CN112068922A - Display control method and device of special-shaped LED display screen - Google Patents

Abstract

The invention discloses a display control method and a device of a special-shaped LED display screen, wherein the method is applied to electronic equipment and comprises the following steps: acquiring special-shaped screen information of a special-shaped LED display screen; slicing the picture to be played according to the special-shaped screen information and a preset special-shaped screen slicing strategy to obtain a sliced picture of the special-shaped LED display screen; splicing the slice pictures according to a preset slice picture splicing strategy to obtain a spliced plane picture; acquiring display screen information of a display interface, and adjusting and splicing the planar pictures according to the display screen information to obtain a planar picture to be played; and playing the plane picture to be played on the display interface. The method can slice the picture to be played according to the relation between the picture to be played and each display surface, and convert the spliced slice picture into a planar picture to be played suitable for being played on a display interface in an equal proportion, so that the playing effect of the special-shaped LED display screen is improved when the picture to be played is controlled by program playing software.

Description

Display control method and device of special-shaped LED display screen

Technical Field

The invention relates to the technical field of display control, in particular to a display control method and device of a special-shaped LED display screen.

Background

As a flat panel display, an LED display panel is widely used in various industries because it can display various information such as characters, images, videos, and video signals, and has excellent area extensibility and color reproducibility. When the to-be-displayed picture is played through the LED display screen, the to-be-displayed picture sent by the sending card is usually received by the program playing software, and then the to-be-displayed picture is projected on the display interface of the program playing software in an equal proportion, so that a worker can set the LED display screen according to the playing effect of the to-be-displayed picture in the display interface. However, the above method can only be applied to the LED display screen with a regular shape, and for various special-shaped LED display screens (e.g., LED magic cube, diamond LED display screen, gem LED display screen, etc.) on the market at present, it is difficult for the worker to observe the complete structure of the special-shaped LED display screen on the display interface of the playing software, so that the setting of the picture to be displayed is affected, and the playing effect of the special-shaped LED display screen is poor. Therefore, it is important to determine a new technical scheme to be suitable for the play control of various special-shaped LED display screens.

Disclosure of Invention

In order to overcome the problems in the related art, the invention discloses and provides a display control method and device of a special-shaped LED display screen.

According to a first aspect of the disclosed embodiments, there is provided a display control method for a special-shaped LED display screen, applied to an electronic device, the method including:

acquiring a to-be-played picture and special-shaped screen information of a special-shaped LED display screen, wherein the special-shaped screen information comprises: the number of display surfaces, the connection relation of the display surfaces and the size of the display surfaces of the special-shaped LED display screen are determined;

according to the special-shaped screen information and a preset special-shaped screen slicing strategy, based on the corresponding relation between the picture to be played and each display surface in the special-shaped LED display screen, slicing the picture to be played to obtain a slice picture of the special-shaped LED display screen;

splicing the slice pictures according to a preset slice picture splicing strategy to obtain a spliced plane picture corresponding to the special-shaped LED display screen;

acquiring display screen information of a display interface on the electronic equipment, and adjusting the spliced planar picture according to the display screen information to obtain a planar picture to be played corresponding to the display interface;

and playing the plane picture to be played on the display interface.

Optionally, the slicing the to-be-played picture according to the special-shaped screen information according to a preset special-shaped screen slicing policy and based on a corresponding relationship between the to-be-played picture and each display surface in the special-shaped LED display screen to obtain a slice picture of the special-shaped LED display screen includes:

determining a preset number of display surfaces to be played in the display surfaces according to the corresponding relation between the picture to be played and each display surface in the special-shaped LED display screen and the special-shaped screen information;

cutting the picture to be played according to the display surface to be played to obtain a preset number of planes to be played;

and according to a preset special-shaped screen slicing strategy, slicing the plane to be played to obtain a slice picture of the special-shaped LED display screen.

Optionally, the slicing processing is performed on the plane to be played according to a preset special-shaped screen slicing strategy, so as to obtain a slice picture of the special-shaped LED display screen, including:

if the number of edges contained in the nth plane to be played is m;

acquiring (m-2) slice pictures of the nth plane to be played according to a preset special-shaped screen slicing strategy, wherein m is more than or equal to 3;

and adding the slice pictures obtained after the slice processing is carried out on each plane to be played to obtain the slice picture of the special-shaped LED display screen.

Optionally, the obtaining display screen information of a display interface on the electronic device, and adjusting the spliced planar picture according to the display screen information to obtain a planar picture to be played corresponding to the display interface includes:

acquiring display screen information of a display interface on the electronic equipment;

determining the shape and size of the spliced plane picture;

and adjusting the spliced plane picture into a plane picture to be played of the display interface through a perspective transformation rule according to the display screen information.

According to a second aspect of the disclosed embodiments, there is provided a display control device of a special-shaped LED display screen, applied to an electronic device, the device including:

the information acquisition module is used for acquiring a picture to be played and special-shaped screen information of the special-shaped LED display screen, wherein the special-shaped screen information comprises: the number of display surfaces, the connection relation of the display surfaces and the size of the display surfaces of the special-shaped LED display screen are determined;

the slicing processing module is connected with the information acquisition module and used for slicing the picture to be played according to the special-shaped screen information and a preset special-shaped screen slicing strategy and on the basis of the corresponding relation between the picture to be played and each display surface in the special-shaped LED display screen to acquire a slice picture of the special-shaped LED display screen;

the picture splicing module is connected with the slice processing module and used for splicing the slice pictures according to a preset slice picture splicing strategy to obtain a spliced plane picture corresponding to the special-shaped LED display screen;

the picture adjusting module is connected with the picture splicing module and used for acquiring display screen information of a display interface on the electronic equipment and adjusting the spliced plane picture according to the display screen information to obtain a plane picture to be played corresponding to the display interface;

and the playing module is connected with the picture adjusting module and is used for playing the planar picture to be played on the display interface.

Optionally, the slice processing module includes:

the display surface determining submodule is connected with the information acquisition module and is used for determining a preset number of display surfaces to be played in the display surfaces according to the corresponding relation between the picture to be played and each display surface in the special-shaped LED display screen and the special-shaped screen information;

the plane cutting submodule is connected with the display surface determining submodule and used for cutting the picture to be played according to the display surface to be played to obtain a preset number of planes to be played;

and the slicing processing submodule is respectively connected with the plane cutting submodule and the picture splicing module and is used for slicing the plane to be played according to a preset special-shaped screen slicing strategy to obtain a slicing picture of the special-shaped LED display screen.

Optionally, the slice processing sub-module is configured to:

if the number of edges contained in the nth plane to be played is m;

acquiring (m-2) slice pictures of the nth plane to be played according to a preset special-shaped screen slicing strategy, wherein m is more than or equal to 3;

and adding the slice pictures obtained after the slice processing is carried out on each plane to be played to obtain the slice picture of the special-shaped LED display screen.

Optionally, the picture adjusting module is configured to:

acquiring display screen information of a display interface on the electronic equipment;

determining the shape and size of the spliced plane picture;

and adjusting the spliced plane picture into a plane picture to be played of the display interface through a perspective transformation rule according to the display screen information.

In summary, the present invention provides a display control method and device for a special-shaped LED display screen, where the method is applied to an electronic device, and includes: acquiring a to-be-played picture and special-shaped screen information of a special-shaped LED display screen, wherein the special-shaped screen information comprises: the number of display surfaces, the connection relation of the display surfaces and the size of the display surfaces of the special-shaped LED display screen are determined; according to the special-shaped screen information and a preset special-shaped screen slicing strategy, based on the corresponding relation between the picture to be played and each display surface in the special-shaped LED display screen, the picture to be played is sliced, and a sliced picture of the special-shaped LED display screen is obtained; splicing the slice pictures according to a preset slice picture splicing strategy to obtain a spliced plane picture corresponding to the special-shaped LED display screen; acquiring display screen information of a display interface on the electronic equipment, and adjusting the spliced planar picture according to the display screen information to obtain a planar picture to be played corresponding to the display interface; and playing the plane picture to be played on the display interface. The method can slice the picture to be played according to the relation between the picture to be played and each display surface, and convert the spliced slice picture into a planar picture to be played suitable for being played on a display interface in an equal proportion, so that the playing effect of the special-shaped LED display screen is improved when the picture to be played is controlled by program playing software.

Additional features and advantages of the present disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure without limiting the disclosure. In the drawings:

FIG. 1 is a flow diagram illustrating a method for display control of a contoured LED display screen in accordance with an exemplary embodiment;

FIG. 2 is a schematic diagram of a display control method of the special-shaped LED display screen shown in FIG. 1;

FIG. 3 is a flow chart of a slicing process method according to that shown in FIG. 1;

FIG. 4 is a flow chart of a picture adjustment method according to the one shown in FIG. 1;

FIG. 5 is a block diagram of a display control device of a shaped LED display screen according to an exemplary embodiment;

fig. 6 is a schematic structural diagram of a slicing processing module according to fig. 5.

Detailed Description

The following detailed description of the disclosed embodiments will be made in conjunction with the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present disclosure, are given by way of illustration and explanation only, not limitation.

Before introducing the display control method of the special-shaped LED display screen provided by the present disclosure, a target application scenario related to each embodiment in the present disclosure is first introduced, where the target application scenario includes an electronic device, and the electronic device may be, for example, a Personal computer, a workstation, a notebook computer, a smart phone, a tablet computer, a smart television, a smart watch, a PDA (Personal Digital Assistant, chinese), and the like.

Fig. 1 is a flowchart illustrating a display control method of a special-shaped LED display screen according to an exemplary embodiment, which is applied to an electronic device, and as shown in fig. 1, the method includes:

in step 101, a picture to be played and special-shaped screen information of a special-shaped LED display screen are obtained.

Wherein the abnormal screen information includes: the number of the display surfaces, the connection relation of the display surfaces and the size of the display surfaces of the special-shaped LED display screen are determined.

For example, the special-shaped LED display screen is usually modified from a conventional LED display screen to a special display screen shape to adapt to the overall structure and environment of a building, for example, LED display screens with various shapes such as LED magic cube, LED letter screen, LED ddj table, etc. The special-shaped LED display screen in this embodiment generally refers to a polyhedron-shaped special-shaped LED display screen. After receiving the to-be-played picture sent by the sending card through the program playing control software on the electronic device, before adjusting the to-be-played picture to display on the special-shaped LED display screen, the special-shaped screen information of the special-shaped LED display screen is generally acquired first to adjust the to-be-played picture according to the special-shaped screen information, so that the to-be-played picture can be completely displayed on the special-shaped LED display screen.

The step of acquiring the special-shaped screen information specifically comprises the following steps: the electronic equipment acquires the CAD coordinate information of the special-shaped LED display screen, or the electronic equipment imports the stored CAD coordinate information of the special-shaped LED display screen; and acquiring the number of display surfaces, the connection relation of the display surfaces and the size of the display surfaces of the special-shaped LED display screen according to the CAD coordinate information.

In addition, in a normal situation, the electronic device is in communication connection with the sending card, and after the to-be-played picture is adjusted through the following steps 102 and 105, the adjusted to-be-played picture (playing plane picture) is sent to the receiving card, so that the adjusted to-be-played picture is displayed on the special-shaped LED display screen through the receiving card. Wherein, this receiving card is located the box of dysmorphism LED display screen.

In step 102, according to the special-shaped screen information and a preset special-shaped screen slicing strategy, based on the corresponding relationship between the picture to be played and each display surface in the special-shaped LED display screen, the picture to be played is sliced, and a slice picture of the special-shaped LED display screen is obtained.

For example, in a general case, the special-shaped LED display screen includes a plurality of display surfaces (for example, a square hexahedral LED display screen includes six display surfaces), and the size and connection relationship of the six display surfaces and each display surface are determined according to the special-shaped screen information; and then according to the corresponding relation between each display surface in the special-shaped LED display screen and the picture to be played, determining which display surface of each display surface the picture to be played needs to display, and slicing the picture to be played according to a preset special-shaped screen slicing strategy, so that the sliced picture to be played (namely the sliced picture) can be displayed in the display surface.

In step 103, the slice images are spliced according to a preset slice image splicing strategy to obtain a spliced plane image corresponding to the special-shaped LED display screen.

For example, after the slice of the special-shaped LED display screen is obtained in step 102, in order to facilitate the user to adjust the slice according to the special-shaped LED display screen, the user is usually enabled to adjust the slice in the display interface of the electronic device. Therefore, the slice images are spliced according to a preset slice image splicing strategy to obtain spliced plane images, and the spliced plane images correspond to the special-shaped LED display screen.

In step 104, display screen information of a display interface on the electronic device is obtained, and the tiled planar picture is adjusted according to the display screen information to obtain a planar picture to be played corresponding to the display interface.

Illustratively, the display screen information of the display interface includes the size of the display interface and a target display area in the display interface, and after the spliced planar picture is scaled in an equal proportion according to the display screen information, the planar picture to be played which can be played on the display interface is acquired.

In step 105, the to-be-played flat screen is played on the display interface.

Illustratively, after the planar picture to be played is obtained in the step 104, the planar picture to be played is played on the display interface, so that the user can adjust the position of each slice in the planar picture to be played after being scaled in equal proportion (which is equivalent to adjusting the position of each slice in the spliced planar picture) according to the playing effect on the display interface, so that the adjusted planar picture to be played can be better played on the display interface, that is, the playing effect of the picture to be played on the special-shaped LED display screen is adjusted.

Exemplarily, as shown in fig. 2, which is a schematic diagram of a display control method of the special-shaped LED display screen shown in fig. 1, the special-shaped LED display screen 210 is in a hexahedron shape and includes six display surfaces, and when the pictures of the to-be-played surfaces are sliced and spliced into the spliced planar picture shown by 220 according to the sizes and the connection relationships of the six display surfaces and the corresponding relationship between the image in the to-be-played picture and each display surface. It can be understood that, in order to facilitate the user to observe the playing effect of the to-be-played picture on the special-shaped LED display screen 210 in the program playing control software, the spliced flat screen 220 needs to be scaled to obtain the to-be-played flat screen shown in the display interface 230 on the electronic device.

Fig. 3 is a flow chart of a slicing processing method according to fig. 1, and as shown in fig. 3, the step 102 includes:

in step 1021, a preset number of display surfaces to be played are determined in the display surface according to the corresponding relationship between the picture to be played and each display surface in the special-shaped LED display screen and the special-shaped screen information.

For example, in a general situation, the to-be-played picture sent by the sending card includes images that need to be displayed on each to-be-played display surface in the special-shaped LED display screen, and the user needs to adjust the images included in the to-be-played picture to clearly and completely display the images on each to-be-played display surface of the special-shaped LED display screen. Therefore, first, the corresponding relationship between the picture to be played and each display surface in the special-shaped LED display screen needs to be determined according to the picture to be played and the special-shaped screen information obtained in the step 101 (that is, the image and the special-shaped screen information which are required to be displayed on each display surface in the special-shaped LED display screen are determined according to the picture to be played), and then the preset number of display surfaces to be played is determined in each display surface according to the corresponding relationship and the special-shaped screen information.

In step 1022, the to-be-played image is cut according to the to-be-played display surface, and a preset number of to-be-played planes are obtained.

In an example, after the display surface to be played is determined, the picture to be played is cut, so that the cut plane to be played is used for displaying on each display surface to be played respectively.

In step 1023, the plane to be played is sliced according to a preset special-shaped screen slicing strategy, and a slice picture of the special-shaped LED display screen is obtained.

Specifically, if the number of edges included in the nth to-be-played plane is m, according to a preset special-shaped screen slicing strategy, obtaining (m-2) slice pictures of the nth to-be-played plane, adding the slice pictures obtained after slicing the nth to-be-played plane, and obtaining the slice pictures of the special-shaped LED display screen, where m is greater than or equal to 3.

Illustratively, the cut picture to be played includes n planes to be played, each plane is an irregular m-polygon, and the preset slicing policy is to perform triangle slicing on the m-polygon. When m is larger than or equal to 3, for example, if one to-be-played plane of the n to-be-played planes is a pentagon, a reference point is determined in five points of the pentagon, the reference point is respectively connected with other points in the pentagon to obtain three triangular slice pictures, and the slice pictures sliced by each to-be-played plane are respectively obtained, so that the slice pictures of the special-shaped LED display screen can be obtained.

In addition, when m <3, for example, the plane to be played back is circular, it can be understood that the circular picture to be played back is still sliced into circular slices according to a preset slicing strategy.

For example, the nth plane to be played is sliced according to the above method, and if the shape of the nth plane to be played is a trapezoid, two slices can be obtained after the trapezoid is sliced. When the trapezoid and the two sliced pictures after the slicing process are represented by row-column position + pixel point, for example, the trapezoid is an image with 2 rows and 7 columns, and the pixel points in each row are 5, 3, 6, 7, 2, 8, and 9, which are stored as 5367289 and 5367289; and in the two slices after the slicing processing, the first slice can be divided into 2 rows and 3 columns, the pixel points of each row are 5, 3 and 6, and stored as 2 rows and 3 columns 536536, and the second slice can be divided into 2 rows and 4 columns, the pixel points of each row are 7, 2, 8 and 9, and stored as 2 rows and 4 columns 72897289.

Fig. 4 is a flowchart of a picture adjustment method according to fig. 1, and as shown in fig. 4, the step 104 includes:

in step 1041, display screen information of a display interface on the electronic device is obtained.

In step 1042, the shape and size of the stitched planar picture are determined;

in step 1043, according to the display screen information, the tiled flat screen is adjusted to the to-be-played flat screen of the display interface according to the perspective transformation rule.

Illustratively, the display screen information of the display interface includes a size of the display interface and a target display area in the display interface, a target proportion that needs to be scaled is determined according to the target display area and a size and a shape of the tiled planar picture, the target proportion is scaled for the tiled planar picture through a perspective transformation rule, and the tiled planar picture is adjusted to be a planar picture to be played.

The perspective transformation rule is that the spliced plane picture is projected to a new viewing plane (i.e. in the display interface), and a plane picture to be played, which has the same shape and a certain proportion with the spliced plane picture, is obtained on the new viewing plane. In the perspective transformation process, the matrix of the original image (i.e. the stitched planar picture) is usually multiplied by the transformation matrix to obtain the planar picture to be played.

In summary, the present invention provides a display control method for a special-shaped LED display screen, which is applied to an electronic device, and includes: acquiring a to-be-played picture and special-shaped screen information of a special-shaped LED display screen, wherein the special-shaped screen information comprises: the number of display surfaces, the connection relation of the display surfaces and the size of the display surfaces of the special-shaped LED display screen are determined; acquiring a slice picture of the special-shaped LED display screen based on the corresponding relation between a picture to be played and each display surface in the special-shaped LED display screen according to the special-shaped screen information and a preset special-shaped screen slice strategy; splicing the slice pictures according to a preset slice picture splicing strategy to obtain a spliced plane picture corresponding to the special-shaped LED display screen; acquiring display screen information of a display interface on the electronic equipment, and adjusting the spliced planar picture according to the display screen information to obtain a planar picture to be played corresponding to the display interface; and playing the plane picture to be played on the display interface. The method has the advantages that the pictures to be played can be sliced according to the relation between the pictures to be played and each display surface, the spliced slice pictures are converted into the planar pictures to be played suitable for being played on the display interface in an equal proportion according to the display screen information of the display interface of the program playing software, a user can obtain the playing effect on the LED display screen by observing the planar pictures to be played on the display interface so as to adjust the playing effect, and the playing effect of the special-shaped LED display screen is improved when the pictures to be played are controlled by the program playing software.

Fig. 5 is a block diagram illustrating a display control apparatus of a special-shaped LED display screen according to an exemplary embodiment, and as shown in fig. 5, the apparatus 500 is applied to an electronic device, and includes:

an information obtaining module 510, configured to obtain a to-be-played picture and special-shaped screen information of a special-shaped LED display screen, where the special-shaped screen information includes: the number of display surfaces, the connection relation of the display surfaces and the size of the display surfaces of the special-shaped LED display screen are determined;

a slicing processing module 520, connected to the information obtaining module 510, configured to slice the to-be-played picture according to the special-shaped screen information and according to a preset special-shaped screen slicing policy, based on a corresponding relationship between the to-be-played picture and each display surface in the special-shaped LED display screen, so as to obtain a sliced picture of the special-shaped LED display screen;

the picture splicing module 530 is connected with the slice processing module 520 and is used for splicing the slices according to a preset slice splicing strategy to obtain a spliced plane picture corresponding to the special-shaped LED display screen;

the picture adjusting module 540 is connected to the picture splicing module 530, and is configured to obtain display screen information of a display interface on the electronic device, and adjust the spliced planar picture according to the display screen information to obtain a planar picture to be played corresponding to the display interface;

the playing module 550 is connected to the frame adjusting module 540, and is configured to play the to-be-played planar frame on the display interface.

Fig. 6 is a schematic structural diagram of a slicing processing module according to fig. 5, and as shown in fig. 6, the slicing processing module 520 includes:

a display surface determining submodule 521, connected to the information obtaining module 510, configured to determine a preset number of display surfaces to be played in the display surface according to the corresponding relationship between the picture to be played and each display surface in the special-shaped LED display screen and the special-shaped screen information;

a plane cutting submodule 522, connected to the display surface determining submodule 521, configured to cut the to-be-played picture according to the to-be-played display surface, and obtain a preset number of to-be-played planes;

the slicing processing sub-module 523 is connected to the plane cutting sub-module 522 and the picture splicing module 530, and configured to slice the plane to be played according to a preset special-shaped screen slicing policy, so as to obtain a slice picture of the special-shaped LED display screen.

Optionally, the slice processing submodule 523 is configured to:

if the number of edges contained in the nth plane to be played is m;

according to a preset special-shaped screen slicing strategy, obtaining (m-2) slicing pictures of the nth plane to be played, wherein m is more than or equal to 3;

and adding the slice pictures obtained after the slice processing is carried out on each plane to be played to obtain the slice picture of the special-shaped LED display screen.

Optionally, the picture adjusting module 540 is configured to:

acquiring display screen information of a display interface on the electronic equipment;

determining the shape and size of the spliced plane picture;

and adjusting the spliced plane picture into a plane picture to be played of the display interface through a perspective transformation rule according to the display screen information.

In summary, the method and the apparatus for controlling display of a special-shaped LED display screen provided by the present invention are applied to an electronic device, and include: acquiring a to-be-played picture and special-shaped screen information of a special-shaped LED display screen, wherein the special-shaped screen information comprises: the number of display surfaces, the connection relation of the display surfaces and the size of the display surfaces of the special-shaped LED display screen are determined; according to the special-shaped screen information and a preset special-shaped screen slicing strategy, based on the corresponding relation between the picture to be played and each display surface in the special-shaped LED display screen, the picture to be played is sliced, and a sliced picture of the special-shaped LED display screen is obtained; splicing the slice pictures according to a preset slice picture splicing strategy to obtain a spliced plane picture corresponding to the special-shaped LED display screen; acquiring display screen information of a display interface on the electronic equipment, and adjusting the spliced planar picture according to the display screen information to obtain a planar picture to be played corresponding to the display interface; and playing the plane picture to be played on the display interface. The method has the advantages that the pictures to be played can be sliced according to the relation between the pictures to be played and each display surface, the spliced slice pictures are adjusted to be the plane pictures to be played suitable for being played on the display interface in an equal proportion according to the display screen information of the display interface of the program playing software, a user can obtain the playing effect on the LED display screen by observing the plane pictures to be played on the display interface so as to adjust the playing effect, and the playing effect of the special-shaped LED display screen is improved when the pictures to be played are controlled by the program playing software.

The preferred embodiments of the present disclosure are described in detail with reference to the accompanying drawings, however, the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solution of the present disclosure within the technical idea of the present disclosure, and these simple modifications all belong to the protection scope of the present disclosure.

It should be noted that, in the foregoing embodiments, various features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various combinations that are possible in the present disclosure are not described again.

In addition, any combination of various embodiments of the present disclosure may be made, and the same should be considered as the disclosure of the present disclosure, as long as it does not depart from the spirit of the present disclosure.

Claims (8)

1. A display control method of a special-shaped LED display screen is applied to electronic equipment, and the method comprises the following steps:

acquiring a to-be-played picture and special-shaped screen information of a special-shaped LED display screen, wherein the special-shaped screen information comprises: the number of display surfaces, the connection relation of the display surfaces and the size of the display surfaces of the special-shaped LED display screen are determined;

according to the special-shaped screen information and a preset special-shaped screen slicing strategy, based on the corresponding relation between the picture to be played and each display surface in the special-shaped LED display screen, slicing the picture to be played to obtain a slice picture of the special-shaped LED display screen;

splicing the slice pictures according to a preset slice picture splicing strategy to obtain a spliced plane picture corresponding to the special-shaped LED display screen;

acquiring display screen information of a display interface on the electronic equipment, and adjusting the spliced planar picture according to the display screen information to obtain a planar picture to be played corresponding to the display interface;

and playing the plane picture to be played on the display interface.

2. The method according to claim 1, wherein the slicing processing is performed on the to-be-played picture based on the corresponding relationship between the to-be-played picture and each display surface in the special-shaped LED display screen according to a preset special-shaped screen slicing policy according to the special-shaped screen information to obtain a sliced picture of the special-shaped LED display screen, including:

determining a preset number of display surfaces to be played in the display surfaces according to the corresponding relation between the picture to be played and each display surface in the special-shaped LED display screen and the special-shaped screen information;

cutting the picture to be played according to the display surface to be played to obtain a preset number of planes to be played;

and according to a preset special-shaped screen slicing strategy, slicing the plane to be played to obtain a slice picture of the special-shaped LED display screen.

3. The method according to claim 2, wherein the slicing the plane to be played according to a preset special-shaped screen slicing strategy to obtain a slice picture of the special-shaped LED display screen comprises:

if the number of edges contained in the nth plane to be played is m;

acquiring (m-2) slice pictures of the nth plane to be played according to a preset special-shaped screen slicing strategy, wherein m is more than or equal to 3;

and adding the slice pictures obtained after the slice processing is carried out on each plane to be played to obtain the slice picture of the special-shaped LED display screen.

4. The method according to claim 1, wherein the obtaining display screen information of a display interface on the electronic device, and adjusting the tiled planar picture according to the display screen information to obtain a planar picture to be played corresponding to the display interface, comprises:

acquiring display screen information of a display interface on the electronic equipment;

determining the shape and size of the spliced plane picture;

and adjusting the spliced plane picture into a plane picture to be played of the display interface through a perspective transformation rule according to the display screen information.

5. The utility model provides a display control device of dysmorphism LED display screen which characterized in that is applied to electronic equipment, the device includes:

the information acquisition module is used for acquiring a picture to be played and special-shaped screen information of the special-shaped LED display screen, wherein the special-shaped screen information comprises: the number of display surfaces, the connection relation of the display surfaces and the size of the display surfaces of the special-shaped LED display screen are determined;

the slicing processing module is connected with the information acquisition module and used for slicing the picture to be played according to the special-shaped screen information and a preset special-shaped screen slicing strategy and on the basis of the corresponding relation between the picture to be played and each display surface in the special-shaped LED display screen to acquire a slice picture of the special-shaped LED display screen;

the picture splicing module is connected with the slice processing module and used for splicing the slice pictures according to a preset slice picture splicing strategy to obtain a spliced plane picture corresponding to the special-shaped LED display screen;

the picture adjusting module is connected with the picture splicing module and used for acquiring display screen information of a display interface on the electronic equipment and adjusting the spliced plane picture according to the display screen information to obtain a plane picture to be played corresponding to the display interface;

and the playing module is connected with the picture adjusting module and is used for playing the planar picture to be played on the display interface.

6. The apparatus of claim 5, wherein the slice processing module comprises:

the display surface determining submodule is connected with the information acquisition module and is used for determining a preset number of display surfaces to be played in the display surfaces according to the corresponding relation between the picture to be played and each display surface in the special-shaped LED display screen and the special-shaped screen information;

the plane cutting submodule is connected with the display surface determining submodule and used for cutting the picture to be played according to the display surface to be played to obtain a preset number of planes to be played;

and the slicing processing submodule is respectively connected with the plane cutting submodule and the picture splicing module and is used for slicing the plane to be played according to a preset special-shaped screen slicing strategy to obtain a slicing picture of the special-shaped LED display screen.

7. The apparatus of claim 6, wherein the slice processing sub-module is configured to:

if the number of edges contained in the nth plane to be played is m;

acquiring (m-2) slice pictures of the nth plane to be played according to a preset special-shaped screen slicing strategy, wherein m is more than or equal to 3;

and adding the slice pictures obtained after the slice processing is carried out on each plane to be played to obtain the slice picture of the special-shaped LED display screen.

8. The apparatus of claim 5, wherein the picture adjustment module is configured to:

acquiring display screen information of a display interface on the electronic equipment;

determining the shape and size of the spliced plane picture;

and adjusting the spliced plane picture into a plane picture to be played of the display interface through a perspective transformation rule according to the display screen information.

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