CN113763542A - 3D legend embedding method and device of prototype tool and storage medium - Google Patents

Abstract

The invention discloses a 3D image mosaic method of a prototype tool, which obtains a required 3D image by modifying the parameters of the existing 3D image, then establishes a region model by an Axiure tool, edits an interactive event and introduces the required 3D image so as to generate a 3 DAxuure prototype in the Axiure tool, and solves the problem that the 3D image can not be mosaic in the Axiure prototype tool in the prior art. The invention also provides a 3D image mosaic device and a storage medium of the prototype tool.

Description

3D legend embedding method and device of prototype tool and storage medium

Technical Field

The present invention relates to an axis UE prototype design tool, and more particularly, to a 3D legend embedding method and apparatus for a prototype tool, and a storage medium.

Background

In the process of embodying abstract product requirements, the production of product prototypes is a key important process because it converts a large amount of information into visual graphics. For development designers of big data visualization platforms, a good big data visualization UE prototype is also indispensable in the development link. At present, in the process of data analysis and display facing various factors, a designer often cannot meet the needs of enterprises and individuals through a single two-dimensional image, and therefore, a three-dimensional image (a 3D image) is favored. However, the 3D image brings great trouble to prototype designers at the beginning of UE prototype design due to its abstract nature, so that the design of the 3D image in the UE prototype is urgent, but the existing 3D image cannot be directly embedded into the axis UE prototype tool, so that the designers cannot implement the prototype design of the 3D image.

Disclosure of Invention

In order to overcome the defects of the prior art, an object of the present invention is to provide a method for embedding a 3D legend in a prototype tool, which can solve the problem that the prior art cannot embed a 3D image in the prototype tool.

Another object of the present invention is to provide a 3D legend embedding apparatus for a prototype tool, which can solve the problem that the 3D image cannot be embedded in the prototype tool in the prior art.

It is a further object of the present invention to provide a storage medium that can solve the problem of the prior art that 3D images cannot be tessellated into a prototype tool.

One of the purposes of the invention is realized by adopting the following technical scheme:

a 3D image mosaicing method of a prototype tool, the 3D image mosaicing method comprising:

an image acquisition step: receiving a 3D image type, acquiring a 3D image according to the 3D image type and recording the 3D image as an initial 3D image, wherein the 3D image is a 3D ECharts image; and an image modification step: acquiring configuration parameters, modifying the parameters of the initial 3D image to obtain a required 3D image, and acquiring and storing a template code of the required 3D image;

a creating step: calling an Apure tool to create a region model and modifying the parameters and the names of the region model;

an interaction setting step: establishing interaction for the region model and setting an interaction event as opening an external link;

and an interactive event editing step: editing the link content of the interactive event of the area model, and introducing echarts.min.js and echarts-gl.min.js into the link content of the interactive event according to a preset format;

an insertion step: inserting a template code of the required 3D image into a corresponding position of a link content of an interaction event of the region model;

a prototype generation step: and generating a 3D Axiure prototype according to the region model and the link content of the interactive event.

Further, after the inserting step, the method further comprises:

judging whether the file format of the link content of the interactive event of the area model is correct or not, if so, executing a prototype generation step; if not, reinserting.

Further, after the prototype generating step, the method further comprises:

a previewing step: and acquiring a preview command and displaying the generated 3D Axiure prototype to a user.

Further, the image acquiring step specifically includes: the corresponding 3 decarts image is acquired by the ECharts official network and taken as the initial 3D image.

Further, the region model is any one of a rectangular model, an elliptical model and a triangular model.

Further, the parameters of the region model include the size, color, and position of the matrix.

The second purpose of the invention is realized by adopting the following technical scheme:

a 3D image mosaicking apparatus of a prototype tool, comprising a memory, a processor, and a computer program stored on the memory and running on the processor, the computer program being a 3D image mosaicking program, the processor implementing the following steps when executing the 3D image mosaicking program:

an image acquisition step: receiving a 3D image type, acquiring a 3D image according to the 3D image type and recording the 3D image as an initial 3D image, wherein the 3D image is a 3D ECharts image;

and an image modification step: acquiring configuration parameters, modifying the parameters of the initial 3D image to obtain a required 3D image, and acquiring and storing a template code of the required 3D image;

a creating step: calling an Apure tool to create a region model and modifying the parameters and the names of the region model;

an interaction setting step: establishing interaction for the region model and setting an interaction event as opening an external link;

and an interactive event editing step: editing the link content of the interactive event of the area model, and introducing echarts.min.js and echarts-gl.min.js into the link content of the interactive event according to a preset format;

an insertion step: inserting a template code of the required 3D image into a corresponding position of a link content of an interaction event of the region model;

a prototype generation step: and generating a 3D Axiure prototype according to the region model and the link content of the interactive event.

Further, after the inserting step, the method further comprises:

judging whether the file format of the link content of the interactive event of the area model is correct or not, if so, executing a prototype generation step; if not, reinserting.

Further, after the prototype generating step, the method further comprises a previewing step: and acquiring a preview command and displaying the generated 3D Axiure prototype to a user.

The third purpose of the invention is realized by adopting the following technical scheme:

a storage medium being a computer readable storage medium having stored thereon a computer program being a 3D image mosaic program, the 3D image mosaic program when executed by a processor implementing the steps of a 3D image mosaic method of a prototype tool as employed in one of the objects of the present invention.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the 3D image can be introduced into the Axiure prototype tool, so that the 3D image is embedded into the Axiure prototype tool, the 3 DAxiure prototype is displayed, the visualization development personnel of big data can understand the design requirement, and the working efficiency is improved.

Drawings

FIG. 1 is a flow chart of a 3D image mosaicing method for a prototype tool according to the present invention;

fig. 2 is a block diagram of a 3D image mosaic device of a prototype tool according to the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

Example one

The invention provides a method for embedding a 3D image into an Axuere prototype tool, which can display the 3D image in the Axure prototype tool, is beneficial to large data visualization developers to understand design requirements and improves working efficiency.

In particular, the present invention provides a preferred embodiment, a method for mosaicing a 3D image of a prototype tool, as shown in fig. 1, comprising the steps of:

and step S1, receiving the 3D image type, acquiring a 3D image according to the 3D image type and recording the 3D image as an initial 3D image.

In this embodiment, a 3D image type is first specified, and then a 3D image is obtained according to the specified 3D image type and is recorded as an initial 3D image, where the 3D image is a 3D image of ECharts.

Further, corresponding 3D ECharts images may be acquired through an ECharts official network. Specifically, the user may browse the ECharts example, which may show a variety of 3D ECharts image types, such as a bar graph, a line graph, a map, etc., by searching and opening an ECharts official website and then clicking; the 3D EChats image type is determined according to the needs of the user, and then an appropriate 3D EChats image is selected from the determined 3D EChats images to serve as an initial 3D image.

And step S2, acquiring configuration parameters and modifying the parameters of the initial 3D image to obtain a required 3D image. Because the 3D images in the ECharts website are all universal in style, in order to meet personalized requirements, a proper 3D image can be selected from the 3D images of the ECharts according to the requirements of the user, and then the parameters of the 3D image are modified to change the style of the 3D image so as to meet the requirements, namely the initial 3D image is converted into the required image.

When the parameters of the initial 3D image are changed, the style thereof is also changed, and the corresponding template code is also changed. Wherein, the modified parameters can be stored in the system in a pre-configured mode.

And step S3, acquiring and storing the template code of the required 3D image.

And step S4, creating a region model through the Acure tool and modifying the parameters and the name of the region model.

Wherein, the parameters of the region model include the size, color, position, etc. of the region. More specifically, the region model may be of many types, such as a rectangular model, an elliptical model, a triangular model, etc., so as to subsequently limit the presented 3D image to the region model.

And step S5, establishing interaction for the created area model and setting the interaction event as opening an external link.

There are many kinds of interaction events, which can be specifically set according to actual requirements. Such as opening an external link as an interactive event in this embodiment.

And step S6, opening and editing the link content of the interactive event, and simultaneously introducing echarts-min.js and echarts-gl.min.js into the link content of the interactive event according to a preset format.

The preset format is a preset unified format, and the codes of the preset format are as follows:

where echarts. min. js and echarts-gl. min. js are used to introduce external links, using the echart framework to draw the desired 3D image.

And step S7, inserting the modified template code of the 3D ECharts image example into the corresponding position of the link content of the interactive event, and ensuring the correctness of the format of the link content of the interactive event.

And step S8, generating a 3D Acure prototype according to the region model and the link content of the interaction event.

And step S9, acquiring a preview command and displaying the generated 3DAxure prototype to a user according to the preview command.

The user can determine interaction and issue the instruction of the preview prototype in the Axis tool, so that the Axis tool can show the generated 3DAxure prototype to the user, 3DECharts images are embedded in the Axis tool, the 3D Axis prototype is shown, large data visualization developers can understand design requirements, and working efficiency is improved.

Example two

The invention provides a 3D image mosaic device of a prototype tool. Fig. 2 is a schematic diagram illustrating an internal structure of a 3D image mosaic device of a prototype tool according to an embodiment of the present invention.

In this embodiment, the 3D image mosaic device of a prototype tool may be a PC (Personal Computer), or may be a terminal device such as a smart phone, a tablet Computer, or a portable Computer. The 3D image mosaic device of the prototype tool at least comprises: a processor 12, a communication bus 13, a network interface 14, and a memory 11.

The memory 11 includes at least one type of readable storage medium, which includes a flash memory, a hard disk, a multimedia card, a card type memory (e.g., SD or DX memory, etc.), a magnetic memory, a magnetic disk, an optical disk, and the like. The memory 11 may in some embodiments be an internal memory unit of the 3D image mosaic device of one prototype tool, for example a hard disk of the 3D image mosaic device of the one prototype tool. The memory 11 may be an external storage device of the 3D image mosaic device of the prototype tool in other embodiments, such as a plug-in hard disk provided on the 3D image mosaic device of the prototype tool, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), and the like. Further, the memory 11 may also include both an internal storage unit and an external storage device of the 3D image mosaic device of a prototype tool. The memory 11 may be used not only to store application software of a 3D image mosaic device installed in a prototype tool and various kinds of data, such as a code of a 3D image mosaic program, etc., but also to temporarily store data that has been output or will be output.

The processor 12 may be, in some embodiments, a Central Processing Unit (CPU), controller, microcontroller, microprocessor or other data Processing chip for executing program codes stored in the memory 11 or Processing data, such as executing a 3D image mosaic program.

The communication bus 13 is used to realize connection communication between these components.

The network interface 14 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface), typically used to establish a communication link between the 3D image mosaicking apparatus of the one prototype tool and other electronic devices.

Optionally, the 3D image mosaic device of the prototype tool may further comprise a user interface, which may comprise a Display (Display), an input unit such as a Keyboard (Keyboard), and the optional user interface may further comprise a standard wired interface, a wireless interface. Alternatively, in some embodiments, the display may be an LED display, a liquid crystal display, a touch-sensitive liquid crystal display, an OLED (Organic Light-Emitting Diode) touch device, or the like. The display, which may also be referred to as a display screen or display unit, is suitable for displaying information processed in a 3D image mosaic of a prototype tool and for displaying a visual user interface.

While FIG. 2 shows only a 3D image tessellation device having components 11-14 and a prototype tool of a 3D image tessellation program, those skilled in the art will appreciate that the structure shown in FIG. 2 does not constitute a limitation of a 3D image tessellation device of a prototype tool, and may include fewer or more components than shown, or some components in combination, or a different arrangement of components.

In the embodiment of the 3D image mosaic device of a prototype tool shown in fig. 2, the memory 11 stores a 3D image mosaic program; the processor 12, when executing the 3D image mosaic program stored in the memory 11, implements the steps of:

an image acquisition step: receiving a 3D image type, acquiring a 3D image according to the 3D image type and recording the 3D image as an initial 3D image, wherein the 3D image is a 3D ECharts image; and an image modification step: acquiring configuration parameters, modifying the parameters of the initial 3D image to obtain a required 3D image, and acquiring and storing a template code of the required 3D image;

a creating step: calling an Apure tool to create a region model and modifying the parameters and the names of the region model;

an interaction setting step: establishing interaction for the region model and setting an interaction event as opening an external link;

and an interactive event editing step: editing the link content of the interactive event of the area model, and introducing echarts.min.js and echarts-gl.min.js into the link content of the interactive event according to a preset format;

an insertion step: inserting a template code of the required 3D image into a corresponding position of a link content of an interaction event of the region model;

a prototype generation step: and generating a 3D Axiure prototype according to the region model and the link content of the interactive event.

Further, after the inserting step, the method further comprises:

judging whether the file format of the link content of the interactive event of the area model is correct or not, if so, executing a prototype generation step; if not, reinserting.

Further, after the prototype generating step, the method further comprises:

a previewing step: and acquiring a preview command and displaying the generated 3D Axiure prototype to a user.

Further, the image acquiring step specifically includes: the corresponding 3 decarts image is acquired by the ECharts official network and taken as the initial 3D image.

Further, the region model is any one of a rectangular model, an elliptical model and a triangular model.

Further, the parameters of the region model include the size, color, and position of the matrix.

EXAMPLE III

Based on the first embodiment provided by the present invention, the present invention further provides an embodiment, a storage medium, which is a computer readable storage medium, and a computer program is stored thereon, where the computer program is a 3D image mosaic program, and when executed by a processor, the 3D image mosaic program implements the following steps:

an image acquisition step: receiving a 3D image type, acquiring a 3D image according to the 3D image type and recording the 3D image as an initial 3D image, wherein the 3D image is a 3D ECharts image; and an image modification step: acquiring configuration parameters, modifying the parameters of the initial 3D image to obtain a required 3D image, and acquiring and storing a template code of the required 3D image;

a creating step: calling an Apure tool to create a region model and modifying the parameters and the names of the region model;

an interaction setting step: establishing interaction for the region model and setting an interaction event as opening an external link;

and an interactive event editing step: editing the link content of the interactive event of the area model, and introducing echarts.min.js and echarts-gl.min.js into the link content of the interactive event according to a preset format;

an insertion step: inserting a template code of the required 3D image into a corresponding position of a link content of an interaction event of the region model;

a prototype generation step: and generating a 3D Axiure prototype according to the region model and the link content of the interactive event.

Further, after the inserting step, the method further comprises:

judging whether the file format of the link content of the interactive event of the area model is correct or not, if so, executing a prototype generation step; if not, reinserting.

Further, after the prototype generating step, the method further comprises:

a previewing step: and acquiring a preview command and displaying the generated 3D Axiure prototype to a user.

Further, the image acquiring step specifically includes: the corresponding 3 decarts image is acquired by the ECharts official network and taken as the initial 3D image.

Further, the region model is any one of a rectangular model, an elliptical model and a triangular model.

Further, the parameters of the region model include the size, color, and position of the matrix.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (10)

1. A 3D image mosaicing method of a prototype tool, the 3D image mosaicing method comprising:

an image acquisition step: receiving a 3D image type, acquiring a 3D image according to the 3D image type and recording the 3D image as an initial 3D image, wherein the 3D image is a 3D ECharts image;

and an image modification step: acquiring configuration parameters, modifying the parameters of the initial 3D image to obtain a required 3D image, and acquiring and storing a template code of the required 3D image;

a creating step: calling an Apure tool to create a region model and modifying the parameters and the names of the region model;

an interaction setting step: establishing interaction for the region model and setting an interaction event as opening an external link;

and an interactive event editing step: editing the link content of the interactive event of the area model, and introducing echarts.min.js and echarts-gl.min.js into the link content of the interactive event according to a preset format;

an insertion step: inserting a template code of the required 3D image into a corresponding position of a link content of an interaction event of the region model;

a prototype generation step: and generating a 3D Axiure prototype according to the region model and the link content of the interactive event.

2. The method of 3D image mosaicking of a prototype tool according to claim 1, further comprising, after the inserting step:

judging whether the file format of the link content of the interactive event of the area model is correct or not, if so, executing a prototype generation step; if not, reinserting.

3. The method of 3D image mosaicking of a prototype tool according to claim 1, further comprising, after the prototype-generating step:

a previewing step: and acquiring a preview command and displaying the generated 3D Axiure prototype to a user.

4. 3D image mosaicking method of a prototype tool according to claim 1, wherein said image acquisition step comprises in particular: the corresponding 3D ECharts images are acquired by the ECharts official network and taken as the initial 3D images.

5. The 3D image mosaicking method of a prototype tool according to claim 1, wherein the region model is any one of a rectangular model, an elliptical model, and a triangular model.

6. The method of 3D image mosaicking of a prototype tool according to claim 1, wherein the parameters of the region model include size, color and position of the matrix.

7. A 3D image mosaicing apparatus of a prototype tool comprising a memory, a processor, and a computer program stored on the memory and running on the processor, the computer program being a 3D image mosaicing program, characterized in that: the processor implements the following steps when executing the 3D image mosaic program:

an image acquisition step: receiving a 3D image type, acquiring a 3D image according to the 3D image type and recording the 3D image as an initial 3D image, wherein the 3D image is a 3D ECharts image;

and an image modification step: acquiring configuration parameters, modifying the parameters of the initial 3D image to obtain a required 3D image, and acquiring and storing a template code of the required 3D image;

a creating step: calling an Apure tool to create a region model and modifying the parameters and the names of the region model;

an interaction setting step: establishing interaction for the region model and setting an interaction event as opening an external link;

and an interactive event editing step: editing the link content of the interactive event of the area model, and introducing echarts.min.js and echarts-gl.min.js into the link content of the interactive event according to a preset format;

an insertion step: inserting a template code of the required 3D image into a corresponding position of a link content of an interaction event of the region model;

a prototype generation step: and generating a 3D Axiure prototype according to the region model and the link content of the interactive event.

8. The 3D image tessellation device of the prototype tool of claim 7, further comprising, after the inserting step:

judging whether the file format of the link content of the interactive event of the area model is correct or not, if so, executing a prototype generation step; if not, reinserting.

9. The 3D image mosaic device of the prototype tool according to claim 7, further comprising a preview step after said prototype generating step: and acquiring a preview command and displaying the generated 3D Axiure prototype to a user.

10. A storage medium which is a computer-readable storage medium having stored thereon a computer program which is a 3D image mosaic program, characterized by: the 3D image tessellation program implementing the steps of a 3D image tessellation method of a prototype tool according to any one of claims 1 to 6 when executed by a processor.

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