CN111400791A - Method and device for configuring hidden door, computer equipment and storage medium - Google Patents

Abstract

The invention provides a gate configuration method, a gate configuration device, computer equipment and a storage medium, wherein the method comprises the following steps: acquiring the original size of a current gate configuration area; determining the gate configuration scheme according to the original size; determining the masking value scheme according to the configuration scheme; and generating all the gates of the current gate-masking configuration area according to the original size, the gate-masking configuration scheme and the gate-masking reduction value scheme. Therefore, the method for presetting the indentation value is adopted, so that the door covering method is associated with the indentation value information, namely, different indentation values are provided for the door plates with different covering method types, the parameter self-definition of the outer cover door plate and the parameter self-definition of the embedded door plate are realized, the actual design requirement is met, the convenience is provided for the accurate home decoration design, the problems of complex operation, low design efficiency and high error rate of the door plate configuration method in the prior art are solved, and the actual requirement of a user is met.

Description

Method and device for configuring hidden door, computer equipment and storage medium

Technical Field

The present application relates to the field of indoor design technologies, and in particular, to a method and an apparatus for configuring a door, a computer device, and a storage medium.

Background

The door plant corresponds different door plant indentation values as the important link in the house ornamentation design to different lid methods types, for example the indentation size nonconformity of enclosing cover door plant and embedded door plant, at present when installing at home, needs the indentation size of manual adjustment door plant to lead to the problem that design efficiency is low, the error rate is high.

Therefore, the door plate configuration method in the prior art has the problems of complex operation, low design efficiency and high error rate, and can not meet the requirements of users.

Disclosure of Invention

The application provides a door-covering configuration method, a door-covering configuration device, computer equipment and a storage medium, solves the problems of complex operation, low design efficiency and high error rate of a door panel configuration method in the prior art, and meets the actual requirements of users.

In a first aspect, the present invention provides a method for configuring a gate, the method comprising: acquiring the original size of a current gate configuration area; determining the gate configuration scheme according to the original size; determining the masking value scheme according to the configuration scheme; and generating all the gates of the current gate-masking configuration area according to the original size, the gate-masking configuration scheme and the gate-masking reduction value scheme.

Optionally, according to the configuration scheme, before determining the masking threshold value scheme, the method further includes: and generating a plurality of the masking value schemes according to the masking method type, the masking type and the preset indentation parameter.

Optionally, the door-covering method type at least comprises: full cover, half cover and embedded; the door types at least include: the device comprises a left opening screen door, a right opening screen door, an upper turnover door, a lower turnover door, a false door, a drawing surface and a sealing plate; the retraction parameters include at least: an upper shrinkage value, a lower shrinkage value, a left shrinkage value, a right shrinkage value and a door gap value.

Optionally, the cloaking configuration scheme includes: the type of the door covering method, the type of the door, the number of the doors and the opening direction of the doors.

Optionally, according to the configuration scheme, determining the masking threshold value scheme includes: and selecting the matched masking value scheme according to the cover method type and the masking type in the configuration scheme.

Optionally, generating all the gates of the current gate configuration region according to the original size, the gate configuration scheme, and the gate reduction scheme includes: generating at least one first gate according to the original size and the gate configuration scheme and the current gate configuration area; carrying out size adjustment on the at least one first gate according to the gate contraction value scheme to obtain at least one second gate; the at least one second gate is all gates of the current gate configuration area.

Optionally, resizing the at least one first gate according to the gate reduction scheme to obtain at least one second gate, including: acquiring the number of the first screen doors and the opening direction of the first screen doors; when the number of the masked doors is equal to 1 or when the number of the masked doors is greater than 1 and the door opening directions are the same, carrying out size adjustment on the first masked door according to the up-contraction value, the down-contraction value, the left-contraction value and the right-contraction value; and when the number of the shielding doors is more than 1 and the opening directions are different, carrying out size adjustment on the first shielding door according to the up-contraction value, the down-contraction value, the left-contraction value, the right-contraction value and the door gap value.

In a second aspect, the present invention provides a gate deployment apparatus, the apparatus comprising: the acquisition module is used for acquiring the original size of the current gate-closing configuration area; a first determining module, configured to determine the cloaking configuration scheme according to the original size; a second determining module, configured to determine the masking reduction scheme according to the configuration scheme; and the generation module is used for generating all the gates of the current gate-masking configuration area according to the original size, the gate-masking configuration scheme and the gate-masking shrinkage value scheme.

In a third aspect, the present invention provides a computer device, including a memory, a processor, and a computer program stored on the memory and executable on the processor, wherein the processor executes the computer program to implement the following steps: acquiring the original size of a current gate configuration area; determining the gate configuration scheme according to the original size; determining the masking value scheme according to the configuration scheme; and generating all the gates of the current gate-masking configuration area according to the original size, the gate-masking configuration scheme and the gate-masking reduction value scheme.

In a fourth aspect, the present invention provides a computer readable storage medium having a computer program stored thereon, wherein the computer program when executed by a processor implements the steps of: acquiring the original size of a current gate configuration area; determining the gate configuration scheme according to the original size; determining the masking value scheme according to the configuration scheme; and generating all the gates of the current gate-masking configuration area according to the original size, the gate-masking configuration scheme and the gate-masking reduction value scheme.

The invention provides a gate configuration method, a gate configuration device, computer equipment and a storage medium, wherein the method comprises the following steps: acquiring the original size of a current gate configuration area; determining the gate configuration scheme according to the original size; determining the masking value scheme according to the configuration scheme; and generating all the gates of the current gate-masking configuration area according to the original size, the gate-masking configuration scheme and the gate-masking reduction value scheme. The method for configuring the screen door determines the configuration scheme of the screen door according to the size of each screen door configuration area, and then selects the matched screen door shrinkage value scheme according to the configuration scheme, so that all screen door panels are automatically subjected to corresponding size adjustment; because the configuration scheme of the door comprises the number of the doors and the door covering method, the method for presetting the indentation value is adopted, the door covering method is associated with the indentation value information, namely, different indentation values are provided for door plates of different covering method types, parameter self-definition of the outer cover door plate and the embedded door plate is realized, the practical design requirement is met, convenience is provided for precise home decoration design, the problems of complex operation, low design efficiency and high error rate of the door plate configuration method in the prior art are solved, and the practical requirement of a user is met.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is a flowchart of a method for configuring a gate according to an embodiment of the present invention;

fig. 2 is a flowchart of a method for configuring a gate according to an embodiment of the present invention;

fig. 3 is a block diagram of a device for configuring a gate according to an embodiment of the present invention;

fig. 4 is a flowchart of a system for configuring a gate according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Fig. 1 is a flowchart of a method for configuring a gate according to an embodiment of the present invention; as shown in fig. 1, the method for configuring a gate in the embodiment of the present invention specifically includes the following steps:

step S101, obtaining an original size of a current gate-closing configuration area.

Specifically, the current door-closing configuration area is a space area surrounded by four cabinet frame plates, namely, an upper cabinet frame plate, a lower cabinet frame plate, a left cabinet frame plate, a right cabinet frame plate, a left cabinet frame plate; wherein, the said door of the invention includes at least: the device comprises a left-opening shield door, a right-opening shield door, an upper turnover door, a lower turnover door, a false door, a drawing surface and a sealing plate.

Step S102, determining the gate configuration scheme according to the original size.

Specifically, the gate configuration scheme includes: the type of the door-masking method, the type of the door-masking, the number of the door-masking and the opening direction may generate a plurality of door-masking configuration schemes for a designer to select according to the original size and structure of the current door-masking configuration area, or the designer may determine the door-masking configuration schemes according to the customization, for example, the configuration scheme 1 of the current door-masking configuration area is: the type of the door covering method is full covering, the types of the door covering are left covering door and right covering door, the number of the covering doors is 2, and the opening directions of the two covering doors are opposite; the current configuration scheme 2 of the gate-in configuration area is as follows: 1 dummy door and 1 half-covered left-covered door, wherein the covering type is half-covered, the covering types are the dummy door and the left-covered door, the number of the covered doors is 2, and the opening direction of the covered doors is left-opened; when the configuration scheme of the good-door is determined in the configuration area of the door, corresponding preset doors are generated at corresponding positions, and the sum of the sizes of all the preset doors is equal to the original size.

Step S103, determining the masking value scheme according to the configuration scheme.

It should be noted that, before determining the masking value scheme according to the configuration scheme, the method further includes: and generating a plurality of gate-masking shrinkage value schemes according to the type of a design module, the type of a gate-masking cover method, the type of a gate mask and preset retraction parameters. Wherein the door covering method type at least comprises: full cover, half cover and embedded; the door types at least include: the device comprises a left opening screen door, a right opening screen door, an upper turnover door, a lower turnover door, a false door, a drawing surface and a sealing plate; the retraction parameters include at least: an upper shrinkage value, a lower shrinkage value, a left shrinkage value, a right shrinkage value and a door gap value; the design module types include at least: the system comprises a cabinet design module, a wardrobe design module, a system cabinet design module and a bathroom cabinet design module.

Specifically, the door-masking shrinkage value scheme sets corresponding shrinkage parameters according to the type of a design module, the type of a cover method and the type of a door mask, so that the cover method type and/or the type of the door mask are different in the same design module, and the corresponding shrinkage parameter values are different; in different design modules, the cover type is the same or/and the door type is the same, and the corresponding indentation parameter values may be the same or different, so the system will generate a plurality of indentation schemes according to the design module, the door cover and the door type, and then select the matched door indentation scheme according to the cover type and the door type in the configuration scheme.

And step S104, generating all the gates of the current gate configuration area according to the original size, the gate configuration scheme and the gate contraction value scheme.

Further, generating at least one first gate for the current gate configuration area according to the original size and the gate configuration scheme; carrying out size adjustment on the at least one first gate according to the gate contraction value scheme to obtain at least one second gate; the at least one second gate is all gates of the current gate configuration area.

Specifically, after the door shield configuration scheme and the door shield contraction value scheme are determined, at least 1, that is, 1 or more, of the door shield is generated in the current door shield configuration area, and the size of the at least one door shield is a snap gauge for automatically performing size in four directions, namely, up, down, left and right directions on the original size, or/and a door gap value is subtracted, so that manual adjustment or intervention of the size of the door panel is not needed, and the complexity and the error rate of design are reduced.

The invention provides a gate configuration method, which comprises the following steps: acquiring the original size of a current gate configuration area; determining the gate configuration scheme according to the original size; determining the masking value scheme according to the configuration scheme; and generating all the gates of the current gate-masking configuration area according to the original size, the gate-masking configuration scheme and the gate-masking reduction value scheme. The method for configuring the screen door determines the configuration scheme of the screen door according to the size of each screen door configuration area, and then selects the matched screen door shrinkage value scheme according to the configuration scheme, so that all screen door panels are automatically subjected to corresponding size adjustment; because the configuration scheme of the door comprises the number of the doors and the door covering method, the method for presetting the indentation value is adopted, the door covering method is associated with the indentation value information, namely, different indentation values are provided for door plates of different covering method types, parameter self-definition of the outer cover door plate and the embedded door plate is realized, the practical design requirement is met, convenience is provided for precise home decoration design, the problems of complex operation, low design efficiency and high error rate of the door plate configuration method in the prior art are solved, and the practical requirement of a user is met.

Fig. 2 is a flowchart of a method for configuring a gate according to an embodiment of the present invention; as shown in fig. 2, the gate configuration method in the embodiment of the present invention further includes the following steps:

step S201, acquiring the number of the first screen and the opening direction of the first screen.

Step S202, determining whether the number of the gates is greater than 1, if the number of the gates is not greater than 1, executing step S203, and if the number of the gates is greater than 1, executing step S204.

Step S203, performing a size adjustment on the first mask according to the up-scaling value, the down-scaling value, the left-scaling value, and the right-scaling value.

Step S204, determining whether the door opening directions are the same, if the door opening directions are the same, executing step S203, and if the door opening directions are not the same, executing step S205.

Step S205, performing size adjustment on the first door according to the up-scaling value, the down-scaling value, the left-scaling value, the right-scaling value, and the door gap value.

Specifically, after a configuration scheme of a current door-closing configuration area is determined, acquiring the door-closing number and the door-opening direction of the first door-closing from the configuration scheme, and directly adjusting the size of the first door-closing to a second door-closing according to an up-contraction value, a down-contraction value, a left-contraction value and a right-contraction value in an retraction scheme when the door-closing number of the first door-closing is equal to 1; when the number of the covering doors is more than 1 and the door opening directions are the same, the first covering door is directly adjusted to the second covering door according to the up-contraction value, the down-contraction value, the left-contraction value and the right-contraction value in the retraction scheme; and when the number of the screen doors is more than 1 and the door opening directions are different, adjusting the size of the first screen door to a second screen door according to an up-contraction value, a down-contraction value, a left-contraction value, a right-contraction value and a door gap value in a retraction scheme.

For example, when the original size is 100cm long and 80cm wide, under the condition that the design module, the cover method type and the door panel type are the same, the selected shrinkage value scheme has the shrinkage value of 2cm, the left shrinkage value of 1cm, the right shrinkage value of 1cm and the door gap value of 2 cm; then, when the number of the first door is 1, the length of the first door is 100cm, and the width of the first door is 80cm, the left side line of the second door is retracted by 1cm on the basis of the left side line of the first door, the right side line of the second door is retracted by 1cm on the basis of the right side line of the first door, the upper side line of the second door is retracted by 2cm on the basis of the upper side line of the first door, the lower side line of the second door is retracted by 2cm on the basis of the lower side line of the first door, the length of the second door is 98cm, and the width of the second door is 76 cm.

When the number of the first hidden doors in the configuration scheme is 2, the opening directions are the same and the doors are left opened, the retraction modes of the two second hidden doors are the same, which is not described herein again, and the length of the second hidden door is 98cm, and the width of the second hidden door is 36 cm.

When the number of the first door in the configuration scheme is 2 and the door opening directions are different, the door opening directions are left opening and right opening respectively, the sizes of the two second doors need to be subtracted by the door gap value in the retraction method of the above embodiment, and the length of the second door is 46cm, and the width of the second door is 76 cm.

Fig. 3 is a block diagram of a device for configuring a gate according to an embodiment of the present invention; as shown in fig. 3, a gate configuration apparatus provided in an embodiment of the present invention includes:

an obtaining module 310, configured to obtain an original size of a current gate-closing configuration area;

a first determining module 320, configured to determine the cloaking configuration scheme according to the original size;

a second determining module 330, configured to determine the masking threshold scheme according to the configuration scheme;

a generating module 340, configured to generate all the gates of the current gate configuration area according to the original size, the gate configuration scheme, and the gate contraction value scheme.

In one embodiment of the invention, the apparatus further comprises: and the door-masking shrinkage value scheme generating module is used for generating a plurality of door-masking shrinkage value schemes according to a door-masking cover method type, a door-masking type and preset retraction parameters.

The door covering method type at least comprises the following steps: full cover, half cover and embedded; the door types at least include: the device comprises a left opening screen door, a right opening screen door, an upper turnover door, a lower turnover door, a false door, a drawing surface and a sealing plate; the retraction parameters include at least: an upper shrinkage value, a lower shrinkage value, a left shrinkage value, a right shrinkage value and a door gap value; the gate configuration scheme comprises: the type of the door covering method, the type of the door, the number of the doors and the opening direction of the doors.

The second determining module 330 specifically includes: and the contraction value scheme selection module is used for selecting the matched closing contraction value scheme according to the cover type and the closing type in the configuration scheme.

The generating module 340 specifically includes: a first gate generation module, configured to generate at least one first gate from the current gate configuration area according to the original size and the gate configuration scheme; the size adjusting module is used for adjusting the size of the at least one first screen according to the screen contraction value scheme to obtain at least one second screen; the at least one second gate is all gates of the current gate configuration area.

The size adjustment module specifically comprises: the door opening device comprises a door opening direction acquisition module, a door closing number acquisition module and a door opening direction acquisition module, wherein the door opening direction acquisition module is used for acquiring the door opening direction and the door closing number of the first door; a first adjusting module, configured to, when the number of masked doors is equal to 1, or when the number of masked doors is greater than 1 and the door opening directions are the same, perform size adjustment on the first masked door according to the up-scaling value, the down-scaling value, the left-scaling value, and the right-scaling value; and the second adjusting module is used for adjusting the size of the first screen door according to the up-contraction value, the down-contraction value, the left-contraction value, the right-contraction value and the door gap value when the number of the screen doors is greater than 1 and the opening directions are different.

Fig. 4 is a flowchart of an implementation of a system for configuring a gate according to an embodiment of the present invention; as shown in fig. 4, the door-masking configuration system includes a background management system and a foreground design system, and first clicks data association in the background system, selects a door-masking template setting, enters a contraction value management interface, selects a door panel type therein, adds or edits the door panel type, and exits and saves the contraction value setting. Then clicking to enter scheme management in the arrangement of the door-shielding template, adding a scheme or editing the scheme, checking the type of the required door panel, adjusting the sequence, and finally saving and quitting the scheme management, wherein the method comprises the following specific steps:

s1: the background management system clicks data association and selects the setting of the gate-masking template;

s2: entering the setting of a door-covering template, and adding a 'cover method type' in a retraction setting pop-up frame;

s3: the method for adding the cover method type parameters comprises the following specific steps:

s3.1: the functions of adding, deleting and the like of the type parameter tab are consistent with other label pages;

s3.2: inputting field restrictions;

s3.3: the override type parameter, when invoked by a solution in solution management, cannot be deleted directly, and a prompt pops up: "this parameter has been referred to, please delete the reference relation in the scheme first";

s4: newly adding a 'cover method type' column in a scheme management pop-up box in the arrangement of the covering door template;

s5: on a foreground, a door plate of a 'door-covering type' is not selected, and the output of contraction value parameters is forbidden;

s6, the saved scheme has the corresponding cover type parameter in the foreground scheme XM L data.

The step S3.2 of inputting field restrictions specifically includes:

s3.2.1: the name field only supports inputting 10 characters, and at most 10 characters are input, and the input content is not limited;

s3.2.2: the type value field only supports inputting English characters or numbers and has no character number limitation;

s3.2.3: the added parameters will appear in the newly added drop-down selection box of the scenario management pop-up box in the masked template setting.

Step S3.3, when the cover type parameter is referred to by a scheme in the scheme management, a specific method that cannot be directly deleted includes:

s3.3.1: the delete operation may continue to be performed after the schema reference relationship is released;

s3.3.2: the pop-up prompt box is prompted by system standards, including pop-up time, pop-up animation, etc.

Clicking a door panel type option in the retraction setting pop-up box, and adding three door types of the wardrobe in the name list: embedding, full covering and half covering, giving a type value to each type of the covering door, and correspondingly applying other door plates needing to be added with the covering door type by the template. Currently, the module application setting in the test shrink-in management has no effect. When foreground is used, entering some module design, then indentation value adopts scheme for setting corresponding module application in scheme management.

In step S4, a "cover method type" column is newly added to the scheme management pop-up box in the setting of the covering door template, and the specific method includes:

s4.1: the operation mode and the UI effect of the cover method type list are consistent with those of other lists in the pop-up box;

s4.2: the method type column function and interaction are consistent with those of other columns, and a pop-up box is pulled down to select contents;

s4.3: clicking the pop-up effect of the drop-down box and selecting the logic and other drop-down box options;

s4.4: the drop-down box is a necessary option, and a default selection scheme manages a first option which is selected and hooked by a corresponding cover method type list in the editing page;

s4.5: upon selection, closing or clicking the cancel button does not save the modification. And clicking to save the modification.

S4.6: the cover method type parameters are not selectable on the foreground and only serve as xml output for use, the parameters of the SCMBF newly added in the xml correspond to the fields of the type values, and the parameters belong to door leaves;

step S4.2, the lid style column function and interaction are consistent with those of other columns, and the specific method for selecting contents by pulling down the pop-up box includes:

s4.2.1: the value in the drop-down box is the name of the type value;

s4.2.2: the values in the drop-down box are the values selected for the scheme management.

The step S4.4 is that the drop-down box is a necessary option, and the selection of the default selection scheme for the corresponding cover style list in the management editing page, i.e. the first option to be checked, includes: when the uncapped cover method type clicks the storage scheme for editing, popping up a prompt: "please add the lid type data" and stay on the schema management edit page.

Step S4.6 the lid method type parameter is not selectable in the foreground, and the specific method of using only as xml output includes: the xml parameter transmitted to the production system keeps reading the latest value of the 'cover method type' at the time no matter the foreground scheme does not modify the type of the door panel.

In one embodiment of the present invention, the present invention provides a computer device, including a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor executes the computer program to implement the following steps: acquiring the original size of a current gate configuration area; determining the gate configuration scheme according to the original size; determining the masking value scheme according to the configuration scheme; and generating all the gates of the current gate-masking configuration area according to the original size, the gate-masking configuration scheme and the gate-masking reduction value scheme.

In one embodiment of the present invention, the present invention provides a computer-readable storage medium having a computer program stored thereon, wherein the computer program when executed by a processor implements the steps of: acquiring the original size of a current gate configuration area; determining the gate configuration scheme according to the original size; determining the masking value scheme according to the configuration scheme; and generating all the gates of the current gate-masking configuration area according to the original size, the gate-masking configuration scheme and the gate-masking reduction value scheme.

The invention provides a gate configuration method, a gate configuration device, computer equipment and a storage medium, wherein the method comprises the following steps: acquiring the original size of a current gate configuration area; determining the gate configuration scheme according to the original size; determining the masking value scheme according to the configuration scheme; and generating all the gates of the current gate-masking configuration area according to the original size, the gate-masking configuration scheme and the gate-masking reduction value scheme. The method for configuring the screen door determines the configuration scheme of the screen door according to the size of each screen door configuration area, and then selects the matched screen door shrinkage value scheme according to the configuration scheme, so that all screen door panels are automatically subjected to corresponding size adjustment; because the configuration scheme of the door comprises the number of the doors and the door covering method, the method for presetting the indentation value is adopted, the door covering method is associated with the indentation value information, namely, different indentation values are provided for door plates of different covering method types, parameter self-definition of the outer cover door plate and the embedded door plate is realized, the practical design requirement is met, convenience is provided for precise home decoration design, the problems of complex operation, low design efficiency and high error rate of the door plate configuration method in the prior art are solved, and the practical requirement of a user is met.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The foregoing are merely exemplary embodiments of the present invention, which enable those skilled in the art to understand or practice the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A method of gate deployment, the method comprising:

acquiring the original size of a current gate configuration area;

determining the gate configuration scheme according to the original size;

determining the masking value scheme according to the configuration scheme;

and generating all the gates of the current gate-masking configuration area according to the original size, the gate-masking configuration scheme and the gate-masking reduction value scheme.

2. The method of claim 1, wherein prior to determining the masking value scheme according to the configuration scheme, the method further comprises:

and generating a plurality of the masking value schemes according to the masking method type, the masking type and the preset indentation parameter.

3. The method of claim 2,

the door covering method type at least comprises the following steps: full cover, half cover and embedded;

the door types at least include: the device comprises a left opening screen door, a right opening screen door, an upper turnover door, a lower turnover door, a false door, a drawing surface and a sealing plate;

the retraction parameters include at least: an upper shrinkage value, a lower shrinkage value, a left shrinkage value, a right shrinkage value and a door gap value.

4. The method of claim 3, wherein the cloaking configuration scheme comprises: the type of the door covering method, the type of the door, the number of the doors and the opening direction of the doors.

5. The method of claim 4, wherein determining the masked reduction scheme according to the configuration scheme comprises:

and selecting the matched masking value scheme according to the cover method type and the masking type in the configuration scheme.

6. The method of claim 5, wherein generating all the masks of the current mask configuration region according to the original size, the mask configuration scheme, and the mask reduction value scheme comprises:

generating at least one first gate according to the original size and the gate configuration scheme and the current gate configuration area;

carrying out size adjustment on the at least one first gate according to the gate contraction value scheme to obtain at least one second gate;

the at least one second gate is all gates of the current gate configuration area.

7. The method of claim 6, wherein resizing the at least one first masked gate according to the masked reduction value scheme to obtain at least one second masked gate comprises:

acquiring the number of the first screen doors and the opening direction of the first screen doors;

when the number of the masked doors is equal to 1 or when the number of the masked doors is greater than 1 and the door opening directions are the same, carrying out size adjustment on the first masked door according to the up-contraction value, the down-contraction value, the left-contraction value and the right-contraction value;

and when the number of the shielding doors is more than 1 and the opening directions are different, carrying out size adjustment on the first shielding door according to the up-contraction value, the down-contraction value, the left-contraction value, the right-contraction value and the door gap value.

8. A shelter gate deployment apparatus, the apparatus comprising:

the acquisition module is used for acquiring the original size of the current gate-closing configuration area;

a first determining module, configured to determine the cloaking configuration scheme according to the original size;

a second determining module, configured to determine the masking reduction scheme according to the configuration scheme;

and the generation module is used for generating all the gates of the current gate-masking configuration area according to the original size, the gate-masking configuration scheme and the gate-masking shrinkage value scheme.

9. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the steps of the method of any of claims 1 to 7 are implemented when the computer program is executed by the processor.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 7.

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