CN112394893B - Visual screen matching method, device and system and computer readable medium - Google Patents

Abstract

The embodiment of the invention discloses a visual screen matching method, a visual screen matching device, a visual screen matching system and a computer readable medium. The visual screen matching method comprises the following steps: displaying a visual screen matching interface; acquiring an input source displayed by a display screen and displaying the input source in an input source display subarea; acquiring the sizes of a plurality of display boxes forming a display screen and determining a plurality of corresponding graphical boxes according to the sizes of the display boxes; responding to a user operation instruction, constructing a graphical screen body based on the graphical box bodies in the equipment carrier region, and determining the positions, the rotation angles and the wiring relation of a plurality of graphical box bodies in the graphical screen body; determining the positions, the rotation angles and the wiring relations with the plurality of display boxes according to the positions, the rotation angles and the wiring relations of the plurality of graphic boxes in the equipment carrying area, and generating display screen configuration information containing the positions, the rotation angles and the wiring relations of the plurality of display boxes; and sending display screen configuration information to the display screen for displaying the input source.

Description

Visual screen matching method, device and system and computer readable medium

Technical Field

The present invention relates to the field of display technologies, and in particular, to a method for visually configuring a screen, a device for visually configuring a screen, a system for visually configuring a screen, and a computer readable medium.

Background

Current display screens, such as LED display screens, must be paired prior to use. However, before the position and the routing relation or the topological relation of the LED display box on the display screen are not issued, the correctness of the topological relation of the LED display box cannot be judged, and even if a field configurator performs operation in front of the display screen, the field configurator cannot judge and preview the current operation effect. The topology relation of the LED display box body is arranged firstly, configuration information containing the topology relation is issued to the LED display screen, and after the configuration information is issued successfully, the correctness of the topology relation of the LED display box body can be judged, and the current operation effect can be previewed. The method ensures that the physical input source of the configuration personnel to the LED display box body and the physical structure of the display screen body have high dependence and low screen matching efficiency, and the configuration personnel cannot realize the acquisition; the user experience is poor.

Disclosure of Invention

The embodiment of the invention provides a visual screen matching method, a visual screen matching device, a visual screen matching system and a computer readable medium, which solve the problem that operators depend on a screen physical structure and a physical input source in the screen matching process, and can realize visual and jigsaw type screen matching under any environment.

In one aspect, an embodiment of the present invention provides a visual screen matching method, which is characterized by including: displaying a visual screen matching interface, wherein the visual screen matching interface comprises a screen editing area, the screen editing area comprises an input source display subarea and a device carrier subarea, the input source display subarea is overlapped with the device carrier subarea, and the device carrier subarea is positioned above the input source display subarea; acquiring an input source of a display screen and displaying the input source in an input source display subarea; acquiring the sizes of a plurality of display boxes forming the display screen and determining a plurality of graphical boxes corresponding to the plurality of display boxes according to the sizes of the plurality of display boxes; responding to a user operation instruction, constructing a graphical screen body with the same topological structure as the display screen based on the graphical box body in the equipment load area, and determining the positions, the rotation angles and the routing relations of a plurality of graphical box bodies in the graphical screen body in the equipment load area; determining the positions, the rotation angles and the wiring relations of the plurality of display boxes according to the positions, the rotation angles and the wiring relations of the plurality of graphic boxes in the equipment carrier region, and generating display screen configuration information containing the positions, the rotation angles and the wiring relations of the plurality of display boxes; and sending the display screen configuration information to the display screen for displaying the input source.

The technical scheme can have one or more of the following advantages or beneficial effects: the method comprises the steps of acquiring an input source through screen allocation software and displaying the input source in an input source display subarea, arranging a graphical screen body on a device carrier subarea overlapped with the input source display subarea, determining positions, rotation angles and routing relations of a plurality of graphical box bodies, determining the positions, rotation angles and routing relations of a plurality of display box bodies corresponding to the graphical box bodies, generating display screen configuration information, and finally sending the display screen configuration information to a display screen for displaying the input source, so that the user can clearly know the positions and the areas of input source pictures to be displayed on the display screen and the positions and the areas of the input source pictures displayed by the plurality of display box bodies through real-time display play of the input source on the screen allocation software, and the user experience is improved.

In one embodiment of the present invention, the input source is a video input source, and the acquiring the input source of the display screen and displaying the input source in the display sub-area of the input source includes: automatically acquiring the video input source; and displaying the video input source in the input source display sub-area and playing the video input source.

In one embodiment of the present invention, the visual screen matching interface further includes an input source attribute page, and the visual screen matching method further includes: and responding to a second operation instruction of the user on the input source attribute page, so as to transparently display the area outside the plurality of graphical boxes in the equipment carrying area and transparently display the area where the plurality of graphical boxes are located in the equipment carrying area.

In one embodiment of the present invention, the visual screen matching interface further includes an input source attribute page, and the visual screen matching method further includes: responding to a third operation instruction of a user on the input source attribute page, and displaying the areas outside the plurality of graphical boxes in the equipment carrying area in an opaque mode and displaying the areas where the plurality of graphical boxes are located in the equipment carrying area in a transparent mode.

In one embodiment of the present invention, the visual screen matching interface further includes an input source attribute page, and the visual screen matching method further includes: and responding to a fourth operation instruction of a user on the input source attribute page to transparently display the equipment carrier-carrying area and the plurality of graphical boxes.

In one embodiment of the present invention, the input source is a picture, and the acquiring the input source of the display screen and displaying the input source in the display sub-area of the input source includes: and responding to a fifth operation instruction of the user, loading the picture and displaying the picture in the input source display subarea.

In one embodiment of the present invention, the obtaining the sizes of the plurality of display cases constituting the display screen and determining a plurality of graphic cases corresponding to the plurality of display cases according to the sizes of the plurality of display cases includes: responding to a sixth operation instruction of a user to receive the manually input sizes of the display boxes; and constructing a graphical box body with the same size as the display box bodies according to the sizes of the display box bodies.

In one embodiment of the present invention, the visual screen matching method further includes: responding to a seventh operation instruction of a user to change the position of a first target graphical box body in the graphical box bodies to the equipment loaded area; determining the position of a first target display box corresponding to the first target graphical box according to the changed position of the first target graphical box in the equipment on-load area, and updating the display screen configuration information; and sending the updated display screen configuration information to the display screen to update display.

In one embodiment of the present invention, the visual screen matching method further includes: responding to an eighth operation instruction of the user to change the wiring relation of a second target graphical box body in the graphical box bodies; determining the wiring relation of a second target display box body corresponding to the second target graphical box body according to the wiring relation after the second target graphical box body is changed, and updating the configuration information of the display screen; and sending the updated display screen configuration information to the display screen to update display.

In one embodiment of the present invention, the visual screen matching method further includes: responding to a ninth operation instruction of a user to change the rotation angle of a third target graphical box body in the graphical box bodies; determining the rotation angle of a third target display box body corresponding to the third target graphical box body according to the changed rotation angle of the third target graphical box body, and updating the configuration information of the display screen; and sending the updated display screen configuration information to the display screen to update display.

On the other hand, the visual screen matching device provided by the embodiment of the invention comprises: the screen matching interface display module is used for displaying a visual screen matching interface, the visual screen matching interface comprises a screen editing area, the screen editing area comprises an input source display subarea and an equipment carrier subarea, the input source display subarea is overlapped with the equipment carrier subarea, and the equipment carrier subarea is positioned above the input source display subarea; the input source acquisition module is used for acquiring an input source of the display screen and displaying the input source in the input source display subarea; the box body size acquisition module is used for acquiring the sizes of a plurality of display box bodies forming the display screen and determining a plurality of graphical box bodies corresponding to the display box bodies according to the sizes of the display box bodies; the graphical parameter determining module is used for responding to a user operation instruction, constructing a graphical screen body with the same topological structure as the display screen based on the graphical box body in the equipment on-load area, and determining the positions, the rotation angles and the wiring relation of a plurality of graphical box bodies in the graphical screen body in the equipment on-load area; the display parameter determining module is used for determining the positions, the rotation angles and the wiring relations of the plurality of display boxes according to the positions, the rotation angles and the wiring relations of the plurality of graphical boxes in the equipment carrier region and generating display screen configuration information containing the positions, the rotation angles and the wiring relations of the plurality of display boxes; and the screen matching information sending module is used for sending the display screen configuration information to the display screen for displaying the input source.

In yet another aspect, an embodiment of the present invention provides a visual screen matching system, including a memory and a processor connected to the memory, where the memory stores a computer program, and the processor executes the foregoing visual screen matching method when running the computer program.

In yet another aspect, an embodiment of the present invention provides a computer readable medium storing computer executable instructions for performing the foregoing method for configuring a visual screen.

The technical scheme can have one or more of the following advantages or beneficial effects: the method comprises the steps of acquiring an input source through screen allocation software and displaying the input source in an input source display subarea, arranging a graphical screen body on a device carrier subarea overlapped with the input source display subarea, determining positions, rotation angles and routing relations of a plurality of graphical box bodies, determining the positions, rotation angles and routing relations of a plurality of display box bodies corresponding to the graphical box bodies, generating display screen configuration information, and finally sending the display screen configuration information to a display screen for displaying the input source, so that the user can clearly know the positions and the areas of input source pictures to be displayed on the display screen and the positions and the areas of the input source pictures displayed by the plurality of display box bodies through real-time display play of the input source on the screen allocation software, and the visual screen allocation is realized, so that the experience of the user is improved, and the dependence of the user on a physical input source is also solved. In addition, when the user sees that the pictures displayed on the plurality of display boxes of the display screen are inconsistent with the pictures displayed on the input source display subregion, the positions, the rotation angles and the wiring relations of the target graphical boxes of the plurality of graphical boxes are adjusted by responding to the user operation instructions, so that the two display modes are consistent, and the work efficiency and the user experience of the screen matching are improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic flow chart of a visual screen matching method according to a first embodiment of the present invention.

Fig. 2 is a schematic diagram of a hardware architecture for implementing a visual screen matching method according to a first embodiment of the present invention.

Fig. 3a is a schematic diagram of a visual screen matching interface of the screen matching software according to an embodiment of the present invention.

FIG. 3b is a diagram illustrating an effect of selecting a video input source in the input source property page according to an embodiment of the present invention.

Fig. 3c is a schematic diagram illustrating an effect of selecting a picture in a picture input source property page according to an embodiment of the present invention.

Fig. 3d is a schematic diagram illustrating the effect of the box parameter setting area according to an embodiment of the invention.

FIG. 3e is a schematic diagram illustrating the effect of the custom box interface according to an embodiment of the present invention.

Fig. 3f-3h are schematic diagrams showing three display effects of an input source display sub-region and a device carrier sub-region according to an embodiment of the present invention.

FIG. 3i is a schematic diagram showing the effect of changing the position of the graphic box according to an embodiment of the invention.

Fig. 3j is a schematic diagram illustrating an effect of changing the routing manner of the patterned box according to an embodiment of the invention.

Fig. 3k is a schematic diagram illustrating the effect of changing the rotation angle of the patterned box according to an embodiment of the invention.

Fig. 4 is a schematic structural diagram of a visual screen matching device in a second embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a visual screen matching system according to a third embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a computer readable medium according to a fourth embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

[ first embodiment ]

As shown in fig. 1, a first embodiment of the present invention provides a visual screen matching method. The visual screen matching method comprises the following steps:

s11, performing S11; displaying a visual screen matching interface, wherein the visual screen matching interface comprises a screen editing area, the screen editing area comprises an input source display subarea and a device carrier subarea, the input source display subarea is overlapped with the device carrier subarea, and the device carrier subarea is positioned above the input source display subarea;

s12, performing S12; acquiring an input source of a display screen and displaying the input source in an input source display subarea;

s13, performing S13; acquiring the sizes of a plurality of display boxes forming the display screen and determining a plurality of graphical boxes corresponding to the plurality of display boxes according to the sizes of the plurality of display boxes;

s14, performing S14; responding to a user operation instruction, constructing a graphical screen body with the same topological structure as the display screen based on the graphical box body in the equipment load area, and determining the positions, the rotation angles and the routing relations of a plurality of graphical box bodies in the graphical screen body in the equipment load area;

s15, performing S15; determining the positions, the rotation angles and the wiring relations of the plurality of display boxes according to the positions, the rotation angles and the wiring relations of the plurality of graphic boxes in the equipment carrier region, and generating display screen configuration information containing the positions, the rotation angles and the wiring relations of the plurality of display boxes; and

s16, performing S16; and sending the display screen configuration information to the display screen for displaying the input source.

In order to facilitate understanding of the present invention, the following describes in detail the steps of the visual screen matching method of the present embodiment in conjunction with fig. 2 to 3 k.

The visual screen matching method provided by the embodiment of the invention is realized by controlling screen matching software installed on an upper computer such as a PC (personal computer) by a user and sending screen matching information of a display screen to a display screen built on site through a display controller. Fig. 2 is a schematic structural diagram of a hardware architecture for implementing the visual screen matching method according to the embodiment of the present invention. Of course, the visual screen matching method provided by the embodiment of the invention can also be implemented by other hardware architectures, and the invention is not limited to the method. The screen matching software is provided with an input source display subarea and an equipment carrier subarea which are overlapped, after the input source of the corresponding display screen, the display screen and the parameter information of the display box are obtained, the input source is displayed in the input source display subarea, the graphical display box is constructed according to the obtained parameter information, the graphical display screen is constructed in the equipment carrier subarea, and the position, the rotation angle and the wiring relation of the display screen and the display box which are constructed on site are obtained according to the parameters of the graphical display box such as the position, the rotation angle and the wiring relation and are sent to the display screen for display of the display screen. Therefore, a user can see the position, the rotation angle and the wiring relation of the graphical box body in the equipment carrier region and the displayed content thereof in the screen matching software, and when the topological relation of the display box body in the display screen built on site is consistent with the graphical screen body, the displayed content on the display screen is completely consistent with the displayed content of the graphical screen body in the equipment carrier region, so that the visual screen matching is realized, and the user can see the content. In addition, when the topological relation of the display box in the display screen built on site is inconsistent with the graphical screen, a user can perform corresponding operation on the screen matching software to realize movement, rotation, routing relation update and the like of the graphical box, and then the updated display screen configuration information is sent to the display screen for display in real time. Therefore, the quick positioning and screen matching of the display box body are realized, and the working efficiency and the user experience are improved. The specific implementation manner of the visual screen matching method in the embodiment is as follows.

First, the screen matching software displays the visual screen matching interface 100. As shown in fig. 3a, the visual fit screen interface 100 includes a screen editing area 110, the screen editing area 110 including an input source display sub-area 111 and a device loader sub-area 113. The input source display sub-region 111 coincides with the device band carrier sub-region 113 and the device band carrier sub-region 113 is located above the input source display sub-region 111. The input source display sub-area 111 is used to display and play input sources of a display screen such as video input sources and pictures.

Then, an input source of a display screen is acquired and displayed in the input source display sub-area. Specifically, for example, the screen matching software may acquire the input source of the display screen automatically or in response to a user operation instruction through a display controller such as an LED display controller connected to the PC, and display the input source in the input source display sub-area 111. Further, the play input source in the input source display sub-area 111 may be displayed in synchronization with the input source sent by the display controller to the display screen, and so forth. The input source here may be a video input source or a picture. As shown in FIG. 3a, the visual fit screen interface 100 also includes an input source properties page 130. As shown in fig. 3b and 3c, an input source radio button and a picture button are provided in the input source property page 130. As shown in fig. 3b, when the user selects the input source button, it indicates that the user wants to use the video input source to perform screen matching, the screen matching software responds to the user operation instruction to automatically acquire the video input source, displays the video input source in the input source display sub-area 111, and plays the video input source. As shown in fig. 3c, when the user selects the picture button, it indicates that the user wants to use the picture to perform screen matching, and the screen matching software locally loads the picture in response to the user operation instruction and displays the picture in the input source display sub-area 111. At this point the picture is automatically tiled full screen in the input source display sub-area 111.

And then, the screen matching software acquires the sizes of a plurality of display boxes forming the display screen and determines a plurality of graphical boxes corresponding to the plurality of display boxes according to the sizes of the plurality of display boxes. The size of the display box here is, for example, the resolution of the display box expressed in terms of width×height. The screen matching software can automatically acquire the resolutions of a plurality of display boxes of the display screen through a display controller connected with the PC, and generate a graphical box with the same size as the display boxes according to the resolutions of the display boxes. The graphic box is used for constructing a graphic screen corresponding to the actual display screen in the device carrier region 113. In addition, the user can also respond to the user operation instruction such as parameter input operation instruction by triggering the screen distribution software to acquire the resolutions of the plurality of display boxes, and generate corresponding graphical boxes. As shown in fig. 3a, the visual fit screen interface 100 further includes a box parameter setting area 150. As shown in fig. 3d, the box parameter setting area 150 is provided with a [ custom box ] button and a defined graphic box list. The "custom box" button is used for a user to define the resolution of the graphical box. The graphical box list lists defined and directly callable graphical boxes, such as the 128 x 128 graphical box, 256 x 256 graphical box shown in fig. 3 d. The user can trigger the user-defined box button to pop up the user-defined box interface (see fig. 3 e) for the user to input the size (resolution) of the graphical box, for example, the width x height size, after the user clicks the user-defined button, the screen matching software responds to the user operation instruction to acquire the resolution data of the graphical box input by the user, and a newly defined graphical box is added in the graphical box list for the user to call.

Secondly, the screen matching software responds to a user operation instruction, builds a graphical screen body with the same topological structure as the display screen based on the graphical box body in the equipment on-load area, and determines the positions, the rotation angles and the wiring relations of a plurality of graphical box bodies in the graphical screen body in the equipment on-load area. Specifically, the user builds a patterned screen 1131 in the device on-load region 113 based on the defined patterned box 1131a and according to the topology of the actual display screen built in-situ (see fig. 3 a). The topology of the patterned screen 1131 is the same as that of the implementation display screen. In general, the size of the patterned screen 1131 may be less than or equal to the size of the device tape carrier region 113. Of course, the size of the device carrier region 113 may be larger than that of the device carrier region 113, but at this time, the portion of the patterned screen 1131 located outside the device carrier region 113 will not display the input source screen. The positions, rotation angles and routing relationships of the plurality of patterned boxes 1131a in the patterned screen 1131 in the device carrier region 113 are further determined. Typically, the origin of coordinates of the device-carried region 113 is the coordinates (0, 0) of the top-left corner vertex. The rotation angle of the graphic housing 1131a is, for example, a clockwise angle value of the graphic housing 1131a with reference to the center point coordinates of the graphic housing 1131 a. The wiring of the plurality of patterned boxes is, for example, a connection of the connection relationship between the plurality of patterned boxes as indicated by the arrowed line segments in fig. 3f. The positions, the rotation angles and the routing relationships of the plurality of graphic boxes 1131a can be realized by the screen matching software in response to the mobile operation instruction, the rotation operation instruction and the connection operation of a user.

Thirdly, the screen matching software obtains the positions, the rotation angles and the wiring relations of the plurality of display boxes corresponding to the plurality of graphic boxes 1131a according to the positions, the sizes (corresponding resolutions), the rotation angles and the wiring relations of the plurality of graphic boxes 1131a in the device carrier region 113, and generates display screen configuration information containing the positions, the rotation angles and the wiring relations of the plurality of display boxes.

And finally, sending the display screen configuration information to a display screen for displaying the input source.

In this way, the input source is obtained through the screen distribution software and displayed in the input source display subarea, the graphical screen bodies are arranged on the equipment carrier subarea overlapped with the input source display subarea, the positions, the rotation angles and the routing relations of the graphical box bodies are determined, the positions, the rotation angles and the routing relations of the display box bodies corresponding to the graphical box bodies are determined, the display screen configuration information is generated, and finally the display screen configuration information is sent to the display screen for displaying the input source, so that the input source and the input source displayed and played on the display screen are displayed in real time through real-time display on the screen distribution software, a user can clearly know the positions and the areas of the input source images to be displayed on the display screen, the screen distribution results of the display box bodies on the display screen are determined through real-time comparison display of the input source, visual screen distribution is realized, the experience degree of the user is improved, and the dependence of operators on the physical structure and the physical input source of the display screen in the screen distribution process is solved.

Further, as shown in fig. 3b, when the user selects the video input source mode, the input source property page 130 is further provided with three buttons. The screen matching software responds to the operation instruction of the first button (the rectangular button on the left in fig. 3 b) triggered by the user, the transparent display device carries the region outside the plurality of graphic boxes 1131a in the carrier region 1113, and the opaque display device carries the region where the plurality of graphic boxes 1131a are located in the carrier region 113, and the effect schematic diagram is shown in fig. 3f. Therefore, the user can clearly know the position and the area of the input source picture to be displayed on the display screen, and visual screen matching is realized, and the user can obtain the display screen. The screen matching software responds to an operation instruction of triggering a second button (a rectangular button in the middle of fig. 3 b) by a user, and the effect schematic diagram of the screen matching software is shown in fig. 3g, wherein the area of the opaque display device with the carrier area 113 is outside the plurality of graphic boxes 1131a and the area of the transparent display device with the carrier area 113 is where the plurality of graphic boxes 1131a are located. Therefore, a user can clearly know the positions and the areas of the input source pictures to be displayed on the plurality of boxes, and visual screen matching is realized, and the display is obtained. The screen matching software responds to the operation instruction of the third button (the right rectangular button in fig. 3 b) triggered by the user, and the transparent display device carries the carrier region 113 and the regions where the plurality of display boxes 1131a are located, namely, the input source display region 111 is displayed, and the effect schematic diagram is shown in fig. 3h. Therefore, a user can clearly know the positions and the areas of the input source pictures to be displayed on the plurality of boxes, and visual screen matching is realized, and the display is obtained.

Further, as shown in fig. 3i, the method for configuring a screen in a visualization manner according to the embodiment of the present invention further includes: responding to a user operation instruction to change the position of a first target graphical box body in the graphical box bodies to the equipment load area; determining the position of a first target display box corresponding to the first target graphical box according to the changed position of the first target graphical box in the equipment on-load area, and updating the display screen configuration information; and sending the updated display screen configuration information to the display screen to update display. For example, the user selects and moves the graphic box 1131a, the screen matching software responds to the user operation instruction to change the position of the graphic box 1131a, determines the relevant parameters of the corresponding target display box, and sends the updated display screen configuration information to the display screen so as to update the picture displayed by the display screen.

In addition, as shown in fig. 3j, the method for matching a screen in a visualization manner according to the embodiment of the present invention further includes: responding to a user operation instruction to change the wiring relation of a second target graphical box body in the graphical box bodies; determining the wiring relation of a second target display box body corresponding to the second target graphical box body according to the wiring relation after the second target graphical box body is changed, and updating the configuration information of the display screen; and sending the updated display screen configuration information to the display screen to update display. For example, the user selects and moves the cursor, the screen matching software changes the routing relation of the graphic box 1131a in response to the user operation instruction, determines the corresponding relevant parameters of the corresponding target display box, and sends the updated display screen configuration information to the display screen so as to update the picture displayed by the display screen.

Furthermore, as shown in fig. 3k, the method for configuring a screen in a visualization manner according to the embodiment of the present invention further includes: responding to a user operation instruction to change the rotation angle of a third target graphical box body in the graphical box bodies; determining the rotation angle of a third target display box body corresponding to the third target graphical box body according to the changed rotation angle of the third target graphical box body, and updating the configuration information of the display screen; and sending the updated display screen configuration information to the display screen to update display. For example, the user selects and rotates the graphic box 1131a, the screen matching software responds to the user operation instruction to change the rotation angle of the graphic box 1131a, determines the corresponding relevant parameters of the corresponding target display box, and sends the updated display screen configuration information to the display screen so as to update the picture displayed by the display screen.

In this way, when the user sees that the pictures displayed on the multiple display boxes of the display screen are inconsistent with the pictures displayed on the input source display sub-region 111, the user can adjust the positions, the rotation angles and the routing relationships of the target graphic boxes of the multiple graphic boxes 1131a, so that the two displays are consistent, and the work efficiency and the user experience of the screen matching are improved.

It should be noted that, when the input source is a video input source or picture that is locally acquired or loaded in response to a user operation by the screen matching software, the screen matching software synchronously sends the video input source or picture to the display screen for display when executing step S16. Therefore, the input sources can be randomly switched through the screen matching software and sent to the display screen for displaying, and the screen matching is performed on the display screen, so that the freedom degree and the user experience degree of the screen matching work of the user are improved.

[ second embodiment ]

Referring to fig. 4, a second embodiment of the present invention provides a visual screen matching device 300. As shown in fig. 3, the visual screen matching device 300 includes, for example, a screen matching interface display module 310, an input source acquisition module 320, a box size acquisition module 330, a graphics parameter determination module 340, a display parameter determination module 350, a screen matching information transmission module 360, and the like.

The screen matching interface display module 310 is configured to display a visual screen matching interface, where the visual screen matching interface includes a screen editing area, the screen editing area includes an input source display sub-area and a device carrier sub-area, the input source display sub-area coincides with the device carrier sub-area, and the device carrier sub-area is located above the input source display sub-area.

The input source acquisition module 320 is configured to acquire an input source of a display screen and display the input source in the input source display sub-area.

The box size obtaining module 330 is configured to obtain sizes of a plurality of display boxes that form the display screen, and determine a plurality of graphic boxes corresponding to the plurality of display boxes according to the sizes of the plurality of display boxes.

The graphics parameter determining module 340 is configured to construct a graphics screen body with the same topological structure as the display screen based on the graphics box body in the equipment carrier region in response to a user operation instruction, and determine positions, rotation angles and routing relationships of a plurality of graphics box bodies in the graphics screen body in the equipment carrier region.

The display parameter determining module 350 is configured to determine the positions, rotation angles, and routing relationships of the plurality of display boxes according to the positions, rotation angles, and routing relationships of the plurality of graphic boxes in the on-load area of the device, and generate display configuration information including the positions, rotation angles, and routing relationships of the plurality of display boxes.

And the screen matching information sending module 360 is configured to send the display screen configuration information to the display screen for displaying the input source.

In addition, the visual screen matching device 300 further includes a box displacement module (not shown in the figure). The box shift module is used for: responding to a user operation instruction to change the position of a first target graphical box body in the graphical box bodies to the equipment carrier region; determining the position of a first target display box corresponding to the first target graphical box according to the changed position of the first target graphical box in the equipment on-load area, and updating the display screen configuration information; and sending the updated display screen configuration information to the display screen to update display.

Furthermore, the visual screen matching device 300 further includes a box connection adjustment module (not shown in the figure). The box body connecting line adjusting module is used for: changing the wiring relation of a second target graphical box body in the graphical box bodies in response to a user operation instruction; determining the wiring relation of a second target display box body corresponding to the second target graphical box body according to the wiring relation after the second target graphical box body is changed, and updating the configuration information of the display screen; and sending the updated display screen configuration information to the display screen to update display.

In addition, the visual screen matching device 300 further includes a rotation angle adjustment module (not shown in the figure). The rotation angle adjustment module block is used for: responding to a user operation instruction to change the rotation angle of a third target graphical box body in the graphical box bodies; determining the rotation angle of a third target display box body corresponding to the third target graphical box body according to the changed rotation angle of the third target graphical box body, and updating the configuration information of the display screen; and sending the updated display screen configuration information to the display screen to update display.

The specific implementation process and technical effects of each module of the visual screen matching device 300 provided in the embodiment of the present invention may refer to the first embodiment, and are not repeated herein.

[ third embodiment ]

Referring to fig. 5, a third embodiment of the present invention provides a visual screen matching system 500. The visual fit system includes a memory 530 and a processor 510 coupled to the memory 530. The memory 530 may be, for example, a non-volatile memory, on which the computer program 531 is stored. The processor 510 may be, for example, an ARM processor. The processor 510, when executing the computer program 531, performs the visual screen matching method described previously.

[ fourth embodiment ]

As shown in fig. 6, a fourth embodiment of the present invention provides a computer-readable medium 700. The computer readable medium 700 is, for example, a non-volatile memory, which is, for example: magnetic media (e.g., hard disk, floppy disk, and magnetic strips), optical media (e.g., CDROM disks and DVDs), magneto-optical media (e.g., optical disks), and hardware devices that are specially constructed for storing and performing computer-executable instructions (e.g., read-only memory (ROM), random Access Memory (RAM), flash memory, etc.). Computer-readable medium 700 has stored thereon computer-executable instructions 710. The computer-readable medium 700 may execute the computer-executable instructions 710 by one or more processors or processing devices to implement the visual screen matching method of the foregoing first embodiment.

In the several embodiments provided in the present invention, it should be understood that the disclosed systems, devices, and methods may be implemented in other manners. For example, the apparatus embodiments described above are merely illustrative, e.g., the division of the units is merely a logical function division, and there may be additional divisions in actual implementation, e.g., multiple units or components may be combined or integrated into another system, or some features may be omitted, or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be an indirect coupling or communication connection via some interfaces, devices or units, which may be in electrical, mechanical or other form.

The units described as separate units may or may not be physically separate, and units shown as units may or may not be physical units, may be located in one place, or may be distributed on multiple network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (13)

1. A method for visually configuring a screen, comprising:

displaying a visual screen matching interface, wherein the visual screen matching interface comprises a screen editing area, the screen editing area comprises an input source display subarea and a device carrier subarea, the input source display subarea is overlapped with the device carrier subarea, and the device carrier subarea is positioned above the input source display subarea;

acquiring an input source of a display screen and displaying the input source in an input source display subarea;

acquiring the sizes of a plurality of display boxes forming the display screen and determining a plurality of graphical boxes corresponding to the plurality of display boxes according to the sizes of the plurality of display boxes;

responding to a user operation instruction, constructing a graphical screen body with the same topological structure as the display screen based on the graphical box body in the equipment load area, and determining the positions, the rotation angles and the routing relations of a plurality of graphical box bodies in the graphical screen body in the equipment load area;

determining the positions, the rotation angles and the wiring relations of the plurality of display boxes according to the positions, the rotation angles and the wiring relations of the plurality of graphic boxes in the equipment carrier region, and generating display screen configuration information containing the positions, the rotation angles and the wiring relations of the plurality of display boxes; and

and sending the display screen configuration information to the display screen for displaying the input source.

2. The method of visual fit-screen as described in claim 1, wherein the input source is a video input source, and wherein the obtaining the input source of the display screen and displaying the input source in the input source display sub-area comprises:

automatically acquiring the video input source; and

displaying the video input source in the input source display subarea and playing the video input source.

3. The visual fit screen method as described in claim 2, wherein the visual fit screen interface further comprises an input source properties page, the visual fit screen method further comprising:

and responding to a second operation instruction of the user on the input source attribute page, so as to transparently display the area outside the plurality of graphical boxes in the equipment carrying area and transparently display the area where the plurality of graphical boxes are located in the equipment carrying area.

4. The visual fit screen method as described in claim 2, wherein the visual fit screen interface further comprises an input source properties page, the visual fit screen method further comprising:

responding to a third operation instruction of a user on the input source attribute page, and displaying the areas outside the plurality of graphical boxes in the equipment carrying area in an opaque mode and displaying the areas where the plurality of graphical boxes are located in the equipment carrying area in a transparent mode.

5. The visual fit screen method as described in claim 2, wherein the visual fit screen interface further comprises an input source properties page, the visual fit screen method further comprising:

and responding to a fourth operation instruction of a user on the input source attribute page to transparently display the equipment carrier-carrying area and the plurality of graphical boxes.

6. The method for configuring a visual screen according to claim 1, wherein the input source is a picture, and the acquiring the input source of the display screen and displaying the input source in the display sub-area of the input source comprises:

and responding to a fifth operation instruction of the user, loading the picture and displaying the picture in the input source display subarea.

7. The method of visually matching a screen according to claim 1, wherein the obtaining the sizes of a plurality of display cases constituting the display screen and determining a plurality of graphic cases corresponding to the plurality of display cases according to the sizes of the plurality of display cases comprises:

responding to a sixth operation instruction of a user to receive the manually input sizes of the display boxes; and

and constructing a graphical box body with the same size as the display box bodies according to the size of the display box bodies.

8. The visual screen matching method according to claim 1, further comprising:

responding to a seventh operation instruction of a user to change the position of a first target graphical box body in the graphical box bodies to the equipment loaded area;

determining the position of a first target display box corresponding to the first target graphical box according to the changed position of the first target graphical box in the equipment on-load area, and updating the display screen configuration information; and

and sending the updated display screen configuration information to the display screen to update display.

9. The visual screen matching method according to claim 1, further comprising:

responding to an eighth operation instruction of the user to change the wiring relation of a second target graphical box body in the graphical box bodies;

determining the wiring relation of a second target display box body corresponding to the second target graphical box body according to the wiring relation after the second target graphical box body is changed, and updating the configuration information of the display screen; and

and sending the updated display screen configuration information to the display screen to update display.

10. The visual screen matching method according to claim 1, further comprising:

responding to a ninth operation instruction of a user to change the rotation angle of a third target graphical box body in the graphical box bodies;

determining the rotation angle of a third target display box body corresponding to the third target graphical box body according to the changed rotation angle of the third target graphical box body, and updating the configuration information of the display screen; and

and sending the updated display screen configuration information to the display screen to update display.

11. A visual screen fitting device, comprising:

the screen matching interface display module is used for displaying a visual screen matching interface, the visual screen matching interface comprises a screen editing area, the screen editing area comprises an input source display subarea and an equipment carrier subarea, the input source display subarea is overlapped with the equipment carrier subarea, and the equipment carrier subarea is positioned above the input source display subarea;

the input source acquisition module is used for acquiring an input source of the display screen and displaying the input source in the input source display subarea;

the box body size acquisition module is used for acquiring the sizes of a plurality of display box bodies forming the display screen and determining a plurality of graphical box bodies corresponding to the display box bodies according to the sizes of the display box bodies;

the graphical parameter determining module is used for responding to a user operation instruction, constructing a graphical screen body with the same topological structure as the display screen based on the graphical box body in the equipment on-load area, and determining the positions, the rotation angles and the wiring relation of a plurality of graphical box bodies in the graphical screen body in the equipment on-load area;

the display parameter determining module is used for determining the positions, the rotation angles and the wiring relations of the plurality of display boxes according to the positions, the rotation angles and the wiring relations of the plurality of graphical boxes in the equipment carrier region and generating display screen configuration information containing the positions, the rotation angles and the wiring relations of the plurality of display boxes; and

and the screen matching information sending module is used for sending the display screen configuration information to the display screen for displaying the input source.

12. A visual screen matching system comprising a memory and a processor connected to the memory, the memory storing a computer program, the processor executing the visual screen matching method of any one of claims 1 to 10 when the computer program is run.

13. A computer readable medium storing computer executable instructions for performing the visual fit method of any one of claims 1 to 10.