CN108259677B - Terminal, display control method and device thereof, and computer storage medium - Google Patents

Abstract

The embodiment of the invention provides a terminal and a display control method and device thereof and a computer storage medium, wherein for a terminal with a first display screen with a screen ratio of 100%, the corresponding relation between the display mode of the first display screen and a display trigger condition can be set, wherein the display mode at least comprises a full-screen display mode and a small-screen display mode; and detecting a display trigger condition of the first display screen in the working process of the terminal, matching a current target display mode of the first display screen according to the detected display trigger condition and the corresponding relation between a preset display mode and the display trigger condition, and further performing display control on the first display screen according to the obtained target display mode. The embodiment of the invention can realize the control and switching of the full-screen multi-display mode, so that a user can enjoy the extreme experience brought by the full-screen, and simultaneously can select the proper full-screen display mode according to the current requirement, thereby improving the intelligence of the full-screen display control and the satisfaction degree of the user experience.

Description

Terminal, display control method and device thereof, and computer storage medium

Technical Field

The present invention relates to the field of electronic technologies, and in particular, to a terminal, a display control method and apparatus thereof, and a computer storage medium.

Background

In order to obtain an extremely good visual experience and operation experience in some application scenarios, the demand of users for full-screen terminals is more and more urgent. Each terminal manufacturer gradually releases a terminal with an ultra-high screen ratio, so that a user can have visual experience and operation of a full screen with a screen ratio of 100%. However, when the full screen of the terminal is used for displaying, in order to improve the visual experience as much as possible, each terminal manufacturer displays all display areas of the full screen as much as possible, the display mode is single, and the satisfaction degree of the user experience is poor. For example, in some application scenarios, all display areas of the full-screen are used and are necessarily what the user wants, and when the user wants to experience a normal display mode of the non-full-screen, which cannot be realized, for example, when the user uses some interfaces that are prone to misoperation, the user may not want to display the display interface through all display areas of the full-screen, because such a display mode may increase the probability of misoperation.

Disclosure of Invention

The embodiment of the invention provides a terminal, a display control method and a display control device of the terminal, and a computer storage medium, and mainly solves the technical problems that: the problem of current comprehensive screen display mode singleness is solved.

In order to solve the foregoing technical problem, an embodiment of the present invention provides a display control method for a terminal, where the terminal includes a first display screen with a screen ratio of 100%, and the method includes:

detecting a display trigger condition of the first display screen;

matching a current target display mode of the first display screen according to the detected display trigger condition and the corresponding relation between the preset display mode and the display trigger condition;

performing display control on the first display screen according to the target display mode;

the corresponding relation between the display mode and the display trigger condition comprises the following steps: a full screen display mode and a full screen display triggering condition corresponding to the full screen display mode, and a small screen display mode and a small screen display triggering condition corresponding to the small screen display mode; in the full-screen display mode, the whole area of the first display screen is used as a display area of the content to be displayed, and in the small-screen display mode, a partial area of the first display screen is used as the display area of the content to be displayed.

An embodiment of the present invention further provides a display control apparatus for a terminal, where the terminal includes a first display screen with a screen ratio of 100%, and the display control apparatus includes:

the detection module is used for detecting a display triggering condition of the first display screen;

the matching module is used for matching a current target display mode of the first display screen according to the detected display trigger condition and the corresponding relation between the preset display mode and the display trigger condition;

the control module is used for carrying out display control on the first display screen according to the target display mode;

the corresponding relation between the display mode and the display trigger condition comprises the following steps: a full screen display mode and a full screen display triggering condition corresponding to the full screen display mode, and a small screen display mode and a small screen display triggering condition corresponding to the small screen display mode; in the full-screen display mode, the whole area of the first display screen is used as a display area of the content to be displayed, and in the small-screen display mode, a partial area of the first display screen is used as the display area of the content to be displayed.

The embodiment of the invention also provides a terminal, which comprises a processor, a memory, a communication bus and a first display screen accounting for 100 percent of the screen;

the communication bus is used for realizing connection communication between the processor and the memory and between the processor and the first display screen;

the processor is configured to execute one or more programs stored in the memory to implement the steps of the display control method of the terminal as described above.

An embodiment of the present invention further provides a computer storage medium, where the computer storage medium stores one or more first programs, and the one or more first programs are executed by one or more processors to implement the steps of the display control method of the terminal as described above.

The invention has the beneficial effects that:

according to the terminal and the display control method, the display control device and the computer storage medium thereof provided by the embodiment of the invention, for the terminal with the first display screen with the screen ratio of 100%, the corresponding relation between the display mode of the first display screen and the display triggering condition can be set, wherein the display mode at least comprises a full-screen display mode and a small-screen display mode; detecting a display trigger condition of the first display screen in the working process of the terminal, matching a current target display mode of the first display screen according to the detected display trigger condition and the corresponding relation between a preset display mode and the display trigger condition, and further performing display control on the first display screen according to the obtained target display mode; for example, when the matched target display mode is the full-screen display mode, the whole area of the first display screen is used as the display area of the content to be displayed (i.e. full-screen display), and when the matched target display mode is the small-screen display mode, a partial area of the first display screen is used as the display area of the content to be displayed (i.e. non-full-screen display); the embodiment of the invention can realize the control and switching of the full-screen multi-display mode, so that a user can enjoy the extreme experience brought by the full-screen, and simultaneously can select the proper full-screen display mode according to the current requirement, thereby improving the intelligence of the full-screen display control and the satisfaction degree of the user experience.

Additional features and corresponding advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is a schematic flow chart of a display control method according to a first embodiment of the present invention;

fig. 2 is a schematic diagram of a single-full-screen terminal according to a second embodiment of the present invention;

fig. 3 is a schematic diagram of another single-full-screen terminal according to a second embodiment of the present invention;

fig. 4 is a schematic diagram of a dual-full-screen terminal according to a second embodiment of the present invention;

fig. 5 is a schematic view of the terminal shown in fig. 2 folded;

fig. 6 is another folded view of the terminal shown in fig. 2;

FIG. 7 is a second display screen configuration view of the terminal shown in FIG. 2;

fig. 8 is a schematic view of the internal connection of the terminal shown in fig. 2;

fig. 9 is a display diagram of the terminal shown in fig. 3 in a dual-screen display mode;

FIG. 10 is a schematic view of the terminal shown in FIG. 3 in a mirror display mode;

FIG. 11 is a schematic diagram of the terminal shown in FIG. 3 in an extended display mode;

FIG. 12 is a schematic display diagram of the terminal shown in FIG. 2 in a single-screen mode with a first display screen;

FIG. 13 is a schematic display diagram of the terminal shown in FIG. 2 in a second display screen of the single-screen mode;

FIG. 14 is another display diagram of the terminal shown in FIG. 2 in a single-screen mode with a second display screen;

fig. 15 is a schematic view of an effective display area of a first display screen according to a third embodiment of the present invention;

fig. 16 is a schematic view of an effective display area of a first display screen according to a third embodiment of the present invention;

fig. 17 is a schematic view of a main display area of a first display screen according to a third embodiment of the present invention;

fig. 18 is a schematic view of a main display area of another first display screen according to a third embodiment of the present invention;

fig. 19 is a display schematic diagram of a first display screen in a small-screen display mode according to a third embodiment of the present invention;

fig. 20 is a flowchart illustrating a third embodiment of determining an effective display area according to the first display screen display mode;

fig. 21 is a schematic flow chart illustrating setting of an effective display area of a first display screen according to a third embodiment of the present invention;

fig. 22 is a schematic structural diagram of a display control apparatus according to a fourth embodiment of the present invention;

fig. 23 is a schematic structural diagram of a terminal according to a fourth embodiment of the present invention;

fig. 24 is a schematic diagram of a software framework system of a terminal according to a fourth embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention are described in detail below with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The first embodiment is as follows:

the terminal in this embodiment includes a first display screen with a screen ratio of 100%, and the terminal may have only one display screen, that is, the first display screen, and may also include other display screens. For example, the front and the back of the terminal are both provided with display screens, the front is a first display screen, and the screen proportion of the display screen on the back can be 100% or less than 100%; of course, the first display screen may be on the back side, and the screen ratio of the front display screen may be 100% or less than 100%. When the terminal in this embodiment is provided with two display screens, the two display screens may be disposed on the front and back of one housing, or may be disposed on two housings that can rotate relative to each other.

Referring to fig. 1, the display control method of the terminal provided in this embodiment includes:

s101: the method comprises the steps of detecting a display trigger condition of a first display screen of the terminal.

S102: and matching the current target display mode of the first display screen according to the detected display trigger condition and the corresponding relation between the preset display mode and the display trigger condition.

The corresponding relationship between the display mode and the display trigger condition in this embodiment may be preset, and optionally, the corresponding relationship may also support dynamic update. The correspondence between the display mode and the display trigger condition in this embodiment at least includes: the full-screen display mode and the corresponding full-screen display trigger condition thereof, and the small-screen display mode and the corresponding small-screen display trigger condition thereof are shown in table 1 below.

TABLE 1

Full screen display mode	Full screen display trigger condition
		Small screen display mode	Small screen display trigger condition

In this embodiment, in the full-screen display mode, the entire area of the first display screen of the terminal is used as the display area of the content to be displayed, that is, the content to be displayed is displayed in a full screen. In the small-screen display mode, a partial area of a first display screen of the terminal serves as a display area of the content to be displayed, namely the content to be displayed is displayed through the partial area of the first display screen, the content to be displayed is specifically displayed through which areas of the first display screen are displayed, and the setting of other areas of the first display screen can be flexibly set according to a specific application scene.

In addition, in some examples, whether the first display screen of the terminal is in the vertical screen state or the horizontal screen state currently may be set, as long as the full-screen display mode is adopted, the whole area of the first display screen is used as the display area of the content to be displayed, and as long as the small-screen display mode is adopted, the partial area of the first display screen of the terminal is used as the display area of the content to be displayed.

S103: and performing display control on a first display screen of the terminal according to the target display mode.

In this embodiment, the matched target display mode may be a full-screen display mode or a small-screen display mode. In the process of performing display control on the first display screen of the terminal according to the target display mode in this embodiment, when the first display screen is not currently started, the first display screen may be directly started and controlled to perform display according to the target display mode. When the first display screen is started currently, the display mode of the first display screen can be directly set as the target display mode, or whether the currently adopted display mode of the first display screen is the same as the target display mode is judged firstly, if not, the display mode of the first display screen is set as the target display mode, the switching of the display modes is completed, and if the currently adopted display mode of the first display screen is the same as the target display mode, the display mode of the first display screen is not changed.

For example, assuming that the currently matched target display mode is a full-screen display mode, if the current first display screen is not started, directly starting the first display screen and controlling the first display screen to display according to the full-screen mode, if the current first display screen is already started, judging whether the current first display screen adopts the full-screen display mode, and if so, not updating the display mode of the first display screen; otherwise, the display mode of the first display screen is switched to a full-screen display mode. Correspondingly, when the target display mode is the small screen display mode, the control process is similar, and details are not repeated here.

It should be understood that the correspondence between the display modes and the display trigger conditions in the present embodiment is not limited to the display modes and the trigger conditions illustrated in table 1, and the display modes and the trigger conditions corresponding to the display modes in the present embodiment may support user-defined and dynamic update.

In addition, it should be understood that the trigger condition corresponding to each display mode in this embodiment can be flexibly set, and the trigger condition corresponding to one display mode may be one or a set of a plurality of display modes, and as long as any one of the display modes is detected, it is determined that the display mode corresponding to the trigger is satisfied. For example, in an example of the present embodiment, the full-screen display trigger condition corresponding to the full-screen display mode may include at least one of the following conditions:

receiving a full screen display instruction, wherein the full screen display instruction can be manually issued by a user or automatically generated and issued after detecting that a set condition is met;

the current application to which the content to be displayed in the first display screen belongs is one of a preset full-screen display application set; for example, a full-screen display application set can be preset, and the applications in the set can be various applications suitable for full-screen display and can support user-defined setting and dynamic updating; then, when it is detected that the content to be displayed in the first display screen currently belongs to the content of one application in the set, it can be determined that the first display screen currently needs to adopt a full-screen display mode.

In an example of the embodiment, the small-screen display trigger condition corresponding to the small-screen display mode may include at least one of the following conditions:

receiving a small-screen display instruction, wherein the small-screen display instruction can be manually issued by a user or automatically generated and issued after a preset condition is detected to be met;

the current application to which the content to be displayed in the first display screen belongs is one of a preset small-screen display application set; the applications in the small-screen display application set can be various applications suitable for small-screen display (for example, but not limited to, various applications with unmatched interface resolution and full-screen display resolution, various applications with misoperation easily occurring during full-screen display, and various applications selected by a user in a user-defined mode), and user-defined setting and dynamic updating can be supported; then, when it is detected that the content to be displayed in the first display screen currently belongs to the content of one application in the set, it can be determined that the first display screen currently needs to adopt a small-screen display mode.

In this embodiment, when the first display screen of the terminal is displayed in the small-screen display mode, performing display control on the first display screen according to the small-screen display mode includes at least one of the following modes:

the first method is as follows: the size of the effective display area of the first display screen is set to be a preset small screen display area, and other areas except the effective display area of the first display screen are set not to display information. For example, if the resolution of the first display screen is 2160x1080 and the size of the preset small screen display area is 1920x1080, at this time, the display area with the size of 1920x1080 resolution in the first display screen is set as an effective display area, the display area with the size of the remaining 240x1080 resolution in the first display screen is set as non-display information, and at this time, the part of pixels can be set in a sleep state, so that energy consumption is reduced. In addition, in this embodiment, it is also possible to flexibly set which position of the 1920 × 1080 resolution display area in the first display screen is set as the effective display area.

The second method comprises the following steps: the first display screen is divided into a main display area and a sub display area, the main display area is used for displaying the content to be displayed, and the sub display area is used for displaying the auxiliary information. For example, assuming that the resolution of the first display screen is 2160x1080 and the preset size of the main screen display area is 1920x1080, at this time, the display area with the size of 1920x1080 resolution in the first display screen is set as the main display area, and the display area with the size of 240x1080 resolution remaining in the first display screen is set as the sub display area, where the auxiliary information displayed by the sub display area includes, but is not limited to, status bar information (e.g., signal strength, system time, terminal power information, etc.), instant notification information (e.g., dynamic information notifications of various social applications), and button bar information (e.g., shortcut keys of the terminal menu interface, various shortcut keys of the application interface, etc.). In this embodiment, the specific positions of the main display area and the sub display area in the first display screen can be flexibly set.

As can be seen from the above analysis, the size and the position of the effective display area or the main display area in the first display screen in this embodiment can be flexibly set, for example, can be set according to the user's definition, and can also be set according to statistical user habits. When the terminal comprises a plurality of display screens, the terminal can be flexibly set according to the cooperation relationship between the first display screen and other display screens of the terminal.

The display control method provided by the embodiment can realize control and switching of multiple display modes of the full screen of the terminal aiming at the terminal with the full screen, so that a user can enjoy the extreme experience brought by the full screen and select a proper display mode of the full screen according to the current requirement, and the intelligence of full screen display control and the satisfaction degree of user experience are improved.

Example two:

for convenience of understanding, the present embodiment is described by taking a terminal including two display screens as an example, where the terminal includes a first housing and a second housing that are connected in a relatively rotating manner, and a first display screen and a second display screen that are respectively disposed on the front surface of the first housing and the front surface of the second housing. In this embodiment, the first housing and the second housing can be rotatably connected through a rotating connection member, that is, the first housing and the second housing can rotate relatively. It should be understood that the angle of relative rotation between the first housing and the second housing in this embodiment can be flexibly set according to actual requirements, for example, the angle of relative rotation can be set to 0 ° to 180 °, 0 ° to 270 °, even 0 ° to 360 °, and so on. In this embodiment, the screen ratio of at least one of the first display screen and the second display screen included in the terminal is 100%, that is, the terminal provided in this embodiment includes at least one full-screen with a screen ratio of 100%. Because the terminal that this embodiment provided includes first display screen and the second display screen that is located first casing and second casing, therefore when the terminal need set up the camera subassembly, can set up the camera subassembly in the front of one of them in first casing and second casing, then can not set up the camera subassembly (the camera subassembly can be single camera, two cameras set up three more than cameras etc.) in another casing front, thereby can set up the display screen that the screen accounts for 100% in this another casing front, when need not set up the camera subassembly, then still can realize setting up the display screen that the screen accounts for 100% in two casing fronts.

For example, referring to fig. 2, an example of the terminal includes a second housing 11 and a first housing 12, and a second display 111 and a first display 121 respectively disposed on the front surfaces of the second housing 11 and the first housing 12, wherein the second housing 11 and the first housing 12 are rotatably connected by a rotating connector 13. The state shown in fig. 2 is a state in which the second housing 11 and the first housing 12 are relatively rotated to an included angle of 180 °, and this embodiment may be referred to as a fully-extended state. The terminal shown in fig. 2 further includes a camera assembly 112, the camera assembly 112 is disposed on the front surface of the second housing 11, the screen proportion of the second display screen 111 on the front surface of the second housing is less than 100%, but the screen proportion of the first display screen 121 on the front surface of the first housing is 100%, that is, the first display screen 121 can be set as a strictly full-screen. In addition, in the present example, the earphone 114 and the light sensor 113 are also disposed on the front surface of the second housing 11, but it should be understood that the earphone 114 and the light sensor 113 in the present example may also be disposed directly under the screen without occupying additional space of the display screen. For example, the earpiece may be implemented by using a cantilever beam type piezoelectric ceramic acoustic system disposed under the screen or an under-screen bone conduction technology, and the like, in fig. 2, a key 115 is further disposed on the front surface 11 of the second housing, and the key 115 is a solid key, which may be a HOME mode indicator (HOME mode indicator) function key or other function keys. And it should be understood that the keys 115 may also be implemented as virtual keys without occupying space on the display screen. It should be understood that the first housing 12 may also be attached to the left side of the second housing 11 in fig. 2.

For another example, referring to the terminal shown in fig. 3, the terminal includes a first casing 21 and a second casing 22, and a first display screen 211 and a second display screen 221 respectively disposed on the front surfaces of the first casing 21 and the second casing 22, wherein the first casing 21 and the second casing 22 are rotatably connected through a rotating connector 23. Fig. 3 shows a state in which the first housing 21 and the second housing 22 are relatively rotated to a state in which the angle therebetween is 180 °. The terminal shown in fig. 3 further includes a camera assembly 222, the camera assembly 222 is disposed on the front surface of the second casing 22, the screen occupation ratio of the second display screen 221 on the front surface of the second casing is less than 100%, but the screen occupation ratio of the first display screen 211 on the front surface of the first casing is 100%, that is, the first display screen can be set as a strictly full-screen. In addition, in the present example, an earpiece, a light sensor, a distance sensor, and the like may also be provided within the second housing 22, and may be provided under the screen using various under-screen setting techniques. It should be understood that at least one of an earpiece, a light sensor, a distance sensor, etc. may also be disposed within the first housing 21 below the first display screen 211. It should be understood that the first housing 21 may also be attached to the right side of the second housing 22 in fig. 3.

For another example, referring to the terminal shown in fig. 4, the terminal includes a first housing 31 and a second housing 32, and a first display 311 and a second display 321 respectively disposed on the front surfaces of the first housing 31 and the second housing 32, wherein the first housing 31 and the second housing 32 are rotatably connected through a rotating connector 33. Fig. 4 shows a state in which the first housing 31 and the second housing 32 are relatively rotated to have an angle of 180 °. The terminal shown in fig. 4 does not have a camera assembly on the front surfaces of the first housing 31 and the second housing 32, or the camera assembly can be arranged by using an under-screen technology without occupying the space of the display screen, so that the screen occupation ratio of the first display screen 311 on the front surface of the first housing 31 and the screen occupation ratio of the second display screen 321 on the front surface of the second housing 32 in fig. 4 can both be set to 100%, and at this time, the terminal includes a full-face display screen with two screen occupation ratios of 100%.

It should be understood that the positions and manners of disposing the various components shown in fig. 2-4 are merely exemplary for easy understanding, and are not limited to those shown in fig. 2-4, for example, the camera head assembly shown in fig. 2 may be disposed at the lower end of the front surface of the second housing in addition to the upper end of the front surface of the second housing. In addition, in this embodiment, a camera assembly may be selectively disposed on the back of the first housing and/or the back of the second housing, and may be flexibly set according to an actual application scenario.

It should be understood that the shape, size, material, color, etc. of the first casing and the second casing in this embodiment may be the same or different. The first and second housings shown in fig. 2-4 are cooperatively shaped and sized. In addition, it should be understood that various electrical components of the terminal in the present embodiment may be disposed in only one housing, or may be disposed in both the first housing and the second housing. For example, in one example, a main board is disposed in the first housing, and a processor is disposed on the main board, the processor being connected to the first display screen and the second display screen, and a power management circuit is also disposed, the power management circuit also being connected to the first display screen and the second display screen. Of course, the main board in this embodiment may also be disposed in the second housing, or a portion of the main board may be disposed in the first housing and a portion of the main board may be disposed in the second housing. When a camera assembly is provided on the front surface of the first housing or the front surface of the second housing, the camera assembly is also connected to the processor and the power management circuit.

As shown in the above analysis, in this embodiment, the rotation angle of the first housing and the second housing through the rotation connecting member can be flexibly set. For example, in an example, the first housing and the second housing may be configured to rotate to a first state (also referred to as a fully-unfolded state), where an included angle between the first housing and the second housing is 180 °, and the first display screen and the second display screen are located on the same plane, as shown in fig. 2 to 4, where the first display screen and the second display screen may be combined into a large display screen or may be used separately; of course, in the first state, the first display screen and the second display screen may not be located on the same plane. The first shell and the second shell can rotate to a second state, at the moment, the included angle between the first shell and the second shell is 0 degree (also called as a folding state), and the first display screen and the second display screen are overlapped back to form a double-sided screen terminal. The following description will be given taking the terminal illustrated in fig. 2 as an example. Referring to fig. 5 and 6, fig. 5 is a schematic view of the terminal shown in fig. 2 when the second housing 11 and the first housing 12 are in the second state and the second display 111 faces upward; fig. 6 is a schematic diagram of the terminal shown in fig. 2 when the second housing 11 and the first housing 12 are in the second state and the first display screen 121 faces upward. In one example, the first housing and the second housing can be flexibly switched between a fully unfolded state, a folded state and an intermediate state between the two states, and the switching can be realized manually or automatically by setting a trigger condition.

The rotating connecting pieces in the embodiment can be various rotating shaft connecting pieces, various hinge connecting pieces or various composite connecting pieces combining the rotating shaft connecting pieces and the hinge connecting pieces.

In this embodiment, the first display screen may be a touch display screen, but it should be understood that it may also be other types of display screens. The structure of the first display screen is described below with a touch display screen as an example. The terminal comprises a first touch control induction panel layer and a first display panel layer which are sequentially arranged from top to bottom, and further comprises a first touch control induction panel layer control circuit and a first display panel layer control circuit which are positioned in a first shell and are arranged below the first display panel layer, wherein the first touch control induction panel layer control circuit is connected with the first touch control induction panel layer and a processor, and the first display panel layer control circuit is connected with the first display panel layer and the processor. Of course, the first display screen in this embodiment may further include a first transparent display protection layer (for example, a transparent glass cover plate layer) disposed on the first touch sensing panel layer.

Correspondingly, the second display screen in this embodiment may also be a touch display screen or another type of display screen, and the structure of the second display screen is still described below by taking the touch display screen as an example, where the second display screen includes a second touch sensing panel layer and a second display panel layer that are sequentially arranged from top to bottom, the terminal further includes a second touch sensing panel layer control circuit and a second display panel layer control circuit that are arranged in the second housing and located below the second display panel layer, the second touch sensing panel layer control circuit is connected with the second touch sensing panel layer and the processor, and the second display panel layer control circuit is connected with the second display panel layer and the processor. It should be understood that the second touch sensing panel layer control circuit and the second display panel layer control circuit may also be disposed in the first housing.

The touch sensing panel layer control circuit and the display panel layer control circuit in this embodiment can be implemented by integrated circuits.

The terminal in this embodiment further includes a battery assembly for supplying power, and it should be understood that the terminal in this embodiment may be powered by a single battery, and in this case, the battery assembly may include only one battery, and the battery may be disposed in the first housing or may be disposed in the second housing. The terminal in this embodiment may also be powered by multiple batteries, and at this time, all the batteries may be disposed in the first casing or the second casing, or the batteries may be divided into a first battery pack and a second battery pack, which are disposed in the first casing and the second casing, respectively.

For ease of understanding, the following description will be made by taking the terminal shown in fig. 2 as an example. It should be understood that the arrangement of the terminals illustrated in fig. 2-4 may be adapted based on that shown in fig. 2. Referring to fig. 7, the first casing rear case 123, the electronic device installation region 124 and the battery pack installation region 125 located in the same layer, the first display panel layer 1213, the first touch sensing panel layer 1212, and the first transparent display protection layer 1211 are sequentially disposed from bottom to top. The first display panel layer 1213 (including but not limited to an LCD display panel layer) and the first touch sensing panel layer 1212 may be two independent Oncell solutions, or an Incell solution. The first touch sensing panel layer control circuit and the first display panel layer control circuit may be disposed in the electronic device setting area 124, the first battery pack may be disposed in the battery pack setting area 125, and a power management circuit (which may be implemented by various power management integrated circuits) may be disposed in the electronic device setting area 124 or the battery pack setting area 125.

In this embodiment, a sensor assembly may be further disposed in the first housing, and the sensor assembly is connected to the processor and the power management circuit, and the sensor assembly in this embodiment includes, but is not limited to, at least one of an acceleration sensor, a gyroscope sensor, a temperature sensor, a light sensor, and a distance sensor. And the sensor assembly described above may be disposed in the electronics disposition region 124 shown in fig. 7 in this embodiment. Of course, in this embodiment, all or part of the sensor assembly may be disposed in the second housing.

For ease of understanding, the internal connection relationship of the electronic device is still illustrated below by taking the terminal device shown in fig. 2 as an example.

Referring to fig. 8, a processor and a power management chip are disposed in the second housing 11, and in fig. 8, the second housing 11 is used as a main housing of a terminal, and other electronic components, a Flexible Printed Circuit (FPC), an antenna, a sound cavity, and the like may be disposed inside the second housing 11. First display screen 121 accounts for 100% as the screen and fully screens, including first touch-control sensing panel layer and first display panel layer, the hardware of first touch-control sensing panel layer and first display panel layer is walked the line and is passed through FPC and rotate the treater (CPU) that the connecting piece is connected to the mainboard. The FPC trace passing through the rotating connector includes a power line, a control line, and a data line.

The power line (see a in fig. 8) is used for supplying power to the first touch sensing panel layer, the first touch sensing panel layer control circuit of the first display panel layer, and the first display panel layer control circuit.

The control lines (see fig. 8B) are used to control the states and power-on timings of the first touch sensing panel layer control circuit and the first display panel layer control circuit, and it is more common to use different General Purpose Input/Output (GPIO) ports as different control signals, and the control signals are used to control reset signals, power-on/power-off timings, and interrupt signals of the first touch sensing panel layer control circuit and the first display panel layer control circuit.

The data line (see C in fig. 8) in this embodiment may include two types: an I2C (Inter-Integrated Circuit) bus and an MIPI (Mobile Industry Processor Interface) bus, where the I2C bus is used for data read-write interaction between a Processor on the motherboard of the second display screen 111 and the first touch sensing panel layer control Circuit of the first display screen 121, so as to control the touch sensing panel and read the touch coordinate point. The MIPI bus is used for data read-write interaction between the processor on the second display screen 111 motherboard and the first display panel layer control circuit of the first display screen 121, and display refreshing is performed.

It should be understood that the data bus in this embodiment is not limited to the above-mentioned example type, for example, the data line between the processor and the first touch sensing panel layer control circuit may also use an SPI (Serial Peripheral Interface) bus in addition to the I2C bus, and the data line between the processor and the first display panel layer control circuit may also use an LVDS (Low-Voltage Differential Signaling), RGB, or the like bus in addition to the MIPI bus.

It is thus clear that the terminal that this embodiment provided has first display screen and second display screen, and first display screen and second display screen can expand completely and be located the coplanar, also can fold and form two-sided screen terminal. It should be understood that the first display screen and the second display screen in this embodiment may be ordinary display screens or flexible display screens. And the terminal in this embodiment may further include a third display screen, which is a flexible display screen and is located on the front side of the rotating connecting member, and the first display screen and the second display screen are connected seamlessly, and at this time, the first display screen and the second display screen may also be flexible display screens.

The terminal with at least one screen with the 100% ratio provided by this embodiment has two screens, namely, the first display screen and the second display screen, so that it can be flexibly set that the terminal uses one display screen for display (this embodiment is referred to as a single-screen mode) or uses the first display screen and the second display screen for display (this embodiment is referred to as a dual-screen mode). In the single screen mode, the terminal can use the first display screen to display and also can use the second display screen to display. In this embodiment, when the display screen is the first display screen with the screen ratio of 100%, the whole screen display area of the first display screen may be used for displaying (that is, in a full-screen display mode), or a part of the screen display area of the full-screen display screen may be used for displaying (that is, in a small-screen display mode). To facilitate understanding, several illustrative examples are described below.

When the terminal is in the dual-screen mode, the terminal may be in a fully-unfolded state, may also be in a folded state, or may be in any state between the fully-unfolded state and the folded state. When the terminal is in the single-screen mode, the terminal may be in a fully-unfolded state, may be in a folded state, or may be in any state between the fully-unfolded state and the folded state. When the terminal is in the fully-unfolded state and in the dual-screen mode, the display mode of the terminal may be any one of the dual-screen display mode, the mirror image display mode, and the extended display mode, and when the terminal is in the folded state or in any state between the fully-unfolded state and the folded state, the display mode of the terminal may be any one of the dual-screen display mode and the mirror image display mode.

For the convenience of understanding, the following description will be made with reference to the terminal shown in fig. 3, taking a display example when the terminal is in the fully-extended state.

Referring to fig. 9, the terminal is in a dual-screen display mode, and in the dual-screen display mode, the first display screen 211 and the second display screen 221 are independent from each other and display different contents at the same time, where the different contents may be contents corresponding to different applications, or contents corresponding to different interfaces of the same application; two different graphical interfaces of the same application, such as shown in fig. 9, are displayed in two display screens. And it should be understood that the first display screen 211 at this time may adopt a full-screen display mode, and may also adopt a small-screen display mode. The first display 211 shown in fig. 9 is in a full screen display mode.

Referring to fig. 10, the terminal is currently in a mirror display mode in which the first display 211 and the second display 221 are independent of each other while displaying the same content. And it should be understood that the first display screen 211 at this time may also adopt a full-screen display mode or a small-screen display mode. The first display screen 211 shown in fig. 10 adopts a small-screen display mode to form a strict mirror image corresponding to the content displayed in the second display screen 221; at this time, the areas shown as 212 and 213 in the first display screen may not display any content, or may be set to display corresponding content according to a specific application scenario.

Referring to fig. 11, the terminal is currently in the extended display mode; in the extended display mode, the first display screen 211 and the second display screen 221 are combined into a large display screen for displaying, and at this time, the large display screen may display the content of one interface or may display the content of different interfaces in a split screen manner. Fig. 11 shows application icons of a menu interface displayed by the first display screen 211 and the second display screen 221 in combination. And the first display screen 211 at this time may also adopt a full-screen display mode or a small-screen display mode. The first display screen 211 shown in fig. 11 adopts a small screen display mode to be adapted to the content displayed in the second display screen 221 in a coordinated manner, and at this time, the areas shown by 212 and 213 in the first display screen may not display any content, or may be set to display the corresponding content according to a specific application scenario.

Fig. 9-11 are schematic views of the terminal in a fully extended state. For ease of understanding, the following description will be made with reference to a display example in which the terminal is in a folded state, on the basis of the terminal shown in fig. 2.

Referring to fig. 12, the second display screen 111 is shown in a folded state, and is facing upward, and only the second display screen is currently used for displaying.

Referring to fig. 13, the first display screen 121 is folded upward, and only the first display screen 121 is currently used for displaying in a full-screen display mode.

Referring to fig. 14, which shows a folded state in which the first display screen 121 faces upward, and the first display screen 121 is currently used only for displaying in the small-screen display mode, the areas shown in 122 and 123 in the figure may not display any content, or may be set to display corresponding content according to a specific application scenario.

It should be understood that, in the embodiment, in what case the terminal uses the single-screen display, in what case the terminal uses the dual-screen display, in what case the dual-screen display mode, the mirror display mode, and the extended display mode are used, and in what case the full-screen display mode with the screen ratio of 100% is used, in what case the small-screen display mode is used, can be flexibly controlled according to a specific application scenario.

Example three:

in this embodiment, a display control method of the terminal is further exemplified on the basis that the terminal includes a second display screen in addition to the first display screen. It should be understood that the terminal structure shown in this embodiment may be the terminal structure shown in the second embodiment, or may be any other structure that includes a second display screen in addition to the first display screen.

In this embodiment, the triggering condition of the full-screen display mode may include: the terminal is currently in the dual-screen display mode, and as above, in the dual-screen display mode, the first display screen and the second display screen are independent of each other and display different contents at the same time. It should be understood that the trigger condition of the full-screen display mode in this embodiment may also include the full-screen display trigger condition exemplified in the first embodiment, and certainly may not include the full-screen display trigger condition shown in the first embodiment.

In this embodiment, the small-screen display trigger condition may include at least one of the following conditions:

the terminal is currently in a mirror image display mode, and as above, in the mirror image display mode, the first display screen and the second display screen are independent of each other and simultaneously display the same content;

the terminal is currently in an extended display mode, and in the extended display mode, the first display screen and the second display screen are combined into a large display screen for display;

in this embodiment, the trigger condition of the small-screen display mode may also include the small-screen display trigger condition illustrated in the first embodiment, and certainly, the small-screen display trigger condition illustrated in the first embodiment may not be included.

In this embodiment, when the trigger condition includes the trigger condition shown in the first embodiment, an exemplary control procedure is as follows: when the terminal is detected to be in a double-screen display mode, determining that a first display screen needs to adopt a full-screen display mode; in the process of the dual-screen display mode, when a small-screen mode display instruction is detected and/or when the application to which the content to be displayed in the first display screen belongs is detected to be one of a preset full-screen display application set, the first display screen can be forcibly controlled to be switched to the small-screen display mode, even though the terminal is still in the dual-screen display mode at the moment. Correspondingly, when the terminal is detected to be in the mirror image display mode or the extended display mode, determining that the first display screen needs to adopt the small-screen display mode; in the process of the mirror image display mode or the extended display mode, when a full-screen mode display instruction is detected and/or when the application to which the content to be displayed in the first display screen belongs is detected to be one of a preset small-screen display application set, the first display screen can be forcibly controlled to be switched to the full-screen display mode.

The above control procedure is only an exemplary control procedure, and it should be understood that the specific control procedure can be flexibly set according to the requirement.

As shown in the foregoing analysis, in this embodiment, when the matched target display mode is the small-screen display mode, performing display control on the first display screen according to the target display mode includes at least one of the following manners:

the size of the effective display area of the first display screen is set to be the size of a preset small screen display area, and other areas except the effective display area do not display information, so that energy consumption can be saved;

the first display screen is divided into a main display area and a sub display area, the main display area is used for displaying the content to be displayed, and the sub display area is used for displaying the auxiliary information.

In this embodiment, setting the size of the effective display area of the first display screen to the size of the preset small display area includes:

acquiring the size of a small screen display area, wherein the size of the small screen display area can be the same as that of a display area of a second display screen;

taking an area of the small display area size from the upper edge of the first display screen downward as an effective display area, for example, as shown in fig. 15, the areas other than the area indicated by 215 in the first display screen 211 in fig. 15 are all effective display areas; of course, an area of the small screen display area from the lower edge of the first display screen upward may be used as the effective display area.

Or taking the area which is matched with the display area of the second display screen in position and has the size of the small display area on the first display screen as the effective display area. For example, referring to fig. 16, the areas of the first display screen 211 in fig. 16 except for the areas indicated by 216 and 217 are effective display areas, and the effective display areas are the same as the display areas of the second display screen and are matched in position.

In the manner shown in fig. 15 and 16, the pixel points in the area where the content is not needed to be displayed in the first display screen may be set to be in the sleep state, so that power consumption may be reduced.

For example, taking the second display screen as the FHD screen resolution 1920x1080 and the first display screen as the full-screen resolution 2160x1080, when the first display screen is set to the full-screen display mode, the displayed content resolution is 2160x 1080; when the first display screen is set to be in the small-screen display mode, the resolution of displayed content is 1920x1080, and the resolution is consistent with that of the A screen. The control process is described with reference to fig. 20, and includes:

s2001: and acquiring a display mode of the first display screen.

S2002: judging whether the display mode of the first display screen is a full screen display mode, if so, turning to S2003; otherwise, go to S2004.

S2003: the display area size of the first display screen is set to 2160x 1080.

S2004: the display area size of the first display screen is set to 1920x 1080.

In this embodiment, the resolutions of the two screens are 1920x1080(16:9) and 2160x1080 (18:9) combinations, respectively. In other examples, other resolution combinations are possible, such as 1920x1080(16:9) and 2400x1080(20: 9).

The size of the display area of the first display screen is set, and the size is set by sending a control instruction to a first display panel layer control circuit (such as an LCD IC) of the first display screen. An example operation is as follows:

this command defines the page range of the frame memory accessed by the host processor.

SP { N:0} and EP { N:0} value area transferred write _ memory _ start (2ch) is write. No status bit area changed.) when the write memory (2ch) is written, the reference values SP { N:0} and EP { N:0} are prompted, no status bits are changed. The flow chart of the implementation is shown in fig. 21, and the specific setting process is not described herein again.

In this embodiment, the manner of dividing the first display screen into the main display area and the sub display area may include:

the first method is as follows: for example, as shown in fig. 17, the area of the first display screen 211 other than the area shown by 218 in fig. 17 is the main display area, and the area shown by 218 is the sub display area, which can be used to display various auxiliary information, and the sub display area can be set as one display window or multiple display windows. The method can be flexibly set according to specific application requirements. For example, the sub display area 218 below the main display area may be set as a key bar sub display area for displaying virtual keys. Of course, a region of a predetermined display region size from the lower edge of the first display screen upward may be used as the main display region.

The second method comprises the following steps: taking an area which is matched with the display area of the second display screen on the first display screen and has the size of a preset display area as a main display area, and taking other areas of the first display screen as sub display areas; for example, as shown in fig. 18, the other areas of the first display screen 211 in fig. 18 except the areas indicated by 209 and 210 are main display areas, and the main display areas are the same as the display areas of the second display screen in size and are matched in position. The display areas shown at 209 and 210 may then be used as sub-display areas for displaying various auxiliary information. For example, the sub-display area 209 located above the main display area may be set as a status bar sub-display area (at this time, information such as signal strength, electric quantity, and time may be displayed), a notification bar sub-display area (which may be used to display various instant messages), or a multiplexing information sub-display area where status bars and notification bars are displayed in combination (multiplexing mode includes a mode i in which two display windows are set in the sub-display area, one window displays status bar information, and one window displays instant messages, and a mode ii in which the sub-display area is set as a multiplexing display window, when no instant message arrives, status bar information is displayed, when instant message arrives, the display is switched to display of instant messages, and after the display is completed, the display of status bar information is switched back); the sub-display area 210 above the main display area is set as a key bar sub-display area, and the key bar sub-display area can display keys corresponding to the interface on different display interfaces. And displaying a new key in the key bar sub-display area according to specific requirements, for example, adding a full-screen display mode and small-screen display mode switching key and displaying in the key bar sub-display area, and when a user needs to switch, directly issuing a switching instruction through the key.

In this embodiment, performing display control on the first display screen according to the target display mode may further include:

when the terminal is in a mirror image display mode or an extended display mode at present and the first display screen comprises a status bar sub-display area or a multiplexing information sub-display area, displaying the content displayed in the status bar at the upper end of the second display screen display area in the status bar sub-display area or the multiplexing information sub-display area, and/or displaying the content displayed in the key bar at the lower end of the second display screen display area in the key bar sub-display area. The content in the status bar in the second display screen and/or the information in the key bar are transferred to the corresponding sub-display area on the first display screen to be displayed, so that the information can not be displayed on the second display screen any more, and the display area of the second display screen can be effectively increased under the condition of ensuring the completeness of the information.

For example, as shown in the right diagram of fig. 19, in the mirror image display mode or the extended display mode, the content in the status bar and the information in the key bar in the two display screens 221 are transferred to the corresponding sub display areas 209 and 210 on the first display screen 211 for display, and the area in the right second display screen 221 that can be used for displaying the content to be displayed (e.g., pictures, web pages, application interfaces, etc.) is increased relative to the left and right second display screens, and the content displayed in the first display screen 211 and the second display screen 221 can be further more symmetrically coordinated, thereby further improving the satisfaction degree of the user experience.

Example four:

the present embodiment provides a display control apparatus of a terminal, which may be the terminal shown in the above embodiment, and referring to fig. 22, the display control apparatus includes:

the detecting module 2201 is configured to detect a display trigger condition of the first display screen, where the specific detection process is shown in each of the above embodiments and is not described herein again.

A matching module 2202, configured to match a current target display mode of the first display screen according to the detected display trigger condition and a corresponding relationship between a preset display mode and the display trigger condition, where the corresponding relationship between the display mode and the display trigger condition and a specific matching process are shown in the foregoing embodiments, and details are not repeated here

A control module 2203, configured to perform display control on the first display screen according to the target display mode, where a specific control process is shown in each of the above embodiments and is not described herein again.

It should be understood that the functions of the above modules in this embodiment can be implemented by the processor of the terminal where the display control device is located.

The present embodiment also provides a computer storage medium, which stores one or more first programs, which are executed by one or more processors, to implement the steps of the display control method of the terminal according to the above embodiment. Wherein the computer storage medium may be disposed in a terminal.

The embodiment also provides a terminal, as shown in fig. 23, including a processor 2301, a memory 2302, a communication bus 2303 and a first display 2304 with a screen ratio of 100%;

the communication bus 2303 is used to enable connection communication between the processor 2301 and the memory 2302, as well as the first display 2304.

The processor 2301 is used for executing one or more programs stored in the memory 2302 to implement the steps of the display control method of the terminal according to the above embodiments.

Referring to fig. 23, the terminal in this embodiment may further include a power system 2306 (including a battery and a power management chip), a camera 2307, and a sensor 2308 (which may include various sensors) connected to the processor, and may further include various communication modules, a multimedia processing chip, and the like.

Based on the hardware architecture of the terminal shown in fig. 23, this embodiment further provides a software framework system diagram of the terminal shown in fig. 23, which is shown in fig. 24, where the first display screen and the second display screen correspond to the first video memory and the second video memory, respectively, so that flexible control and switching of various modes of the display screen can be flexibly implemented.

It will be apparent to those skilled in the art that the modules or steps of the embodiments of the invention described above may be implemented in a general purpose computing device, they may be centralized on a single computing device or distributed across a network of multiple computing devices, and alternatively, they may be implemented in program code executable by a computing device, such that they may be stored on a computer storage medium (ROM/RAM, magnetic disk, optical disk) and executed by a computing device, and in some cases, the steps shown or described may be performed in an order different than that described herein, or they may be separately fabricated into individual integrated circuit modules, or multiple ones of them may be fabricated into a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.

The foregoing is a more detailed description of embodiments of the present invention, and the present invention is not to be considered limited to such descriptions. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.

Claims (11)

1. A display control method of a terminal including a first display screen having a screen proportion of 100%, the method comprising:

detecting a display trigger condition of the first display screen;

matching a current target display mode of the first display screen according to the detected display trigger condition and the corresponding relation between the preset display mode and the display trigger condition;

performing display control on the first display screen according to the target display mode;

the corresponding relation between the display mode and the display trigger condition comprises the following steps: a full screen display mode and a full screen display triggering condition corresponding to the full screen display mode, and a small screen display mode and a small screen display triggering condition corresponding to the small screen display mode; in the full-screen display mode, the whole area of the first display screen is used as a display area of content to be displayed, and in the small-screen display mode, a partial area of the first display screen is used as a display area of the content to be displayed;

the terminal also comprises a second display screen;

the full-screen display triggering condition comprises the following steps: the terminal is currently in a double-screen display mode; in a double-screen display mode, the first display screen and the second display screen are independent from each other and display different contents at the same time;

the small screen display trigger condition comprises at least one of the following conditions:

the terminal is currently in a mirror image display mode; in a mirror image display mode, the first display screen and the second display screen are independent of each other and display the same content at the same time;

the terminal is currently in an extended display mode; in the extended display mode, the first display screen and the second display screen are combined into a large display screen for displaying.

2. The display control method of the terminal according to claim 1, wherein when the target display mode is a small-screen display mode, the performing display control on the first display screen according to the target display mode includes at least one of the following modes:

setting the size of an effective display area of the first display screen to be a preset small screen display area, wherein other areas except the effective display area do not display information;

the first display screen is divided into a main display area and a sub display area, the main display area is used for displaying the content to be displayed, and the sub display area is used for displaying the auxiliary information.

3. The display control method of the terminal according to claim 2, wherein the setting of the effective display area size of the first display screen to a preset small screen display area size comprises:

acquiring the size of the small screen display area, wherein the size of the small screen display area is the same as that of the display area of the second display screen;

and taking an area with the size of the small screen display area from the upper edge of the first display screen to the lower side as an effective display area, or taking an area which is matched with the display area of the second display screen on the first display screen and has the size of the small screen display area on the first display screen as the effective display area.

4. The display control method of the terminal according to claim 2, wherein the dividing the first display screen into a main display area and a sub display area comprises:

taking an area with a preset display area size from the upper edge of the first display screen to the lower side as a main display area, or taking an area which is matched with the display area of the second display screen in position and has the size of the preset display area on the first display screen as the main display area, and taking other areas of the first display screen as sub display areas;

the size of the preset display area is the same as that of the display area of the second display screen.

5. The display control method of the terminal according to claim 4, wherein when an area of a preset display area size from an upper edge of the first display screen down is taken as a main display area, the sub display area includes: and the key bar sub-display area is positioned below the main display area and is used for displaying the virtual keys.

6. The display control method of the terminal according to claim 4, wherein when the area corresponding to the display area of the second display screen on the first display screen and having a size equal to a preset display area size is taken as a main display area, the sub display area comprises: a status bar sub-display area located above the main display area, a notification bar sub-display area or a multiplexing information sub-display area where the status bar and the notification bar are displayed in combination, and a button bar sub-display area located below the main display area.

7. The display control method of the terminal according to claim 6, wherein the display controlling the first display screen according to the target display mode further comprises:

when the terminal is in a mirror image display mode or an extended display mode at present and the first display screen comprises a status bar sub-display area or a multiplex information sub-display area, displaying the content displayed by the status bar in the second display screen display area in the status bar sub-display area or the multiplex information sub-display area, and/or displaying the content displayed by the key bar in the second display screen display area in the key bar display sub-area.

8. The display control method of the terminal according to any one of claims 1 to 7, wherein the full-screen display trigger condition further includes at least one of the following conditions:

receiving a full screen display instruction;

the application to which the content to be displayed in the first display screen belongs is one of a preset full-screen display application set;

the small screen display trigger condition further comprises at least one of the following conditions:

receiving a small screen display instruction;

and the application to which the content to be displayed in the first display screen belongs is one of a preset small screen display application set.

9. A display control apparatus of a terminal including a first display screen having a screen proportion of 100%, the display control apparatus comprising:

the detection module is used for detecting a display triggering condition of the first display screen;

the matching module is used for matching a current target display mode of the first display screen according to the detected display trigger condition and the corresponding relation between the preset display mode and the display trigger condition;

the control module is used for carrying out display control on the first display screen according to the target display mode;

the corresponding relation between the display mode and the display trigger condition comprises the following steps: a full screen display mode and a full screen display triggering condition corresponding to the full screen display mode, and a small screen display mode and a small screen display triggering condition corresponding to the small screen display mode; in the full-screen display mode, the whole area of the first display screen is used as a display area of content to be displayed, and in the small-screen display mode, a partial area of the first display screen is used as a display area of the content to be displayed;

the terminal also comprises a second display screen;

the full-screen display triggering condition comprises the following steps: the terminal is currently in a double-screen display mode; in a double-screen display mode, the first display screen and the second display screen are independent from each other and display different contents at the same time;

the small screen display trigger condition comprises at least one of the following conditions:

the terminal is currently in a mirror image display mode; in a mirror image display mode, the first display screen and the second display screen are independent of each other and display the same content at the same time;

the terminal is currently in an extended display mode; in the extended display mode, the first display screen and the second display screen are combined into a large display screen for displaying.

10. A terminal comprises a processor, a memory, a communication bus and a first display screen accounting for 100 percent of the screen;

the communication bus is used for realizing connection communication between the processor and the memory and between the processor and the first display screen;

the processor is configured to execute one or more programs stored in the memory to implement the steps of the display control method of the terminal according to any one of claims 1 to 8.

11. A computer storage medium storing one or more first programs, the one or more first programs being executed by one or more processors to implement the steps of the display control method of the terminal according to any one of claims 1 to 8.

Images