Detailed Description
In order to make those skilled in the art better understand the technical solutions of the present disclosure, the technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the drawings in the embodiments of the present disclosure. It is to be understood that the described embodiments are merely exemplary of some, and not all, of the present disclosure. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.
It should be noted that the terms "first," "second," and the like in the description and claims of the present disclosure and in the above-described drawings 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 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.
First, some of the nouns or terms appearing in the description of the embodiments of the present disclosure are applicable to the following explanations:
the terms: and the seed file is equivalent to an indication file or a guide file, and based on the seed file, the online working system can automatically match the application program for the product or the part corresponding to the seed file, namely, the application program corresponding to the product or the part is automatically determined from a plurality of application programs distributed in the online working system based on virtualization technology.
Example 1
In accordance with the present embodiment, there is provided an embodiment of a method for matching a design object to an application, it being noted that the steps illustrated in the flowchart of the drawings may be performed in a computer system such as a set of computer-executable instructions and that, although a logical order is illustrated in the flowchart, in some cases the steps illustrated or described may be performed in an order different than presented herein.
The method embodiments provided by the present embodiment may be executed in a mobile terminal, a computer terminal, a server or a similar computing device. FIG. 1 illustrates a hardware architecture block diagram of a computing device for implementing a method for matching a design object to an application. As shown in fig. 1, the computing device may include one or more processors (which may include, but are not limited to, a processing device such as a microprocessor MCU or a programmable logic device FPGA), a memory for storing data, and a transmission device for communication functions. Besides, the method can also comprise the following steps: a display, an input/output interface (I/O interface), a Universal Serial Bus (USB) port (which may be included as one of the ports of the I/O interface), a network interface, a power source, and/or a camera. It will be understood by those skilled in the art that the structure shown in fig. 1 is only an illustration and is not intended to limit the structure of the electronic device. For example, the computing device may also include more or fewer components than shown in FIG. 1, or have a different configuration than shown in FIG. 1.
It should be noted that the one or more processors and/or other data processing circuitry described above may be referred to generally herein as "data processing circuitry". The data processing circuitry may be embodied in whole or in part in software, hardware, firmware, or any combination thereof. Further, the data processing circuitry may be a single, stand-alone processing module, or incorporated in whole or in part into any of the other elements in the computing device. As referred to in the disclosed embodiments, the data processing circuit acts as a processor control (e.g., selection of a variable resistance termination path connected to the interface).
The memory may be used to store software programs and modules of application software, such as program instructions/data storage devices corresponding to the method for matching a design object with an application program in the embodiments of the present disclosure, and the processor executes various functional applications and data processing by running the software programs and modules stored in the memory, that is, implementing the method for matching a design object with an application program of the application program. The memory may include high speed random access memory, and may also include non-volatile memory, such as one or more magnetic storage devices, flash memory, or other non-volatile solid-state memory. In some instances, the memory may further include memory located remotely from the processor, which may be connected to the computing device over a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.
The transmission device is used for receiving or transmitting data via a network. Specific examples of such networks may include wireless networks provided by communication providers of the computing devices. In one example, the transmission device includes a Network adapter (NIC) that can be connected to other Network devices through a base station to communicate with the internet. In one example, the transmission device may be a Radio Frequency (RF) module, which is used for communicating with the internet in a wireless manner.
The display may be, for example, a touch screen type Liquid Crystal Display (LCD) that may enable a user to interact with a user interface of the computing device.
It should be noted here that in some alternative embodiments, the computing device shown in fig. 1 described above may include hardware elements (including circuitry), software elements (including computer code stored on a computer-readable medium), or a combination of both hardware and software elements. It should be noted that FIG. 1 is only one example of a particular specific example and is intended to illustrate the types of components that may be present in a computing device as described above.
Fig. 2 is a schematic diagram of a system for matching an application to a design object according to the present embodiment. Referring to fig. 2, the system includes: the online work system 300 and a plurality of terminal devices. Wherein the plurality of terminal devices include, for example and without limitation: a first terminal device 210, a second terminal device 220, and a third terminal device 230. The online work system 300 is, for example, built by a plurality of servers, and includes an application center and a workspace, and can provide online research and development designed services for users, for example: development and design, collaborative development and other services of industrial products or parts. Wherein the application center of the online working system 300 provides the user with a service for starting an application program, and the workspace provides the user with product and part management services. And, based on the virtualization technology, the online working system 300 provides various kinds of CAD software mainstream in the market for the research and development design engineers of products or parts in a cloud manner, including NX and SolidEdge of siemens, Solidworks of dasotuo, Creo of PTC, zhongwang 3D, zhongwang 2D, CAXA 2D, CAXA3D, SINOVATION of shangda, and NexCAD, etc.
Further, the user 110 of the first terminal device 210 may be a developer of a product or a part to be subjected to development and design (for example, an engineer responsible for specific development and design), the user 120 of the second terminal device 220 may be a creator of the product or the part to be subjected to development and design (for example, a product manager, a product group leader or an engineer, etc.), and the user 130 of the third terminal device 230 may be a setting person of the online working system 300, and is dedicated to setting a corresponding seed file for various CAD software virtually deployed on the online working system 300. The user 130, as a setting person of various CAD software on the online working system 300, may interact with the online working system 300 by using the third terminal device 230, and then set corresponding seed files for the various CAD software on a setting interface thereof. When a certain product or part needs to be developed and designed online, the user 120 may interact with the online work system 300 by using the second terminal device 220 as a creator of the product or part, then create the product or part in a workspace of the online work system, and set a corresponding seed file for the created product or part. In addition, the user 110 may be a development and design party of a product or a part, interact with the online working system 300 by using the first terminal device 210, and then perform development and design of the product or the part on an operation interface thereof. It should be noted that the above-mentioned hardware structure can be applied to the online working system 300, the first terminal device 210, the second terminal device 220, and the third terminal device 230 in the system.
Under the above operating environment, according to the first aspect of the present embodiment, there is provided a method for matching an application to a design object, which is implemented by the online work system 300 shown in fig. 2. Fig. 3 shows a flow diagram of the method, which, with reference to fig. 3, comprises:
s302: receiving an editing request for requesting to edit the design object from a first terminal device of a first user, wherein the editing request is generated by the first terminal device in response to a trigger operation of the first user on an operation interface on the design object, and the editing request contains related information of the design object and seed file information corresponding to the design object and set by a creator of the design object, and the design object is a product and/or a part;
s304: determining an application program for editing the design object from the plurality of application programs according to preset seed file mapping information in response to the editing request, wherein the preset seed file mapping information is used for indicating a mapping relation between the plurality of application programs and the plurality of seed files; and
s306: and sending the application program interface image of the application program loaded with the design object to the first terminal equipment.
As described in the background art, in order to solve the problems of high configuration and high cost caused by installing CAD software on a local computer, the CAD software can be deployed in the cloud and distributed in an online work system in a virtualized manner through a virtualization technology, but since CAD software used by different engineers is different, even though the same engineer uses different CAD software for different products or different parts in development and design. Therefore, the types of CAD software deployed on the cloud end are required to be complete, various CAD software appearing in the market needs to be covered, and the number of CAD software is huge. In the application scenario, in each development and design process of a product or a part by using the online working system, an engineer needs to select a suitable CAD software from a plurality of CAD software deployed in the cloud, so as to perform development and design of the product or the part in the selected CAD software. However, the need to select an appropriate CAD software from a plurality of CAD software during each development and design process of a product or part wastes the development and design time of engineers. Therefore, the existing mode is adopted to carry out the online research and development design of the product or the part every time, the research and development design time of engineers is wasted, and the research and development design efficiency of the product or the part is seriously influenced.
In view of the technical problems in the background art, in the present embodiment, since a plurality of CAD software is distributed on the online work system 300 in a virtualized manner, in order to avoid the need for a user (engineer) to select an appropriate CAD software from the plurality of CAD software in the process of developing and designing a design object (product or part), the online work system 300 sets a corresponding seed file for each CAD software in the background, so as to generate and store seed file mapping information indicating mapping relationships between a plurality of applications and a plurality of seed files in the online work system 300. Therefore, the torrent file mapping information is previously set on the online working system 300. Further, the creation of the design object needs to be performed before the online editing of the design object is performed. In order to ensure that the online working system 300 can automatically match the corresponding application program for the created design object for the user to edit online, the creator of the design object needs to set a corresponding seed file for the design object during the creation of the design object.
Based on this, when a first user as a research and development designer has an editing requirement for editing a design object (i.e., a product or a part) online, the first user may perform a trigger operation on the design object on an operation interface of a first terminal device, and at this time, the first terminal device generates a corresponding editing request in response to the trigger operation of the first user and sends the editing request to the online work system 300. In this application scenario, the online work system 300 receives an editing request requesting editing of the design object from the first terminal device of the first user (corresponding to step S302). Wherein the editing request contains related information of the design object and seed file information corresponding to the design object and set by a creator of the design object. In practical applications, the online working system 300 may provide, for example, an operation interface of a client (APP, applet, etc.) or a web page for a user, where the operation interface at least includes a design object managed by the online working system 300, and the design object is a product or a part.
Further, fig. 4a schematically illustrates an operation interface displayed on the first terminal device according to this embodiment. Referring to fig. 4a, the design object to be edited is a "guide" (one part managed by the online work system 300), and a "check-out" button corresponding to the "guide" is provided in the operation interface. In a specific example, the first user is the user 110, an operation interface provided by the online working system 300 and including at least a design object "guide rail" is displayed on the first terminal device 210 of the user 110, after the user 110 triggers a "check-out" button corresponding to the design object "guide rail", a check-out interface (shown in fig. 4 b) pops up in the operation interface of the first terminal device 210, and at this time, the user 110 may click the "online editing" button on the check-out interface, so that the first terminal device 210 may generate a corresponding editing request according to the above-mentioned triggering operation of the user 110. The editing request generated by the first terminal device 210 includes information related to the design object "guide rail" and the seed file information corresponding to the "guide rail" and set by the creator of the "guide rail", where the information related to the "guide rail" may indicate that the user 110 has triggered the "online editing" button corresponding to the "guide rail". The creator of the "guide track" is, for example, the user 120, and the user 120 may utilize the second terminal device 220 to interact with the online work system 300, thereby creating the "guide track" and setting the seed file corresponding thereto. In addition, the user 110 can be used not only as a development designer of the "guide rail" but also as a creator of the "guide rail", so that the user 110 can also interact with the online working system 300 by using the first terminal device 210, thereby creating the "guide rail" and setting the seed file corresponding to the "guide rail".
Further, the online working system 300 determines an application program for editing the design object of the "guide rail" from the plurality of application programs in response to the editing request according to preset seed file mapping information indicating mapping relationships between the plurality of application programs and the plurality of seed files (step S304). For example: various CAD software mainstream in the market are virtually distributed in the application center of the online working system 300, including NX and SolidEdge of Siemens, Solidworks of Dasuo, Creo of PTC, Zhongwang 3D, Zhongwang 2D, CAXA 2D, CAXA3D, Shanda Huatian SINOVATION, Xindi NexCAD and the like. Since the edit request received from the first terminal device 210 includes the seed file information of the design object "guide rail", the online work system 300 can specify an application program for editing "guide rail" from among a plurality of application programs based on the preset seed file mapping information. Finally, the online work system 300 transmits the application interface image of the application loaded on the "guide rail" to the first terminal device 210 (step S306).
In a specific example, the preset seed file mapping information is used for indicating the mapping relationship between the following application programs and the seed file, for example and without limitation: the CAD software of 'Siemens NX' has a mapping relation with a seed file of 'NX 12 model _ asm', the CAD software of 'Dasuo Solidworks' has a mapping relation with a seed file of 'SW 2019gb _ part', and the CAD software of 'PTC' has a mapping relation with a seed file of 'Creo 4_ part _ mmks'. Referring to fig. 5b, the seed file information corresponding to the design object of "guide rail" set by the creator is SW2019gb _ part, and at this time, the online working system 300 determines, from the plurality of applications, that the application program for editing the design object of "guide rail" is CAD software of "Solidworks" according to the preset seed file mapping information, and sends the application interface image loaded with the application program of "guide rail" (i.e., the program interface image of "guide rail" is loaded using the CAD software of "Solidworks" of "reach") to the first terminal device 210.
In summary, in this embodiment, when a first user as a research and development designer has an editing requirement for editing a design object (i.e., a product or a part) online, the first user only needs to perform a trigger operation on the design object on an operation interface displayed on a first terminal device, and the first terminal device generates a corresponding editing request in response to the trigger operation of the first user and sends the editing request to the online work system. Wherein the editing request contains related information of the design object and seed file information corresponding to the design object and set by a creator of the design object. After receiving the editing request from the first terminal device of the first user, the online working system can determine an application program for editing the design object from the plurality of application programs according to preset seed file mapping information, and send an application program interface image of the application program loaded with the design object to the first terminal device. The preset seed file mapping information is used for indicating the mapping relation between the plurality of application programs and the plurality of seed files. Therefore, in the mode, in the process of research and development and design of the designed object (product or part) by using the online working system each time, an engineer does not need to select a proper CAD software from a plurality of CAD software, the research and development and design time of the engineer is greatly saved, and the research and development and design efficiency of the product or part is effectively improved. Furthermore, the technical problem that in the process of online research and development and design of products or parts each time, an engineer needs to select a proper CAD software from a plurality of CAD software deployed in the cloud end in the prior art is solved, the research and development and design time of the engineer is greatly wasted, and the research and development and design efficiency of the products or the parts is seriously influenced.
Optionally, the creator of the design object is a first user, and the method further comprises: receiving a creation request for creating a design object from a first terminal device, wherein the creation request is generated by the first terminal device in response to a triggering operation of a creation component by a first user on an operation interface, and the creation request contains basic information of the design object and seed file information corresponding to the design object and set by the first user; responding to the creation request, creating a design object, and binding the design object with the seed file corresponding to the seed file information; and transmitting data related to the design object to the first terminal device.
Specifically, in the case that the creator of the design object is the first user, the method for matching the application program with the design object proposed in the present embodiment further includes a creation operation of the design object. During the creation operation of the design object, the online working system 300 first receives a creation request for creating the design object from the first terminal device. The creation request is generated by the first terminal device in response to the first user performing a trigger operation on the creation component at the operation interface, and the creation request contains basic information of the design object and seed file information corresponding to the design object and set by the first user. In a specific embodiment, referring to fig. 2 and 4a, the first user is the user 110, and the operation interface displayed on the first terminal device 210 includes two creating components of "create product" and "create part". Referring to fig. 4a, the design object that the user 110 needs to create is a part of a "guide rail", so that the user 110 can trigger the component of "create part" by clicking, and at this time, the first terminal device 210 displays a new interface on the operation interface displayed in fig. 4a in response to the triggering operation of the user 110, so that the user 110 can input corresponding part information and set a corresponding seed file (see fig. 5 a). After the user 110 completes the input of the basic information (such as name, number, version, piece type, etc.) of the part and the setting of the corresponding seed file and clicks the "confirm" button, the first terminal device 210 generates a creation request corresponding to the part of the "guide rail" in response to the trigger operation of the user 110 and transmits the creation request to the online working system 300. Wherein the creation request includes basic information of the "track" and seed file information set by the user 110.
Further, the online working system 300 creates a design object in response to the creation request, binds the design object with the torrent file corresponding to the torrent file information, and transmits data related to the design object to the first terminal device. Referring to FIG. 5b, the basic information of the part that the user 110 requests to create includes: the name is a guide rail, the number is PT201213000001, the version is 0.1, the piece class is a self-made piece, and the set seed file is SW2019gb _ part. In this application scenario, the creation request received by the online working system 300 includes the above basic information and corresponding seed file information, at this time, the online working system 300 creates a part of "guide rail" based on the received basic information, binds the part of "guide rail" and the seed file of "SW 2019gb _ part", and finally, the online working system 300 sends data related to the part of "guide rail" to the first terminal device 210. In addition, the whole creation process of creating the product is consistent with the creation process of creating the part of the guide rail, and the description is omitted here.
Therefore, in the above manner, in the creation process of the design object, the creator is responsible for the input operation of the basic information of the design object and the setting operation of the corresponding seed file, which lays a technical foundation for the online working system 300 to successfully and automatically match the corresponding application program for the design object in the subsequent online editing operation process of the design object. Moreover, the selection of setting the corresponding seed file in the creation process of the design object not only does not waste the research and development design time of a research designer (engineer), but also ensures that the research designer does not need to select the CAD software in each online research and development design process of the product or the part, that is, the online engineering system 300 can automatically match the corresponding application program for each online editing request of the research designer.
Optionally, the creator of the design object is a second user, the first user and the second user are both users related to the design object, and the method further comprises: receiving a creation request for creating the design object from a second terminal device of a second user, wherein the creation request is generated by the second terminal device in response to a trigger operation of the second user on an operation interface on the creation component, and the creation request contains basic information of the design object and seed file information corresponding to the design object and input by the second user; responding to the creation request, creating a design object, and binding the design object with the seed file corresponding to the seed file information; and sending data related to the design object to the second terminal device and the first terminal device.
Specifically, the creator of the design object is a second user, and both the first user and the second user are users related to the design object, where the first user is, for example, a development designer of the design object (an engineer responsible for specific development and design), and the second user is, for example, a creator of a product or a part to be developed and designed (a product manager or a product group leader, etc.), that is, the second user is an upper manager or an upper group leader of the first user. In addition, the second user and the first user can also be engineers to cooperatively develop the same design object. In the case where the creator of the design object is the second user, the method for matching a design object with an application program according to the present embodiment further includes a creation operation of the design object. During the creation operation of the design object, the online working system 300 first receives a creation request for creating the design object from the second terminal device of the second user. The creation request is generated by the second terminal device in response to the second user performing a trigger operation on the creation component at the operation interface, and the creation request contains basic information of the design object and seed file information corresponding to the design object and set by the second user.
In a specific embodiment, referring to fig. 2 and 4a, the second user is the user 120, and the operation interface displayed on the second terminal device 220 includes two creating components of "create product" and "create part". Referring to fig. 4a, the design object that the user 120 needs to create is a part of a "guide rail", so that the user 120 can trigger the component of "create part" by clicking, and at this time, the second terminal device 220 displays a new interface on the operation interface displayed in fig. 4a in response to the triggering operation of the user, so that the user 120 can input corresponding part information and set a corresponding seed file (see fig. 5 a). After the user 120 completes the setting of the basic information (such as name, number, version, piece class, etc.) of the part and the corresponding seed file and clicks the "confirm" button, the second terminal device 220 generates a creation request corresponding to the part of the "guide rail" in response to the trigger operation of the user 120 and transmits the creation request to the online working system 300. Wherein the creation request includes basic information of the "track" and seed file information set by the user 120.
Further, the online working system 300 creates the design object in response to the creation request, binds the design object with the torrent file corresponding to the torrent file information, and transmits data related to the design object to the second terminal device and the first terminal device. Referring to FIG. 5b, the basic information of the part that the user 110 requests to create includes: the name is a guide rail, the number is PT201213000001, the version is 0.1, the piece class is a self-made piece, and the set seed file is SW2019gb _ part. In this application scenario, the creation request received by the online working system 300 includes the above basic information and corresponding seed file information, at this time, the online working system 300 creates a part of "guide rail" based on the received basic information, binds the part of "guide rail" and the seed file of "SW 2019gb _ part", and finally, the online working system 300 sends data related to the part of "guide rail" to the first terminal device 210 and the second terminal device 220. In addition, the whole creation process of creating the product is consistent with the creation process of creating the part of the guide rail, and the description is omitted here.
Therefore, in the above manner, in the creation process of the design object, the creator is responsible for the input operation of the basic information of the design object and the setting operation of the corresponding seed file, and a technical basis is laid for the online working system 300 to successfully and automatically match the corresponding application program for the design object in the subsequent online editing operation process of another user on the design object. Moreover, the selection of setting the corresponding seed file in the creation process of the design object not only does not waste the research and development design time of a research designer (engineer), but also ensures that the research designer does not need to select the CAD software in each online research and development design process of the product or the part, that is, the online engineering system 300 can automatically match the corresponding application program for each online editing request of the research designer.
Optionally, in response to the editing request, determining an operation of an application program for editing the design object from the plurality of application programs according to preset seed file mapping information, including: determining a target seed file corresponding to the design object from the plurality of seed files according to the seed file information corresponding to the design object contained in the editing request; and determining a target application program which has a mapping relation with the target seed file from the plurality of application programs according to preset seed file mapping information, and determining the target application program as the application program for editing the design object.
Specifically, referring to fig. 5a and 5b, the preset plurality of seed files include, for example and without limitation: the method comprises the following steps of NX12 model _ asm, SW2019gb _ assembly, SW2019gb _ part, Creo4_ assembly _ mmks, Creo4_ part _ mmks and the like, wherein in the process of creating, a creator of a design object 'rail' sets seed file information for the 'rail' to be SW2019gb _ part. In this application scenario, in the operation process of determining an application program for editing a design object from a plurality of application programs according to preset seed file mapping information, the online working system 300 first determines a target seed file (corresponding to the seed file "SW 2019gb _ part") corresponding to the design object from the plurality of seed files according to seed file information corresponding to a "guide rail" of the design object included in an editing request, and finally determines a target application program (corresponding to CAD software "Solidworks" of dasotus) having a mapping relationship with the target seed file from the plurality of application programs according to the preset seed file mapping information, and determines the target application program as the application program for editing the design object. Thus, in the above manner, the online working system 300 can quickly and accurately determine the application program for editing the design object from the plurality of application programs, based on the information included in the editing request.
Optionally, the method further comprises: receiving a setting request for setting corresponding seed files for a plurality of application programs from a third terminal device of a third user, wherein the setting request is generated by the third terminal device in response to a triggering operation of the third user on an operation interface on a setting component, and the setting request comprises relevant information of the plurality of application programs and the corresponding plurality of seed files; responding to the setting request, establishing a mapping relation between the plurality of application programs and the corresponding plurality of seed files, and generating seed file mapping information; and storing the torrent file mapping information.
Specifically, since a plurality of CAD software is distributed on the online work system 300 in a virtualized manner, a special setting person is required to set corresponding seed files for various types of CAD software. Referring to fig. 2, the user 130 (corresponding to the third user) may be a setting person of the online work system 300, and is dedicated to setting corresponding seed files for various CAD software which is virtually deployed on the online work system 300. In the application scenario, the user 130 may perform a trigger operation on the setting component on the operation interface displayed by the third terminal device 230, and the third terminal device 230 generates a corresponding setting request in response to the trigger operation of the user 130. The setting request comprises relevant information of a plurality of application programs and a plurality of corresponding seed files. At this time, the online working system 300 establishes a mapping relationship between a plurality of application programs and a corresponding plurality of torrent files in response to the setting request received from the third terminal device 230, generates torrent file mapping information, and stores the torrent file mapping information. Therefore, through the above manner, a technical basis is laid for the online working system 300 to successfully and automatically match the corresponding application program for the design object according to the preset seed file mapping information in the subsequent online editing operation process of the design object. Moreover, the corresponding seed files are uniformly set for various CAD software through special setting personnel, so that later maintenance and management are facilitated.
Optionally, before sending the application interface image of the application program loaded with the design object to the first terminal device, the method further includes: starting an application program for editing the design object; and loading the design object with the application.
Specifically, before the operation of sending the application interface image of the application loaded with the design object to the first terminal device by the online working system 300, the application (i.e., the CAD software obtained by matching) needs to be started and the design object is loaded with the CAD software obtained by matching. As described above, the CAD software obtained by the online working system 300 by matching is "Solidworks for strop", so that the online working system 300 starts "Solidworks for strop", loads the part "guide rail" by using the "Solidworks for strop", and then sends the application program interface image of the CAD software "Solidworks for strop", which is loaded into the "guide rail", to the first terminal device 210. Therefore, in the process of research, development and design of the design object, the object to be researched, developed and designed can be opened by using the application program provided by the online working system 300 without locally installing the application program, so that the research, development and design cost of the product or the part is effectively reduced while the operation is more convenient and faster.
Further, according to a second aspect of the present embodiment, there is provided a method of matching an application to a design object, the method being implemented by the first terminal device 210 shown in fig. 2. Fig. 6 shows a flow diagram of the method, and referring to fig. 6, the method comprises:
s602: displaying an operation interface containing a design object, wherein the design object is a product and/or a part;
s604: generating an editing request in response to a triggering operation of a user on a design object on an operation interface, and sending the editing request to a system for managing the design object, wherein the editing request comprises related information of the design object and seed file information which corresponds to the design object and is set by a creator of the design object, the system is stored with seed file mapping information for indicating mapping relations between a plurality of application programs and a plurality of seed files in advance, and the editing request is used for indicating the system to determine an application program for editing the design object from the plurality of application programs according to the seed file information and the seed file mapping information; and
s606: an application interface image of an application program loaded with a design object is received from a system, and the application interface image is displayed.
Specifically, since a plurality of CAD software are distributed on the online working system 300 in a virtualized manner, in order to avoid the need for a user (engineer) to select a suitable CAD software from the plurality of CAD software in the process of designing, developing and designing a design object, for each type of CAD software, the online working system 300 sets a corresponding seed file for each type of CAD software in the background, thereby generating and storing seed file mapping information indicating mapping relationships between a plurality of applications and a plurality of seed files in the online working system 300. Therefore, the online working system 300 stores the seed file mapping information in advance. Further, the creation of the design object needs to be performed before the online editing of the design object is performed. In order to ensure that the online working system 300 can automatically match the corresponding application program for the created design object for the user to edit online, the creator of the design object needs to set a corresponding seed file for the design object during the creation of the design object.
Further, an operation interface including a design object is displayed on the first terminal device 210, wherein the design object is a product and/or a part (step S602). Referring to FIG. 4a, in one embodiment, the design object is a part "rail". In a case where a user (e.g., the user 110) as a research and development designer has an editing requirement for online editing of a design object (i.e., a product or a part), the user 110 may perform a trigger operation on the part "guide rail" at the operation interface of the first terminal device 210, for example, after the user 110 triggers a "check-out" button corresponding to the design object "guide rail", a new check-out interface (shown in fig. 4 b) pops up in the operation interface of the first terminal device 210, and the user 110 may click the "online editing" button on the check-out interface, at which time the first terminal device 210 generates a corresponding editing request in response to the trigger operation of the user 110 and transmits the corresponding editing request to a system (corresponding to the online working system 300) for managing the design object (step S604). The online work system 300 stores in advance seed file mapping information indicating mapping relationships between a plurality of applications and a plurality of seed files, and the edit request is used for instructing the online work system 300 to determine an application for editing a design object from the plurality of applications according to the seed file information and the seed file mapping information.
Since the online work system 300 stores in advance the seed file mapping information indicating the mapping relationship between the plurality of applications and the plurality of seed files, and the editing request received from the first terminal device 210 contains the seed file information set by the creator corresponding to the design object, after the online work system 300 receives the editing request from the first terminal device 210, it is possible to determine the application for editing the design object from the plurality of applications according to the preset seed file mapping information, and to transmit the application interface image of the application loaded with the design object to the first terminal device 210. At this time, the first terminal device 210 receives the application interface image of the application loaded with the design object from the online working system 300, and displays the application interface image (step S606).
Therefore, in the mode, in the process of research and development and design of the designed object (product or part) by using the online working system each time, an engineer does not need to select a proper CAD software from a plurality of CAD software, the research and development and design time of the engineer is greatly saved, and the research and development and design efficiency of the product or part is effectively improved. Furthermore, the technical problem that in the process of online research and development and design of products or parts each time, an engineer needs to select a proper CAD software from a plurality of CAD software deployed in the cloud end in the prior art is solved, the research and development and design time of the engineer is greatly wasted, and the research and development and design efficiency of the products or the parts is seriously influenced.
Optionally, the method further comprises: displaying an operation interface comprising a creation component, wherein the creation component is used for a user to create a design object by triggering operation; responding to the triggering operation of a user on the creation component, and displaying an input interface for inputting relevant information of the design object to be created; responding to the triggering operation of a user on an input interface, generating a creation request and sending the creation request to a system, wherein the creation request comprises basic information of a design object and seed file information corresponding to the design object; and receiving data related to the design object from the system.
Specifically, referring to fig. 4a, an operation interface including creation components, for example, two creation components of "create product" and "create part", is displayed on the first terminal device 210. In the case that the design object to be created is a part such as a "guide rail", the user 110 may trigger the component "create part" by clicking, and at this time, the first terminal device 210 displays a new input interface on the operation interface displayed in fig. 4a in response to the triggering operation of the user 110, so that the user 110 may input corresponding part information and set a corresponding seed file (see fig. 5 a). After the user 110 completes the input of the basic information (such as name, number, version, piece class, etc.) of the part and the setting of the corresponding seed file and clicks the "confirm" button, the first terminal device 210 generates a creation request corresponding to the part of the "guide rail" in response to the trigger operation of the user 110 and transmits the creation request to the online work system 300. Wherein the creation request includes basic information of the "track" and seed file information set by the user 110. After the on-line working system 300 completes the creation of the corresponding design object, data related to the design object is transmitted to the first terminal device 210. At this time, the first terminal device 210 receives data related to the design object from the online working system 300.
Therefore, in the above manner, in the creation process of the design object, the creator is responsible for the input operation of the basic information of the design object and the setting operation of the corresponding seed file, which lays a technical foundation for the online working system 300 to successfully and automatically match the corresponding application program for the design object in the subsequent online editing operation process of the design object. Moreover, the selection of setting the corresponding seed file in the creation process of the design object not only does not waste the research and development design time of a research designer (engineer), but also ensures that the research designer does not need to select the CAD software in each online research and development design process of the product or the part, that is, the online engineering system 300 can automatically match the corresponding application program for each online editing request of the research designer.
Optionally, the method further comprises: responding to a trigger operation of a user on an input interface, and displaying a seed file list, wherein the seed file list comprises candidate seed files; and generating seed file information in response to a determination operation that the user determines a seed file from the seed file list, wherein the seed file information is used for indicating the seed file corresponding to the design object and set by the user.
Specifically, referring to fig. 5a, the first terminal device 210 may further display a seed file list in response to a trigger operation of the user 110 on the input interface. Wherein the list of torrent files includes candidate torrent files. The candidate torrent files are, for example, but not limited to, NX12 model _ asm, SW2019gb _ assembly, SW2019gb _ part, Creo4_ assembly _ mmks, Creo4_ part _ mmks, and the like. Further, the first terminal device 210 generates torrent file information in response to a determination operation by the user 110 that a torrent file is determined from the torrent file list. Wherein the torrent file information is used to indicate the torrent file corresponding to the design object set by the user 110. In actual operation, different kinds of CAD software are required for editing and designing different design objects. In this case, in creating the design object, the user 110 may also determine a corresponding seed file in the seed file list, for example: the user 110 can check the seed file in the seed file list displayed on the operation interface. The first terminal device 210 may thus generate torrent file information in response to an operation by the user 110 to select a torrent file. Therefore, in the process of creating the design object, the creator can determine the seed file corresponding to the design object from the seed file list without manually inputting the information of the seed file, the operation is convenient and fast, and the use experience of a user can be improved.
Optionally, the method further comprises: responding to the triggering operation of a user on an input interface, and displaying a seed file input interface; and generating seed file information in response to the operation of inputting the seed file in the seed file input interface by the user, wherein the seed file information is used for indicating the seed file which is set by the user and corresponds to the design object.
Specifically, in a certain practical application, since most of the design objects for which the user 110 is responsible for research and development are of the same type, so that the user 110 often edits the design objects by using the same CAD software (for example, Solidworks of daxol), the user 110 has a clear view on the seed file information of the seed file having a mapping relation with the "Solidworks of daxol", and the user 110 feels that it is more convenient to manually input the seed file compared with selecting the seed file from the seed file list. Based on this, the first terminal device 210 may also display the seed file input interface in response to a trigger operation of the user 110 on the input interface. So that the user 110 can enter corresponding torrent file information in the displayed torrent file input interface. Further, the first terminal device 210 generates torrent file information in response to an operation of the user 110 to input a torrent file in the torrent file input interface. Therefore, in the process of creating the design object, the creator can manually input the seed file according to actual requirements, the operation is flexible, and the requirements of different users can be met.
Further, referring to fig. 1, according to a third aspect of the present embodiment, there is provided a storage medium. The storage medium comprises a stored program, wherein the method of any of the above is performed by a processor when the program is run.
Therefore, according to the embodiment, when a first user who is a research and development designer has an editing requirement for editing a design object (i.e., a product or a part) on line, the first user only needs to perform a trigger operation on the design object on an operation interface displayed on the first terminal device, and the first terminal device generates a corresponding editing request in response to the trigger operation of the first user and sends the editing request to the on-line work system. Wherein the editing request contains related information of the design object and seed file information corresponding to the design object and set by a creator of the design object. After receiving the editing request from the first terminal device of the first user, the online working system can determine an application program for editing the design object from the plurality of application programs according to preset seed file mapping information, and send an application program interface image of the application program loaded with the design object to the first terminal device. The preset seed file mapping information is used for indicating the mapping relation between the plurality of application programs and the plurality of seed files. Therefore, in the mode, in the process of research and development and design of the designed object (product or part) by using the online working system each time, an engineer does not need to select a proper CAD software from a plurality of CAD software, the research and development and design time of the engineer is greatly saved, and the research and development and design efficiency of the product or part is effectively improved. Furthermore, the technical problem that in the process of online research and development and design of products or parts each time, an engineer needs to select a proper CAD software from a plurality of CAD software deployed in the cloud end in the prior art is solved, the research and development and design time of the engineer is greatly wasted, and the research and development and design efficiency of the products or the parts is seriously influenced.
It should be further added that, referring to fig. 7, in the case that the creator of the design object and the designer are the same user, the overall flow steps of the method for matching an application to a design object proposed in this embodiment are as follows:
1. the method comprises the steps that a terminal device of a setting party responds to setting operation of the setting party on seed files of a plurality of application programs distributed on an online design platform on an operation interface, and generates a setting request, wherein the setting request comprises relevant information of the application programs and corresponding seed file information;
2. the terminal equipment of the setting party sends a setting request to the online working system;
3. the online working system responds to the setting request, establishes the mapping relation between the plurality of application programs and the plurality of seed files, and generates and stores the seed file mapping information;
4. a terminal device of a creator (a designer) generates a creation request in response to a creation operation of a design object by a user on an operation interface;
5. a terminal device of a creator (a designer) sends a creation request to an online working system;
6. the online working system sends a creation interface for creating the design object to a terminal device of a creator (designer) in response to the creation request;
7. the method comprises the steps that a terminal device of a creator (a designer) responds to information input by a user in a creating interface, and generates related information of a design object, wherein the related information comprises basic information and seed file information of the design object;
8. a terminal device of a creator (a designer) sends related information of the design object to an online working system;
9. a terminal device of a creator (a designer) responds to a user clicking a preset detection key corresponding to the design object to generate a detection instruction;
10. the terminal equipment of the creator (designer) sends a detection instruction to the online working system;
11. the online working system responds to the detection instruction, obtains the seed file information from the related information of the design object, and determines an application program for editing the design object from a plurality of application programs according to the seed file information and the seed file mapping information;
12. and the online working system sends the application program interface image of the application program loaded with the design object to the terminal equipment of the creator (designer).
In addition, referring to fig. 8, in a case where the creator and the designer of the design object are different users, the overall flow steps of the method for matching an application to the design object proposed in this embodiment are as follows:
1. the method comprises the steps that a terminal device of a setting party responds to setting operation of the setting party on seed files of a plurality of application programs distributed on an online design platform on an operation interface, and generates a setting request, wherein the setting request comprises relevant information of the application programs and corresponding seed file information;
2. the terminal equipment of the setting party sends a setting request to the online working system;
3. the online working system responds to the setting request, establishes the mapping relation between the plurality of application programs and the plurality of seed files, and generates and stores the seed file mapping information;
4. the method comprises the steps that a terminal device of a creator responds to creation operation of a user on a design object on an operation interface to generate a creation request;
5. the method comprises the steps that terminal equipment of a creator sends a creation request to an online working system;
6. the online working system responds to the creation request and sends a creation interface for creating the design object to the terminal equipment of the creator;
7. the terminal equipment of the creator responds to information input by a user on the creation interface, and generates related information of the design object, wherein the related information comprises basic information and seed file information of the design object;
8. the terminal equipment of the creator sends the related information of the design object to an online working system;
9. the terminal equipment of the designer responds to a preset detection key corresponding to the design object clicked by a user, and generates a detection instruction;
10. the terminal equipment of the designer sends a detection instruction to the online working system;
11. the online working system responds to the detection instruction, obtains the seed file information from the related information of the design object, and determines an application program for editing the design object from a plurality of application programs according to the seed file information and the seed file mapping information;
12. and the online working system sends the application program interface image of the application program loaded with the design object to the terminal equipment of the designer.
It should be noted that, for simplicity of description, the above-mentioned method embodiments are described as a series of acts or combination of acts, but those skilled in the art will recognize that the present invention is not limited by the order of acts, as some steps may occur in other orders or concurrently in accordance with the invention. Further, those skilled in the art should also appreciate that the embodiments described in the specification are preferred embodiments and that the acts and modules referred to are not necessarily required by the invention.
Through the above description of the embodiments, those skilled in the art can clearly understand that the method according to the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but the former is a better implementation mode in many cases. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, or a network device) to execute the method according to the embodiments of the present invention.
Example 2
Fig. 9 shows an apparatus 900 for matching an application to a design object according to the first aspect of the present embodiment, the apparatus 900 corresponding to the method according to the first aspect of the embodiment 1. Referring to fig. 9, the apparatus 900 includes: an editing request receiving module 910, configured to receive an editing request for requesting to edit a design object from a first terminal device of a first user, where the editing request is generated by the first terminal device in response to a trigger operation performed on the design object by the first user on an operation interface, and the editing request includes related information of the design object and seed file information, corresponding to the design object, set by a creator of the design object, and the design object is a product and/or a part; an application determining module 920, configured to determine, in response to an editing request, an application for editing a design object from a plurality of applications according to preset seed file mapping information, where the preset seed file mapping information is used to indicate mapping relationships between the plurality of applications and a plurality of seed files; and an application interface image transmitting module 930 configured to transmit an application interface image of the application loaded with the design object to the first terminal device.
Optionally, the creator of the design object is a first user, and the apparatus 900 further comprises: a first creation request receiving module, configured to receive a creation request for creating a design object from a first terminal device, where the creation request is generated by the first terminal device in response to a trigger operation performed by a first user on a creation component in an operation interface, and the creation request includes basic information of the design object and seed file information corresponding to the design object and set by the first user; the first seed file binding module is used for responding to the creation request, creating a design object and binding the design object and the seed file corresponding to the seed file information; and a first design object data transmission module for transmitting data related to the design object to the first terminal device.
Optionally, the creator of the design object is a second user, the first user and the second user are both users related to the design object, and the method further comprises: a second creation request receiving module, configured to receive a creation request for creating the design object from a second terminal device of a second user, where the creation request is generated by the second terminal device in response to a trigger operation performed by the second user on the creation component in the operation interface, and the creation request includes basic information of the design object and seed file information input by the second user corresponding to the design object; the second seed file binding module is used for responding to the creation request, creating a design object and binding the design object and the seed file corresponding to the seed file information; and a second design object data transmission module for transmitting data related to the design object to the second terminal device and the first terminal device.
Optionally, the application determining module 920 includes: the first determining sub-module is used for determining a target seed file corresponding to the design object from the plurality of seed files according to the seed file information corresponding to the design object contained in the editing request; and the second determining submodule is used for determining a target application program which has a mapping relation with the target seed file from the plurality of application programs according to preset seed file mapping information, and determining the target application program as the application program for editing the design object.
Optionally, the apparatus 900 further comprises: the setting request receiving module is used for receiving a setting request for setting corresponding seed files for a plurality of application programs from a third terminal device of a third user, wherein the setting request is generated by the third terminal device in response to a triggering operation of the third user on an operation interface on a setting component, and the setting request comprises relevant information of the plurality of application programs and the corresponding plurality of seed files; the seed file mapping information sending module is used for responding to the setting request, establishing a mapping relation between a plurality of application programs and a plurality of corresponding seed files and generating seed file mapping information; and the seed file mapping information storage module is used for storing the seed file mapping information.
Optionally, the apparatus 900 further comprises: the application program starting module is used for starting an application program for editing the design object; and a design object loading module for loading the design object by using the application program.
Furthermore, fig. 10 shows an apparatus 1000 for matching an application to a design object according to the second aspect of the present embodiment, which apparatus 1000 corresponds to the method according to the second aspect of embodiment 1. Referring to fig. 10, the apparatus 1000 includes: an operation interface display module 1010, configured to display an operation interface including a design object, where the design object is a product and/or a part; an edit request sending module 1020, configured to generate an edit request in response to a trigger operation of a user on a design object on an operation interface, and send the edit request to a system for managing the design object, where the edit request includes related information of the design object and seed file information corresponding to the design object and set by a creator of the design object, the system stores in advance seed file mapping information for indicating mapping relationships between a plurality of application programs and a plurality of seed files, and the edit request is used to instruct the system to determine an application program for editing the design object from the plurality of application programs according to the seed file information and the seed file mapping information; and an application interface image receiving module 1030 for receiving an application interface image of an application loaded with the design object from the system and displaying the application interface image.
Optionally, the apparatus 1000 further comprises: the operation interface display module is used for displaying an operation interface comprising a creation component, wherein the creation component is used for a user to create a design object through triggering operation; the input interface display module is used for responding to the triggering operation of a user on the creation component and displaying an input interface for inputting the related information of the design object to be created; the system comprises a creation request sending module, a data processing module and a data processing module, wherein the creation request sending module is used for responding to the triggering operation of a user on an input interface, generating a creation request and sending the creation request to the system, and the creation request comprises basic information of a design object and seed file information corresponding to the design object; and a data receiving module for receiving data related to the design object from the system.
Optionally, the apparatus 1000 further comprises: the seed file list display module is used for responding to the triggering operation of a user on an input interface and displaying a seed file list, wherein the seed file list comprises candidate seed files; and the first generation module is used for responding to the determination operation that the user determines the seed file from the seed file list, and generating seed file information, wherein the seed file information is used for indicating the seed file which is set by the user and corresponds to the design object.
Optionally, the apparatus 1000 further comprises: the seed file input interface display module is used for responding to the triggering operation of a user on the input interface and displaying a seed file input interface; and the second generation module is used for responding to the operation of inputting the seed file in the seed file input interface by the user and generating seed file information, wherein the seed file information is used for indicating the seed file which is set by the user and corresponds to the design object.
Therefore, according to the embodiment, when a first user who is a research and development designer has an editing requirement for editing a design object (i.e., a product or a part) on line, the first user only needs to perform a trigger operation on the design object on an operation interface displayed on the first terminal device, and the first terminal device generates a corresponding editing request in response to the trigger operation of the first user and sends the editing request to the on-line work system. Wherein the editing request contains related information of the design object and seed file information corresponding to the design object and set by a creator of the design object. After receiving the editing request from the first terminal device of the first user, the online working system can determine an application program for editing the design object from the plurality of application programs according to preset seed file mapping information, and send an application program interface image of the application program loaded with the design object to the first terminal device. The preset seed file mapping information is used for indicating the mapping relation between the plurality of application programs and the plurality of seed files. Therefore, in the mode, in the process of research and development and design of the designed object (product or part) by using the online working system each time, an engineer does not need to select a proper CAD software from a plurality of CAD software, the research and development and design time of the engineer is greatly saved, and the research and development and design efficiency of the product or part is effectively improved. Furthermore, the technical problem that in the process of online research and development and design of products or parts each time, an engineer needs to select a proper CAD software from a plurality of CAD software deployed in the cloud end in the prior art is solved, the research and development and design time of the engineer is greatly wasted, and the research and development and design efficiency of the products or the parts is seriously influenced.
Example 3
Fig. 11 shows an apparatus 1100 for matching an application to a design object according to the first aspect of the present embodiment, the apparatus 1100 corresponding to the method according to the first aspect of the embodiment 1. Referring to fig. 11, the apparatus 1100 includes: a first processor 1110; and a first memory 1120, coupled to the first processor 1110, for providing instructions to the first processor 1110 to process the following processing steps: receiving an editing request for requesting to edit the design object from a first terminal device of a first user, wherein the editing request is generated by the first terminal device in response to a trigger operation of the first user on an operation interface on the design object, and the editing request contains related information of the design object and seed file information corresponding to the design object and set by a creator of the design object, and the design object is a product and/or a part; determining an application program for editing the design object from the plurality of application programs according to preset seed file mapping information in response to the editing request, wherein the preset seed file mapping information is used for indicating a mapping relation between the plurality of application programs and the plurality of seed files; and sending the application program interface image of the application program loaded with the design object to the first terminal equipment.
Optionally, the creator of the design object is a first user, and the first memory 1120 is further configured to provide the first processor 1110 with instructions to process the following processing steps: receiving a creation request for creating a design object from a first terminal device, wherein the creation request is generated by the first terminal device in response to a triggering operation of a creation component by a first user on an operation interface, and the creation request contains basic information of the design object and seed file information corresponding to the design object and set by the first user; responding to the creation request, creating a design object, and binding the design object with the seed file corresponding to the seed file information; and transmitting data related to the design object to the first terminal device.
Optionally, the creator of the design object is a second user, the first user and the second user are both users associated with the design object, and the first memory 1120 is further configured to provide the first processor 1110 with instructions to process the following processing steps: receiving a creation request for creating the design object from a second terminal device of a second user, wherein the creation request is generated by the second terminal device in response to a trigger operation of the second user on an operation interface on the creation component, and the creation request contains basic information of the design object and seed file information corresponding to the design object and input by the second user; responding to the creation request, creating a design object, and binding the design object with the seed file corresponding to the seed file information; and sending data related to the design object to the second terminal device and the first terminal device.
Optionally, in response to the editing request, determining an operation of an application program for editing the design object from the plurality of application programs according to preset seed file mapping information, including: determining a target seed file corresponding to the design object from the plurality of seed files according to the seed file information corresponding to the design object contained in the editing request; and determining a target application program which has a mapping relation with the target seed file from the plurality of application programs according to preset seed file mapping information, and determining the target application program as the application program for editing the design object.
Optionally, the first memory 1120 is further configured to provide the first processor 1110 with instructions to process the following processing steps: receiving a setting request for setting corresponding seed files for a plurality of application programs from a third terminal device of a third user, wherein the setting request is generated by the third terminal device in response to a triggering operation of the third user on an operation interface on a setting component, and the setting request comprises relevant information of the plurality of application programs and the corresponding plurality of seed files; responding to the setting request, establishing a mapping relation between the plurality of application programs and the corresponding plurality of seed files, and generating seed file mapping information; and storing the torrent file mapping information.
Optionally, the first memory 1120 is further configured to provide the first processor 1110 with instructions to process the following processing steps: before sending an application program interface image of an application program loaded with a design object to a first terminal device for operation, starting the application program for editing the design object; and loading the design object with the application.
Furthermore, fig. 12 shows an apparatus 1200 for matching an application to a design object according to the second aspect of the present embodiment, which apparatus 1200 corresponds to the method according to the second aspect of embodiment 1. Referring to fig. 12, the apparatus 1200 includes: a second processor 1210; and a second memory 1220, connected to the second processor 1210, for providing the second processor 1210 with instructions to process the following steps: displaying an operation interface containing a design object, wherein the design object is a product and/or a part; generating an editing request in response to a triggering operation of a user on a design object on an operation interface, and sending the editing request to a system for managing the design object, wherein the editing request comprises related information of the design object and seed file information which corresponds to the design object and is set by a creator of the design object, the system is stored with seed file mapping information for indicating mapping relations between a plurality of application programs and a plurality of seed files in advance, and the editing request is used for indicating the system to determine an application program for editing the design object from the plurality of application programs according to the seed file information and the seed file mapping information; and receiving an application interface image of the application program loaded with the design object from the system, and displaying the application interface image.
Optionally, the second memory 1220 is further used for providing the second processor 1210 with instructions for processing the following processing steps: displaying an operation interface comprising a creation component, wherein the creation component is used for a user to create a design object by triggering operation; responding to the triggering operation of a user on the creation component, and displaying an input interface for inputting relevant information of the design object to be created; responding to the triggering operation of a user on an input interface, generating a creation request and sending the creation request to a system, wherein the creation request comprises basic information of a design object and seed file information corresponding to the design object; and receiving data related to the design object from the system.
Optionally, the second memory 1220 is further used for providing the second processor 1210 with instructions for processing the following processing steps: responding to a trigger operation of a user on an input interface, and displaying a seed file list, wherein the seed file list comprises candidate seed files; and generating seed file information in response to a determination operation that the user determines a seed file from the seed file list, wherein the seed file information is used for indicating the seed file corresponding to the design object and set by the user.
Optionally, the second memory 1220 is further used for providing the second processor 1210 with instructions for processing the following processing steps: responding to the triggering operation of a user on an input interface, and displaying a seed file input interface; and generating seed file information in response to the operation of inputting the seed file in the seed file input interface by the user, wherein the seed file information is used for indicating the seed file which is set by the user and corresponds to the design object.
Therefore, according to the embodiment, when a first user who is a research and development designer has an editing requirement for editing a design object (i.e., a product or a part) on line, the first user only needs to perform a trigger operation on the design object on an operation interface displayed on the first terminal device, and the first terminal device generates a corresponding editing request in response to the trigger operation of the first user and sends the editing request to the on-line work system. Wherein the editing request contains related information of the design object and seed file information corresponding to the design object and set by a creator of the design object. After receiving the editing request from the first terminal device of the first user, the online working system can determine an application program for editing the design object from the plurality of application programs according to preset seed file mapping information, and send an application program interface image of the application program loaded with the design object to the first terminal device. The preset seed file mapping information is used for indicating the mapping relation between the plurality of application programs and the plurality of seed files. Therefore, in the mode, in the process of research and development and design of the designed object (product or part) by using the online working system each time, an engineer does not need to select a proper CAD software from a plurality of CAD software, the research and development and design time of the engineer is greatly saved, and the research and development and design efficiency of the product or part is effectively improved. Furthermore, the technical problem that in the process of online research and development and design of products or parts each time, an engineer needs to select a proper CAD software from a plurality of CAD software deployed in the cloud end in the prior art is solved, the research and development and design time of the engineer is greatly wasted, and the research and development and design efficiency of the products or the parts is seriously influenced.
The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.
In the above embodiments of the present invention, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.
In the embodiments provided in the present application, it should be understood that the disclosed technology can be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one type of division of logical functions, and there may be other divisions when actually implemented, for example, a plurality of units or components may be combined or may be integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, units or modules, and may be in an electrical or other form.
The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.
In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.
The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic or optical disk, and other various media capable of storing program codes.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.