CN111737213A - Digital-analog resource storage method, system, device and storage medium - Google Patents

Abstract

The invention discloses a method, a system, a device and a storage medium for storing digital-analog resources, wherein the method comprises the following steps: acquiring a first digital-analog resource, and establishing a digital-analog resource queue according to the first digital-analog resource; traversing the digital-analog resource queue, detecting a state parameter of the first digital-analog resource, and selecting a second digital-analog resource according to the state parameter; and saving the second digital modulus resource to a file system library. According to the method and the device, the digital-analog resource queue is established according to the first digital-analog resource, the digital-analog resource queue is traversed, the state parameter of the first digital-analog resource is detected, the second digital-analog resource is selected according to the state parameter and stored in the file system library, the digital-analog resources which are not stored can be sequentially screened out from a large number of digital-analog resources and stored in sequence, repeated storage is avoided, the risk of data loss is reduced while the digital-analog resources are stored in batches, the labor cost and the time cost are saved, and the efficiency of storing the digital-analog resources is improved. The invention can be widely applied to the field of virtual simulation.

Description

Digital-analog resource storage method, system, device and storage medium

Technical Field

The invention relates to the field of virtual simulation, in particular to a digital-analog resource storage method, a system, a device and a storage medium.

Background

Explanation of technical words:

digital manufacturing: under the background of the integration of the digital technology and the manufacturing technology and the support of the virtual reality, the computer network, the rapid prototyping, the database, the multimedia and other support technologies, the resource information is rapidly collected according to the requirements of users, the product information, the process information and the resource information are analyzed, planned and recombined, the simulation of product design and function and the prototyping are realized, and the whole manufacturing process of the product which meets the performance required by the users is rapidly produced.

Virtual simulation: a digital model is established through simulation software, and a production flow, a robot program, a PLC program and the like in an actual workshop are simulated and debugged based on the model.

Tecnomatix: the system is a comprehensive digital manufacturing solution combination provided by Siemens, and can carry out digital modification on manufacturing and a process of converting innovative concepts and raw materials into actual products.

Process Simulate: the product under the heading Tecnomatix of Siemens company has the main function of realizing off-line programming and simulation verification of a digital model.

A file system library: the system is used for storing all data required by building a virtual environment project, including robot digital-analog resources, clamp digital-analog resources, conveying mechanism digital-analog resources, a plane layout diagram, a simulation logic block and the like.

The storage of the digital-analog resources means that when the simulation software is used for virtual simulation manufacturing, the editing of the digital-analog resources is finished, and the digital-analog resources are stored in the file system library to be a link component, so that the digital-analog resources can be conveniently called from the file system library to a simulation environment, and meanwhile, the load of a computer can be reduced, and the operation is smoother.

In an actual simulation project, the quantity of digital-analog resources to be created is very large, when digital-analog resources are stored in a Process Simulate, all selected digital-analog resources are stored at one time, if the quantity of the selected digital-analog resources is too large, the storage time is long, software breakdown is easily caused, data loss and digital-analog data damage are caused, and the digital-analog resources cannot be used, so that the project is delayed. However, the method needs to consume a large amount of labor cost and time cost, has low efficiency, and cannot realize batch storage; if the selection is carried out manually one by one, the operation is complicated, and the stored digital-analog resources are easy to select repeatedly, so that the digital-analog resources can be stored repeatedly, the storage time is too long, and the software is easy to crash; meanwhile, in the system storage process, the staff can not operate the system any more, and the working hours are wasted; if the entire resource group is directly selected for storage, the digital-analog resources included in the resource group may also be partially stored, which may also cause the above problem.

Disclosure of Invention

To solve the above technical problems, the present invention aims to: a method, a system, a device and a storage medium for storing digital-analog resources in batches with low risk and high efficiency are provided.

The technical scheme adopted by the invention on one hand is as follows:

a digital-analog resource storage method comprises the following steps:

acquiring a first digital-analog resource, and establishing a digital-analog resource queue according to the first digital-analog resource;

traversing the digital-analog resource queue, detecting a state parameter of the first digital-analog resource, and selecting a second digital-analog resource according to the state parameter;

and saving the second digital modulus resource to a file system library.

Further, the step of acquiring the first digital-to-analog resource and establishing a digital-to-analog resource queue according to the first digital-to-analog resource specifically includes:

determining a first digital-analog resource through a human-computer interaction module, and establishing a digital-analog resource queue according to the first digital-analog resource;

or the like, or, alternatively,

determining a resource group through a man-machine interaction module, acquiring all digital-analog resources in the resource group as first digital-analog resources, and establishing a digital-analog resource queue according to the first digital-analog resources.

Further, the step of traversing the digital-analog resource queue, detecting a state parameter of the first digital-analog resource, and selecting a second digital-analog resource according to the state parameter includes:

traversing the digital-analog resource queue, and detecting a state parameter of the first digital-analog resource;

and acquiring the first digital-analog resource with the state parameter being editable to obtain the second digital-analog resource.

Further, the step of saving the second digital-analog resource to a file system library includes:

when detecting that the second digital-analog resource has a file system library path, storing the second digital-analog resource to a directory corresponding to the file system library path;

and when detecting that the second digital-analog resource does not have a file system library path, acquiring a storage path input by a user through a man-machine interaction module, and storing the second digital-analog resource in a directory corresponding to the storage path in a file system library.

Further, the step of saving the second digital-analog resource to a file system library includes:

and when detecting that the second digital-analog resource does not have a file system library path, acquiring a preset storage path, and storing the second digital-analog resource to a directory corresponding to the preset storage path in a file system library.

The technical scheme adopted by the other aspect of the invention is as follows:

a digital-to-analog resource conservation system comprising:

the queue module is used for acquiring a first digital-analog resource and establishing a digital-analog resource queue according to the first digital-analog resource;

the selecting module is used for traversing the digital-analog resource queue, detecting the state parameter of the first digital-analog resource and selecting a second digital-analog resource according to the state parameter;

and the storage module is used for storing the second digital-analog resource to a file system library.

Further, the selecting module comprises:

the first detection unit is used for traversing the digital-analog resource queue at preset interval time and detecting the state parameter of the first digital-analog resource;

and the first acquisition unit is used for acquiring the first digital-to-analog resource with the editable state parameter to obtain the second digital-to-analog resource.

Further, the saving module comprises:

the first saving unit is used for saving the second digital-analog resource to a directory corresponding to the file system library path when detecting that the second digital-analog resource has the file system library path;

the second storage unit is used for acquiring a storage path input by a user through a man-machine interaction module when detecting that the second digital-analog resource does not have a file system library path, and storing the second digital-analog resource in a directory corresponding to the storage path in a file system library;

or the like, or, alternatively,

and the third saving unit is used for acquiring a preset saving path when detecting that the second digital-analog resource does not have a file system library path, and saving the second digital-analog resource to a directory corresponding to the preset saving path in the file system library.

The technical scheme adopted by the other aspect of the invention is as follows:

a digital-to-analog resource preservation apparatus, comprising:

at least one processor;

at least one memory for storing at least one program;

when the at least one program is executed by the at least one processor, the at least one processor is caused to implement the digital-to-analog resource saving method.

The technical scheme adopted by the other aspect of the invention is as follows:

a computer readable storage medium having stored therein processor-executable instructions, which when executed by a processor, are for performing the sensing digital analog creation method.

The invention has the beneficial effects that: according to the digital-analog resource storage method, the digital-analog resource storage system, the digital-analog resource queue is established according to the first digital-analog resource, the digital-analog resource queue is traversed, the state parameter of the first digital-analog resource is detected, the second digital-analog resource is selected according to the state parameter and stored in the file system library, so that the digital-analog resources which are not stored are sequentially screened out from a large number of digital-analog resources and stored in sequence, repeated storage is avoided, the risk of data loss is reduced while the digital-analog resources are stored in batches, the labor cost and the time cost are saved, and the digital-analog resource storage efficiency is improved.

Drawings

Fig. 1 is a flowchart of a digital-analog resource saving method according to an embodiment of the present invention;

fig. 2 is a block diagram of a digital-analog resource saving system according to an embodiment of the present invention;

fig. 3 is a block diagram of a digital-analog resource saving device according to an embodiment of the present invention;

fig. 4 is a general flowchart of a digital-analog resource saving method according to an embodiment of the present invention;

201. a queue module; 202. selecting a module; 203. a storage module; 301. a processor; 302. a memory.

Detailed Description

The invention is described in further detail below with reference to the figures and the specific embodiments. The step numbers in the following embodiments are provided only for convenience of illustration, the order between the steps is not limited at all, and the execution order of each step in the embodiments can be adapted according to the understanding of those skilled in the art.

In the description of the present invention, the meaning of a plurality is two or more, if there is a description to the first and the second for the purpose of distinguishing technical features, it is not understood as indicating or implying relative importance or implicitly indicating the number of indicated technical features or implicitly indicating the precedence of the indicated technical features. Furthermore, unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art. The terminology used in the description herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Referring to fig. 1, the present invention provides a digital-analog resource saving method, which includes the following steps:

s101, acquiring a first digital-analog resource, and establishing a digital-analog resource queue according to the first digital-analog resource;

specifically, the software developed based on the invention can be embedded in Process Simulate or other simulation software for use, and an engineer can pick up digital-analog resources of the virtual device in the simulation software, and the method is compatible with two modes of picking up in a resource list and picking up in a visualization window. In the embodiment of the invention, the first digital-analog resource can be picked up through the human-computer interaction module, the human-computer interaction module can be a resource list of a front-end interface of simulation software or a visual window containing the digital-analog resource, and the digital-analog resource queue is established so as to be convenient for sequentially storing the digital-analog resource in batches.

S102, traversing a digital-analog resource queue, detecting a state parameter of a first digital-analog resource, and selecting a second digital-analog resource according to the state parameter;

specifically, the state parameters of the digital-analog resources in the digital-analog resource queue can be sequentially detected by traversing the digital-analog resource queue, and the digital-analog resources in an editable state are selected as the second digital-analog resources. In practical application, in order to protect the stability of simulation data, improve the simulation speed and the like, simulation software needs to store digital-analog resources, the stored digital-analog resources are in a locked state, an engineer cannot edit the digital-analog resources, if the digital-analog resources are to be modified, the stored digital-analog resources need to be unlocked first, that is, the digital-analog resources need to be in an editable state, so that the state parameter of each digital-analog resource is editable or locked, and when the state parameter is locked, the digital-analog resources are stored; when the state parameter is editable, the digital-analog resource is not stored.

S103, saving the second digital-analog resource to a file system library.

Specifically, the digital-analog resources are saved in the file system library to be a link component, so that the digital-analog resources can be called from the file system library to the simulation environment when the application is performed.

In the embodiment of the invention, the digital-analog resources in an editable state are screened out by traversing the digital-analog resource queue to serve as the second digital-analog resources, so that the digital-analog resources which are not stored can be sequentially screened out from a large number of digital-analog resources to be stored, repeated storage is avoided, the risk of data loss is reduced while the digital-analog resources are stored in batches, the labor cost and the time cost are saved, and the efficiency of storing the digital-analog resources is improved.

Further as an optional implementation manner, the step S101 of acquiring the first digital-to-analog resource and establishing the digital-to-analog resource queue according to the first digital-to-analog resource may be implemented by using two schemes, which are specifically shown as follows.

For an embodiment of step S101, it specifically includes:

s1011, determining a first digital-analog resource through the human-computer interaction module, and establishing a digital-analog resource queue according to the first digital-analog resource;

specifically, there may be a plurality of first digital-analog resources, and a resource list in the simulation software may pick up a plurality of digital-analog resources as the first digital-analog resources, and establish a digital-analog resource queue according to the digital-analog resources.

For another embodiment of step S101, it specifically is:

s1012, determining a resource group through the human-computer interaction module, acquiring all digital-analog resources in the resource group as first digital-analog resources, and establishing a digital-analog resource queue according to the first digital-analog resources.

Specifically, there may be multiple resource groups, and the resource group hierarchy list in the simulation software may pick up multiple resource groups, then obtain all digital-to-analog resources in the multiple resource groups, and establish a digital-to-analog resource queue according to the digital-to-analog resources. In the embodiment of the invention, the resource group is a set of a plurality of digital-analog resources, and the digital-analog resources which are logically related are usually divided into one resource group during simulation so as to facilitate the management of the digital-analog resources.

In the embodiment of the invention, the first digital-analog resources are obtained through the two modes, and the first digital-analog resources can be quickly obtained and the queue can be established under different scenes, so that the digital-analog resources can be sequentially and batch-stored in the follow-up process.

As a further optional implementation manner, step S102 of traversing the digital-analog resource queue, detecting a state parameter of the first digital-analog resource, and selecting the second digital-analog resource according to the state parameter includes:

s1021, traversing the digital-analog resource queue, and detecting the state parameter of the first digital-analog resource;

and S1022, acquiring the state parameter as the editable first digital-analog resource to obtain a second digital-analog resource.

Specifically, traversing a digital-analog resource queue, and detecting a state parameter of each digital-analog resource in the digital-analog resource queue, wherein the state parameter is editable or lockable; and when the current digital-analog resource is detected to be in an editable state, acquiring the current digital-analog resource as a second digital-analog resource, and then continuously traversing the digital-analog resource queue.

In the embodiment of the invention, the second digital-analog resource is selected by circularly traversing the digital-analog resource queue, so that the digital-analog resource needing to be stored can be sequentially screened out, and omission or repeated selection is avoided.

Further as an alternative embodiment, the step S103 of saving the second digital resource to the file system library can be implemented by adopting two schemes, which are specifically shown as follows.

For an embodiment of step S103, it is specifically:

s1031, when detecting that the second digital-analog resource has the file system library path, storing the second digital-analog resource in a directory corresponding to the file system library path;

s1032, when detecting that the second digital-analog resource does not have a file system library path, acquiring a storage path input by a user through a human-computer interaction module, and storing the second digital-analog resource to a directory corresponding to the storage path in the file system library;

specifically, the second digital-analog resource selected in step S102 may be a digital-analog resource newly created or newly copied into the system, or may be a digital-analog resource that has been saved in the past in an editable state. For the second case, the digital-analog resource already has a corresponding file system library path, and can be stored in a directory corresponding to the original file system library path; in the first case, the saving path input by the user needs to be acquired through the visual window and then saved. The embodiment is suitable for the condition that the digital-analog resources with different logic relations are respectively stored, and for each newly created digital-analog resource, the storage path is manually determined, so that subsequent unified management and calling are facilitated.

For another embodiment of step S103, it includes:

s1033, when it is detected that the second digital-analog resource does not have a file system library path, acquiring a preset saving path, and saving the second digital-analog resource to a directory corresponding to the preset saving path in the file system library.

Specifically, the preset saving path may be stored in a specific folder in a text form, the program may be read, a team may reach a consensus, a specific path is used inside the software (for example, a path with the same name as the current digital-analog resource is newly created under a library path of the current project), or a specific path may be input by the user before starting the software according to the embodiment of the present invention. Therefore, a storage path can be preset before digital-analog resources are stored in batches, and all second digital-analog resources are stored in a directory corresponding to the path. The embodiment can further improve the saving efficiency without manually setting the saving path aiming at each digital-analog resource newly created or newly copied into the system. An overall flow diagram of an embodiment of the invention is shown in fig. 4.

Optionally, the method further comprises the following steps:

s104, outputting a log document;

wherein the content of the log document includes a name, a saving time, and a saved directory of the second digital-analog resource.

Specifically, the output log file is used for recording the relevant information of all the digital-analog resources stored at this time, so that subsequent management and calling are facilitated.

Referring to fig. 2, an embodiment of the present invention further provides a digital-analog resource saving system, including:

the queue module 201 is configured to obtain a first digital-to-analog resource, and establish a digital-to-analog resource queue according to the first digital-to-analog resource;

the selecting module 202 is configured to traverse the digital-analog resource queue, detect a state parameter of the first digital-analog resource, and select the second digital-analog resource according to the state parameter;

and the saving module 203 is used for saving the second digital-analog resource to the file system library.

As a further optional implementation, the selecting module 202 includes:

the first detection unit is used for traversing the digital-analog resource queue and detecting the state parameter of the first digital-analog resource;

and the first acquisition unit is used for acquiring the first digital-to-analog resource with the editable state parameter to obtain a second digital-to-analog resource.

As a further optional implementation, the saving module 203 includes:

the first storage unit is used for storing the second digital-analog resource to a directory corresponding to the file system library path when detecting that the second digital-analog resource has the file system library path;

the second storage unit is used for acquiring a storage path input by a user through the man-machine interaction module when detecting that the second digital-analog resource does not have a file system library path, and storing the second digital-analog resource into a directory corresponding to the storage path in the file system library;

or the like, or, alternatively,

and the third saving unit is used for acquiring a preset saving path when detecting that the second digital-analog resource does not have a file system library path, and saving the second digital-analog resource to a directory corresponding to the preset saving path in the file system library.

Further as an optional implementation, the method further includes:

the log output module is used for outputting a log document;

wherein the content of the log document includes a name, a saving time, and a saved directory of the second digital-analog resource.

The contents in the above method embodiments are all applicable to the present system embodiment, the functions specifically implemented by the present system embodiment are the same as those in the above method embodiment, and the beneficial effects achieved by the present system embodiment are also the same as those achieved by the above method embodiment.

Referring to fig. 3, an embodiment of the present invention further provides a digital-analog resource saving apparatus, including:

at least one processor 301;

at least one memory 302 for storing at least one program;

when executed by the at least one processor 301, the at least one program causes the at least one processor 301 to implement the digital-to-analog resource preservation method.

The contents in the above method embodiments are all applicable to the present apparatus embodiment, the functions specifically implemented by the present apparatus embodiment are the same as those in the above method embodiments, and the advantageous effects achieved by the present apparatus embodiment are also the same as those achieved by the above method embodiments.

Furthermore, an embodiment of the present invention further provides a computer-readable storage medium, in which instructions executable by the processor 301 are stored, and when the instructions are executed by the processor 301, the method for saving digital-analog resources is performed.

According to the digital-analog resource storage method, the digital-analog resource storage system, the digital-analog resource queue is established according to the first digital-analog resource, the digital-analog resource queue is traversed, the state parameter of the first digital-analog resource is detected, the second digital-analog resource is selected according to the state parameter and stored in the file system library, the digital-analog resources which are not stored can be sequentially screened out from a large number of digital-analog resources and stored in sequence, repeated storage is avoided, the risk of data loss is reduced while the digital-analog resources are stored in batches, the labor cost and the time cost are saved, and the digital-analog resource storage efficiency is improved.

While the embodiments of the present invention have been described in detail, the present invention is not limited to the above-described embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are intended to be included within the scope of the present invention defined by the claims.

Claims (10)

1. A digital-analog resource storage method is characterized by comprising the following steps:

acquiring a first digital-analog resource, and establishing a digital-analog resource queue according to the first digital-analog resource;

traversing the digital-analog resource queue, detecting a state parameter of the first digital-analog resource, and selecting a second digital-analog resource according to the state parameter;

and saving the second digital modulus resource to a file system library.

2. The method for saving digital-analog resources according to claim 1, wherein the step of acquiring the first digital-analog resource and establishing a digital-analog resource queue according to the first digital-analog resource specifically comprises:

determining a first digital-analog resource through a human-computer interaction module, and establishing a digital-analog resource queue according to the first digital-analog resource;

or the like, or, alternatively,

determining a resource group through a man-machine interaction module, acquiring all digital-analog resources in the resource group as first digital-analog resources, and establishing a digital-analog resource queue according to the first digital-analog resources.

3. The method according to claim 1, wherein the step of traversing the digital-to-analog resource queue, detecting a state parameter of the first digital-to-analog resource, and selecting the second digital-to-analog resource according to the state parameter comprises:

traversing the digital-analog resource queue, and detecting a state parameter of the first digital-analog resource;

and acquiring the first digital-analog resource with the state parameter being editable to obtain the second digital-analog resource.

4. A method according to claim 1, wherein said step of saving said second digital-to-analog resource to a file system library comprises:

when detecting that the second digital-analog resource has a file system library path, storing the second digital-analog resource to a directory corresponding to the file system library path;

when detecting that the second digital-analog resource does not have a file system library path, acquiring a storage path input by a user through a human-computer interaction module, and storing the second digital-analog resource in a directory corresponding to the storage path in a file system library.

5. A method according to claim 1, wherein said step of saving said second digital-to-analog resource to a file system library comprises:

and when detecting that the second digital-analog resource does not have a file system library path, acquiring a preset storage path, and storing the second digital-analog resource to a directory corresponding to the preset storage path in a file system library.

6. A digital-to-analog resource conservation system, comprising:

the queue module is used for acquiring a first digital-analog resource and establishing a digital-analog resource queue according to the first digital-analog resource;

the selecting module is used for traversing the digital-analog resource queue, detecting the state parameter of the first digital-analog resource and selecting a second digital-analog resource according to the state parameter;

and the storage module is used for storing the second digital-analog resource to a file system library.

7. The system of claim 6, wherein the selecting module comprises:

the first detection unit is used for traversing the digital-analog resource queue and detecting the state parameter of the first digital-analog resource;

and the first acquisition unit is used for acquiring the first digital-to-analog resource with the editable state parameter to obtain the second digital-to-analog resource.

8. A system for conserving digital and analog resources as claimed in claim 6, wherein said conserving module comprises:

the first saving unit is used for saving the second digital-analog resource to a directory corresponding to the file system library path when detecting that the second digital-analog resource has the file system library path;

the second storage unit is used for acquiring a storage path input by a user through a man-machine interaction module when detecting that the second digital-analog resource does not have a file system library path, and storing the second digital-analog resource in a directory corresponding to the storage path in a file system library;

or the like, or, alternatively,

and the third saving unit is used for acquiring a preset saving path when detecting that the second digital-analog resource does not have a file system library path, and saving the second digital-analog resource to a directory corresponding to the preset saving path in the file system library.

9. A digital-to-analog resource holding apparatus, comprising:

at least one processor;

at least one memory for storing at least one program;

when executed by the at least one processor, cause the at least one processor to implement the digital-to-analog resource preservation method of any one of claims 1 to 5.

10. A computer readable storage medium having stored therein processor executable instructions, wherein the processor executable instructions, when executed by a processor, are for performing the digital to analog resource preservation method of any one of claims 1 to 5.

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