CN114997105A - Design template, material generation method, computing device and storage medium - Google Patents

Abstract

The embodiment of the application provides a design template, a material generation method, computing equipment and a storage medium. In the embodiment of the application, a basic material picture is obtained, and a plurality of corresponding derivative material pictures are generated by converting according to the basic material picture; acquiring a plurality of arrangement modes of editable objects corresponding to the basic material picture on the basic material picture; and generating a plurality of design templates according to the plurality of derived material pictures and the corresponding plurality of arrangement modes. A plurality of design templates can be generated through a plurality of generated derived material pictures and a plurality of arrangement modes corresponding to editable objects, so that a plurality of design templates can be automatically generated, the diversity of the design templates is enriched, the design cost is reduced, and the design time is shortened.

Description

Design template, material generation method, computing device and storage medium

Technical Field

The present disclosure relates to the field of computer technologies, and in particular, to a method for generating a design template, a method for generating a material, a method for designing a poster, a method for designing a work card, a computing device, and a storage medium.

Background

Traditional product designs, such as poster designs, are usually designed by designers using local visual design tools (such as adobe, sketch, etc.), and in order to improve the design efficiency, designers can be assisted by design templates to complete the design more efficiently. Then, the "quality" and "quantity" of the design template ultimately determine the quality of the designed product. Whether external batch purchase or design template manufacturing is carried out, the template quality and quantity cannot be achieved with low cost and high efficiency, inconvenience in product design and use processes is caused, and the requirements of users (such as designers) cannot be fundamentally met.

Disclosure of Invention

Aspects of the present application provide a method of generating a design template, a method of generating a material, a method of designing a poster, a method of designing a work card, a computing device, and a storage medium, which are capable of improving the diversity of design templates.

The embodiment of the application provides a method for generating a design template, which comprises the following steps: acquiring a basic material picture, and converting according to the basic material picture to generate a plurality of corresponding derivative material pictures; acquiring a plurality of arrangement modes of editable objects corresponding to the basic material picture on the basic material picture; and generating a plurality of design templates according to the plurality of derived material pictures and the corresponding plurality of arrangement modes.

The embodiment of the present application further provides a method for generating a material, including: drawing a basic material picture, and acquiring drawing parameters for drawing the basic material picture; and adjusting the drawing parameters, and generating a plurality of corresponding material pictures as the derived material pictures according to the adjusted drawing parameters.

The embodiment of the present application further provides a method for generating a design template, including: providing a design interface of a design object; responding to selection operation of a user, selecting a group of design templates on a design interface, wherein the group of design templates consists of a plurality of design templates, displaying the group of design templates selected by the user on the design interface, generating the plurality of design templates according to a plurality of derived material pictures and a plurality of arrangement modes of editable objects on the corresponding basic material pictures, and generating the plurality of derived material pictures by conversion according to the corresponding basic material pictures; in response to a selection operation by a user, one template is selected from a plurality of design templates on a design interface.

The embodiment of the present application further provides a method for generating a material, including: providing a design interface of a material, wherein the design interface of the material comprises the currently provided material, drawing parameters and a region for adjusting the drawing parameters, and the material is composed of at least one material picture; responding to the adjustment operation of the user on the drawing parameters, and determining the adjusted drawing parameters; and determining the adjusted material picture according to the adjusted drawing parameters, and generating the adjusted material for displaying.

The embodiment of the application further provides a poster design method, which comprises the following steps: providing a design interface for the poster; responding to selection operation of a user, selecting a group of poster design templates on a design interface, wherein the group of poster design templates consists of a plurality of poster design templates, displaying the group of poster design templates selected by the user on the design interface, the plurality of poster design templates are generated according to derivative material pictures of a plurality of posters and a plurality of arrangement modes of editable objects on corresponding basic poster material pictures, and the derivative material pictures of the plurality of posters are generated by transformation according to the corresponding basic poster material pictures; in response to a selection operation by a user, selecting one poster design template from a plurality of poster design templates on a design interface for use in completing poster design. The embodiment of the application further provides a design method of the work card, which comprises the following steps: providing a design interface of a work card; responding to selection operation of a user, selecting a group of work card design templates on a design interface, wherein the group of work card design templates consists of a plurality of work card design templates, displaying the group of work card design templates selected by the user on the design interface, generating the plurality of work card design templates according to derivative material pictures of the plurality of work card pictures and a plurality of arrangement modes of editable objects on corresponding basic work card material pictures, and transforming and generating the derivative material pictures of the plurality of work card pictures according to the corresponding basic work card material pictures; and responding to the selection operation of the user, and selecting one worker card design template from the plurality of worker card design templates on the design interface for finishing the worker card picture design.

The embodiment of the application further provides a method for designing the business card, which comprises the following steps: providing a design interface of the business card; responding to selection operation of a user, selecting a group of name card design templates on a design interface, wherein the group of name card design templates consists of a plurality of name card design templates, displaying the group of name card design templates selected by the user on the design interface, the plurality of name card design templates are generated according to derivative material pictures of a plurality of name cards and a plurality of arrangement modes of editable objects on corresponding basic name card material pictures, and the derivative material pictures of the plurality of name cards are generated by transformation according to the corresponding basic name card material pictures; and responding to the selection operation of the user, and selecting one business card design template from the multiple business card design templates on the design interface for completing the business card design.

An embodiment of the present application further provides an electronic device, including: a processor and a memory, wherein the memory has stored thereon executable code, which when executed by the processor, causes the processor to perform the steps of the above method.

Embodiments of the present application further provide a computer-readable storage medium storing a computer program, which when executed by one or more processors causes the one or more processors to implement the steps in the above method.

In the embodiment of the application, a basic material picture is obtained, and a plurality of corresponding derivative material pictures are generated by converting according to the basic material picture; acquiring a plurality of arrangement modes of editable objects corresponding to the basic material picture on the basic material picture; and generating a plurality of design templates according to the plurality of derived material pictures and the corresponding plurality of arrangement modes. A plurality of design templates can be generated through a plurality of generated derived material pictures and a plurality of arrangement modes corresponding to editable objects, so that a plurality of design templates can be automatically generated, the diversity of the design templates is enriched, the requirement of the quantity of the design templates can be met, the design cost is reduced, and the design time is shortened.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a schematic diagram of a system for generating a design template according to an exemplary embodiment of the present application;

FIG. 2 is a flowchart illustrating a method for generating a design template according to an exemplary embodiment of the present application;

FIG. 3 is a schematic illustration of a selection interface according to an exemplary embodiment of the present application;

FIG. 4 is a schematic illustration of a design interface according to an exemplary embodiment of the present application;

FIG. 5 is a schematic illustration of an interface of a superset template in an exemplary embodiment of the present application;

FIG. 6 is a schematic illustration of a presentation interface for base material in accordance with an exemplary embodiment of the present application;

FIG. 7 is a schematic illustration of a design interface for material according to an exemplary embodiment of the present application;

FIG. 8 is a diagram illustrating a frame of still picture in 2D motion material according to an exemplary embodiment of the present application;

FIG. 9 is a flowchart illustrating a method for generating material according to an exemplary embodiment of the present application;

FIG. 10 is a flowchart illustrating a method for generating a design template according to an exemplary embodiment of the present application;

fig. 11 is a flowchart illustrating a method for generating material according to an exemplary embodiment of the present application;

FIG. 12 is a schematic flow chart of a method of designing a poster according to an exemplary embodiment of the present application;

FIG. 13 is a schematic flow chart illustrating a method for designing a work card according to an exemplary embodiment of the present application;

FIG. 14 is a flow chart illustrating a method for designing a business card in accordance with an exemplary embodiment of the present application;

FIG. 15 is a schematic structural diagram of an apparatus for generating a design template according to an exemplary embodiment of the present application;

fig. 16 is a schematic structural diagram of a device for generating material according to an exemplary embodiment of the present application;

FIG. 17 is a schematic structural diagram of an apparatus for generating a design template according to an exemplary embodiment of the present application;

fig. 18 is a schematic structural diagram of a device for generating material according to an exemplary embodiment of the present application;

FIG. 19 is a schematic view of a poster design apparatus provided in an exemplary embodiment of the present application;

FIG. 20 is a schematic structural diagram of a design apparatus for a work card according to an exemplary embodiment of the present application;

FIG. 21 is a schematic structural diagram of a business card design apparatus provided in an exemplary embodiment of the present application;

fig. 22 is a schematic structural diagram of a computing device according to an exemplary embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. It should be apparent that the described embodiments are only a few embodiments of the present application, and not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

As can be seen from the foregoing, the "quality" and "quantity" of the design template ultimately determine the quality of the product. There are two ways to obtain the current template: 1. purchasing in batches; 2. and (5) manual manufacturing. The template quality cannot be guaranteed through batch purchasing, and the distance cannot be increased from a competitive product, so that the template quality cannot be generally adopted; although manual fabrication can partially solve the "quality" problem, it is costly to achieve a certain "amount".

The embodiment of the application can solve the problems.

Fig. 1 is a schematic structural diagram of a system for generating a design template according to an exemplary embodiment of the present application. As shown in fig. 1, the system 100 may include: a first device 101, a second device 102.

The first device 101 may be a device with certain computing power, may implement a function of transmitting data to the second device 102, and may receive data transmitted by the second device 102. The basic structure of the first device 101 may include: at least one processor. The number of processors may depend on the configuration and type of device with a certain computing power. A device with certain computing capabilities may also include Memory, which may be volatile, such as RAM, non-volatile, such as Read-Only Memory (ROM), flash Memory, etc., or both. The memory typically stores an Operating System (OS), one or more application programs, and may also store program data and the like. In addition to the processing unit and the memory, the device with certain computing capabilities also includes some basic configurations, such as a network card chip, an IO bus, a display component, and some peripheral devices. Alternatively, some peripheral devices may include, for example, a keyboard, a stylus, and the like. Other peripheral devices are well known in the art and will not be described in detail herein. Alternatively, the first device 101 may be a smart terminal, such as a mobile phone, a desktop computer, a notebook, a tablet computer, and the like.

The second device 102 is a device that can provide a computing processing service in a network virtual environment, and may be a device that performs design template generation and material generation using a network. In physical implementation, the second device 102 can be any device capable of providing computing services, responding to service requests, and performing design template generation and material generation, and can be, for example, a cloud server, a cloud host, a virtual center, a conventional server, and the like. The second device 102 mainly includes a processor, a hard disk, a memory, a system bus, and the like, and is similar to a general computer architecture.

Specifically, the second device 102 acquires a base material picture, performs transformation according to the base material picture, and generates a plurality of corresponding derivative material pictures; acquiring a plurality of arrangement modes of editable objects corresponding to the basic material picture on the basic material picture; and generating a plurality of design templates according to the plurality of derived material pictures and the corresponding plurality of arrangement modes. Thus, the second device 102 may provide a plurality of design templates to the first device 101.

In addition, the second device 102 determines a plurality of sizes corresponding to the base material picture, and generates a plurality of design templates according to the plurality of sizes, the plurality of derivative material pictures and the plurality of corresponding arrangement modes.

In addition, the second device 102 may provide a design interface of the design object through the first device 101; selecting a group of design templates on a design interface through the first device 101 based on selection operation of a user, wherein the group of design templates consists of a plurality of design templates, and displaying the group of design templates selected by the user on the design interface through the first device 101; based on the selection operation of the user, one template is selected from a plurality of design templates on the design interface by the first device 101.

In addition, the second device 102 may present the type of the design object on the design interface through the first device 101; selecting a type of a design object on a design interface through the first device 101 based on a selection operation of a user; and displaying at least one group of design templates corresponding to the selected type on a design interface through the first device 101 according to the selected type.

In addition, the second device 102 may display the basic design templates on the design interface through the first device 101, where at least some of the basic design templates respectively correspond to a set of design templates, and the basic design templates are generated based on the basic material pictures.

In addition, the second device 102 may present the selected template on the design interface through the first device 101, and determine the corresponding template based on the confirmation operation of the user.

In addition, the second device 102 may further display an editing area on the design interface through the first device 101, for editing the editable object; based on the editing operation of the user in the editing area, the editing content of the editable object is determined by the first device 101 and is displayed at the position of the corresponding editable object in the selected template. Thus, the first device 101 may send the final design template to the second device 102.

In addition, based on the editing operation of the user, the second device 102 may present an editing interface through the first device 101 for editing the selected template; based on the user's editing operation on the template, editing of the selected template is performed by the first device 101.

Specifically, the second device 102 acquires a basic design template, and acquires a basic material picture from the basic design template; the basic design template meets the quality condition.

Specifically, the second device 102 acquires description parameters for describing content in the base material picture; and adjusting the description parameters, and generating a plurality of corresponding material pictures as derived material pictures according to the adjusted description parameters.

In addition, the second device 102, determining at least one editable object of the base design template and a position of the at least one editable object in the base design template; and adjusting the position to obtain at least one arrangement mode of at least one editable object in the basic design template.

Specifically, the second device 102 combines the derived material pictures and the arrangement modes corresponding to the editable objects to generate a plurality of design templates.

In addition, the design interface includes a web design interface; the second device 102 converts the template format of the basic design template into a template that can be displayed through a web design interface, so that the corresponding basic material picture and the corresponding editable object are obtained from the basic design template after the format conversion.

In addition, the second device 102 may present, through the first device 101, a prompt on the design interface that the interface has at least one set of design templates.

Specifically, the second device 102 draws a base material picture and obtains drawing parameters for drawing the base material picture; and adjusting the drawing parameters, and generating a plurality of corresponding material pictures as derived material pictures according to the adjusted drawing parameters.

And the drawn basic material picture can be displayed on a webpage interface.

In addition, the second device 102 may provide a material design interface through the first device 101, where the material design interface includes a currently provided material, a drawing parameter, and a region for adjusting the drawing parameter, and the material is composed of at least one material picture; determining, by the first device 101, an adjusted drawing parameter based on an adjustment operation of the drawing parameter by the user; determining, by the first device 101, the adjusted material picture according to the adjusted drawing parameters, and generating an adjusted material for display.

In addition, the second device 102 can provide a display interface of a plurality of basic materials through the first device 101; and selecting the corresponding basic materials through the display equipment based on the selection operation of the user, so that a design interface of the materials is provided through the display equipment and is used for designing the selected basic materials.

Wherein, the material comprises static material and dynamic material.

In addition, for dynamic materials, the design interface of the materials comprises: a material generation area; the second device 102 acquires, as a generated material, at least one corresponding material picture from the dynamic material through the first device 101 based on a generation operation of the user in the material generation area.

Further, the second device 102 acquires, by the first device 101, a corresponding plurality of material pictures from the dynamic material based on the generation operation of the user in the material generation area, and generates a final dynamic material as a generated material.

Further, the second device 102, based on the generation operation of the user in the material generation area, presents saving information for saving the generated material by the first device 101; the generated material is saved by the first device 101 based on the save operation by the user.

In addition, the second device 102 stores the drawing parameters or the adjusted drawing parameters through the first device 101 based on the operation of saving the drawing parameters or the adjusted drawing parameters by the user, and generates a parameter file; acquiring a parameter file through the first device 101 based on an uploading operation of a user; based on the display operation of the user, generating and displaying a material corresponding to the parameter file on a design interface of the material through the first device 101, wherein the design interface of the material comprises the currently provided material, the drawing parameters and a region for adjusting the drawing parameters; determining, by the first device 101, an adjusted drawing parameter based on an adjustment operation of a user on the drawing parameter; determining the adjusted material picture through the first device 101 according to the adjusted drawing parameters, and generating the adjusted material for displaying and saving.

Further, a second device 102 that provides a plurality of materials through the first device 101; determining a material selected by a user through the first equipment 101 based on the searching operation of the user, and searching a parameter file corresponding to the selected material; saving the parameter file through the first device 101 based on the saving operation of the user; acquiring a parameter file through the first device 101 based on an uploading operation of a user; based on the display operation of a user, generating and displaying a material corresponding to the parameter file on a design interface of the material through display equipment, wherein the design interface of the material comprises the currently provided material, the drawing parameters and a region for adjusting the drawing parameters; determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user; determining the adjusted material picture through the first device 101 according to the adjusted drawing parameters, and generating the adjusted material for displaying and saving.

Wherein, basic material picture includes: a background picture layer; the base material picture meets the quality condition.

In the poster design scenario of the embodiment of the application, a user, such as a designer, can log in a poster design service interface of a cloud server through a web page interface of a computer. The cloud server can provide information of the interface to the computer, for example, types of design templates, such as poster design types and the like, can be displayed on the interface. The designer can select the poster design type through a mouse, the computer responds to the selection operation and sends a selection request to the cloud server, the request carries the selection type, and the cloud server returns a plurality of poster design templates related to the poster design type. There may be a plurality of base poster design templates among the plurality of poster design templates, each base poster design template being different and unrelated. Where at least a portion of the poster design templates may have a corresponding set of poster design templates, also referred to as superset templates.

The designer can select a superset template corresponding to a satisfied basic poster design template, and the computer can respond to the selection operation to obtain the corresponding superset template from the cloud server and display the superset template. The superset template has a plurality of poster design templates corresponding to, or otherwise associated with, their corresponding base poster design templates. The designer may select one template from the superset of templates as the template for the poster. And then, editing editable characters on the template on an interface of the superset template, and finally finishing the design of the poster. And a certain picture on the template can be edited to determine a final poster, or a designer can upload a local poster template and the like which is satisfied by the designer. The computer can respond to the saving operation or the confirmation operation of the designer, the final poster template is sent to the cloud server, and the cloud server receives and stores the poster template so that the subsequent service personnel can print the poster template and send the poster template to the designer. The designer may also store the final template himself, etc.

The cloud server generates the superset templates, and for each type of design template, such as poster design type, the cloud server can be obtained according to a basic poster design template. The cloud server can acquire basic poster design templates of a plurality of poster design types, and the basic poster design templates are not associated but meet quality conditions. The cloud server designs a template for each basic poster, acquires a basic material picture of the template, adjusts the basic material picture according to description parameters of the basic material picture, wherein the description parameters are used for describing contents in the basic material picture, and adjusts the material picture by adjusting the description parameters. A plurality of derived material pictures can be obtained. Then, the cloud server adjusts the position of the editable text or the editable object on the basic material picture, or the position of the editable text or the editable object on the basic material picture, on the basic poster design template, to obtain multiple positions of the editable object on the basic material picture, or multiple positions on the basic poster design template, that is, multiple arrangement modes of the editable objects. From this, the cloud server can carry out the independent assortment with a plurality of derived material pictures and a plurality of arrangement mode, obtains a plurality of poster design templates to as the superset template of this basic poster design template, a set of poster design template promptly.

In addition, the cloud server can also continue to adjust the size of the basic material picture and the size of the basic poster design template to obtain a plurality of sizes, and then the basic material picture, the plurality of derived material pictures and the plurality of arrangement modes are freely combined to obtain a plurality of poster design templates which serve as superset templates of the basic poster design templates, namely a group of poster design templates.

In addition, the cloud server can also generate a plurality of material pictures as basic material pictures. The cloud server can acquire a plurality of basic material pictures, and each basic material picture meets the quality condition. Then, obtaining drawing parameters of the basic material pictures for drawing the basic material pictures, and adjusting the drawing parameters to adjust the basic material pictures to obtain a plurality of basic material pictures as corresponding basic material pictures of the basic design template.

In addition, the user, such as a designer, may select the base material picture, or select the base material, such as the 2D motion picture and the 3D motion picture, which may be animation of the material or video of the material. For example, a user may log in a service interface provided by a cloud server through a web page interface of a computer, where the interface displays a plurality of basic materials, such as 2D dynamic materials and 3D dynamic materials. And the user selects one of the 2D dynamic materials, and the computer responds to the selection operation, acquires the material from the cloud server and displays the material through a design interface of the material. The design interface can display a plurality of drawing parameters of the material besides displaying the material so as to enable a user to adjust the parameters. The user can obtain the material desired by the user by adjusting the drawing parameters, and then perform generation operation in the material generation area on the design interface to obtain and store the current material picture or a plurality of material pictures or a dynamic material in a time period. The computer can respond to the storage operation to carry out local storage, and can also send the stored materials to the cloud server to be used as the selection basis of the basic material pictures.

The user can also save the parameters on the design interface, and the computer responds to the saving operation to save the parameter file and the materials corresponding to the parameter file. The user can upload the parameter file to the design interface for secondary editing and design. Or, the user can search and download the parameter file corresponding to the satisfied material from the preset material of the cloud server through the web page interface of the computer, and then perform secondary editing and design, which is not repeated.

In addition to the above poster design scenario, the method can be applied to work card design, business card design, logo design, H5(HTML5 is the next generation standard of the internet, is a language way for constructing and presenting internet contents, and can also be applied to other UI design, etc.) page design, design of display contents in 3D (three-dimensional) virtual exhibition halls, design of meal cards (or meal cards), design of satisfaction cards, design of materials with VI (Visual Identity) or CI (Corporate Identity System, enterprise image identification System) design, book framing design, packaging design, online marketplace picture design, online marketplace 3D home soft clothing design, clothing pattern design, online live broadcast virtual anchor 2D or 3D image design, online game player image design, online 3D game scene design, printing layout design and other objects needing visual 2D or 3D design. The design can be performed in the manner described above, and when designing other objects, the type of design template matching the object can be selected and designed according to the manner described above. Meanwhile, for different types of objects, the corresponding material design is also designed in the manner described above, and thus the details are not repeated.

In the present embodiment described above, the first device 101 and the second device 102 perform network connection, and the network connection may be wireless connection. If the first device 101 and the second device 102 are communicatively connected, the network format of the mobile network may be any one of 2G (gsm), 2.5G (gprs), 3G (WCDMA, TD-SCDMA, CDMA2000, UTMS), 4G (LTE), 4G + (LTE +), WiMax, and 5G.

The following describes the generation process of the design template in detail with reference to the method embodiment.

Fig. 2 is a flowchart illustrating a method for generating a design template according to an exemplary embodiment of the present application. The method 200 provided by the embodiment of the present application is executed by a computing device, such as a cloud server. The method 200 comprises the steps of:

201: and acquiring a basic material picture, and converting according to the basic material picture to generate a plurality of corresponding derivative material pictures.

202: and acquiring a plurality of arrangement modes of editable objects corresponding to the basic material picture on the basic material picture.

203: and generating a plurality of design templates according to the plurality of derived material pictures and the corresponding plurality of arrangement modes.

The following is a detailed explanation of the above steps:

201: and acquiring a basic material picture, and converting according to the basic material picture to generate a plurality of corresponding derivative material pictures.

The material picture refers to a material picture, and may include decorative elements such as a background picture, color blocks (which may be disposed on the background picture), and graphics (which may be disposed on the background picture). The basic material picture refers to a basic material picture, and can be a purchased picture or a manually designed picture, but the basic material picture meets the quality condition, for example, the basic material picture is designed by a designer with more experience, or the basic material picture is selected and purchased from a qualification design platform through manpower, and the basic material picture can comprise decorative elements such as a background picture, color blocks (which can be arranged on the background picture) and a graph (which can be arranged on the background picture). The derived material picture is obtained by converting the basic material picture.

Specifically, obtaining a base material picture includes: and acquiring a basic design template, and acquiring a basic material picture from the basic design template. Wherein the basic design template meets the quality condition

The basic design template refers to a basic preset format for design, such as a basic poster design template, a basic business card design template, a basic work card design template, and the like, and objects which can be designed can have corresponding basic design templates, so that the description is omitted. The base design templates may include, but are not limited to: the basic material picture (also called as a background picture layer), the text layer (also called as an editable object layer, such as text content and images) and the decorative element layer (such as decorative elements, such as graphics and color blocks).

For example, according to the foregoing, the cloud server may obtain a plurality of preset basic design templates, where the plurality of basic design templates may be purchased or designed by a designer, but may be pre-stored templates with good quality to the cloud server. After the cloud server acquires a plurality of basic design templates, for each basic design template, a background picture layer, color blocks, graphics and the like arranged on the background picture layer can be acquired from the basic design template and used as a basic material picture. Or the two basic material pictures (also referred to as background picture layers) and the decoration element layer (such as decoration elements like figures and color blocks) can be respectively obtained and then used as the basic material pictures.

It should be noted that the basic design template may include the above layers, and may further include other layers according to the requirement, and the basic design template may be obtained by overlapping the other layers with the above layers.

Specifically, the converting is performed according to the basic material picture to generate a plurality of corresponding derivative material pictures, including: obtaining description parameters for describing contents in the basic material picture; and adjusting the description parameters, and generating a plurality of corresponding material pictures as derived material pictures according to the adjusted description parameters.

The description parameters refer to parameters for describing content in the base material picture, such as parameters for describing a position, a size, a morphological change, a line thickness, and the like of a graph in the picture.

For example, according to the foregoing, the cloud server may acquire, for any base material picture and corresponding decoration element layer, a plurality of description parameters from the execution code of the file corresponding to the picture, and then adjust the values of the description parameters, where each description parameter may adjust a plurality of values. The server recombines the adjusted values according to the description parameters (the combination form or the description parameters corresponding to the basic material picture are in one group, and because each description parameter corresponds to a plurality of different adjustment values, a plurality of groups can be formed), and regenerates the corresponding files of the material pictures, thereby generating a plurality of material pictures as derived material pictures.

It should be noted that, because two layers are used, the description parameters may be acquired for the two layers separately, or may be acquired together.

Besides, the derived material picture can be obtained by the following method:

specifically, acquiring a base material picture, transforming the base material picture according to the base material picture, and generating a plurality of corresponding derivative material pictures, including: drawing a basic material picture, and acquiring drawing parameters for drawing the basic material picture; and adjusting the drawing parameters, and generating a plurality of corresponding material pictures as derived material pictures according to the adjusted drawing parameters.

The drawing parameters refer to parameters for drawing the base material picture, such as color, direction, size, and the like of a pattern or a graph in the picture. May be similar to the above-described parameters.

For example, according to the foregoing, the cloud server acquires the drawing code corresponding to each base material picture, and can draw the corresponding base material picture according to the drawing codes. The cloud server may obtain the drawing parameters from the corresponding drawing code. And adjusting the drawing parameters to adjust the corresponding drawing codes, so that the corresponding material pictures are generated and serve as the derivative material pictures. The corresponding drawing code of each basic material picture can be adjusted to obtain a plurality of different drawing codes.

Because the content in each base material picture has a certain drawing process and steps, different operations of each step can cause different final drawing results. These rendering processes can be coded and the various possibilities of each step can be preserved by the rendering parameters, and the various resulting pattern graphics can be quickly generated by adjusting the rendering parameters. Because there are very many combinations (colors, orientations, sizes, etc.) between different rendering parameters, there are very many completely different graphics that can be rendered.

The design basis can be provided for providing a plurality of design templates by obtaining a plurality of derived material pictures, the quantity is ensured, and the generated plurality of derived material pictures also meet the quality requirement because the base material pictures meet the quality condition. Namely, the generated derived material picture meets both the volume requirement and the quality requirement.

202: and acquiring a plurality of arrangement modes of editable objects corresponding to the basic material picture on the basic material picture.

The arrangement mode refers to the distribution, such as positions, distances between editable objects and the like, of the editable objects on the basic material picture or the basic design template. The editable object refers to editable content, such as text content, images and the like, and only needs to be in accordance with editable attributes.

The determination method of the arrangement mode may be: determining at least one editable object of the base design template and a position of the at least one editable object in the base design template; and adjusting the position to obtain at least one arrangement mode of at least one editable object in the basic design template.

For example, as described above, the cloud server may determine at least one editable text based on at least one text block (i.e., an editable text portion, such as "invite" text) in the base design template. Then, the corresponding description parameter, such as the position parameter, of the text content can be determined according to the manner described above, which may be the position parameter corresponding to each word, and then, the position parameter is adjusted to re-determine the text content. The plurality of position parameters corresponding to one text content may be that each position parameter has an association relationship or a restriction relationship, for example, one position parameter changes, and other position parameters may change correspondingly, although the changing manner may be adjustable, that is, the changing rule may also be adjustable, or may belong to one of the description parameters. The cloud server may determine an arrangement manner of the at least one text content according to the adjusted position parameter.

203: and generating a plurality of design templates according to the plurality of derived material pictures and the corresponding plurality of arrangement modes.

For example, according to the foregoing, after obtaining a plurality of derivative material pictures and a plurality of arrangement manners of corresponding editable text contents, the cloud server may perform random combination, and combine any derivative material picture and any arrangement manner of the editable text contents to obtain a plurality of design templates, thereby implementing generation of an automatic template.

Specifically, according to a plurality of derived material pictures and a plurality of corresponding arrangement modes, a plurality of design templates are generated, including: and combining the derived material pictures and the arrangement modes corresponding to the editable objects to generate a plurality of design templates.

Since the foregoing has been explained, the details are not repeated here, and only the following are described: for example, the cloud server may superimpose and combine the layer where any derived material picture is located and any arrangement manner of editable text content, that is, superimpose the editable text in any arrangement manner onto any derived material picture, to obtain a plurality of design templates.

Thus, there are two ways to obtain the design template: 1. purchasing in batches; 2. and (5) manual manufacturing. But the template quality can not be ensured by batch purchase, and the distance between the template and a competitive product can not be increased, so that the template quality can not be generally adopted; although manual fabrication can partially solve the problem of "quality", achieving a certain "amount" requires a significant labor cost.

Besides fixed and modifiable text contents and the like, other parts of each template are modified to have certain thresholds. Even though most design products provide the material editing function, users can replace the materials with the material library or upload the materials by themselves, but because the users generally do not have good design ability and aesthetic feeling, the quality of the produced template can not be guaranteed.

The plurality of design templates obtained by the method are obtained by converting the basic material pictures which accord with the quality conditions, and the basic material pictures can be obtained based on the basic design templates, so that the plurality of design templates can be expanded based on the basic material pictures or the basic design templates, and the diversity of the design templates is greatly enriched. Meanwhile, most of the templates, whether purchased templates or manually made templates, can be subjected to the transformation, which can also be called super integration, and the arrangement of the background and the character blocks is expanded to different degrees.

It should be noted that, in addition to obtaining a plurality of design templates in the foregoing manner, each parameter for describing a basic design template may be directly determined, and the parameters of different layers may be included, and then the parameters are adjusted to obtain different design templates. Automation of the design template may also be achieved.

In addition, in addition to the arrangement mode of the editable objects and the derivative material pictures, the design template can be generated according to the size of the base material picture, the size of the derivative material picture or the size of the base audit template.

Specifically, the method 200 further includes: determining a plurality of sizes corresponding to the basic material pictures, and generating a plurality of design templates according to the sizes, the derivative material pictures and the corresponding arrangement modes.

Wherein, the size may refer to a physical size of the picture. The size may also correspond to the size of the derived material picture, as well as the size of the base audit template.

For example, as described above, the cloud server may determine different sizes of the multiple base material pictures or different sizes of the base design templates, and then transform the multiple design templates according to the different sizes. Namely, the plurality of sizes are combined with the plurality of derived material pictures and the corresponding plurality of arrangement modes to obtain a plurality of corresponding design templates. And will not be described in detail herein. Different sizes can obtain different sizes of design templates, such as horizontal plates, vertical plates and the like.

The style diversity of the template is generated due to the transformation or switching of different derived material pictures, and the diversity of the use scenes and the dimensions is generated due to the change of the arrangement mode (typesetting) and the size. The final design template is extremely low in expansion cost.

Besides physical dimensions, the size of pixels can be increased to limit the basic material picture, for example, a plurality of different pixel sizes are set, so that the design template is further limited, and the diversity of the design template is increased. And will not be described in detail herein.

It should be noted that, after obtaining the plurality of design templates, the design templates may be used to provide template services for users, so that the users can better design products. Further, these design templates may be used for selling, etc., without particularly limiting the subsequent applications thereof. The following may illustrate its form of application in terms of the dimensions used by the user:

specifically, the method 200 further includes: providing a design interface of a design object through display equipment; selecting a group of design templates on a design interface through display equipment based on selection operation of a user, wherein the group of design templates consists of a plurality of design templates, and displaying the group of design templates selected by the user on the design interface through the display equipment; and selecting one template from the plurality of design templates on the design interface through the display equipment based on the selection operation of the user.

The display device may refer to a device displayed by a user, such as an intelligent terminal, for example, a computer, a tablet computer, a mobile phone, and the like.

A set of design templates is composed of a plurality of design templates generated as described above, which may also be referred to as a superset template, and it is understood that a set of design templates is preferably based on a base design template, i.e., the set of design templates corresponds to a base design template, or may be obtained by the above-described manner based on the base material pictures of the base design template. Of course, the set of design templates may be only composed of a plurality of design templates, and the user may filter the design templates by himself or herself.

For example, according to the above, a user, such as a designer, may log in to a service interface of a cloud server through an installed browser web interface of a computer and present the interface. As shown in fig. 4, a design interface 400 is shown. Design templates are presented on the interface 400, where the design template 402 may be a superset template, i.e., a set of design templates. The user may click the template 402, and the computer may obtain a plurality of design templates corresponding to the superset template from the cloud server in response to the selection operation of the user, and display the design templates on the interface 400, or directly display the design templates.

As shown in FIG. 5, FIG. 5 illustrates an interface 500 of a superset template presented based on the interface 400 described above. A superset template (or superset recommendation) 501 is presented on interface 500, here with a set of design templates 502. The user can select one of the design templates which is satisfied with the user as the template which the user wants. The computer may present the selected template 503 on the interface 500 in response to a selection operation by the user.

It should be noted that the superset template (or superset recommendation) can reduce the dependence of the user on the editor function, shorten the usage process section, and ensure the design quality. Besides the requirements of modifying characters and the like, other requirements such as modifying background to change style feeling, modifying size to adapt to different scenes are also solved in the prompt information such as a superset template (or superset recommendation). The user does not need to jump back to the previous step to reselect the template, and directly selects the template from the superset template (or superset recommendation) to perform the required template so as to perform subsequent operation. After most editing requirements of users are eliminated, the quality of the output design is improved.

After the user selects a template, it may be determined that the template is a desired template, and specifically, the method 200 further includes: and displaying the selected template on the design interface through the display equipment, and determining the corresponding template based on the confirmation operation of the user.

For example, as described above, after determining that there is no other place to be modified for the selected template, the user may click on the save button 508 on the interface 500, and the computer may determine the corresponding template in response to the save operation, i.e., the confirmation operation, may perform local save, and send the finally determined template to the cloud server, so that the cloud server performs save and subsequent processing.

The design interface comprises a webpage design interface; the method 200 further comprises: and converting the template format of the basic design template into a template which can be displayed through a webpage design interface, so that the corresponding basic material picture and the corresponding editable object are obtained from the basic design template after the format is converted.

The format conversion may be a file format conversion, so that the conversion is a template that can be displayed through a web page design interface.

For example, as described above, the cloud server needs to ensure that the design templates can be exposed by the web interface before exposure. The cloud server may parse a PSD (Photoshop Document, which is a graphic file format) file or an SVG (Scalable Vector Graphics) file of the basic design template into data in a fixed schema (which is an element indicating how to describe an XML Document) format, so as to perform presentation of a web page interface. The generation of multiple design templates may then be performed.

After a plurality of design templates are generated, format conversion may be performed to obtain a plurality of converted design templates.

In order to enable a user to better select the superset template or guide the user to select the superset template, the design time and the energy of the user are saved, the user experience is improved, and the superset template can be prompted on a design interface.

Specifically, the method 200 further includes: and displaying prompt information of at least one group of design templates on the interface on the design interface through the display equipment.

For example, as described above, in FIG. 4, a prompt message "superset template" 403 is displayed on superset template 402 on design interface 400. Alternatively, a prompt message "superset recommendations" 404 is displayed on superset template 404. To prompt the user to click.

In order to better serve the user, the user may select according to different design types, and the design interface is presented after the user selects, specifically, the method 200 further includes: displaying the type of the design object on a design interface through display equipment; selecting the type of a design object on a design interface through display equipment based on selection operation of a user; and displaying at least one group of design templates corresponding to the selected type on the design interface through the display equipment according to the selected type.

Among them, the type of the design object may include: business cards, posters, work cards, comment cards, etc.

For example, according to the above description, a designer may log in a service interface of a cloud server through a web interface of a computer and display the design interface. I.e., the type of design object may be exposed on the design interface. As shown in fig. 3, a selection interface 300 is shown presented in the design interface. A plurality of selection types 301 are presented on the selection interface 300, including: smart logos, business cards, work cards, good comment cards, posters, and 3D designs. And may continue to increase as needed. The designer can click on the poster, and the computer can acquire the design template corresponding to the poster type from the cloud server in response to the selection operation, as shown in fig. 4. No further description is given.

In order to better provide service for the user, improve the experience of the user and enhance the selection degree of the user, besides the superset template, a basic design template corresponding to the superset template can be provided.

Specifically, the method 200 further includes: and displaying the basic design templates on the design interface through display equipment, wherein at least part of the basic design templates respectively correspond to a group of design templates, and the basic design templates are generated based on the basic material pictures.

For example, as described above, in addition to the superset template 402, the corresponding base design template is shown on the interface 400, as shown in FIG. 4. For example, the superset template 402 of the design template a corresponds to the base design template "design template a" 401, and the superset template 406 of the design template B corresponds to the base design template "design template B" 405. These base design templates may include corresponding base material pictures, editable objects, and the like. No further description is given. In this regard, the designer-user may also click on the base design template to perform the design and saving of the template, as will not be set forth herein.

In order to enable a user to flexibly design a template and edit an editable object, an editing area is also provided for editing.

Specifically, the method 200 further includes: the editing area is also displayed on the design interface through the display equipment and is used for editing the editable object; and determining the editing content of the editable object through the display device based on the editing operation of the user in the editing area, and displaying the editing content on the position of the corresponding editable object in the selected template.

The editing content may be picture content, text content, and the like.

For example, as described above, after the designer selects one of the superset templates, the designer displays the selected template 503 on the interface 500, and also displays an editing area for the editable object, such as filling out poster information, in the right area of the interface 500, as shown in fig. 5. The designer can click the upload button 504, the computer responds to the first upload operation, i.e., the editing operation, displays the upload selection frame, the designer can locally select the corresponding picture to upload, and the computer responds to the second upload operation, i.e., the editing operation, to acquire the corresponding picture. The designer then clicks the update document button 507 (or clicks the add document button 506), and the computer adds the obtained picture to the corresponding position of the selected template 503, which may be a partial position of the selected template, in response to the update operation, i.e., the editing operation.

In addition, the designer may move the mouse to the input box 505 of the main title and place the cursor there, and then perform the input of the text content. After the designer has finished inputting, the add document button 506 (or the update document button 507) is clicked, and the computer sets the text content of the main title to the position corresponding to the selected template 503 in response to the operation, i.e., the editing operation.

Or, the designer may also move the mouse to the input box 505 of the main title and place the cursor there, and then click the add-on-case button 506, the computer responds to the operation, i.e., the editing operation, to display the add-on box, the designer may make an input or selection of the main title in the add-on box, and then click the confirmation, and the computer responds to the operation, i.e., the editing operation, to input the text content of the main title into the input box 505. The designer then clicks the update document button 507 and the computer adds text to the corresponding location of the selected template 503 in response to the update operation, i.e., the edit operation.

After determining that the edit is correct, the designer may click the save button 508 to save the edit, which is not described herein. Other text contents can be operated in the above manner, and thus are not described in detail.

In order to better edit the editable object, it is further required to identify the editable object, and specifically, the method 200 further includes: and determining the identifier of the editable object, and editing the editable object through the display equipment according to the identifier.

Wherein the identification of the editable object may be an ID, a name, etc. Such as main title, sub-title, case 1, and case 2, etc.

For example, according to the foregoing, the cloud server may set names, such as main titles, sub-titles, and the like, for different text distributions, and may also set names, such as commodity pictures, for uploaded pictures. So that the user can replace the corresponding text content or picture according to the name after uploading the picture or the text content.

In addition, the computer can also carry out intelligent voice communication with the user in an artificial intelligence mode, such as an artificial intelligence voice mode, the computer can send out voice to the user in a voice mode, for example, the computer plays voice 'what the main title is', and then the user can reply to the computer 'invitation letter' through the microphone. After receiving the voice, the computer can convert the voice into characters, and then sets the 'invitation letter' to the corresponding position of the selected template according to the identification of the main title. Other editable text can be operated in this way, and will not be described herein. For editable images and the like, the user can reply the type or content of the image, such as a tree image, and the computer can search a plurality of tree images according to the characters for the user to select or confirm.

In addition to editing the editable objects, editing of the entire design template, such as editing of material pictures, may also be provided to the user.

In addition, as shown in FIG. 4, a load more button 407 is shown on the interface 400, and the user can click to load more design templates into the computer. It will not be described in detail. In addition, the interface 400 also shows colors related to the design template, such as red, yellow, etc., sizes related to the design template, types related to the design template, etc., and thus, the description thereof is omitted.

It should be noted that, in the embodiment of the present application, a user may select a type of a design object to be produced, and the user may select a poster type, then select a template, enter an online process for performing text editing, and finally export the poster. The flexibility of the use flow is enhanced, and the situation that the user needs to return to the previous step for re-selection when the user is not satisfied with the selected template due to the limitation of a single template and the editing cost is reduced.

Specifically, the method 200 further includes: displaying an editing interface through display equipment based on the editing operation of a user for editing the selected template; and editing the selected template through the display equipment based on the template editing operation of the user.

For example, as previously described, a designer may modify a design template within a superset of templates if the design template itself is less than satisfactory. The operation can be performed through an editing button displayed on the design interface or a button and information for indicating the editing, and the design template is edited by an editor in the editing interface. The computer may obtain information of the editing interface, such as description parameters for the design template or drawing parameters, from the cloud server in response to the editing operation. And is displayed on the editing interface through a computer.

The designer can adjust the background material picture of the template, the arrangement and the size of the editable font and the like through adjusting the description parameters or the drawing parameters on the editing interface. In addition, the interface can also display the recommendation of the background material picture, and the recommendation can be the derivative material picture of the corresponding type for the user to select and the like.

Because, in the process of completing daily design tasks, background picture materials (i.e. background material pictures or materials) such as poster designs, card designs and the like are needed everywhere. Some of the materials are made by designers and some of the materials need to be purchased from material suppliers, and the acquisition of the background image materials is a process of money and injury of the labor and the people. Therefore, how to produce materials with high quality and high efficiency becomes an important problem.

The basic material picture is drawn, and drawing parameters for drawing the basic material picture are obtained; and adjusting the drawing parameters, and generating a plurality of corresponding material pictures as derived material pictures according to the adjusted drawing parameters. Since the basic material picture also meets the quality condition, the problem of producing high-quality materials can be solved.

However, in order to better produce high-quality materials and meet the requirements of quality and quantity, human-computer interaction service can be provided for users, the materials are designed, the materials are improved to meet the requirements of the users, the experience of the users is improved, and the like. The specific description is as follows:

according to the foregoing, since the basic material pictures need to be displayed on the interface, for the web interface, the drawn basic material pictures can be displayed on the web interface.

For example, according to the foregoing, the cloud server may use a Javascript (JS), which is a lightweight, interpreted, or just-in-time programming Language with function priority, to create and write various graphics on the browser by using a Canvas tag of HTML (Hyper Text Markup Language), so as to generate a material (where the drawing of the 2D planar graphics usually uses a native drawing function of the HTML Canvas tag or the drawing of the 3D graphics uses an open-source threjs frame), and meanwhile, various possible drawing parameters of the drawing process are extracted and presented on the service interface to provide a user with convenient changes. It should be understood that this implementation is also applicable to the above-mentioned method of drawing the base material picture and obtaining the drawing parameters for drawing the base material picture; and adjusting the drawing parameters, and generating a plurality of corresponding material pictures as a process of deriving the material pictures according to the adjusted drawing parameters.

By coding the drawing process of various graphs, the direct generation of materials is quickly executed, and because the combination possibility among different drawing parameters is very high, the quantity of the produced graphs with different styles is very large. The material production mode greatly reduces the cost of manpower and financial resources.

Specifically, the method 200 further includes: providing a design interface of a material through display equipment, wherein the design interface of the material comprises the currently provided material, drawing parameters and a region for adjusting the drawing parameters, and the material is composed of at least one material picture; determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user; and determining the adjusted material picture through the display equipment according to the adjusted drawing parameters, and generating the adjusted material for display.

Wherein, the material comprises static material and dynamic material. The dynamic materials comprise 2D dynamic materials and 3D dynamic materials. The static material may be a picture, such as at least one picture of background material. The moving material may be a 2D moving material, an moving material composed of a plurality of static materials, or a 3D moving material. However, the static material may be obtained from the dynamic material.

The material is composed of at least one material picture, which means that the material can be a static material or a dynamic material.

For the dynamic material, since it may be an animation material composed of still pictures, each still picture thereof may correspond to a different code, and each still picture thereof may also correspond to the same code. For the same code, each still picture may have a graphic position transformation and a size or shape transformation, and the transformation may be determined by a position movement rule, such as a velocity and an acceleration to determine the position of the graphic in each still picture, and the sphere may transform the position in each still picture according to the velocity or the acceleration if the graphic is a sphere. The form size of the sphere in each still picture may be transformed according to the change in the radius of the sphere in each still picture, thereby generating the motion material.

For example, as described above, the designer may obtain the provided design interface from the cloud server through the web interface of the computer. As shown in FIG. 7, FIG. 7 illustrates the design interface 700. The interface 700 shows the currently provided material "material 1" 705, a region 708 for adjusting rendering parameters, and various rendering parameters in the region 708, such as picture size rendering parameters, picture width, picture height, and the like, for modifying and updating the picture size.

The designer can click on the parameter-drawing frame width adjustment box 709 in the area 708 to adjust the parameters, so that the values in the subsequent value boxes 710 are changed. The computer adjusts the value in response to the adjustment operation, for example, the user clicks on the adjustment box 709 with a mouse and then drags the mouse to the right to increase the value, and decreases the value to the left. The designer may also adjust the value in the integer value box 710 directly. Also in the area 708 of the drawing parameters are graphic (or morphological or geometric) settings drawing parameters in the material 1, such as the number of dots, the size of the end points, etc., graphic configuration for the graphic in the material, and color settings, color configuration for the graphic in the material, etc. After the drawing parameters are adjusted, the computer can adjust the material 1 according to the drawing parameters, that is, the material 1 is generated and displayed according to the adjusted drawing parameters. In addition to this, there is a camera that manually sets drawing parameters such as the position of the camera position XYZ axes. The user can also place a mouse at the currently provided material "material 1" 705, and drag the mouse in the range of the material 1, and can rotate the picture of the current material, i.e. change the position of the XYZ axis of the camera position, i.e. quickly control the camera position by the mouse. Of course, prompt information may be set below the currently provided material "material 1" 705 to prompt the user that mouse dragging of the rotation screen is possible.

It should be noted that, for the interface 700, the area for adjusting the drawing parameters may further include an area 701 having each drawing parameter, and although the drawing parameter is not explicitly shown, the corresponding identifier bottom layer is the drawing parameter, for example, color change in the drawing parameter may be a color parameter. The user can click the change color button to adjust the color of the material 1. It should be noted that, for example, for color change, the cloud server may preset a drawing parameter sequence of a group of colors, such as a series of red, green, yellow, and the like, and then sequentially adjust the drawing parameters according to the sequence, or randomly adjust the colors. No further description is given.

The acceleration, the speed and the like corresponding to the dynamic material can also be used as drawing parameters for the user to select and adjust. No further description is given. In addition, the static material pictures can be directly displayed for the user to design.

It should be noted that, a user only needs to click the above-mentioned "change color" or "change form", etc., so that a material picture can be generated at a moment and can be applied to subsequent material design, thereby greatly improving the efficiency. The graphs generated by clicking the color changing mode and/or the shape changing mode are different, and the materials are greatly enriched.

As can be seen from the foregoing, the drawing parameters may be identified to guide the user to perform the transformation of the drawing parameters. Specifically, the method 200 further includes: and setting prompt information of the drawing parameters and providing the prompt information through the display equipment so as to prompt a user to adjust the drawing parameters.

Wherein, the identification can be name, ID, etc.

For example, according to the foregoing, the cloud server may set corresponding names for some drawing parameters, for example, a name such as "change color" may be set for a color drawing parameter, and then the name is displayed through the web interface. For example, the name of "change color" in the area 701 for adjusting the drawing parameters is not described herein again. In addition to the name corresponding to the drawing parameter, as shown in fig. 7, the graphic form is modified by changing the form and the size of the picture is modified in the area 701. A refresh-down button 702 in the field 701 may cause the computer to re-display the current material, such as 2D motion pictures, according to the current code and current rendering parameters. Since the presentation time or the playback time of the movie material is 1 minute, the start time is 0 and the end time is 1 minute. The re-presentation of the current material means that the presentation starts again from 0 to the end of 1 minute. The start/pause button in the area 701 may be configured to allow a user to pause the material through the start/pause button, view a current still picture of the material, and then click the start/pause button to continue displaying the material during displaying the material.

In order to enable a user to better select materials, different types of materials can be provided for the user to select and design.

Specifically, the method 200 further includes: providing a plurality of display interfaces of basic materials through display equipment; and selecting the corresponding basic materials through the display equipment based on the selection operation of the user, so that a design interface of the materials is provided through the display equipment and is used for designing the selected basic materials.

Wherein the selection can be made according to the type of material, such as 2D motion pictures and 3D motion pictures. There may also be static material, etc.

For example, according to the foregoing description, the designer obtains the provided design interface from the cloud server through the web interface of the computer. On the basis of the design interface, a display interface can be acquired from the cloud server. As shown in fig. 6, fig. 6 illustrates a presentation interface 600. A2D Canvas, representing 2D animated material, and a 3D Canvas, representing 3D animated material, are presented on the interface 600. In 2D Canvas, there is 2D dynamic material "material 1" 601, named "bubble" 602. There are multiple 2D animations in a 2D Canvas. In a 3D Canvas there is a 3D motion material "material 1" 603, named "glow bloom" 604. There are multiple 3D motion materials in a 3D Canvas. The designer can select one of the 2D dynamic materials or one of the 3D dynamic materials to click on. And the computer responds to the selection operation, acquires the provided design interface from the cloud server, and designs the corresponding material, namely the basic material.

As shown in fig. 8, the form of one frame of still picture in the 2D dynamic material may be as shown in fig. 8, and fig. 8 includes 6 still pictures, which are one frame of still picture in the 6D dynamic materials respectively.

For dynamic materials, the process of generating the materials is as follows:

specifically, for dynamic materials, the design interface of the materials includes: a material generation area; the method 200 further comprises: and acquiring at least one corresponding material picture from the dynamic material through the display equipment as the generated material based on the generation operation of the user in the material generation area.

For example, as described above, and as shown in FIG. 7, a material generation area 703 is also shown on the design interface 700, and a plurality of buttons 704 for generating material are shown in the area 703, including: a "create current picture png" button, a "record & create series png" button, and a "record & create dynamic gif" button. The "generate current picture png" button, the "record & generate series png" button are used to generate at least one material picture, the "generate current picture png" button is used to generate one material picture, the "record & generate series png" material picture is used to generate a plurality of material pictures, and the material pictures are formed into a picture series.

The designer can click the button "generate current picture png", and the computer determines a frame of material picture in the 2D dynamic material (i.e., a material picture in the currently displayed 2D dynamic material corresponding to the click time) corresponding to the click time in response to the generation operation, and acquires the picture. The computer can store the acquired picture to the local. The saving process may be performed by a designer to select a saving path, so as to save the picture in png format.

The designer may also click the "record & generate series png" button, and the computer determines, in response to the generation operation, a frame of material picture, such as in the 2D dynamic material, corresponding to the first click time (i.e., the material picture in the currently displayed 2D dynamic material corresponding to the click time). Then, the designer clicks the "record & generate series png" button again, and the computer determines, in response to the generation operation, a frame of material picture in the 2D dynamic material (i.e., the material picture in the currently displayed 2D dynamic material corresponding to the click time) corresponding to the second click time. The computer then obtains a sequence of pictures between the first click time and the second click time (including the first click time and the second click time). The computer can store the acquired picture sequence to the local. The saving process may be performed by a designer to select a saving path, so as to save the picture sequence in png format.

Specifically for generating dynamic material, the method 200 further includes: and acquiring a plurality of corresponding material pictures from the dynamic material through the display equipment based on the generation operation of the user in the material generation area, and generating the final dynamic material as the generated material.

Wherein, the finally generated dynamic material can be gif animation material.

For example, according to the foregoing, the designer may click on the "record & generate dynamic gif" button. Similar in function to the "record & generate series png" button described above. In response to the generation operation, the computer determines a frame of material picture in the 2D dynamic material corresponding to the first click time (i.e., the material picture in the currently displayed 2D dynamic material corresponding to the click time). Then, the designer clicks the "record & generate series png" button again, and the computer determines, in response to the generation operation, a frame of material picture in the 2D dynamic material (i.e., the material picture in the currently displayed 2D dynamic material corresponding to the click time) corresponding to the second click time. The computer then obtains a sequence of pictures between the first click time and the second click time (including the first click time and the second click time). The computer can generate gif animation from the acquired picture sequence and store the gif animation to the local. The save process may save the gif animation by the designer making a selection of a save path.

Therefore, ultra-fast production of the dynamic materials can be realized through the webpage interface. And the codes of the embodiment of the application are converted into a tool available for people, each designer can produce the materials instantly when the materials are needed, and the design efficiency is improved.

And aiming at least one material picture in the dynamic material, the numerical values of at least part of material picture drawing parameters are transformed along with a preset transformation rule.

Since the dynamic material is generated by using a multi-frame material picture, or can be divided into multi-frame material pictures, there may be a change in two adjacent frame material pictures, and this change may be accounted for by a drawing parameter for the change, such as the velocity or the acceleration, as described above. However, the rendering parameters may also follow a change rule, for example, if a preset threshold is changed, the rendering parameters may be changed according to the corresponding threshold, for example, the corresponding threshold is increased or decreased, so as to change the rendering parameters, thereby changing the multi-frame material picture to form a changed dynamic material. All the material pictures of the dynamic material may be converted, or part of the material pictures may be converted.

In addition, as shown in fig. 7, in the area 701 for adjusting the drawing parameters, the user may click a picture size button to present a drop-down box for changing the default size, the user may select another size in the drop-down box to change the picture size, and the computer may change the picture size according to the selected picture size in response to the switching operation or the selecting operation. Also shown on interface 700 is a current frame rate field 706 in which the current frame rate is displayed, a panel that measures the current operational efficiency. In an area 708 for adjusting rendering parameters on the interface 700, a Default button, that is, a Default button 714, is further provided, and a user may click the Default button and appear a drop-down box, where names of a plurality of materials are provided, and the user may perform quick material switching by selecting a name of one of the materials. The computer may respond to the switching operation or the selection operation, and obtain (may obtain locally or obtain corresponding material from the cloud server) and display the material according to the selected material. In the area 708, there is also a data button 713, and when the user clicks the button, the parameter data of the current material, which may be the parameter table data, is displayed on the interface 700, and the data may be copied and pasted, and the user may copy and paste the data to complete the download and backup. The area 708 further includes a save button 712, and when the user modifies the parameter of the currently provided material "material 1" 705, the user can save the parameter by clicking the save button 712. In this section 708, there is also a new button 716 that the user can click on and present in the interface 700 a new material name bar in which the user can add a name, and after determination, the computer can copy the current material and name the copied material with the new name and place the name in the drop-down bar of the default button. The user can find the name through the pull-down bar and design the copied material. In the area 708, there is also a reverse button 711, and when the user clicks the button, the currently provided material "material 1" 705 can be restored to the display effect within the preset historical time, for example, when the material 1 is a dynamic material, the button is clicked, the current picture of the material 1 in the previous second can be displayed, and the dynamic material of the material 1 can be continuously displayed on the basis of the material 1 in the previous second. A dark black mode button 707 is shown on the interface 700 that the user can click to cause the background color of the interface 700 to adjust to black. In addition, below the currently provided material "material 1" 705, buttons for adjusting the background color of the currently provided material "material 1" 705, such as black, white, no background, and self, may also be displayed. The user can select the desired undertone. Also shown on the interface 700 is a return effects repository 715, where a user may return to the interface 600 by clicking on it.

After the material is generated, the material needs to be stored, specifically, the method 200 further includes: displaying the saving information through the display equipment based on the generation operation of the user in the material generation area for saving the generated material; and saving the generated material through the display equipment based on the saving operation of the user.

Since the foregoing has been set forth, further description is omitted herein.

In addition, because the color, the content and the size of the material have great influence on the application range of the material, some materials cannot be reused in many places due to the problems of color and size, and waste is generated. How to edit the material twice to make it suitable for a wider scope can be realized by the following ways:

specifically, the method 200 further includes: saving the drawing parameters or the adjusted drawing parameters through the display equipment based on the operation of saving the drawing parameters or the adjusted drawing parameters by the user to generate a parameter file; acquiring a parameter file through display equipment based on uploading operation of a user; based on the display operation of a user, generating and displaying a material corresponding to the parameter file on a design interface of the material through display equipment, wherein the design interface of the material comprises the currently provided material, the drawing parameters and a region for adjusting the drawing parameters; determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user; and determining the adjusted material picture through the display equipment according to the adjusted drawing parameters, and generating the adjusted material for display and storage.

For example, as described above, as shown in fig. 7, in the area 708 for adjusting the rendering parameters, there is a parameter storage button, and the user clicks the button, and the computer responds to the operation to obtain the parameters of the current material 1, which may be the modified rendering parameters or the unmodified rendering parameters. In summary, the user confirms the current parameters and presents a stored prompt box. And selecting a storage path based on the prompt box by the user, and clicking a storage button to store the storage path into a parameter file, wherein the file format can be json format. The user may then click on the load parameter button in this area 708, and the computer then displays an upload prompt box, according to which the parameter file is uploaded. After the computer receives the parameter file, a prompt message may be displayed below the load parameter button to prompt the user to search for the parameter file in the drop-down box of the Default button, i.e., the Default button 714. After the user finds the parameter file in the drop-down frame and clicks the option, the computer can display the corresponding material according to the parameter file. Since the parameter file records drawing parameters for drawing the material, the current material can be presented. Then, the user can perform secondary design or editing on the material based on the above manner, which is not described again.

In addition, the method 200 further comprises: providing a plurality of materials through a display device; determining materials selected by a user through display equipment based on the searching operation of the user, and searching parameter files corresponding to the selected materials; saving the parameter file through the display equipment based on the saving operation of the user; acquiring a parameter file through display equipment based on the uploading operation of a user; based on the display operation of a user, generating and displaying a material corresponding to the parameter file on a design interface of the material through display equipment, wherein the design interface of the material comprises the currently provided material, the drawing parameters and a region for adjusting the drawing parameters; determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user; and determining the adjusted material picture through the display equipment according to the adjusted drawing parameters, and generating the adjusted material for display and storage.

For example, according to the foregoing, a designer obtains a service interface from a cloud server through a web interface of a computer, and the service interface is used for displaying a plurality of preset materials, where each material has an independent identifier, such as a name or a number. The user can input the serial number of the corresponding material through the search box on the interface, search the parameter file of the corresponding material, select the file after searching the file, and then click the download option to download, so as to obtain the parameter file. Then, according to the foregoing, the user can upload the parameter file by loading the parameter button, and perform secondary editing design or editing of the corresponding material, which is not described again.

Wherein, above-mentioned basic material picture includes: a background picture layer; the base material picture meets the quality condition. Since the foregoing has been set forth, further description is omitted herein. It should be further noted that the basic material picture further includes a decorative element layer (e.g., decorative elements such as graphics and color blocks).

For the 3D dynamic material described above, the design and generation process is similar to that of 2D dynamic material. It is not repeated, and only description is given: for 3D dynamic materials, the design interface is similar to fig. 7, and the regions in fig. 7 are all in the 3D dynamic material design interface, and fig. 7 may be referred to. The rendering parameters presented in the design interface may be slightly different according to the rendering parameters in the 3D dynamic material. No further description is given. The mouse may also drag the screen selection.

The embodiment of the application can produce static materials, can rapidly produce dynamic materials, and has the capability of secondarily editing the materials.

Based on the similar inventive concept, fig. 9 shows a flow chart of a material generation method provided in another exemplary embodiment of the present application. The method 900 provided by the embodiment of the present application is executed by a cloud server, and the method 900 includes the following steps:

901: and drawing the basic material picture, and acquiring drawing parameters for drawing the basic material picture.

902: and adjusting the drawing parameters, and generating a plurality of corresponding material pictures as derived material pictures according to the adjusted drawing parameters.

Since the detailed description of the steps 901-902 has been described in detail above, the detailed description thereof is omitted here.

Further, the method 900 includes: providing a design interface of a material through display equipment, wherein the design interface of the material comprises the currently provided material, drawing parameters and a region for adjusting the drawing parameters, and the material consists of at least one material picture; determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user; and determining the adjusted material picture through the display equipment according to the adjusted drawing parameters, and generating the adjusted material for display.

In addition, the method 900 further includes: and setting prompt information of the drawing parameters and providing the prompt information through the display equipment so as to prompt a user to adjust the drawing parameters.

Wherein, the material comprises static material and dynamic material.

In addition, for dynamic materials, the design interface of the materials comprises: a material generation area; the method 900 further comprises: and acquiring at least one corresponding material picture from the dynamic material through the display equipment as the generated material based on the generation operation of the user in the material generation area.

Further, the method 900 includes: and acquiring a plurality of corresponding material pictures from the dynamic material through the display equipment based on the generation operation of the user in the material generation area, and generating the final dynamic material as the generated material.

And aiming at least one material picture in the dynamic material, the numerical values of at least part of material picture drawing parameters are transformed along with a preset transformation rule.

Further, the method 900 includes: displaying the saving information through the display equipment based on the generation operation of the user in the material generation area for saving the generated material; and saving the generated material through the display equipment based on the saving operation of the user.

In addition, the method 900 further includes: saving the drawing parameters or the adjusted drawing parameters through the display equipment based on the operation of saving the drawing parameters or the adjusted drawing parameters by the user to generate a parameter file; acquiring a parameter file through display equipment based on uploading operation of a user; based on the display operation of a user, generating and displaying a material corresponding to the parameter file on a design interface of the material through display equipment, wherein the design interface of the material comprises the currently provided material, drawing parameters and an area for adjusting the drawing parameters; determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user; and determining the adjusted material picture through the display equipment according to the adjusted drawing parameters, and generating the adjusted material for display and storage.

In addition, the method 900 further includes: providing a plurality of materials through a display device; determining materials selected by a user through display equipment based on the searching operation of the user, and searching parameter files corresponding to the selected materials; saving the parameter file through the display equipment based on the saving operation of the user; acquiring a parameter file through display equipment based on uploading operation of a user; based on the display operation of a user, generating and displaying a material corresponding to the parameter file on a design interface of the material through display equipment, wherein the design interface of the material comprises the currently provided material, the drawing parameters and a region for adjusting the drawing parameters; determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user; and determining the adjusted material picture through the display equipment according to the adjusted drawing parameters, and generating the adjusted material for display and storage.

In addition, reference may also be made to the above-mentioned steps of the method 200 for details of the method 900 that are not described in detail.

Based on the similar inventive concept, fig. 10 is a flowchart illustrating a method for generating a design template according to another exemplary embodiment of the present application. The method 1000 provided by the embodiment of the application is executed by an intelligent terminal, such as a computer, and the method 1000 includes the following steps:

1001: a design interface for the design object is provided.

1002: responding to selection operation of a user, selecting a group of design templates on a design interface, wherein the group of design templates consists of a plurality of design templates, displaying the group of design templates selected by the user on the design interface, generating the plurality of design templates according to a plurality of derived material pictures and a plurality of arrangement modes of editable objects on the corresponding basic material pictures, and transforming and generating the plurality of derived material pictures according to the corresponding basic material pictures.

1003: in response to a selection operation by a user, one template is selected from a plurality of design templates on a design interface.

Since the detailed description of the steps 1001-1003 has been given above, the detailed description is omitted here.

In addition, the method 1000 further comprises: displaying the type of the design object on a design interface; responding to the selection operation of the user, and selecting the type of the design object on the design interface; and displaying at least one group of design templates corresponding to the selected type on the design interface according to the selected type.

In addition, the method 1000 further comprises: and displaying the basic design templates on the design interface, wherein at least part of the basic design templates respectively correspond to a group of design templates, and the basic design templates are generated based on the basic material pictures.

In addition, the method 1000 further comprises: and displaying the selected template on the design interface, and determining the corresponding template based on the confirmation operation of the user.

In addition, the method 1000 further comprises: an editing area is also displayed on the design interface and used for editing the editable object; in response to the editing operation of the user in the editing area, the editing content of the editable object is determined and displayed on the position of the corresponding editable object in the selected template.

In addition, the method 1000 further comprises: responding to the editing operation of a user, and displaying an editing interface for editing the selected template; and responding to the editing operation of the template by the user, and editing the selected template.

In addition, the method 1000 further comprises: and determining the identification of the editable object, and editing the editable object according to the identification.

In addition, the method 1000 further comprises: and displaying the prompt message of the interface with at least one group of design template display on the design interface.

The design templates are generated according to the sizes corresponding to the basic material pictures, the derivative material pictures and the corresponding arrangement modes.

In addition, reference may also be made to various steps in the method 200 described above for what the method 1000 does not describe in detail.

Based on the similar inventive concept, fig. 11 shows a flow chart of a material generation method provided in another exemplary embodiment of the present application. The method 1100 provided by the embodiment of the application is executed by an intelligent terminal, such as a computer, and the method 1100 includes the following steps:

1101: and providing a design interface of the material.

The design interface of the material comprises the material, the drawing parameters and a region for adjusting the drawing parameters, wherein the material is composed of at least one material picture.

1102: and determining the adjusted drawing parameters in response to the adjustment operation of the drawing parameters by the user.

1103: and determining the adjusted material picture according to the adjusted drawing parameters, and generating the adjusted material for displaying.

Since the detailed description of the embodiments of steps 1101-1103 has been described above, the detailed description thereof is omitted here.

In addition, the method 1100 further includes: providing a display interface of a plurality of basic materials; and responding to the selection operation of the user, and selecting the corresponding basic materials so as to provide a material design interface for designing the selected basic materials.

Further, the method 1100 includes: and providing prompt information of the drawing parameters to prompt a user to adjust the drawing parameters.

Wherein, the material comprises static material and dynamic material.

In addition, for dynamic materials, the design interface of the materials comprises: a material generation area; the method 1100 further comprises: and responding to the generation operation of the user in the material generation area, and acquiring at least one corresponding material picture from the dynamic material as the generated material.

In addition, the method 1100 further includes: in response to a generation operation of a user in the material generation area, corresponding multiple material pictures are acquired from the dynamic material, and a final dynamic material is generated as a generated material.

And aiming at least one material picture in the dynamic material, the numerical values of at least part of material picture drawing parameters are transformed along with a preset transformation rule.

In addition, the method 1100 further includes: responding to the generation operation of a user in the material generation area, and displaying saving information for saving the generated material; the generated material is saved in response to a save operation by the user.

In addition, the method 1100 further includes: responding to the operation of saving the drawing parameters or the adjusted drawing parameters by a user, saving the drawing parameters or the adjusted drawing parameters, and generating a parameter file; responding to the uploading operation of a user, and acquiring a parameter file; responding to the display operation of a user, generating and displaying a material corresponding to the parameter file on a design interface of the material, wherein the design interface of the material comprises the currently provided material, the drawing parameters and a region for adjusting the drawing parameters; responding to the adjustment operation of the user on the drawing parameters, and determining the adjusted drawing parameters; and determining the adjusted material picture according to the adjusted drawing parameters, and generating the adjusted material for displaying and storing.

In addition, the method 1100 further includes: providing a plurality of materials; responding to the searching operation of the user, determining the material selected by the user, and searching a parameter file corresponding to the selected material; responding to the saving operation of the user, and saving the parameter file; responding to the uploading operation of a user, and acquiring a parameter file; responding to the display operation of a user, generating and displaying a material corresponding to the parameter file on a design interface of the material, wherein the design interface of the material comprises the currently provided material, the drawing parameters and a region for adjusting the drawing parameters; responding to the adjustment operation of a user on the drawing parameters, and determining the adjusted drawing parameters; and determining the adjusted material picture according to the adjusted drawing parameters, and generating the adjusted material for displaying and storing.

In addition, the method 1100 may refer to the steps of the method 200, which are not described in detail.

Based on the similar inventive concept, fig. 12 shows a flow chart of a poster design method provided in another exemplary embodiment of the present application. The method 1200 provided by the embodiment of the present application is executed by an intelligent terminal, such as a computer, and the method 1200 includes the following steps:

1201: a design interface for the poster is provided.

1202: responding to the selection operation of a user, selecting a group of poster design templates on a design interface, wherein the group of poster design templates consists of a plurality of poster design templates, displaying the group of poster design templates selected by the user on the design interface, generating the plurality of poster design templates according to derivative material pictures of a plurality of posters and a plurality of arrangement modes of editable objects on corresponding basic poster material pictures, and transforming and generating the derivative material pictures of the plurality of posters according to the corresponding basic poster material pictures.

1203: in response to a selection operation by a user, selecting one poster design template from a plurality of poster design templates on a design interface for use in completing poster design.

Since the detailed description of the steps 1201-1203 has been provided above, the detailed description thereof is omitted here. In addition, the poster can be replaced by a commenting card, a smart logo and the like, and can also be a UI (User Interface) Interface and the like. That is, the poster in the method 1200 may be replaced with a comment card, an intelligent logo, or the like, or may be a UI (User Interface) Interface, or the like, and becomes another application embodiment. In this method 1200 a template is designed for a poster.

In addition, the method 1200 further includes: displaying the type of the design object on a design interface; responding to the selection operation of the user, and selecting a poster design type on a design interface; and displaying at least one group of poster design templates corresponding to the poster design types on the design interface according to the selected poster design types.

In addition, the method 1200 further includes: and displaying the selected poster design template on a design interface, and determining the corresponding poster design template based on the confirmation operation of the user.

In addition, the method 1200 further includes: an editing area is also displayed on the design interface and used for editing editable characters or editable images; in response to an editing operation by a user in the editing area, the editing contents of the editable text or the editable image are determined and displayed on the position of the corresponding editable text or the editable image on the selected poster design template.

The poster design templates are generated according to a plurality of sizes corresponding to the corresponding basic poster material pictures, derivative material pictures of the posters and a plurality of corresponding arrangement modes.

In addition, the method 1200 may refer to the steps of the method 200, which are not described in detail. In addition, the generation method 200 of the design template can be applied to a poster design template, namely, a base material picture in the poster design template can be replaced by a poster base material picture, and the design template can be modified into a poster design template and the like, so that another application embodiment is formed.

Based on the similar inventive concept, fig. 13 shows a flowchart of a design method of a work card according to another exemplary embodiment of the present application. The method 1300 provided by the embodiment of the present application is executed by an intelligent terminal, such as a computer, and the method 1300 includes the following steps:

1301: and providing a design interface of the work card.

1302: responding to selection operation of a user, selecting a group of work card design templates on a design interface, wherein the group of work card design templates consists of a plurality of work card design templates, displaying the group of work card design templates selected by the user on the design interface, generating the plurality of work card design templates according to derivative material pictures of the plurality of work card pictures and a plurality of arrangement modes of editable objects on corresponding basic work card material pictures, and transforming and generating the derivative material pictures of the plurality of work card pictures according to the corresponding basic work card material pictures.

1303: and responding to the selection operation of the user, and selecting one worker card design template from the plurality of worker card design templates on the design interface for finishing the worker card picture design.

Since the detailed description of the steps 1301-1303 has been given above, the detailed description is omitted here. In addition, the work card can be replaced by a good comment card, an intelligent logo and the like, and can also be a User Interface (UI) Interface and the like. That is, the work card in the method 1300 may be replaced with a good comment card, an intelligent logo, or the like, or may be a UI (User Interface) Interface, or the like, and becomes another application embodiment. In the method 1300 the design template is a work card design template. The work card design template is provided with editable images, head images of the staff, editable characters, positions of the staff and the like.

Further, the method 1300 further comprises: displaying the type of the design object on a design interface; responding to the selection operation of a user, and selecting a design type of the industrial card on a design interface; and displaying at least one group of work card design templates corresponding to the work card design types on a design interface according to the selected work card design types.

Further, the method 1300 includes: and displaying the selected work card design template on a design interface, and determining the corresponding work card design template based on the confirmation operation of the user.

Further, the method 1300 further comprises: an editing area is also displayed on the design interface and used for editing editable characters or editable images; in response to the editing operation of the user in the editing area, the editing content of the editable characters or the editable images is determined and displayed on the positions of the corresponding editable characters or editable images in the selected work card design template.

The plurality of work card design templates are generated according to a plurality of sizes corresponding to the corresponding basic work card material pictures, derivative material pictures of the plurality of work card pictures and a plurality of corresponding arrangement modes.

In addition, reference may also be made to various steps in the method 200 described above in the context of the method 1300 not being described in detail. In addition, the method 200 for generating a design template may be applied to a work card design template, that is, a base material picture therein may be replaced by a work card base material picture, and the design template may be modified into a work card design template, etc., which becomes another application embodiment.

Based on the similar inventive concept, fig. 14 is a flow chart illustrating a business card design method according to another exemplary embodiment of the present application. The method 1400 provided by the embodiment of the present application is executed by an intelligent terminal, such as a computer, and the method 1400 includes the following steps:

1401: and providing a design interface of the business card.

1402: responding to the selection operation of a user, selecting a group of name card design templates on a design interface, wherein the group of name card design templates consists of a plurality of name card design templates, displaying the group of name card design templates selected by the user on the design interface, generating the plurality of name card design templates according to derivative material pictures of a plurality of name cards and a plurality of arrangement modes of editable objects on corresponding basic name card material pictures, and transforming and generating the derivative material pictures of the plurality of name cards according to the corresponding basic name card material pictures.

1403: and responding to the selection operation of the user, and selecting one business card design template from the plurality of business card design templates on the design interface for completing the business card design.

Since the detailed description of the specific implementation of steps 1401-1403 has been described in detail above, it is not repeated here. In addition, the business card can be replaced by a good comment card, an intelligent logo and the like, and can also be a UI (User Interface) Interface and the like. That is, the business card in the method 1400 may be replaced by a good comment card, an intelligent logo, or the like, and may also be a UI (User Interface) Interface, or the like, and becomes another application embodiment. In this method 1400 a design template is a business card design template. The name card design template can be provided with a transverse design template or a vertical design template.

In addition, the method 1400 further includes: displaying the type of the design object on a design interface; responding to the selection operation of a user, and selecting a name card design type on a design interface; and displaying at least one group of business card design templates corresponding to the business card design types on a design interface according to the selected business card design types.

In addition, the method 1400 further includes: and displaying the selected business card design template on a design interface, and determining the corresponding business card design template based on the confirmation operation of the user.

In addition, the method 1400 further includes: an editing area is also displayed on the design interface and used for editing editable characters or editable images; in response to an editing operation of a user in the editing area, the editing content of the editable text or the editable image is determined and displayed on the position of the corresponding editable text or the editable image on the selected business card design template.

The business card design templates are generated according to a plurality of sizes corresponding to the corresponding basic business card material pictures, derivative material pictures of the business cards and a plurality of corresponding arrangement modes.

In addition, the method 1400 may refer to the steps of the method 200, which are not described in detail. In addition, the method 200 for generating a design template can be applied to a business card design template, that is, a base material picture in the business card design template can be replaced by a business card base material picture, and the design template can be modified into a business card design template, and the like, which becomes another application embodiment.

Fig. 15 is a schematic structural framework diagram of a device for generating a design template according to an exemplary embodiment of the present application. The apparatus 1500 may be applied to a server, such as a cloud server. The apparatus 1500 includes: an acquisition module 1501 and a generation module 1502; the following detailed description is directed to the functions of the various modules:

the obtaining module 1501 is configured to obtain a base material picture, transform the base material picture according to the base material picture, and generate a plurality of corresponding derivative material pictures.

The obtaining module 1501 is configured to obtain a plurality of arrangement modes of editable objects corresponding to the base material picture on the base material picture.

The generating module 1502 is configured to generate a plurality of design templates according to the plurality of derived material pictures and the plurality of corresponding arrangement modes.

In addition, the apparatus 1500 further comprises: and the determining module is used for determining a plurality of sizes corresponding to the basic material pictures and generating a plurality of design templates according to the sizes, the derivative material pictures and the corresponding arrangement modes.

In addition, the apparatus 1500 further comprises: the system comprises a providing module, a display module and a control module, wherein the providing module is used for providing a design interface of a design object through display equipment; the selection module is used for selecting a group of design templates on the design interface through the display equipment based on the selection operation of a user, wherein the group of design templates consists of a plurality of design templates, and the group of design templates selected by the user is displayed on the design interface through the display equipment; and the selection module is used for selecting one template from the plurality of design templates on the design interface through the display equipment based on the selection operation of the user.

In addition, the apparatus 1500 further comprises: the display module is also used for displaying the type of the design object on the design interface through the display equipment; the selection module is also used for selecting the type of the design object on the design interface through the display equipment based on the selection operation of the user; and displaying at least one group of design templates corresponding to the selected type on the design interface through the display equipment according to the selected type.

In addition, the display module is further used for displaying the basic design templates on the design interface through the display equipment, at least part of the basic design templates in the basic design templates respectively correspond to the group of design templates, and the basic design templates are generated based on the basic material pictures.

In addition, the display module is further used for displaying the selected template on the design interface through the display equipment, and determining the corresponding template based on the confirmation operation of the user.

In addition, the display module is also used for displaying an editing area on the design interface through the display equipment and editing the editable object; and the determining module is further used for determining the editing content of the editable object through the display equipment based on the editing operation of the user in the editing area, and displaying the editing content on the position of the corresponding editable object on the selected template.

In addition, the display module is also used for displaying an editing interface through display equipment based on the editing operation of a user so as to edit the selected template; the apparatus 1500 further comprises: and the editing module is used for editing the selected template through the display equipment based on the template editing operation of the user.

In addition, the determining module is further configured to determine an identifier of the editable object, and edit the editable object through the display device according to the identifier.

Specifically, the obtaining module 1501 is configured to obtain a basic design template, and obtain a basic material picture from the basic design template; the basic design template meets the quality condition.

Specifically, the generating module 1502 includes: the acquisition unit is used for acquiring description parameters for describing contents in the basic material picture; and the adjusting unit is used for adjusting the description parameters and generating a plurality of corresponding material pictures as derived material pictures according to the adjusted description parameters.

The determining module is further used for determining at least one editable object of the base design template and the position of the at least one editable object in the base design template; and adjusting the position to obtain at least one arrangement mode of at least one editable object in the basic design template.

Specifically, the generating module 1502 is specifically configured to: and combining the derived material pictures and the arrangement modes corresponding to the editable objects to generate a plurality of design templates.

The design interface comprises a webpage design interface; the apparatus 1500 further comprises: and the conversion module is used for converting the template format of the basic design template into a template which can be displayed through a webpage design interface so as to obtain the corresponding basic material picture and the corresponding editable object from the basic design template after the format conversion.

In addition, the display module is further configured to: and displaying prompt information of at least one group of design templates on the interface on the design interface through the display equipment.

Specifically, the obtaining module 1501 includes: the drawing unit is used for drawing the basic material picture and acquiring drawing parameters for drawing the basic material picture; and the adjusting unit is used for adjusting the drawing parameters and generating a plurality of corresponding material pictures as derived material pictures according to the adjusted drawing parameters.

And the drawn basic material picture can be displayed on a webpage interface.

In addition, the providing module is also used for providing a material design interface through the display equipment, the material design interface comprises the currently provided material, the drawing parameters and a region for adjusting the drawing parameters, and the material is composed of at least one material picture; the determining module is further used for determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the user on the drawing parameters; and the determining module is also used for determining the adjusted material picture through the display equipment according to the adjusted drawing parameter, and generating the adjusted material for display.

In addition, the providing module is also used for providing a plurality of display interfaces of the basic materials through the display equipment; and the selection module is also used for selecting the corresponding basic materials through the display equipment based on the selection operation of the user, so that a design interface of the materials is provided through the display equipment and is used for designing the selected basic materials.

In addition, the apparatus 1500 further comprises: and the setting module is used for setting prompt information of the drawing parameters and providing the prompt information through the display equipment so as to prompt a user to adjust the drawing parameters.

The materials comprise static materials and dynamic materials.

The dynamic materials comprise 2D dynamic materials and 3D dynamic materials.

In addition, for dynamic materials, the design interface of the materials comprises: a material generation area; the obtaining module 1501 is further configured to: and acquiring at least one corresponding material picture from the dynamic material through the display equipment as the generated material based on the generation operation of the user in the material generation area.

Furthermore, the obtaining module 1501 is further configured to: and acquiring a plurality of corresponding material pictures from the dynamic material through the display equipment based on the generation operation of the user in the material generation area, and generating the final dynamic material as the generated material.

And aiming at least one material picture in the dynamic material, the numerical values of at least part of material picture drawing parameters are transformed along with a preset transformation rule.

In addition, the display module is also used for displaying and saving information through display equipment based on the generation operation of the user in the material generation area, and the storage information is used for storing the generated material; the apparatus 1500 further comprises: and the storage module is used for storing the generated materials through the display equipment based on the storage operation of the user.

In addition, the generating module 1502 is further configured to save the drawing parameters or the adjusted drawing parameters through the display device based on an operation of saving the drawing parameters or the adjusted drawing parameters by the user, so as to generate a parameter file; the obtaining module 1501 is further configured to: acquiring a parameter file through display equipment based on uploading operation of a user; the generating module 1502 is further configured to generate and display a material corresponding to the parameter file on a design interface of the material through the display device based on a display operation of a user, where the design interface of the material includes a currently provided material, a drawing parameter, and an area for adjusting the drawing parameter; the determining module is further used for determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the user on the drawing parameters; and the determining module is also used for determining the adjusted material picture through the display equipment according to the adjusted drawing parameters and generating the adjusted material for display and storage.

In addition, the display module is also used for providing a plurality of materials through display equipment; the determining module is also used for determining the material selected by the user through the display equipment based on the searching operation of the user and searching the parameter file corresponding to the selected material; the saving module is also used for saving the parameter file through the display equipment based on the saving operation of the user; the obtaining module 1501 is further configured to obtain a parameter file through a display device based on an uploading operation of a user; the generating module 1502 is further configured to generate and display a material corresponding to the parameter file on a design interface of the material through the display device based on the display operation of the user, where the design interface of the material includes the currently provided material, the drawing parameter, and an area for adjusting the drawing parameter; the determining module is further used for determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user; and the determining module is also used for determining the adjusted material pictures through the display equipment according to the adjusted drawing parameters and generating the adjusted materials for display and storage.

Wherein, basic material picture includes: a background picture layer; the base material picture meets the quality condition.

Fig. 16 is a schematic structural framework diagram of a material generation apparatus according to still another exemplary embodiment of the present application. The apparatus 1600 may be applied to a server, such as a cloud server. The apparatus 1600 includes: the drawing module 1601 and the adjusting module 1602, the following detailed description is made for the functions of each module:

the drawing module 1601 is configured to draw a basic material picture, and acquire drawing parameters for drawing the basic material picture.

An adjusting module 1602, configured to adjust the drawing parameters, and generate a plurality of corresponding material pictures as derived material pictures according to the adjusted drawing parameters.

In addition, the apparatus 1600 further comprises: the system comprises a providing module, a display device and a control module, wherein the providing module is also used for providing a design interface of a material through the display device, the design interface of the material comprises the currently provided material, a drawing parameter and a region for adjusting the drawing parameter, and the material is composed of at least one material picture; the determining module is used for determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user; and the determining module is also used for determining the adjusted material picture through the display equipment according to the adjusted drawing parameters, and generating the adjusted material for display.

In addition, the apparatus 1600 further comprises: and the setting module is also used for setting prompt information of the drawing parameters and providing the prompt information through the display equipment so as to prompt a user to adjust the drawing parameters.

The materials comprise static materials and dynamic materials.

In addition, for dynamic materials, the design interface of the materials comprises: a material generation area; the apparatus 1600 further comprises: an acquisition module further configured to: and acquiring at least one corresponding material picture from the dynamic material through the display equipment as the generated material based on the generation operation of the user in the material generation area.

In addition, the obtaining module is further configured to: and acquiring a plurality of corresponding material pictures from the dynamic material through the display equipment based on the generation operation of the user in the material generation area, and generating the final dynamic material as the generated material.

And aiming at least one material picture in the dynamic material, the numerical values of at least part of material picture drawing parameters are converted along with a preset conversion rule.

In addition, the apparatus 1600 further comprises: the display template is used for displaying the storage information through the display equipment based on the generation operation of the user in the material generation area and used for storing the generated material; and saving the generated material through the display equipment based on the saving operation of the user.

In addition, the apparatus 1600 further comprises: the generation module is used for saving the drawing parameters or the adjusted drawing parameters through the display equipment based on the operation of saving the drawing parameters or the adjusted drawing parameters by the user to generate a parameter file; the acquisition module is also used for acquiring the parameter file through the display equipment based on the uploading operation of the user; the generating module is further used for generating and displaying the material corresponding to the parameter file on a design interface of the material through the display equipment based on the display operation of the user, wherein the design interface of the material comprises the currently provided material, the drawing parameters and an area for adjusting the drawing parameters; the acquisition module is also used for determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user; and the determining module is also used for determining the adjusted material picture through the display equipment according to the adjusted drawing parameters and generating the adjusted material for display and storage.

In addition, the providing module is also used for providing a plurality of materials through the display equipment; the apparatus 1600 further comprises: the providing module is also used for determining the material selected by the user through the display equipment based on the searching operation of the user and searching the parameter file corresponding to the selected material; the apparatus 1600 further comprises: the saving module is also used for saving the parameter file through the display equipment based on the saving operation of the user; the acquisition module is also used for acquiring the parameter file through the display equipment based on the uploading operation of the user; the generating module is further used for generating and displaying the material corresponding to the parameter file on a design interface of the material through the display equipment based on the display operation of the user, wherein the design interface of the material comprises the currently provided material, the drawing parameters and an area for adjusting the drawing parameters; the determining module is further used for determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the user on the drawing parameters; and the determining module is also used for determining the adjusted material picture through the display equipment according to the adjusted drawing parameters and generating the adjusted material for display and storage.

For parts that cannot be mentioned by the apparatus 1600, reference may be made to the contents of the apparatus 1500 described above.

Fig. 17 is a schematic structural framework diagram of a device for generating a design template according to another exemplary embodiment of the present application. The apparatus 1700 may be applied to an intelligent terminal, such as a computer. The apparatus 1700 includes: a module 1701 and a selection module 1702 are provided, and the functions of the respective modules are described in detail below:

a module 1701 is provided for providing a design interface for a design object.

A selecting module 1702, configured to respond to a selection operation of a user, by selecting a set of design templates on a design interface, where the set of design templates is composed of multiple design templates, and displaying the set of design templates selected by the user on the design interface, where the multiple design templates are generated according to multiple derived material pictures and multiple arrangement modes of editable objects on corresponding base material pictures, and the multiple derived material pictures are generated by transformation according to the corresponding base material pictures.

A selecting module 1702, configured to select one template from the plurality of design templates on the design interface in response to a selection operation of the user.

In addition, the apparatus 1700 further comprises: the display module is used for displaying the type of the design object on the design interface; a selecting module 1702, further configured to select a type of the design object on the design interface in response to a selection operation of the user; and the display module is also used for displaying at least one group of design templates corresponding to the selected type on the design interface according to the selected type.

In addition, the display module is further used for displaying the basic design templates on the design interface, at least part of the basic design templates in the basic design templates respectively correspond to the group of design templates, and the basic design templates are generated based on the basic material pictures.

In addition, the apparatus 1700 further comprises: and the determining module is used for displaying the selected template on the design interface and determining the corresponding template based on the confirmation operation of the user.

In addition, the display module is also used for displaying an editing area on the design interface and editing the editable object; and the determining module is further used for responding to the editing operation of the user in the editing area, determining the editing content of the editable object and displaying the editing content on the position of the corresponding editable object on the selected template.

In addition, the display module is also used for responding to the editing operation of the user and displaying an editing interface for editing the selected template; the apparatus 1700 further comprises: and the editing module is used for responding to the editing operation of the user on the template and editing the selected template.

In addition, the determining module is further configured to determine an identifier of the editable object, and edit the editable object according to the identifier.

In addition, the display module is also used for displaying prompt information that the interface has at least one group of design templates for display on the design interface.

The design templates are generated according to the sizes corresponding to the basic material pictures, the derivative material pictures and the corresponding arrangement modes.

For parts of the content that cannot be mentioned by the apparatus 1700, reference may be made to the content of the apparatus 1500 described above.

Fig. 18 is a schematic structural framework diagram of a material generation apparatus according to still another exemplary embodiment of the present application. The apparatus 1800 may be applied to an intelligent terminal, such as a computer. The apparatus 1800 includes: a module 1801 and a determining module 1802 are provided, and the functions of the respective modules are explained in detail as follows:

the providing module 1801 is configured to provide a design interface of a material, where the design interface of the material includes a currently provided material, a drawing parameter, and a region for adjusting the drawing parameter, and the material is composed of at least one material picture.

A determining module 1802, configured to determine an adjusted drawing parameter in response to an adjustment operation of the drawing parameter by a user.

A determining module 1802, configured to determine the adjusted material picture according to the adjusted drawing parameter, and generate an adjusted material for displaying.

In addition, the providing module 1801 is further configured to provide a display interface of the multiple basic materials; the apparatus 1800 further includes: and the selection module is used for responding to the selection operation of the user and selecting the corresponding basic materials so as to provide a material design interface for designing the selected basic materials.

Moreover, a module 1801 is provided for: and providing prompt information of the drawing parameters to prompt a user to adjust the drawing parameters.

Wherein, the material comprises static material and dynamic material.

In addition, for dynamic materials, the design interface of the materials comprises: a material generation area; the apparatus 1800 further includes: and the acquisition module is used for responding to the generation operation of the user in the material generation area, and acquiring at least one corresponding material picture from the dynamic material as the generated material.

In addition, the obtaining module is further configured to: in response to a generation operation of a user in the material generation area, corresponding multiple material pictures are acquired from the dynamic material, and a final dynamic material is generated as a generated material.

And aiming at least one material picture in the dynamic material, the numerical values of at least part of material picture drawing parameters are transformed along with a preset transformation rule.

Further, the apparatus 1800 further comprises: the display module is used for responding to the generation operation of the user in the material generation area, displaying the storage information and storing the generated material; the apparatus 1800 further includes: and the storage module is used for responding to the storage operation of the user and storing the generated material.

Further, the apparatus 1800 further comprises: the generating module is used for responding to the operation of saving the drawing parameters or the adjusted drawing parameters by a user, saving the drawing parameters or the adjusted drawing parameters and generating a parameter file; the acquisition module is also used for responding to the uploading operation of the user and acquiring the parameter file; the generating module is used for responding to the display operation of a user and generating and displaying the material corresponding to the parameter file on a design interface of the material, wherein the design interface of the material comprises the currently provided material, the drawing parameters and an area for adjusting the drawing parameters; a determining module 1803, further configured to determine, in response to an adjustment operation of the drawing parameter by the user, an adjusted drawing parameter; the determining module 1803 is further configured to determine an adjusted material picture according to the adjusted drawing parameter, and generate an adjusted material for displaying and saving.

Further, a module 1801 is provided for: providing a plurality of materials; responding to the searching operation of the user, determining the material selected by the user, and searching a parameter file corresponding to the selected material; the saving module is also used for responding to the saving operation of the user and saving the parameter file; the acquisition module is also used for responding to the uploading operation of the user and acquiring the parameter file; the generating module is also used for responding to the display operation of the user and generating and displaying the material corresponding to the parameter file on a design interface of the material, wherein the design interface of the material comprises the currently provided material, the drawing parameters and an area for adjusting the drawing parameters; a determining module 1803, further configured to determine, in response to an adjustment operation of the drawing parameter by the user, an adjusted drawing parameter; the determining module 1803 is further configured to determine an adjusted material picture according to the adjusted drawing parameter, and generate an adjusted material for displaying and saving.

Note that, as for part of the contents that cannot be mentioned in the apparatus 1800, the contents of the apparatus 1500 described above can be referred to.

Fig. 19 shows a schematic structural frame diagram of a poster design apparatus according to yet another exemplary embodiment of the present application. The apparatus 1900 may be applied to an intelligent terminal such as a computer. The apparatus 1900 includes: a module 1901 and a selection module 1902 are provided, and the functions of each module are described in detail below:

a module 1901 is provided for providing a design interface for a poster.

The selection module 1902 is configured to, in response to a selection operation of a user, select a set of poster design templates on a design interface, where the set of poster design templates is composed of a plurality of poster design templates, and display the set of poster design templates selected by the user on the design interface, where the plurality of poster design templates are generated according to multiple arrangement manners of derivative material pictures of a plurality of posters and editable objects on corresponding base poster material pictures, and the derivative material pictures of the plurality of posters are generated by transformation according to the corresponding base poster material pictures.

A selection module 1902, responsive to a selection operation by a user, selects one poster design template from a plurality of poster design templates on a design interface for use in completing a poster design.

Furthermore, the apparatus 1900 further comprises: the display module is used for displaying the type of the design object on the design interface; a selection module 1902, configured to select a poster design type on a design interface in response to a selection operation by a user; and the display module is used for displaying at least one group of poster design templates corresponding to the poster design types on the design interface according to the selected poster design types.

Furthermore, the apparatus 1900 further comprises: and the display module is used for displaying the selected poster design template on the design interface and determining the corresponding poster design template based on the confirmation operation of the user.

In addition, the display module is further configured to: an editing area is also displayed on the design interface and used for editing editable characters or editable images; the apparatus 1900 further comprises: and the determining module is used for responding to the editing operation of the user in the editing area, determining the editing content of the editable characters or the editable images and displaying the corresponding editable characters or editable images on the position of the selected poster design template.

The poster design templates are generated according to a plurality of sizes corresponding to corresponding basic poster material pictures, derivative material pictures of the posters and a plurality of corresponding arrangement modes.

For parts of the apparatus 1900 that cannot be mentioned, reference may be made to the contents of the apparatus 1500 described above.

Fig. 20 is a schematic structural framework diagram of a design device of an industrial card according to still another exemplary embodiment of the present application. The apparatus 2000 may be applied to an intelligent terminal, such as a computer. The apparatus 2000 comprises: a module 2001 and a selection module 2002 are provided, and the functions of the respective modules are explained in detail below:

a module 2001 is provided for providing a design interface for a work card.

The selection module 2002 is configured to, in response to a selection operation of a user, select a set of work card design templates on a design interface, where the set of work card design templates is composed of a plurality of work card design templates, and display the set of work card design templates selected by the user on the design interface, the plurality of work card design templates are generated according to derivative material pictures of the plurality of work card pictures and a plurality of arrangement modes of editable objects on corresponding base work card material pictures, and the derivative material pictures of the plurality of work card pictures are generated by transformation according to the corresponding base work card material pictures.

A selecting module 2002, configured to, in response to a selection operation of a user, select one work card design template from the plurality of work card design templates on the design interface, so as to complete the work card picture design.

Further, the apparatus 2000 further comprises: the display module is used for displaying the type of the design object on the design interface; the selection module 2002 is further configured to, in response to a selection operation of a user, select a design type of the industrial card on the design interface; and displaying at least one group of work card design templates corresponding to the work card design types on a design interface according to the selected work card design types.

In addition, the display module is further used for displaying the selected work card design template on the design interface, and determining the corresponding work card design template based on the confirmation operation of the user.

In addition, the display module is also used for displaying an editing area on the design interface, and is used for editing editable characters or editable images; the apparatus 2000 further comprises: and the determining module is used for responding to the editing operation of the user in the editing area, determining the editing content of the editable characters or the editable images, and displaying the editing content on the position of the corresponding editable characters or editable images on the selected work card design template.

The plurality of work card design templates are generated according to a plurality of sizes corresponding to the corresponding basic work card material pictures, derivative material pictures of the plurality of work card pictures and a plurality of corresponding arrangement modes.

For parts of the content that cannot be mentioned by the apparatus 2000, reference may be made to the content of the apparatus 1500 described above.

FIG. 21 is a schematic diagram illustrating a structural framework of a business card design device according to another exemplary embodiment of the present application. The apparatus 2100 may be applied to an intelligent terminal, such as a computer. The apparatus 2100 includes: a module 2101 and a selection module 2102 are provided, and the functions of the respective modules are explained in detail below:

a module 2101 is provided for providing a design interface for business cards.

The selection module 2102 is configured to select a set of business card design templates on a design interface in response to a selection operation of a user, where the set of business card design templates is composed of a plurality of business card design templates, and the set of business card design templates selected by the user is displayed on the design interface, the plurality of business card design templates are generated according to derivative material pictures of a plurality of business cards and a plurality of arrangement modes of editable objects on corresponding basic business card material pictures, and the derivative material pictures of the plurality of business cards are generated by transformation according to the corresponding basic business card material pictures.

A selecting module 2102 for selecting one business card design template from a plurality of business card design templates on a design interface for completing a business card design in response to a selection operation of a user.

Further, the apparatus 2100 further comprises: the display module is used for displaying the type of the design object on the design interface; a selecting module 2102, configured to select a name card design type on the design interface in response to a selection operation of a user; the selecting module 2102 is further configured to display at least one set of business card design templates corresponding to the business card design types on the design interface according to the selected business card design types.

In addition, the display module is also used for displaying the selected business card design template on the design interface and determining the corresponding business card design template based on the confirmation operation of the user.

In addition, the display module is also used for displaying an editing area on the design interface, and is used for editing editable characters or editable images; the apparatus 2100 further comprises: and the determining module is used for responding to the editing operation of the user in the editing area, determining the editing content of the editable characters or the editable images, and displaying the editing content on the position of the selected business card design template corresponding to the editable characters or the editable images.

The business card design templates are generated according to a plurality of sizes corresponding to the corresponding basic business card material pictures, derivative material pictures of the business cards and a plurality of corresponding arrangement modes.

For some contents that cannot be mentioned in the apparatus 2100, reference may be made to the contents of the apparatus 1500 described above.

Having described the internal functionality and structure of the apparatus 1500 shown in FIG. 15, in one possible design, the structure of the apparatus 1200 shown in FIG. 12 may be implemented as a computing device, such as a cloud server. As shown in fig. 22, the apparatus 2200 may include: memory 2201, processor 2202;

a memory 2201 for storing a computer program.

A processor 2202 for executing a computer program for: acquiring a basic material picture, and converting according to the basic material picture to generate a plurality of corresponding derivative material pictures; acquiring a plurality of arrangement modes of editable objects corresponding to the basic material picture on the basic material picture; and generating a plurality of design templates according to the plurality of derived material pictures and the corresponding plurality of arrangement modes.

Further, the processor 2202 is further configured to: determining a plurality of sizes corresponding to the basic material pictures, and generating a plurality of design templates according to the sizes, the derivative material pictures and the corresponding arrangement modes.

Further, the processor 2202 is further configured to: providing a design interface of a design object through display equipment; selecting a group of design templates on a design interface through display equipment based on selection operation of a user, wherein the group of design templates consists of a plurality of design templates, and displaying the group of design templates selected by the user on the design interface through the display equipment; and selecting one template from the plurality of design templates on the design interface through the display equipment based on the selection operation of the user.

Further, the processor 2202 is further configured to: displaying the type of the design object on a design interface through display equipment; selecting the type of a design object on a design interface through display equipment based on selection operation of a user; and displaying at least one group of design templates corresponding to the selected type on the design interface through the display equipment according to the selected type.

Further, the processor 2202 is further configured to: basic design templates are displayed on a design interface through display equipment, at least part of the basic design templates respectively correspond to a group of design templates, and the basic design templates are generated on the basis of basic material pictures.

Further, the processor 2202 is further configured to: and displaying the selected template on the design interface through the display equipment, and determining the corresponding template based on the confirmation operation of the user.

Further, the processor 2202 is further configured to: the editing area is also displayed on the design interface through the display equipment and is used for editing the editable object; and determining the editing content of the editable object through the display device based on the editing operation of the user in the editing area, and displaying the editing content on the position of the corresponding editable object in the selected template.

Further, the processor 2202 is further configured to: displaying an editing interface through display equipment based on the editing operation of a user for editing the selected template; and editing the selected template through the display equipment based on the template editing operation of the user.

Further, the processor 2202 is further configured to: and determining the identifier of the editable object, and editing the editable object through the display equipment according to the identifier.

Specifically, the processor 2202 is specifically configured to: acquiring a basic design template, and acquiring a basic material picture from the basic design template; the basic design template meets the quality condition.

Specifically, the processor 2202 is specifically configured to: obtaining description parameters for describing contents in the basic material pictures; and adjusting the description parameters, and generating a plurality of corresponding material pictures as derived material pictures according to the adjusted description parameters.

Further, the processor 2202 is further configured to: determining at least one editable object of the base design template and a position of the at least one editable object in the base design template; and adjusting the position to obtain at least one arrangement mode of at least one editable object in the basic design template.

Specifically, the processor 2202 is specifically configured to: and combining the derived material pictures and the arrangement modes corresponding to the editable objects to generate a plurality of design templates.

The design interface comprises a webpage design interface; a processor 2202 further configured to: and converting the template format of the basic design template into a template which can be displayed through a webpage design interface, so that the corresponding basic material picture and the corresponding editable object are obtained from the basic design template after the format is converted.

Further, the processor 2202 is further configured to: and displaying prompt information of the interface with at least one group of design templates on the design interface through the display equipment.

Specifically, the processor 2202 is specifically configured to: drawing a basic material picture, and acquiring drawing parameters for drawing the basic material picture; and adjusting the drawing parameters, and generating a plurality of corresponding material pictures as derived material pictures according to the adjusted drawing parameters.

And the drawn basic material picture can be displayed on a webpage interface.

Further, the processor 2202 is further configured to: providing a design interface of a material through display equipment, wherein the design interface of the material comprises the currently provided material, drawing parameters and a region for adjusting the drawing parameters, and the material is composed of at least one material picture; determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user; and determining the adjusted material picture through the display equipment according to the adjusted drawing parameters, and generating the adjusted material for display.

Further, the processor 2202 is further configured to: providing a plurality of display interfaces of basic materials through display equipment; and selecting the corresponding basic materials through the display equipment based on the selection operation of the user, so that a design interface of the materials is provided through the display equipment and is used for designing the selected basic materials.

Further, the processor 2202 is further configured to: and setting prompt information of the drawing parameters and providing the prompt information through the display equipment so as to prompt a user to adjust the drawing parameters.

Wherein, the material comprises static material and dynamic material.

The dynamic materials comprise 2D dynamic materials and 3D dynamic materials.

In addition, for dynamic materials, the design interface of the materials comprises: a material generation area; a processor 2202 further configured to: and acquiring at least one corresponding material picture from the dynamic material through the display equipment as the generated material based on the generation operation of the user in the material generation area.

Further, the processor 2202 is further configured to: and acquiring a plurality of corresponding material pictures from the dynamic material through the display equipment based on the generation operation of the user in the material generation area, and generating the final dynamic material as the generated material.

And aiming at least one material picture in the dynamic material, the numerical values of at least part of material picture drawing parameters are transformed along with a preset transformation rule.

Further, the processor 2202 is further configured to: displaying saving information through display equipment based on the generation operation of the user in the material generation area for saving the generated material; and saving the generated material through the display equipment based on the saving operation of the user.

Further, the processor 2202 is further configured to: saving the drawing parameters or the adjusted drawing parameters through the display equipment based on the operation of saving the drawing parameters or the adjusted drawing parameters by the user to generate a parameter file; acquiring a parameter file through display equipment based on uploading operation of a user; based on the display operation of a user, generating and displaying a material corresponding to the parameter file on a design interface of the material through display equipment, wherein the design interface of the material comprises the currently provided material, the drawing parameters and a region for adjusting the drawing parameters; determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user; and determining the adjusted material picture through the display equipment according to the adjusted drawing parameters, and generating the adjusted material for display and storage.

Further, the processor 2202 is further configured to: providing a plurality of materials through a display device; determining materials selected by a user through display equipment based on the searching operation of the user, and searching parameter files corresponding to the selected materials; saving the parameter file through the display equipment based on the saving operation of the user; acquiring a parameter file through display equipment based on uploading operation of a user; based on the display operation of a user, generating and displaying a material corresponding to the parameter file on a design interface of the material through display equipment, wherein the design interface of the material comprises the currently provided material, the drawing parameters and a region for adjusting the drawing parameters; determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user; and determining the adjusted material picture through the display equipment according to the adjusted drawing parameters, and generating the adjusted material for display and storage.

Wherein, basic material picture includes: a background picture layer; the base material picture meets the quality condition.

Additionally, embodiments of the present invention provide a computer storage medium, which when executed by one or more processors, causes the one or more processors to implement the steps of a method of generating a design template in the method embodiments of fig. 1-8.

While the internal functionality and structure of apparatus 1600 shown in FIG. 16 are described above, in one possible design, the structure of apparatus 1600 shown in FIG. 16 may be implemented as a computing device, such as a cloud server. The apparatus 2300 may include: a memory 2301, a processor 2302;

a memory 2301 for storing computer programs.

A processor 2302 for executing the computer program for: drawing a basic material picture, and acquiring drawing parameters for drawing the basic material picture; and adjusting the drawing parameters, and generating a plurality of corresponding material pictures as derived material pictures according to the adjusted drawing parameters.

Further, the processor 2302 is further configured to: providing a design interface of a material through display equipment, wherein the design interface of the material comprises the currently provided material, drawing parameters and a region for adjusting the drawing parameters, and the material is composed of at least one material picture; determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user; and determining the adjusted material picture through the display equipment according to the adjusted drawing parameters, and generating the adjusted material for display.

Further, the processor 2302 is further configured to: and setting prompt information of the drawing parameters and providing the prompt information through the display equipment so as to prompt a user to adjust the drawing parameters.

The materials comprise static materials and dynamic materials.

In addition, for dynamic materials, the design interface of the materials comprises: a material generation area; processor 2302, further configured to: and acquiring at least one corresponding material picture from the dynamic material through the display equipment as the generated material based on the generation operation of the user in the material generation area.

Further, the processor 2302 is further configured to: based on the generation operation of the user in the material generation area, a plurality of corresponding material pictures are acquired from the dynamic material through the display device, and the final dynamic material is generated as the generated material.

And aiming at least one material picture in the dynamic material, the numerical values of at least part of material picture drawing parameters are transformed along with a preset transformation rule.

Further, the processor 2302 is further configured to: displaying the saving information through the display equipment based on the generation operation of the user in the material generation area for saving the generated material; and saving the generated material through the display equipment based on the saving operation of the user.

Further, the processor 2302 is further configured to: saving the drawing parameters or the adjusted drawing parameters through the display equipment based on the operation of saving the drawing parameters or the adjusted drawing parameters by the user to generate a parameter file; acquiring a parameter file through display equipment based on uploading operation of a user; based on the display operation of a user, generating and displaying a material corresponding to the parameter file on a design interface of the material through display equipment, wherein the design interface of the material comprises the currently provided material, the drawing parameters and a region for adjusting the drawing parameters; determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user; and determining the adjusted material picture through the display equipment according to the adjusted drawing parameters, and generating the adjusted material for display and storage.

Further, the processor 2302 is further configured to: providing a plurality of materials through a display device; determining materials selected by a user through display equipment based on the searching operation of the user, and searching parameter files corresponding to the selected materials; saving the parameter file through the display equipment based on the saving operation of the user; acquiring a parameter file through display equipment based on uploading operation of a user; based on the display operation of a user, generating and displaying a material corresponding to the parameter file on a design interface of the material through display equipment, wherein the design interface of the material comprises the currently provided material, the drawing parameters and a region for adjusting the drawing parameters; determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user; and determining the adjusted material picture through the display equipment according to the adjusted drawing parameters, and generating the adjusted material for display and storage.

For some of the contents that the device 2300 fails to mention, reference may be made to the contents of the device 2200 described above.

In addition, embodiments of the present invention provide a computer storage medium, and when being executed by one or more processors, the computer program causes the one or more processors to implement the steps of a method for generating material in the method embodiment of fig. 9.

While the internal functions and structures of the apparatus 1700 shown in FIG. 17 have been described above, in one possible design, the structure of the apparatus 1700 shown in FIG. 17 may be implemented as a computing device, e.g., a smart terminal, a computer. The device 2400 may include: a memory 2401, a processor 2402;

a memory 2401 for storing computer programs.

A processor 2402 for executing the computer program for: providing a design interface of a design object; responding to selection operation of a user, selecting a group of design templates on a design interface, wherein the group of design templates consists of a plurality of design templates, displaying the group of design templates selected by the user on the design interface, generating the plurality of design templates according to a plurality of derivative material pictures and a plurality of arrangement modes of editable objects on the corresponding base material pictures, and transforming and generating the plurality of derivative material pictures according to the corresponding base material pictures; in response to a selection operation by a user, one template is selected from a plurality of design templates on a design interface.

Further, the processor 2402 is further configured to: displaying the type of the design object on a design interface; responding to the selection operation of a user, and selecting the type of the design object on the design interface; and displaying at least one group of design templates corresponding to the selected type on the design interface according to the selected type.

Further, the processor 2402 is further configured to: and displaying the basic design templates on the design interface, wherein at least part of the basic design templates respectively correspond to a group of design templates, and the basic design templates are generated based on the basic material pictures.

Further, the processor 2402 is further configured to: and displaying the selected template on the design interface, and determining the corresponding template based on the confirmation operation of the user.

Further, the processor 2402 is further configured to: an editing area is also displayed on the design interface and used for editing the editable object; in response to the editing operation of the user in the editing area, the editing content of the editable object is determined and displayed on the position of the corresponding editable object in the selected template.

Further, the processor 2402 is further configured to: responding to the editing operation of a user, and displaying an editing interface for editing the selected template; and responding to the editing operation of the template by the user, and editing the selected template.

Further, the processor 2402 is further configured to: and determining the identifier of the editable object, and editing the editable object according to the identifier.

Further, the processor 2402 is further configured to: and displaying the prompt message of the interface with at least one group of design template display on the design interface.

The plurality of design templates are generated according to a plurality of sizes corresponding to the basic material pictures, a plurality of derived material pictures and a plurality of corresponding arrangement modes.

Note that, as for part of contents that cannot be mentioned by the device 2400, the contents of the device 2200 described above may be referred to.

Additionally, embodiments of the present invention provide a computer storage medium, where the computer program, when executed by one or more processors, causes the one or more processors to implement the steps of a method for generating a design template in the method embodiment of fig. 10.

While the internal functions and structure of the apparatus 1800 shown in FIG. 18 have been described above, in one possible design, the structure of the apparatus 1800 shown in FIG. 18 may be implemented as a computing device, e.g., a smart terminal, a computer. The apparatus 2500 may include: a memory 2501, a processor 2502;

the memory 2501 stores computer programs.

A processor 2502 for executing the computer program for: providing a material design interface, wherein the material design interface comprises a currently provided material, a drawing parameter and a region for adjusting the drawing parameter, and the material is composed of at least one material picture; responding to the adjustment operation of a user on the drawing parameters, and determining the adjusted drawing parameters; and determining the adjusted material picture according to the adjusted drawing parameters, and generating the adjusted material for displaying.

Further, the processor 2502 is further configured to: providing a display interface of a plurality of basic materials; and responding to the selection operation of the user, and selecting the corresponding basic materials so as to provide a material design interface for designing the selected basic materials.

Further, the processor 2502 is further configured to: and providing prompt information of the drawing parameters to prompt a user to adjust the drawing parameters.

Wherein, the material comprises static material and dynamic material.

In addition, for dynamic materials, the design interface of the materials comprises: a material generation area; the processor 2502 is further configured to: and responding to the generation operation of the user in the material generation area, and acquiring at least one corresponding material picture from the dynamic material as the generated material.

Further, the processor 2502 is further configured to: in response to a generation operation of a user in the material generation area, corresponding multiple material pictures are acquired from the dynamic material, and a final dynamic material is generated as a generated material.

And aiming at least one material picture in the dynamic material, the numerical values of at least part of material picture drawing parameters are transformed along with a preset transformation rule.

Further, the processor 2502 is further configured to: in response to the generation operation of the user in the material generation area, displaying the saving information for saving the generated material; the generated material is saved in response to a save operation by the user.

Further, the processor 2502 is further configured to: responding to the operation of saving the drawing parameters or the adjusted drawing parameters by a user, saving the drawing parameters or the adjusted drawing parameters, and generating a parameter file; responding to the uploading operation of a user, and acquiring a parameter file; responding to the display operation of a user, generating and displaying a material corresponding to the parameter file on a design interface of the material, wherein the design interface of the material comprises the currently provided material, the drawing parameters and a region for adjusting the drawing parameters; responding to the adjustment operation of a user on the drawing parameters, and determining the adjusted drawing parameters; and determining the adjusted material picture according to the adjusted drawing parameters, and generating the adjusted material for displaying and storing.

Further, the processor 2502 is further configured to: providing a plurality of materials; responding to the searching operation of the user, determining the material selected by the user, and searching a parameter file corresponding to the selected material; responding to the saving operation of the user, and saving the parameter file; responding to the uploading operation of a user, and acquiring a parameter file; responding to the display operation of a user, generating and displaying a material corresponding to the parameter file on a design interface of the material, wherein the design interface of the material comprises the currently provided material, the drawing parameters and a region for adjusting the drawing parameters; responding to the adjustment operation of a user on the drawing parameters, and determining the adjusted drawing parameters; and determining the adjusted material picture according to the adjusted drawing parameters, and generating the adjusted material for displaying and storing.

For some of the contents that cannot be mentioned in the apparatus 2500, reference may be made to the contents of the apparatus 2200 described above.

In addition, embodiments of the present invention provide a computer storage medium, and the computer program, when executed by one or more processors, causes the one or more processors to implement the steps of a method for generating material in the method embodiment of fig. 11.

While the internal functions and structures of the apparatus 1900 shown in FIG. 19 are described above, in one possible design, the structures of the apparatus 1900 shown in FIG. 19 may be implemented as a computing device, e.g., a smart terminal, a computer. The device 2600 may include: memory 2601, processor 2602;

a memory 2601 for storing computer programs.

A processor 2602 for executing the computer program for: providing a design interface for the poster; responding to selection operation of a user, selecting a group of poster design templates on a design interface, wherein the group of poster design templates consists of a plurality of poster design templates, displaying the group of poster design templates selected by the user on the design interface, generating the plurality of poster design templates according to derivative material pictures of a plurality of posters and a plurality of arrangement modes of editable objects on corresponding basic poster material pictures, and transforming and generating the derivative material pictures of the plurality of posters according to the corresponding basic poster material pictures; in response to a selection operation by a user, selecting one poster design template from a plurality of poster design templates on a design interface for use in completing poster design.

Further, the processor 2602 is further configured to: displaying the type of the design object on a design interface; responding to the selection operation of the user, and selecting a poster design type on a design interface; and displaying at least one group of poster design templates corresponding to the poster design types on the design interface according to the selected poster design types.

Further, the processor 2602 is further configured to: and displaying the selected poster design template on a design interface, and determining the corresponding poster design template based on the confirmation operation of the user.

Further, the processor 2602 is further configured to: an editing area is also displayed on the design interface and used for editing editable characters or editable images; in response to an editing operation by a user in the editing area, the editing contents of the editable text or the editable image are determined and displayed on the position of the corresponding editable text or the editable image on the selected poster design template.

The poster design templates are generated according to a plurality of sizes corresponding to corresponding basic poster material pictures, derivative material pictures of the posters and a plurality of corresponding arrangement modes.

For some contents that cannot be mentioned in the device 2600, reference may be made to the contents of the device 2200 described above.

Additionally, embodiments of the present invention provide a computer storage medium, which when executed by one or more processors, causes the one or more processors to implement the steps of a method of designing a poster in the method embodiment of FIG. 12.

While the internal functions and structures of the apparatus 2000 shown in fig. 20 have been described above, in one possible design, the structure of the apparatus 2000 shown in fig. 20 may be implemented as a computing device, e.g., a smart terminal, a computer. The apparatus 2700 may include: memory 2701, processor 2702;

the memory 2701 is used to store computer programs.

A processor 2702 configured to execute the computer program for: providing a design interface of the work card; responding to selection operation of a user, selecting a group of work card design templates on a design interface, wherein the group of work card design templates consists of a plurality of work card design templates, displaying the group of work card design templates selected by the user on the design interface, generating the plurality of work card design templates according to derivative material pictures of the plurality of work card pictures and a plurality of arrangement modes of editable objects on corresponding basic work card material pictures, and transforming and generating the derivative material pictures of the plurality of work card pictures according to the corresponding basic work card material pictures; and responding to the selection operation of the user, and selecting one worker card design template from the plurality of worker card design templates on the design interface for finishing the worker card picture design.

Further, the processor 2702 is further configured to: displaying the type of the design object on a design interface; responding to the selection operation of a user, and selecting a design type of the industrial card on a design interface; and displaying at least one group of work card design templates corresponding to the work card design types on a design interface according to the selected work card design types.

Further, the processor 2702 is further configured to: and displaying the selected work card design template on a design interface, and determining the corresponding work card design template based on the confirmation operation of the user.

Further, the processor 2702 is further configured to: an editing area is also displayed on the design interface and used for editing editable characters or editable images; in response to the editing operation of the user in the editing area, the editing content of the editable characters or the editable images is determined and displayed on the positions of the corresponding editable characters or editable images in the selected work card design template.

The plurality of work card design templates are generated according to a plurality of sizes corresponding to the corresponding basic work card material pictures, derivative material pictures of the plurality of work card pictures and a plurality of corresponding arrangement modes.

Note that, as for some of the contents that cannot be mentioned in the apparatus 2700, the contents of the apparatus 2200 described above may be referred to.

Additionally, embodiments of the present invention provide a computer storage medium, where the computer program, when executed by one or more processors, causes the one or more processors to implement the steps of a method for designing a work card in the method embodiment of fig. 13.

While the internal functions and structures of the apparatus 2100 illustrated in FIG. 21 are described above, in one possible design, the structures of the apparatus 2100 illustrated in FIG. 21 may be implemented as a computing device, e.g., a smart terminal, a computer. The device 2800 may include: a memory 2801, a processor 2802;

a memory 2801 for storing a computer program.

A processor 2802 to execute the computer program to: providing a design interface of the business card; responding to the selection operation of a user, selecting a group of name card design templates on a design interface, wherein the group of name card design templates consists of a plurality of name card design templates, displaying the group of name card design templates selected by the user on the design interface, generating the plurality of name card design templates according to derivative material pictures of a plurality of name cards and a plurality of arrangement modes of editable objects on corresponding basic name card material pictures, and transforming and generating the derivative material pictures of the plurality of name cards according to the corresponding basic name card material pictures; and responding to the selection operation of the user, and selecting one business card design template from the plurality of business card design templates on the design interface for completing the business card design.

Further, processor 2802 is further configured to: displaying the type of the design object on a design interface; responding to the selection operation of a user, and selecting a name card design type on a design interface; and displaying at least one group of business card design templates corresponding to the business card design types on a design interface according to the selected business card design types.

Further, processor 2802 is further configured to: and displaying the selected business card design template on a design interface, and determining the corresponding business card design template based on the confirmation operation of the user.

Further, processor 2802 is further configured to: an editing area is also displayed on the design interface and used for editing editable characters or editable images; in response to the editing operation of the user in the editing area, the editing content of the editable text or the editable image is determined and displayed on the position of the corresponding editable text or the editable image on the selected business card design template.

The business card design templates are generated according to a plurality of sizes corresponding to the corresponding basic business card material pictures, derivative material pictures of the business cards and a plurality of corresponding arrangement modes.

Note that, as for part of the contents that cannot be mentioned in the apparatus 2800, the contents of the apparatus 2200 described above can be referred to.

In addition, an embodiment of the present invention provides a computer storage medium, and the computer program, when executed by one or more processors, causes the one or more processors to implement the steps of a design method for a business card in the method embodiment of fig. 14.

In addition, in some of the flows described in the above embodiments and the drawings, a plurality of operations are included in a specific order, but it should be clearly understood that the operations may be executed out of the order presented herein or in parallel, and the sequence numbers of the operations, such as 201, 202, 203, etc., are merely used for distinguishing different operations, and the sequence numbers themselves do not represent any execution order. Additionally, the flows may include more or fewer operations, and the operations may be performed sequentially or in parallel. It should be noted that, the descriptions of "first", "second", etc. in this document are used for distinguishing different messages, devices, modules, etc., and do not represent a sequential order, nor do they limit the types of "first" and "second".

The above-described embodiments of the apparatus are merely illustrative, and 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 modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by adding a necessary general hardware platform, and of course, can also be implemented by a combination of hardware and software. With this understanding in mind, the above-described aspects and portions of the present technology which contribute substantially or in part to the prior art may be embodied in the form of a computer program product, which may be embodied on one or more computer-usable storage media having computer-usable program code embodied therein, including without limitation disk storage, CD-ROM, optical storage, and the like.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable multimedia data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable multimedia data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable multimedia data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable multimedia data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

In a typical configuration, a computing device includes one or more processors (CPUs), input/output interfaces, network interfaces, and memory.

The memory may include forms of volatile memory in a computer readable medium, Random Access Memory (RAM) and/or non-volatile memory, such as Read Only Memory (ROM) or flash memory (flash RAM). Memory is an example of a computer-readable medium.

Computer-readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, phase change memory (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), Digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape magnetic disk storage or other magnetic storage devices, or any other non-transmission medium that can be used to store information that can be accessed by a computing device. As defined herein, a computer readable medium does not include a transitory computer readable medium such as a modulated data signal and a carrier wave.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (30)

1. A method for generating a design template, comprising:

acquiring a basic material picture, and converting according to the basic material picture to generate a plurality of corresponding derivative material pictures;

acquiring a plurality of arrangement modes of editable objects corresponding to the basic material picture on the basic material picture;

and generating a plurality of design templates according to the plurality of derived material pictures and the corresponding plurality of arrangement modes.

2. The method of claim 1, further comprising:

and determining a plurality of sizes corresponding to the base material pictures, and generating a plurality of design templates according to the sizes, the derivative material pictures and the corresponding arrangement modes.

3. The method of claim 1, further comprising:

providing a design interface of a design object through display equipment;

selecting a group of design templates on a design interface through the display equipment based on selection operation of a user, wherein the group of design templates consists of a plurality of design templates, and displaying the group of design templates selected by the user on the design interface through the display equipment;

and selecting one template from a plurality of design templates on the design interface through the display equipment based on the selection operation of the user.

4. The method of claim 3, further comprising:

displaying the type of the design object on the design interface through the display equipment;

selecting the type of a design object on the design interface through the display equipment based on the selection operation of a user;

and displaying at least one group of design templates corresponding to the selected type on a design interface through the display equipment according to the selected type.

5. The method of claim 3 or 4, further comprising:

and displaying basic design templates on a design interface through the display equipment, wherein at least part of the basic design templates respectively correspond to a group of design templates, and the basic design templates are generated based on the basic material pictures.

6. The method of claim 3, further comprising:

displaying an editing area on a design interface through the display equipment for editing the editable object;

and determining the editing content of the editable object through the display equipment based on the editing operation of the user in the editing area, and displaying the editing content on the position of the corresponding editable object in the selected template.

7. The method of claim 1, wherein obtaining the base material picture comprises:

acquiring a basic design template, and acquiring a basic material picture from the basic design template; the basic design template meets the quality condition.

8. The method according to claim 1, wherein the transforming from the base material picture to generate a plurality of corresponding derivative material pictures comprises:

obtaining description parameters for describing contents in the basic material picture;

and adjusting the description parameters, and generating a plurality of corresponding material pictures as the derived material pictures according to the adjusted description parameters.

9. The method of claim 1, further comprising:

determining at least one editable object of the base design template and a position of the at least one editable object in the base design template;

and adjusting the position to obtain at least one arrangement mode of the at least one editable object in the basic design template.

10. The method of claim 3, wherein the design interface comprises a web design interface; the method further comprises the following steps:

and converting the template format of the basic design template into a template which can be displayed through a webpage design interface, so that the corresponding basic material picture and the corresponding editable object are obtained from the basic design template after the format is converted.

11. The method according to claim 1, wherein the obtaining of the base material picture, the transforming based on the base material picture, and the generating of the plurality of corresponding derived material pictures comprises:

drawing a basic material picture, and acquiring drawing parameters for drawing the basic material picture;

and adjusting the drawing parameters, and generating a plurality of corresponding material pictures as the derived material pictures according to the adjusted drawing parameters.

12. The method of claim 11, further comprising:

providing a design interface of a material through display equipment, wherein the design interface of the material comprises the currently provided material, drawing parameters and a region for adjusting the drawing parameters, and the material is composed of at least one material picture;

determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user;

and determining the adjusted material picture through the display equipment according to the adjusted drawing parameters, and generating the adjusted material for display.

13. The method of claim 12, further comprising:

providing a plurality of display interfaces of basic materials through display equipment;

and selecting the corresponding basic materials through the display equipment based on the selection operation of the user, so that a design interface of the materials is provided through the display equipment and is used for designing the selected basic materials.

14. The method of claim 12, wherein the material comprises static material and dynamic material.

15. The method of claim 12, wherein for dynamic assets, the design interface for the assets comprises: a material generation area; the method further comprises the following steps:

and acquiring at least one corresponding material picture from the dynamic material through the display equipment as the generated material based on the generation operation of the user in the material generation area.

16. The method of claim 15, further comprising:

and acquiring a plurality of corresponding material pictures from the dynamic material through the display equipment based on the generation operation of the user in the material generation area, and generating the final dynamic material as the generated material.

17. The method of claim 11, further comprising:

providing a plurality of materials through a display device;

determining materials selected by a user through display equipment based on the searching operation of the user, and searching parameter files corresponding to the selected materials;

saving the parameter file through the display equipment based on the saving operation of the user;

acquiring a parameter file through display equipment based on uploading operation of a user;

based on the display operation of a user, generating and displaying a material corresponding to the parameter file on a design interface of the material through display equipment, wherein the design interface of the material comprises the currently provided material, drawing parameters and an area for adjusting the drawing parameters;

determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user;

and determining the adjusted material picture through the display equipment according to the adjusted drawing parameters, and generating the adjusted material for display and storage.

18. The method of claim 1, wherein the base material picture comprises: a background picture layer; the base material picture meets the quality condition.

19. A method for generating a material, comprising:

drawing a basic material picture, and acquiring drawing parameters for drawing the basic material picture;

and adjusting the drawing parameters, and generating a plurality of corresponding material pictures as derived material pictures according to the adjusted drawing parameters.

20. The method of claim 19, further comprising:

providing a design interface of a material through display equipment, wherein the design interface of the material comprises the currently provided material, drawing parameters and a region for adjusting the drawing parameters, and the material is composed of at least one material picture;

determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user;

and determining the adjusted material picture through the display equipment according to the adjusted drawing parameters, and generating the adjusted material picture for displaying.

21. The method of claim 20, further comprising:

providing a plurality of materials through a display device;

determining materials selected by a user through display equipment based on the searching operation of the user, and searching parameter files corresponding to the selected materials;

saving the parameter file through the display equipment based on the saving operation of the user;

acquiring a parameter file through display equipment based on uploading operation of a user;

based on the display operation of a user, generating and displaying a material corresponding to the parameter file on a design interface of the material through display equipment, wherein the design interface of the material comprises the currently provided material, drawing parameters and an area for adjusting the drawing parameters;

determining the adjusted drawing parameters through the display equipment based on the adjustment operation of the drawing parameters by the user;

and determining the adjusted material picture through the display equipment according to the adjusted drawing parameters, and generating the adjusted material for display and storage.

22. A method for generating a design template, comprising:

providing a design interface of a design object;

responding to selection operation of a user, selecting a group of design templates on a design interface, wherein the group of design templates consists of a plurality of design templates, displaying the group of design templates selected by the user on the design interface, generating the plurality of design templates according to a plurality of derived material pictures and a plurality of arrangement modes of editable objects on the corresponding basic material pictures, and generating the plurality of derived material pictures by conversion according to the corresponding basic material pictures;

in response to a selection operation by a user, one template is selected from a plurality of design templates on a design interface.

23. The method of claim 22, further comprising:

displaying the type of the design object on the design interface;

responding to the selection operation of a user, and selecting the type of the design object on the design interface;

and displaying at least one group of design templates corresponding to the selected type on the design interface according to the selected type.

24. A method for generating a material, comprising:

providing a material design interface, wherein the material design interface comprises a currently provided material, a drawing parameter and a region for adjusting the drawing parameter, and the material is composed of at least one material picture;

responding to the adjustment operation of the user on the drawing parameters, and determining the adjusted drawing parameters;

and determining the adjusted material picture according to the adjusted drawing parameters, and generating the adjusted material for displaying.

25. The method of claim 24, further comprising:

providing a display interface of a plurality of basic materials;

and responding to the selection operation of the user, and selecting the corresponding basic materials so as to provide a material design interface for designing the selected basic materials.

26. A method of designing a poster, comprising:

providing a design interface for the poster;

responding to selection operation of a user, selecting a group of poster design templates on a design interface, wherein the group of poster design templates consists of a plurality of poster design templates, displaying the group of poster design templates selected by the user on the design interface, the plurality of poster design templates are generated according to derivative material pictures of a plurality of posters and a plurality of arrangement modes of editable objects on corresponding basic poster material pictures, and the derivative material pictures of the plurality of posters are generated by transformation according to the corresponding basic poster material pictures;

in response to a selection operation by a user, selecting one poster design template from a plurality of poster design templates on a design interface for completing a poster design.

27. A design method of a work card is characterized by comprising the following steps:

providing a design interface of the work card;

responding to selection operation of a user, selecting a group of work card design templates on a design interface, wherein the group of work card design templates consists of a plurality of work card design templates, displaying the group of work card design templates selected by the user on the design interface, generating the plurality of work card design templates according to derivative material pictures of the plurality of work card pictures and a plurality of arrangement modes of editable objects on corresponding basic work card material pictures, and generating the derivative material pictures of the plurality of work card pictures by conversion according to the corresponding basic work card material pictures;

and responding to the selection operation of the user, and selecting one worker card design template from the plurality of worker card design templates on the design interface for finishing the worker card picture design.

28. A design method of a business card is characterized by comprising the following steps:

providing a design interface of the business card;

responding to selection operation of a user, selecting a group of name card design templates on a design interface, wherein the group of name card design templates consists of a plurality of name card design templates, displaying the group of name card design templates selected by the user on the design interface, the plurality of name card design templates are generated according to derivative material pictures of a plurality of name cards and a plurality of arrangement modes of editable objects on corresponding basic name card material pictures, and the derivative material pictures of the plurality of name cards are generated by transformation according to the corresponding basic name card material pictures;

and responding to the selection operation of the user, and selecting one business card design template from the multiple business card design templates on the design interface for completing the business card design.

29. An electronic device, comprising: a processor and a memory, wherein the memory has stored thereon executable code that, when executed by the processor, causes the processor to perform the method of any of claims 1 to 28.

30. A computer-readable storage medium storing a computer program, wherein the computer program, when executed by one or more processors, causes the one or more processors to perform the steps of the method of any one of claims 1-28.

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