CN116208795A

CN116208795A - Control method and electronic equipment

Info

Publication number: CN116208795A
Application number: CN202310212747.2A
Authority: CN
Inventors: 周夫强
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2023-02-28
Filing date: 2023-02-28
Publication date: 2023-06-02

Abstract

The application discloses a control method and electronic equipment, the electronic equipment at least comprises a first output component and a second output component, and the method comprises the following steps: obtaining a first setting instruction; responding to the first setting instruction, and setting the first output component as an interconnection output component; the interconnection output component is used for outputting content transmitted by interconnection equipment connected with the electronic equipment; the second output part is used for outputting the content of the electronic equipment.

Description

Control method and electronic equipment

Technical Field

The present disclosure relates to the field of computer technologies, and in particular, to a control method and an electronic device.

Background

With the development of technology, the use of dual-screen devices is becoming more and more widespread. Therefore, a technical solution for enabling the dual-screen device to be interconnected with other devices is needed.

Disclosure of Invention

The application provides a control method and electronic equipment, as follows:

a control method applied to an electronic device, the electronic device including at least a first output part and a second output part, the method comprising:

obtaining a first setting instruction;

responding to the first setting instruction, and setting the first output component as an interconnection output component; the interconnection output component is used for outputting content transmitted by interconnection equipment connected with the electronic equipment; the second output part is used for outputting the content of the electronic equipment.

In the above method, preferably, before the first output component is set to be an interconnection output component, the method further includes:

obtaining the first content output on the first output part;

wherein after setting the first output component as an interconnected output component, the method further comprises:

outputting the first content in the second output section.

The above method, preferably, the method further comprises:

obtaining a second setting instruction;

in response to the second setting instruction, canceling the first output component to be an interconnection output component;

outputting the first content in the first output section.

In the above method, preferably, the outputting the first content in the second output unit includes:

obtaining a second display parameter according to a first display parameter of the first content on the first output component;

outputting the first content according to the second display parameter on the second output part.

In the above method, preferably, the outputting the first content in the first output unit includes:

outputting the first content according to the first display parameter in the first output section.

The above method, preferably, the method further comprises:

a first display parameter of the first content on the first output member is monitored and recorded.

The above method, preferably, further comprising:

responding to an application starting instruction, and obtaining an application type of a target application corresponding to the application starting instruction;

outputting an application window corresponding to the target application on the interconnection output part under the condition that the target application is of a first type;

and outputting an application window corresponding to the target application on the second output component under the condition that the target application is of a second type.

In the above method, preferably, the setting the first output component as an interconnection output component includes:

setting the first output component corresponding to the target identifier in the first setting instruction as an interconnection output component;

or alternatively, the first and second heat exchangers may be,

and setting the first output component matched with the interconnection device as an interconnection output component.

In the above method, preferably, the matching of the first output component with the interconnection device includes:

the output parameters of the first output means are matched to the content transmitted by the interconnect device,

or alternatively, the first and second heat exchangers may be,

the output parameters of the first output component are matched with the output parameters of the interconnection device.

An electronic device, comprising:

a first output member and a second output member;

the processor is used for obtaining a first setting instruction; responding to the first setting instruction, and setting the first output component as an interconnection output component; the interconnection output component is used for outputting content transmitted by interconnection equipment connected with the electronic equipment; the second output part is used for outputting the content of the electronic equipment.

As can be seen from the above technical solutions, in the control method and the electronic device disclosed in the present application, for an electronic device including a plurality of output components, one of the output components is set as an interconnection output component in response to an obtained setting instruction, based on which, content transmitted by an interconnection device connected to the electronic device is output through the interconnection output component, and content of the electronic device itself is output through another output component. Therefore, the equipment of the multiple output parts and other equipment can be interconnected through the setting instruction, and the use experience of the user on the equipment of the multiple output parts is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other 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 control method according to a first embodiment of the present application;

FIG. 2 is an exemplary diagram of a dual screen device in an embodiment of the present application;

FIGS. 3, 4 and 5 are respectively exemplary diagrams for obtaining a first setting instruction according to an embodiment of the present application;

FIGS. 6 and 7 are diagrams illustrating the arrangement of interconnection output components according to embodiments of the present application;

FIG. 8 is another flow chart of a control method according to the first embodiment of the present application;

fig. 9 is an exemplary diagram of a display screen b outputting first content in the embodiment of the present application;

fig. 10 is an exemplary diagram of a display screen a outputting first content after the display screen b outputs a screen-throwing screen of the mobile phone in the embodiment of the present application;

FIG. 11 is a partial flow chart of a control method according to a first embodiment of the present disclosure;

fig. 12, 13 and 14 are respectively exemplary diagrams for obtaining a second setting instruction in the embodiment of the present application;

FIG. 15 is an illustration of display b canceling output of display a and display b before and after being interconnected as an output screen in an embodiment of the present application;

FIGS. 16 and 17 are flow charts illustrating another portion of a control method according to a first embodiment of the present disclosure;

fig. 18 is a schematic structural diagram of a control device according to a second embodiment of the present disclosure;

fig. 19 and 20 are schematic views of another structure of a control device according to a second embodiment of the present disclosure;

fig. 21 is a schematic structural diagram of an electronic device according to a third embodiment of the present application;

fig. 22 is a screen setting flowchart applicable to a two-screen device including a main screen and a sub-screen.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

Referring to fig. 1, a flowchart of an implementation of a control method according to a first embodiment of the present application may be applicable to an electronic device, such as a dual-screen device, including at least a first output unit and a second output unit. For example, as shown in fig. 2, a dual screen device includes a plurality of display screens: display screen a and display screen b. The technical scheme in the embodiment is mainly used for realizing interconnection between the equipment of the multi-output component and other equipment so as to improve the use experience of a user on the equipment of the multi-output component.

Specifically, the method in this embodiment may include the following steps:

step 101: a first setting instruction is obtained.

In one implementation manner, the first setting instruction is an instruction generated by a user performing interconnection setting operation on the first output component and the second output component, the first setting instruction includes a target identifier, the target identifier corresponds to one output component of the first output component and the second output component, and the target identifier is used for indicating that the output component corresponding to the target identifier is set as the interconnection output component. For example, as shown in fig. 3, an interconnection setting interface may be output for a user on the dual-screen device, where the interconnection setting interface includes setting controls corresponding to display screen a and display screen b, and the user may perform a selection operation on the setting controls, based on this, a first setting instruction is generated on the dual-screen device in response to the selection operation of the user, and the first setting instruction includes a target identifier corresponding to display screen a or a target identifier corresponding to display screen b, so as to instruct that display screen a or display screen b is set as an interconnection output screen.

In another implementation manner, the first setting instruction is an instruction generated by a user performing an interconnection setting operation on an interconnection device connected to the electronic device, where the first setting instruction is used to instruct one of the first output component and the second output component to set the one of the first output component and the second output component as the interconnection output component. For example, as shown in fig. 4, an interconnection setting interface may be output for a user on the dual-screen device, where the interconnection setting interface includes a setting control corresponding to a mobile phone connected to the dual-screen device, and the user may perform a selection operation on the setting control, based on this, a first setting instruction is generated on the dual-screen device in response to the selection operation of the user, so as to instruct that one of the display screens a and b is set as an interconnection output screen corresponding to the mobile phone.

In another implementation, the first setting instruction is an instruction generated by the electronic device in response to a connection state of an interconnection device to which the electronic device is connected, where the first setting instruction is used to instruct setting one of the first output component and the second output component to be the interconnection output component. For example, as shown in fig. 5, in the case where a mobile phone is connected to a dual-screen device, the dual-screen device generates a first setting instruction in response to a connection state of the mobile phone to the dual-screen device to instruct setting one of the display screen a and the display screen b as an interconnection output screen corresponding to the mobile phone.

Step 102: and setting the first output component as an interconnection output component in response to the first setting instruction.

The interconnection output component is used for outputting contents transmitted by the interconnection device connected with the electronic device, and the second output component is used for outputting contents of the electronic device.

In one implementation manner, the first setting instruction includes a target identifier, where the target identifier corresponds to the first output component, and based on this, in this embodiment, the first output component corresponding to the target identifier in the first setting instruction is set as the interconnection output component.

For example, as shown in fig. 6, the user selects the display screen a on the interconnection setting interface, based on this, a first setting instruction is generated on the dual-screen device in response to the operation of selecting the display screen a by the user, where the first setting instruction includes a target identifier corresponding to the display screen a, so that the display screen a is set as an interconnection output screen, that is, the content n1 transmitted by the mobile phone is output on the interconnection output screen, that is, the display screen a, and the content n2 of the dual-screen device is output on the display screen b.

In another implementation, the first output component matched with the interconnection device is set as the interconnection output component in this embodiment.

For example, as shown in fig. 7, the user clicks a setting control corresponding to the mobile phone on the interconnection setting interface, based on which the dual-screen device generates a first setting instruction in response to an operation of selecting the mobile phone by the user, sets a display screen b matched with the mobile phone as an interconnection output screen, outputs a content n1 transmitted by the mobile phone on the interconnection output screen, that is, the display screen b, and outputs a content n2 of the dual-screen device itself on the display screen a.

Specifically, because the first output component and the second output component have differences in output parameters and/or component types, based on this, in the embodiment, an output component capable of being matched with the interconnection device is selected from the first output component and the second output component as an interconnection output component, and the first output component is matched with the interconnection device. Among the output parameters may be screen size, resolution, refresh rate, high dynamic range imaging HDR (HighDynamicRangeImaging), color gamut, etc., the component type may be ink screen type, backlight type, battery powered type, etc. Based on this, the first output component is matched to the interconnect device may be as follows:

in one case, the first output component is matched to the interconnect device as: the output parameters of the first output means are matched to the content transmitted by the interconnection device. For example, the matching of the output parameters of the first output component with the content transmitted by the interconnection device may be: the aspect ratio of the screen of the display screen b is matched with the aspect ratio of the mobile phone screen, the screen resolution or refresh rate of the display screen b is matched with the picture resolution of the mobile phone screen, the color gamut of the display screen b is matched with the color parameters of the mobile phone screen image, and the like.

Based on this, in this embodiment, through selecting the output part that can satisfy the output demand of the content of interconnection equipment between first output part and second output part as interconnection output part, from this, satisfy the user of interconnection equipment and throw the screen demand, improve the user and throw the screen use experience of electronic equipment.

In another case, the first output component is matched to the interconnect device by: the output parameters of the first output member are matched to the output parameters of the interconnect device. For example, the matching of the output parameters of the first output component with the output parameters transmitted by the interconnect device may be: the aspect ratio of the screen of the display screen b is matched with that of the mobile phone, so that a screen throwing picture of the mobile phone can be output for a user through the display screen with the matched aspect ratio, and the viewing experience of the user is improved.

In another case, the first output component is matched to the interconnect device by: the component type of the first output component matches the content transmitted by the interconnect device.

For example, the component type of the first output component may be matched to the content transmitted by the interconnect device as: the type of the ink screen of the display screen b is matched with the document of the mobile phone screen, so that the viewing experience of a user reading the document through the display screen b can be improved by selecting the display screen b of the type of the ink screen as an interconnection output screen; for another example, the matching of the component type of the first output component with the content transmitted by the interconnection device may be: the power supply type of the power adapter of the display screen b is matched with the dynamic change type or the static continuous display type of the mobile phone screen throwing content, so that the mobile phone screen throwing content can be displayed for a user through the display screen b of the power supply type of the power adapter, and the situation that the battery power supply type display screen outputs the power consumption type content and has the time limit is avoided; for another example, the matching of the component type of the first output component with the content transmitted by the interconnection device may be: the type of the screen without backlight of the display screen b is matched with the reading picture of the mobile phone screen, so that the display screen without backlight can be selected as an interconnection output screen to avoid the excessive stimulation of the display screen to eyes of a user, and the watching experience of the user is improved.

As can be seen from the above, in the control method provided in the first embodiment of the present application, for an electronic device including a plurality of output components, one of the output components is set as an interconnection output component in response to an obtained setting instruction, based on which, content transmitted by an interconnection device connected to the electronic device is output through the interconnection output component, and content of the electronic device itself is output through another output component. Therefore, in this embodiment, the device of the multiple output component and other devices can be interconnected through the setting instruction, so as to improve the use experience of the user on the device of the multiple output component.

In one implementation, before the first output component is set as the interconnection output component in step 102, the method in this embodiment may further include the following steps, as shown in fig. 8:

step 103: the first content output on the first output section is obtained.

That is, the first content originally output on the first output section is obtained before the first output section outputs the content transmitted by the interconnect device as the interconnect output section.

For example, as shown in fig. 9, before the display b is output to the screen-throwing screen of the mobile phone, a social application window is output on the display b, and based on this, in this embodiment, before the display b is set to be an interconnection output screen, first content is obtained first, where the first content is the social application window originally output on the display b.

Based on this, after the first output component is set as the interconnection output component in step 102, the method in this embodiment may further include the following steps:

step 104: the first content is output in the second output section.

That is, after the first output section outputs the content transmitted by the interconnect device as the interconnect output section, the first content that the first output section originally outputted is outputted onto the second output section.

For example, as shown in fig. 10, after the display b is output to the screen-casting screen of the mobile phone, a window of the social application that the display b originally output is output on the display a.

Based on the above implementation, the method in this embodiment may further include the following steps, as shown in fig. 11:

step 105: and obtaining a second setting instruction.

In one implementation, the second setting instruction may be an instruction generated by a user canceling the interconnection operation on the first output unit, where the second setting instruction is used to instruct cancellation of the first output unit as the interconnection output unit to output the content. For example, as shown in fig. 12, an interconnection setting interface may be output for a user on the dual-screen device, where the interconnection setting interface includes a cancel control corresponding to the display screen a set as an interconnection output screen, and the user may perform a selection operation on the cancel control, based on which a second setting instruction is generated on the dual-screen device in response to the selection operation of the user, to instruct cancellation of the display screen a as the interconnection output screen.

In another implementation manner, the second setting instruction is an instruction generated by a user to cancel the interconnection operation with respect to the interconnection device connected to the electronic device, and the second setting instruction is used for instructing to cancel the first output component as the interconnection output component to output the content. For example, as shown in fig. 13, an interconnection setting interface may be output for the user on the dual-screen device, where the interconnection setting interface includes a cancel control corresponding to the mobile phone connected to the dual-screen device, and the user may perform a selection operation on the cancel control, based on this, a second setting instruction is generated on the dual-screen device in response to the selection operation of the user, so as to instruct that the display screen b is canceled as the interconnection output screen.

In another implementation, the second setting instruction is an instruction generated by the electronic device in response to a state of the interconnected device disconnected therefrom, the second setting instruction being for instructing cancellation of the first output section as the interconnected output section for content output. For example, as shown in fig. 14, in the case of disconnection from the cellular phone on the dual-screen device, the dual-screen device generates a second setting instruction to instruct cancellation of the display screen b as the interconnected output screen in response to a state in which the cellular phone is disconnected from the dual-screen device.

Step 106: and in response to the second setting instruction, canceling the first output component to be the interconnection output component.

After the first output component is cancelled to be the interconnection output component, the first output component does not output the content transmitted by the interconnection device.

For example, in response to the second setting instruction, the display screen b set as the interconnection output screen is canceled as the interconnection output screen, and at this time, the screen-throwing screen of the mobile phone is no longer output on the display screen b.

Step 107: the first content is output in the first output section.

That is, after the first output section no longer functions as the interconnected output section, the content that the first output section outputs before functioning as the interconnected output section, i.e., the first content, continues to be output.

For example, as shown in fig. 15, in response to the second setting instruction, the display screen b set as the interconnected output screen is canceled as the interconnected output screen, and at this time, the state before being the interconnected output screen is restored on the display screen b, that is, the window of the social application continues to be output.

In one implementation, when the first content is output in the second output unit in step 104, this may be specifically implemented as follows, as shown in fig. 16:

step 1601: the second display parameter is obtained from the first display parameter of the first content on the first output member.

The first display parameter may include parameters such as an output position, a display size, a display color, and the like of the first content on the first output component, and based on this, a second display parameter matched with the first display parameter is obtained in this embodiment, for example, the display size in the second display parameter is consistent with the display size in the first display parameter, and the window coordinate in the second display parameter is a coordinate obtained by performing coordinate conversion on the window coordinate in the first display parameter according to a corresponding relationship between the screen size of the display screen b and the screen size of the display screen a.

Step 1602: the first content is output on the second output means in accordance with the second display parameter.

That is, in the present embodiment, the first content is output on the second output section in accordance with the display parameter matched with the first display parameter on the first output section of the first content.

For example, as shown in fig. 15, in this embodiment, the window of the social application is still output on the display screen a according to the display size of the window of the social application on the display screen b, and the window coordinates of the window of the social application on the display screen a are the window coordinates subjected to the coordinate conversion.

Based on this, when the first content is output in the first output section in step 107, specifically:

the first content is output in accordance with the first display parameter in the first output section.

That is, after the first output section no longer serves as an interconnection output section, the first content continues to be output on the first output section in accordance with the original display parameters of the first content.

For example, as shown in fig. 15, in response to the second setting instruction, the display screen b set as the interconnected output screen is canceled as the interconnected output screen, and at this time, the state before being the interconnected output screen is restored on the display screen b, that is, the display screen b continues to output the window of the social application in accordance with the window size and the display coordinates of the window of the social application before the display screen b is set as the interconnected output screen.

In one implementation, in the process of outputting the first content on the first output component in this embodiment, the first display parameter of the first content on the first output component may be monitored and recorded. In particular, the first display parameter may be stored to a specific storage area of the electronic device.

Wherein the first display parameter is used to control the output of the first content on the second output means, e.g. after the first output means is arranged as interconnected output means, the first content is output on the second output means in accordance with the second display parameter to which the first display parameter matches.

In addition, the first display parameter is also used to control outputting the first content on the first output element when the first output element is canceled as an interconnected output element. For example, after the first output section is canceled as the interconnected output section, the first content continues to be output on the first output section in accordance with the first display parameter of the first content before it is set as the interconnected output section.

In one implementation, the method in this embodiment may further include the following steps, as shown in fig. 17:

step 108: and responding to the application starting instruction, and obtaining the application type of the target application corresponding to the application starting instruction. Step 109 is performed in case the target application is of a first type and step 110 is performed in case the target application is of a second type.

Step 109: outputting an application window corresponding to the target application on the interconnection output part;

step 110: and outputting an application window corresponding to the target application on the second output component.

The first type may be a specific type set in advance, and the second type is different from the first type.

In one implementation, the first type is an application type launched on the interconnect device and the second type is an application type launched on the electronic device. For example, a window of an application started on a mobile phone is output on a display screen b as an interconnection output screen, and a window of an application started on a dual-screen device is output on a display screen a.

In another implementation, the first type is an application type associated with content transmitted by the interconnected device and the second type is an application type associated with content transmitted by the interconnected device. For example, the mobile phone projects its product parameter interface onto the display screen b, and based on this, in this embodiment, the window of the shopping application capable of purchasing the product is output on the display screen b, and the window of the music playing application is output on the display screen a.

In another implementation, the first type and the second type are respectively types manually preset by a user. For example, the user sets a part of applications as a first type and another part of applications as a second type on the interconnection setting interface of the dual-screen device, based on which, when the application of the first type is started, windows of the application are output on the interconnection output part, and when the application of the second type is started, windows of the application are output on the other output part.

It can be seen that in this embodiment, through the first type and the second type of arrangement, application isolation on the electronic device with multiple output components is achieved.

Referring to fig. 18, a schematic structural diagram of a control device according to a second embodiment of the present application may be configured in an electronic device, such as a dual-screen device, including at least a first output component and a second output component. For example, as shown in fig. 2, a dual screen device includes a plurality of display screens: display screen a and display screen b. The technical scheme in the embodiment is mainly used for realizing interconnection between the equipment of the multi-output component and other equipment so as to improve the use experience of a user on the equipment of the multi-output component.

Specifically, the apparatus in this embodiment may include the following units:

an instruction obtaining unit 1801 for obtaining a first setting instruction;

an interconnection setting unit 1802 configured to set the first output section as an interconnection output section in response to the first setting instruction; the interconnection output component is used for outputting content transmitted by interconnection equipment connected with the electronic equipment; the second output part is used for outputting the content of the electronic equipment.

As can be seen from the above-described scheme, in the control device provided in the second embodiment of the present application, for an electronic device including a plurality of output components, one of the output components is set as an interconnection output component in response to an obtained setting instruction, based on which content transmitted by an interconnection device connected to the electronic device is output through the interconnection output component, and content of the electronic device itself is output through the other output component. Therefore, in this embodiment, the device of the multiple output component and other devices can be interconnected through the setting instruction, so as to improve the use experience of the user on the device of the multiple output component.

In one implementation, the interconnection setting unit 1802 is further configured to obtain the first content output on the first output component before setting the first output component to be an interconnection output component;

wherein, the interconnection setting unit 1802 is further configured to, after setting the first output section as an interconnection output section: outputting the first content in the second output section.

In one implementation, instruction fetch unit 1801 is further to: obtaining a second setting instruction; the interconnect setting unit 1802 is further configured to: in response to the second setting instruction, canceling the first output component to be an interconnection output component; outputting the first content in the first output section.

Based on the above implementation, when the interconnection setting unit 1802 outputs the first content in the second output section, it is specifically configured to: obtaining a second display parameter according to a first display parameter of the first content on the first output component; outputting the first content according to the second display parameter on the second output part.

Based on the above implementation, when the interconnection setting unit 1802 outputs the first content in the first output section, it is specifically configured to: outputting the first content according to the first display parameter in the first output section.

In one implementation, the present embodiment further includes the following units, as shown in fig. 19:

a parameter recording unit 1803 is configured to monitor and record a first display parameter of the first content on the first output device.

In one implementation, this embodiment further includes the following units, as shown in fig. 20:

a window control unit 1804, configured to respond to an application start instruction, and obtain an application type of a target application corresponding to the application start instruction; outputting an application window corresponding to the target application on the interconnection output part under the condition that the target application is of a first type; and outputting an application window corresponding to the target application on the second output component under the condition that the target application is of a second type.

In one implementation, the interconnection setting unit 1802 is specifically configured to, when setting the first output component to be an interconnection output component: setting the first output component corresponding to the target identifier in the first setting instruction as an interconnection output component; or, setting the first output component matched with the interconnection device as an interconnection output component.

Optionally, the first output component is matched with the interconnection device, including: the output parameters of the first output component are matched with the content transmitted by the interconnection device, or the output parameters of the first output component are matched with the output parameters of the interconnection device.

It should be noted that, the specific implementation of each unit in this embodiment may refer to the corresponding content in the foregoing, which is not described in detail herein.

Referring to fig. 21, a schematic structural diagram of an electronic device according to a third embodiment of the present application may include the following structure:

a first output member 2101 and a second output member 2102;

a processor 2103 for obtaining a first setting instruction; setting the first output section 2101 as an interconnection output section in response to the first setting instruction; wherein the interconnection outputting unit 2101 is configured to output content transmitted by an interconnection device connected to the electronic device; the second output part 2102 is configured to output content of the electronic device.

As can be seen from the above-mentioned scheme, in the electronic device provided in the third embodiment of the present application, for an electronic device including a plurality of output components, one of the output components is set as an interconnection output component in response to an obtained setting instruction, based on which, content transmitted by an interconnection device connected to the electronic device is output through the interconnection output component, and content of the electronic device itself is output through another output component. Therefore, in this embodiment, the device of the multiple output component and other devices can be interconnected through the setting instruction, so as to improve the use experience of the user on the device of the multiple output component.

Taking a double-screen device comprising a main screen and a secondary screen as an example, based on the technical scheme of the application, the following description is given to the use scene of the double-screen device:

(1) In a dual screen device, one screen supports the throw and the other screen supports normal use. For example, other mobile phones and computers throw screens on one screen of the double-screen equipment so as to realize screen throwing demonstration and convenient information sharing;

(2) The double-screen device can realize the on-site screen projection in one area, namely the same network, can also realize the remote screen projection among different networks, and in addition, the scheme and the protocol for supporting the screen projection by utilizing the existing screen projection are supported, and the internet software is customized.

(3) The double-screen device can support processing interconnection information, such as dynamic codes, code scanning and other modes, to bind the devices through software design, and also support interconnection or unlimited sharing of screens to devices of the same network nearby. In addition, a shortcut is supported, and software setting is called, for example, a screen is slid, so that a preset scene of the software can be called.

(4) The double-screen device can support screen mode switching and also support gesture sliding screen switching so as to realize switching of a screen throwing mode. Wherein, throw the main characteristics of screen mode: the main screen and the auxiliary screen are isolated, software of the screen throwing module operates independently on the auxiliary screen, the main screen displays normal functions, and related applications can only be displayed on the main screen. The isolation mode is a special setting based on the display of the extension mode, such as opening an application, switching an extension screen, automatically processing and isolating software, allowing the software to be only used by the current auxiliary screen (extension screen), and displaying other software on the main screen. In addition, the isolation is characterized in that: the positions of the software display and the storage positions are processed and limited.

Therefore, the method and the device have the advantages that the interestingness of equipment interconnection can be improved for the double-screen equipment, more functions can be given to the equipment, and more practical values are brought to customers.

Specifically, the core function of this application on two screen devices lies in:

firstly, the information of two screens can be read through a windowsAPIPIDisplay interface, and a main screen and a secondary screen are distinguished, namely a first output component and a second output component in the previous text; then, through enumerated screen information, the screen throwing software realized by the method automatically gives information to the set screen, and the other screen does not influence the use. Finally, in the present application, the information of the enumerated screen, the icon position, the window coordinates, the marking information (such as which window icon is displayed at which position, etc.), the interconnected screen-throwing software is used on the screen, and other applications can only be used on another screen. The function of defining the display application of the specific software at the specific screen position is realized, so that the software switching scheme of supporting the screen throwing of the secondary screen of the double-screen equipment is realized.

As shown in fig. 22, the user may open the screen-casting application, i.e., the screen-casting software implemented in the present application; and setting the auxiliary screen as a screen throwing mode, outputting screen throwing content for other equipment by the auxiliary screen, and finally, exiting the screen throwing mode of the auxiliary screen when the screen throwing is finished.

The process of setting the auxiliary screen as a projection screen is as follows:

firstly, reading a screen and all screen application software information;

classifying and recording screen attribution and coordinate information according to the screen information;

setting a certain auxiliary screen as a projection screen;

then, the software on the screen is emptied and moved to another screen, and only the screen throwing software is reserved at the screen throwing position;

then defining the position of the software application for opening display according to the coordinate information attribute of the screen; the screen-throwing software can only be used on the screen throwing, and other software can only be used on another screen, so that software application isolation is realized, and the function of independently supporting the screen throwing of the auxiliary screen of the physical equipment is further realized

When the screen is withdrawn, the relevant application is restored to the original use state according to the recorded information, and the setting is unchanged, namely the display position and the like are unchanged.

Based on the technical scheme of the application, the function of displaying a certain software application in a specified area of the screen can be realized, and the specific requirement of the user on the screen display according to custom software is realized.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other. For the device disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is relatively simple, and the relevant points refer to the description of the method section.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative elements and steps are described above generally in terms of functionality in order to clearly illustrate the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. The software modules may be disposed in Random Access Memory (RAM), memory, read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A control method applied to an electronic device, the electronic device including at least a first output part and a second output part, the method comprising:

obtaining a first setting instruction;

2. The method of claim 1, prior to setting the first output component as an interconnected output component, the method further comprising:

obtaining the first content output on the first output part;

outputting the first content in the second output section.

3. The method of claim 2, the method further comprising:

obtaining a second setting instruction;

outputting the first content in the first output section.

4. A method according to claim 3, said outputting said first content in said second output means comprising:

5. The method of claim 4, the outputting the first content in the first output component comprising:

6. The method of claim 4, the method further comprising:

7. The method of claim 1 or 2, the method further comprising:

8. The method of claim 1 or 2, providing the first output component as an interconnected output component, comprising:

or alternatively, the first and second heat exchangers may be,

9. The method of claim 8, the first output component being mated with the interconnect device, comprising:

or alternatively, the first and second heat exchangers may be,

10. An electronic device, comprising:

a first output member and a second output member;