent out for foundation with InteractLogic or receives event and is forwarded, it is ensured that is interdepartmental The UI instructions of system can follow strictly the constraint of InteractLogic and stabilization efficiently performs.
Instruction scheduler provides fault-tolerant guarantee by oneself exclusive caching mechanism for the UI instruction executions of cross-system.
In conclusion the key problem in technology point of the present invention is:
1, UI interbehaviors identify:UI elements and its interbehavior are identified;
2, deep learning model:On the basis of neural network algorithm, based on matching algorithm to UI elements and its interaction row To carry out precision training;
3、InteractLogic:The link and combination of the UI logic segments of cross-system;
4, the instruction scheduling based on UI interbehaviors:Ensure that the instructions of the UI including UI elements, behavioral parameters can have Ensure that ground cross-system executes;
5, phantom UI:The UI of each Member Systems is locally combined and is mapped among a comprehensive window, is passed through One multiple Member Systems of UI window operations, meets the convenience requirement of user experience very much;
The present invention technique effect be:
1, integrated without the heterogeneous system of interface exploitation
The present invention is the method for the versatility based on operating system or browser, passes through the knowledge of UI elements and its interbehavior Not interconnecting between each Member Systems of UI logic reorganizations (InteractLogic) realization, because without being for each member The integrated and independent development interface of system, and have the characteristic of good cross-system platform.
2, can heterogeneous system exhausted it is integrated
All UI elements and its interbehavior of Member Systems are recognizable, and can be realized by InteractLogic across The UI logic reorganizations of system, therefore, as long as the user function that Member Systems are provided, can be included in integrated range, not by The limitation of the provided interface of Member Systems.
3, the heterogeneous system of non-intruding is integrated
Identification in Member Systems UI elements and interbehavior and its instruction to UI elements are sent, and are opened with Member Systems Based on putting the function UI to user, therefore also there is no need to consider whether Member Systems provide development interface, thus integrated Also just without invading Member Systems, condition depended, operation operation, edition upgrading and its change of all Member Systems are kept journey Its original independence, is not influenced by integrated.
Each functional unit in the embodiment of the present invention can be integrated in a processing module, can also be each unit list Solely be physically present, can also the multiple or multiple above units be integrated in a module.Above-mentioned integrated module both may be used The form of hardware is realized, can also be realized in the form of software function module.If the integrated module is with software function The form of module is realized and when sold or used as an independent product, can also be stored in a computer-readable storage and be situated between In matter.Storage medium mentioned above can be read-only memory, disk or CD etc..Above-mentioned each device or system, can be with Execute the storage method in correlation method embodiment.
In conclusion although the present invention is disclosed above with preferred embodiment, above preferred embodiment is not to limit The system present invention, those skilled in the art can make various changes and profit without departing from the spirit and scope of the present invention Decorations, therefore protection scope of the present invention is subject to the range that claim defines.

Claims (10)

1. a kind of interface data management method, which is characterized in that including:
Open the first software system interface and the second software system interface;First software system interface includes multiple first special Value indicative and multiple first parameter values corresponding with the First Eigenvalue respectively;
Type according to second software system interface obtain second software system interface multiple Second Eigenvalues and Multiple second parameter values corresponding with the Second Eigenvalue respectively;
The correspondence of multiple the First Eigenvalues and multiple Second Eigenvalues is established respectively;
When first parameter value changes, by the correspondence, the variation that first parameter value is occurred It is added to corresponding second parameter value;Alternatively, when second parameter value changes, by the correspondence, by institute It states the variation that the second parameter value is occurred and is added to corresponding first parameter value.
2. interface data management method according to claim 1, which is characterized in that the first software system interface of the opening And second software system interface, including:
First software system interface is configured to configure multiple the First Eigenvalues and multiple first parameter values;
First software system interface and the second software system interface are opened respectively, to which multiple the First Eigenvalues be presented And multiple first parameter values.
3. interface data management method according to claim 1, which is characterized in that described according to second software systems The type at interface obtain second software system interface multiple Second Eigenvalues and it is multiple respectively with the Second Eigenvalue Corresponding second parameter value, including:
Determine the type of second software system interface;
If the type of second software system interface is recognizable type, described second is extracted by preset interface function Multiple Second Eigenvalues of software system interface and multiple second parameter values corresponding with the Second Eigenvalue respectively;
If the type of second software system interface be can not identification types, capture operation second software system interface When interbehavior, according to the interbehavior obtain second software system interface multiple Second Eigenvalues and multiple points Second parameter value not corresponding with the Second Eigenvalue.
4. interface data management method according to claim 3, which is characterized in that the capture operates second software Interbehavior when system interface obtains multiple Second Eigenvalues of second software system interface according to the interbehavior And multiple second parameter values corresponding with the Second Eigenvalue respectively, including:
The UI elements and its interbehavior that second software system interface is presented are captured, and is obtained more in the UI elements A UI daughter elements are to obtain the corresponding multiple Second Eigenvalues of multiple UI daughter elements;
Multiple respectively corresponding with the Second Eigenvalue second are determined according to the corresponding interbehavior of multiple UI daughter elements Parameter value.
5. interface data management method according to claim 4, which is characterized in that described when first parameter value occurs When variation, by the correspondence, the variation that first parameter value is occurred is added to corresponding second parameter value, is wrapped It includes:
Judge whether first parameter value changes by preset interface function;
If first parameter value changes, by the correspondence, and searches and correspond to according to first parameter value The second parameter value;
The variation occurred according to first parameter value is added to the second found parameter value, and passes through corresponding UI Element and its interbehavior change second parameter value.
6. interface data management method according to claim 4, which is characterized in that described when second parameter value occurs When variation, by the correspondence, the variation that second parameter value is occurred is added to corresponding first parameter value, is wrapped It includes:
The UI elements that second software system interface is presented are captured in real time;
It is compared to refreshing each of front and back UI daughter elements, if unanimously, continuing to capture the UI daughter elements, if differing It causes, it is determined that corresponding second parameter value of the UI daughter elements changes;
Corresponding first parameter value is searched by the correspondence, and according to second parameter value;
The variation occurred according to second parameter value is added to the first found parameter value, and passes through preset interface Function changes first parameter value.
7. interface data management method according to claim 1, which is characterized in that further include:
The parameter of multiple second software system interfaces is added to first software system interface.
8. interface data management method according to claim 7, which is characterized in that described by multiple second software systems The parameter at system interface is added to first software system interface, including:
The identification information of multiple second software system interfaces is respectively set;
According to the identification information by multiple Second Eigenvalues of multiple second software system interfaces and it is multiple respectively with institute It states corresponding second parameter value of Second Eigenvalue and is added to first software system interface.
9. interface data management method according to claim 8, which is characterized in that described by multiple second software systems The parameter at system interface is added to first software system interface, further includes:
It is inquired corresponding second in first parameter value and multiple second software system interfaces according to the correspondence Parameter value.
10. interface data management method according to claim 4, which is characterized in that capture second software system The UI elements and its interbehavior that system interface is presented, and multiple UI daughter elements in the UI elements are obtained to obtain multiple UI The corresponding multiple Second Eigenvalues of daughter element, including:
Repeatedly capture the UI elements and its interbehavior that second software system interface is presented;
Multiple UI daughter elements in the UI elements are repeatedly obtained to obtain corresponding multiple second spies of multiple UI daughter elements Value indicative;
Deep learning is carried out to the UI elements, interbehavior, multiple Second Eigenvalues that are captured, to instruct subsequent interface number According to management method.
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