CN111475153A - Cloud resource mixed arrangement system and method based on graphical technology - Google Patents

Abstract

A cloud resource mixed arrangement system and method based on graphical technology comprises a modeling construction unit, a model creation unit, a graph management unit, a configuration arrangement unit, an information system operation and maintenance unit, a cloud environment creation unit, a mixed arrangement unit and a network topology creation unit; the system comprises a modeling construction unit, a model creation unit, a graph management unit, a configuration compilation unit, an information system operation and maintenance unit, a cloud environment creation unit, a hybrid compilation unit and a network topology creation unit which are connected in sequence in an ending way. The method and the system automatically optimize the control layout of the graphical programming, reasonably mix and arrange the cloud resources, and avoid the situations of disordered layout, control overlapping and the like. The automatic optimization method of the mixed layout can also make the programming interface more friendly and easy to operate, and the programming efficiency is greatly improved.

Description

Cloud resource mixed arrangement system and method based on graphical technology

Technical Field

The invention relates to the technical field of graphical programming, in particular to a cloud resource mixed arrangement system and method based on a graphical technology.

Background

With the continuous development of internet technology and society, the internet gradually plays an increasingly important role in our lives. Meanwhile, with the popularization of the internet, programming education is gradually emphasized by people. Therefore, the graphical programming language has come to the end, the graphical programming is simple and convenient to operate and easy to understand, and a user can obtain a certain model only by dragging, combining and connecting the programming modules, so that a certain specific effect is achieved. The graphical programming software can bring imagination and creativity to children to a great extent and cultivate basic programming logic and thinking of the children. The graphical programming software in the current market is basically that each graphical object is a code block or a corresponding controller, and a user can splice the graphical objects together to create simple functions, combine the simple functions, convert the simple functions into a high-level language and transmit the high-level language to the controller, and a compiler in the controller analyzes object codes. During graphical programming, when the number of programmed controls increases to a certain scale, the layout becomes disordered, the controls overlap with each other, and the programming becomes more difficult for a user to use.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a cloud resource hybrid arrangement system and method based on a graphical technology, which are used for automatically optimizing the layout of a graphical programming control, reasonably and mixedly arranging cloud resources and avoiding the situations of disordered layout, control overlapping and the like. The automatic optimization method of the mixed layout can also make the programming interface more friendly and easy to operate, and the programming efficiency is greatly improved.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a cloud resource hybrid arrangement system based on a graphical technology comprises a modeling construction unit, a model creation unit, a graph management unit, a configuration arrangement unit, an information system operation and maintenance unit, a cloud environment creation unit, a hybrid arrangement unit and a network topology creation unit; the system comprises a modeling construction unit, a model creation unit, a graph management unit, a configuration compilation unit, an information system operation and maintenance unit, a cloud environment creation unit, a hybrid compilation unit and a network topology creation unit which are connected in sequence in an ending way.

A cloud resource mixed arrangement method based on a graphical technology comprises the following steps:

step (1): and the modeling construction unit completes the construction of the spatial position, layout or logic level of the information resources by using the vector modeling or embedded modeling of the self-defined modeling by using a graphical modeling tool according to the spatial position layout of the information resources.

Step (2): the model creating unit abstracts the information system resource model, performs user-defined expansion and user-defined template configuration according to the monitored information resources, and completes the creation of the information system resource model according to the mode of combining the template configuration and the user-defined configuration; and constructing a functional architecture of the graphic service based on the information system resource model.

The graphic service comprises functions of displaying the graphic from a background edition to a foreground and maintaining the version, and specifically comprises a primitive editing service, a view editing service, a primitive version management service, a view version management service and a view display service.

And (3): the graphic management unit analyzes the functional architecture of the graphic service, establishes a graphic management library and provides graphic data support for the graphic service; the graphic management library comprises a graphic element management library and a view management library; meanwhile, a monitoring model is established according to the data acquired by classification, and monitoring is customized through the multidimensional monitoring time and real-time attention model of the application, the equipment resources and the resource types.

And (4): the configuration compiling unit acquires and schedules an engine to configure a user-defined acquisition frequency, an acquisition object, acquisition configuration, data classification and a data storage mode by abstracting an acquisition rule, so that the engine performs user-defined acquisition according to the rule object; and then compiling the resource graphic primitive and the resource view, and establishing the association of the graph, the resource and the key words.

The information system resource model comprises resource and resource dependency relations, and the associations of the graphs and the resources and the associations of the graphs and the key words are sequentially established, so that the compilation of resource primitives and resource views is completed.

And (5): monitoring key words of an information system resource model by an information system operation and maintenance unit in a graphical mode; maintaining the resource model, namely maintaining the change of the resource model in a graphical mode; the graphical management method for graphically maintaining the resource model update is a graphical management method for driving the model change by graphical editing, and supports the query and statistics of the resource model change.

And (6): the cloud environment creating unit creates a cloud resource mixed arrangement environment, configures a plurality of virtual cloud environments meeting the requirements of users, and adds the cloud environments to the platform; each cloud environment corresponds to a number of cloud resources.

And (7): the mixed arrangement unit carries out mixed arrangement on videos and pictures and texts, wherein the mixed arrangement comprises editing and generating of video material entries, editing and generating of picture and text material entries, and the picture and text material entries need to be edited and broadcast required subtitle contents; displaying a cloud environment and a cloud resource graph corresponding to the cloud environment on a resource arrangement page of the platform, selecting the cloud resource graph to be added into an arrangement area, and arranging network topology among the cloud resources in the arrangement area; and storing the arrangement result and generating an arrangement template.

And (8): the network topology creating unit applies the editing template to generate stacks, creates cloud resources in the cloud environment and network topology among the resources, and deploys the cloud resources.

The invention also has the following additional technical features:

the technical scheme of the invention is further specifically optimized as follows: and the modeling construction unit completes the construction of the spatial position, layout or logic level of the information resources by using the vector modeling or embedded modeling of the self-defined modeling by using a graphical modeling tool according to the spatial position layout of the information resources.

The technical scheme of the invention is further specifically optimized as follows: the model creating unit abstracts the information system resource model, performs user-defined expansion and user-defined template configuration according to the monitored information resources, and completes the creation of the information system resource model according to the mode of combining the template configuration and the user-defined configuration; and constructing a functional architecture of the graphic service based on the information system resource model. The graphic service comprises functions of displaying the graphic from a background edition to a foreground and maintaining the version, and specifically comprises a primitive editing service, a view editing service, a primitive version management service, a view version management service and a view display service.

The technical scheme of the invention is further specifically optimized as follows: the graphic management unit analyzes the functional architecture of the graphic service, establishes a graphic management library and provides graphic data support for the graphic service; the graphic management library comprises a graphic element management library and a view management library; meanwhile, a monitoring model is established according to the data acquired by classification, and monitoring is customized through the multidimensional monitoring time and real-time attention model of the application, the equipment resources and the resource types.

The technical scheme of the invention is further specifically optimized as follows: the configuration compiling unit acquires and schedules an engine to configure a user-defined acquisition frequency, an acquisition object, acquisition configuration, data classification and a data storage mode by abstracting an acquisition rule, so that the engine performs user-defined acquisition according to the rule object; and then compiling the resource graphic primitive and the resource view, and establishing the association of the graph, the resource and the key words. The information system resource model comprises resource and resource dependency relations, and the associations of the graphs and the resources and the associations of the graphs and the key words are sequentially established, so that the compilation of resource primitives and resource views is completed.

The technical scheme of the invention is further specifically optimized as follows: monitoring key words of an information system resource model by an information system operation and maintenance unit in a graphical mode; maintaining the resource model, namely maintaining the change of the resource model in a graphical mode; the graphical management method for graphically maintaining the resource model update is a graphical management method for driving the model change by graphical editing, and supports the query and statistics of the resource model change.

The technical scheme of the invention is further specifically optimized as follows: the cloud environment creating unit creates a cloud resource mixed arrangement environment, configures a plurality of virtual cloud environments meeting the requirements of users, and adds the cloud environments to the platform; each cloud environment corresponds to a number of cloud resources.

The technical scheme of the invention is further specifically optimized as follows: the mixed arrangement unit carries out mixed arrangement on videos and pictures and texts, wherein the mixed arrangement comprises editing and generating of video material entries, editing and generating of picture and text material entries, and the picture and text material entries need to be edited and broadcast required subtitle contents; displaying a cloud environment and a cloud resource graph corresponding to the cloud environment on a resource arrangement page of the platform, selecting the cloud resource graph to be added into an arrangement area, and arranging network topology among the cloud resources in the arrangement area; and storing the arrangement result and generating an arrangement template.

The technical scheme of the invention is further specifically optimized as follows: the network topology creating unit applies the editing template to generate stacks, creates cloud resources in the cloud environment and network topology among the resources, and deploys the cloud resources.

Compared with the prior art, the invention has the advantages that:

the method and the system automatically optimize the control layout of the graphical programming, reasonably mix and arrange the cloud resources, and avoid the situations of disordered layout, control overlapping and the like. The automatic optimization method of the mixed layout can also make the programming interface more friendly and easy to operate, and the programming efficiency is greatly improved.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a graphical technology-based cloud resource hybrid arrangement system according to the present invention;

fig. 2 is a schematic flow chart of a cloud resource hybrid arrangement method based on a graphical technology.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings, in order that the present disclosure may be more fully understood and fully conveyed to those skilled in the art. While the exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the invention is not limited to the embodiments set forth herein.

The terms "first," "second," and the like in the description herein are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the disclosure described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

A cloud resource hybrid arrangement system based on a graphical technology comprises a modeling construction unit, a model creation unit, a graph management unit, a configuration arrangement unit, an information system operation and maintenance unit, a cloud environment creation unit, a hybrid arrangement unit and a network topology creation unit; the system comprises a modeling construction unit, a model creation unit, a graph management unit, a configuration compilation unit, an information system operation and maintenance unit, a cloud environment creation unit, a hybrid compilation unit and a network topology creation unit which are connected in sequence in an ending way.

The invention also has the following additional technical features:

the technical scheme of the invention is further specifically optimized as follows: and the modeling construction unit completes the construction of the spatial position, layout or logic level of the information resources by using the vector modeling or embedded modeling of the self-defined modeling by using a graphical modeling tool according to the spatial position layout of the information resources.

The technical scheme of the invention is further specifically optimized as follows: the model creating unit abstracts the information system resource model, performs user-defined expansion and user-defined template configuration according to the monitored information resources, and completes the creation of the information system resource model according to the mode of combining the template configuration and the user-defined configuration; and constructing a functional architecture of the graphic service based on the information system resource model. The graphic service comprises functions of displaying the graphic from a background edition to a foreground and maintaining the version, and specifically comprises a primitive editing service, a view editing service, a primitive version management service, a view version management service and a view display service.

The technical scheme of the invention is further specifically optimized as follows: the graphic management unit analyzes the functional architecture of the graphic service, establishes a graphic management library and provides graphic data support for the graphic service; the graphic management library comprises a graphic element management library and a view management library; meanwhile, a monitoring model is established according to the data acquired by classification, and monitoring is customized through the multidimensional monitoring time and real-time attention model of the application, the equipment resources and the resource types.

The technical scheme of the invention is further specifically optimized as follows: the configuration compiling unit acquires and schedules an engine to configure a user-defined acquisition frequency, an acquisition object, acquisition configuration, data classification and a data storage mode by abstracting an acquisition rule, so that the engine performs user-defined acquisition according to the rule object; and then compiling the resource graphic primitive and the resource view, and establishing the association of the graph, the resource and the key words. The information system resource model comprises resource and resource dependency relations, and the associations of the graphs and the resources and the associations of the graphs and the key words are sequentially established, so that the compilation of resource primitives and resource views is completed.

The technical scheme of the invention is further specifically optimized as follows: monitoring key words of an information system resource model by an information system operation and maintenance unit in a graphical mode; maintaining the resource model, namely maintaining the change of the resource model in a graphical mode; the graphical management method for graphically maintaining the resource model update is a graphical management method for driving the model change by graphical editing, and supports the query and statistics of the resource model change.

The technical scheme of the invention is further specifically optimized as follows: the cloud environment creating unit creates a cloud resource mixed arrangement environment, configures a plurality of virtual cloud environments meeting the requirements of users, and adds the cloud environments to the platform; each cloud environment corresponds to a number of cloud resources.

The technical scheme of the invention is further specifically optimized as follows: the mixed arrangement unit carries out mixed arrangement on videos and pictures and texts, wherein the mixed arrangement comprises editing and generating of video material entries, editing and generating of picture and text material entries, and the picture and text material entries need to be edited and broadcast required subtitle contents; displaying a cloud environment and a cloud resource graph corresponding to the cloud environment on a resource arrangement page of the platform, selecting the cloud resource graph to be added into an arrangement area, and arranging network topology among the cloud resources in the arrangement area; and storing the arrangement result and generating an arrangement template.

The technical scheme of the invention is further specifically optimized as follows: the network topology creating unit applies the editing template to generate stacks, creates cloud resources in the cloud environment and network topology among the resources, and deploys the cloud resources.

A cloud resource mixed arrangement method based on a graphical technology comprises the following steps:

step (1): and the modeling construction unit completes the construction of the spatial position, layout or logic level of the information resources by using the vector modeling or embedded modeling of the self-defined modeling by using a graphical modeling tool according to the spatial position layout of the information resources.

Step (2): the model creating unit abstracts the information system resource model, performs user-defined expansion and user-defined template configuration according to the monitored information resources, and completes the creation of the information system resource model according to the mode of combining the template configuration and the user-defined configuration; and constructing a functional architecture of the graphic service based on the information system resource model.

The graphic service comprises functions of displaying the graphic from a background edition to a foreground and maintaining the version, and specifically comprises a primitive editing service, a view editing service, a primitive version management service, a view version management service and a view display service.

And (3): the graphic management unit analyzes the functional architecture of the graphic service, establishes a graphic management library and provides graphic data support for the graphic service; the graphic management library comprises a graphic element management library and a view management library; meanwhile, a monitoring model is established according to the data acquired by classification, and monitoring is customized through the multidimensional monitoring time and real-time attention model of the application, the equipment resources and the resource types.

And (4): the configuration compiling unit acquires and schedules an engine to configure a user-defined acquisition frequency, an acquisition object, acquisition configuration, data classification and a data storage mode by abstracting an acquisition rule, so that the engine performs user-defined acquisition according to the rule object; and then compiling the resource graphic primitive and the resource view, and establishing the association of the graph, the resource and the key words.

The information system resource model comprises resource and resource dependency relations, and the associations of the graphs and the resources and the associations of the graphs and the key words are sequentially established, so that the compilation of resource primitives and resource views is completed.

And (5): monitoring key words of an information system resource model by an information system operation and maintenance unit in a graphical mode; maintaining the resource model, namely maintaining the change of the resource model in a graphical mode; the graphical management method for graphically maintaining the resource model update is a graphical management method for driving the model change by graphical editing, and supports the query and statistics of the resource model change.

And (6): the cloud environment creating unit creates a cloud resource mixed arrangement environment, configures a plurality of virtual cloud environments meeting the requirements of users, and adds the cloud environments to the platform; each cloud environment corresponds to a number of cloud resources.

And (7): the mixed arrangement unit carries out mixed arrangement on videos and pictures and texts, wherein the mixed arrangement comprises editing and generating of video material entries, editing and generating of picture and text material entries, and the picture and text material entries need to be edited and broadcast required subtitle contents; displaying a cloud environment and a cloud resource graph corresponding to the cloud environment on a resource arrangement page of the platform, selecting the cloud resource graph to be added into an arrangement area, and arranging network topology among the cloud resources in the arrangement area; and storing the arrangement result and generating an arrangement template.

And (8): the network topology creating unit applies the editing template to generate stacks, creates cloud resources in the cloud environment and network topology among the resources, and deploys the cloud resources.

The method and the system automatically optimize the control layout of the graphical programming, reasonably mix and arrange the cloud resources, and avoid the situations of disordered layout, control overlapping and the like. The automatic optimization method of the mixed layout can also make the programming interface more friendly and easy to operate, and the programming efficiency is greatly improved.

Although the embodiments have been described, once the basic inventive concept is obtained, other variations and modifications of these embodiments can be made by those skilled in the art, so that these embodiments are only examples of the present invention, and not intended to limit the scope of the present invention, and all equivalent structures or equivalent processes that can be used in the present specification and drawings, or used directly or indirectly in other related fields are encompassed by the present invention.

Claims (10)

1. A cloud resource hybrid arrangement system based on a graphical technology is characterized by comprising a modeling construction unit, a model creation unit, a graph management unit, a configuration arrangement unit, an information system operation and maintenance unit, a cloud environment creation unit, a hybrid arrangement unit and a network topology creation unit; the system comprises a modeling construction unit, a model creation unit, a graph management unit, a configuration compilation unit, an information system operation and maintenance unit, a cloud environment creation unit, a hybrid compilation unit and a network topology creation unit which are connected in sequence in an ending way.

2. The graphical technology based cloud resource hybrid orchestration system according to claim 1, wherein: and the modeling construction unit completes the construction of the spatial position, the layout or the logic level of the information resources by using a vector modeling or an embedded modeling of the self-defined modeling by using a graphical modeling tool according to the spatial position layout of the information resources.

3. The graphical technology based cloud resource hybrid orchestration system according to claim 1, wherein: the model creating unit abstracts an information system resource model, performs user-defined expansion and user-defined template configuration according to the monitored information resources, and completes the creation of the information system resource model according to the mode of combining the template configuration and the user-defined configuration; constructing a functional architecture of the graphic service based on the information system resource model;

the graphic service comprises functions of displaying the graphic from a background edition to a foreground and maintaining the version, and specifically comprises a primitive editing service, a view editing service, a primitive version management service, a view version management service and a view display service.

4. The graphical technology based cloud resource hybrid orchestration system according to claim 1, wherein: the graphic management unit analyzes the functional architecture of the graphic service, establishes a graphic management library and provides graphic data support for the graphic service; the graphic management library comprises a graphic element management library and a view management library; meanwhile, a monitoring model is established according to the data acquired by classification, and monitoring is customized through the multidimensional monitoring time and real-time attention model of the application, the equipment resources and the resource types.

5. The graphical technology based cloud resource hybrid orchestration system according to claim 1, wherein: the configuration compiling unit acquires and schedules the engine to configure the user-defined acquisition frequency, the acquisition object, the acquisition configuration, the data classification and the data storage mode by abstracting the acquisition rule, so that the engine performs user-defined acquisition according to the rule object; then compiling resource primitives and resource views, and establishing association of graphs, resources and key words;

the information system resource model comprises resource and resource dependency relations, and the associations of the graphs and the resources and the associations of the graphs and the key words are sequentially established, so that the compilation of resource primitives and resource views is completed.

6. The graphical technology based cloud resource hybrid orchestration system according to claim 1, wherein: the information system operation and maintenance unit monitors key words of the information system resource model in a graphical mode; maintaining the resource model, namely maintaining the change of the resource model in a graphical mode; the graphical management method for graphically maintaining the resource model update is a graphical management method for driving the model change by graphical editing, and supports the query and statistics of the resource model change.

7. The graphical technology based cloud resource hybrid orchestration system according to claim 1, wherein: the cloud environment creating unit creates a cloud resource mixed arrangement environment, configures a plurality of virtual cloud environments meeting the requirements of users, and adds the cloud environments to the platform; each cloud environment corresponds to a number of cloud resources.

8. The graphical technology based cloud resource hybrid orchestration system according to claim 1, wherein: the mixed arrangement unit is used for mixed arrangement of videos and pictures and texts, and comprises editing and generating of video material entries, editing and generating of picture and text material entries, and the picture and text material entries need to be edited and broadcast required subtitle contents; displaying a cloud environment and a cloud resource graph corresponding to the cloud environment on a resource arrangement page of the platform, selecting the cloud resource graph to be added into an arrangement area, and arranging network topology among the cloud resources in the arrangement area; and storing the arrangement result and generating an arrangement template.

9. The graphical technology based cloud resource hybrid orchestration system according to claim 1, wherein: the network topology creating unit applies the editing template to generate stacks, creates cloud resources in the cloud environment and network topology among the resources, and deploys the cloud resources.

10. A cloud resource mixed arrangement method based on a graphical technology is characterized in that: the method comprises the following steps:

step (1): the modeling construction unit completes construction of spatial positions, layout or logic levels of the information resources by using vector modeling or embedded modeling of user-defined modeling by using a graphical modeling tool according to spatial position layout of the information resources;

step (2): the model creating unit abstracts an information system resource model, performs user-defined expansion and user-defined template configuration according to the monitored information resources, and completes the creation of the information system resource model according to the mode of combining the template configuration and the user-defined configuration; constructing a functional architecture of the graphic service based on the information system resource model;

the graphic service comprises the functions of displaying the graphic from a background edition to a foreground and maintaining the version, and specifically comprises a primitive editing service, a view editing service, a primitive version management service, a view version management service and a view display service;

and (3): the graphic management unit analyzes the functional architecture of the graphic service, establishes a graphic management library and provides graphic data support for the graphic service; the graphic management library comprises a graphic element management library and a view management library; meanwhile, a monitoring model is established according to the data acquired by classification, and monitoring is customized through a multidimensional monitoring time and real-time attention model of application, equipment resources and resource types;

and (4): the configuration compiling unit acquires and schedules the engine to configure the user-defined acquisition frequency, the acquisition object, the acquisition configuration, the data classification and the data storage mode by abstracting the acquisition rule, so that the engine performs user-defined acquisition according to the rule object; then compiling resource primitives and resource views, and establishing association of graphs, resources and key words;

the information system resource model comprises resource and resource dependency relations, and the association between the graph and the resource and the association between the graph and the key word are sequentially established, so that the compilation of resource primitives and resource views is completed;

and (5): the information system operation and maintenance unit monitors key words of the information system resource model in a graphical mode; maintaining the resource model, namely maintaining the change of the resource model in a graphical mode; the method for maintaining the resource model in a graphical mode is a graphical management method for driving the model change by graphical editing, and supports the query and statistics of the resource model change;

and (6): the cloud environment creating unit creates a cloud resource mixed arrangement environment, configures a plurality of virtual cloud environments meeting the requirements of users, and adds the cloud environments to the platform; each cloud environment corresponds to a plurality of cloud resources;

and (7): the mixed arrangement unit is used for mixed arrangement of videos and pictures and texts, and comprises editing and generating of video material entries, editing and generating of picture and text material entries, and the picture and text material entries need to be edited and broadcast required subtitle contents; displaying a cloud environment and a cloud resource graph corresponding to the cloud environment on a resource arrangement page of the platform, selecting the cloud resource graph to be added into an arrangement area, and arranging network topology among the cloud resources in the arrangement area; storing the arrangement result and generating an arrangement template;

and (8): the network topology creating unit applies the editing template to generate stacks, creates cloud resources in the cloud environment and network topology among the resources, and deploys the cloud resources.

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