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Recombination method and recombination device for scalable vector graphic images

A technology of vector graphics and zooming, which is used in instruments, computing, electrical and digital data processing, etc., can solve the problems of low efficiency of scalable vector graphics and image processing, and achieve the effect of improving loading efficiency and positioning accuracy.

Active Publication Date: 2018-11-30
BAIDU ONLINE NETWORK TECH (BEIJIBG) CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] This application provides a reorganization method and reorganization device for scalable vector graphics images to solve the problems of low processing efficiency of scalable vector graphics images in the process of web page production

Method used

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  • Recombination method and recombination device for scalable vector graphic images
  • Recombination method and recombination device for scalable vector graphic images
  • Recombination method and recombination device for scalable vector graphic images

Examples

Experimental program
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Embodiment 1

[0025] This embodiment provides a method for recombining scalable vector graphics images, refer to figure 1 , shows a flow chart 100 of an embodiment of a reorganization method for a scalable vector graphics image, the recombination method 100 in this embodiment includes the following steps:

[0026] Step 101: Acquire a scalable vector graphics image;

[0027] In practice, the scalable vector graphics image is usually stored in a picture server. When processing a certain scalable vector graphics image, the scalable vector graphics image needs to be downloaded from the picture server to the local.

[0028] Step 102: Decompose the scalable vector graphics image into image units, and obtain the location information of the image units;

[0029] To perform corresponding processing on the scalable vector graphics image, the scalable vector graphics image needs to be decomposed into set image units first, and then each image unit is processed separately. At the same time, in order ...

Embodiment 2

[0065] This embodiment and Embodiment 1 belong to the same inventive concept, and this embodiment provides a reorganization device for scalable vector graphics images, refer to figure 2 , which shows a structural diagram of a reorganization device 200 for scalable vector graphics images, the recombination device 200 of this embodiment includes:

[0066] An image acquisition unit 201, configured to acquire a scalable vector graphics image;

[0067] In practice, the scalable vector graphics image is usually stored in a picture server. When processing a certain scalable vector graphics image, the scalable vector graphics image needs to be downloaded from the picture server to the local.

[0068] A location information acquiring unit 202, configured to decompose the scalable vector graphics image into image units, and acquire the location information of the image units;

[0069] To perform corresponding processing on the scalable vector graphics image, the scalable vector graphi...

Embodiment 3

[0104] The following describes the application in detail through an actual scenario.

[0105] The scalable vector graphic image of the present embodiment selects a humanoid image, such as image 3 As shown, the application is described in detail by taking the processing of humanoid images as an example, and the specific operation steps include:

[0106] Step 301: Acquire a humanoid image;

[0107] Step 302: Decompose the human figure image into image units, and obtain the position information of the image units;

[0108] Divide the specified part of the human figure image with the area dividing line ( image 3 The dotted line in ) is drawn, and the designated part includes the area of ​​the set part. Here the set part will be extracted as image unit. image 3 In , the area dividing line is used to select the leg figure of the humanoid image. First, the area containing the leg figure (ie, the specified part) is drawn with the area dividing line, and then the leg figure (ie,...

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PUM

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Abstract

A scalable vector graphic image reorganization method and reorganization apparatus. A particular embodiment of the method comprises: acquiring a scalable vector graphic image (101); decomposing the scalable vector graphic image into image units, and acquiring position information about the image units (102); loading the image units to a target page, and determining positions of the image units on the target page according to the position information (103); and combining the image units in the positions, and generating a reorganized scalable vector graphic image (104). The embodiment improves the processing efficiency of the scalable vector graphic image in a webpage making process.

Description

technical field [0001] The present application relates to the field of network technology, in particular to the field of network page image processing technology, and in particular to a reorganization method and device for scalable vector graphic images. Background technique [0002] Scalable Vector Graphics (Scalable Vector Graphics, SVG) is a graphic format used to describe two-dimensional vector graphics, which can be scaled arbitrarily without distortion, so it has been widely used in mobile terminals (such as mobile phones, tablets, etc.) widely used. With the widespread application of HTML5 (Hyper Text Markup Language, Hypertext Markup Language; 5 means version 5), the application of scalable vector graphic images in mobile terminals has been further strengthened. [0003] Mobile terminals have the advantages of portability and comprehensive functions, and are widely used in production and life. Since the screens of mobile terminals are designed by various merchants ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F17/30
CPCG06F16/00
Inventor 潘征王集鹄张可竞
Owner BAIDU ONLINE NETWORK TECH (BEIJIBG) CO LTD