CN103970896A - Method and system for graphic display based on scalable vector graphic continuous information - Google Patents

Abstract

The invention discloses a method and system for graphic display based on scalable vector graphic continuous information. The method comprises the steps of first obtaining real-time data operating information; inputting the information to a server to perform treatment to obtain scalable vector graphic elements and scalable vector graphic movement libraries; searching corresponding scalable vector graphic elements in a scalable vector graphic element library set at the server end; searching the scalable vector graphic movement libraries of the corresponding scalable vector graphic elements according to the corresponding scalable vector graphic elements; and finally performing analog display on field data according to the real-time data operating information corresponding to the scalable vector graphic movement libraries. Double data sources including real-time data and database data are adopted, field states can be reflected and simulated in real time, and representation of history states is provided. A continuous information system is established accoding to a scalable vector graphic library and data, continuity of the data sources can be guaranteed by adopting the double data sources, and accordingly continuity of the information system is guaranteed.

Description

Pattern exhibition method and system based on scalable vector graphics continuous information

Technical field

The present invention relates to computer information system, particularly a kind of pattern exhibition method and system based on scalable vector graphics continuous information.

Background technology

The existing infosystem based on scalable vector graphics adopts static scalable vector graphics to represent system mostly, does not automatically revise and presents according to the variation of data.Special scalable vector graphics maneuver library is not set up in scalable vector graphics storehouse except preserving scalable vector graphics element database, so the real time data of also not taking according to outside is changed or operated accordingly the element of scalable vector graphics.

Therefore need a kind of pattern exhibition method and system based on scalable vector graphics continuous information.

Summary of the invention

In view of this, technical matters to be solved by this invention is to provide a kind of pattern exhibition method and system based on scalable vector graphics continuous information.

The present invention is achieved through the following technical solutions:

One of object of the present invention is to propose a kind of pattern exhibition method based on scalable vector graphics continuous information; Two of object of the present invention is to propose a kind of pattern exhibition system based on scalable vector graphics continuous information.

One of object of the present invention is achieved through the following technical solutions:

Pattern exhibition method based on scalable vector graphics continuous information provided by the invention, comprises the following steps:

S1: obtain real time data operation information;

S2: data operation information is input to server and processes and obtain needed scalable vector graphics element and scalable vector graphics maneuver library;

S3: search corresponding scalable vector graphics element in the scalable vector graphics element database of setting up at server end according to scalable vector graphics element;

S4: the scalable vector graphics maneuver library of searching corresponding scalable vector graphics element according to corresponding scalable vector graphics element;

S5: field data is carried out to simulation shows according to the corresponding real time data operation information of scalable vector graphics maneuver library.

Further, described scalable vector graphics element adopts priori scalable vector graphics storehouse, and described priori scalable vector graphics storehouse adopts the scalable vector graphics element that whole infosystem need to be applied to be put in a storehouse;

Described scalable vector graphics maneuver library is the scalable vector graphics action that need to use according to all scalable vector graphics elements of whole infosystem, and all actions are packaged into storehouse preservation.

Further, described scalable vector graphics element comprises moving part and fixed part; Described moving part is the action parameter of scalable vector graphics element, and described fixed part is the non-action parameter of scalable vector graphics element.

Further, described scalable vector graphics maneuver library comprises the change operation external member of coordinate to scalable vector graphics element, size, color.

Further, described scalable vector graphics maneuver library comprises scalable vector graphics element rotation external member, and described scalable vector graphics element rotation external member is provided with rotary middle point, rotational speed, anglec of rotation parameter.

Further, described scalable vector graphics maneuver library comprises scalable vector graphics element stretching external member, and described scalable vector graphics element stretching external member is provided with the central point of action and the range parameter of action.

Two of object of the present invention is achieved through the following technical solutions:

Pattern exhibition system based on scalable vector graphics continuous information provided by the invention, comprises information acquisition module, information process analysis module, searches module, matching module, simulation shows module;

Described information acquisition module, for obtaining real time data operation information;

Described information process analysis module, processes and obtains scalable vector graphics element and scalable vector graphics maneuver library for data operation information being input to server;

The described module of searching, searches corresponding scalable vector graphics element for the scalable vector graphics element database of setting up at server end according to scalable vector graphics element;

Described matching module, for searching the scalable vector graphics action of corresponding scalable vector graphics element according to corresponding scalable vector graphics element;

Described simulation shows module, for carrying out simulation shows according to the corresponding real time data operation information of scalable vector graphics maneuver library to field data.

Further, described scalable vector graphics element adopts priori scalable vector graphics storehouse, and described priori scalable vector graphics storehouse adopts the scalable vector graphics element that whole infosystem need to be applied to be put in a storehouse;

Described scalable vector graphics maneuver library is the scalable vector graphics action that need to use according to all scalable vector graphics elements of whole infosystem, and all actions are packaged into storehouse preservation;

Described scalable vector graphics element comprises moving part and fixed part; Described moving part is the action parameter of scalable vector graphics element, and described fixed part is the non-action parameter of scalable vector graphics element.

Further, described scalable vector graphics maneuver library comprises the change operation external member of coordinate to scalable vector graphics element, size, color.

Further, described scalable vector graphics maneuver library is scalable vector graphics element rotation external member, and described scalable vector graphics element rotation external member is provided with rotary middle point, rotational speed, anglec of rotation parameter;

Described scalable vector graphics maneuver library is scalable vector graphics element stretching external member, and described scalable vector graphics element stretching external member is provided with the central point of action and the range parameter of action.

Beneficial effect of the present invention is: the present invention adopts real time data and database data dual data source, can reflect in real time and simulate on-the-spot form, and the reproduction of historic state is provided.According to scalable vector graphics storehouse and continuous infosystem of data construct, employing dual data source can ensure the continuity of data source, thus the continuity of guarantee information system.

Brief description of the drawings

In order to make the object, technical solutions and advantages of the present invention clearer, below in conjunction with accompanying drawing, the present invention is described in further detail, wherein:

The pattern exhibition method flow diagram based on scalable vector graphics continuous information that Fig. 1 provides for the embodiment of the present invention;

The pattern exhibition system architecture diagram based on scalable vector graphics continuous information that Fig. 2 provides for the embodiment of the present invention.

Embodiment

Hereinafter with reference to accompanying drawing, the preferred embodiments of the present invention are described in detail.Should be appreciated that preferred embodiment is only for the present invention is described, instead of in order to limit the scope of the invention.

The pattern exhibition method flow diagram based on scalable vector graphics continuous information that Fig. 1 provides for the embodiment of the present invention, the pattern exhibition system architecture diagram based on scalable vector graphics continuous information that Fig. 2 provides for the embodiment of the present invention, as shown in the figure: the pattern exhibition method based on scalable vector graphics continuous information provided by the invention, comprises the following steps:

S1: obtain real time data operation information; The data operation information that the present embodiment provides is not from client obtaining information, and information is by sensor, then come through Internet Transmission, and can be also the historical data of database.

S2: data operation information is input to server and processes and obtain needed scalable vector graphics element and scalable vector graphics maneuver library; Server in the present embodiment can adopt WEB server, also can adopt other servers.

S3: search corresponding scalable vector graphics element in the scalable vector graphics element database of setting up at server end according to scalable vector graphics element;

S4: the scalable vector graphics maneuver library of searching corresponding scalable vector graphics element according to corresponding scalable vector graphics element;

S5: field data is carried out to simulation shows according to the corresponding real time data operation information of scalable vector graphics maneuver library.

Described scalable vector graphics element adopts priori scalable vector graphics storehouse, and described priori scalable vector graphics storehouse adopts the scalable vector graphics element that whole infosystem need to be applied to be put in a storehouse;

Described scalable vector graphics maneuver library is the scalable vector graphics action that need to use according to all scalable vector graphics elements of whole infosystem, and all actions are packaged into storehouse preservation.

Described scalable vector graphics element comprises moving part and fixed part; Described moving part is the action parameter of scalable vector graphics element, and described fixed part is the non-action parameter of scalable vector graphics element.

The definition of fixed part refers to the part that does not need action in scalable vector graphics element, if coordinate is with reference to waiting element.

Described scalable vector graphics maneuver library comprises the external members such as the change operation of coordinate to scalable vector graphics element, size, color.

Described scalable vector graphics maneuver library comprises scalable vector graphics element rotation external member, and described scalable vector graphics element rotation external member is provided with the parameters such as rotary middle point, rotational speed, the anglec of rotation.

Described scalable vector graphics maneuver library comprises scalable vector graphics element stretching external member, and described scalable vector graphics element stretching external member is provided with the parameter such as the central point of action and the amplitude of action.

Comprise information acquisition module, information process analysis module, search module, matching module, simulation shows module;

Described information acquisition module, for obtaining real time data operation information;

Described information process analysis module, processes and obtains scalable vector graphics element and scalable vector graphics maneuver library for data operation information being input to WEB server;

The described module of searching, searches corresponding scalable vector graphics element for the scalable vector graphics element database of setting up at server end according to scalable vector graphics element;

Described matching module, for searching the scalable vector graphics action of corresponding scalable vector graphics element according to corresponding scalable vector graphics element;

Described simulation shows module, for carrying out simulation shows according to the corresponding real time data operation information of scalable vector graphics maneuver library to field data.

Described scalable vector graphics element adopts priori scalable vector graphics storehouse, and described priori scalable vector graphics storehouse adopts the scalable vector graphics element that whole infosystem need to be applied to be put in a storehouse;

Described scalable vector graphics maneuver library is the scalable vector graphics action that need to use according to all scalable vector graphics elements of whole infosystem, and all actions are encapsulated to preservation;

Described scalable vector graphics element comprises moving part and fixed part; Described moving part is the action parameter of scalable vector graphics element, and described fixed part is the non-action parameter of scalable vector graphics element.The definition of fixed part refers to the part that does not need action in scalable vector graphics element, if coordinate is with reference to waiting element.

Described scalable vector graphics maneuver library comprises the operation external members such as the variation of coordinate to scalable vector graphics element, size, color.

Described scalable vector graphics maneuver library is scalable vector graphics element rotation external member, and described scalable vector graphics element rotation external member is provided with the parameters such as rotary middle point, rotational speed, the anglec of rotation;

Described scalable vector graphics maneuver library is scalable vector graphics element stretching external member, and described scalable vector graphics element stretching external member is provided with the central point of pointer rotation, the parameter such as speed, the angle of rotation of rotation.

Describe the pattern exhibition method detailed process based on scalable vector graphics continuous information below in detail.

First analyze data, whether need such scalable vector graphics element, then according to the variation of data and to this scalable vector graphics a definition in real physical world determine to need true reflection data variation need which action.Scalable vector graphics element database is made up of some scalable vector graphics elements, also can be divided into moving part and fixed part for single scalable vector graphics element; Can certainly be all moving part and be all fixed part.The action part is here not only the stretching of definition in life at ordinary times, and the variation of a series of coordinates such as rotation or size, also comprises the action of a series of non-physical characteristicss such as change color.A scalable vector graphics element needs action, such as the pointer of a panel board needs rotation, needs to define the central point of pointer rotation, the series of parameters such as speed, the angle of rotation of rotation.All maneuver libraries are equivalent to an external member, only need to can call this external member according to corresponding interface padding data.

The present embodiment has overcome the existing infosystem based on scalable vector graphics and has adopted static scalable vector graphics to represent the problem that system can not automatically be revised and present according to the variation of data.

In the scalable vector graphics storehouse of setting up at server end, both preserved scalable vector graphics element database, set up again the scalable vector graphics maneuver library matching, the real time data that therefore can take according to outside is changed or is operated accordingly the element of scalable vector graphics.

Remove to search corresponding scalable vector graphics element and some scalable vector graphics element is moved by the data processing module of setting up.

Adopt B/S framework simultaneously, choose corresponding scalable vector graphics element and scalable vector graphics moves real time data remote exhibition according to real time data.

Can carry out simulation shows to the form of field data and data according to real time data, also can carry out according to the data of database simulation and the reproduction of historical data to data.

Data processing module is to data analysis, the analysis of unstructured data is obtained to the scalable vector graphics element that needs increase or reduce, and select the element of scalable vector graphics maneuver library to move to corresponding scalable vector graphics element according to the variation of front and back data.

Adopt WEB server-compatible platform, WEB server is not participated in the selection of scalable vector graphics and the selection of maneuver library directly, and an interface is only provided, and specializes in the communication of data analysis module.

Adopt real time data and database data dual data source, can reflect in real time and simulate on-the-spot form, and the reproduction of historic state is provided.According to scalable vector graphics storehouse and continuous infosystem of data construct, employing dual data source can ensure the continuity of data source, thus the continuity of guarantee information system.

Finally explanation is, above embodiment is only unrestricted in order to technical scheme of the present invention to be described, although by with reference to the preferred embodiments of the present invention, invention has been described, but those of ordinary skill in the art is to be understood that, can make various changes to it in the form and details, and not depart from the spirit and scope of the present invention that appended claims limits.

Claims (10)

1. the pattern exhibition method based on scalable vector graphics continuous information, is characterized in that: comprise the following steps:

S1: obtain real time data operation information;

S2: data operation information is input to server and processes and obtain needed scalable vector graphics element and scalable vector graphics maneuver library;

S3: search corresponding scalable vector graphics element in the scalable vector graphics element database of setting up at server end according to scalable vector graphics element;

S4: the scalable vector graphics maneuver library of searching corresponding scalable vector graphics element according to corresponding scalable vector graphics element;

S5: field data is carried out to simulation shows according to the corresponding real time data operation information of scalable vector graphics maneuver library.

2. the pattern exhibition method based on scalable vector graphics continuous information according to claim 1, it is characterized in that: described scalable vector graphics element adopts priori scalable vector graphics storehouse, and described priori scalable vector graphics storehouse adopts the scalable vector graphics element that whole infosystem need to be applied to be put in a storehouse;

Described scalable vector graphics maneuver library is the scalable vector graphics action that need to use according to all scalable vector graphics elements of whole infosystem, and all actions are packaged into storehouse preservation.

3. the pattern exhibition method based on scalable vector graphics continuous information according to claim 1, is characterized in that: described scalable vector graphics element comprises moving part and fixed part; Described moving part is the action parameter of scalable vector graphics element, and described fixed part is the non-action parameter of scalable vector graphics element.

4. according to claim 1, it is characterized in that: described scalable vector graphics maneuver library comprises the change operation external member of coordinate, size and color to scalable vector graphics element.

5. the pattern exhibition method based on scalable vector graphics continuous information according to claim 1, it is characterized in that: described scalable vector graphics maneuver library comprises scalable vector graphics element rotation external member, described scalable vector graphics element rotation external member is provided with rotary middle point, rotational speed and anglec of rotation parameter.

6. the pattern exhibition method based on scalable vector graphics continuous information according to claim 1, it is characterized in that: described scalable vector graphics maneuver library comprises scalable vector graphics element stretching external member, described scalable vector graphics element stretching external member is provided with the central point of action and the range parameter of action.

7. the pattern exhibition system based on scalable vector graphics continuous information, is characterized in that: comprise information acquisition module, information process analysis module, search module, matching module and simulation shows module;

Described information acquisition module, for obtaining real time data operation information;

Described information process analysis module, processes and obtains the action of scalable vector graphics element and scalable vector graphics for data operation information being input to server;

The described module of searching, searches corresponding scalable vector graphics element for the scalable vector graphics element database of setting up at server end according to scalable vector graphics element;

Described matching module, for searching the scalable vector graphics action of corresponding scalable vector graphics element according to corresponding scalable vector graphics element;

Described simulation shows module, for carrying out simulation shows according to the corresponding real time data operation information of scalable vector graphics maneuver library to field data.

8. the pattern exhibition system based on scalable vector graphics continuous information according to claim 7, it is characterized in that: described scalable vector graphics element adopts priori scalable vector graphics storehouse, and described priori scalable vector graphics storehouse adopts the scalable vector graphics element that whole infosystem need to be applied to be put in a storehouse;

Described scalable vector graphics maneuver library is the scalable vector graphics action that need to use according to all scalable vector graphics elements of whole infosystem, and all actions are encapsulated to preservation;

Described scalable vector graphics element comprises moving part and fixed part; Described moving part is the action parameter of scalable vector graphics element, and described fixed part is the non-action parameter of scalable vector graphics element.

9. the pattern exhibition system based on scalable vector graphics continuous information according to claim 7, is characterized in that: described scalable vector graphics maneuver library comprises the change operation external member of coordinate, size and color to scalable vector graphics element.

10. the pattern exhibition system based on scalable vector graphics continuous information according to claim 7, it is characterized in that: described scalable vector graphics maneuver library is scalable vector graphics element rotation external member, and described scalable vector graphics element rotation external member is provided with rotary middle point, rotational speed and anglec of rotation parameter; Described scalable vector graphics maneuver library is scalable vector graphics element stretching external member, and described scalable vector graphics element stretching external member is provided with the central point of action and the range parameter of action.