CN115917488A - Display interface processing method and device and storage medium - Google Patents

Abstract

A display interface processing method, a display interface processing device and a storage medium are provided. The display interface processing method comprises the following steps: under the condition that a plurality of display interfaces are displayed in a split screen mode, if the terminal detects an adjusting operation aiming at least one display interface in the plurality of display interfaces, determining at least one first display interface in the plurality of display interfaces according to the adjusting operation (S201); the terminal adjusts at least one first display interface according to the adjustment operation (S202). Under the condition of multi-screen display, the adjustment of at least one display interface can be realized, and the adjustment efficiency of the display interfaces is improved.

Description

Display interface processing method and device and storage medium Technical Field

The present application relates to the field of computer technologies, and in particular, to a display interface processing method and apparatus, and a storage medium.

Background

With the rapid development of the internet technology, the split screen display technology is widely applied to terminals. When a plurality of interfaces are displayed on a display screen of the terminal in a split screen mode, a user can browse any display interface, and the mode can meet the requirement that the user browses the plurality of display interfaces at the same time.

How to adjust at least one display interface of the split-screen display is still a research focus at present.

The foregoing description is provided for general background information and is not admitted to be prior art.

Disclosure of Invention

The embodiment of the application provides a display interface processing method, a display interface processing device and a storage medium, which can improve the adjustment efficiency of a display interface.

In a first aspect, an embodiment of the present application provides a display interface processing method, including:

under the condition that a plurality of display interfaces are displayed in a split screen mode, if the adjustment operation aiming at least one display interface in the plurality of display interfaces is detected, determining at least one first display interface in the plurality of display interfaces according to the adjustment operation;

and adjusting at least one first display interface according to the adjusting operation.

In a second aspect, an embodiment of the present application provides a display interface processing apparatus, including:

the device comprises a determining device, a display control device and a display control device, wherein the determining device is used for determining at least one first display interface in a plurality of display interfaces according to an adjusting operation if the adjusting operation aiming at least one display interface in the plurality of display interfaces is detected under the condition that the plurality of display interfaces are displayed in a split screen mode;

and the adjusting device is used for adjusting at least one first display interface according to the adjusting operation.

In a third aspect, an embodiment of the present application provides a terminal, where the terminal includes: memory, processor and computer program stored on the memory and executable on the processor, the computer program being designed for the above method when executed by the processor.

In a fourth aspect, embodiments of the present application provide a computer-readable storage medium for storing computer program instructions for a terminal, which includes instructions for executing the program according to the first aspect.

By implementing the method, under the condition that the multiple display interfaces are displayed in a split screen mode, if the terminal detects the adjustment operation aiming at least one display interface in the multiple display interfaces, at least one first display interface is determined in the multiple display interfaces according to the adjustment operation, and the at least one display interface is adjusted.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments or the background art of the present application, the drawings required to be used in the embodiments or the background art of the present application will be described below.

Fig. 1 is a schematic structural diagram of a split-screen display displaying multiple display interfaces provided in an embodiment of the present application;

fig. 2 is a schematic flowchart of a display interface processing method according to an embodiment of the present disclosure;

fig. 3a is a schematic structural diagram of a display screen according to an embodiment of the present disclosure;

FIG. 3b is a schematic diagram of another display screen according to an embodiment of the present disclosure;

fig. 3c is a schematic structural diagram of another display screen provided in the embodiment of the present application;

fig. 3d is a schematic structural diagram of another display screen provided in the embodiment of the present application;

fig. 3e is a schematic structural diagram of another display screen provided in the embodiment of the present application;

fig. 3f is a schematic structural diagram of another display screen provided in the embodiment of the present application;

fig. 4 is a schematic flowchart of another display interface processing method according to an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of another display screen provided in an embodiment of the present application;

fig. 6 is a schematic flowchart of another display interface processing method according to an embodiment of the present disclosure;

FIG. 7 is a schematic structural diagram of another display screen provided in an embodiment of the present application;

fig. 8 is a schematic flowchart of another display interface processing method according to an embodiment of the present disclosure;

fig. 9a is a schematic structural diagram of another display screen provided in the embodiment of the present application;

fig. 9b is a schematic structural diagram of another display screen provided in the embodiment of the present application;

fig. 9c is a schematic structural diagram of an overlay display of a display screen according to an embodiment of the present disclosure;

FIG. 9d is a schematic diagram of another display screen overlay display structure provided in the embodiment of the present application;

fig. 9e is a schematic structural diagram of another display screen overlay display provided in the embodiment of the present application;

fig. 10 is a flowchart illustrating a method for displaying a target interface in a first area according to a display operation if a terminal detects the display operation for the target interface according to an embodiment of the present application;

fig. 11 is a schematic structural diagram of another display screen provided in an embodiment of the present application;

fig. 12 is a schematic flowchart of another display interface processing method according to an embodiment of the present application;

FIG. 13a is a schematic diagram of another display screen according to an embodiment of the present application;

fig. 13b is a schematic structural diagram of another display screen provided in the embodiment of the present application;

fig. 14 is a schematic flowchart of another display interface processing method according to an embodiment of the present application;

fig. 15 is a schematic structural diagram of a display interface processing apparatus according to an embodiment of the present application;

fig. 16 is a schematic structural diagram of a terminal according to an embodiment of the present application.

Detailed Description

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

The split-screen display refers to displaying a plurality of display interfaces in one display screen, and the display interfaces are corresponding to the application programs when the application programs are run. At present, under the condition of split-screen display, operations such as arbitrary zooming or dragging can not be simultaneously carried out on a plurality of display interfaces. For example, as shown in fig. 1, when display interfaces of a hundred-degree application and an album are displayed on a display screen of a mobile phone in a split screen manner, operations such as arbitrarily zooming or dragging cannot be performed on the two displayed display interfaces at the same time. Therefore, the embodiment of the application provides a display interface processing method, a display interface processing device, a terminal and a storage medium. In the method, under the condition that a plurality of display interfaces are displayed in a split screen mode, if the adjustment operation aiming at least one display interface in the plurality of display interfaces is detected, at least one first display interface is determined in the plurality of display interfaces according to the adjustment operation; and adjusting at least one first display interface according to the adjustment operation, so that the adjustment of one or more display interfaces can be realized, and the adjustment efficiency of the display interfaces can be improved.

The terminal of the embodiment of the application comprises a smart phone, a tablet computer, a desktop computer and other devices capable of displaying. In the embodiment of the present application, a terminal is taken as an example to be described in detail.

Based on the above description, an embodiment of the present application proposes a display interface processing method as shown in fig. 2, where the display interface processing method may include the following steps S201 to S202:

s201: under the condition that a plurality of display interfaces are displayed in a split screen mode, if the terminal detects the adjustment operation aiming at least one display interface in the plurality of display interfaces, at least one first display interface is determined in the plurality of display interfaces according to the adjustment operation.

If the terminal detects an adjustment operation for at least one display interface in the plurality of display interfaces, determining at least one first display interface in the plurality of display interfaces according to the adjustment operation, namely determining at least one display interface which needs to be adjusted by a user through the terminal.

For example, as shown in fig. 3a, a display interface B, and a display interface C are displayed in a display screen of a smart phone, and if a user adjusts the display interface a and the display interface C, the smart phone detects an adjustment operation for the display interface a and the display interface C in three display interfaces, so that it is determined that two first display interfaces are the first display interface a and the first display interface C according to a display interface selected by the adjustment operation.

S202: and the terminal adjusts at least one first display interface according to the adjustment operation.

The terminal adjusting the at least one first display interface according to the adjustment operation comprises: and adjusting the size or position of at least one first display interface.

The terminal adjusts the size of the at least one first display interface according to the adjustment operation, and the adjustment operation comprises the following steps: when the terminal detects multi-point touch operation on at least one first display interface, determining a multi-point touch track of each first display interface in the at least one first display interface according to the multi-point touch operation; and adjusting the size of each first display interface according to each multi-point touch track. The multi-point touch track determined by the terminal according to the multi-point touch operation comprises a track direction and a track size. And the track direction determines whether the first display interface is subjected to size enlargement or size reduction, if the track direction is multipoint inward, the terminal reduces the size of the first display interface, and if the track direction is multipoint outward, the terminal increases the size of the first display interface. The size of the track determines the size adjustment ratio of the first display interface, namely the size of the first display interface is adjusted to be large.

In one implementation manner, the number of the first display interfaces determined by the terminal is one, and the multi-touch operation performed by the user on one first display interface of the plurality of display interfaces is: and inward or outward pinching of at least two fingers, wherein each point in the multi-point touch operation is in the first display interface. When the terminal detects multi-point touch operation on the first display interface, the multi-point touch track of the first display interface is determined according to the multi-point touch operation, and then the size of the first display interface is adjusted according to the multi-point touch track.

For example, as shown in fig. 3B, in the display screen a, a first display interface determined by the smartphone is a display interface B, the smartphone detects that a multi-touch operation B of the user on the display interface B is two points inward, the two points are a point a and a point B, and the point a and the point B are both in the display interface B, the smartphone adjusts the size of the display interface B according to the track direction and the track size of the multi-touch track B, as shown by an arrow, the track direction of the multi-touch track B is two points inward, and the track size of the multi-touch track B is the length of the arrow, so that the smartphone obtains the adjusted display screen B by adjusting the size of the display interface B according to the track direction and the track size of the multi-touch track B, and the display screen B includes the display screen a obtained by adjusting the display screen B.

The terminal adjusting the position of the at least one first display interface according to the adjustment operation comprises: when the dragging operation of the at least one first display interface is detected, determining the sliding track of each first display interface in the at least one first display interface according to the dragging operation; and adjusting the position of each first display interface according to each sliding track, and moving each first display interface to the end position of the sliding track by the terminal according to each corresponding sliding track.

In an implementation manner, a user drags a first display interface, when a terminal detects a dragging operation on the first display interface, a sliding track of the first display interface is determined according to the dragging operation, and a position of the first display interface is adjusted according to the sliding track. For example, as shown in fig. 3c, in the display screen a, the first display interface determined by the smartphone is the display interface a, and when a drag operation on the display interface a is detected, it is determined that the sliding track a of the display interface a is shown by an arrow in fig. 3c according to the drag operation, and the end point of the sliding track a is a, so that the smartphone completes the position of the display interface a to a point a, and the adjusted position of the display interface a is shown as the display screen B in fig. 3 c.

In one implementation mode, a user performs multi-point touch and dragging on a plurality of first display interfaces, when a terminal detects dragging operation on the plurality of first display interfaces, sliding tracks of the first display interfaces are determined according to the dragging operation of the first display interfaces, positions of the first display interfaces are adjusted according to the sliding tracks, and each point in the multi-point is corresponding to one first display interface.

Exemplarily, as shown in fig. 3d, in the display screen a, the first display interface determined by the smartphone is a first display interface a and a first display interface B, and the user uses two fingers to perform touch and drag operations on the first display interface a and the first display interface B in the display screen respectively. When the smart phone detects that a user drags a first display interface A and a first display interface B, sliding tracks of the first display interface A and the first display interface B are respectively determined according to the dragging operation, such as the sliding track A and the sliding track B, then the first display interface A slides to an end point a of the sliding track A according to the sliding track A, the first display interface B slides to an end point B of the sliding track B according to the sliding track B, and an adjusted display screen B is obtained and is shown in fig. 3 d.

In one implementation manner, after the terminal adjusts at least one first display interface according to the adjustment operation, if full-screen display operation for the second display interface is detected, the terminal adjusts the size of the second display interface to the size of the display screen according to the full-screen display operation, where the second display interface is any display interface displayed in the display screen, and the full-screen display operation for the second display interface may be double-click operation for the second display interface by the user, that is, when the terminal detects the full-screen display operation for the second display interface, the full-screen display is performed on the second display interface. And hiding and displaying other display interfaces displayed in the display screen below the second display interface. For example, in fig. 3e, if the smartphone detects that the user performs a double-click operation on the second display interface a in the display screen a, as shown in the display screen B, the size of the second display interface a is adjusted to the size of the display screen, so as to implement full-screen display on the second display interface a, and the display interface B that is originally displayed in the display screen is hidden and displayed below the display interface a.

In an implementation manner, after the terminal adjusts at least one first display interface according to the adjustment operation, if a closing operation for a second display interface is detected, the terminal closes the second display interface according to the closing operation, where the second display interface is any one of display interfaces displayed in the display screen, the closing operation includes upward sliding or downward sliding of the second display interface by a user within a preset time, and the preset time may be 30ms, 40ms, 50ms, and so on. The closing operation also comprises a clicking operation of a user on a target position on the second display interface in the second display interface, and the target position is a closing display clicking operation on the second display interface. For example, in the display screen a shown in fig. 3f, when the user clicks a closing display position of the second display interface a, the smart phone detects a closing operation on the second display interface a, and the smart phone closes the second display interface a according to the closing operation, so as to obtain the display screen B shown in fig. 3 f.

In the embodiment of the application, under the condition that a plurality of display interfaces are displayed in a split screen mode, if the terminal detects an adjusting operation for at least one display interface in the plurality of display interfaces, at least one first display interface is determined in the plurality of display interfaces according to the adjusting operation, and the size or the position of each first display interface is adjusted according to the adjusting operation. The method realizes the adjustment of at least one display interface and can improve the adjustment efficiency of the display interface.

Referring to fig. 4, fig. 4 is another display interface processing method according to an embodiment of the present application, which may include but is not limited to: S401-S403.

S401: when the terminal detects the selection operation of a plurality of display interfaces in the plurality of display interfaces, the selected display interfaces are determined as display interfaces to be adjusted.

In one implementation, the selecting operation of the user on the display interfaces in the plurality of display interfaces is: the user performs long pressing operation on a plurality of display interfaces in the plurality of display interfaces for more than preset time, wherein the preset time can be 30ms, 1s, 2s and the like. And when the terminal detects that the long press operation is longer than the preset time, the selected display interfaces are in a suspension state, namely the display interfaces are determined as display interfaces to be adjusted. For example, as shown in fig. 5, the smart phone displays, in the display screen a, four display interfaces, namely a display interface a, a display interface B, a display interface C, and a display interface D, and when detecting that the user presses the display interface a and the display interface D for a time longer than a preset time, the smart phone highlights the display interface a and the display interface D, and determines the display interface a and the display interface D as the display interfaces to be adjusted.

In one implementation, the selecting operation of the user on the display interfaces in the plurality of display interfaces is: when a user performs double-click operation on the keys on the terminal, the terminal enables all display interfaces on the display screen to be in a suspension state, and the keys can control the display interfaces on the display screen. And at the moment, the user can click on a plurality of display interfaces in the plurality of display interfaces, the terminal highlights the plurality of display interfaces when the terminal detects the click operation on the plurality of display interfaces, and the plurality of display interfaces are determined as the display interfaces to be adjusted.

S402: when the terminal detects the multi-point touch operation of the display interface to be adjusted, the multi-point touch track of the display interface to be adjusted is determined according to the multi-point touch operation.

The multi-touch operation comprises inward or outward pinching of at least two fingers, and the multi-touch operation can be performed at any position in the display interface to be adjusted. For example, as shown in fig. 5, the to-be-adjusted display interface determined by the terminal includes a display interface a and a display interface C, and if the multi-point touch operation of the to-be-adjusted display interface by the user is a two-point outward operation, the multi-point touch trajectory determined by the smart phone according to the multi-point touch operation is shown as an arrow.

S403: and the terminal adjusts the size of the interface to be adjusted according to the multi-point touch track of the display interface to be adjusted.

Specifically, the terminal adjusts the size of each display interface included in the display interface to be adjusted in the same proportion according to the multi-point touch track of the display interface to be adjusted. If the direction of the multi-point touch track is inward, the sizes of all display interfaces included in the display interface to be adjusted are reduced by the same scale factor; and if the direction of the multi-point touch track is outward, increasing the size of each display interface included in the display interface to be adjusted by the same scale factor. The scale factor is determined by the size of the multi-touch track.

For example, the display interface to be adjusted is as shown in a display screen a in fig. 5, and the smart phone adjusts the sizes of the display interface a and the display interface D in the display interface to be adjusted in the same proportion according to the determined multi-point touch trajectory, so as to obtain a display screen B as shown in fig. 5.

In the embodiment of the application, when the terminal detects the selection operation of a plurality of display interfaces in a display screen, the plurality of display interfaces are determined as the display interfaces to be adjusted, when the multi-point touch operation of the display interfaces to be adjusted is detected, the multi-point touch trajectory of the display interfaces to be adjusted is determined according to the multi-point touch operation of the display interfaces to be adjusted, and the size of each display interface in the display interfaces to be adjusted is adjusted according to the same scale factor of the multi-point touch trajectory of the display interfaces to be adjusted. The method can simultaneously adjust the sizes of a plurality of display interfaces included in the display interface to be adjusted, and can improve the size adjustment efficiency of the display interfaces.

Referring to fig. 6, fig. 6 is a schematic diagram illustrating another display interface processing method according to an embodiment of the present application, which may include, but is not limited to: S601-S603.

S601: when the terminal detects the selection operation of a plurality of display interfaces in the plurality of display interfaces, the selected display interfaces are determined as display interfaces to be adjusted.

Step S601 in this embodiment may specifically refer to the execution process of step S401 in the above embodiment, and this embodiment is not described again.

S602: when the terminal detects the dragging operation of the interface to be adjusted, the sliding track of the display interface to be adjusted is determined according to the dragging operation.

The dragging operation is the dragging operation of a user on the position of the interface to be adjusted, when the dragging operation of the interface to be adjusted is detected, the terminal determines the sliding track of the display interface to be adjusted according to the dragging operation, and the end point of the sliding track is the final display position of the interface to be adjusted.

S603: and the terminal adjusts the position of the display interface to be adjusted according to the sliding track of the display interface to be adjusted.

And the terminal adjusts the position of each display interface included in the display interface to be adjusted to the end point of the sliding track according to the sliding track of the display interface to be adjusted. As shown in fig. 7, in the display screen a, the display interface to be adjusted determined by the terminal includes a display interface a, a display interface C, and a display interface E, and the positions of the display interfaces in the display interface to be adjusted are all adjusted to the end point a of the sliding track a according to the determined sliding track a, so as to obtain a display screen B as shown in fig. 7.

In the embodiment of the application, when the terminal detects the selection operation of a plurality of display interfaces in the plurality of display interfaces, the plurality of selected display interfaces are determined as the display interfaces to be adjusted, then when the dragging operation of the display interfaces to be adjusted is detected, the sliding track of the display interfaces to be adjusted is determined according to the dragging operation, and the positions of the display interfaces to be adjusted are adjusted according to the sliding track, so that the position adjustment of the plurality of display interfaces is realized simultaneously, and the adjustment efficiency of the position adjustment of the display interfaces can be improved.

Fig. 8 is another display interface processing method proposed in the embodiment of the present application, which may include but is not limited to: S801-S806.

S801: and when the terminal detects the moving operation of the target boundary in the at least one boundary, determining the moving track according to the moving operation.

When the number of the first display interfaces is multiple, the common display boundary of any two adjacent first display interfaces is a boundary line of the two adjacent first display interfaces. And when the terminal detects the moving operation of the target boundary in at least one boundary, determining the moving track of the target boundary according to the moving operation. For example, as shown in fig. 9a, the first display interface displayed on the display screen includes a display interface a, a display interface B, and a display interface C, and the boundary between the display interface a and the display interface B is a boundary a, and the boundary between the display interface B and the display interface C is a boundary B, and when the terminal detects the user's movement operation on the boundary a (target boundary), the terminal determines the movement locus of the boundary a according to the movement operation, as shown by the movement locus a.

S802: the terminal determines at least one first display interface according to the moving track.

Specifically, the terminal determines at least one first display interface adjacent to the target boundary according to the moving track. For example, in fig. 9a, the target boundary is a boundary a, and the first display interface adjacent to the boundary a includes a first display interface a and a first display interface B.

S803: and the terminal adjusts at least one first display interface according to the moving track.

And after the terminal determines the at least one first display interface, adjusting the size of the determined at least one first display interface according to the movement track. For example, the movement track and the at least one first display interface determined by the smartphone are shown in fig. 9a, so that the smartphone adjusts the sizes of the first display interface a and the first display interface B through the movement track a, after the adjustment, the position of the boundary a is adjusted from the original position m to the position n, the change in the position of the boundary a causes the size change of the first display interface a and the first display interface B, the size of the first display interface a becomes larger, and correspondingly, the size of the first display interface B becomes smaller, so that the smartphone realizes the size adjustment of the first display interface a and the first display interface B according to the movement track a.

S804: and the terminal determines the target position of the target boundary according to the moving track.

After the terminal adjusts the at least one first display interface according to the moving track, a target position of the target boundary is determined according to the moving track, the target position of the target boundary is a position where the user moves the target boundary, and namely the position of the target boundary is an end point position of the moving track. For example, in fig. 9b, the target position of the target boundary (boundary a) is e.

S805: and the terminal determines the display modes of at least three first display interfaces according to the target position.

In one implementation, the display interfaces are displayed in a horizontal direction on the display screen, and if the target position is located on the left side of the upper boundary of the target boundary or on the right side of the lower boundary, the terminal displays at least three first display interfaces corresponding to the target boundary in an overlapping manner. Alternatively, the display interfaces are displayed on the display screen in the vertical direction, and if the target position is located above the previous boundary or below the next boundary, at least three first display interfaces corresponding to the target boundaries are displayed in an overlapping manner. The overlapping display comprises setting different display colors for the first display interfaces. Optionally, the overlapping display includes hiding and displaying at least one first display interface of the at least three display interfaces in the display screen. Optionally, the overlapping display includes semi-transparent display of at least one first display interface of the at least three display interfaces. For example, the position of a target boundary (boundary a) obtained by the smart phone adjusting at least one first display interface according to the movement track is shown in fig. 9B, where the target position of the boundary a is e, the e is located below the next boundary (boundary B) of the boundary a, and the e is located within the range of the display interface C, the terminal determines that the first display interface corresponding to the target boundary is the first display interface a and the first display interface B, and the display interface related to the first display interface a and the first display interface B is the display interface C, and then the smart phone performs overlapping display on the first display interface a, the first display interface B, and the display interface C.

In an implementation manner, a manner of overlapping the first display interface a, the first display interface B, and the display interface C by the smartphone is shown in fig. 9C, where the first display interface B is no longer displayed in the display screen, the first display interface a is completely displayed in the display screen, the display interface C is hidden and displayed below the first display interface a, and the display interface C and the first display interface a have a partial overlapping area.

In an implementation manner, a manner of overlapping and displaying the first display interface a, the first display interface B, and the display interface C by the smartphone is as shown in fig. 9d, the first display interface a is completely displayed in the display screen, the first display interface B is hidden and displayed below the first display interface a, the display interface C is hidden and displayed below the first display interface B, and all three display interfaces have partial overlapping areas.

In an implementation manner, the smart phone displays the first display interface a, the first display interface B, and the display interface C in an overlapping manner as shown in fig. 9e, where the first display interface a is completely displayed in the display screen, the display interface C is hidden and displayed below the first display interface a, the first display interface B is hidden and displayed below the display interface C, and all three display interfaces have a partial overlapping area.

S806: and the terminal displays the at least three first display interfaces according to the determined display modes of the at least three first display interfaces.

In this embodiment, if the number of the first display interfaces is multiple, when the terminal detects a moving operation on a target boundary of the at least one boundary, the terminal determines a moving track according to the moving operation, and then adjusts the size of the at least one first display interface according to the moving track. Meanwhile, the terminal can also determine the target position of the target boundary according to the moving track and determine the display modes of at least three display interfaces according to the target position. In the method, the terminal adjusts the at least one first display interface by detecting the moving operation of the target boundary, and can also determine at least three first display interface display modes according to the adjusted moving track of the at least one first display interface.

In an implementation manner, after the terminal displays the at least three first display interfaces according to the determined display manners of the at least three first display interfaces, if the terminal detects a display operation for a target interface, the target interface is displayed in a first area according to the display operation, and the first area is an area of the display screen except for current display interfaces. When a user double-clicks one application program, the application program is operated by the terminal, the display interface corresponding to the application program is the target interface, and the terminal detects display operation aiming at the target interface. And if the terminal detects the display operation aiming at the target interface, displaying the target interface in any display area except the current display interface in the display screen according to the display operation, and realizing the display of the target interface needing to be displayed.

In one implementation, if the terminal detects a display operation for the target interface, the specific implementation steps of displaying the target interface in the first area according to the display operation are as in S1001-S1003.

S1001: and if the terminal detects the display operation aiming at the target interface, determining the size of the first area as a first size.

The first area is an area of the display screen except for each current display interface, for example, as shown in the display screen a of fig. 11, the currently displayed display interface includes a display interface a, a display interface B, and a display interface C, and when the smart phone detects a display operation for a target interface, the size of the area of the display screen except for the display interface a, the display interface B, and the display interface C is determined, where the size is the first size a.

S1002: and the terminal adjusts the size of the target interface to a target size to obtain an interface to be displayed, wherein the target size is obtained according to the first size and a preset proportional coefficient.

The preset scaling factor is set in advance for the terminal, and the preset scaling factor may be 1/2,1/3,1/4, and so on, which are not limited herein. And the terminal adjusts the size of the target interface to be displayed to be multiple times of the preset proportion coefficient of the first size, so as to obtain the interface to be displayed.

S1003: the terminal displays the interface to be displayed in the first area.

And the terminal displays the interface to be displayed obtained in the step S1001 in the first area. For example, the preset scaling factor is 1/2, and the size of the interface to be displayed obtained by the terminal is half of the first size of the first area, so that the interface to be displayed is displayed in the first area, as shown in the display screen B in fig. 11, and the interface to be displayed is a display interface D after being displayed in the first area.

In the embodiment of the application, when the terminal detects the display operation for the target interface, the size of the target interface is adjusted according to the first size of the first area to obtain the interface to be displayed, and then the interface to be displayed is displayed in the first area. The method realizes that the display interface needing to be displayed is displayed in the area without the display interface.

Fig. 12 is another display interface processing method proposed in the embodiment of the present application, which may include but is not limited to: s1201-1202.

S1201: the terminal divides the display screen into a plurality of display areas.

The terminal divides the display screen into a plurality of display areas, and the sizes of the display areas can be equal or unequal, which is not limited herein. Each display area can display the interface to be displayed. For example, as shown in fig. 13a, the smart phone divides the display screen into three display areas, which are a display area a, a display area B, and a display area C, and a display interface with a display requirement can be displayed in each of the display area a, the display area B, and the display area C.

S1202: and if the terminal detects the display operation aiming at the target interface, displaying the target interface in the second area according to the display operation to obtain a third display interface.

The second area is any one of the display areas, the size of the third display interface is smaller than or equal to that of the second area, and therefore the terminal displays the target display interface in any display area. For example, in fig. 13a, when the terminal detects a display operation for the target display interface, the terminal displays the target display interface in the display area C, so as to obtain a third display interface, where the size of the third display interface is smaller than that of the second area.

In one implementation, if the terminal detects a display operation for the target interface, the target interface is displayed in the second area according to the display operation, and after the third display interface is obtained, if the terminal detects a target adjustment operation for the third display interface, the third display interface is adjusted according to the target adjustment operation. The adjustment method for adjusting the third display interface by the terminal according to the target adjustment operation is the same as the adjustment method for adjusting the first display interface by the terminal in S202, and is not described herein again.

In an implementation manner, if the terminal adjusts the third display interface, the area in the second area except for the third display interface is set as a background image, the background image is preset in advance by the terminal, and the background image may be a pure black image or not, which is not limited herein. For example, in fig. 13b, when the terminal adjusts the third display interface, the area of the second area other than the third display interface is set as a solid black image.

In the embodiment of the application, the terminal divides the display screen into a plurality of display areas, and when the display operation aiming at the target interface is detected, the target interface is displayed in the second area according to the display operation, so that a third display interface is obtained. Namely, the terminal displays the target interface to be displayed in any divided display area, thereby realizing the display of the target interface in the display area.

Fig. 14 is another display interface processing method proposed in the embodiment of the present application, which may include but is not limited to: s1401-1405.

S1401: the terminal divides the display screen into a plurality of display areas.

Step S1401 in this embodiment of the present application may specifically refer to an execution process of step S1201 in the above embodiment, and this embodiment of the present application is not described again.

S1402: the terminal sets the region type of each display region.

The area type is used to indicate the type of interface that the display area can display. The area type may be set according to the type of the application, for example, the type of the application includes an instant messaging type, an entertainment type, a news type, a shopping type, and the like, and the type of the display area may be set as an instant messaging type, an entertainment type, a news type, a shopping type, and the like. .

S1403: and if the terminal detects the display operation aiming at the target interface, determining the interface type of the target interface.

In one implementation manner, if the terminal detects a display operation for the target interface, the interface type of the target interface is determined according to interface information included in the target interface. For example, if the interface information of the target interface is commodity information of a plurality of Taobao merchants, the terminal determines that the interface type of the target interface is in shopping. For another example, if the interface information of the target interface is information of multiple chat windows, the terminal determines that the interface type of the target interface is an instant messaging type.

In one implementation mode, if the terminal detects display operation aiming at a target interface, determining an application program to which the target interface belongs; determining the application program type of the application program according to the application program; and determining the interface type of the target interface according to the application program type. For example, if the application to which the target interface belongs is an arcade video application, the terminal determines that the application program type of the arcade video application is an entertainment type, and then determines that the interface type of the target interface is also an entertainment type.

S1404: and the terminal determines a third area corresponding to the area type matched with the interface type in the plurality of display areas.

The terminal determines a third area corresponding to the area type matched with the interface type in the multiple display areas, namely the area type of the third area determined by the terminal to be used for displaying the target interface is the same as the interface type of the target interface.

S1405: and the terminal displays the target interface in the third area.

In the embodiment of the application, the terminal divides a display screen into a plurality of display areas, sets the display types of the display areas, determines the interface type of a target interface if a display operation instruction for the target interface is detected, determines a third area corresponding to the area type matched with the interface type in the plurality of display areas, and finally displays the target interface in the third area. According to the method, the terminal displays the target interface in a third area corresponding to the area type matched with the interface type according to the interface type of the target interface, and the target display interface to be displayed is displayed in a specific display area in a targeted mode.

Referring to fig. 15, fig. 15 is a schematic structural diagram of a display interface processing apparatus according to an embodiment of the present disclosure. The display interface processing apparatus described in this embodiment includes:

a determining unit 1501, configured to, when multiple display interfaces are displayed in a split-screen manner, determine at least one first display interface in the multiple display interfaces according to an adjustment operation if the adjustment operation for at least one display interface in the multiple display interfaces is detected;

an adjusting unit 1502 is configured to adjust at least one first display interface according to an adjustment operation.

In one implementation, the adjusting unit 1502 is further configured to adjust a size or a position of the at least one first display interface.

In an implementation manner, the determining unit 1501 is further configured to determine, when a multi-touch operation on at least one first display interface is detected, a multi-touch trajectory of each first display interface in the at least one first display interface according to the multi-touch operation; the adjusting unit 1502 is further configured to adjust the size of each first display interface according to each multi-touch trajectory.

In an implementation manner, the determining unit 1501 is further configured to determine, when a selection operation on at least one first display interface is detected, the at least one first display interface as a display interface to be adjusted; the determining unit 1501 is further configured to determine a multi-point touch trajectory of the display interface to be adjusted according to the multi-point touch operation when the multi-point touch operation of the display interface to be adjusted is detected; the adjusting unit 1502 is further configured to adjust the size of the interface to be adjusted according to the multi-touch trajectory of the display interface to be adjusted.

In an implementation manner, the determining unit 1501 is further configured to determine, when a drag operation on the at least one first display interface is detected, a sliding track of each first display interface in the at least one first display interface according to the drag operation; the adjusting unit 1502 is further configured to adjust the position of each first display interface according to each sliding track.

In an implementation manner, the determining unit 1501 is further configured to determine, when a selection operation on at least one first display interface is detected, the at least one first display interface as a display interface to be adjusted; the determining unit 1501 is further configured to determine a sliding track of the display interface to be adjusted according to the dragging operation of the interface to be adjusted when the dragging operation of the interface to be adjusted is detected; the adjusting unit 1502 is further configured to adjust the position of the display interface to be adjusted according to the sliding track of the display interface to be adjusted.

In one implementation manner, the number of the first display interfaces is multiple, and a common display boundary of any two adjacent first display interfaces is a boundary line of the two adjacent first display interfaces; a determining unit 1501, configured to determine a movement trajectory according to a moving operation when the moving operation on a target boundary line of the at least one boundary line is detected; the determining unit 1501 is further configured to determine at least one first display interface according to the movement track; the adjusting unit 1502 is further configured to adjust at least one first display interface according to the moving track.

In one implementation, the determining unit 1501 is further configured to determine a target position of the target boundary according to the movement trajectory; the display interface processing apparatus further includes: a display unit 1503 for performing overlapping display of at least three first display interfaces corresponding to the target boundary line if the target position is located on the left side of the last boundary line of the target boundary line or on the right side of the next boundary line; the display unit 1503 is further configured to display at least three first display interfaces corresponding to the target boundary in an overlapping manner if the target position is located above the previous boundary or below the next boundary.

In an implementation manner, the adjusting unit 1502 is further configured to, if a full-screen display operation for a second display interface is detected, adjust the size of the second display interface to the size of the display screen according to the full-screen display operation, where the second display interface is any display interface displayed in the display screen.

In one implementation, the display interface processing apparatus further includes: a closing unit 1504, configured to close the second display interface according to a closing operation if the closing operation for the second display interface is detected, where the second display interface is any one of display interfaces displayed in the display screen.

In one implementation, the display unit 1503 is further configured to, if a display operation for the target interface is detected, display the target interface in a first area according to the display operation, where the first area is an area of the display screen except for current display interfaces.

In one implementation, the determining unit 1501 is further configured to determine that the size of the first area is the first size if the display operation for the target interface is detected; the adjusting unit 1502 is further configured to adjust the size of the target interface to a target size, so as to obtain an interface to be displayed, where the target size is obtained according to the first size and a preset scaling factor; the display unit 1503 is further configured to display the interface to be displayed in the first area.

In one implementation, the display interface processing apparatus further includes: a dividing unit 1505 for dividing the display screen into a plurality of display regions; the display unit 1503 is further configured to, if a display operation for the target interface is detected, display the target interface in a second region according to the display operation to obtain a third display interface, where the second region is any one of the plurality of display regions, and a size of the third display interface is smaller than or equal to a size of the second region.

In an implementation manner, the adjusting unit 1502 is further configured to, if a target adjusting operation for the third display interface is detected, adjust the third display interface according to the target adjusting operation.

In one implementation, the display interface processing apparatus further includes: the setting unit 1506 is configured to set, as the background image, an area of the second area other than the third display interface if the third display interface is adjusted.

In one implementation, the setting unit 1506 is further configured to set an area type of each display area, where the area type is used to indicate an interface type that can be displayed in the display area; the determining unit 1501 is further configured to determine an interface type of the target interface if a display operation for the target interface is detected; the determining unit 1501 is further configured to determine a third area corresponding to the area type matched with the interface type in the plurality of display areas; the display unit 1503 is further configured to display the target interface in the third area.

In one implementation, the determining unit 1501 is further configured to determine, if a display operation for the target interface is detected, an interface type of the target interface according to interface information included in the target interface.

In one implementation, the determining unit 1501 is further configured to determine, if a display operation for the target interface is detected, an application program to which the target interface belongs; a determining unit 1501, further configured to determine an application type of the application according to the application; the determining unit 1501 is further configured to determine an interface type of the target interface according to the application type.

For specific implementation of each unit included in the display interface processing apparatus provided in the embodiment of the present application, reference may be made to description of related content in the foregoing embodiments, which is not repeated herein, and each unit in the display interface processing apparatus shown in fig. 15 may be respectively or completely merged into one or several other units to form the display interface processing apparatus, or some module(s) in the display interface processing apparatus may be further split into multiple units with smaller functions to form the display interface processing apparatus, which may implement the same operation without affecting implementation of technical effects of the embodiments of the present application. The units are divided based on logic functions, and in practical application, the functions of one unit can be realized by a plurality of units, or the functions of a plurality of units are realized by one module. In other embodiments of the present application, other units may also be included, and in practical applications, these functions may also be implemented by assistance of other units, and may be implemented by cooperation of multiple units, which is not limited in this application.

Referring to fig. 16, fig. 16 is a schematic structural diagram of a terminal according to an embodiment of the present application, where the terminal 160 includes a processor 1601, a memory 1602, and a communication interface 1603, and the processor 1601, the memory 1602, and the communication interface 1603 are connected by one or more communication buses.

The processor 1601 is configured to support the terminal to perform the corresponding functions of the terminal in the embodiments shown in fig. 2, 4, 6, 8, 10, 12 and 14. The processor 1601 may be a Central Processing Unit (CPU), a Network Processor (NP), a hardware chip, or any combination thereof.

The memory 1602 is used to store program codes and the like. The memory 1602 may include volatile memory (volatile memory), such as Random Access Memory (RAM); the memory 1602 may also include a non-volatile memory (non-volatile memory), such as a read-only memory (ROM), a flash memory (flash memory), a hard disk (HDD) or a solid-state drive (SSD); the memory 1602 may also include a combination of the above types of memory.

Processor 1601 can call program code stored in memory 1602 to perform the following:

under the condition that a plurality of display interfaces are displayed in a split screen mode, if the adjustment operation aiming at least one display interface in the plurality of display interfaces is detected, determining at least one first display interface in the plurality of display interfaces according to the adjustment operation;

and adjusting at least one first display interface according to the adjusting operation.

In one implementation, the processor 1601 adjusts at least one first display interface according to an adjustment operation, and specifically performs the following operations: the processor 1601 adjusts a size or a position of at least one first display interface.

In one implementation, the processor 1601 adjusts a size of at least one first display interface, and specifically performs the following operations: when detecting a multi-touch operation on at least one first display interface, the processor 1601 determines a multi-touch trajectory of each first display interface in the at least one first display interface according to the multi-touch operation; the processor 1601 adjusts a size of each first display interface according to each multi-touch trajectory.

In one implementation, before the processor 1601 determines a multi-touch trajectory of each first display interface in the at least one first display interface according to a multi-touch operation when the multi-touch operation on the at least one first display interface is detected, the following operations may be further performed: the processor 1601 determines at least one first display interface as a display interface to be adjusted when a selection operation on the at least one first display interface is detected; when detecting a multi-touch operation on at least one first display interface, the processor 1601 determines, according to the multi-touch operation, a multi-touch trajectory of each first display interface in the at least one first display interface, and specifically executes the following operations: when detecting a multi-point touch operation of the display interface to be adjusted, the processor 1601 determines a multi-point touch trajectory of the display interface to be adjusted according to the multi-point touch operation; the processor 1601 adjusts a size of the interface to be adjusted according to the multi-touch trajectory of the display interface to be adjusted.

In one implementation, the processor 1601 adjusts a position of at least one first display interface, and specifically performs the following operations: the processor 1601 determines a sliding track of each first display interface in the at least one first display interface according to a drag operation when the drag operation on the at least one first display interface is detected; the processor 1601 adjusts a position of each first display interface according to each sliding track.

In one implementation manner, before the processor 1601 determines, when a drag operation on the at least one first display interface is detected, a sliding track of each first display interface in the at least one first display interface according to the drag operation, the following operations may be further performed: when detecting a selection operation on at least one first display interface, the processor 1601 determines the at least one first display interface as a display interface to be adjusted; when detecting a drag operation on at least one first display interface, the processor 1601 determines a sliding track of each first display interface in the at least one first display interface according to the drag operation, and specifically executes the following operations: when detecting the dragging operation of the interface to be adjusted, the processor 1601 determines a sliding track of the display interface to be adjusted according to the dragging operation of the interface to be adjusted; the processor 1601 adjusts a position of the display interface to be adjusted according to the sliding track of the display interface to be adjusted.

In one implementation, the number of the first display interfaces is multiple, the common display boundary of any two adjacent first display interfaces is a boundary between two adjacent first display interfaces, and if the processor 1601 detects an adjustment operation for at least one display interface of the multiple display interfaces, then determines at least one first display interface in the multiple display interfaces according to the adjustment operation, and specifically performs the following operations: the processor 1601, when detecting a moving operation on a target boundary of the at least one boundary, determines a moving trajectory according to the moving operation; the processor 1601 determines at least one first display interface according to the movement track; the processor 1601 adjusts at least one first display interface according to the movement trajectory.

In one implementation, after the processor 1601 adjusts the at least one first display interface according to the movement trace, the following steps may be further performed: the processor 1601 determines a target position of a target boundary according to the movement track; if the target position is located on the left side of the previous boundary of the target boundary or on the right side of the next boundary, the processor 1601 performs overlapping display on at least three first display interfaces corresponding to the target boundary; if the target position is located above the previous boundary or below the next boundary, the processor 1601 displays at least three first display interfaces corresponding to the target boundary in an overlapping manner.

In one implementation, after the processor 1601 adjusts the at least one first display interface according to the adjustment operation, the following steps may be further performed: if the processor 1601 detects a full-screen display operation for the second display interface, the size of the second display interface is adjusted to the size of the display screen according to the full-screen display operation, where the second display interface is any display interface displayed in the display screen.

In one implementation, after the processor 1601 adjusts the at least one first display interface according to the adjustment operation, the following steps may be further performed: if the processor 1601 detects a closing operation for the second display interface, the second display interface is closed according to the closing operation, and the second display interface is any display interface displayed in the display screen.

In one implementation, the processor 1601 may further perform the following steps: and if the display operation aiming at the target interface is detected, displaying the target interface in a first area according to the display operation, wherein the first area is an area except for the current display interfaces in the display screen.

In one implementation, if the processor 1601 detects a display operation for a target interface, the target interface is displayed in a first area according to the display operation, and specifically the following operations are performed: if the processor 1601 detects a display operation for the target interface, determining that the size of the first area is a first size; the processor 1601 adjusts the size of the target interface to a target size to obtain an interface to be displayed, wherein the target size is obtained according to the first size and a preset scale factor; the processor 1601 displays an interface to be displayed in a first area.

In one implementation, if the processor 1601 detects a display operation for the target interface, the following operations may be further performed before the target interface is displayed in the first area according to the display operation: the processor 1601 divides a display screen into a plurality of display areas; if the processor 1601 detects a display operation for the target interface, the target interface is displayed in the first area according to the display operation, and specifically the following operations are performed: if the processor 1601 detects a display operation for the target interface, the target interface is displayed in a second area according to the display operation, so as to obtain a third display interface, where the second area is any one of the plurality of display areas, and a size of the third display interface is smaller than or equal to a size of the second area.

In one implementation, if the processor 1601 detects a display operation for the target interface, after the target interface is displayed in the second area according to the display operation and a third display interface is obtained, the following operations may be further performed: if the processor 1601 detects a target adjustment operation for the third display interface, the third display interface is adjusted according to the target adjustment operation.

In one implementation, the processor 1601 may further perform the following operations: if the processor 1601 adjusts the third display interface, the area of the second area other than the third display interface is set as the background image.

In one implementation, after the processor 1601 divides the display screen into a plurality of display areas, the following steps may be further performed: the processor 1601 sets an area type of each display area, wherein the area type is used for indicating an interface type which can be displayed in the display area; if the processor 1601 detects a display operation for a target interface, the target interface is displayed in a first area according to the display operation, and specifically the following operations are performed: if the processor 1602 detects a display operation for a target interface, determining an interface type of the target interface; the processor 1601 determines a third area corresponding to an area type matching the interface type in the plurality of display areas; the processor 1602 displays the target interface in the third area.

In one implementation, if the processor 1601 detects a display operation for a target interface, it determines an interface type of the target interface, and specifically performs the following operations: if the processor 1601 detects a display operation for the target interface, an interface type of the target interface is determined according to interface information included in the target interface.

In one implementation, if the processor 1601 detects a display operation for a target interface, the interface type of the target interface is determined, and specifically the following operations are performed: if the processor 1601 detects a display operation for the target interface, determining an application program to which the target interface belongs; the processor 1601 determines an application type of the application according to the application; the processor 1601 determines an interface type of the target interface according to the application type.

Embodiments of the present application further provide a computer-readable storage medium, which can be used to store computer software instructions for the first node device in the embodiments shown in fig. 2 to fig. 6, and which contain programs designed for the first node device in the embodiments described above.

Another computer-readable storage medium may be provided in an embodiment of the present application, and may be used to store computer software instructions for the terminal in the embodiments shown in fig. 2, fig. 4, fig. 6, fig. 8, fig. 10, fig. 12, and fig. 14, which include programs designed for the terminal in the foregoing embodiments.

The computer readable storage medium includes, but is not limited to, flash memory, hard disk, solid state disk.

The present application further provides a terminal, the terminal including: a memory, a processor and a computer program stored on the memory and executable on the processor, which computer program, when executed by the processor, carries out the steps of the method as described above.

Embodiments of the present application also provide a computer program product, which includes computer program code, when the computer program code runs on a computer, the computer is caused to execute the method as described in the above various possible embodiments.

An embodiment of the present application further provides a chip, which includes a memory and a processor, where the memory is used to store a computer program, and the processor is used to call and run the computer program from the memory, so that a device in which the chip is installed executes the method described in the above various possible embodiments.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, 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 process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a … …" does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element, and further, components, features, elements, and/or steps that may be similarly named in various embodiments of the application may or may not have the same meaning, unless otherwise specified by its interpretation in the embodiment or by context with further embodiments.

It should be understood that although the terms first, second, third, etc. may be used herein to describe various information, such information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope herein. The word "if," as used herein, may be interpreted as "at … …" or "at … …" or "in response to a determination," depending on the context. Also, as used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context indicates otherwise. It will be further understood that the terms "comprises," "comprising," "includes" and/or "including," when used in this specification, specify the presence of stated features, steps, operations, elements, components, items, species, and/or groups, but do not preclude the presence, or addition of one or more other features, steps, operations, elements, components, items, species, and/or groups thereof. The terms "or" and/or "as used herein are to be construed as inclusive or meaning any one or any combination. Thus, "A, B or C" or "A, B and/or C" means "any of the following: a; b; c; a and B; a and C; b and C; A. b and C ". An exception to this definition will occur only when a combination of elements, functions, steps or operations are inherently mutually exclusive in some way.

It should be understood that, although the steps in the flowcharts in the embodiments of the present application are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and may be performed in other orders unless explicitly stated herein. Moreover, at least some of the steps in the figures may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, in different orders, and may be performed alternately or at least partially with respect to other steps or sub-steps of other steps.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (20)

1. A display interface processing method is characterized by comprising the following steps:

   under the condition that a plurality of display interfaces are displayed in a split screen mode, if the adjustment operation aiming at least one display interface in the plurality of display interfaces is detected, determining at least one first display interface in the plurality of display interfaces according to the adjustment operation;

   and adjusting the at least one first display interface according to the adjusting operation.
2. The method according to claim 1, wherein the adjusting the at least one first display interface according to the adjustment operation comprises:

   and adjusting the size or the position of the at least one first display interface.
3. The method of claim 2, wherein the resizing the at least one first display interface comprises:

   when multi-point touch operation on the at least one first display interface is detected, determining a multi-point touch track of each first display interface in the at least one first display interface according to the multi-point touch operation;

   and adjusting the size of each first display interface according to each multi-point touch track.
4. The method according to claim 3, wherein before determining the multi-touch trajectory of each of the at least one first display interface according to the multi-touch operation when the multi-touch operation on the at least one first display interface is detected, further comprising:

   when the selection operation of the at least one first display interface is detected, determining the at least one first display interface as a display interface to be adjusted;

   when the multi-touch operation on the at least one first display interface is detected, determining the multi-touch trajectory of each first display interface in the at least one first display interface according to the multi-touch operation includes:

   when multi-point touch operation on the display interface to be adjusted is detected, determining a multi-point touch track of the display interface to be adjusted according to the multi-point touch operation;

   and adjusting the size of the interface to be adjusted according to the multi-point touch track of the display interface to be adjusted.
5. The method of claim 2, wherein the adjusting the position of the at least one first display interface comprises:

   when the dragging operation of the at least one first display interface is detected, determining the sliding track of each first display interface in the at least one first display interface according to the dragging operation;

   and adjusting the position of each first display interface according to each sliding track.
6. The method according to claim 5, before determining, when a drag operation on the at least one first display interface is detected, a sliding track of each first display interface in the at least one first display interface according to the drag operation, further comprising:

   when the selection operation of the at least one first display interface is detected, determining the at least one first display interface as a display interface to be adjusted;

   when detecting a drag operation on the at least one first display interface, determining a sliding track of each first display interface in the at least one first display interface according to the drag operation, including:

   when the dragging operation of the interface to be adjusted is detected, determining the sliding track of the display interface to be adjusted according to the dragging operation of the interface to be adjusted;

   and adjusting the position of the display interface to be adjusted according to the sliding track of the display interface to be adjusted.
7. The method according to claim 1, wherein the number of the first display interfaces is plural, a common display boundary of any two adjacent first display interfaces is a boundary of the two adjacent first display interfaces, and if an adjustment operation for at least one of the plurality of display interfaces is detected, determining at least one first display interface in the plurality of display interfaces according to the adjustment operation includes:

   when a moving operation of a target boundary in at least one boundary is detected, determining a moving track according to the moving operation;

   determining the at least one first display interface according to the movement track;

   and adjusting the at least one first display interface according to the movement track.
8. The method of claim 7, after adjusting the at least one first display interface according to the movement trajectory, further comprising:

   determining the target position of the target boundary line according to the moving track;

   if the target position is located on the left side of the last boundary of the target boundary or on the right side of the next boundary, performing overlapping display on at least three first display interfaces corresponding to the target boundary;

   and if the target position is positioned above the previous boundary or below the next boundary, performing overlapping display on at least three first display interfaces corresponding to the target boundary.
9. The method according to claim 1, wherein after the adjusting the at least one first display interface according to the adjustment operation, further comprising:

   if full-screen display operation aiming at a second display interface is detected, the size of the second display interface is adjusted to the size of the display screen according to the full-screen display operation, and the second display interface is any display interface displayed in the display screen.
10. The method according to claim 1, wherein after the adjusting the at least one first display interface according to the adjustment operation, further comprising:

    and if the closing operation aiming at the second display interface is detected, closing the second display interface according to the closing operation, wherein the second display interface is any display interface displayed in the display screen.
11. The method of claim 1, further comprising:

    and if the display operation aiming at the target interface is detected, displaying the target interface in a first area according to the display operation, wherein the first area is an area except for the current display interfaces in the display screen.
12. The method according to claim 11, wherein if a display operation for a target interface is detected, displaying the target interface in a first area according to the display operation includes:

    if the display operation aiming at the target interface is detected, determining that the size of the first area is a first size;

    adjusting the size of the target interface to a target size to obtain an interface to be displayed, wherein the target size is obtained according to the first size and a preset proportional coefficient;

    and displaying the interface to be displayed in the first area.
13. The method according to any one of claims 11 or 12, wherein if a display operation for a target interface is detected, displaying the target interface before a first area according to the display operation, further comprising:

    dividing the display screen into a plurality of display areas;

    if the display operation for the target interface is detected, displaying the target interface in a first area according to the display operation, including:

    if the display operation aiming at the target interface is detected, displaying the target interface in a second area according to the display operation to obtain a third display interface, wherein the second area is any one of the display areas, and the size of the third display interface is smaller than or equal to that of the second area.
14. The method according to claim 13, wherein if a display operation for the target interface is detected, displaying the target interface in a second area according to the display operation, and after obtaining a third display interface, further comprising:

    and if the target adjustment operation aiming at the third display interface is detected, adjusting the third display interface according to the target adjustment operation.
15. The method of claim 14, further comprising:

    and if the third display interface is adjusted, setting the area except for the third display interface in the second area as a background image.
16. The method of claim 13, wherein after dividing the display screen into a plurality of display regions, further comprising:

    setting the area type of each display area, wherein the area type is used for indicating the interface type which can be displayed in the display area;

    if the display operation for the target interface is detected, displaying the target interface in a first area according to the display operation, including:

    if the display operation aiming at the target interface is detected, determining the interface type of the target interface;

    determining a third area corresponding to the area type matched with the interface type in the plurality of display areas;

    and displaying the target interface in the third area.
17. The method of claim 16, wherein determining the interface type of the target interface if the display operation for the target interface is detected comprises:

    and if the display operation aiming at the target interface is detected, determining the interface type of the target interface according to the interface information included by the target interface.
18. The method of claim 16, wherein determining the interface type of the target interface if the display operation for the target interface is detected comprises:

    if the display operation aiming at the target interface is detected, determining an application program to which the target interface belongs;

    determining an application program type of the application program according to the application program;

    and determining the interface type of the target interface according to the application program type.
19. A terminal, the terminal comprising: memory, processor and computer program stored on the memory and executable on the processor, which computer program, when executed by the processor, carries out the steps of the method as claimed in claim 1.
20. A computer-readable storage medium, characterized in that the computer-readable storage medium stores a computer program comprising program instructions that, when executed by a processor, cause the processor to carry out the method of claim 1.

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