CN107885436B - Picture interactive operation method and device and mobile terminal - Google Patents

Abstract

The application discloses a method, a device and a mobile terminal for picture interactive operation, wherein the method comprises the following steps: monitoring whether the main screen is currently on a gallery related interface; and if the main screen is monitored to be in the gallery related interface currently, activating the auxiliary screen to enable the auxiliary screen to receive an input instruction, and further enabling the mobile terminal to perform corresponding operation based on the gallery related interface according to the input instruction. By means of the mode, the picture interaction operation can be simply and conveniently carried out, and the method is more humanized, so that the user experience is provided.

Description

Picture interactive operation method and device and mobile terminal

Technical Field

The present application relates to the field of mobile communication technologies, and in particular, to a method for picture interaction, a device with a storage function, and a mobile terminal.

Background

At present, mobile terminals have become important tools for reading and accessing data in modern information society.

When a user browses a file such as a picture through the mobile terminal, the currently displayed picture can be switched to a previous picture or a next picture by dragging the currently displayed picture to the edge of the window. However, the inventor of the present application finds, in a long-term research and development process, that, for a mobile terminal with a plurality of display screens, the method for browsing pictures is not humanized enough, and the user experience is not good.

Disclosure of Invention

The technical problem mainly solved by the application is to provide a picture interaction operation method, a device with a storage function and a mobile terminal, which can simply and conveniently perform picture interaction operation and are more humanized, so that user experience is provided.

In order to solve the technical problem, the application adopts a technical scheme that: a method for interactive operation of pictures is provided, the method is suitable for a mobile terminal comprising a main screen and an auxiliary screen, and the method comprises the following steps: monitoring whether the main screen is currently on a gallery related interface; and if the main screen is monitored to be in the gallery related interface currently, activating the auxiliary screen to enable the auxiliary screen to receive an input instruction, and further enabling the mobile terminal to perform corresponding operation based on the gallery related interface according to the input instruction.

The auxiliary screen is a touch display screen; the auxiliary screen comprises a left auxiliary screen and a right auxiliary screen, and the left auxiliary screen and the right auxiliary screen are respectively arranged on the left side and the right side of the upper end of the main screen.

Wherein the method further comprises: and when the main screen is currently on a picture preview interface and the auxiliary screen is monitored to receive a first input instruction, switching pictures on the picture preview interface.

When the main screen is currently on a picture preview interface and monitors that the auxiliary screen receives a first input instruction, switching pictures on the picture preview interface, wherein the switching of the pictures on the picture preview interface comprises the following steps: when the main screen is currently on the picture preview interface and the auxiliary screen is monitored to receive the input leftward sliding track, selecting a right picture of the current picture on the picture preview interface; or when the main screen is currently on the picture preview interface and the auxiliary screen is monitored to receive the input right sliding track, selecting a picture on the left side of the current picture on the picture preview interface; or when the main screen is currently on the picture preview interface and the auxiliary screen is monitored to receive the input upward sliding track, selecting the next picture of the current picture on the picture preview interface; or when the main screen is currently on the picture preview interface and the auxiliary screen is monitored to receive the input downward sliding track, selecting a previous picture of the current picture on the picture preview interface; or when the main screen is currently on the picture preview interface and the left auxiliary screen is monitored to receive input long-time pressing of the screen for a preset time, quickly browsing all pictures on the left side of the current picture on the picture preview interface; or when the main screen is currently on the picture preview interface and the right auxiliary screen is monitored to receive the input long press of the screen for the preset time, quickly browsing all pictures on the right side of the current picture on the picture preview interface.

Wherein the method further comprises: when the picture is displayed in the full screen of the main screen and the secondary screen is monitored to receive a second input instruction, the picture displayed in the full screen of the main screen is reduced or enlarged; when the picture is displayed in the full screen of the main screen and the secondary screen is monitored to receive a second input instruction, the operation of reducing or amplifying the picture displayed in the full screen of the main screen comprises the following steps: when the picture is displayed in the full screen of the main screen and the auxiliary screen receives an input sliding track leftwards or downwards, the picture displayed in the full screen of the main screen is reduced; or when the picture is displayed in the full screen of the main screen and the auxiliary screen receives the input sliding track to the right or upwards, the picture displayed in the full screen of the main screen is amplified.

Wherein the method further comprises: when the picture is displayed in the full screen of the main screen, monitoring that one point on the picture is clicked, and monitoring that the auxiliary screen receives a third input instruction, taking the clicked point of the picture displayed in the full screen of the main screen as a base point, and carrying out reduction or amplification operation on the picture displayed in the full screen of the main screen; when the picture is displayed in the full screen of the main screen, a point on the picture is monitored to be clicked, and the auxiliary screen is monitored to receive a third input instruction, the point on the picture displayed in the full screen of the main screen, which is clicked, is taken as a base point, and the picture displayed in the full screen of the main screen is reduced or enlarged, wherein the operation comprises the following steps: when the picture is displayed in the full screen of the main screen, monitoring that one point on the picture is clicked, and monitoring that the auxiliary screen receives an input left or down sliding track, taking the clicked point of the picture displayed in the full screen of the main screen as a base point, and carrying out reduction operation on the picture displayed in the full screen of the main screen; or when the picture is displayed in the full screen of the main screen, a point on the picture is monitored to be clicked, and the auxiliary screen is monitored to receive the input sliding track which moves to the right or upwards, the point on the picture displayed in the full screen of the main screen is taken as a base point, and the picture displayed in the full screen of the main screen is amplified.

Wherein the method further comprises: if the input sliding track is monitored to be between the left auxiliary screen and the right auxiliary screen, exiting the current interface of the main screen for displaying the picture in the full screen mode or recovering the interface of the main screen for displaying the picture in the full screen mode; if the input sliding track is monitored to be between the left auxiliary screen and the right auxiliary screen, quitting the current interface of the main screen displaying the pictures in a full screen mode or recovering the interface of the main screen displaying the pictures in the full screen mode comprises the following steps: if the input sliding track slides from the left auxiliary screen to the right auxiliary screen, exiting the current interface for displaying the picture on the full screen of the main screen; or if the input sliding track slides from the right auxiliary screen to the left auxiliary screen, restoring the interface of the main screen for displaying the picture in full screen.

Wherein the method further comprises: if the picture is displayed in the full screen of the main screen, monitoring that the auxiliary screen receives input and presses the screen for a preset time, and monitoring that the auxiliary screen receives a fourth input instruction, controlling the picture displayed in the full screen of the main screen to rotate; if the picture is displayed in the full screen of the main screen, the picture displayed in the full screen of the main screen is controlled to rotate if the auxiliary screen receives input and presses the screen for a preset time, and the auxiliary screen receives a fourth input instruction, and the method comprises the following steps: if the picture is displayed in the full screen of the main screen, monitoring that the auxiliary screen receives input long time for pressing the screen for preset time, and monitoring that the auxiliary screen receives input sliding tracks leftwards or downwards, controlling the picture displayed in the full screen of the main screen to rotate anticlockwise; if the picture is displayed in the full screen of the main screen, the auxiliary screen is monitored to receive input for a preset time, and the auxiliary screen is monitored to receive the input sliding track to the right or upwards, and the picture displayed in the full screen of the main screen is controlled to rotate clockwise.

In order to solve the above technical problem, another technical solution adopted by the present application is: there is provided a mobile terminal, comprising: the method comprises a processor, a memory, a communication circuit, a display and an input device, wherein the display comprises a main screen and an auxiliary screen, the processor is respectively coupled with the memory, the communication circuit, the main screen and the auxiliary screen of the display and the input device, and the processor, the memory, the communication circuit, the main screen and the auxiliary screen of the display and the input device can realize the steps in the method when in work.

In order to solve the above technical problem, another technical solution adopted by the present application is: there is provided an apparatus having a storage function, on which program data are stored, which program data, when being executed by a processor, carry out the steps of the method as defined in any one of the above.

The beneficial effect of this application is: different from the situation of the prior art, the method monitors whether the main screen is currently on a gallery related interface or not; and if the main screen is monitored to be in the gallery related interface currently, activating the auxiliary screen to enable the auxiliary screen to receive an input instruction, and further enabling the mobile terminal to perform corresponding operation based on the gallery related interface according to the input instruction. When the main screen is on the relevant interface of the gallery, the auxiliary screen is activated and can receive the input instruction, so that the mobile terminal can perform corresponding operation based on the relevant interface of the gallery according to the input instruction.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts. Wherein:

FIG. 1 is a schematic flowchart illustrating an embodiment of a method for interactive image manipulation according to the present application;

FIG. 2 is a schematic interface diagram of a mobile terminal according to an embodiment of a method for interactive operation of pictures;

FIG. 3 is a schematic structural diagram of an embodiment of a mobile terminal according to the present application;

fig. 4 is a schematic structural diagram of an embodiment of the apparatus with a storage function according to the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all the embodiments. 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.

Referring to fig. 1, fig. 1 is a schematic flowchart of an embodiment of a method for interactive operation of pictures according to the present application, where the method is applied to a mobile terminal including a main screen and an auxiliary screen, that is, the method is applied to a mobile terminal including two or more display screens, one being the main screen and the other being the auxiliary screen. In the embodiment, the auxiliary screen is used for receiving the input instruction to realize the interactive operation of the picture on the main screen, and the specific description is as follows.

The method comprises the following steps:

step S101: and monitoring whether the main screen is currently on the gallery related interface.

Step S102: and if the main screen is monitored to be in the relevant gallery interface at present, activating the auxiliary screen so that the auxiliary screen can receive the input instruction, and further enabling the mobile terminal to perform corresponding operation based on the relevant gallery interface according to the input instruction.

The gallery-related interface refers to interfaces from various sources related to browsing pictures, such as: the interfaces related to the photos and the folders in the camera, the image libraries and the folders of various pictures stored in the mobile terminal, the image libraries and the folders of various pictures stored in the network, and the like.

The input instruction may be a directly input instruction, may be a gesture, may be a sliding track, and the like.

In the prior art, interactive operation is performed on pictures at a related interface of a gallery, the related interface of the gallery and an input operation instruction are on the same screen, misoperation is easy to occur, and the input operation instruction is complex.

In the embodiment of the application, the main screen can activate the auxiliary screen when being at the relevant interface of the gallery at present, so that the auxiliary screen receives the input instruction of the user, the mobile terminal can carry out the operation corresponding to the input instruction according to the input instruction and based on the relevant interface of the gallery, the screen for displaying the relevant interface of the gallery is separated from the screen for inputting the instruction by the user, and through the mode, the picture interaction operation can be simply and conveniently carried out, and the mobile terminal is more humanized, so that the user experience is improved.

In one embodiment, the auxiliary screen is a touch display screen; further, referring to fig. 2, the mobile terminal includes a main screen 10 (area C) and an auxiliary screen 20 (area a and area B), the auxiliary screen 20 includes a left auxiliary screen 201 (area a) and a right auxiliary screen 202 (area B), and the left auxiliary screen 201 and the right auxiliary screen 202 are respectively disposed at left and right sides of an upper end of the main screen 10. For example, in a mobile terminal with a U-shaped screen, in order to increase the screen occupation ratio of the mobile terminal, the width of an upper camera receiver area (D area) does not occupy the whole screen, two parts of an area a and an area B are left out to form the U-shaped screen together with an area C, a main screen 10 is like the area C in the figure, the function of the main screen is equivalent to that of an interface of a normal mobile terminal, and the area a and the area B form an auxiliary screen 20 together in the figure.

Through the mode, on the one hand, the main display function of the main screen is not interfered, on the other hand, the function of the input instruction of the auxiliary screen is fully utilized, and the auxiliary screen display control system is simple and convenient to realize, more humanized and more flexible, so that the user experience is improved.

It should be noted that the area on the auxiliary screen that can receive the input instruction may be the entire auxiliary screen area, or a trigger area may be set on the auxiliary screen in advance, and the auxiliary screen may receive the instruction input only in the trigger area of the auxiliary screen. In practical applications, the area capable of receiving the input command on the auxiliary screen is determined according to practical situations, and is not limited herein.

In an embodiment, when the main screen is currently in the picture preview interface and an instruction input by a user is received on the auxiliary screen, the operation triggered is as follows:

the method further comprises the following steps: and when the main screen is currently on the picture preview interface and the auxiliary screen is monitored to receive the first input instruction, switching pictures on the picture preview interface.

The first input instruction is an input instruction received on the auxiliary screen when the main screen is currently on the picture preview interface, and the first input instruction is used for switching pictures on the picture preview interface. The first input instruction may be preset according to a specific practical application. The picture preview interface is an interface for simultaneously displaying a plurality of pictures.

Further, when the main screen is currently on the picture preview interface and monitors that the auxiliary screen receives the first input instruction, switching pictures on the picture preview interface may specifically include:

when the main screen is currently on a picture preview interface and the auxiliary screen is monitored to receive an input leftward sliding track, selecting a right picture of the current picture on the picture preview interface; in brief, the main screen is currently on the picture preview interface, and when the user slides to the left on the auxiliary screen (left auxiliary screen or right auxiliary screen), the right picture of the current picture in the main screen is controlled.

Or when the main screen is currently on the picture preview interface and the auxiliary screen is monitored to receive the input right sliding track, selecting a picture on the left side of the current picture on the picture preview interface; in brief, the main screen is currently on the picture preview interface, and when the user slides to the right on the auxiliary screen (left auxiliary screen or right auxiliary screen), the user controls the main screen to select a picture on the left side of the current picture.

Or when the main screen is currently on the picture preview interface and the auxiliary screen is monitored to receive the input upward sliding track, selecting the next picture of the current picture on the picture preview interface; in brief, the main screen is currently on the picture preview interface, and when the user slides upwards on the auxiliary screen (left auxiliary screen or right auxiliary screen), the next picture of the current picture in the main screen is controlled.

Or when the main screen is currently on the picture preview interface and the auxiliary screen is monitored to receive the input downward sliding track, selecting a previous picture of the current picture on the picture preview interface; in brief, the main screen is currently on the picture preview interface, and when the user slides down on the auxiliary screen (left auxiliary screen or right auxiliary screen), the user controls the main screen to select the last picture of the current picture.

Or when the main screen is currently on the picture preview interface and the left auxiliary screen is monitored to receive the input long press screen for the preset time, quickly browsing all pictures on the left side of the current picture on the picture preview interface; in brief, the main screen is currently on a picture preview interface, and a user presses the left auxiliary screen for a preset time to control the main screen to quickly browse all pictures on the left side of the current picture.

Or when the main screen is currently on the picture preview interface and the right auxiliary screen is monitored to receive the input long press screen for the preset time, quickly browsing all pictures on the right side of the current picture on the picture preview interface; in brief, the main screen is currently on the picture preview interface, and the user presses the right auxiliary screen for a preset time to control the main screen to quickly browse all pictures on the right side of the current picture.

In an embodiment, the main screen displays a picture in full screen, and when an instruction input by a user is received on the secondary screen, the operation triggered is as follows:

in a first case, the method further comprises: when the picture is displayed in the full screen of the main screen and the secondary screen is monitored to receive a second input instruction, the picture displayed in the full screen of the main screen is reduced or enlarged;

the second input instruction is an input instruction received on the auxiliary screen when the main screen displays the picture in a full screen mode, and the input instruction is used for reducing or amplifying the picture displayed in the full screen mode on the main screen. Displaying a picture in full screen on the main screen means displaying one picture in full screen. The second input instruction may be preset specifically according to a specific practical application.

Further, when the main screen displays the picture in a full screen manner and monitors that the secondary screen receives the second input instruction, the operation of reducing or amplifying the picture displayed in the full screen manner on the main screen may specifically include:

when the picture is displayed in the full screen of the main screen and the auxiliary screen receives the input sliding track leftwards or downwards, the picture displayed in the full screen of the main screen is reduced; in brief, the main screen displays the picture in full screen, and when the user slides left or down on the auxiliary screen (left auxiliary screen or right auxiliary screen), the picture displayed in full screen on the main screen is controlled to be reduced.

Or when the picture is displayed in the full screen of the main screen and the auxiliary screen receives the input sliding track to the right or upwards, the picture displayed in the full screen of the main screen is amplified; in brief, the main screen displays the picture in full screen, and when the user slides to the right or slides up on the auxiliary screen (left auxiliary screen or right auxiliary screen), the picture displayed in full screen on the main screen is controlled to be amplified.

In a second case, the method further comprises: when the picture is displayed in the full screen of the main screen, the click of one point on the picture is monitored, and when the auxiliary screen receives a third input instruction, the click point of the picture displayed in the full screen of the main screen is used as a base point, and the picture displayed in the full screen of the main screen is reduced or enlarged.

The third input instruction is an input instruction received on the auxiliary screen when the picture is displayed in the full screen of the main screen and a certain point on the picture is monitored to be clicked on the main screen, and the input instruction is used for performing reduction or amplification operation on the picture displayed in the full screen of the main screen by taking the clicked point of the picture displayed in the full screen of the main screen as a base point. The third input command may be preset according to a specific practical application.

Further, when the picture is displayed in full screen on the main screen, a point on the picture is monitored to be clicked, and when the auxiliary screen receives a third input instruction, the point on the picture displayed in full screen on the main screen is clicked is used as a base point, and the picture displayed in full screen on the main screen is reduced or amplified, which specifically includes:

when the picture is displayed in the full screen of the main screen, monitoring that one point on the picture is clicked, and monitoring that the auxiliary screen receives an input leftward or downward sliding track, taking the clicked point of the picture displayed in the full screen of the main screen as a base point, and reducing the picture displayed in the full screen of the main screen; in brief, a picture is displayed in a full screen mode on a main screen of a main screen, a user clicks a certain point on the picture of the main screen, and then when an auxiliary screen (a left auxiliary screen or a right auxiliary screen) slides to the left or slides downwards, the point, which is clicked, of the picture displayed in the full screen mode on the main screen is controlled to serve as a base point, and the picture displayed in the full screen mode on the main screen is reduced.

Or when the picture is displayed in the full screen of the main screen, a point on the picture is monitored to be clicked, and the auxiliary screen is monitored to receive the input sliding track to the right or upwards, the point on the picture displayed in the full screen of the main screen is taken as a base point, and the picture displayed in the full screen of the main screen is amplified; in brief, a picture is displayed in a full screen mode on a main screen of a main screen, a user clicks a certain point on the picture of the main screen, and then when an auxiliary screen (a left auxiliary screen or a right auxiliary screen) slides to the right or slides upwards, the point, which is clicked, of the picture displayed in the full screen mode on the main screen is controlled to serve as a base point, and the picture displayed in the full screen mode on the main screen is amplified.

On the basis of the above method, in an embodiment, the interface of the full-screen picture displayed on the current main screen may be directly quitted or restored, and the specific description is as follows:

the method further comprises the following steps: if the input sliding track is monitored to be between the left auxiliary screen and the right auxiliary screen, quitting the current interface of the main screen for displaying the picture in full screen or recovering the interface of the main screen for displaying the picture in full screen;

the input sliding track is between the left auxiliary screen and the right auxiliary screen, which means that the input sliding track comprises a track received by the left auxiliary screen and a track received by the right auxiliary screen. It should be noted that, when the input sliding track is between the left auxiliary screen and the right auxiliary screen, the input time needs to be preset, that is, the sliding track between the left auxiliary screen and the right auxiliary screen needs to be completed within the preset input time, so as to avoid that the mobile terminal cannot accurately judge the instruction input by the user.

When the left auxiliary screen and the right auxiliary screen both receive the input sliding tracks, if the interface displaying the picture in the full screen of the main screen is currently displayed, the interface displaying the picture in the full screen of the main screen is quitted, and if the interface displaying the picture in the full screen of the main screen is not currently displayed, the interface displaying the picture in the full screen of the main screen is recovered.

Further, if it is monitored that the input sliding track is between the left auxiliary screen and the right auxiliary screen, exiting the interface of the current main screen displaying the picture in full screen or recovering the interface of the main screen displaying the picture in full screen may specifically include:

if the input sliding track is monitored to slide from the left auxiliary screen to the right auxiliary screen, exiting the interface of the current main screen for displaying the picture in the full screen; in brief, when the user slides from the left auxiliary screen to the right auxiliary screen, the main screen is controlled to exit the current interface for displaying the picture in the full screen.

Or if the input sliding track is monitored to slide from the right auxiliary screen to the left auxiliary screen, restoring the interface of the main screen for displaying the picture in the full screen; in brief, when the user slides from the right auxiliary screen to the left auxiliary screen, the main screen is controlled to be restored to the interface of displaying the picture in the full screen.

On the basis of the above method, in an embodiment, the picture rotation may also be activated, which is specifically described as follows:

the method further comprises the following steps: if the picture is displayed in the full screen of the main screen, the auxiliary screen is monitored to receive the input long press screen for the preset time, and the auxiliary screen is monitored to receive the fourth input instruction, and the picture displayed in the full screen of the main screen is controlled to rotate.

The fourth input instruction is an input instruction which is received on the auxiliary screen after the main screen displays the picture in the full screen for a preset time and is used for controlling the picture displayed in the full screen of the main screen to rotate. The fourth input instruction may be preset according to a specific practical application.

Further, if the picture is displayed in full screen on the main screen, the auxiliary screen is monitored to receive the input long time for pressing the screen for a preset time, and the auxiliary screen is monitored to receive a fourth input instruction, so that the picture displayed in full screen on the main screen is controlled to rotate, which specifically includes:

if the picture is displayed in the full screen of the main screen, monitoring that the auxiliary screen receives input long-time screen pressing for a preset time, and monitoring that the auxiliary screen receives input sliding tracks leftwards or downwards, controlling the picture displayed in the full screen of the main screen to rotate anticlockwise; briefly, the picture is displayed in the full screen of the main screen, and when a user presses the screen for a certain time on the auxiliary screen (the left auxiliary screen or the right auxiliary screen), and then slides to the left or slides downwards, the picture displayed in the full screen of the main screen is controlled to rotate anticlockwise.

If the picture is displayed in the full screen of the main screen, monitoring that the auxiliary screen receives input long-time screen pressing for a preset time, and monitoring that the auxiliary screen receives input right or upward sliding tracks, controlling the picture displayed in the full screen of the main screen to rotate clockwise; briefly, the picture is displayed in the full screen of the main screen, and when a user presses the screen for a certain time on the auxiliary screen (the left auxiliary screen or the right auxiliary screen), and then slides to the right or slides upwards, the picture displayed in the full screen of the main screen is controlled to rotate clockwise.

Referring to fig. 3, fig. 3 is a schematic structural diagram of an embodiment of a mobile terminal according to the present application, where the mobile terminal includes: the display 4 comprises a main screen 41 and an auxiliary screen 42, the processor 1 is respectively coupled with the memory 2, the communication circuit 3, the main screen 41 and the auxiliary screen 42 of the display 4 and the input device 5, and the processor 1, the memory 2, the communication circuit 3, the main screen 41 and the auxiliary screen 42 of the display 4 and the input device 5 can realize the steps of the method in any one of the above modes when in operation. For a detailed description of relevant matters, reference is made to the above method section, which is not described in detail herein.

Referring to fig. 4, fig. 4 is a schematic structural diagram of an embodiment of the apparatus with storage function of the present application, the apparatus 50 stores program data 501, and the program data 501 is executed by a processor to implement the steps in the above method. For a detailed description of relevant matters, reference is made to the above method section, which is not described in detail herein.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims (8)

1. A method for interactive operation of pictures is characterized in that the method is applied to a mobile terminal comprising a main screen and an auxiliary screen, and the method comprises the following steps:

monitoring whether the main screen is in a gallery related interface currently, wherein the gallery related interface refers to interfaces of various sources related to browsing pictures; if the main screen is monitored to be in the gallery related interface at present, activating the auxiliary screen to enable the auxiliary screen to receive an input instruction, and further enabling the mobile terminal to perform corresponding operation based on the gallery related interface according to the input instruction;

the auxiliary screen is a touch display screen; the auxiliary screen comprises a left auxiliary screen and a right auxiliary screen, and the left auxiliary screen and the right auxiliary screen are respectively arranged on the left side and the right side of the upper end of the main screen;

if the input sliding track is monitored to be between the left auxiliary screen and the right auxiliary screen, exiting the current interface of the main screen for displaying the picture in the full screen mode or recovering the interface of the main screen for displaying the picture in the full screen mode;

if the input sliding track is monitored to be between the left auxiliary screen and the right auxiliary screen, quitting the current interface of the main screen displaying the pictures in a full screen mode or recovering the interface of the main screen displaying the pictures in the full screen mode comprises the following steps:

if the input sliding track slides from the left auxiliary screen to the right auxiliary screen, exiting the current interface for displaying the picture on the full screen of the main screen; or if the input sliding track slides from the right auxiliary screen to the left auxiliary screen, restoring the interface of the main screen for displaying the picture in full screen.

2. The method of claim 1, further comprising:

and when the main screen is currently on a picture preview interface and the auxiliary screen is monitored to receive a first input instruction, switching pictures on the picture preview interface.

3. The method of claim 2, wherein switching pictures in the picture preview interface when the primary screen is currently in the picture preview interface and the secondary screen is monitored to receive the first input instruction comprises:

when the main screen is currently on the picture preview interface and the auxiliary screen is monitored to receive the input leftward sliding track, selecting a right picture of the current picture on the picture preview interface;

or when the main screen is currently on the picture preview interface and the auxiliary screen is monitored to receive the input right sliding track, selecting a picture on the left side of the current picture on the picture preview interface;

or when the main screen is currently on the picture preview interface and the auxiliary screen is monitored to receive the input upward sliding track, selecting the next picture of the current picture on the picture preview interface;

or when the main screen is currently on the picture preview interface and the auxiliary screen is monitored to receive the input downward sliding track, selecting a previous picture of the current picture on the picture preview interface;

or when the main screen is currently on the picture preview interface and the left auxiliary screen is monitored to receive input long-time pressing of the left auxiliary screen for preset time, quickly browsing all pictures on the left side of the current picture on the picture preview interface;

or when the main screen is currently on the picture preview interface and the right auxiliary screen receives input long-time pressing for preset time, quickly browsing all pictures on the right side of the current picture on the picture preview interface.

4. The method of claim 1, further comprising:

when the picture is displayed in the full screen of the main screen and the secondary screen is monitored to receive a second input instruction, the picture displayed in the full screen of the main screen is reduced or enlarged;

when the picture is displayed in the full screen of the main screen and the secondary screen is monitored to receive a second input instruction, the operation of reducing or amplifying the picture displayed in the full screen of the main screen comprises the following steps:

when the picture is displayed in the full screen of the main screen and the auxiliary screen receives an input sliding track leftwards or downwards, the picture displayed in the full screen of the main screen is reduced;

or when the picture is displayed in the full screen of the main screen and the auxiliary screen receives the input sliding track to the right or upwards, the picture displayed in the full screen of the main screen is amplified.

5. The method of claim 1, further comprising:

when the picture is displayed in the full screen of the main screen, monitoring that one point on the picture is clicked, and monitoring that the auxiliary screen receives a third input instruction, taking the clicked point of the picture displayed in the full screen of the main screen as a base point, and carrying out reduction or amplification operation on the picture displayed in the full screen of the main screen;

when the picture is displayed in the full screen of the main screen, a point on the picture is monitored to be clicked, and the auxiliary screen is monitored to receive a third input instruction, the point on the picture displayed in the full screen of the main screen, which is clicked, is taken as a base point, and the picture displayed in the full screen of the main screen is reduced or enlarged, wherein the operation comprises the following steps:

when the picture is displayed in the full screen of the main screen, monitoring that one point on the picture is clicked, and monitoring that the auxiliary screen receives an input left or down sliding track, taking the clicked point of the picture displayed in the full screen of the main screen as a base point, and carrying out reduction operation on the picture displayed in the full screen of the main screen;

or when the picture is displayed in the full screen of the main screen, a point on the picture is monitored to be clicked, and the auxiliary screen is monitored to receive the input sliding track which moves to the right or upwards, the point on the picture displayed in the full screen of the main screen is taken as a base point, and the picture displayed in the full screen of the main screen is amplified.

6. The method according to claim 4 or 5, characterized in that the method further comprises:

if the picture is displayed in the full screen of the main screen, monitoring that the auxiliary screen receives input and presses the auxiliary screen for a preset time, and monitoring that the auxiliary screen receives a fourth input instruction, controlling the picture displayed in the full screen of the main screen to rotate;

if the picture is displayed in the full screen of the main screen, the auxiliary screen is monitored to receive input for a preset time, and the auxiliary screen is monitored to receive a fourth input instruction, so that the picture displayed in the full screen of the main screen is controlled to rotate, and the method comprises the following steps:

if the picture is displayed in the full screen of the main screen, monitoring that the auxiliary screen receives input long time pressing the auxiliary screen for preset time, and monitoring that the auxiliary screen receives input sliding tracks leftwards or downwards, controlling the picture displayed in the full screen of the main screen to rotate anticlockwise;

if the picture is displayed in the full screen of the main screen, the auxiliary screen is monitored to receive input for a preset time, and the auxiliary screen is monitored to receive an input right or upward sliding track, so that the picture displayed in the full screen of the main screen is controlled to rotate clockwise.

7. A mobile terminal, characterized in that the mobile terminal comprises: a processor, a memory, a communication circuit, a display, and an input device, the display including a primary screen and a secondary screen, the processor being respectively coupled to the memory, the communication circuit, the primary and secondary screens of the display, and the input device, the processor, the memory, the communication circuit, the primary and secondary screens of the display, and the input device being operable to implement the steps of the method of any of claims 1-6.

8. An apparatus having a storage function, on which program data are stored, characterized in that the program data realize the steps in the method of any of claims 1-6 when executed by a processor.

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