CN110704009B - Picture divider control method and device and electronic equipment - Google Patents

Abstract

The application provides a picture divider control method, a picture divider control device and electronic equipment, wherein the picture divider control method comprises the following steps: receiving a first control instruction through first controls in a control interface, wherein the control interface comprises a plurality of first controls, and each first control is pre-linked with a picture divider; controlling a first picture divider to call a first division template to divide pictures; the first picture divider corresponds to a first control which receives the instruction, and the first division template is a division template appointed in the first control instruction. Therefore, a plurality of first controls linked with the picture segmenters are manufactured in the control interface, so that a debugger can simply control the picture segmenters through the operation of the first controls. That is, the picture divider can call the self division template to divide the picture of the screen according to the first control instruction sent by the debugging personnel through the first control, so that the control of the picture dividers is more convenient and faster.

Description

Picture divider control method and device and electronic equipment

Technical Field

The present invention relates to the field of video processing, and in particular, to a method and apparatus for controlling a picture divider, and an electronic device.

Background

The control method of the picture divider commonly used in the market at present generally comprises the following two modes: through the IP address selection on the original factory control panel, the corresponding picture divider is entered, and then the division layout which needs to be pre-stored is called from the preset file in the panel; or opening driving control software of the corresponding picture divider in the computer, selecting a corresponding division preset file from the setting menu, and applying the preset file to the picture divider. Through the control mode, only one picture divider can be controlled and operated at a time, and meanwhile, the function can be completed through a plurality of operation interfaces and a plurality of steps.

Disclosure of Invention

An embodiment of the present application is directed to providing a method and an apparatus for controlling a picture divider, and an electronic device, so as to solve a technical problem that only one picture divider can be controlled at a time.

In order to achieve the above objective, the technical solution provided in the embodiments of the present application is as follows:

in a first aspect, an embodiment of the present application provides a method for controlling a picture divider, including: receiving a first control instruction through first controls in a control interface, wherein the control interface comprises a plurality of first controls, and each first control is pre-linked with a picture divider; controlling a first picture divider to call a first division template to divide pictures; the first picture divider corresponds to a first control which receives an instruction, and the first division template is a division template appointed in the first control instruction. Therefore, by manufacturing a plurality of first controls linked with the picture segmenters in the control interface, a debugger can simply realize the control of the picture segmenters in one interface through the operation of the first controls. That is, the picture divider can call the self division template to divide the picture of the screen according to the first control instruction sent by the debugging personnel through the first control, so that the control of the picture dividers is more convenient and faster.

In an optional embodiment of the present application, the method for controlling a picture divider further includes: receiving a second control instruction through a second control in the control interface, wherein the control interface comprises at least one second control, and each second control corresponds to a preset dividing state of at least one picture divider; controlling a second picture divider to call a second target division template to divide pictures; the second target segmentation template is a segmentation template corresponding to the second picture segmenter in the preset segmentation state. Therefore, a plurality of preset division states can be stored in the control interface, wherein each preset division state comprises the division state of one or more picture dividers, so that a debugging person can control the plurality of picture dividers through one-key control through the operation of the second control, and the control of the plurality of picture dividers is more convenient and quicker.

In an optional embodiment of the present application, the method for controlling a picture divider further includes: receiving a third control instruction through a third control in the control interface, wherein the third control establishes a link with the picture divider; and responding to the third control instruction, and displaying a thumbnail and a name corresponding to the current segmentation state of the picture segmenter. Therefore, the current segmentation state of the picture divider can be displayed in the control interface, so that a non-technician can know the current segmentation state of the picture divider through the thumbnail and the name displayed on the control interface, and meanwhile, the graphical interface display of the segmentation state of the picture divider is realized, and the occurrence of calling errors can be effectively avoided by a debugger.

In an optional embodiment of the present application, the method for controlling a picture divider further includes: receiving a fourth control instruction through fourth controls in the control interface, wherein the control interface comprises at least one fourth control, and each fourth control corresponds to a preset dividing state of at least one picture divider; and responding to the fourth control instruction, and displaying the thumbnail and the name corresponding to the preset segmentation state. Therefore, the preset segmentation state of the picture segmenter can be displayed in the control interface, so that a non-technician can know the specific segmentation mode of the preset segmentation state through the thumbnail and the name displayed on the control interface, and meanwhile, the graphical interface display of the segmentation state of the picture segmenter is realized, and the occurrence of calling errors can be effectively avoided by a debugger.

In an optional embodiment of the present application, the method for controlling a picture divider further includes: receiving a fifth control instruction through a fifth control in the control interface, wherein the fifth control establishes a link with the picture divider; and responding to the fifth control instruction, and storing the current segmentation state of at least one picture segmenter as the preset segmentation state. Therefore, the current division state of the picture divider can be stored in the control interface as the preset division state, wherein each preset division state comprises the division state of one or more picture dividers, so that a debugger can control the picture dividers in one key, and the control of the picture dividers is more convenient and quicker.

In an optional embodiment of the application, the controlling the first screen divider to call the first division template to perform screen division includes: receiving a sixth control instruction through a sixth control in the control interface; and responding to the sixth control instruction, and controlling the first picture divider to call the first division template to divide pictures. Therefore, after the first control is operated by the debugger, in order to avoid the error touch of the debugger, the debugger can execute the control on the picture divider after receiving the sixth control instruction sent by the debugger through the sixth control, thereby avoiding the error in the switching of the dividing state of the picture divider.

In a second aspect, an embodiment of the present application provides a screen divider control apparatus, including: the first receiving module is used for receiving a first control instruction through first controls in a control interface, wherein the control interface comprises a plurality of first controls, and each first control is pre-linked with one picture divider; the first control module is used for controlling the first picture divider to call the first division template to divide pictures; the first picture divider corresponds to a first control which receives an instruction, and the first division template is a division template appointed in the first control instruction. Therefore, a plurality of first controls linked with the picture segmenters are manufactured in the control interface, so that a debugger can simply control the picture segmenters through the operation of the first controls. That is, the picture divider can call the self division template to divide the picture of the screen according to the first control instruction sent by the debugging personnel through the first control, so that the control of the picture dividers is more convenient and faster.

In an optional embodiment of the present application, the screen divider control apparatus further includes: the second receiving module is used for receiving a second control instruction through a second control in the control interface, the control interface comprises at least one second control, and each second control corresponds to a preset segmentation state of at least one picture segmenter; the second control module is used for controlling the second picture divider to call a second target division template pair to divide pictures; the second target segmentation template is a segmentation template corresponding to the second picture segmenter in the preset segmentation state. Therefore, a plurality of preset division states can be stored in the control interface, wherein each preset division state comprises the division state of one or more picture dividers, so that a debugging person can control the plurality of picture dividers through one-key control through the operation of the second control, and the control of the plurality of picture dividers is more convenient and quicker.

In an optional embodiment of the present application, the screen divider control apparatus further includes: the third receiving module is used for receiving a third control instruction through a third control in the control interface, and the third control establishes a link with the picture divider; and the first response module is used for responding to the third control instruction and displaying a thumbnail and a name corresponding to the current segmentation state of the picture segmenter. Therefore, the current segmentation state of the picture divider can be displayed in the control interface, so that a non-technician can know the current segmentation state of the picture divider through the thumbnail and the name displayed on the control interface, and meanwhile, the graphical interface display of the segmentation state of the picture divider is realized, and the occurrence of calling errors can be effectively avoided by a debugger.

In an optional embodiment of the present application, the screen divider control apparatus further includes: the fourth receiving module is used for receiving a fourth control instruction through fourth controls in the control interface, the control interface comprises at least one fourth control, and each fourth control corresponds to a preset segmentation state of at least one picture segmenter; and the second response module is used for responding to the fourth control instruction and displaying the thumbnail and the name corresponding to the preset segmentation state. Therefore, the preset segmentation state of the picture segmenter can be displayed in the control interface, so that a non-technician can know the specific segmentation mode of the preset segmentation state through the thumbnail and the name displayed on the control interface, and meanwhile, the graphical interface display of the segmentation state of the picture segmenter is realized, and the occurrence of calling errors can be effectively avoided by a debugger.

In an optional embodiment of the present application, the screen divider control apparatus further includes: a fifth receiving module, configured to receive a fifth control instruction through a fifth control in the control interface, where the fifth control establishes a link with the frame divider; and the third response module is used for responding to the fifth control instruction and storing the current segmentation state of at least one picture segmenter as the preset segmentation state. Therefore, a plurality of preset division states can be stored in the control interface, wherein each preset division state comprises the division state of one or more picture dividers, so that a debugging person can control the picture dividers in a one-key mode, and the control of the picture dividers is more convenient and quicker.

In an alternative embodiment of the present application, the first control module is further configured to: receiving a sixth control instruction through a sixth control in the control interface; and responding to the sixth control instruction, and controlling the first picture divider to call the first division template to divide pictures. Therefore, after the first control is operated by the debugger, in order to avoid the error touch of the debugger, the debugger can execute the control on the picture divider after receiving the sixth control instruction sent by the debugger through the sixth control, thereby avoiding the error in the switching of the dividing state of the picture divider.

In a third aspect, an embodiment of the present application provides an electronic device, including: a processor, a memory, and a bus; the processor and the memory complete communication with each other through the bus; the memory stores program instructions executable by the processor, the processor invoking the program instructions to enable execution of the picture divider control method as in the first aspect.

In a fourth aspect, embodiments of the present application provide a non-transitory computer-readable storage medium storing computer instructions that cause the computer to perform the picture divider control method in the first aspect.

In order to make the above objects, features and advantages of the present application more comprehensible, embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flowchart of a method for manufacturing a control interface according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram of a control interface according to an embodiment of the present disclosure;

fig. 3 is a flowchart of a method for controlling a picture divider according to an embodiment of the present application;

fig. 4 is a block diagram of a control device of a picture divider according to an embodiment of the present application;

fig. 5 is a block diagram of an electronic device according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

The picture divider may divide the display screen picture corresponding to the picture divider into a plurality of display pictures, that is, the picture divider may compress several pictures on the screen of one display according to the same ratio by adopting the methods of image compression and digital processing. In the prior art, the control method of the picture divider generally has two modes:

firstly, selecting to enter a corresponding picture divider through an IP address on a control panel of a factory, then calling a pre-stored dividing state from a preset file in the control panel, confirming the dividing state, and finally exiting from the control panel. By adopting the mode, only one picture divider can be controlled at a time, and the situation that the preset file is called incorrectly possibly occurs because the division layout preview of the preset file cannot be seen in the control process.

Second, the driving control software of the corresponding picture divider is installed on the computer, the driving control software is opened first, a setting menu of the dividing state of the picture divider is found in the driving control software, then a corresponding preset file is selected, the preset file is opened, whether the corresponding dividing state is needed or not is checked, and if the dividing state is needed, the preset file is applied to the picture divider, so that the picture divider can call the dividing state. In this way, there is also a problem that only one screen divider can be controlled at a time, and since the speed of the linking device is relatively slow and the setting menu is many, the debugger needs to have a sufficient familiarity with the software.

For example, in a program, the split state of eight picture splitters needs to be changed quickly, and by adopting the two modes, not only is the debugging time longer and the operation is complicated, but also the debugging personnel are required to be fully skilled for each operation of the original factory remote control panel or the driving control software of the picture splitters.

Therefore, based on the problems in the prior art, the embodiments of the present application provide a method for controlling a picture divider, which receives a plurality of control instructions through a plurality of controls in a control interface, so as to achieve the purpose of controlling a plurality of picture dividers accessing to the control interface in a centralized manner, without controlling the plurality of picture dividers one by one. The control interface may be built by using computer software, and as an implementation manner, an AXON cerebrium centralized control platform is taken as an example in the embodiment of the application. By utilizing the centralized control platform, the visual graphical interface design can be carried out on the plurality of picture dividers, and the visual graphical interface design is unified and integrated on one operation interface, so that the plurality of picture dividers can be controlled in a centralized way.

For ease of understanding, in the embodiment of the present application, taking an example of centralized control of five picture splitters, each picture splitter may provide a dual high definition multimedia interface (High Definition Multimedia Interface, HDMI) output, may be linked with two screens at the same time, and cause the two screens to display different picture splitting patterns.

Before the control interface is manufactured, a partition template to be called can be firstly manufactured in each picture divider, and a corresponding template name can be manufactured for each partition template. The division templates in the picture divider are division patterns corresponding to the screen linked with the picture divider, and a plurality of division templates can be stored in one picture divider.

For example, if two screens of a screen divider output full-screen signals, the dividing templates are 1 split screen and 1 split screen, which can be named as: 1 and 1; if the two screens of the same picture divider output four divided screens, the dividing template is 4 divided screens and 4 divided screens, which can be named as: 4 and 4; if six split screens are output from two screens of one picture divider, the split templates are 6 split screens and 6 split screens, which can be named as: 6 and 6; if six split screens are output from two screens of one picture divider, the split templates are 8 split screens and 8 split screens, which can be named as: 8 and 8; if one of the two screens of one picture divider outputs a four-split screen and the other outputs a six-split screen, the division template is 4-split screen and 6-split screen, which can be named as: 4 and 4; if one outputs eight split screens and the other outputs six split screens with two screens of one picture divider, the split templates are 8 split screens and 6 split screens, which can be named as: 8 and 6.

It should be noted that the above-mentioned segmentation patterns and naming manners are all an alternative scheme provided by the embodiments of the present application, and those skilled in the art may appropriately select the segmentation patterns and naming manners according to conventional technical means in the art, so that the embodiments of the present application are not limited specifically.

After the segmentation templates to be called are made in each picture segmenter, a plurality of picture segmenters can be connected into the centralized control platform. As an embodiment, the picture divider may be connected to the centralized control platform in an internet protocol (Internet Protocol, IP) manner. Specifically, accessing the plurality of picture splitters into the centralized control platform may include the following steps:

first, a centralized control platform Cerebrum is opened.

And secondly, adding a plurality of picture splitters into a left tree-shaped list of the centralized control platform Cerebrum, selecting a control protocol type for each picture splitter, and inputting an IP address corresponding to the picture splitter.

And thirdly, checking whether a successful picture divider is added in a menu of a tree-shaped directory of the centralized control platform Cerebrum, wherein an indicator light in front of the corresponding picture divider in the tree-shaped directory is turned on, namely the picture divider is successfully added.

After the plurality of picture dividers are connected to the centralized control platform, a control interface can be manufactured in the centralized control platform, and the control functions of the plurality of picture dividers are uniformly manufactured in one control interface so as to realize centralized control of the plurality of picture dividers. Referring to fig. 1, fig. 1 is a flowchart of a method for manufacturing a control interface according to an embodiment of the present application, where the method for manufacturing a control interface may include the following steps:

step S101: entering a setting interface of the centralized control platform.

Step S102: adding a picture divider in the centralized control platform according to the equipment type, and judging whether the centralized control platform can control the parameter setting of the picture divider. For example, after entering the setting interface of the centralized control platform, a device may be added in the centralized control platform, a screen divider may be selected according to a device type, and a corresponding control protocol may be selected according to a model of the screen divider. And then, judging whether the centralized control platform can control the picture divider according to the display state of the indicator lamp of the picture divider in the attribute directory at the left side in the centralized control platform. If the indication lamp of the picture divider is lighted, the centralized control platform is communicated with the picture divider, and the centralized control platform can control the picture divider; if the indicator light of the picture divider is not on, the centralized control platform is not communicated with the picture divider, and whether parameter setting in the centralized control platform is correct or not needs to be checked.

Step S103: if the centralized control platform cannot control the parameter setting of the picture divider, the centralized control platform checks the parameter setting of the picture divider, and step S102 is executed. Step S104: if the centralized control platform can control the parameter setting of the picture divider, entering a setting interface of the centralized control platform to manufacture a control interface.

Step S105: and displaying the current segmentation state of the picture segmenter by calling the template in the centralized control platform, and judging whether the template currently called by the picture segmenter corresponds to the name of the template in the called centralized control platform or not.

The template in the centralized control platform is a plurality of division patterns which are prefabricated in the centralized control platform, and the template in the picture divider is a plurality of division patterns which are prefabricated in the picture divider. For example, assuming that the current division state of the picture divider is 4 split screens and 4 split screens, calling the current division state of the template display picture divider in the centralized control platform to be 4 split screens and 4 split screens, then judging whether the name of the template in the centralized control platform is 4and 4, if so, indicating that the template currently called by the picture divider corresponds to the name of the template in the called centralized control platform; if not, the template which is called currently by the picture divider is not corresponding to the name of the template in the called centralized control platform.

Step S106: if the template currently called by the picture divider does not correspond to the name of the template in the called centralized control platform, checking the parameter setting about the picture divider in the centralized control platform, and executing step S105.

For example, if the displayed current segmentation state does not correspond to the actual segmentation state, the number of times of executing step S105 is not specifically limited in the embodiment of the present application, and may be one or more times. As an embodiment, step S105 may be repeatedly performed until the template currently invoked by the screen divider corresponds to the name of the template within the invoked centralized control platform.

Step S107: if the template currently called by the picture divider corresponds to the name of the template in the called centralized control platform, a plurality of first controls and thumbnails are manufactured in the control interface, so that each first control and each thumbnail correspond to the division template in the picture divider one by one; wherein the first control may be a control box for controlling the picture segmenter to invoke the segmentation template.

Step S108: testing whether a display template in the control interface corresponds to a segmentation template in the picture segmenter; the display template is used for displaying the thumbnail.

Step S109: if the display template in the control interface does not correspond to the segmentation template in the frame segmenter, checking the parameter setting about the frame segmenter in the centralized control platform, and executing step S108.

For example, if the display template in the control interface does not correspond to the division template in the screen divider, the number of times of executing step S108 is not specifically limited in the embodiment of the present application, and may be one or more times. As an embodiment, step S108 may be repeatedly performed until the display template in the control interface corresponds to the segmentation template in the picture segmenter, i.e., the centralized control platform may completely control the picture segmenter.

Step S110: if the display template in the control interface corresponds to the segmentation template in the picture segmenter, a second control is manufactured in the control interface; the second control may be a preset split state calling button "RECALL PRESET No." for calling the preset split state.

Step S111: manufacturing a third control in the control interface; the third control may be a CURRENT split state display button "CURRENT LAYOUT" for causing the CURRENT split state to be displayed in the control interface.

Step S112: manufacturing a fourth control in the control interface; the third control may be a current segmentation state display button "NEXT LAYOUT" for displaying a preset segmentation state in the control interface.

Step S113: manufacturing a fifth control in the control interface; the third control may be a pre-STORE button "STORE PRESET No." for storing a PRESET split state.

Step S114: manufacturing a sixth control in the control interface; the sixth control may be a function switching button "TAKE" for implementing function selection and preventing misoperation.

Furthermore, based on the method for manufacturing the control interface, the method for manufacturing the control interface in the centralized control platform can specifically include the following steps:

firstly, a blank template corresponding to a control interface is newly built in a centralized control platform.

And a second step of adding a plurality of first controls in the blank template.

For example, five control boxes (GroupBox) may be added to the blank module and named in the file (text) column, and may be named as MV1 LAYOUT, MV2 LAYOUT, MV3 LAYOUT, MV4 LAYOUT, and MV5 LAYOUT, respectively, because the five control boxes correspond to the five picture splitters MV1, MV2, MV3, MV4, and MV5, respectively. And then adding a type text box (ComboBox) containing drop-down menu list options into the five control boxes respectively to realize the function of centrally controlling the five picture splitters in one control interface. Meanwhile, a new Edit (Edit) text box is correspondingly built on the left side, and names MV1, MV2, MV3, MV4 and MV5 corresponding to the new Edit (Edit) text box are newly built, so that a debugger can control a picture divider to be debugged according to the names in the Edit text box.

And thirdly, defining the attribute of the first control and corresponding to the segmentation template in the picture segmenter, so that the first control can control the picture segmenter to call the segmentation template.

For example, an action corresponding to the ComboBox text box may be set by attribute addition to the ComboBox text box. Wherein, defining the ComboBox text box may include the steps of:

(a) The action object of the ComboBox text box is set as a control Generic Device.

(b) The graphical user interface (Graphical User Interfaces, GUI) value is SET.

(c) And setting a local variable LAY OUT, and taking the value as a current value.

(d) And setting a panel variable MV1_LAYOUT, wherein the value is the value currently input by the picture divider corresponding to the comboBox text box.

(e) The object of the genetic Device takes the value layout.

(f) And setting a GUI action object to obtain a corresponding operable target value for the ComboBox text box.

The above steps a to f may be repeated a plurality of times to define the attribute of the first control corresponding to the plurality of picture segmenters. And after all the first controls are defined, the user can click TEST PANEL on the right button of the mouse to test whether each first control price can realize control over a plurality of segmentation templates in the picture segmenter.

And fourthly, in the centralized control platform Cerebrum, thumbnail images corresponding to a plurality of segmentation templates in the picture segmenter are manufactured.

For example, making thumbnails corresponding to a plurality of division templates in a picture divider may include the steps of:

(a) The background plate size defining the thumbnail corresponding to the segmentation template is 300×420 pixels.

(b) In the control interface, two template patterns of vertical screen arrangement are simulated and drawn, and the template patterns respectively represent two display screens linked with one picture divider.

(c) Corresponding to the patterns of the plurality of segmentation templates made in the picture segmenter, making thumbnail images identical to the patterns of the plurality of segmentation templates; the patterns of the segmentation template comprise multiple patterns such as 1 split screen, 4 split screen, 6 split screen, 8 split screen and the like, and single windows with different sizes can be drawn in the template patterns drawn in the step b according to the proper size so as to adapt to different segmentation patterns.

And fifthly, linking the thumbnail in the centralized control platform Cerebrum with the segmentation template in the picture segmenter.

Illustratively, linking the thumbnail within the centralized control platform cerebrim with the segmentation template within the picture segmenter may include the steps of:

(a) Copying the thumbnails obtained in the fourth step into a control interface, wherein the thumbnails correspond to the picture segmenters MV1-MV5 and the first controls respectively.

(b) Setting the attribute of a preview screen of a picture divider, and setting the window (PANEL) direction as a pre-stored file, namely calling a default file direction by a display template; the picture divider preview screen is used for displaying the thumbnail.

(c) The display template is set to call a prestored file corresponding to a plurality of segmentation templates in the picture segmenter.

Specifically, taking the picture divider MV1 as an example, the step (c) may include the steps of:

(1) Adding a controllable picture divider type MV1: the MV1 Device type is defined as general Device, the controllable target picture divider IP address is 173.0.0.26, and the object pointing content is LAYOUT.

(2) Adding a Logic Block (Logic Block) function, and performing Logic judgment on the pointed content general Device: if the current calling segmentation template is 6and4, calling a 6and4 thumbnail which is prepared in advance in the control interface to be used as the current template for display; a GUI SET function is then added to the winding setup, i.e. the current segmentation template 6and4 is validated if it is used.

(d) And testing whether the function of displaying the thumbnail is successfully manufactured or not by clicking TEST PANEL on the right button of the mouse, and if the template style in the control interface synchronously changes with the writing of the segmentation template in the picture segmenter, successfully manufacturing the display template.

And sixthly, adding the presetting and one-key calling functions of all the picture dividers.

For example, adding the preset and one-touch call functions of all the picture splitters may include the following steps:

(a) The method comprises the following steps of adding a current segmentation state display column in a control interface, wherein the current segmentation state display column is used for simultaneously displaying the current segmentation patterns of five picture segmenters, and specifically comprises the following steps of:

(1) And adding an annotation column (Edit Box) in the control interface, and marking the corresponding name of the display content.

(2) A plurality of detection bars (Check boxes) are added in the control interface, wherein the display type in the detection bars is a variable state.

(3) Defining the content attributes of a plurality of Check boxes: the contents of variable names mv1_layout, mv2_layout, mv3_layout, mv4_layout, and mv5_layout are respectively called.

The current state display column can be controlled to display the current state through a current state display button, namely a fourth control in the embodiment of the application.

(b) A preset division state display column is added in the control interface for simultaneously displaying the preset division states of the 5 picture dividers, and the method specifically comprises the following steps:

(1) A plurality of detection bars (Check boxes) are added in the control interface, wherein the display type in the detection bars is a variable state.

(2) Defining the content attributes of a plurality of Check boxes: the contents of variable names next_mv1_layout, next_mv2_layout, next_mv3_layout, next_mv4_layout, and next_mv5_layout are respectively called.

The preset state display bar can be controlled to display the preset state through a preset state display button, namely a fourth control in the embodiment of the application.

(c) A button "STORE PRESET No." is added in the control interface, which is used for realizing the function of storing the PRESET dividing state, namely the fifth control in the embodiment of the application, and specifically includes the following steps:

(1) Buttons (buttons) are added to the control interface and the Button name STORE PRESET No. is modified.

(2) Defining button attributes: adding a GUI action to store the segmentation state of the current picture segmenter as a preset segmentation state; the current dividing state of the picture divider MV1 is obtained from the panel variable mv1_layout, the current dividing state of the picture divider MV2 is obtained from the panel variable mv2_layout, the current dividing state of the picture divider MV3 is obtained from the panel variable mv3_layou, the current dividing state of the picture divider MV4 is obtained from the panel variable mv4_layout, and the current dividing state of the picture divider MV5 is obtained from the panel variable mv5_layout.

(d) The "RECALL PRESET No." button is added in the control interface, and is used for realizing the function of calling the preset segmentation state, namely the second control in the embodiment of the application, and specifically comprises the following steps:

(1) Buttons (buttons) are added to the control interface and the Button name RECALL PRESET is modified.

(2) Defining button attributes: the STORE PRESET1 STORE file is called to make the value of variable mvlayout equal to the value of the current input.

(3) A GUI action is added to the button causing the invoked value to be displayed in NEXT LAYOUT.

(e) A "TAKE" button is added in the control interface to realize function selection and prevent misoperation, namely the sixth control in the embodiment of the application, and the method specifically comprises the following steps:

(1) Buttons (buttons) are added to the control interface and the Button name is modified as TAKE.

(2) Adding GUI actions to buttons: the control picture divider MV1 is controlled, the control type is genetic Device, the control type is LAYOUT.CURRENT, and the value is NEXTMV1_LAYOUT; similarly, the picture divider MV2-MV5 is controlled to give a value of NEXTMV2_LAYOUT-NEXTMV5_LAYOUT to LAYOUT.

It should be noted that the second control, the third control, the fourth control, the fifth control, and the sixth control are merely examples provided in the embodiments of the present application, and one, multiple, or zero controls may be selected by those skilled in the art according to actual needs. In addition, the numerical values (e.g., the IP address, background board size, etc.) and control names involved in the above-described production process are merely examples.

For example, referring to fig. 2, fig. 2 is a schematic diagram of a control interface provided in an embodiment of the present application, where the control interface is an example provided in an embodiment of the present application.

Referring to fig. 3, fig. 3 is a flowchart of a method for controlling a picture divider according to an embodiment of the present application, where the method is implemented based on the control interface manufactured in the above embodiment, and may include the following steps:

step S301: and receiving a first control instruction through a first control in the control interface.

Step S302: and controlling the first picture divider to call the first division template to divide pictures.

For example, the debugger can control the splitting state of the picture splitter by clicking the first control. The control interface comprises a plurality of first controls, each first control is connected with a picture divider in advance, the first picture divider corresponds to the first control receiving the instruction, and the first division template is a division template appointed in the first control instruction.

For example, if the first control is a control box including a type text box ComboBox with drop-down menu column options, the debugger may select a segmentation template that is desired to control the invocation of the screen segmenter from the drop-down menu column options of the text box ComboBox in the control box as desired. Assuming that a debugger wants to divide two screen images linked to a certain screen divider (first screen divider) into 1-split screen, i.e., 1-split screen and 1-split screen division pattern (first division template), the debugger can select 1and1 (first control instruction) in a control box linked to the first screen divider so that the first screen divider calls the first division template to divide the screen images according to the first control instruction.

It should be noted that, in step S301 to step S302, one screen divider may be controlled at the same time, and a plurality of screen dividers may be controlled at the same time, where a scheme of controlling a plurality of screen dividers at the same time will be described in the following embodiments.

In the embodiment of the application, the first controls which are linked with the picture segmenters are manufactured in the control interface, so that a debugger can control the picture segmenters simply by operating the first controls. That is, the picture divider can call the self division template to divide the picture of the screen according to the first control instruction sent by the debugging personnel through the first control, so that the control of the picture dividers is more convenient and faster.

Further, if it is desired to control a plurality of picture segmenters to call a segmentation template to segment a screen picture, the picture segmenter control method provided in the embodiment of the present application may further include the following steps:

and the first step, receiving a second control instruction through a second control in the control interface.

And secondly, controlling a second picture divider to call a second target division template pair to divide pictures.

For example, the debugger can control the splitting states of the plurality of second picture splitters simultaneously by clicking the second control. The control interface comprises at least one second control, each second control corresponds to a preset segmentation state of at least one picture segmenter, and the second target segmentation template is a segmentation template corresponding to the second picture segmenter in the preset segmentation state.

The control interface may store preset division states corresponding to one or more picture dividers in advance, for example: the preset split states are 1and1, 4and6, and4, and the preset split states represent invoking the 1and1 split template in the first picture splitter, invoking the 4and6 split template in the second picture splitter, and invoking the 4and4 split template in the third picture splitter. The manner of storing the preset dividing state in advance will be described in the following embodiments.

For example, if the second control is a preset partition state call button, each preset partition state call button may store a preset partition state, and the debugger may click on the preset partition state call button according to the requirement, so that the image divider calls the corresponding partition template. Assuming that the debugger wants to divide a plurality of sets of two screen pictures linked with a plurality of picture splitters (second picture splitters) into 1 split screen and1 split screen, 4 split screen and6 split screen, 4 split screen and4 split screen, respectively (preset split state), the debugger can click a preset split state call button (second control instruction) corresponding to the preset split state so that the plurality of second picture splitters call the second split templates to split the plurality of screen pictures according to the second control instruction.

In the embodiment of the application, a plurality of preset division states can be stored in the control interface, wherein each preset division state comprises the division state of one or more picture dividers, so that a debugging person can control the picture dividers through one-step control by operating the second control, and the control of the picture dividers is more convenient and quicker.

Further, the method for controlling a picture divider provided in the embodiment of the present application may further include the following steps:

and a first step of receiving a third control instruction through a third control in the control interface.

And secondly, responding to a third control instruction, and displaying the thumbnail and the name corresponding to the current segmentation state of the picture segmenter.

By way of example, the debugger can click on the third control to realize the purpose of viewing the current segmentation state of the picture segmenter. The third control establishes a link with the picture divider, and the thumbnail and the name corresponding to the dividing state of the picture divider are already set when the control interface is manufactured, so that the dividing state of the picture divider can be directly read, and the thumbnail and the name corresponding to the dividing state can be displayed in the control interface.

For example, if the third control is a current division state display button, when the debugger wants to view the current division states of all the image dividers controlled by the control interface, the debugger may click on the current division state display button, and at this time, the current division states of all the image dividers are displayed in the control interface.

In the embodiment of the application, the current segmentation state of the picture divider can be displayed in the control interface, so that not only can a non-technician know the current segmentation state of the picture divider through the thumbnail and the name displayed on the control interface, but also graphical interface display of the segmentation state of the picture divider is realized, and the occurrence of calling errors can be effectively avoided by a debugger.

Further, the method for controlling a picture divider provided in the embodiment of the present application may further include the following steps:

and the first step is to control a fourth control instruction through a fourth control in the interface.

And secondly, responding to a fourth control instruction, and displaying the thumbnail and the name corresponding to the preset segmentation state.

For example, similar to the method of displaying the thumbnail and the name corresponding to the current division state of the screen divider, the debugger can click the fourth control to achieve the purpose of viewing the preset division state of the screen divider in the control interface, and display the thumbnail and the name corresponding to the division state in the control interface. The control interface comprises at least one fourth control, and each fourth control corresponds to a preset segmentation state of at least one picture segmenter.

For example, if the fourth control is a preset division state display button, when the debugger wants to view a specific division pattern of a certain preset division state in the control interface, the debugger may click on the preset division state display button, and at this time, the specific division pattern of the preset division state is displayed in the control interface.

It should be noted that, after the debugging personnel respectively checks the specific division pattern of a certain preset division state and the current division states of the plurality of picture dividers, the debugging personnel can determine whether to switch the current division states of the plurality of picture dividers into the preset division states according to the specific division pattern of the preset division state and the current division states of the plurality of picture dividers. For example, if the preset division state of each picture divider is different from the current division state of the picture divider, the debugger can control the picture divider to switch the division state by clicking the second control.

In the embodiment of the application, the preset segmentation state of the picture divider can be displayed in the control interface, so that a non-technician can know the specific segmentation mode of the preset segmentation state through the thumbnail and the name displayed on the control interface, and meanwhile, the graphical interface display of the segmentation state of the picture divider is realized, and the occurrence of calling errors can be effectively avoided by a debugger.

Further, the method for pre-storing the preset dividing state may include the following steps:

and a first step of receiving a fifth control instruction through a fifth control in the control interface.

And a second step of storing the current division state of at least one picture divider as a preset division state in response to a fifth control instruction.

For example, the debugger may store a plurality of preset division states in the control interface in advance, so that the picture divider may be directly switched to the preset division state in the subsequent operation process, thereby saving time. The preset dividing state may include a dividing state of one picture divider or a dividing state of a plurality of picture dividers, and a person skilled in the art may make a suitable selection according to actual situations, which is not specifically limited in the embodiments of the present application.

For example, if the fifth control is a pre-storage button, the debugger may set the split states of the plurality of picture splitters first, and then store the split states of the plurality of picture splitters in the control interface as a preset split state by clicking the pre-storage button.

In the embodiment of the application, the current segmentation state of the picture segmenter can be stored in the control interface as the preset segmentation state, wherein each preset segmentation state comprises the segmentation state of one or more picture segmenters, so that a debugger can control the picture segmenters in a one-key manner, and the control of the picture segmenters is more convenient and quicker.

Further, step S302 may further include the following steps:

and a first step of receiving a sixth control instruction through a sixth control in the control interface.

And secondly, responding to a sixth control instruction, and controlling the first picture divider to call the first division template to divide pictures.

Illustratively, the debugger may click on the sixth control after clicking on the first control. As one implementation mode, the electronic device only controls the picture divider to call the corresponding division template to divide the screen under the condition that the first control instruction and the sixth control instruction are received at the same time; as another embodiment, the electronic device needs to determine whether the operation corresponding to the first control instruction is a target operation to be executed or not on the basis of receiving the first control instruction and the sixth control instruction at the same time, and only when the operation corresponding to the first control instruction is the target operation to be executed, the operation corresponding to the sixth control instruction is executed, that is, the control screen divider calls the corresponding division template to divide the screen. By adopting the mode, the possible false touch operation of debugging personnel can be effectively avoided.

In this embodiment of the present application, after the first control is operated by the debugger, in order to avoid that the operation is a false touch of the debugger, the debugger may not execute the response to the first control instruction temporarily, and control the first image divider to call the first division template to divide the image, but execute the control on the image divider after receiving the sixth control instruction sent by the debugger through the sixth control, so as to avoid that the division state of the image divider is switched to be wrong.

Referring to fig. 4, fig. 4 is a block diagram illustrating a structure of a screen divider control apparatus according to an embodiment of the present application, where the screen divider control apparatus 400 includes: the first receiving module 401 is configured to receive a first control instruction through a first control in a control interface, where the control interface includes a plurality of first controls, and each first control establishes a link with one picture divider in advance; a first control module 402, configured to control the first screen divider to call the first division template to divide the screen; the first picture divider corresponds to a first control which receives an instruction, and the first division template is a division template appointed in the first control instruction.

In the embodiment of the application, the first controls which are linked with the picture segmenters are manufactured in the control interface, so that a debugger can control the picture segmenters simply by operating the first controls. That is, the picture divider can call the self division template to divide the picture of the screen according to the first control instruction sent by the debugging personnel through the first control, so that the control of the picture dividers is more convenient and faster.

Further, the picture divider control apparatus 400 further includes: the second receiving module is used for receiving a second control instruction through a second control in the control interface, the control interface comprises at least one second control, and each second control corresponds to a preset segmentation state of at least one picture segmenter; the second control module is used for controlling the second picture divider to call a second target division template pair to divide pictures; the second target segmentation template is a segmentation template corresponding to the second picture segmenter in the preset segmentation state.

In the embodiment of the application, a plurality of preset division states can be stored in the control interface, wherein each preset division state comprises the division state of one or more picture dividers, so that a debugging person can control the picture dividers through one-step control by operating the second control, and the control of the picture dividers is more convenient and quicker.

Further, the picture divider control apparatus 400 further includes: the third receiving module is used for receiving a third control instruction through a third control in the control interface, and the third control establishes a link with the picture divider; and the first response module is used for responding to the third control instruction and displaying a thumbnail and a name corresponding to the current segmentation state of the picture segmenter.

In the embodiment of the application, the current segmentation state of the picture divider can be displayed in the control interface, so that not only can a non-technician know the current segmentation state of the picture divider through the thumbnail and the name displayed on the control interface, but also graphical interface display of the segmentation state of the picture divider is realized, and the occurrence of calling errors can be effectively avoided by a debugger.

Further, the picture divider control apparatus 400 further includes: the fourth receiving module is used for receiving a fourth control instruction through fourth controls in the control interface, the control interface comprises at least one fourth control, and each fourth control corresponds to a preset segmentation state of at least one picture segmenter; and the second response module is used for responding to the fourth control instruction and displaying the thumbnail and the name corresponding to the preset segmentation state of the picture segmenter.

In the embodiment of the application, the preset segmentation state of the picture divider can be displayed in the control interface, so that a non-technician can know the specific segmentation mode of the preset segmentation state through the thumbnail and the name displayed on the control interface, and meanwhile, the graphical interface display of the segmentation state of the picture divider is realized, and the occurrence of calling errors can be effectively avoided by a debugger.

Further, the screen divider control apparatus further includes: a fifth receiving module, configured to receive a fifth control instruction through a fifth control in the control interface, where the fifth control establishes a link with the frame divider; and the third response module is used for responding to the fifth control instruction and storing the current segmentation state of at least one picture segmenter as the preset segmentation state.

In the embodiment of the application, a plurality of preset division states can be stored in the control interface, wherein each preset division state comprises the division state of one or more picture dividers, so that a debugging person can control the picture dividers in one key, and the control of the picture dividers is more convenient and quicker.

Further, the first control module 402 is further configured to: receiving a sixth control instruction through a sixth control in the control interface; and responding to the sixth control instruction, and controlling the first picture divider to call the first division template to divide pictures.

In this embodiment of the present application, after the first control is operated by the debugger, in order to avoid that the operation is a false touch of the debugger, after receiving a sixth control instruction sent by the debugger through the sixth control, the debugger may execute the control on the picture divider, so as to avoid that an error occurs in the switching of the division states of the picture divider.

Referring to fig. 5, fig. 5 is a block diagram of an electronic device according to an embodiment of the present application, where the electronic device includes: at least one processor 501, at least one communication interface 502, at least one memory 503, and at least one communication bus 504. Where communication bus 504 is used to enable direct link communication of these components, communication interface 502 is used for signaling or data communication with other node devices, and memory 503 stores machine readable instructions executable by processor 501. When the electronic device is running, the processor 501 communicates with the memory 503 via the communication bus 504, and machine readable instructions, when invoked by the processor 501, perform the picture divider control method described above.

The processor 501 may be an integrated circuit chip having signal processing capabilities. The processor 501 may be a general-purpose processor, including a central processing unit (Central Processing Unit, CPU), a network processor (Network Processor, NP), etc.; but also digital signal processors (Digital Signal Processing, DSP), application specific integrated circuits (Application Specific Integrated Circuit, ASIC), off-the-shelf programmable gate arrays (Field-Programmable Gate Array, FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components. Which may implement or perform the various methods, steps, and logical blocks disclosed in embodiments of the present application. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The Memory 503 may include, but is not limited to, random access Memory (Random Access Memory, RAM), read Only Memory (ROM), programmable Read Only Memory (Programmable Read-Only Memory, PROM), erasable Read Only Memory (Erasable Programmable Read-Only Memory, EPROM), electrically erasable Read Only Memory (Electric Erasable Programmable Read-Only Memory, EEPROM), and the like.

It will be appreciated that the configuration shown in fig. 5 is merely illustrative, and that the electronic device may also include more or fewer components than shown in fig. 5, or have a different configuration than shown in fig. 5. The components shown in fig. 5 may be implemented in hardware, software, or a combination thereof. In this embodiment of the present application, the electronic device may be, but is not limited to, a physical device such as a desktop, a notebook, a smart phone, an intelligent wearable device, a vehicle-mounted device, or a virtual device such as a virtual machine. In addition, the electronic device is not necessarily a single device, but may be a combination of a plurality of devices, for example, a server cluster, or the like.

The present application also provides a computer program product, including a computer program stored on a non-transitory computer readable storage medium, the computer program including program instructions, which when executed by a computer, enable the computer to perform the steps of the picture divider control method in the above embodiments, for example, including: receiving a first control instruction through first controls in a control interface, wherein the control interface comprises a plurality of first controls, and each first control is pre-linked with a picture divider; controlling a first picture divider to call a first division template to divide pictures; the first picture divider corresponds to a first control which receives an instruction, and the first division template is a division template appointed in the first control instruction.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other manners. The above-described apparatus embodiments are merely illustrative, for example, the division of the units is merely a logical function division, and there may be other manners of division in actual implementation, and for example, 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 links shown or discussed with each other may be indirect coupling or communication links through some communication interfaces, devices or units, and may be in electrical, mechanical, or other forms.

Further, the units described as separate units may or may not be physically separate, and units displayed as units may or may not be physical units, may be located in one place, or may be distributed over a plurality of 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.

Furthermore, functional modules in various embodiments of the present application may be integrated together to form a single portion, or each module may exist alone, or two or more modules may be integrated to form a single portion.

In this document, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

The foregoing is merely exemplary embodiments of the present application and is not intended to limit the scope of the present application, and various modifications and variations may be suggested to one skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims (10)

1. A picture divider control method, characterized by comprising:

receiving a first control instruction through first controls in a control interface, wherein the control interface comprises a plurality of first controls, and each first control is pre-linked with a picture divider;

controlling a first picture divider to call a first division template to divide pictures; the first picture divider corresponds to a first control which receives an instruction, and the first division template is a division template appointed in the first control instruction;

Before the first control instruction is received by the first control in the control interface, the method further comprises:

entering a setting interface of a centralized control platform;

adding a picture divider in the centralized control platform according to the equipment type, and judging whether the centralized control platform can control the parameter setting of the picture divider or not;

if the centralized control platform can control the parameter setting of the picture divider, entering a setting interface of the centralized control platform to manufacture a control interface;

displaying the current segmentation state of the picture segmenter by calling the template in the centralized control platform, and judging whether the template currently called by the picture segmenter corresponds to the name of the template in the centralized control platform;

and if the template currently called by the picture divider corresponds to the name of the template in the called centralized control platform, a plurality of first controls and thumbnails are manufactured in the control interface, so that each first control and each thumbnail correspond to the division template in the picture divider one by one.

2. The picture divider control method according to claim 1, characterized in that the picture divider control method further comprises:

receiving a second control instruction through a second control in the control interface, wherein the control interface comprises at least one second control, and each second control corresponds to a preset dividing state of at least one picture divider;

Controlling a second picture divider to call a second target division template to divide pictures; the second target segmentation template is a segmentation template corresponding to the second picture segmenter in the preset segmentation state.

3. The picture divider control method according to claim 2, characterized in that the picture divider control method further comprises:

receiving a third control instruction through a third control in the control interface, wherein the third control establishes a link with the picture divider;

and responding to the third control instruction, and displaying a thumbnail and a name corresponding to the current segmentation state of the picture segmenter.

4. A picture divider control method as recited in claim 3, wherein said picture divider control method further comprises:

receiving a fourth control instruction through fourth controls in the control interface, wherein the control interface comprises at least one fourth control, and each fourth control corresponds to a preset dividing state of at least one picture divider;

and responding to the fourth control instruction, and displaying the thumbnail and the name corresponding to the preset segmentation state.

5. The picture divider control method according to claim 2, characterized in that the picture divider control method further comprises:

Receiving a fifth control instruction through a fifth control in the control interface, wherein the fifth control establishes a link with the picture divider;

and responding to the fifth control instruction, and storing the current segmentation state of at least one picture segmenter as the preset segmentation state.

6. The screen divider control method of claim 1, wherein controlling the first screen divider to invoke the first division template for screen division comprises:

receiving a sixth control instruction through a sixth control in the control interface;

and responding to the sixth control instruction, and controlling the first picture divider to call the first division template to divide pictures.

7. A picture divider control apparatus, comprising:

the first receiving module is used for receiving a first control instruction through first controls in a control interface, wherein the control interface comprises a plurality of first controls, and each first control is pre-linked with one picture divider;

the first control module is used for controlling the first picture divider to call the first division template to divide pictures; the first picture divider corresponds to a first control which receives an instruction, and the first division template is a division template appointed in the first control instruction;

The picture divider control apparatus is further configured to:

entering a setting interface of a centralized control platform;

adding a picture divider in the centralized control platform according to the equipment type, and judging whether the centralized control platform can control the parameter setting of the picture divider or not;

if the centralized control platform can control the parameter setting of the picture divider, entering a setting interface of the centralized control platform to manufacture a control interface;

displaying the current segmentation state of the picture segmenter by calling the template in the centralized control platform, and judging whether the template currently called by the picture segmenter corresponds to the name of the template in the centralized control platform;

and if the template currently called by the picture divider corresponds to the name of the template in the called centralized control platform, a plurality of first controls and thumbnails are manufactured in the control interface, so that each first control and each thumbnail correspond to the division template in the picture divider one by one.

8. The screen divider control apparatus according to claim 7, further comprising:

the second receiving module is used for receiving a second control instruction through a second control in the control interface, the control interface comprises at least one second control, and each second control corresponds to a preset segmentation state of at least one picture segmenter;

The second control module is used for controlling the second picture divider to call a second target division template pair to divide pictures; the second target segmentation template is a segmentation template corresponding to the second picture segmenter in the preset segmentation state.

9. An electronic device, comprising: a processor, a memory, and a bus;

the processor and the memory complete communication with each other through the bus;

the memory stores program instructions executable by the processor, the processor invoking the program instructions to perform the picture divider control method of any of claims 1-6.

10. A non-transitory computer-readable storage medium storing computer instructions that, when executed by a computer, cause the computer to perform the picture divider control method according to any one of claims 1-6.