CN111739125B - Image generation method for clothing order - Google Patents

Abstract

An image generation method and device for clothing orders comprises a plurality of parameters for clothing orders by users; comprising the following steps: the full-image obtaining module is used for obtaining a full-image of the garment; the image processing module is used for setting the graph and/or the text corresponding to the selected value of one or more parameters in the full-image as a single image layer and setting a corresponding name for the single image layer; an image storage module for storing the processed full-image processed by the image processing module, wherein the processed full-image comprises a plurality of image layers, and names, graphics and/or characters of the plurality of image layers are stored in association with the plurality of parameters for clothing orders; and the order selection module is used for displaying parameters for the clothing order on a display unit of the user and obtaining parameter selection values for the clothing order of the user.

Description

Image generation method for clothing order

Technical Field

The present invention relates to an image generation method, and more particularly, to an image generation method for clothing orders.

Background

SVG is an image file format, which is known in english as Scalable Vector Graphics, meaning a scalable vector graphic. It was developed by the World Wide Web Consortium (W3C) alliance based on XML (Extensible Markup Language). Strictly speaking, it should be an open standard vector graphics language that allows you to design exciting, high resolution Web graphics pages. The user can directly trace the image with code, can turn on the SVG image with any word processing tool, can make the image interactive by changing part of the code, and can insert the image into HTML at any time to view through a browser.

The uniform is produced for large enterprises, is an important business of clothing production enterprises, and is mainly used as uniform for banks, securities companies and airlines. The business suit is herein a "standard product". However, the uniform of the business suit of each customer is not completely the same, for example, the cuffs have several buttons, the width of the neckline is slightly different, whether the pocket is opened or not, and the like. For example, three different post-slit openings are provided in the western style: without slit, single slit or double slit. For example, two different collar types are installed: a flat barge or a gun barge collar.

Thus, apparel enterprises have designed business suit standard products in advance, while allowing customers to select certain parameters (options) in an optional list. After the customer confirms all the options, a specific order is formed from which the business can produce. The automotive industry is also well known, allowing users to select the color, material, color of the interior, color of the vehicle, sunroof …, etc.

With the development of computer technology, the need for graphical presentation of orders arises. Theoretically, only a simple form is needed to describe the custom order clearly, as shown in the top left hand corner of FIG. 1. But in practice the business prefers the order of such a drawing and metallocene as shown in figure 1. This has two benefits: 1: the order is convenient and user-confirmed, some of the optional parameters are very specific terms, such as: a flat collar and a gun collar. It is clear that the general user sees this without knowing its specific meaning, and sees the graphics. 2: the order is conveniently executed by the production department. The human processing power for image information is far greater than for text information, and if the order is presented graphically, the possibility of errors occurring in the production department during processing is greatly reduced.

Then if the map corresponding to the combination of all parameters (options) can be made in advance and provided to the user for selection? Cannot be because there are too many parameters (options). For example, a business suit may have up to 20 selectable parameters (options), assuming two options per parameter, 100 ten thousand combinations. Thus, an exhaustive approach is not possible.

There is therefore a need for a method and apparatus for generating an image of a clothing order, the order comprising option values for a plurality of selectable parameters, the output of the apparatus being a graph comprising graphics and text. The most straightforward way to implement the above-described generation method is to generate a full graph, which is a graph containing all possible details. Setting a plurality of parameters, wherein each parameter is selected corresponding to one or more changes of the graph, and the change of part of characters on the graph can be caused. For each parameter, a corresponding partial graph is drawn and saved together, as in fig. 2. When an order is entered, the complete graph as in FIG. 1 can be formed by combining some of the graphs together according to the option values of the parameters.

For example, the current state of the art may employ the following methods to effect image generation of a clothing order. First, a drawing software AI (Adobe illustrator) is used to draw an image including all option correspondence details. In order to facilitate the final processing of the image, the graphic and text elements corresponding to each parameter option are stored in a specific layer, and the layer is given a corresponding name, for example: slit = no slit, slit = single slit, slit = double slit, collar = gun lapel, collar = flat lapel … …, and so on. Then, according to the parameters of the order, the display of one of the layers is turned off, for example, when the user selects "no slit", the two layers of "slit=single slit" and "slit=double slit" are turned off. The disadvantages of the above method are:

1: the operation is complicated, and the operation process is complicated because layers are closed layer by layer. 2: every user, whether facing the sales personnel of the customer or the craftsman of the production department, needs to install the whole set of drawing software. 3: the obtained image is separated from the order data, which is not beneficial to management.

Disclosure of Invention

In order to solve the above problems, an object of the present invention is to provide an image generating method and generating device for clothing orders, which provide a graphical representation of orders for customized production based on standard products. The method can be theoretically applied to industries such as clothing, automobiles, furniture and the like.

The technical scheme of the invention is as follows: an image generation apparatus for a clothing order, comprising a plurality of parameters for a clothing order by a user; comprising the following steps:

and the full-image obtaining module is used for obtaining a full-image of the garment, wherein the full-image is drawn through drawing software and comprises graphics and/or characters for expressing all parameters.

The image processing module is used for setting the graph and/or the text corresponding to the selected value of one or more parameters in the full-image as a single image layer and setting a corresponding name for the single image layer;

an image storage module for storing the processed full-image processed by the image processing module, wherein the processed full-image comprises a plurality of image layers, and names, graphics and/or characters of the plurality of image layers are stored in association with the plurality of parameters for clothing orders;

the order selection module is used for displaying parameters for the clothing order on a display unit of a user and obtaining parameter selection values for the clothing order of the user;

and the graphical order generation module is used for determining the hiding or displaying of the layers according to the parameter selected value of the user for the clothing order to generate the graphical order.

Preferably, the full image comprises at least one fixed layer comprising graphics and/or text that do not vary with the selected value of the parameter.

Preferably, the selected values of the parameters include, but are not limited to, flat collar, gun collar; no slit, single slit, double slit; the names of the layers include, but are not limited to, slit, collar type.

Further, the image generating device further comprises a text modification module, and the text modification processing module is used for modifying the text of the graphical order.

An image generation method for a clothing order, comprising the steps of:

a full-image obtaining step, namely drawing all graphics and/or characters corresponding to all parameters comprising the clothing order through drawing software to obtain a full-image of clothing;

an image processing step, namely setting a graph and/or a text corresponding to one or more parameters in the full-image as a single layer, and setting a corresponding name for the single layer;

and an image storage step: storing a processed full-image which is processed by the image processing module, wherein the processed full-image comprises a plurality of image layers, and names, graphics and/or characters of the plurality of image layers and parameters of the clothing order are stored in association with each other;

an order selection step of displaying parameters for clothing orders on a display unit of a user and obtaining parameter selection values for the clothing orders of the user;

and a graphical order generation step, wherein the hiding or displaying of the layer is determined according to the parameter selected value of the user for the clothing order, and the graphical order is generated.

Preferably, the image generating method for clothing orders further comprises the following steps:

s1, obtaining a selected value of each parameter for a user;

s2: reading a full-image;

s3, generating an empty order;

s4: judging whether unprocessed layers exist in the full-image or not; if not, displaying the order, and ending; if yes, enter S5;

s5: judging whether the unprocessed image layer accords with the selected condition of the parameter selected value of the user or not; if not, returning to the step S4, and if so, entering the step S6;

s6: generating a copy A of the unprocessed layer;

s7, modifying the characters in the copy A;

s8: and inserting the copy A into the empty order, and returning to S4.

Further, the step S5 of determining whether the unprocessed layer meets the selected condition of the selected value of the user includes:

s51, reading a certain layer of the full-image and selecting a value of each parameter by the user;

s52: determine if there is "="? If not, return "yes"; if yes, go to S53;

s53: assigning the front part of "=" to the character string N, and the rear part to the character string V;

s54, judging whether N can be found in all parameter arrays; if not, returning to 'NO'; if yes, go to S55;

s55: judging whether the selected value corresponding to the found parameter is equal to V, if not, returning to NO; if so, return "Yes".

Further, the step of modifying the text in the copy a in S7 includes:

s71, reading a certain layer of the full-image and selecting a value of each parameter by the user;

s72, judging whether unprocessed characters exist in the layer or not; if not, ending; if so, go to S73;

s73, judging whether the unprocessed character string S contains "="; if not, returning to S72; if yes, the front part of the "=" is assigned to the character string N, and the rear part is assigned to the character string V;

s74, judging whether N can be found in all parameter arrays; if not, returning to delete the text, and if so, changing the content of S into the selected value of the found parameter.

Preferably, the full image comprises at least one fixed layer comprising graphics and text that do not change with the user's selected value for each parameter.

Preferably, the selected values of the parameters include, but are not limited to, flat collar, gun collar; no slit, single slit, double slit; the names of the layers include, but are not limited to, slit, collar type. Optionally, the layer name = previous part (N).

The invention has the beneficial effects that: 1: the acquisition of the image and the storage of the order may be accomplished synchronously. 2: the images do not need to be stored, so that the problem of inconsistency possibly occurring when the order and the corresponding images are stored separately can be avoided. 3: besides the special software needed by the person drawing the image in the first step, the users in other links can process the order through the browser, so that the method can be used on the mobile phone, the ipad and other devices. And the mobile application is convenient. 4: the implementation cost is low, and widely used commercial software AI and SVG format supported by a browser are adopted, so that the cost for developing the application is very low, and the application is convenient to integrate into various different systems.

Drawings

FIG. 1 is a schematic diagram of an image of a clothing order according to the present invention;

FIG. 2 is a partial schematic view of a full image of the present invention;

FIG. 3 is a schematic diagram of a graphical order of the present invention;

FIG. 4 is a schematic flow chart of the present invention;

FIG. 5 is a flowchart illustrating the steps for determining whether the layer meets the selected condition in FIG. 4 according to the present invention;

FIG. 6 is a flow chart of the text step in copy A of the modified layer of FIG. 4 according to the present invention.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

As shown in figures 3, 4, 5 and 6,

an image generation apparatus for a clothing order, comprising a plurality of parameters for a clothing order by a user; comprising the following steps:

and the full-image obtaining module is used for obtaining a full-image of the garment, wherein the full-image is drawn through drawing software and comprises graphics and/or characters for expressing all parameters. For example, the full-image is one image including all the parameter item corresponding details of the garment drawn by using the drawing software AI (Adobe illustrator). Such as: slit = no slit, slit = single slit, slit = double slit, collar = gun lapel, collar = flat lapel …, and so on. (Note that AI is not necessarily used here, other drawing software with layer concepts are also possible, only AI is widely used, so AI is recommended.)

The image processing module is used for setting the graph and/or the text corresponding to each parameter in the full-image as a single layer and setting a corresponding name for the single layer; the full-image is processed to include a plurality of layers, and names of the plurality of layers are associated with parameters of the clothing order. The layer here is actually a collection of geometric elements. All geometric elements contained in a graphic file are split into subsets, each subset being a layer. Each subset may be named.

An image storage module for storing the processed full-image processed by the image processing module, wherein the processed full-image comprises a plurality of image layers, and names, graphics and/or characters of the plurality of image layers are stored in association with the plurality of parameters for clothing orders; for example, the full-image processed by the image processing module is saved as an SVG format file, the SVG happens to support the concept of element collection, and the name of the image layer is reserved in the file. The names of the layers can be used to determine which layers are hidden. Wherein names, graphics and/or text of the plurality of layers are stored in association with parameters of the clothing order; moreover, to facilitate the processing of SVG files by a program, the naming of the aforementioned layers is to be in compliance with rules, such as: collar = flat lapel.

The order selection module is used for displaying parameters for the clothing order on a display unit of a user and obtaining parameter selection values for the clothing order of the user;

and the graphical order generation module is used for determining the hiding or displaying of the layers according to the selected value of each parameter of the user to generate a graphical order. I.e. concealing all layers not specified in the SVG formatted file, thereby presenting the final graphical order on the display unit. Thus, the user does not need to save the graph designated by the order selection module, but only needs to save the parameters designated by the order selection module. When the order needs to be checked, the corresponding graphical order can be generated in real time according to the parameters appointed by the stored order selection module.

Preferably, the full image comprises at least one fixed layer comprising graphic data and/or text data which does not vary with the selected value of the parameter. Such as border lines of the order form, etc. These graphics are placed in a separate fixed layer that the display unit can fixedly display.

Preferably, the selected values of the parameters include, but are not limited to, flat collar, gun collar; no slit, single slit, double slit; the names of the layers include, but are not limited to, slit, collar type.

Further, the image generating device further comprises a text modification module, and the text modification processing module is used for modifying the text of the graphical order. The text modification processing module is used for selecting keywords from the SVG format file and then modifying the text of the graphical order according to the parameter value selected by the user. The method can reduce the number of the layers in the invention and reduce the workload of manufacturing the original graphic file.

An image generation method for a clothing order, comprising the steps of:

a full-image obtaining step, namely drawing all graphics and/or characters corresponding to all parameters comprising the clothing order through drawing software to obtain a full-image of clothing;

an image processing step, namely setting a graph and/or a text corresponding to each parameter in the full-image as a single layer, and setting a corresponding name for the single layer;

and an image storage step: storing a processed full-image which is processed by the image processing module, wherein the processed full-image comprises a plurality of image layers, and names, graphics and/or characters of the plurality of image layers and parameters of the clothing order are stored in association with each other;

an order selection step of displaying parameters for clothing orders on a display unit of a user and obtaining a selected value of each parameter for the user;

and a graphical order generation step, wherein the hiding or displaying of the layers is determined according to the selected value of each parameter of the user, so as to generate a graphical order.

Preferably, the image generating method for clothing orders further comprises the following steps:

s1, obtaining a selected value of each parameter for a user;

s2: reading a full-image;

s3, generating an empty order;

s4: judging whether unprocessed layers exist in the full-image or not; if not, displaying the order, and ending; if yes, enter S5;

s5: judging whether the unprocessed image layer accords with the selected condition of the selected value of the user or not; if not, returning to the step S4, and if so, entering the step S6;

s6: generating a copy A of the unprocessed layer;

s7, modifying the characters in the copy A;

s8: and inserting the copy A into the empty order, and returning to S4.

Further, the step S5 of determining whether the unprocessed layer meets the selected condition of the selected value of the user includes:

s51, reading a certain layer of the full-image and selecting a value of each parameter by the user;

s52: determine if there is "="? If not, return "yes"; if yes, go to S53;

s53: assigning the front part of "=" to the character string N, and the rear part to the character string V;

s54, judging whether N can be found in all parameter arrays; if not, returning to 'NO'; if yes, go to S55;

s55: judging whether the selected value corresponding to the found parameter is equal to V, if not, returning to NO; if so, return "Yes".

Further, the step of modifying the text in the copy a in S7 includes:

s71, reading a certain layer of the full-image and selecting a value of each parameter by the user;

s72, judging whether unprocessed characters exist in the layer or not; if not, ending; if so, go to S73;

s73, judging whether the unprocessed character string S contains "="; if not, returning to S72; if yes, the front part of the "=" is assigned to the character string N, and the rear part is assigned to the character string V;

s74, judging whether N can be found in all parameter arrays; if not, returning to delete the text, and if so, changing the content of S into the selected value of the found parameter.

The foregoing description relates only to certain embodiments of the present invention and it is intended that all alternatives and modifications as may be apparent to those skilled in the art based on the spirit of the invention are included within the scope of the invention as defined in the appended claims.

Claims (4)

1. An image generation method for a clothing order, comprising the steps of:

a full-image obtaining step, namely drawing all graphics and/or characters corresponding to all parameters comprising the clothing order through drawing software to obtain a full-image of clothing;

an image processing step, namely setting a graph and/or a text corresponding to each parameter in the full-image as a single layer, and setting a corresponding name for the single layer;

and an image storage step: storing a full-image processed by the image processing step, wherein the processed full-image comprises a plurality of image layers, and names, graphics and/or characters of the plurality of image layers and parameters of the clothing order are stored in association with each other;

an order selection step of displaying parameters for clothing orders on a display unit of a user and obtaining a selected value of each parameter for the user;

a graphical order generation step, namely determining the hiding or displaying of the layer according to the selected value of each parameter of the user, and generating a graphical order;

the method also comprises the following steps:

s1: obtaining a user selected value for each parameter;

s2: reading a full-image;

s3: generating an empty order;

s4: judging whether unprocessed layers exist in the full-image or not; if not, displaying the order, and ending; if yes, enter S5;

s5: judging whether the layer accords with the selected condition of the selected value of the user; if not, returning to S4; if yes, enter S6;

s6: obtaining a copy A of the layer;

s7: modifying the text in copy a of the layer;

s8: inserting the copy A into the empty order, and returning to S4;

and S5, judging whether the layer meets the selected condition of the selected value of the user or not, wherein the step comprises the following steps:

s51: reading a certain layer of the full-image, and selecting a value for each parameter by the user;

s52: judging whether the name of the layer has "="; if not, return "yes"; if yes, go to S53;

s53: assigning the front part of "=" to the character string N, and the rear part to the character string V;

s54: judging whether N can be found in all parameter arrays; if not, returning to 'NO'; if yes, go to S55;

s55: judging whether the selected value corresponding to the found parameter is equal to V; if not, returning to 'NO'; if so, return "Yes".

2. The image generation method for clothing orders according to claim 1, wherein said S7 modifies text in copy a of the layer, comprising the steps of:

s71: reading a copy of one layer and the user's selected value for each parameter;

s72: judging whether unprocessed characters exist in the layer or not; if not, ending; if so, go to S73;

s73: judging whether the unprocessed character string S contains "="; if not, returning to S72; if yes, the front part of the "=" is assigned to the character string N, and the rear part is assigned to the character string V;

s74: judging whether N can be found in all parameter arrays; if not, returning to delete the text, and if so, changing the content of S into the selected value of the found parameter.

3. The image generation method for clothing orders according to claim 1, wherein the full image comprises at least one fixed layer comprising graphics and/or text that do not change with the change of the parameter options.

4. The image generation method for clothing orders according to claim 1, wherein the selected values of parameters include flat collar, gun collar; no slit, single slit, double slit; the name of the layer comprises a slit and a collar shape.