CN115034841B - Intelligent shoe color matching method and device based on block positions and areas - Google Patents

Abstract

The embodiment of the invention discloses an intelligent shoe color matching method based on block positions and areas, which comprises the following steps: the method comprises the steps of obtaining shoe body blocks and design colors divided by a user, determining a pre-selected color priority according to the positions and the areas of the shoe body blocks, determining a pre-selected color matching sequence of each shoe body block based on the pre-selected color priority, determining the color matching color of each shoe body block according to the pre-selected color matching sequence and the design colors, and respectively configuring and displaying the corresponding color matching color determined by each shoe body block in the corresponding shoe body block. According to the scheme, the color matching efficiency of the shoe body and the user experience are remarkably improved.

Description

Intelligent shoe color matching method and device based on block positions and areas

Technical Field

The embodiment of the application relates to the field of intelligent design, in particular to an intelligent shoe color matching method and device based on block positions and areas.

Background

In the existing design system, as in the design of shoes, the design of the color of the shoe body is one of important design links, in the common design scheme, selectable color options are provided for designers to select respectively, different color settings are used for fixed blocks, the intelligent degree of the color matching mode is insufficient, and the color matching requirement of intelligent AI is not met.

In the prior art, as in the patent application with publication number CN105608614a, an online shoe customization method is disclosed, which comprises determining style, retrieving and identifying a component sample or model, customizing products and storing customized products, and simultaneously, an online shoe customization system is disclosed, which comprises a display module, a sample or model module, a component module, a retrieving and identifying module and a product generating module, and a terminal device of an online shoe customization system is disclosed, which realizes rapid customized personalized products, solves the homogenization problem of online products, and satisfies the increasing demands of users. However, in a specific customization process, a certain degree of intellectualization is not realized, and intelligent color matching design is not realized.

Disclosure of Invention

The embodiment of the invention provides an intelligent shoe body color matching method and device based on block positions and areas, solves the problems of poor color matching flexibility and no intelligence in the design of the shoe body in the prior art, and remarkably improves the color matching efficiency and user experience of the shoe body.

In a first aspect, an embodiment of the present invention provides a method for color matching of an intelligent shoe body based on a block position and an area, where the method includes:

acquiring shoe body blocks divided by a user and designing colors;

determining a pre-selected color priority according to the position and the area of the shoe body block, and determining a pre-selected color matching sequence of each shoe body block based on the pre-selected color priority;

and determining the color matching color of each shoe body block according to the pre-selected color matching sequence and the design color, and respectively configuring and displaying the corresponding color matching color determined by each shoe body block in the corresponding shoe body block.

Optionally, the determining the pre-selected color priority according to the position and the area of the shoe body block includes:

determining a first pre-selected color priority corresponding to each position according to the position of the shoe body block, and determining a second pre-selected color priority corresponding to each area according to the area of the shoe body block;

a preselected color priority is determined based on the first preselected color priority and the second preselected color priority.

Optionally, the determining a pre-selected color priority according to the first pre-selected color priority and the second pre-selected color priority includes:

and determining the pre-selected color priority according to the sorting result of each color in the first pre-selected color priority and the sorting result of each color in the second pre-selected color priority, wherein the method comprises the step of carrying out cross sorting on the sorting result to obtain the pre-selected color priority.

Optionally, the determining the pre-selected color matching sequence of each shoe body block based on the pre-selected color priority includes:

determining a plurality of color matching combinations based on the pre-selected color priority and the number of shoe body segments;

the color order in each color matching combination is determined as a preselected color matching order.

Optionally, the determining the color of each shoe body block according to the pre-selected color matching sequence and the design color includes:

determining the selection sequence of the design colors, and sequentially determining the sorting position of each design color in the preselected color matching sequence according to the selection sequence;

and determining the color matching color of the shoe body block corresponding to the pre-selected color sequence with the forefront sequencing position as the design color.

Optionally, the determining the color of each shoe body block according to the pre-selected color matching sequence and the design color includes:

determining the weight coefficient of the design color, and sequentially determining the sorting position of each design color in the pre-selected color matching sequence from high to low according to the weight coefficient;

and determining the color matching color of the shoe body block corresponding to the pre-selected color sequence with the forefront sequencing position as the design color.

Optionally, the configuring and displaying the determined color matching color of each shoe body block in the corresponding shoe body block includes:

and sequentially highlighting the corresponding color matching color determined by each shoe body block in the corresponding shoe body block.

In a second aspect, an embodiment of the present invention further provides an intelligent shoe color matching device based on a block position and an area, where the device includes:

the information acquisition module is configured to acquire shoe body blocks and design colors divided by a user;

a color matching sequence determination module configured to determine a preselected color priority based on the location and area of the shoe body blocks and to determine a preselected color matching sequence for each shoe body block based on the preselected color priority;

and the color matching module is configured to determine the color matching color of each shoe body block according to the pre-selected color matching sequence and the design color, and the corresponding color matching determined by each shoe body block is respectively configured and displayed in the corresponding shoe body block.

In a third aspect, an embodiment of the present invention further provides an intelligent shoe color matching apparatus based on a block position and an area, where the apparatus includes:

one or more processors;

storage means for storing one or more programs,

when the one or more programs are executed by the one or more processors, the one or more processors implement the intelligent shoe body color matching method based on the block positions and the areas according to the embodiment of the invention.

In a fourth aspect, embodiments of the present invention also provide a storage medium storing computer-executable instructions that, when executed by a computer processor, are configured to perform the intelligent shoe body color matching method based on block location and area according to embodiments of the present invention.

In the embodiment of the invention, the pre-selected color priority is determined according to the position and the area of the shoe body blocks by acquiring the shoe body blocks and the design colors divided by the user, the pre-selected color matching sequence of each shoe body block is determined based on the pre-selected color priority, the color matching color of each shoe body block is determined according to the pre-selected color matching sequence and the design colors, and the corresponding color matching color determined by each shoe body block is respectively configured and displayed in the corresponding shoe body block. According to the scheme, the color matching efficiency of the shoe body and the user experience are remarkably improved.

Drawings

FIG. 1 is a flow chart of an intelligent shoe color matching method based on block positions and areas according to an embodiment of the invention;

FIG. 2 is a flowchart of another intelligent shoe color matching method based on block position and area according to an embodiment of the present invention;

FIG. 3 is a block diagram of an intelligent shoe color matching device based on block positions and areas according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an intelligent shoe color matching device based on block positions and areas according to an embodiment of the present invention.

Detailed Description

Embodiments of the present invention will be described in further detail below with reference to the drawings and examples. It should be understood that the particular embodiments described herein are illustrative only and are not limiting of embodiments of the invention. It should be further noted that, for convenience of description, only some, but not all of the structures related to the embodiments of the present invention are shown in the drawings.

Fig. 1 is a flowchart of an intelligent shoe color matching method based on block positions and areas, which is provided in an embodiment of the present invention, and may be executed by a shoe color matching software system, and specifically includes the following steps:

step S101, obtaining shoe body blocks divided by a user and designing colors.

In one embodiment, the user may perform custom partitioning of the shoe body sections, such as painting a section on the surface of the shoe body model with a painting tool to obtain a plurality of different shoe body sections. The design color is the color of the filling the shoe body that the user wants to make, if the blue, white and black display options are checked, the corresponding blue, white and black colors are determined as the design color.

Step S102, determining a pre-selected color priority according to the position and the area of the shoe body block, and determining a pre-selected color matching sequence of each shoe body block based on the pre-selected color priority.

In one embodiment, after the shoe body segments are acquired, a pre-selected color priority is determined based on the location and area of each shoe body segment. The shoe body blocks are positioned at different positions according to different dividing modes, such as the side face of the shoe body, the front face of the shoe body, the bottom of the upper and the like, and the areas of the shoe body blocks obtained by the different dividing modes are also different. The area here refers to the area of the area surrounded by the boundaries of the shoe body block. Wherein the pre-selected color priority is priority information of a plurality of different colors, such as white priority higher than red for a certain block and red priority higher than white for another block.

In one embodiment, determining a preselected color priority based on the location and area of the shoe body segment comprises: determining a first pre-selected color priority corresponding to each position according to the position of the shoe body block, and determining a second pre-selected color priority corresponding to each area according to the area of the shoe body block; a preselected color priority is determined based on the first preselected color priority and the second preselected color priority. In particular, different color priorities are set for different locations, illustratively noted as first preselected color priorities; different color priorities are also provided for different area sizes, illustratively noted as second pre-selected color priorities. After determining the first pre-selected color priority and the second pre-selected color priority, respectively, a pre-selected color priority is determined based on the first pre-selected color priority and the second pre-selected color priority.

Alternatively, one way of determining may be: and determining the pre-selected color priority according to the sorting result of each color in the first pre-selected color priority and the sorting result of each color in the second pre-selected color priority, wherein the method comprises the step of carrying out cross sorting on the sorting result to obtain the pre-selected color priority. For example, for shoe body block 1, the color priorities determined according to the positions are blue, white, yellow and red, and the corresponding weight coefficients correspond to bits 4, 3, 2 and 1 in sequence; the priorities determined according to the areas are white, red, blue and yellow, and the corresponding weight coefficients correspond to bits 4, 3, 2 and 1 in sequence. And comprehensively calculating to obtain a weight coefficient of blue being 6, a weight coefficient of white being 7, a weight coefficient of yellow being 3 and a weight coefficient of red being 4, and obtaining color grades of white, blue, red and yellow from the highest weight to the lowest weight as the finally determined pre-selected color priority.

In one embodiment, a preselected color priority is obtained, and a preselected color matching sequence for each shoe body segment is determined based on the preselected color priority, wherein the preselected color matching sequence is the determined preselected, i.e., maximum desired, color matching sequence. Alternatively, the specific determination mode may be: determining a plurality of color matching combinations based on the pre-selected color priority and the number of shoe body segments; the color order in each color matching combination is determined as a preselected color matching order. For example, taking three shoe body blocks as an example, the pre-selected color priorities of the shoe body block 1 are red and yellow in sequence from high to low (two colors are included in each priority for convenience of explanation, the actual situation is multiple colors such as 6-7), the pre-selected color priorities of the shoe body block 2 are white and yellow in sequence from high to low, the pre-selected color priorities of the shoe body block 3 are black and yellow in sequence from high to low, and accordingly, the determined color matching combinations of the shoe body block 1, the shoe body block 2 and the shoe body block 3 comprise (meet the limitation requirement that the colors of different shoe body blocks are inconsistent): red, white and black; red, yellow, and black; red, white and yellow; yellow, white, and black. Namely, for the shoe body block 1, the shoe body block 2 and the shoe body block 3, the pre-selected color matching sequence includes: red, white and black; red, yellow, and black; red, white and yellow; yellow, white, and black.

And step 103, determining the color matching color of each shoe body block according to the pre-selected color matching sequence and the design color, and respectively configuring and displaying the corresponding color matching color determined by each shoe body block in the corresponding shoe body block.

In one embodiment, after the pre-selected color matching sequence of each shoe body block is determined, the color matching color of each shoe body block is determined based on the pre-selected color matching sequence and the design color, and the corresponding color matching determined by each shoe body block is respectively configured and displayed in the corresponding shoe body block.

Optionally, the determining the color of each shoe body block according to the pre-selected color matching sequence and the design color includes: determining the selection sequence of the design colors, and sequentially determining the sorting position of each design color in the preselected color matching sequence according to the selection sequence; and determining the color matching color of the shoe body block corresponding to the pre-selected color sequence with the forefront sequencing position as the design color. For example, assuming that the colors selected by the user are red, yellow, and blue in sequence, the first color combination of the first red color is determined in the pre-selected color matching sequence, if the red color in the shoe body block 2 is ranked earlier than the red color in the other shoe body blocks, the color of the shoe body block 2 is determined to be red, the first yellow color combination is determined in the pre-selected color matching sequence, if the yellow color in the shoe body block 1 is ranked earlier than the other shoe body blocks, the color of the shoe body block 2 is determined to be yellow, and so on until the design color is selected, where the number of default shoe body blocks and the type of the design color are consistent, if the number of the shoe body blocks and the type of the design color are inconsistent, the matching process of the shoe body blocks and the design color in different numbers is performed, and is described in other patents.

Optionally, the determining the color of each shoe body block according to the pre-selected color matching sequence and the design color includes: determining the weight coefficient of the design color, and sequentially determining the sorting position of each design color in the pre-selected color matching sequence from high to low according to the weight coefficient; and determining the color matching color of the shoe body block corresponding to the pre-selected color sequence with the forefront sequencing position as the design color. In another embodiment, instead of determining the shoe body blocks of each color in sequence according to the sequence of the user when selecting the design colors, the weight coefficients of the design colors are determined, that is, the user can set corresponding weight coefficients for different colors, the higher the weight coefficient is, the more the user wants to configure the main colors, and at this time, the sorting position of each design color in the pre-selected color matching sequence is determined in sequence from high to low according to the weight coefficients; and determining the color matching color of the shoe body block corresponding to the pre-selected color sequence with the forefront sequencing position as the design color.

Optionally, the configuring and displaying the determined color matching color of each shoe body block in the corresponding shoe body block includes: and sequentially highlighting the corresponding color matching color determined by each shoe body block in the corresponding shoe body block. That is, after the color matching is started, the color matching shoe body blocks are sequentially highlighted so as to clearly highlight the color matching effect.

According to the method, the pre-selected color priority is determined according to the position and the area of the shoe body blocks by acquiring the shoe body blocks and the design colors divided by the user, the pre-selected color matching sequence of each shoe body block is determined based on the pre-selected color priority, the color matching color of each shoe body block is determined according to the pre-selected color matching sequence and the design colors, and the corresponding color matching color determined by each shoe body block is respectively configured and displayed in the corresponding shoe body block. According to the scheme, the color matching efficiency of the shoe body and the user experience are remarkably improved. .

Fig. 2 is a flowchart of another intelligent shoe color matching method based on block positions and areas according to an embodiment of the present invention, and a specific and complete example is given as shown in fig. 2. The method specifically comprises the following steps:

step S201, obtaining shoe body blocks divided by a user and design colors.

Step S202, determining a first pre-selected color priority corresponding to each position according to the position of the shoe body block, and determining a second pre-selected color priority corresponding to each area according to the area of the shoe body block.

Step S203, determining a pre-selected color priority according to the sorting result of each color in the first pre-selected color priority and the sorting result of each color in the second pre-selected color priority, where the step includes cross sorting the sorting result to obtain the pre-selected color priority.

And step S204, determining a plurality of color matching combinations based on the pre-selected color priority and the number of shoe body blocks, and determining the color sequence in each color matching combination as a pre-selected color matching sequence.

Step S205, determining the selection sequence of the design colors, and sequentially determining the sorting position of each design color in the pre-selected color matching sequence according to the selection sequence; and determining the color matching color of the shoe body block corresponding to the pre-selected color sequence with the forefront sequencing position as the design color.

Step S206, the corresponding color matching color determined by each shoe body block is sequentially highlighted in the corresponding shoe body block.

According to the method, the pre-selected color priority is determined according to the position and the area of the shoe body blocks by acquiring the shoe body blocks and the design colors divided by the user, the pre-selected color matching sequence of each shoe body block is determined based on the pre-selected color priority, the color matching color of each shoe body block is determined according to the pre-selected color matching sequence and the design colors, and the corresponding color matching color determined by each shoe body block is respectively configured and displayed in the corresponding shoe body block. According to the scheme, the color matching efficiency of the shoe body and the user experience are remarkably improved.

Fig. 3 is a block diagram of a block position and area-based intelligent shoe color matching device according to an embodiment of the present invention, where the device is configured to execute the block position and area-based intelligent shoe color matching method according to the above embodiment, and the device has functional modules and beneficial effects corresponding to the execution method. As shown in fig. 3, the apparatus specifically includes: an information acquisition module 101, a color matching sequence determination module 102, and a color matching module 103, wherein,

an information acquisition module 101 configured to acquire a shoe body block divided by a user and a design color;

a color matching sequence determination module 102 configured to determine a preselected color priority based on the location and area of the shoe body segments and to determine a preselected color matching sequence for each shoe body segment based on the preselected color priority;

the color matching module 103 is configured to determine the color matching color of each shoe body block according to the pre-selected color matching sequence and the design color, and the corresponding color matching determined by each shoe body block is respectively configured and displayed in the corresponding shoe body block.

According to the scheme, the pre-selected color priority is determined according to the position and the area of the shoe body blocks by acquiring the shoe body blocks and the design colors divided by the user, the pre-selected color matching sequence of each shoe body block is determined based on the pre-selected color priority, the color matching color of each shoe body block is determined according to the pre-selected color matching sequence and the design colors, and the corresponding color matching color determined by each shoe body block is respectively configured and displayed in the corresponding shoe body block. According to the scheme, the color matching efficiency of the shoe body and the user experience are remarkably improved.

The specific functions executed by each module are as follows:

in one possible embodiment, the determining a pre-selected color priority based on the location and area of the shoe body segment comprises:

determining a first pre-selected color priority corresponding to each position according to the position of the shoe body block, and determining a second pre-selected color priority corresponding to each area according to the area of the shoe body block;

a preselected color priority is determined based on the first preselected color priority and the second preselected color priority.

In one possible embodiment, said determining a pre-selected color priority from said first pre-selected color priority and said second pre-selected color priority comprises:

and determining the pre-selected color priority according to the sorting result of each color in the first pre-selected color priority and the sorting result of each color in the second pre-selected color priority, wherein the method comprises the step of carrying out cross sorting on the sorting result to obtain the pre-selected color priority.

In one possible embodiment, the determining the pre-selected color matching order for each shoe body segment based on the pre-selected color priority comprises:

determining a plurality of color matching combinations based on the pre-selected color priority and the number of shoe body segments;

the color order in each color matching combination is determined as a preselected color matching order.

In one possible embodiment, said determining the color of each shoe body segment according to said pre-selected color sequence and said design color comprises:

determining the selection sequence of the design colors, and sequentially determining the sorting position of each design color in the preselected color matching sequence according to the selection sequence;

and determining the color matching color of the shoe body block corresponding to the pre-selected color sequence with the forefront sequencing position as the design color.

In one possible embodiment, said determining the color of each shoe body segment according to said pre-selected color sequence and said design color comprises:

determining the weight coefficient of the design color, and sequentially determining the sorting position of each design color in the pre-selected color matching sequence from high to low according to the weight coefficient;

and determining the color matching color of the shoe body block corresponding to the pre-selected color sequence with the forefront sequencing position as the design color.

In one possible embodiment, the configuring and displaying the determined color of each shoe body block in the corresponding shoe body block includes:

and sequentially highlighting the corresponding color matching color determined by each shoe body block in the corresponding shoe body block.

Fig. 4 is a schematic structural diagram of an intelligent shoe color matching device based on block positions and areas according to an embodiment of the present invention, as shown in fig. 4, the device includes a processor 201, a memory 202, an input device 203 and an output device 204; the number of processors 201 in the device may be one or more, one processor 201 being taken as an example in fig. 4; the processor 201, memory 202, input devices 203, and output devices 204 in the apparatus may be connected by a bus or other means, for example in fig. 4. The memory 202 is used as a computer readable storage medium for storing software programs, computer executable programs and modules, such as program instructions/modules corresponding to the intelligent shoe color matching method based on block location and area in the embodiment of the present invention. The processor 201 executes various functional applications of the device and data processing by running software programs, instructions and modules stored in the memory 202, i.e., implementing the above-described intelligent shoe body color matching method based on block location and area. The input means 203 may be used to receive entered numeric or character information and to generate key signal inputs related to user settings and function control of the device. The output device 204 may include a display device such as a display screen.

Embodiments of the present invention also provide a storage medium containing computer-executable instructions for performing a zone location and area based intelligent agent color matching method when executed by a computer processor, the method comprising:

acquiring shoe body blocks divided by a user and designing colors;

determining a pre-selected color priority according to the position and the area of the shoe body block, and determining a pre-selected color matching sequence of each shoe body block based on the pre-selected color priority;

and determining the color matching color of each shoe body block according to the pre-selected color matching sequence and the design color, and respectively configuring and displaying the corresponding color matching color determined by each shoe body block in the corresponding shoe body block.

Optionally, the determining the pre-selected color priority according to the position and the area of the shoe body block includes:

determining a first pre-selected color priority corresponding to each position according to the position of the shoe body block, and determining a second pre-selected color priority corresponding to each area according to the area of the shoe body block;

a preselected color priority is determined based on the first preselected color priority and the second preselected color priority.

Optionally, the determining a pre-selected color priority according to the first pre-selected color priority and the second pre-selected color priority includes:

and determining the pre-selected color priority according to the sorting result of each color in the first pre-selected color priority and the sorting result of each color in the second pre-selected color priority, wherein the method comprises the step of carrying out cross sorting on the sorting result to obtain the pre-selected color priority.

Optionally, the determining the pre-selected color matching sequence of each shoe body block based on the pre-selected color priority includes:

determining a plurality of color matching combinations based on the pre-selected color priority and the number of shoe body segments;

the color order in each color matching combination is determined as a preselected color matching order.

Optionally, the determining the color of each shoe body block according to the pre-selected color matching sequence and the design color includes:

determining the selection sequence of the design colors, and sequentially determining the sorting position of each design color in the preselected color matching sequence according to the selection sequence;

and determining the color matching color of the shoe body block corresponding to the pre-selected color sequence with the forefront sequencing position as the design color.

Optionally, the determining the color of each shoe body block according to the pre-selected color matching sequence and the design color includes:

determining the weight coefficient of the design color, and sequentially determining the sorting position of each design color in the pre-selected color matching sequence from high to low according to the weight coefficient;

and determining the color matching color of the shoe body block corresponding to the pre-selected color sequence with the forefront sequencing position as the design color.

Optionally, the configuring and displaying the determined color matching color of each shoe body block in the corresponding shoe body block includes:

and sequentially highlighting the corresponding color matching color determined by each shoe body block in the corresponding shoe body block.

It should be noted that, in the above embodiment of the intelligent shoe body color matching device based on the block position and the area, each unit and module included are only divided according to the functional logic, but not limited to the above division, so long as the corresponding functions can be realized; in addition, the specific names of the functional units are also only for distinguishing from each other, and are not used to limit the protection scope of the embodiments of the present invention.

In some possible embodiments, various aspects of the methods provided herein may also be implemented in the form of a program product comprising program code for causing a computer device to perform the steps of the methods described herein above according to various exemplary embodiments of the present application, when the program product is run on the computer device, e.g., the computer device may perform the zone location and area based intelligent shoe color method described in the examples herein. The program product may be implemented using any combination of one or more readable media.

Note that the above is only a preferred embodiment of the present invention and the technical principle applied. It will be understood by those skilled in the art that the embodiments of the present invention are not limited to the particular embodiments described herein, but are capable of numerous obvious changes, rearrangements and substitutions without departing from the scope of the embodiments of the present invention. Therefore, while the embodiments of the present invention have been described in connection with the above embodiments, the embodiments of the present invention are not limited to the above embodiments, but may include many other equivalent embodiments without departing from the spirit of the embodiments of the present invention, and the scope of the embodiments of the present invention is determined by the scope of the appended claims.

Claims (7)

1. The intelligent shoe color matching method based on the block position and the area is characterized by comprising the following steps of:

acquiring shoe body blocks divided by a user and designing colors;

determining a pre-selected color priority according to the position and the area of the shoe body block, and determining a pre-selected color matching sequence of each shoe body block based on the pre-selected color priority;

determining the color matching color of each shoe body block according to the pre-selected color matching sequence and the design color, and respectively configuring and displaying the corresponding color matching color determined by each shoe body block in the corresponding shoe body block;

wherein said determining a preselected color priority based on the location and area of the shoe body segment comprises:

determining a first pre-selected color priority corresponding to each position according to the position of the shoe body block, and determining a second pre-selected color priority corresponding to each area according to the area of the shoe body block;

determining a pre-selected color priority based on the first pre-selected color priority and the second pre-selected color priority;

wherein said determining a preselected color priority from said first preselected color priority and said second preselected color priority comprises:

determining a pre-selected color priority according to the sorting result of each color in the first pre-selected color priority and the sorting result of each color in the second pre-selected color priority, wherein the method comprises the steps of carrying out cross sorting on the sorting result to obtain the pre-selected color priority;

wherein said determining a preselected color matching sequence for each shoe body segment based on said preselected color priority comprises:

determining a plurality of color matching combinations based on the pre-selected color priority and the number of shoe body segments;

the color order in each color matching combination is determined as a preselected color matching order.

2. The zone location and area based intelligent shoe body color matching method of claim 1, wherein said determining the color matching color of each shoe body zone based on said pre-selected color matching sequence and said design color comprises:

determining the selection sequence of the design colors, and sequentially determining the sorting position of each design color in the preselected color matching sequence according to the selection sequence;

and determining the color matching color of the shoe body block corresponding to the pre-selected color sequence with the forefront sequencing position as the design color.

3. The zone location and area based intelligent shoe body color matching method of claim 1, wherein said determining the color matching color of each shoe body zone based on said pre-selected color matching sequence and said design color comprises:

determining the weight coefficient of the design color, and sequentially determining the sorting position of each design color in the pre-selected color matching sequence from high to low according to the weight coefficient;

and determining the color matching color of the shoe body block corresponding to the pre-selected color sequence with the forefront sequencing position as the design color.

4. A zone location and area based intelligent shoe body color scheme as defined in any one of claims 1-3 wherein said configuring and displaying the corresponding color scheme determined for each shoe body zone in the corresponding shoe body zone comprises:

and sequentially highlighting the corresponding color matching color determined by each shoe body block in the corresponding shoe body block.

5. Intelligent shoe body color matching device based on block position and area, its characterized in that includes:

the information acquisition module is configured to acquire shoe body blocks and design colors divided by a user;

the color matching sequence determining module determines a first pre-selected color priority corresponding to each position according to the position of the shoe body block, determines a second pre-selected color priority corresponding to each area according to the area of the shoe body block, and determines a pre-selected color priority according to the first pre-selected color priority and the second pre-selected color priority, wherein the color matching sequence determining module comprises determining the pre-selected color priority according to the sorting result of each color in the first pre-selected color priority and the sorting result of each color in the second pre-selected color priority, and the color matching sequence determining module comprises cross sorting the sorting result to obtain the pre-selected color priority; determining a plurality of color matching combinations based on the pre-selected color priority and the number of shoe body blocks, and determining the color sequence in each color matching combination as a pre-selected color matching sequence;

and the color matching module is configured to determine the color matching color of each shoe body block according to the pre-selected color matching sequence and the design color, and the corresponding color matching determined by each shoe body block is respectively configured and displayed in the corresponding shoe body block.

6. An intelligent shoe body color matching device based on block location and area, the device comprising: one or more processors; storage means for storing one or more programs that, when executed by the one or more processors, cause the one or more processors to implement the intelligent shoe body color matching method based on block location and area as claimed in any one of claims 1-4.

7. A storage medium storing computer-executable instructions for performing the zone location and area based intelligent shoe body color matching method of any one of claims 1-4 when executed by a computer processor.