CN114661137A - Electronic device and control method thereof - Google Patents

Abstract

The application discloses an electronic device and a control method thereof, wherein the control method comprises the following steps: determining a target light-emitting area, wherein the target light-emitting area is a partial display area of the display screen, pixels belonging to the target light-emitting area emit light, and pixels of the display area except the target light-emitting area do not emit light; displaying an interactive interface based on the target light emitting area; obtaining an adjustment operation based on the target light emitting area; changing the target light emitting area in response to the adjusting operation. Among this application technical scheme, can regard as the luminous mutual interface of target light emitting area with the part of display screen display area to reduce electronic equipment's electric quantity consumption, but also can change based on the adjustment operation the luminous area of target is in order to satisfy and be used for different demonstration demands.

Description

Electronic device and control method thereof

Technical Field

The present disclosure relates to the field of electronic devices, and more particularly, to an electronic device and a control method thereof.

Background

With the continuous progress of science and technology, more and more electronic devices with display functions are widely applied to daily life and work of people, bring great convenience to the daily life and work of people, and become an indispensable important tool for people at present. The main component of the electronic device for realizing the display function is a display screen.

The miniaturization and light weight of electronic devices are the main development trend of electronic devices, and meanwhile, the increase of the integrated functions of the electronic devices leads to greater energy consumption requirements, so how to effectively save the power consumption of the electronic devices is a problem to be solved urgently at present.

Disclosure of Invention

In view of this, the present application provides an electronic device and a control method thereof, and the scheme is as follows:

a control method of an electronic device having a display screen, the control method comprising:

determining a target light emitting area, wherein the target light emitting area is a part of a display area of the display screen, pixels belonging to the target light emitting area emit light, and pixels of the display area except the target light emitting area do not emit light;

displaying an interactive interface based on the target light emitting area;

obtaining an adjustment operation based on the target light emitting area;

changing the target light emitting area in response to the adjusting operation.

Preferably, in the control method, the electronic device has a first presentation mode and a second presentation mode; the first display mode corresponds to a first sub-display area, the first sub-display area is a partial area of a display area of the display screen, the second display mode corresponds to a second sub-display area, and the second sub-display area is different from the first sub-display area;

wherein the determining a target light emitting area comprises:

obtaining a target display mode as the first display mode;

determining a first sub-display area corresponding to the first display mode as a first target light-emitting area;

wherein the obtaining an adjustment operation based on the target light emitting area comprises:

obtaining a switching instruction;

responding to the switching instruction, switching the target display mode from the first display mode to the second display mode, and taking the second sub-display area as a second target light-emitting area;

when the first display mode and the second display mode display the same application program, the functions and/or application interfaces displayed by the application program are different.

Preferably, in the above control method, wherein the determining the target light emitting region includes:

taking the set first sub-display area as a first target light-emitting area; the first sub-display area is a partial area of a display area of the display screen;

wherein the obtaining an adjustment operation based on the target light emitting area comprises:

obtaining the amplification operation representing the interactive interface;

determining a second sub-display area as a second target light-emitting area based on the enlarging operation;

wherein the second sub-display area comprises the first sub-display area and is larger than the first sub-display area.

Preferably, in the control method, the determining the target luminescent area includes:

obtaining a first application program;

determining a first sub-display area corresponding to the first application program as a first target light-emitting area based on the first application program;

wherein obtaining an adjustment operation based on the target light emitting area comprises:

obtaining a second application program;

determining a second sub-display area corresponding to the second application program as a second target light-emitting area based on the second application program;

the first sub-display area and the second sub-display area are different display areas of the display screen.

Preferably, in the above control method, changing the size of the target light emitting area in response to the adjustment operation includes:

switching a light emitting area of the display screen from a first target light emitting area to a second target light emitting area;

wherein the first target light emitting area and the second target light emitting area are different in position and/or size.

The present application further provides an electronic device, including:

a display screen having a display area for displaying an image;

the processor is connected with the display screen and used for determining a target light-emitting area, displaying an interactive interface based on the target light-emitting area, obtaining an adjusting operation based on the target light-emitting area, and changing the target light-emitting area in response to the adjusting operation;

the target light emitting area is a partial display area of the display screen, pixels belonging to the target light emitting area emit light, and pixels of the display area outside the target light emitting area do not emit light.

Preferably, in the above electronic device, the electronic device has a first exhibition mode and a second exhibition mode;

the method for determining the target light emitting area by the processor comprises the following steps: determining a first sub-display area corresponding to the first display mode as a target light-emitting area by taking the first display mode as a target display mode;

the method for the processor to obtain the adjustment operation based on the target light emitting area comprises the following steps: obtaining a switching instruction, and responding to the switching instruction to switch the target display mode from the first display mode to the second display mode;

the first sub-display area is a partial area of a display area of the display screen, and the second display mode corresponds to the display area of the display screen; when the first display mode and the second display mode display the same application program, the functions and/or application interfaces displayed by the application program are different.

Preferably, in the electronic device, the method for the processor to obtain the adjustment operation based on the target light emitting area includes: acquiring the amplification operation representing the interactive interface, and determining a second sub-display area as a new target light-emitting area based on the amplification operation; the second sub-display area comprises the current target luminous display area and is larger than the current target luminous display area.

Preferably, in the electronic device, the method for determining the target light emitting area by the processor includes: obtaining a first application program; determining a first sub-display area corresponding to the first application program as the current target light-emitting area based on the first application program;

the method for the processor to obtain the adjustment operation based on the target light emitting area comprises the following steps: obtaining a second application program, and determining a second sub-display area corresponding to the second application program as a new target light-emitting area based on the second application program; the first sub-display area and the second sub-display area are two different sub-display areas of the display area of the display screen.

Preferably, in the electronic device, the method for the processor to determine that the size of the target light emitting area is changed in response to the adjustment operation includes: switching a light emitting area of the display screen from a first target light emitting area to a second target light emitting area; wherein the first target light emitting area and the second target light emitting area are different in position and/or size.

As can be seen from the above description, in the electronic device and the control method thereof according to the technical solution of the present application, the control method includes: determining a target light emitting area, wherein the target light emitting area is a part of a display area of the display screen, pixels belonging to the target light emitting area emit light, and pixels of the display area except the target light emitting area do not emit light; displaying an interactive interface based on the target light emitting area; obtaining an adjustment operation based on the target light emitting area; changing the target light emitting area in response to the adjusting operation. Among this application technical scheme, can regard as the luminous mutual interface of target light emitting area with the part of display screen display area to reduce electronic equipment's electric quantity consumption, but also can change based on the adjustment operation the luminous area of target is in order to satisfy and be used for different demonstration demands.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in related technologies, the drawings used in the embodiments or descriptions of the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

The structures, proportions, and dimensions shown in the drawings and described in the specification are for illustrative purposes only and are not intended to limit the scope of the present disclosure, which is defined by the claims, but rather by the claims, it is understood that these drawings and their equivalents are merely illustrative and not intended to limit the scope of the present disclosure.

Fig. 1 is a schematic flowchart of a control method of an electronic device according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram illustrating a setting manner of a first sub-display area according to an embodiment of the present disclosure;

fig. 3 is a flowchart illustrating a method for determining light emission of a target light-emitting area according to an embodiment of the present disclosure;

fig. 4 is a flowchart of a method for obtaining an adjustment operation based on a target light-emitting area according to an embodiment of the present disclosure;

FIG. 5 is a schematic diagram illustrating a caller identification by the control method according to the embodiment of the present application;

fig. 6 is a flowchart illustrating a method for obtaining an adjustment operation based on a target light-emitting area according to an embodiment of the present disclosure;

fig. 7 is a schematic flowchart of another method for determining light emission of a target light-emitting area according to an embodiment of the present disclosure;

fig. 8 is a flowchart of another method for obtaining an adjustment operation based on a target light-emitting area according to an embodiment of the present disclosure;

fig. 9 is a schematic diagram of a switching target light emitting region according to an embodiment of the present disclosure;

fig. 10 is a schematic diagram of another switching target light emitting region according to an embodiment of the present disclosure;

fig. 11 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

Embodiments of the present application will now be described more fully hereinafter with reference to the accompanying drawings, in which embodiments of the application are shown, and in which it is to be understood that the embodiments described are merely illustrative of some, but not all, of the embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

As described in the background art, the miniaturization and light weight of electronic devices are the main trend of electronic devices, which greatly compresses the space for integrating the battery inside the electronic devices, so that the electronic devices cannot increase the battery volume to increase the electric quantity endurance time of the electronic devices. Meanwhile, due to the increase of the integrated functions of the electronic equipment, the demand of the electronic equipment on the electric quantity is greatly increased, and the energy consumption demand of the electronic equipment is larger.

In order to reduce the power consumption of the electronic device, a main power consumption component of the electronic device is a display screen, and one implementation mode is to switch the display screen to a low power consumption mode, such as switching the display screen from a color image display mode to a black and white image display mode, or reducing the picture refresh frequency of the display screen for displaying images. Alternatively, some of the functions that consume more power, such as the GPS communication function and the bluetooth communication function, are turned off.

Although the above scheme for reducing the power consumption of the electronic device can reduce the power consumption of the electronic device and improve the electric quantity endurance time of the electronic device, the use of partial functions of the electronic device is limited.

In view of the above, the present disclosure provides an electronic device and a control method thereof, which can use a part of a display area of a display screen as a target light emitting area, thereby reducing power consumption of the electronic device, display an interactive interface through the part of the display area of the display screen as the target light emitting area, without limiting other functions other than a display function of the electronic device, and change the target light emitting area based on an adjustment operation, so as to meet different display requirements.

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, the present application is described in further detail with reference to the accompanying drawings and the detailed description.

Referring to fig. 1, fig. 1 is a schematic flowchart of a control method for an electronic device provided in an embodiment of the present application, where the electronic device has a display screen, and the control method includes:

step S11: a target light emitting area is determined.

The target light emitting area is a partial display area of the display screen, pixels belonging to the target light emitting area emit light, and pixels of the display area outside the target light emitting area do not emit light.

Step S12: and displaying an interactive interface based on the target light emitting area.

Step S13: an adjustment operation is obtained based on the target light emitting area.

Step S14: changing the target light emitting area in response to the adjusting operation.

The control method can be used for a non-foldable electronic device comprising a hard display screen and can also be used for a foldable electronic device with an inner screen and an outer screen. For a non-foldable electronic device with a hard display screen, based on the control method in the embodiment of the application, the electronic device can be controlled to display an image in a local display area of the display screen when the power is low, so that the power consumption is reduced. For the foldable electronic equipment with the inner screen and the outer screen, based on the control method of the embodiment of the application, the image display of the inner screen can be closed and the image display can be performed only through the outer screen when the electronic equipment is in low power.

As can be seen from the above description, no matter the non-foldable electronic device has a hard display screen, or the foldable electronic device has an inner screen and an outer screen, the control method according to the embodiment of the present application can display the interactive interface with a local display area of the display screen as a target light-emitting area, so as to reduce power consumption of the display screen.

As can be seen from the above description, in the control method according to the embodiment of the present application, the interaction interface may be displayed by using a local portion of the display area of the display screen as the target light-emitting area, so as to reduce power consumption of the electronic device without limiting other functions besides the display function of the electronic device. Obviously, in order to further reduce the power consumption of the electronic device, the image display is performed through a part of the display area of the display screen, and meanwhile, other functions besides the display function, including but not limited to turning off the GPS communication function and the bluetooth communication function, are also turned off.

Moreover, the control method can also change the target light emitting area based on the adjustment operation to meet different display requirements. Wherein changing the target light emitting area includes, but is not limited to, changing the position and/or size of the target light emitting area.

The electronic device may be arranged to have a first presentation mode and a second presentation mode. The first display mode corresponds to a first sub-display area, and the first sub-display area is a local area of a display area of the display screen. The second display mode corresponds to a second sub-display area, and the first sub-display area is different from the second sub-display area, that is, the first sub-display area and the second sub-display area are not completely overlapped, and may have no overlapping area or a partial overlapping area.

As shown in fig. 2, fig. 2 is a schematic diagram illustrating a setting manner of a first sub-display area in an embodiment of the present application, and fig. 2 is a schematic diagram illustrating twelve different manners of setting the first sub-display area in a display screen, where a black area represents the first sub-display area. The specific position, shape and size of the first sub-display area in the display area of the display screen may be preset based on requirements, and are not limited to the respective manners illustrated in fig. 2.

The electronic equipment can be set to have a setting mode, in the setting mode, a plurality of preset different first sub-display areas can be provided for a user, and the first sub-display area currently corresponding to the first display mode is determined based on user selection. In other modes, in a setting mode, advanced options are provided for a user, so that the user can manually adjust the first sub-display area, at this time, an adjustable display area can be displayed in the display area of the display screen, and the user can adjust the adjustable display area to the first sub-display area to which the first display mode is currently aligned by dragging the vertex angle position of the adjustable display area. In the embodiment of the present application, a setting method corresponding to the first sub-display area is not particularly limited.

Referring to fig. 3, fig. 3 is a flowchart illustrating a method for determining a target light-emitting area to emit light according to an embodiment of the present application, where in the step S11, determining the target light-emitting area includes:

step S21: and obtaining the target display mode as the first display mode.

Step S22: and determining a first sub-display area corresponding to the first display mode as a first target light-emitting area.

In the method shown in fig. 3, if it is determined that the target display mode is the first display mode, the first sub-display area corresponding to the first display mode is used as a first target light-emitting area, and an interactive interface is displayed based on the first target light-emitting area. When the electronic equipment is provided with a plurality of application programs, before the adjustment operation is obtained, each application program displays an interactive interface based on the set first sub-display area as the first target light-emitting area.

Based on the method for determining the target light-emitting area shown in fig. 3, the adjustment operation based on the target light-emitting area in step S13 may be as shown in fig. 4.

Referring to fig. 4, fig. 4 is a flowchart of a method for obtaining an adjustment operation based on a target light-emitting area according to an embodiment of the present application, where the obtaining of the adjustment operation based on the target light-emitting area in step S13 includes:

step S31: a switch instruction is obtained.

In this step, the method for obtaining the switching instruction includes: and obtaining a switching instruction based on the touch operation detected by the current interactive interface.

Step S32: and responding to the switching instruction, switching the target display mode from the first display mode to the second display mode, and taking the second sub-display area as a second target light-emitting area.

When the target display mode is switched from the first display mode to the second display mode, and the second sub-display area is used as a second target light-emitting area, the first target light-emitting area is switched to the second target light-emitting area in response to the adjustment operation, and display can be performed based on the second sub-display area corresponding to the second display mode.

When the first display mode and the second display mode display the same application program, the functions and/or application interfaces displayed by the application program are different. Based on the manner shown in fig. 4, switching of different target light-emitting areas can be achieved by switching from the first display mode to the second display mode, so that the functions and/or application interfaces displayed by the application programs are different when the interactive interfaces of the same application program are displayed.

The second display mode may be set to have a second sub-display area set in advance. The setting method of the second sub-display area may refer to the setting method of the first sub-display area, and the embodiment of the present application is not described in detail again. In this case, in step S31, the method for obtaining the switching command includes: the interactive interface is provided with a touch key, when the touch key is triggered, the switching instruction can be obtained, and the target display mode is switched from the first display mode to the second display mode in response to the switching instruction. When responding to the adjustment operation, the first target light-emitting area is switched to the second target light-emitting area.

The second sub-display area may be a partial area of a display screen, or the second sub-display area may be set as the entire display area of the display screen.

In the first display mode, the first target light emitting area may implement at least one of the following setting functions based on a touch operation: the first target light emitting area may be dragged, and at least one of a boundary shape, a boundary position, and a boundary size of the first target light emitting area may be adjusted. At this time, in the step S31, when the touch operation is detected, the switching instruction may be obtained, and the target display mode is switched from the first display mode to the second display mode in response to the switching instruction. When the adjustment operation is responded, the first target light-emitting area is adjusted to the second target light-emitting area based on the setting function corresponding to the touch operation, so that the first target light-emitting area is switched to the second target light-emitting area.

In this embodiment of the application, when the first display mode and the second display mode display the same application program, the functions and/or application interfaces displayed by the application program are different, including: the function and/or the application interface displayed by the application program is related to the area of the target light-emitting area, and specifically, the larger the area of the target light-emitting area is, the higher the integrity of the function and/or the integrity of the application interface displayed by the application program is. And when the electronic equipment displays the interactive interface through the complete display area of the display screen, the functions and the application interface of the application program can be completely displayed. And when the local display area is used as the target light-emitting area to display the interactive interface, part of functions and/or part of the application interface are displayed.

For the same application program, when the interaction interface is displayed by the first target light-emitting area, the completion degree of the function displayed by the application program and/or the completion degree of the application interface is related to the area of the first target light-emitting area; when the interactive interface is displayed by the second target light-emitting area, the completion degree of the function displayed by the application program and/or the completion degree of the application interface are related to the area of the second target light-emitting area.

When the functions and/or application interfaces displayed by the application programs are related to the area of the target light-emitting area, if the local display area is used as the target light-emitting area to display the interactive interface for reducing the power consumption, in order to ensure the normal use of the application programs, the functions and/or application interfaces which are not displayed currently by the application programs can be displayed through sliding display or through pulling a menu. The pull menu includes any one of a pull-up menu, a pull-down menu, a left pull menu, or a right pull menu. Obviously, the functions not shown currently in the application program and/or the functions corresponding to the application interface may also be implemented in a voice control manner.

Before the adjustment operation is responded, the current target light-emitting area is the first target light-emitting area, and after the target light-emitting area is changed in response to the adjustment operation, the current target light-emitting area is the second target light-emitting area. The interactive interface displayed by the current target light-emitting area is used for displaying the application interface of the application program. Setting an application program to have N pieces of application information with different priorities, wherein N is a positive integer, and the N pieces of application information can be displayed in the whole display area of a display screen, namely the N pieces of application information can be displayed simultaneously when the application program is displayed in a full screen mode. The previous N priority application information can be displayed according to the area of the current target light-emitting area, N is a positive integer not greater than N and is used for the area correlation of the current target light-emitting area, and the larger the area is, the larger N is. In this way, whether the application interface of the application program is displayed by the first target light-emitting area or the application interface of the application program is displayed by the second target light-emitting area, the current target light-emitting area can be adapted to the displayed application interface of the application program.

Referring to fig. 5, fig. 5 is a schematic diagram illustrating a principle of displaying an incoming call by using the control method according to the embodiment of the present application, when the control method according to the present application uses a local area of a display area 12 of a display screen as a target light-emitting area 11 to display an interactive interface of displaying an incoming call, in order to reduce power consumption, the target light-emitting area 11 may be reduced to have a width equal to or approximately equal to a width of an incoming call icon and a length equal to or approximately equal to a width of the display area 12. At this time, the interactive interface does not need to display attribution information, time information, keyboard information, recording control information and the like which are required to be displayed in a full screen mode, only needs to use the caller identity information 13, the hang-up key 14 and the answer key 15 with higher priority, and other caller information with lower priority is hidden and can be displayed in a sliding mode or displayed by pulling a menu.

Optionally, the control method further includes: after the target light emitting area is determined, the adaptation degree of the application interface when the current target light emitting area and the application program are displayed in a full screen mode is determined, and prompt information is displayed and used for displaying the adaptation degree of the application interface when the current target light emitting area and the application program are displayed in the full screen mode. For example, corresponding to the scenario shown in fig. 5, when the size of the current target light emitting area is small, the application interface adaptation degree is low when the current target light emitting area is displayed in a full screen mode with the caller id application program, the current target light emitting area is only enough for the display width of one line of text, the caller id information 13, the hang-up key 14 and the answer key 15 can be displayed, and other caller id information with low priority is hidden. The smaller the current target light emitting area size, the more limited the interactive interface size is the functions that can be used by the current application program, and the different the currently presented application interface from the conventional interface presented in a full screen will be. The adaptation degree of the current target light emitting area to the application program can be displayed in a text or graphic mode.

In the embodiment of the present application, determining the target light emitting area may further include: taking the set first sub-display area as a first target light-emitting area; the first sub-display area is a partial area of a display area of the display screen. At this time, a method of obtaining an adjustment operation based on the target light emitting region is shown in fig. 6.

Referring to fig. 6, fig. 6 is a flowchart illustrating a method for obtaining an adjustment operation based on a target light-emitting area according to an embodiment of the present application, where the method includes:

step S41: and acquiring the amplification operation representing the interactive interface.

In this step, the manner of obtaining the amplification operation includes: and acquiring a magnification operation based on the touch operation detected by the display screen, for example, a touch icon in the user electrode interactive interface, which represents the magnification of the interactive interface, or dragging the interactive interface along the diagonal of the interactive interface.

Step S42: determining a second sub-display area as a second target light-emitting area based on the enlarging operation;

wherein the second sub-display area comprises the first sub-display area and is larger than the first sub-display area. Based on the manner shown in fig. 6, the target light emitting area for displaying the interactive interface is switched from the first target light emitting area with a smaller size to the second target light emitting area with a larger size.

In one implementation, the method for determining the target light emitting area in step S11 may also be as shown in fig. 7.

Referring to fig. 7, fig. 7 is a flowchart of another method for determining a target light-emitting area to emit light according to an embodiment of the present application, where in step S11, the determining the target light-emitting area includes:

step S51: a first application is obtained.

Step S52: and determining a first sub-display area corresponding to the first application program as a first target light-emitting area based on the first application program.

In the embodiment shown in fig. 7, a corresponding sub-display area is set in advance for an application. In this way, based on the first application program to be run, the correspondingly set first sub-light-emitting area can be obtained. When the first application program is run, the determined first sub-light-emitting area can be used as a first target light-emitting area for displaying an interactive interface.

In the embodiment of the present application, all the applications may be set to have the same first sub-display area. In step S11, when the target light-emitting region is determined, the application interface can be displayed with the set first sub-display region as the first target light-emitting region when the application program is started. At this time, when the interactive interface is displayed with the first target light emitting area, an application interface of an application program is displayed through the first target light emitting area. The first target light-emitting area is a partial display area of the display screen, and when the application interface of the application program is displayed and displayed by the first target light-emitting area, the application interface of the application program is set to be matched with the first target light-emitting area. As described above, the application program has N pieces of application information with different priorities, where N is a positive integer, and may show the first N pieces of application information with the priority first by the area and/or shape of the first target light emitting area, where N is a positive integer not greater than N, where the showing manner is related to the area of the first target light emitting area, and the larger the area is, the larger N is.

Based on the method of determining the target light-emitting area shown in fig. 7, a method of obtaining an adjustment operation based on the target light-emitting area in the above-described step S13 is shown in fig. 8.

Referring to fig. 8, fig. 8 is a flowchart of another method for obtaining an adjustment operation based on a target light-emitting area according to an embodiment of the present application, where in the step S13, the obtaining the adjustment operation based on the target light-emitting area includes:

step S61: obtaining a second application program;

step S62: determining a second sub-display area corresponding to the second application program as a second target light-emitting area based on the second application program;

the first sub-display area and the second sub-display area are different display areas of the display screen.

The electronic device is provided with a plurality of application programs, the sub display areas set by the application programs are not completely the same, and the electronic device comprises: the first application program is correspondingly provided with a first sub-display area, the second application program is correspondingly provided with a second sub-display area, the first application program and the second application program are different application programs, and the first sub-display area is different from the second sub-display area. At this time, by using the control method according to the embodiment of the present application, when the electronic device switches the application program, the corresponding switching of the target light emitting area can be realized.

Referring to fig. 9, fig. 9 is a schematic diagram illustrating a principle of a target light emitting region to be switched according to an embodiment of the present application, in which the arrangement of the first sub-display region 31 and the second sub-display region 32 includes: the first sub-display area 31 and the second sub-display area 32 have an overlapping portion 30, and the first sub-display area 31 and the second sub-display area 32 are not completely overlapped, both of which are partial areas of the display area 12 of the display screen. In this way, the areas of the first sub-display area 31 and the second sub-display area 32 may be the same or different, and the shapes and positions of the first sub-display area 31 and the second sub-display area 32 in the display area 12 may be set as required, and are not limited to the rectangle shown in fig. 9.

In the manner shown in fig. 9, in the above step S11, when the first application program is launched, the first target light emitting region may be determined based on the first sub display region 31 corresponding to the first application program. In step S12, an interactive interface of the first application is displayed based on the first target light emitting area. Upon obtaining the adjustment operation in step S13, the second target light-emitting area can be determined based on the second sub-display area corresponding to the second application to be started. In response to the adjustment operation in step S14, switching from the first target light-emitting area to the second target light-emitting area is enabled.

In the manner shown in fig. 9, when switching to the second target light emitting area, the pixels in the second sub-display area 32 may be set to emit light to display the application interface of the second application, and the pixels in the portion of the first sub-display area 31 that does not overlap with the second sub-display area 32 keep displaying the portion of the second application interface that is not blocked by the second application interface. At this time, the application interface of the second application program is displayed in front, and the part of the application interface of the first application program which is not shielded by the application interface of the second application program can be displayed.

In the manner shown in fig. 9, when the target light-emitting area is switched to the second target light-emitting area, the pixels in the second sub-display area 32 may be further configured to emit light to display the application interface of the second application program, and the sub-pixels in the portion of the first sub-display area 31 that is not overlapped with the second sub-display area 32 do not emit light, and at this time, only the application interface of the second application program is displayed.

Referring to fig. 10, fig. 10 is a schematic diagram of another switching target light emitting region according to an embodiment of the present application, in a manner that the arrangement of the first sub-display region 31 and the second sub-display region 32 in the manner includes: the first sub display area 31 and the second sub display area 32 have no overlapping portion, and both are partial areas of the display area 12 of the display screen. Similarly, the areas of the first sub-display region 31 and the second sub-display region 32 may be the same or different, and the shapes of the first sub-display region 31 and the second sub-display region 32 and the positions in the display region 12 may be set as required, and are not limited to the rectangle shown in fig. 10.

In the manner shown in fig. 10, in the above step S11, when the first application program is launched, the first target light emitting region may be determined based on the first sub display region 31 corresponding to the first application program. In step S12, an interactive interface of the first application is displayed based on the first target light emitting area. When the adjustment operation is obtained in step S13, the second target light-emitting area can be determined based on the second sub-display area corresponding to the second application to be started. In response to the adjustment operation in step S14, it is possible to switch from the first target light emitting area to the second target light emitting area.

In the manner shown in fig. 10, when switching to the second target light-emitting area, the pixels in both the first sub-display area 31 and the second sub-display area 32 may be set to emit light, so that the first target light-emitting area may be maintained to display the application interface of the first application, and the second target light-emitting area may also be used to display the application interface of the second application. At this time, the application interfaces of the first application and the second application may be displayed simultaneously.

In the manner shown in fig. 10, when switching to the second target light-emitting area, the pixels in the second sub-display area 32 may be set to emit light, and the pixels in the first sub-display area 31 may not emit light, and at this time, the application interface of the second application program is displayed only through the second target light-emitting area.

Obviously, when the corresponding sub-display regions are set for the application programs in advance, all the application programs may also be set to have the same first sub-display region in advance, and at this time, when the control method according to the embodiment of the present application is executed, the second sub-display region may be used as the second target light-emitting region, and the target light-emitting region may be switched from the first target light-emitting region to the second target light-emitting region based on the adjustment operation.

After switching the target light emitting area from the first target light emitting area to the second target light emitting area includes, if the first target light emitting area has a portion not covered by the second target light emitting area, the pixels in the portion of the first target light emitting area may or may not emit light.

In the step S14, changing the size of the target light emitting area in response to the adjusting operation includes: switching a light emitting area of the display screen from a first target light emitting area to a second target light emitting area; wherein the first target light emitting area and the second target light emitting area are different in position and/or size. In this way, the current target light emitting area of the display screen can be adjusted based on the current usage needs of the user or the current state of the display screen. And after the display screen is switched to the second target light-emitting area, the second target light-emitting area displays the interactive interface, the pixels in the second target light-emitting area emit light for display, and if the second target light-emitting area is a partial display area of the display screen, the pixels at least positioned outside the first target light-emitting area and positioned outside the second target light-emitting area do not emit light for display. If the second target light-emitting area is a partial display area of the display screen, after the second target light-emitting area is switched to, one mode is that the pixels outside the second target light-emitting area are set not to emit light, and the other mode is that the pixels outside the first target light-emitting area and outside the second target light-emitting area do not emit light for display.

In order to enable the electronic equipment to respond to the adjustment operation of a user person to directly drag a current target light-emitting area when the electronic equipment displays an interaction interface through a local display area of a display screen and reduce the power consumption of the display screen, the first target light-emitting area is switched to a second target light-emitting area, at least part of pixels outside the current target light-emitting area are set not to emit light, and the display area outside the current target light-emitting area can respond to touch operation.

Of the first target light-emitting area and the second target light-emitting area, at least the first target light-emitting area is a partial area of a display area of the display screen. The second target light emitting region may be the entire display area of the display screen or a partial area of the display screen. When the second target light-emitting area is a partial area of the display screen, in response to the adjustment operation, after the light-emitting area of the display screen is switched from the first target light-emitting area to the second target light-emitting area, the pixel in the second target light-emitting area emits light, and the pixel at least located outside the first target light-emitting area and outside the second target light-emitting area does not emit light.

In one mode, when the control method according to the embodiment of the present application is used to control the local display area of the display screen to perform image display, a first sub-display area near the upper end of the display screen may be determined as the first target light-emitting area based on a vertical screen usage state of the electronic device, an interactive interface is displayed in the first target light-emitting area, pixels in a partial display area from the first sub-display area to the lower end of the display screen do not emit light, and a user may be allowed to hold and block a partial display area where the lower end of the display screen does not emit light. The adjustment operation can be obtained by switching the vertical screen use state to the horizontal screen use state based on the electronic device, a second sub-display area close to the middle area of the display screen is determined to be used as a second target light emitting area based on the horizontal screen use state, and the second sub-display area and the left and right ends of the display screen are provided with partial display areas which do not emit light, so that a user can be allowed to hold and shade the left and right ends of the display screen by fingers in the horizontal screen use state. And when the adjustment operation is responded, controlling the current light-emitting area of the display screen to be switched from the first target light-emitting area to the second target light-emitting area. The left end and the right end of the electronic equipment in the transverse screen using state correspond to the upper end and the lower end of the electronic equipment in the vertical screen using state. By the method, the target light emitting area in the display screen can be adjusted based on the switching of the use states of the vertical screen and the horizontal screen of the electronic equipment.

Obviously, the above method may also be applied to switching of the target light-emitting area in the display screen when the electronic device is switched from the landscape screen use state to the portrait screen use state, and the implementation principle is the same as the switching principle of the target light-emitting area in the display screen when the electronic device is switched from the portrait screen use state to the landscape screen use state, which is not described in detail in the embodiments of the present application.

In another mode, when the set first sub-display area is used as the first target light-emitting area to display the interaction interface, when a damaged area (e.g., a chipped area) affecting a displayed image exists in the display screen and an overlapping portion exists between the damaged area and the first target light-emitting area, the second sub-display area may be set as the second target light-emitting area by obtaining the adjustment operation, so that the damaged area is located outside the second target light-emitting area. Therefore, when the adjustment operation is responded, the current light-emitting area of the display screen can be switched from the first target light-emitting area to the second target light-emitting area, and therefore the influence of a damaged area on the display effect of the current image is avoided.

In the embodiment of the application, the first sub-display area can be set based on user requirements. A variety of different preset first sub-display regions may be set, a desired first sub-display region determined based on user selection, or a desired first sub-display region determined based on manual adjustment by a user. And after the first sub-display area is determined, displaying an interactive interface by taking the first sub-display area as a first target light-emitting area. And when the adjustment operation is obtained, obtaining a second sub-display area based on the adjustment operation, taking the second sub-display area as a second target light-emitting area, responding to the adjustment operation, switching the display screen from the first target light-emitting area to the second target light-emitting area, and displaying the interactive interface by the second target light-emitting area.

In the control method according to the embodiment of the present application, when the setting condition is satisfied, the target light emitting region is determined. The setting condition can be met when the battery electric quantity of the electronic equipment is smaller than the setting threshold value, so that the control method can automatically control the display screen to emit light for display through the control method of the embodiment of the application when the electric quantity is insufficient, the electric quantity consumption of the display screen is reduced, and the cruising time of the electronic equipment is further prolonged. The electronic device may also be arranged to have a low power consumption display mode, and when the user selects this mode, the setting condition is met, otherwise the setting condition is not met. When the user selects the mode, the set condition is met, the electronic equipment executes the control method to control the display screen to perform luminous display so as to reduce the electric quantity consumption of the display screen and further improve the endurance time of the electronic equipment. As can be seen from the above description, the control method according to the embodiment of the present application can use a part of the display area of the display screen as the target light-emitting area for displaying the interactive interface, so as to reduce power consumption.

Based on the foregoing embodiment, another embodiment of the present application further provides an electronic device, where the electronic device is as shown in fig. 11.

Referring to fig. 11, fig. 11 is a schematic structural diagram of an electronic device according to an embodiment of the present application, where the electronic device includes:

a display screen 21, the display screen 21 having a display area for displaying an image;

a processor 22 connected to the display screen 21, the processor 22 being configured to determine a target light emitting area, display an interactive interface based on the target light emitting area, obtain an adjustment operation based on the target light emitting area, and change the target light emitting area in response to the adjustment operation;

the target light emitting area is a partial display area of the display screen, pixels belonging to the target light emitting area emit light, and pixels of the display area outside the target light emitting area do not emit light.

In the embodiment of the application, the electronic device includes, but is not limited to, an electronic device with a display function, such as a mobile phone, a tablet computer, and an intelligent wearable device.

The electronic device has a first presentation mode and a second presentation mode. The method for the processor 22 to determine the target light emitting area comprises the following steps: determining a first sub-display area corresponding to the first display mode as a target light-emitting area by taking the first display mode as a target display mode; the method for the processor 22 to obtain the adjustment operation based on the target light emitting area comprises the following steps: obtaining a switching instruction, and responding to the switching instruction to switch the target display mode from the first display mode to the second display mode; the first sub-display area is a partial area of a display area of the display screen, and the second display mode corresponds to the display area of the display screen; when the first display mode and the second display mode display the same application program, the functions and/or application interfaces displayed by the application program are different.

The method for the processor 22 to obtain the adjustment operation based on the target light emitting area may further include: acquiring an amplification operation representing the interactive interface, and determining a second sub-display area as a new target light-emitting area based on the amplification operation; the second sub-display area comprises the current target luminous display area and is larger than the current target luminous display area.

The method for the processor 22 to determine the target light emitting area may further comprise: obtaining a first application program; determining a first sub-display area corresponding to the first application program as the current target light-emitting area based on the first application program; the method for the processor 22 to obtain the adjustment operation based on the target light emitting area comprises the following steps: obtaining a second application program, and determining a second sub-display area corresponding to the second application program as a new target light-emitting area based on the second application program; the first sub-display area and the second sub-display area are two different sub-display areas of the display area of the display screen.

The processor 22 may be further configured to determine that the method of changing the size of the target light emitting area in response to the adjusting operation comprises: switching a light emitting area of the display screen from a first target light emitting area to a second target light emitting area; wherein the first target light emitting area and the second target light emitting area are different in position and/or size.

In the electronic device according to the embodiment of the present application, the processor 22 can execute the control method, so that the electronic device can display an interactive interface by using the local display area of the display screen 21 as the target light-emitting area, thereby reducing power consumption and improving the endurance time of the electronic device. And the switching from the first target light-emitting area to the second target light-emitting area can be realized based on the adjustment operation so as to meet different use requirements of users.

The embodiments in the present description are described in a progressive manner, or in a parallel manner, or in a combination of a progressive manner and a parallel manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments can be referred to each other. For the electronic equipment disclosed by the embodiment, the description is relatively simple because the electronic equipment corresponds to the control method disclosed by the embodiment, and the relevant points can be only referred to the description of the control method part.

It is to be understood that in the description of the present application, the drawings and the description of the embodiments are to be regarded as illustrative in nature and not as restrictive. Like numerals refer to like structures throughout the description of the embodiments. Additionally, the figures may exaggerate the thicknesses of some layers, films, panels, regions, etc. for ease of understanding and ease of description. It will also be understood that when an element such as a layer, film, region, or substrate is referred to as being "on" another element, it can be directly on the other element or intervening elements may also be present. In addition, "on …" means that an element is positioned on or under another element, but does not essentially mean that it is positioned on the upper side of another element according to the direction of gravity.

The terms "upper," "lower," "top," "bottom," "inner," "outer," and the like refer to an orientation or positional relationship relative to an orientation or positional relationship shown in the drawings for ease of description and simplicity of description, but do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present application. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present.

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

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 (10)

1. A control method of an electronic device having a display screen, the control method comprising:

determining a target light emitting area, wherein the target light emitting area is a part of a display area of the display screen, pixels belonging to the target light emitting area emit light, and pixels of the display area except the target light emitting area do not emit light;

displaying an interactive interface based on the target light emitting area;

obtaining an adjustment operation based on the target light emitting area;

changing the target light emitting area in response to the adjusting operation.

2. The control method according to claim 1, the electronic device having a first presentation mode and a second presentation mode; the first display mode corresponds to a first sub-display area, the first sub-display area is a partial area of a display area of the display screen, the second display mode corresponds to a second sub-display area, and the second sub-display area is different from the first sub-display area;

wherein the determining a target light emitting area comprises:

obtaining a target display mode as the first display mode;

determining a first sub-display area corresponding to the first display mode as a first target light-emitting area;

wherein the obtaining an adjustment operation based on the target light emitting area comprises:

obtaining a switching instruction;

responding to the switching instruction, switching the target display mode from the first display mode to the second display mode, and taking the second sub-display area as a second target light-emitting area;

when the first display mode and the second display mode display the same application program, the functions and/or application interfaces displayed by the application program are different.

3. The control method of claim 1, wherein determining a target light emitting area comprises:

taking the set first sub-display area as a first target light-emitting area; the first sub-display area is a partial area of a display area of the display screen;

wherein the obtaining an adjustment operation based on the target light emitting area comprises:

obtaining the amplification operation representing the interactive interface;

determining a second sub-display area as a second target light-emitting area based on the enlarging operation;

wherein the second sub-display area comprises the first sub-display area and is larger than the first sub-display area.

4. The control method of claim 1, wherein the determining a target light emitting area comprises:

obtaining a first application program;

determining a first sub-display area corresponding to the first application program as a first target light-emitting area based on the first application program;

wherein obtaining an adjustment operation based on the target light emitting area comprises:

obtaining a second application program;

determining a second sub-display area corresponding to the second application program as a second target light-emitting area based on the second application program;

the first sub-display area and the second sub-display area are different display areas of the display screen.

5. The control method according to any one of claims 1 to 4, changing the size of the target light emitting area in response to the adjustment operation, including:

switching a light emitting area of the display screen from a first target light emitting area to a second target light emitting area;

wherein the first target light emitting area and the second target light emitting area are different in position and/or size.

6. An electronic device, comprising:

a display screen having a display area for displaying an image;

the processor is connected with the display screen and used for determining a target light-emitting area, displaying an interactive interface based on the target light-emitting area, obtaining an adjusting operation based on the target light-emitting area, and changing the target light-emitting area in response to the adjusting operation;

the target light emitting area is a partial display area of the display screen, pixels belonging to the target light emitting area emit light, and pixels of the display area outside the target light emitting area do not emit light.

7. The electronic device of claim 6, having a first presentation mode and a second presentation mode;

the method for determining the target light emitting area by the processor comprises the following steps: determining a first sub-display area corresponding to the first display mode as a target light-emitting area by taking the first display mode as a target display mode;

the method for the processor to obtain the adjustment operation based on the target light emitting area comprises the following steps: obtaining a switching instruction, and responding to the switching instruction to switch the target display mode from the first display mode to the second display mode;

the first sub-display area is a partial area of a display area of the display screen, and the second display mode corresponds to the display area of the display screen; when the first display mode and the second display mode display the same application program, the functions and/or application interfaces displayed by the application program are different.

8. The electronic device of claim 6, the method of the processor obtaining an adjustment operation based on the target light emitting area comprising: acquiring an amplification operation representing the interactive interface, and determining a second sub-display area as a new target light-emitting area based on the amplification operation; the second sub-display area comprises the current target luminous display area and is larger than the current target luminous display area.

9. The electronic device of claim 6, the method of the processor determining a target light emitting area comprising: obtaining a first application program; determining a first sub-display area corresponding to the first application program as the current target light-emitting area based on the first application program;

the method for the processor to obtain the adjustment operation based on the target light emitting area comprises the following steps: obtaining a second application program, and determining a second sub-display area corresponding to the second application program as a new target light-emitting area based on the second application program; the first sub-display area and the second sub-display area are two different sub-display areas of the display area of the display screen.

10. The electronic device of claim 6, the processor determining that the method of changing the size of the target light emitting area in response to the adjustment operation comprises: switching a light emitting area of the display screen from a first target light emitting area to a second target light emitting area; wherein the first target light emitting area and the second target light emitting area are different in position and/or size.

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