CN117519881A - Icon generating method, electronic device and computer storage medium - Google Patents

Abstract

The embodiment of the application provides an icon generating method, electronic equipment and a computer storage medium, wherein the icon generating method comprises the following steps: receiving triggering operation for adjusting batch appearance of a plurality of icons in a preset platform, and acquiring target appearance attribute information of the icons according to the triggering operation; generating an icon generating request for carrying out batch appearance adjustment on the icons according to the target appearance attribute information so as to generate a plurality of new icons matched with the target appearance attribute information; and acquiring and displaying a plurality of new icons returned according to the icon generation request, wherein the new icons are generated on the basis of the line icons respectively corresponding to the icons, and the generated plurality of new icons are matched with the target appearance attribute information. According to the method and the device for adjusting and generating the icons in batches, the icons are adjusted and generated in batches, and icon adjusting and generating efficiency is improved.

Description

Icon generating method, electronic device and computer storage medium

Technical Field

The embodiment of the application relates to the technical field of computers, in particular to an icon generating method, electronic equipment and a computer storage medium.

Background

An icon is a graphical symbol with meaning that, as platform class tools develop, a large number of applications are typically integrated in tools such as application platforms, work platforms, etc., including but not limited to a large number of official applications, third party applications, self-built applications of platforms, etc.

Currently, most applications in a platform are provided with application icons by service providers, and the appearance of the icons provided by different service providers is also completely different, for example, the styles, hues, etc. of the icons are different. Therefore, the icons on the whole platform have no uniform appearance presenting effect, and the requirements of the platform on the consistency and the attractiveness of icon display are not met. To solve this problem, many of these platform tools use manual adjustment of icons. That is, either the platform-compliant icons are regenerated for the application manually, or the manual rendering adjustments are made based on the original icons.

However, by the manual adjustment mode, on one hand, the icon generation cost is high, and batch generation of icons is difficult to realize; on the other hand, in the specific adjustment process, the manual operation is limited, and it is difficult to keep consistency of the overall presentation effect of the adjusted icon.

Disclosure of Invention

In view of the foregoing, embodiments of the present application provide an icon generating scheme to at least partially solve the above-mentioned problems.

According to a first aspect of an embodiment of the present application, there is provided an icon generating method, including: receiving triggering operation for adjusting batch appearance of a plurality of icons in a preset platform, and acquiring target appearance attribute information of the icons according to the triggering operation; generating an icon generating request for carrying out batch appearance adjustment on the icons according to the target appearance attribute information so as to generate a plurality of new icons matched with the target appearance attribute information; and acquiring and displaying a plurality of new icons returned according to the icon generation request, wherein the new icons are generated on the basis of the line icons respectively corresponding to the icons, and the generated plurality of new icons are matched with the target appearance attribute information.

According to a second aspect of embodiments of the present application, there is provided another icon generating method, including: receiving an icon generation request, wherein the icon generation request is used for requesting batch appearance adjustment of a plurality of icons; obtaining information of the icons and target appearance attribute information corresponding to the icons according to the icon generation request; and obtaining line icons corresponding to the icons respectively, and generating a plurality of corresponding new icons matched with the target appearance attribute information according to the line icons.

According to a third aspect of embodiments of the present application, there is provided an electronic device, including: the device comprises a processor, a memory, a communication interface and a communication bus, wherein the processor, the memory and the communication interface complete communication with each other through the communication bus; the memory is configured to store at least one executable instruction that causes the processor to perform operations corresponding to the method according to the first aspect or the second aspect.

According to a fourth aspect of embodiments of the present application, there is provided a computer storage medium having stored thereon a computer program which, when executed by a processor, implements the method according to the first or second aspect.

According to the scheme provided by the embodiment of the application, aiming at the requirement that a large number of icons in a platform type tool need to be consistent in overall presentation effect, the same target appearance attribute information can be set for a plurality of icons to be adjusted, and corresponding icon generation requests are generated based on the same target appearance attribute information, so that an icon generation end can adjust the plurality of icons in batches according to the target appearance attribute information, and new icons with presentation effects of appearance attributes indicated by the target appearance attribute information are generated. And these new icons, when specifically generated, may be generated based on the line drawings corresponding to the original icons. Therefore, the generated new icon can meet the requirement of consistency of the overall presentation effect of the platform, completely different icons are generated without re-acquiring or organizing brand-new icon elements, and icon element information in the original icon is maintained, so that the icon is closer to meaning expression of the original icon. And the batch adjustment of the icons is automatically completed by the electronic equipment, so that compared with the traditional manual adjustment mode, the cost of the adjustment and the generation of the icons is greatly reduced, the batch adjustment and the generation of the icons are realized, and the efficiency of the adjustment and the generation of the icons is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the following description will briefly introduce the drawings that are required to be used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only some embodiments described in the embodiments of the present application, and other drawings may also be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic diagram of an exemplary system to which embodiments of the present application are applicable;

FIG. 2A is a flowchart illustrating steps of a method for generating icons according to a first embodiment of the present application;

FIG. 2B is a schematic diagram of an example of a scenario in the embodiment shown in FIG. 2A;

FIG. 3A is a flowchart illustrating steps of an icon generating method according to a second embodiment of the present application;

FIG. 3B is a schematic diagram of an icon processing procedure of a diffusion model in the embodiment shown in FIG. 3A;

FIG. 3C is a schematic diagram of an example of a scenario in the embodiment shown in FIG. 3A;

fig. 4 is a schematic diagram of data interaction of an icon generating process according to a third embodiment of the present application;

fig. 5 is a schematic structural diagram of an electronic device according to a fourth embodiment of the present application.

Detailed Description

In order to better understand the technical solutions in the embodiments of the present application, the following descriptions will clearly and completely describe the technical solutions in the embodiments of the present application with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the embodiments of the present application shall fall within the scope of protection of the embodiments of the present application.

Embodiments of the present application are further described below with reference to the accompanying drawings of embodiments of the present application.

FIG. 1 illustrates an exemplary system to which embodiments of the present application may be applied. As shown in fig. 1, the system 100 may include a server 102, a communication network 104, and/or one or more user devices 106, which are illustrated in fig. 1 as a plurality of user devices. It should be noted that, in the embodiment of the present application, the user device 106 is implemented as a B-end user device, that is, a user device facing a merchant or an enterprise. Illustratively, the user device of the merchant or business providing the platform service may be provided. But not limited thereto, if the C-terminal user has similar requirements for batch icon adjustment generation, the user device 106 may also be implemented as a C-terminal user device, i.e., a personal user oriented user device.

The server 102 may be any suitable device for storing information, data, programs, and/or any other suitable type of content, including but not limited to distributed storage system devices, server clusters, computing cloud server clusters, and the like. In some embodiments, the server 102 may perform any suitable function. For example, in some embodiments, the server 102 may be used to generate an icon. In some embodiments, the server 102 may obtain the target appearance attribute information and the corresponding line icons for the plurality of icons according to the received icon generation request for performing batch appearance adjustment on the plurality of icons, and further generate a new icon according to the target appearance attribute information and the corresponding line icons. As an alternative example, in some embodiments, a diffusion model may be provided in the server 102 to generate icons using the diffusion model. As another example, in some embodiments, the server 102 may generate new icons for the plurality of original icons that satisfy the unified target appearance attribute through the diffusion model based on the line icons corresponding to the original icons. The line icons corresponding to the original icons are generated based on the target objects in the original icons. As another example, in some embodiments, an algorithm or a model for extracting a line of a target object in the icon may be further provided in the server 102, so as to perform line extraction on the target object in the original icon, thereby obtaining a corresponding line icon. However, the method is not limited thereto, and the server 102 may directly obtain the line icon corresponding to the original icon from the user device 106.

In some embodiments, the communication network 104 may be any suitable combination of one or more wired and/or wireless networks. For example, the communication network 104 can include any one or more of the following: the internet, an intranet, a wide area network (Wide Area Network, WAN), a local area network (Local Area Network, LAN), a wireless network, a digital subscriber line (Digital Subscriber Line, DSL) network, a frame relay network, an asynchronous transfer mode (Asynchronous Transfer Mode, ATM) network, a virtual private network (Virtual Private Network, VPN), and/or any other suitable communication network. The user device 106 can be coupled to the communication network 104 via one or more communication links (e.g., communication link 112), and the communication network 104 can be linked to the server 102 via one or more communication links (e.g., communication link 114). The communication link may be any communication link suitable for transferring data between the user device 106 and the server 102, such as a network link, a dial-up link, a wireless link, a hardwired link, any other suitable communication link, or any suitable combination of such links.

User device 106 may include any one or more user devices capable of providing an interface and icon presentation for platform class tools, as well as interacting with a user through an interactive interface. In some embodiments, the user device 106 may obtain the target appearance attribute information for the plurality of icons after receiving a trigger operation for batch appearance adjustment for the plurality of icons; further, according to the target appearance attribute information, a corresponding icon generation request is generated to request the server 102 to generate new icons matched with the target appearance attribute information in batches based on the line icons corresponding to the plurality of icons; and, the new icon returned by the server 102 is received and then displayed. It can be seen that the new icon presented by the user device 106 will have uniform target appearance attributes. In some embodiments, user device 106 may comprise any suitable type of device. For example, in some embodiments, user device 106 may include a mobile device, a tablet computer, a laptop computer, a desktop computer, and/or any other suitable type of user device.

Based on the above system, the following describes the solutions provided by the embodiments of the present application through a plurality of embodiments.

Example 1

The present embodiment describes an icon generating method provided in the embodiment of the present application from the viewpoint of a requester for icon generation.

Referring to fig. 2A, a flowchart of steps of an icon generating method according to a first embodiment of the present application is shown. The icon generating method of the present embodiment includes the steps of:

step S202: and receiving triggering operation for adjusting the appearance of a plurality of icons in a preset platform in batches, and acquiring target appearance attribute information for the plurality of icons according to the triggering operation.

In the embodiment of the present application, the "preset platform" is used to refer to a platform provided by a platform class tool. Generally, such platforms will integrate a large number of icons, and in the embodiments of the present application, "multiple icons" are used to express a larger number of icons on the platform. The number of "plural", and "plural", etc. in relation to "multiple", means at least two in the embodiments of the present application.

Because multiple icons may be from an official, or third party, or self-created for a platform, their presentation effects such as style, hue, etc. may not be uniform. In order to quickly adjust the icons on the platforms to the icons meeting the platform requirements and having the consistent presentation effect, in the embodiment of the present application, an option for triggering the adjustment of the batch appearance of the plurality of icons may be set on the preset platform, and when the option is triggered or selected, the preset platform is considered to receive the triggering operation for performing the batch appearance adjustment on the plurality of icons thereof.

The plurality of icons may be all icons in the preset platform, or icons displayed in a current interface of the preset platform, or icons displayed in a current visible area, and so on. However, the present invention is not limited thereto, and a corresponding selection option, such as a selection mark, may be set for each icon for the user to perform a selection operation. In this case, the plurality of icons may be icons selected by the user. But not limited thereto, other ways of determining the plurality of icons to be appearance adjusted are equally applicable to the solutions of the embodiments of the present application.

After receiving a trigger operation for performing batch appearance adjustment on a plurality of icons, target appearance attribute information for the plurality of icons can be acquired according to the trigger operation. The target appearance attribute information is used for indicating attributes, such as styles, hues and the like, which are required to be presented in appearance, of a plurality of icons, wherein the icons have uniform target appearance attribute information. For example, having a uniform appearance style, a uniform hue, and the like.

In one possible manner, in order to facilitate the user in selecting or setting the target appearance attribute information, a man-machine interaction interface, such as an icon appearance adjustment interface, may be provided for the user to operate. In this case, the above-described acquisition of the target appearance attribute information for the plurality of icons according to the trigger operation may be implemented as: according to the triggering operation, displaying an icon appearance adjusting interface, wherein at least one of the following setting options is displayed in the icon appearance adjusting interface: icon style setting, icon color setting, icon shape setting, icon theme setting, and icon belonging field setting; further, an input operation for the setting option is received, and target appearance attribute information for a plurality of icons is acquired according to an operation result of the input operation.

Wherein the icon style setting is used for setting a design style possessed by the icon. For the same icon element, the style is different, and the presentation effect of the icon element is also different. Exemplary icon styles include, but are not limited to: light acrylic style, conciseness style, frosted glass texture style, linear style, gradual change style, and the like. In the embodiment of the present application, the icon style is not particularly limited.

Icon color settings are used to set the overall hue of the icon, including but not limited to: red, green, blue, orange, yellow, cyan, violet, random, etc. But are not limited thereto, other more or sub-divided colors are also suitable for use in the embodiments of the present application.

The icon shape is provided for setting the outline shape of the icon, such as square, round, rounded rectangle, and the like.

Icon theme settings are used to set theme concepts that icon elements in an icon have, such as business theme, school theme, leisure theme, and so forth.

The field to which the icon belongs is set for setting the field to which the icon belongs, and based on the field, elements in the icon can be adjusted to elements conforming to the regular figures of the field. For example, if the icon has a character image of a jacket, the jacket may be a white coat if the icon is arranged in the medical field; if the icon belongs to the field of catering, the jacket can be chef clothes, and the like.

Through the icon appearance adjustment interface, a user can select or input a required setting according to actual requirements, and the preset platform can acquire target appearance attribute information set by the user for a plurality of icons according to operation results of selection operation or input operation of the user.

Step S204: and generating an icon generating request for performing batch appearance adjustment on the plurality of icons according to the target appearance attribute information so as to generate a plurality of new icons matched with the target appearance attribute information.

After the target appearance attribute information is obtained, an icon generation request may be generated to request batch appearance adjustment for the plurality of icons. Alternatively, the target appearance attribute information may be carried in the icon generation request.

However, in some cases, the number of icons that need to be adjusted in batch appearance may be large, in order to ensure smooth adjustment and reduce the burden of network transmission and data processing, in one possible manner, before step S204, corresponding icon adjustment tasks may be respectively established for the plurality of icons, and task slicing may be performed on the icon adjustment tasks according to the number of the plurality of icons, so as to obtain a plurality of corresponding icon adjustment subtasks. The icon-adjusting subtasks may be subsequently executed in parallel or sequentially. When the parallel execution mode is adopted, the efficiency of batch appearance adjustment can be effectively improved. The specific number of icons required for task slicing may be set by those skilled in the art according to actual needs, which is not limited in the embodiments of the present application.

On the basis of the task slicing, this step S204 may be implemented as: and respectively generating corresponding icons for the plurality of icon adjustment subtasks according to the target appearance attribute information, and performing batch appearance adjustment on the icons corresponding to the icon subtasks so as to generate an icon generation request of a new icon matched with the target appearance attribute information. That is, the icon generating request corresponds to the number of sub-tasks, and thus, the icon generating end, such as the server 102, can directly obtain information of a plurality of icons corresponding to the sub-tasks according to the icon generating request corresponding to the sub-tasks, and further process the information. Compared with the mode that all subtasks correspond to one icon generation request, the mode that one subtask corresponds to one icon generation request is adopted, specific information in the icon generation request does not need to be additionally stored, and the stored specific information does not need to be accessed when batch icon adjustment is carried out each time, so that storage space is saved, and batch icon adjustment efficiency is improved.

Step S206: and acquiring and displaying a plurality of new icons returned according to the icon generation request.

The plurality of new icons are generated based on the line icons corresponding to the plurality of icons respectively and are matched with the target appearance attribute information.

In a possible manner, a local device, such as the user device 106 executing the embodiment, may generate corresponding line icons for a plurality of icons respectively, and send the line icons to an icon generating end, such as the server 102, where the server 102 generates new icons corresponding to the target appearance attribute information based on the line icons. In this way, at any time after the target appearance attribute information for the plurality of icons is acquired in step S202 and before the execution of the present step, the target object in the plurality of icons may be subjected to line extraction, and a plurality of line icons corresponding to the plurality of icons respectively may be obtained according to the line extraction result. By means of the line icons, textures and main frameworks of the original icons are reserved, and the new icons generated later can still express the meaning of the original icons to be expressed. And the line icon is generated by the local equipment, so that the data processing burden of the subsequent server can be effectively reduced.

Optionally, after this step, the line icons corresponding to the generated original icons may be uploaded to a server, such as the server 102, so that the server generates a plurality of new icons matching the target appearance attribute information according to the icon generating request and the line icons.

However, the present invention is not limited thereto, and the local device may upload the original icon to the server 102, and the server may generate a line icon corresponding to the original icon, and further generate a new icon matching the target appearance attribute information based on the line icon.

In one possible approach, generating the corresponding line icons based on the original icon may be implemented by a machine learning model for image line extraction, including but not limited to various convolutional neural network models, and the like. Illustratively, a control net model implementation can be employed. The control net model may be used in conjunction with a subsequent machine learning model for generating new icons, where the control net model is used to control the composition, for example, in the embodiment of the present application, the composition is controlled by the generated line icon, and the machine learning model for generating new icons may take the line icon as input, and generate new icons with a certain style and/or tone on the basis of the line icon, that is, generate new icons that match the target appearance attribute information. In this way, the machine learning model for generating the new icon can generate the new icon according to the framework and meaning expression of the original icon, and the controllability and the accuracy of the generation of the new icon are improved.

The machine learning model described above for generating the new icon may be any suitable model capable of generating a new image based on an image, including but not limited to a convolutional neural network model, an antagonistic network model, a diffusion model, and so forth. Illustratively, stable Diffusion (steady Diffusion model) is employed in the embodiments of the present application. Stable Diffusion is a Diffusion model that generates images based on text or images based on images. In the embodiment of the application, a function of generating an image based on an image is used, a line icon is used as an input, and target appearance attribute information is used as a guide condition, so that a new icon conforming to the appearance attribute indicated by the target appearance attribute information is generated. The guiding condition can be applied to each node or part of nodes of the diffusion model inverse denoising generating icon to guide the icon generated by the node to be as close as possible to the appearance attribute indicated by the target appearance attribute. Thus, the appearance presentation of the finally generated new icon may be consistent with the appearance attribute indicated by the target appearance attribute information.

After the new icon is obtained, replacement display can be performed.

In order to ensure that the new icon can better meet the platform requirement and the user requirement, improve the flexibility of icon adjustment, and promote the user experience, in one possible manner, acquiring and displaying a plurality of new icons returned according to the icon generation request can be realized as: acquiring a plurality of new icons returned according to the icon generation request; displaying a plurality of new icons and selection options corresponding to the new icons in a preview interface; and determining the new icon selected by selecting the option as a valid icon, replacing the corresponding original icon in the icons by using the valid icon, and displaying the replaced icon. In the mode, after the new icons are received, the new icons are not directly replaced and displayed, but are previewed in advance by a user through the preview interface, and on the basis, the user can select the new icons used for replacing the original icons, namely the effective icons, from a plurality of new icons according to the requirements, so that replacement and display are performed, and the flexibility and interactivity of icon replacement are greatly improved.

Through the above-mentioned process of the embodiment, for the requirement that a large number of icons in the platform tool need to have consistency of overall presentation effect, the same target appearance attribute information can be set for a plurality of icons to be adjusted, and based on the same, a corresponding icon generation request is generated, so that the icon generation end performs batch adjustment for the plurality of icons according to the target appearance attribute information, so as to generate new icons each having presentation effect of appearance attribute indicated by the target appearance attribute information. And these new icons, when specifically generated, may be generated based on the line drawings corresponding to the original icons. Therefore, the generated new icon can meet the requirement of consistency of the overall presentation effect of the platform, completely different icons are generated without re-acquiring or organizing brand-new icon elements, and icon element information in the original icon is maintained, so that the icon is closer to meaning expression of the original icon. And the batch adjustment of the icons is automatically completed by the electronic equipment, so that compared with the traditional manual adjustment mode, the cost of the adjustment and the generation of the icons is greatly reduced, the batch adjustment and the generation of the icons are realized, and the efficiency of the adjustment and the generation of the icons is improved.

In addition, in one possible approach, in addition to batch appearance adjustments to icons on a preset platform, the appearance presentation of one or more interfaces on the platform may be adjusted. For example, before receiving a trigger operation for performing batch appearance adjustment on a plurality of icons in a preset platform, a platform setting interface of the preset platform may be displayed, where at least one of the following setting options is displayed in the platform setting interface: platform theme style settings, platform layout settings, and icon appearance batch adjustment settings. The icon generating method of the present embodiment may further include: and generating a platform interface of a preset platform according to the acquired multiple new icons and input information set for the theme style of the platform and/or input information set for the layout of the platform.

The platform theme style sets theme concepts for setting a platform interface, such as business theme, leisure theme, and the like. In the case where an icon theme is provided for an icon, the platform theme and the icon theme may be the same or different, but if different, the advice is both aesthetically compatible.

The platform layout is used for setting the sizes and the arrangement of all the components in the platform interface, so that the platform interface can effectively display interface contents, such as display icons and the like, and has attractive effect.

Through the arrangement of the interface aiming at the platform, the control can be performed on the whole display effect of the interface, so that the display requirement of the platform is met.

Hereinafter, the above-described process will be exemplarily described using one work platform as a scene example, as shown in fig. 2B.

In fig. 2B, assuming that the user clicks a setting button in the front page of the work platform (as shown by the shape of the gear in the upper right corner of the first picture in the drawing), a platform setting interface (as shown in fig. 2) is entered in which not only are setting options for icon appearance batch adjustment settings (as shown by "icon setting" in fig. 2), but also setting options for setting the platform interface, which in this example is illustrated as a platform theme style device (as shown by "theme setting" in fig. 2) and a platform layout setting (as shown by "layout setting" in fig. 2). In the following, a focus is given on the icon appearance batch adjustment setting therein.

After the user clicks the setting option of "icon setting" in fig. 2, the interface of fig. 3 is displayed, and through the setting in the interface, the target appearance attribute information for a plurality of icons on the platform can be generated. As can be seen in figure 3, the arrangement comprises: the icon style setting (illustrated as a plurality of style icons under "select icon style", the icon style selected in this example is "light-transmitting acryl"), the icon color setting (illustrated as a plurality of color icons under "select color", the color selected in this example is "random"), and the icon shape setting, the icon theme setting, and the icon belonging field setting (illustrated as an input box under "input keyword", the corresponding specific settings are "square", "business theme" and "car industry", respectively, in this example, but it should be apparent to those skilled in the art that these three settings may be set not only by manually inputting text, but also by displaying selectable items for the user to click on, or other suitable means, etc.). After the user completes the setting of the corresponding setting option in the interface, the user can click on an "immediately generate" button below the interface.

In this example, it is assumed that after the user clicks the "generate immediately" button, the workbench will perform line extraction on multiple original icons on the workbench in the background, so as to generate line icons corresponding to the original icons. And the working platform also generates an icon generating request according to the target appearance attribute information set by the previous user and sends the icon generating request to the server. After the server receives the icon generating request, a plurality of line icons are acquired from the working platform, and a plurality of new icons are generated based on the line icons and the target appearance attribute information carried in the icon generating request, wherein the appearance of the new icons is consistent with the appearance attribute indicated by the target appearance attribute information. And when the server generates the new icon, the working platform synchronizes the generation progress of the new icon in real time, and displays the progress in the interface for displaying the original icon currently, so that the user can know the generation condition of the new icon conveniently (as shown in the 4 th figure in fig. 2B).

After the new icons are generated and returned to the working platform, the working platform is not directly replaced, but the new icons are displayed through the preview interface (as shown in fig. 2B, 5). And, a selection setting is further provided at the corresponding position of each new icon, such as a circle under each new icon in fig. 5, which can be checked. The user can select the new icon displayed in the preview interface according to the actual requirement so as to facilitate the subsequent replacement. If the user is not satisfied with the new icon, the user can also return to the interface shown in the figure 3 to reset the interface until the satisfied effect is achieved.

The 5 th picture is also provided with a button for replacing the current icon, and after the completion of the hook, the user clicks the button to enter the interface shown in the 6 th picture.

In figure 6, controls for confirming replacement (e.g., floating window controls, etc.) are shown, provided with "replace" and "cancel" options. When the user clicks the "replace" option, the corresponding original icon will be replaced by the new icon that the user has hooked.

Therefore, through the example, the batch appearance adjustment of the icons on the working platform is realized, so that the icons on the working platform are more uniform in style and tone, the styles and scenes of the working platform are met, and the appearance presentation effect of the icons on the working platform is more consistent. The defects that the icons of the traditional working platform are different, so that visual confusion is caused, and the style and the tone of the working platform cannot be reflected are effectively overcome.

Example two

The present embodiment describes an icon generating method provided in the embodiment of the present application from the viewpoint of an icon generating party.

Referring to fig. 3A, a flowchart illustrating steps of an icon generating method according to a second embodiment of the present application is shown. The icon generating method of the present embodiment includes the steps of:

step S302: an icon generation request is received.

Wherein the icon generation request is for requesting batch appearance adjustment of the plurality of icons. The plurality of icons may be, for example, a plurality of icons in a preset platform.

In one possible manner, the icon generating request carries the target appearance attribute information, but the icon generating request is not limited to this, and in practical application, the icon generating request may be just a simple request, and after receiving the request, the icon generating party, such as the server 102, requests the target appearance attribute information from the request sender, such as the user equipment 106.

Further optionally, the icon generating request may further carry information of a plurality of icons to be subjected to batch appearance adjustment, but similar to the foregoing, the server 102 may request the information of a plurality of icons from the user device 106 after receiving the icon generating request.

But in either way, it is applicable to the solutions of the embodiments of the present application.

Step S304: and obtaining information of the icons and target appearance attribute information corresponding to the icons according to the icon generation request.

The information of the plurality of icons may be the icons themselves or addresses where the icons are located, and then the server 102 obtains the plurality of icons according to the addresses.

The target appearance attribute information corresponding to the plurality of icons may be information as described in embodiment one, that is, includes at least one of the following: icon style information, icon color information, icon shape information, icon theme information, and icon belonging field information. The above information may refer to the icon style setting, the icon color setting, the icon shape setting, the icon theme setting, and the icon belonging field setting corresponding to the first embodiment, that is, the information generated by these settings, and the specific meaning thereof will not be described herein.

Step S306: and obtaining line icons corresponding to the icons respectively.

In this embodiment, the line icon may be obtained in two ways, namely: generated by an icon generating party, such as the server 102, from the acquired plurality of icons, or obtained from an icon generating request sender, such as the user device 106.

When the line icon is generated by the server 102, the server 102 may perform line extraction on the target object in the plurality of icons, and generate a plurality of line icons corresponding to the plurality of icons according to the result of line extraction. For example, a control net may be used to perform line extraction on the target object to obtain a plurality of line icons corresponding to a plurality of original icons.

When the line icons are generated by the user device 106, the server 102 may directly obtain the line icons corresponding to the plurality of icons from the sending end of the icon generation request, that is, the user device 106.

In one possible manner, in order to ensure the accuracy of line icon generation, when the server 102 generates the line icon, target object detection may be performed on the obtained multiple icons to obtain information of target objects in the multiple icons; and respectively carrying out line extraction on the target object in the plurality of icons according to the information of the target object so as to generate a plurality of line icons corresponding to the plurality of icons according to the line extraction result.

For example, the target object in the original icon is detected by any suitable target detection model, including but not limited to CNN, R-CNN, YOLO, etc., and the detection result, such as a detection frame or a boundary line of the target object, etc., is output. On the basis, a model for line extraction, including but not limited to control net and the like, is used for line extraction based on the detection result, and then a line icon is generated. However, as described above, the manner of generating the line icons directly from the original icon is also applicable to the solution of the embodiment of the present application.

Step S308: and generating a plurality of corresponding new icons matched with the target appearance attribute information according to the line icons.

Illustratively, this step may generate a new icon based on the line icon through a Diffusion model, such as the Stable Diffusion model. In this way, the target appearance attribute information may be used as a guiding condition of the Diffusion model, a plurality of line icons are sequentially input into the Diffusion model for generating an image, such as a Stable Diffusion model, and a plurality of corresponding new icons matched with the target appearance attribute information are generated through the Diffusion model. By means of the diffusion model and the guide condition, the appearance of the generated new icon can be enabled to be more consistent with and consistent with the appearance attribute indicated by the target appearance attribute information.

The diffusion model is one of image generation models that learns information attenuation due to noise and then generates an image using the learned pattern. The diffusion model utilizes the image denoising of the forward process and the image denoising of the reverse process, and realizes the training of the model based on the difference between the denoised image and the original image. In the reasoning stage of the model, the image generation can be realized by directly utilizing the reverse process of the diffusion model. In this embodiment, a new icon is generated using this reverse process. Wherein the number of steps of the reverse process is defined by the subscript T and there is a predefined total number of steps T (e.g. 1000, for example). In the reverse process, the number of steps is from T to 0, the line icons are gradually denoised through a diffusion model when t=T, new icons are generated through reconstruction, and the new icons are obtained when t=0.

An exemplary new icon generation process for diffusion model is shown in fig. 3B, where it can be seen that a line icon (X _T Nodes), sequentially performing denoising reconstruction processing through a plurality of nodes until t=0 (X) ₀ Nodes) a new icon is generated. In addition, in the denoising reconstruction process of each node, the target appearance attribute information is used as a guide condition to guide the denoising reconstruction process of the nodeThereby making the icon of the next node closer to the appearance attribute indicated by the target appearance attribute information.

In this embodiment, in order to improve the efficiency of the setting of the guiding condition and the overall efficiency of the generation of the new icon, in one possible manner, the diffusion model may be encapsulated, and the diffusion model may have an outbound call interface. The target appearance attribute information may also be received through the call interface and set as a guide condition for the diffusion model before the plurality of line icons are sequentially input for generating the diffusion model of the image using the target appearance attribute information as a guide condition.

Hereinafter, the above-described process will be exemplarily described with a specific scenario as shown in fig. 3C.

In fig. 3C, assuming that the server 102 receives an icon generating request, and determines that batch appearance adjustment is to be performed for 10 icons according to the request, the server 102 will first acquire the 10 icons and the corresponding target appearance attribute information thereof. In this example, assuming that 10 icons are all live image icons, the target appearance attribute information includes: natural style, white tone, square icon.

For ease of illustration, only one icon is described below as an example, and those skilled in the art will appreciate that other icons of the 10 icons may be processed in this example manner.

As shown in fig. 3C, the original image is marked as a white background square icon containing a character, which is bluish, which needs to be adjusted to a natural style, white-colored square icon according to the target appearance attribute information. The server 102 will input the character into the ControlNet model to extract the line of the character, and generate the corresponding line icon accordingly. Then, the line icon is input into a Stable distribution model, which sets the target appearance attribute information as a guide condition of the model after receiving it. And after the line icon is input into the Stable distribution model, each node uses the target appearance attribute information as a guide condition, and denoising reconstruction processing is carried out on the line icon until a new icon meeting the appearance attribute indicated by the target appearance attribute information is finally generated.

Further, after 10 icons are processed and generated as new icons, the 10 new icons are returned to the user device 106.

Therefore, through the method and the device, the icons can be adjusted according to the appearance attribute indicated by the target appearance attribute information and the unified appearance attribute, so that quick and batch icon generation of the unified appearance presentation effect is realized.

Example III

The icon generating process in the embodiment of the present application is described in terms of interaction between the user equipment and the server.

Referring to fig. 4, a data interaction diagram of an icon generating process according to a third embodiment of the present application is shown. The data interaction includes:

process 1: the front end of the work platform triggers creation of icon generating tasks for a plurality of icons.

For example, after the user completes the setting of the target appearance attribute information, a trigger operation, such as a click operation, is performed on the setting for indicating the batch appearance setting, such as a generate button, and the user device 106, upon receiving the operation, may trigger an operation of creating an icon generating task for a plurality of icons.

Process 2: the back-end engineering module of the working platform calls a service on the working platform for processing the icon generating task.

The engineering module is a functional module responsible for tasks and algorithm processing in the equipment where the working platform is located, such as the background of the user equipment 106.

Process 3: and carrying out pre-processing on the icon generating task through the called service.

Wherein, the preliminary treatment includes: task preprocessing, storing, scheduling, submitting execution, etc.

Process 4: and fragmenting the icon generating task through the called service.

Through the operation, a plurality of icon generating subtasks are obtained, each subtask processes different icons, the icons to be processed of each subtask are also a plurality of, and the icons to be processed of different subtasks are different.

Process 5: and aiming at each subtask after segmentation, acquiring an icon corresponding to the subtask.

Such as a base64 format icon.

Process 6: and extracting lines from the icons corresponding to the subtasks through a control Net model to generate corresponding line icons.

In this embodiment, the control net model for generating the line icon is set in the device side where the working platform is located, such as the user device 106, and then the engineering module may call the control net model to perform operations of line extraction and line icon generation. The generated line icon can be used as an initial icon of a Stable diffration model which is subsequently arranged at the server, namely an input icon.

Process 7: basic parameters are set for the Stable diffration model, and are assembled with the parameters and configuration of the ControlNet model.

For example, the data fields or the data packets are assembled into corresponding data fields or data packets, so that the subsequent Stable diffration model generates icons according to the information. In fig. 4, the Stable dispersion model is simply denoted as "SD".

Process 8: and calling a Stable diffration model of the server through an asynchronous http interface.

For example, a Stable diffration model in an algorithm module of the server is called through an asynchronous http interface.

Process 9: and returning the information of the calling interface of the Stable diffration model through the asynchronous http interface.

Process 10: and the engineering module uploads the line icon of the icon corresponding to the subtask to the server and receives the returned new icon.

Because of the interface call, the device where the work platform is located, such as user device 106, is as if the interface call was made locally and the return data was received.

Process 11: and storing the task process data of the subtask execution process and the regenerated new icon corresponding to the subtask into a corresponding database DB respectively.

And the processes 5-11 are circularly executed until all the subtasks are executed.

Process 12: and the engineering module sends an icon generating message to the working platform through the message queue.

The message queue may be set in the device where the working platform is located or may be set in the server device, for this purpose, in this example, it is listed singly, but in practical application, a person skilled in the art may set it on any one of the two devices according to the actual requirement. In this example, the message queue is set to the device where the work platform is located.

After the icon generating message is sent to the message queue, it is stored in the message queue to wait for being processed.

Process 13: the message queue fetches the icon to generate a message for processing by the engineering module.

Process 14: and the engineering module sends the corresponding new icon to the front end of the working platform according to the processing result of the icon generation message so as to preview the generated new icon.

Process 15: after the user selects the new icon for preview, the engineering module stores the selected new icon, namely the effective icon.

Process 16: the engineering module sends a valid icon replacement message to the message queue.

Similar to the foregoing, the active icon replacement message is sent to the message queue to await execution.

Process 17: the message queue fetches the valid icon replacement message to enable the engineering module to process.

Process 18: and the engineering module sends the effective icon to the front end of the working platform according to the processing result of the effective icon replacement message so as to preview again.

Process 19: the active icon is validated.

For example, the user may confirm icon replacement to validate the active icon through a corresponding confirmation option presented in the interface at the front end of the work platform.

Process 20: and the engineering module generates the effective icon to the corresponding working platform interface.

Process 21: and feeding back information of successful icon replacement to the front end of the working platform.

Through the embodiment, the whole process of adjusting the appearance of the icons in batches is described, and through the process, a plurality of icons can be adjusted according to the uniform appearance attribute, so that the icon generation of the uniform appearance presentation effect in batches is realized, and the requirement of consistency of the appearance presentation effect of the icons of a working platform with a large number of icons is effectively met.

Example IV

Referring to fig. 5, a schematic structural diagram of an electronic device according to a fourth embodiment of the present application is shown, and the specific embodiments of the present application do not limit the specific implementation of the electronic device.

As shown in fig. 5, the electronic device may include: a processor 502, a communication interface (Communications Interface) 504, a memory 506, and a communication bus 508.

Wherein:

processor 502, communication interface 504, and memory 506 communicate with each other via communication bus 508.

A communication interface 504 for communicating with other electronic devices or servers.

The processor 502 is configured to execute the program 510, and may specifically perform relevant steps in the above-described method embodiments.

In particular, program 510 may include program code including computer-operating instructions.

The processor 502 may be a CPU, or GPU (Graphic Processing Unit, graphics processor), or specific integrated circuit ASIC (Application Specific Integrated Circuit), or one or more integrated circuits configured to implement embodiments of the present application. The one or more processors comprised by the smart device may be the same type of processor, such as one or more CPUs; but may also be different types of processors such as one or more CPUs and one or more ASICs.

A memory 506 for storing a program 510. Memory 506 may comprise high-speed RAM memory or may also include non-volatile memory (non-volatile memory), such as at least one disk memory.

The program 510 may include a plurality of computer instructions, and the program 510 may specifically enable the processor 502 to perform operations corresponding to the methods described in any of the foregoing method embodiments.

The specific implementation of each step in the program 510 may refer to the corresponding steps and corresponding descriptions in the units in the above method embodiments, and have corresponding beneficial effects, which are not described herein. It will be clear to those skilled in the art that, for convenience and brevity of description, specific working procedures of the apparatus and modules described above may refer to corresponding procedure descriptions in the foregoing method embodiments, which are not repeated herein.

The present application also provides a computer storage medium having stored thereon a computer program which, when executed by a processor, implements the method described in any of the foregoing method embodiments. The computer storage media includes, but is not limited to: a compact disk read Only (Compact Disc Read-Only Memory, CD-ROM), random access Memory (Random Access Memory, RAM), floppy disk, hard disk, magneto-optical disk, or the like.

Embodiments of the present application also provide a computer program product comprising computer instructions that instruct a computing device to perform operations corresponding to any one of the above-described method embodiments.

In addition, it should be noted that, the information related to the user (including, but not limited to, user equipment information, user personal information, etc.) and the data related to the embodiment of the present application (including, but not limited to, sample data for training the model, data for analyzing, stored data, presented data, etc.) are information and data authorized by the user or sufficiently authorized by each party, and the collection, use and processing of the related data need to comply with the related laws and regulations and standards of the related country and region, and provide a corresponding operation entry for the user to select authorization or rejection.

It should be noted that, according to implementation requirements, each component/step described in the embodiments of the present application may be split into more components/steps, and two or more components/steps or part of operations of the components/steps may be combined into new components/steps, so as to achieve the purposes of the embodiments of the present application.

The above-described methods according to embodiments of the present application may be implemented in hardware, firmware, or as software or computer code storable in a recording medium such as a CD-ROM, RAM, floppy disk, hard disk, or magneto-optical disk, or as computer code originally stored in a remote recording medium or a non-transitory machine-readable medium and to be stored in a local recording medium downloaded through a network, so that the methods described herein may be processed by such software on a recording medium using a general purpose computer, a special purpose processor, or programmable or special purpose hardware such as an application specific integrated circuit (Application Specific Integrated Circuit, ASIC) or field programmable or gate array (Field Programmable Gate Array, FPGA). It is understood that a computer, processor, microprocessor controller, or programmable hardware includes a Memory component (e.g., random access Memory (Random Access Memory, RAM), read-Only Memory (ROM), flash Memory, etc.) that can store or receive software or computer code that, when accessed and executed by the computer, processor, or hardware, performs the methods described herein. Furthermore, when a general purpose computer accesses code for implementing the methods illustrated herein, execution of the code converts the general purpose computer into a special purpose computer for performing the methods illustrated herein.

Those of ordinary skill in the art will appreciate that the elements and method steps of the examples described in connection with the embodiments disclosed herein can be implemented as electronic hardware, or as a combination of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the embodiments of the present application.

The above embodiments are only for illustrating the embodiments of the present application, but not for limiting the embodiments of the present application, and various changes and modifications can be made by one skilled in the relevant art without departing from the spirit and scope of the embodiments of the present application, so that all equivalent technical solutions also fall within the scope of the embodiments of the present application, and the scope of the embodiments of the present application should be defined by the claims.

Claims (14)

1. An icon generating method, comprising:

receiving triggering operation for adjusting batch appearance of a plurality of icons in a preset platform, and acquiring target appearance attribute information of the icons according to the triggering operation;

Generating an icon generating request for carrying out batch appearance adjustment on the icons according to the target appearance attribute information so as to generate a plurality of new icons matched with the target appearance attribute information;

and acquiring and displaying a plurality of new icons returned according to the icon generation request, wherein the new icons are generated on the basis of the line icons respectively corresponding to the icons, and the generated plurality of new icons are matched with the target appearance attribute information.

2. The method of claim 1, wherein the obtaining target appearance attribute information for the plurality of icons according to the triggering operation comprises:

according to the triggering operation, displaying an icon appearance adjusting interface, wherein at least one of the following setting options is displayed in the icon appearance adjusting interface: icon style setting, icon color setting, icon shape setting, icon theme setting, and icon belonging field setting;

and receiving input operation aiming at the setting options, and acquiring target appearance attribute information aiming at the icons according to an operation result of the input operation.

3. The method according to claim 1 or 2, wherein,

before the triggering operation of performing batch appearance adjustment on the plurality of icons in the preset platform is received, the method further comprises: displaying a platform setting interface of the preset platform, wherein at least one of the following setting options is displayed in the platform setting interface: platform theme style settings, platform layout settings, and icon appearance batch adjustment settings;

The method further comprises the steps of: and generating a platform interface of the preset platform according to the acquired multiple new icons and the input information set for the theme style of the platform and/or the input information set for the layout of the platform.

4. The method according to claim 1 or 2, wherein,

after the target appearance attribute information for the plurality of icons is acquired according to the triggering operation, the method further comprises: extracting lines from the target object in the icons, and obtaining a plurality of line icons corresponding to the icons according to a line extraction result;

after generating the icon generation request for performing batch appearance adjustment on the plurality of icons according to the target appearance attribute information to generate a plurality of new icons matched with the target appearance attribute information, the method further comprises: uploading the line icons to a server, so that the server generates a request and the line icons according to the icon, and generates a plurality of new icons matched with the target appearance attribute information.

5. The method according to claim 1 or 2, wherein,

before generating the icon generation request for performing batch appearance adjustment on the plurality of icons according to the target appearance attribute information to generate a plurality of new icons matched with the target appearance attribute information, the method further comprises: respectively establishing corresponding icon adjustment tasks for the icons, and performing task segmentation on the icon adjustment tasks according to the number of the icons to obtain a plurality of corresponding icon adjustment subtasks;

Generating an icon generating request for performing batch appearance adjustment on the icons according to the target appearance attribute information to generate a plurality of new icons matched with the target appearance attribute information, wherein the icon generating request comprises the following steps: and generating corresponding icon generating requests for the plurality of icon adjusting subtasks respectively according to the target appearance attribute information, wherein the icon generating requests are used for carrying out batch appearance adjustment on icons corresponding to the icon subtasks so as to generate new icons matched with the target appearance attribute information.

6. The method according to claim 1 or 2, wherein the obtaining and presenting a plurality of new icons returned according to the icon generation request includes:

acquiring a plurality of new icons returned according to the icon generation request;

displaying the plurality of new icons and selection options corresponding to the new icons in a preview interface;

and determining the new icon selected by the selection option as a valid icon, replacing the corresponding original icon in the icons by using the valid icon, and displaying the replaced icon.

7. An icon generating method, comprising:

receiving an icon generation request, wherein the icon generation request is used for requesting batch appearance adjustment of a plurality of icons;

Obtaining information of the icons and target appearance attribute information corresponding to the icons according to the icon generation request;

and obtaining line icons corresponding to the icons respectively, and generating a plurality of corresponding new icons matched with the target appearance attribute information according to the line icons.

8. The method of claim 7, wherein the obtaining the line icons respectively corresponding to the plurality of icons includes:

performing line extraction on the target object in the icons, and generating a plurality of line icons corresponding to the icons according to a line extraction result;

or,

and obtaining the line icons respectively corresponding to the icons from the sending end of the icon generation request.

9. The method of claim 8, wherein the performing line extraction on the target object in the plurality of icons, and generating a plurality of line icons corresponding to the plurality of icons according to a line extraction result, includes:

detecting target objects of the icons to obtain information of the target objects in the icons;

and respectively extracting lines of the target objects in the icons according to the information of the target objects so as to generate a plurality of line icons corresponding to the icons according to the line extraction result.

10. The method according to any one of claims 7-9, wherein the generating a corresponding plurality of new icons matching the target appearance attribute information from the line icon includes:

and sequentially inputting a plurality of line icons into a diffusion model for generating images by taking the target appearance attribute information as a guide condition, and generating a plurality of corresponding new icons matched with the target appearance attribute information through the diffusion model.

11. The method of claim 10, wherein the diffusion model has an outbound call interface;

before the line icons are sequentially input into the diffusion model for generating the image under the condition that the target appearance attribute information is used as a guide condition, the method further comprises:

and receiving the target appearance attribute information through the calling interface, and setting the target appearance attribute information as a guide condition of the diffusion model.

12. The method of any of claims 7-9, wherein the target appearance attribute information comprises at least one of: icon style information, icon color information, icon shape information, icon theme information, and icon belonging field information.

13. An electronic device, comprising: the device comprises a processor, a memory, a communication interface and a communication bus, wherein the processor, the memory and the communication interface complete communication with each other through the communication bus;

the memory is configured to store at least one executable instruction that causes the processor to perform operations corresponding to the method of any one of claims 1-6 or 7-12.

14. A computer storage medium having stored thereon a computer program which, when executed by a processor, implements the method of any of claims 1-6 or 7-12.