DE19903631A1 - System and method for pre-parameterizing components - Google Patents

Abstract

The invention relates to a system and method for pre-parameterizing components (1a..1n) of at least one data processing application (2a..2n). The aim of the invention is to ensure a simple and uniform parameterization of components which belong together, for example, according to a predeterminable style guide. To this end, the invention provides that parameterization information (4a..4n), in particular, standard settings such as background color, font, font size, etc. is established by using a parameterization input device (7) and/or by using a sample component (6). In addition, said parameterization information is stored in a memory (3a, 3b). The parameterization information (4a..4n) parameterizes predeterminable components (1a..1n) automatically and/or in a manner which is controlled by the user (9).

Description

The invention relates to a system and a method for parameterization of components of at least one data processor processing application.

Software components of data processing applications, at for example of word processing programs, graphic edi goals such as B. drawing programs etc. are used by the user often parameterized in a uniform manner, d. H. the User assigns predeterminable same to the individual components Properties such as background color, font, font size etc. It is with the Conception of different components often a renewed pa Manual setting required, which has a high on wall is connected. Especially when creating documents elements that are designed according to certain company standards this is with a considerable amount of Para metrics handles connected.

The invention is based, a system and a task Specify a method that is simple, d. H. with egg with little effort by the user a uniform and automatic parameterization of components possible light.

This task is performed by a system for parameterizing Components of at least one data processing application with Means for defining parameterization information, ins special standard settings like background color, Font, font size etc., and with a memory for Storage of the parameterization information solved, where the parameterization information for automatic and / or user-controlled parameterization of specifiable com components are provided.  

This task is accomplished by a procedure for parameterizing Components of at least one data processing application solves, with the help of a parameterization input device device and / or with the help of an example parameterized Component parameterization information, especially Stan Default settings such as background color, font, font size etc., fixed and stored in a memory is, the parameterization information predefinable com components automatically and / or by the user the.

The invention is based on the knowledge that the effort for a uniform parameterization of components is avoided or at least can be reduced if the required parameterization information for a variety can be specified by components. For this, the Parameterization information, e.g. font size, Background color, font in a special memory Storage of the parameterization information is saved and managed. This parameterization information can then also the corresponding comm components with the corresponding parameterization information tion should be assigned. With others Words: There is a central body where the components can request pre-defined pre-parameterizations and this, for example, during placement or initiation can use as default settings. This will fit the software components automatically move or initiation time to the currently active environment requirements. A complex individual parameterization of the Components are eliminated.

The integration of the parameterization functions in the computer environment can be achieved by having the system tax means for passing on the stored in the storage device saved parameterization information to predefinable components ten.  

Targeted and unrestricted parameterization possible can be ensured in such a way that the Components Means to initiate a takeover from local and / or globally stored parameterization information having.

A simple division into one specified by the system Basic parameterization and, for example, user-specific cal fine parameterization can be done in such a way that the Presetting parameterization information for basic parameterization cash components are provided.

An automatic parameterization when placing of components can be achieved in that the system Means for automatic adaptation to the currently active parameter Component placement information and / or initiation.

Another option for automatic parameterization predefinable components to the respective environment can can be easily achieved in that the parametry hierarchical information, especially domain, sy are staggered and user-specific.

A secure assignment between the parameterization information tion and the components can be easily in the Way that the assignment between the parameters information and the components a clear ID tification information is provided that either the Pa configuration information or assigned to the components are.

The invention is described below with reference to the figures illustrated embodiments described and he purifies.

Show it:  

Fig. 1 is a block diagram of an embodiment of a system for pre-parameterizing components and

Fig. 2 shows a schematic diagram for the assignment of parameterization information to components.

Fig. 1 shows an embodiment of a system for (pre) parameterizing components 1 a. . . 1 n in a schematic representation. For applications 2 a. . . 2 n are, for example, word processing applications, graphic editors such. B. drawing applications etc. The applications 2 a. . . 2 n and components 1 a. . . 1 n are stored in the exemplary embodiment shown in FIG. 1 on a computer 10 which is coupled to a screen 11 , a keyboard 12 and a mouse 13 . Interaction with a user 9 takes place via keyboard 12 and mouse 13 . The computer 10 is coupled to the system for parameterization via a coupling 14 . The memory 3 is used to store parameterization information 4 a. . . 4 n, such as font, frame, color, etc. . . Furthermore, an exemplary parameterized component 6 and a parameterization editor 7 are provided in the system shown in FIG. 1, each of which can be coupled to the memory 3 via further couplings 16 , 17 .

The system shown in Fig. 1 is used in particular an automatic pre-parameterization of components 1 a. . . 1 n for example when placing or initiating. For this purpose, in the storage device 3 and / or in the components 1 a. . . 1 n itself identification information 5 a. . . 5 n or 30 a. . . 30 n saved. For example, an identification number can be entered in the identification field 30 a, which corresponds to a parameterization component 3 a stored in the memory 3 . . . 3 n points. The specification of a parameterization component 3 a. . . 3 n can be done in two ways. Either an example parameterization is carried out with the aid of a parameterization example, ie with the aid of an example parameterized component 6 or 1 i (1 <= i <= n) and this is stored as an example component in the memory 3 . A second possibility is to use the schematic editor 7 certain parameterization elements and parameterization regulations 4 a. . . 4 n select and save in a certain configuration in memory 3 . The Sun in the memory 3 from set configurations 3 a. . . 3 n then form the data records that are used in the parameterization of components 1 a. . . 1 n be taken as a basis. The components 1 a. . . 1 n are looking for z. B. at the time of their placement the previously defined in the memory 3 and provided in the system Parametrierungsinfor mations 3 a. . . 3 n, which is also referred to below as schema information 3 a. . . 3 n can be designated. This scheme information 3 a. . . 3 n serve to pre-parameterize components 1 a. . . 1 n to allow. As a result, the user 9 receives components which do not comply with the parameterization specifications without any action on his part, and thus saves having to manually parameterize the individual components 1 a constantly. . . 1 n. He receives components 1 a. . . 1 n, of which he can be sure that they are all the same in terms of basic parameterization, which plays an important role in particular with company standards and style guides etc. As soon as, for example, company standards etc. change, the components can decide whether they will use the new scheme information 3 a at the next initiation. . . 3 n take over. In this case, dynamic adaptation to the respective environmental properties is achieved. The scheme information 3 a. . . 3 n are stored in the exemplary embodiment shown in FIG. 1 at a central (for example user, computer or domain-specific) location in which the components 1 a. . . 1 n the pre-set parameters 3 a. . . 3 n can inquire. These are then either when placing and / or when initiating components 1 a. . . 1 n used as standard settings. As a result, the components automatically adapt to the currently active environmental requirements at the time of placement or initiation.

Depending on how the components 1 a. . . 1 n are each set, they can either be parameterized on a system and after copying to another system have the same appearance, or their appearance adjusts depending on the presence of other component schemes 3 a. . . 3 n on other systems to the system settings there. An advantageous exemplary embodiment relates to the environment of the automation industry, in which an engineering firm creates system configurations and, in addition, components (= controls) 1 a. . . Want to use 1 n. It is becoming increasingly common to use these controls directly in Visual Basic, for example, or in the operator control and monitoring systems WinCC and Colorado from Siemens. The engineering offices usually work as a contractor for a company that would like to automate their systems. The contractor usually determines the visual guidelines according to which the surface of the components 1 a. . . 1 n optically designed, ie to be designed. Every control 1 a. . . 1 n can be parameterized so that it complies with these guidelines. With the aid of the system shown in FIG. 1, there is now the possibility of specifying a game scheme 6 and then for the components 1 a still to be created. . . 1 n as binding. As a result, the parameters are set automatically according to the specified style guide. The scheme information 3 a. . . 3 n can be hierarchically staggered, for example do main, system and user specific. Here, hierarchically means that in the case where there is no user-specific setting, the system-specific is used. If this does not exist either, the domain-specific schematic information is accessed.

In a specific implementation for the system shown in FIG. 1 under Microsoft Windows 9x and NT, the component developer selects a part of his properties, ie his parameterization options for the components, in order to include them in the component diagrams. When placing components 1 a. . . 1 n it is checked whether parameterization information 4 a. . . 4 n for the corresponding parameterization options are saved in the diagrams. If this is the case, the component reads it out and uses the corresponding parameterization properties to initialize it. Component 1 a also offers. . . 1 n itself opportunities for the user to rely on the scheme information 3 a. . . 3 n to exert influence. The component can offer these access options, for example, via so-called OLE verbs. The advantage is that almost every control container uses the verbs of a control z. B. in the pop-up menu indicates that access to the functionality is largely possible regardless of the container.

Useful access options include the About take the current control parameterization as schemes, that Overwrite the current parameterization with the saved saved schemes, enabling / disabling the use of Schematic information for newly inserted controls and that Overwrite the current control parameterization with Standard settings independent of the scheme. For the data location, the so-called registry is a suitable storage location. The filing can, for example, in a subentry "scheme ta information "or" parameterization information "successful and a grouping of the information below further subentries.

The assignment between component 1 a. . . 1 n and scheme information 4 a. . . 4 n of the memory 3 is conceivable in two ways. Either the scheme information becomes a specific control type 1 a. . . 1 n assigned. In this case, the sub-entry in the registry can, for example, by a unique identification information, such as the so-called GUID of Controls 1 a. . . 1 n clearly defined. Another possibility is to provide the parameterization information 3 a. . . 3 n assign unique identification information yourself and save it under the registry entry of the components. Component 1 a is also so. . . 1 n able to use the associated parameterization information 4 a. . . 4 n again. For an explanation of the term, reference is made, for example, to the book "Activ X and OLE Understanding" by David Chappell, Microsoft Press, Unterschleissheim.

Fig. 2 shows another embodiment of a system for pre-parameterizing components 1 a. . . 1 n. The different components 1 a. . . 1 n each assigned parameterization information 3 a. . . 3 n are stored locally on a memory 3 of a locally arranged computer, and / or on further data sources 21 , 22 of an intranet 20 or of the Internet 19 . For example, basic parameterization information 3 a can be assigned to a first component 1 a, which is stored in local memory 3 and is assigned via a coupling 23 . The components 1 a. . . 1 n and / or the parameterization information 3 a. . . 3 n have identification information 30 a. . . 30 n; 5 a. . . 5 n to assign components 1 a. . . 1 n for the respective parameterization information 3 a. . . 3 n and / or vice versa. This is illustrated by the couplings 23 , 24 , 25 shown as arrows in FIG. 2. Further parameterization regulations can also be provided via further couplings 19 , 20 on the Internet 21 or on the intranet 22 . The same applies to the parameterization of the other components 1 b. . . 1 n.

The basic function of the system shown in FIG. 2 corresponds to the relationships that have already been explained in connection with FIG. 1. The peculiarity in Fig. 2 is, however, that a both local and global automatic parameterization of components 1 a. . . 1 n can be generated depending on the respective environmental conditions. The user can activate or deactivate certain basic and fine parameter settings, which can be arranged both locally and globally.

In summary, the invention thus relates to a system and a method for pre-parameterizing components 1 a. . . 1 n at least one data processing application 2 a. . . Second n Si to a simple uniform parameterization of related components cherstellung example, according to a predeterminable "Style Guide" is proposed that by means of a parameterization input device 7 and / or with the aid of an example component 6 parameterizing 4a. . . 4 n, in particular standard settings such as background color, font, font size, etc., are defined and stored in a memory 3 a, 3 b, the parameterization information 4 a. . . 4 n predeterminable components 1 a. . . 1 n parameterize automatically and / or controlled by user 9 .

Claims (14)

1. System for parameterizing components ( 1 a... 1 n) at least one data processing application ( 2 a... 2 n) with means ( 6 , 7 ) for defining parameterization information ( 4 a... 4 n), in particular standard settings such as background color, font, font size, etc., and with a memory ( 3 a, 3 b) for storing the parameterization information ( 4 a... 4 n), the parameterization information ( 4 a... 4 n) for automatic and / or by the user ( 9 ) controlled parameterization of predeterminable components ( 1 a... 1 n) are provided. 2. System according to claim 1, characterized in that the system control means ( 8 ) for passing on the parameterization information stored in the memory device ( 3 ) ( 4 a... 4 n) to predefinable components ( 1 a... 1 n) having. 3. System according to one of claims 1 or 2, characterized in that the components ( 1 a... 1 n) means ( 9 ) for initiating a takeover of locally and / or globally stored parameterization information ( 4 a... 4 n). 4. System according to one of claims 1 to 3, characterized in that the parameterization information ( 4 a... 4 n) are provided for the basic parameterization of predeterminable components ( 1 a... 1 n). 5. System according to one of claims 1 to 4, characterized in that the system means for automatic adaptation to currently active parameterization information ( 4 a... 4 n) of components ( 1 a... 1 n) when placing and / or initiation. 6. System according to one of claims 1 to 5, characterized in that the parameterization information ( 4 a... 4 n) are hierarchically, in particular domain, system and user-specific, staggered. 7. System according to any one of claims 1 to 6, characterized in that for the assignment between the parameterization information ( 4 a... 4 n) and the components ( 1 a... 1 n) a unique identification information is provided, which either the parameterization information ( 4 a... 4 n) or the components ( 1 a... 1 n) are assigned. 8. Method for parameterizing components ( 1 a... 1 n) at least one data processing application ( 2 a... 2 n), in which with the aid of a parameterization input device ( 7 ) and / or with the aid of an example component (6 ..) Parametrics changed information (4a.. 4 n), in particular Restore defaults settings such as background color, font, size, etc., specified in a memory (3 a, 3 b) is stored, wherein said parameterizing (4a.. 4 n) Predeterminable components ( 1 a... 1 n) automatic and / or parameterized by the user ( 9 ). 9. The method according to claim 8, characterized in that the transfer of the stored in the memory device ( 3 ) stored parameterization information ( 4 a... 4 n) to predeterminable components ( 1 a... 1 n) controlled by the user ( 9 ) becomes. 10. The method according to any one of claims 8 or 9, characterized in that the initiation of a takeover of locally and / or globally stored parameterization information ( 4 a... 4 n) by the component ( 1 a... 1 n) assigned data ( 9 ) is done. 11. The method according to any one of claims 8 to 10, characterized in that the parameterization information ( 4 a... 4 n) are provided for the basic parameterization of predeterminable components ( 1 a... 1 n). 12. The method to be adapted according to any one of claims (. 4 a.. 4 n) from 8 to 11, characterized in that predetermined components (... 1 a 1 n) rierungsinformationen at a placing and / or initiation automatically currently active Paramet . 13. The method according to any one of claims 8 to 12, characterized in that the parameterization information ( 4 a... 4 n) are hierarchical, in particular domain, system and user-specific, staggered. 14. The method according to any one of claims 8 to 13, characterized in that the assignment between the parameterization information ( 4 a... 4 n) and the components ( 1 a... 1 n) is carried out by a unique identification information that either the Parameterization information ( 4 a... 4 n) or the components ( 1 a... 1 n) are assigned.