CN103092997B - For interlock inquiry system and the interlock querying method of statement analysis - Google Patents

Abstract

The invention provides a kind of interlock inquiry system for statement analysis, comprising: relation sets up unit, for setting up interaction relation between any number of see-through area in form; Relation judging unit, for judging whether the target see-through area of specifying and the current source see-through area chosen of user exist interaction relation; Information adding device, if exist, obtains the dimensional information that user selects in the current source see-through area chosen, and is added in context model; Query unit, for by context model merging treatment contextual information, with generated query statement, carries out query manipulation.The invention allows for a kind of interlock querying method for statement analysis.By technical scheme of the present invention, can in the process performing interlock, the dimensional information of target source see-through area is added in the see-through area of target dynamically, make target see-through area on original dimension basis, add new dimensional information, make the data after linking have more business meaning.

Description

For interlock inquiry system and the interlock querying method of statement analysis

Technical field

The present invention relates to data query technique field, in particular to for statement analysis interlock inquiry system and interlock querying method.

Background technology

Enterprise can produce various in business process, has different business meaning, the form of different-format.Often open in form and may there is multiple see-through area, these see-through area embody the business circumstance of enterprise from different angles.When the supvr of enterprise wants the data of the different see-through area of checking under a certain specified conditions, need by these independently see-through area connect, and the incidence relation between these see-through area is just referred to as interlock.

The Normal practice solving this kind of problem is that the attribute be associated by existing between different see-through area sets up contact, by triggering these relating attributes, and the data under making target source represent respective attributes value.But the result too simplification that this mode represents after causing interlock, is unfavorable for that enterprise operator understands comprehensively and accurately and analyzes the data of enterprise.

Therefore, need a kind of interlock inquiring technology newly, can in the process performing interlock, the dimensional information of target source see-through area is added in the see-through area of target dynamically, make target see-through area on original dimension basis, add new dimensional information, various dimensions, omnibearingly represent the data after interlock, make the data after linking have more business meaning.

Summary of the invention

The present invention is just based on the problems referred to above, propose a kind of interlock inquiring technology newly, can in the process performing interlock, the dimensional information of target source see-through area is added in the see-through area of target dynamically, make target see-through area on original dimension basis, add new dimensional information, various dimensions, omnibearingly represent the data after interlock, make the data after linking have more business meaning.

In view of this, the present invention proposes a kind of interlock inquiry system for statement analysis, comprising: relation sets up unit, for setting up interaction relation between any number of see-through area in described form; Relation judging unit, for when needing to perform inquiry to the target see-through area of specifying, judges whether there is interaction relation between described target see-through area of specifying and the current source see-through area chosen of user; Information adding device, for when judged result is for being, obtain the dimensional information that described user selects in the described current source see-through area chosen, and selected dimensional information is added in context model, make in described context model, to comprise the dimensional information of described target see-through area of specifying and the dimensional information of the described current source see-through area chosen simultaneously; Query unit, for by described context model merging treatment contextual information, with generated query statement, and utilizes described query statement to carry out query manipulation to described target see-through area of specifying.

In this technical scheme, by carrying out interlock inquiry to the dimensional information of source see-through area and the dimensional information of target see-through area simultaneously, thus make the result of inquiring about advantageously in the analysis of business datum.

In technique scheme, preferably, described relation is set up unit and is comprised: regional choice subelement, for selecting the target see-through area needing to set up interaction relation with source see-through area; Information storing sub-units, for creating the data model of described source see-through area, and the information of the see-through area all and described source see-through area being existed or need to set up interaction relation is stored in described data model.In this technical scheme, by creating data model, thus realize the effective storage to the interaction relation between see-through area.

In technique scheme, preferably, described information storing sub-units comprises: Object Creation module, for creating interlock object; Wherein, the information of described target see-through area is stored in described interlock object by described information storing sub-units, and is stored in the data model of described source see-through area by described interlock object.In this technical scheme, particularly, the storage of the interaction relation between being realized multiple see-through area by the mode storing interlock object, it is more accurate to make the storage of interaction relation.

In technique scheme, preferably, described information storing sub-units also comprises: element creation module, and for creating interlock element, described interlock element maintains one for preserving the list of interlock object corresponding to all and described source see-through area; Wherein, described interlock element is stored in the data model of described source see-through area by described information storing sub-units.In this technical scheme, by storing the list of all interlock objects, thus record is carried out to other see-through area be associated with source see-through area.

In technique scheme, preferably, also comprise: described query statement is MDX(multi-dimensionalexpressions, Multidimensional Expressions) statement.

According to another aspect of the invention, also proposed a kind of interlock querying method for statement analysis, comprising: step 202, between any number of see-through area in described form, set up interaction relation; Step 204, when needing to perform inquiry to the target see-through area of specifying, there is interaction relation in the target see-through area of specifying if described and the current source see-through area chosen of user, then obtain the dimensional information that described user selects in the described current source see-through area chosen, and selected dimensional information is added in context model, make in described context model, to comprise the dimensional information of described target see-through area of specifying and the dimensional information of the described current source see-through area chosen simultaneously; Step 206, by described context model merging treatment contextual information, with generated query statement, and utilizes described query statement to carry out query manipulation to described target see-through area of specifying.

In this technical scheme, by carrying out interlock inquiry to the dimensional information of source see-through area and the dimensional information of target see-through area simultaneously, thus make the result of inquiring about advantageously in the analysis of business datum.

In technique scheme, preferably, described step 202 comprises: select needs and source see-through area to set up the target see-through area of interaction relation; Create the data model of described source see-through area, and the information of the see-through area all and described source see-through area being existed or need to set up interaction relation is stored in described data model.In this technical scheme, by creating data model, thus realize the effective storage to the interaction relation between see-through area.

In technique scheme, preferably, create interlock object, and the information of described target see-through area is stored in described interlock object; Described interlock object is stored in the data model of described source see-through area.In this technical scheme, particularly, the storage of the interaction relation between being realized multiple see-through area by the mode storing interlock object, it is more accurate to make the storage of interaction relation.

In technique scheme, preferably, also comprise: create interlock element, described interlock element maintains one for preserving the list of interlock object corresponding to all and described source see-through area; Described interlock element is stored in the data model of described source see-through area.In this technical scheme, by storing the list of all interlock objects, thus record is carried out to other see-through area be associated with source see-through area.

In technique scheme, preferably, also comprise: described query statement is MDX statement.

By above technical scheme, can in the process performing interlock, the dimensional information of target source see-through area is added in the see-through area of target dynamically, make target see-through area on original dimension basis, add new dimensional information, various dimensions, omnibearingly represent the data after interlock, make the data after linking have more business meaning.

Accompanying drawing explanation

Fig. 1 shows the block diagram of the inquiry system that links according to an embodiment of the invention;

Fig. 2 shows the process flow diagram of the querying method that links according to an embodiment of the invention;

Fig. 3 shows the particular flow sheet performing interlock inquiry according to an embodiment of the invention;

Fig. 4 shows the structural representation of the functional module realizing interlock inquiry according to an embodiment of the invention;

Fig. 5 shows the interface schematic diagram selecting interlock object according to an embodiment of the invention;

Before Fig. 6 shows and performs interlock inquiry according to an embodiment of the invention, the interface schematic diagram of interlock object and corresponding MDX information;

Fig. 7 shows the interface schematic diagram in source of linking according to an embodiment of the invention;

After Fig. 8 shows and performs interlock inquiry according to an embodiment of the invention, the interface schematic diagram of interlock object and corresponding MDX information.

Embodiment

In order to more clearly understand above-mentioned purpose of the present invention, feature and advantage, below in conjunction with the drawings and specific embodiments, the present invention is further described in detail.It should be noted that, when not conflicting, the feature in the embodiment of the application and embodiment can combine mutually.

Set forth a lot of detail in the following description so that fully understand the present invention; but; the present invention can also adopt other to be different from other modes described here and implement, and therefore, protection scope of the present invention is not by the restriction of following public specific embodiment.

Fig. 1 shows the block diagram of the inquiry system that links according to an embodiment of the invention.

As shown in Figure 1, link inquiry system 100 according to an embodiment of the invention, comprising: relation sets up unit 102, for setting up interaction relation between any number of see-through area in described form; Relation judging unit 104, for when needing to perform inquiry to the target see-through area of specifying, judges whether there is interaction relation between described target see-through area of specifying and the current source see-through area chosen of user; Information adding device 106, for when judged result is for being, obtain the dimensional information that described user selects in the described current source see-through area chosen, and selected dimensional information is added in context model, make in described context model, to comprise the dimensional information of described target see-through area of specifying and the dimensional information of the described current source see-through area chosen simultaneously; Query unit 108, for by described context model merging treatment contextual information, with generated query statement, and utilizes described query statement to carry out query manipulation to described target see-through area of specifying.

In this technical scheme, by carrying out interlock inquiry to the dimensional information of source see-through area and the dimensional information of target see-through area simultaneously, thus make the result of inquiring about advantageously in the analysis of business datum.

In technique scheme, preferably, described relation is set up unit 102 and is comprised: regional choice subelement 1022, for selecting the target see-through area needing to set up interaction relation with source see-through area; Information storing sub-units 1024, for creating the data model of described source see-through area, and the information of the see-through area all and described source see-through area being existed or need to set up interaction relation is stored in described data model.In this technical scheme, by creating data model, thus realize the effective storage to the interaction relation between see-through area.

In technique scheme, preferably, described information storing sub-units 1024 comprises: Object Creation module 1024A, for creating interlock object; Wherein, the information of described target see-through area is stored in described interlock object by described information storing sub-units 1024, and is stored in the data model of described source see-through area by described interlock object.In this technical scheme, particularly, the storage of the interaction relation between being realized multiple see-through area by the mode storing interlock object, it is more accurate to make the storage of interaction relation.

In technique scheme, preferably, described information storing sub-units 1024 also comprises: element creation module 1024B, and for creating interlock element, described interlock element maintains one for preserving the list of interlock object corresponding to all and described source see-through area; Wherein, described interlock element is stored in the data model of described source see-through area by described information storing sub-units 1024.In this technical scheme, by storing the list of all interlock objects, thus record is carried out to other see-through area be associated with source see-through area.

In technique scheme, preferably, also comprise: described query statement is MDX statement.

Fig. 2 shows the process flow diagram of the querying method that links according to an embodiment of the invention.

As shown in Figure 2, link querying method according to an embodiment of the invention, comprising: step 202, sets up interaction relation between any number of see-through area in described form; Step 204, when needing to perform inquiry to the target see-through area of specifying, there is interaction relation in the target see-through area of specifying if described and the current source see-through area chosen of user, then obtain the dimensional information that described user selects in the described current source see-through area chosen, and selected dimensional information is added in context model, make in described context model, to comprise the dimensional information of described target see-through area of specifying and the dimensional information of the described current source see-through area chosen simultaneously; Step 206, by described context model merging treatment contextual information, with generated query statement, and utilizes described query statement to carry out query manipulation to described target see-through area of specifying.

In this technical scheme, by carrying out interlock inquiry to the dimensional information of source see-through area and the dimensional information of target see-through area simultaneously, thus make the result of inquiring about advantageously in the analysis of business datum.

In technique scheme, preferably, described step 202 comprises: select needs and source see-through area to set up the target see-through area of interaction relation; Create the data model of described source see-through area, and the information of the see-through area all and described source see-through area being existed or need to set up interaction relation is stored in described data model.In this technical scheme, by creating data model, thus realize the effective storage to the interaction relation between see-through area.

In technique scheme, preferably, create interlock object, and the information of described target see-through area is stored in described interlock object; Described interlock object is stored in the data model of described source see-through area.In this technical scheme, particularly, the storage of the interaction relation between being realized multiple see-through area by the mode storing interlock object, it is more accurate to make the storage of interaction relation.

In technique scheme, preferably, also comprise: create interlock element, described interlock element maintains one for preserving the list of interlock object corresponding to all and described source see-through area; Described interlock element is stored in the data model of described source see-through area.In this technical scheme, by storing the list of all interlock objects, thus record is carried out to other see-through area be associated with source see-through area.

In technique scheme, preferably, also comprise: described query statement is MDX statement.

Fig. 3 shows the particular flow sheet performing interlock inquiry according to an embodiment of the invention.

As shown in Figure 3, the idiographic flow performing interlock inquiry according to an embodiment of the invention comprises:

Step 302, selects the see-through area needing interlock.

Step 304, builds table interlock element, is kept in see-through area model.

Step 306, when there is trigger event, interlock actuator performs in the process of interlock, obtains the dimension filtercondition of current click, is added in context.

Step 308, context model merges the dimensional information of source see-through area and target see-through area.

Step 310, checks the result after interlock.

For performing, some concept explanations related to the present invention in flow process are as follows:

Interlock object: interlock object is used for preserving the information of see-through area of interlock, as ID(Identity, identification number), title etc.The data of corresponding see-through area can be obtained by these information.

Interlock element: the list maintaining an interlock object, preserves interlock object corresponding with it.Interlock element is all kept in the data model of see-through area itself.A see-through area can have the object of multiple interlock.

MDX: one kind Sql(StructureQueryLanguage, Structured Query Language (SQL)) statement, for inquiring about the data of see-through area.

See-through area model: the data model of see-through area, the information of in store see-through area, as MDX, the information such as see-through area setting, pointer to member attribute.

Interlock actuator: for performing the implementation procedure of interlock, mainly obtains the filtering information of source see-through area, is put by filtering information hereinafter supreme, again inquire about target see-through area.

Context filtering model: be used for the cube dimension filtering model of stored table condition of contact and pivot table.The filtering model of cube dimension is used for stating which dimension to be existed as contextual filtercondition.

In addition, for the step that above-mentioned interlock performs, also it should be noted that:

1, can associate arbitrarily with the relation of multi-to-multi between different see-through area, the information in each region is kept in interlock object.Select the target see-through area needing to link with source see-through area.

The information of the target see-through area 2, the first step obtained is kept in interlock object, in store all interlock objects associated therewith in the model of source see-through area.

3, first obtain the dimensional information of the current click of source see-through area in the actuator implementation that links, and this information is deposited hereinafter supreme, now in context, combine the dimensional information of source see-through area and the dimensional information of target see-through area itself.By context model unified process context, generate new MDX, this MDX combines dimension filtercondition and original dimensional information.By new MDX, query manipulation is re-executed to target see-through area.

Fig. 4 shows the structural representation of the functional module realizing interlock inquiry according to an embodiment of the invention.

As shown in Figure 4, the functional module realizing interlock inquiry according to an embodiment of the invention comprises target interlock object and arranges module, linkage process execution module, object table enquiry module, wherein:

Target interlock object arranges module: this module mainly obtains the target see-through area needing to carry out combined operation with source see-through area.The process realized is fairly simple, obtains the interlock element in see-through area model.The information of in store all relevant see-through area in interlock element.

Linkage process execution module: this module mainly obtains the dimensional information of source see-through area by interlock actuator, and the information that dimension is filtered is joined in context model.Merge contextual information by context model, and generate new MDX.New MDX not only contains the original Query Information of target see-through area, also with the addition of the dimensional information of source see-through area dynamically.

Object table enquiry module: this module, according to the MDX information generated in interlock implementation, is gone to backstage to re-start one query operation, and represented the result after inquiry.

When specifically performing, the human-computer interaction interface as shown in Fig. 5 to Fig. 8 can be adopted, thus be convenient to user see-through area and querying condition etc. are selected, thus realize easily inquiring about the interlock of see-through area.

Wherein, Fig. 5 shows the interface schematic diagram selecting interlock object according to an embodiment of the invention, have selected " financial indicating gauge " as source see-through area in such as figure.And Fig. 6 accordingly illustrates before execution interlock inquiry, the interface schematic diagram of interlock object and corresponding MDX information, wherein, Query Result is " asset-liability ratio=23.73% ".

Correspondingly, Fig. 7 shows the interface schematic diagram in source of linking according to an embodiment of the invention, with " date=2011 " link.After Fig. 8 accordingly illustrates and performs interlock inquiry, the interface schematic diagram of interlock object and corresponding MDX information, Query Result is " asset-liability ratio=0.00% ".

More than be described with reference to the accompanying drawings technical scheme of the present invention, innovation of the present invention is based on multidimensional analysis, the multidimensional filtering information proposed interlock source is triggered passes to object table, allow target see-through area on original basis, combine the filtercondition of source see-through area, represent Query Result dynamically, allow the result of inquiry more have business meaning, make enterprise operator can the data of understanding enterprise more accurately, more clearly, improve the efficiency of enterprise.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (8)

1., for an interlock inquiry system for statement analysis, it is characterized in that, comprising:

Relation sets up unit, for setting up interaction relation between any number of see-through area in described form;

Relation judging unit, for when needing to perform inquiry to the target see-through area of specifying, judges whether there is interaction relation between described target see-through area of specifying and the current source see-through area chosen of user;

Information adding device, for when judged result is for being, obtain the dimensional information that described user selects in the described current source see-through area chosen, and selected dimensional information is added in context model, make in described context model, to comprise the dimensional information of described target see-through area of specifying and the dimensional information of the described current source see-through area chosen simultaneously;

Query unit, for by described context model merging treatment contextual information, with generated query statement, and utilizes described query statement to carry out query manipulation to described target see-through area of specifying,

Wherein, described relation is set up unit and is comprised:

Regional choice subelement, for selecting the target see-through area needing to set up interaction relation with source see-through area;

Information storing sub-units, for creating the data model of described source see-through area, and the information of the see-through area all and described source see-through area being existed or need to set up interaction relation is stored in described data model.

2. interlock inquiry system according to claim 1, is characterized in that, described information storing sub-units comprises:

Object Creation module, for creating interlock object;

Wherein, the information of described target see-through area is stored in described interlock object by described information storing sub-units, and is stored in the data model of described source see-through area by described interlock object.

3. interlock inquiry system according to claim 2, is characterized in that, described information storing sub-units also comprises:

Element creation module, for creating interlock element, described interlock element maintains one for preserving the list of interlock object corresponding to all and described source see-through area;

Wherein, described interlock element is stored in the data model of described source see-through area by described information storing sub-units.

4. interlock inquiry system according to any one of claim 1 to 3, is characterized in that, also comprise:

Described query statement is MDX statement.

5., for an interlock querying method for statement analysis, it is characterized in that, comprising:

Step 202, sets up interaction relation between any number of see-through area in described form;

Step 204, when needing to perform inquiry to the target see-through area of specifying, there is interaction relation in the target see-through area of specifying if described and the current source see-through area chosen of user, then obtain the dimensional information that described user selects in the described current source see-through area chosen, and selected dimensional information is added in context model, make in described context model, to comprise the dimensional information of described target see-through area of specifying and the dimensional information of the described current source see-through area chosen simultaneously;

Step 206, by described context model merging treatment contextual information, with generated query statement, and utilizes described query statement to carry out query manipulation to described target see-through area of specifying,

Wherein, described step 202 comprises:

Select the target see-through area needing to set up interaction relation with source see-through area;

Create the data model of described source see-through area, and the information of the see-through area all and described source see-through area being existed or need to set up interaction relation is stored in described data model.

6. interlock querying method according to claim 5, is characterized in that, also comprise:

Create interlock object, and the information of described target see-through area is stored in described interlock object;

Described interlock object is stored in the data model of described source see-through area.

7. interlock querying method according to claim 6, is characterized in that, also comprise:

Create interlock element, described interlock element maintains one for preserving the list of interlock object corresponding to all and described source see-through area;

Described interlock element is stored in the data model of described source see-through area.

8. the interlock querying method according to any one of claim 5 to 7, is characterized in that, also comprise:

Described query statement is MDX statement.