CN110427137B - Spotlight display method and device - Google Patents

Abstract

The invention provides a spotlight display method, which comprises the following steps: receiving a light-gathering instruction sent by first equipment, wherein the first equipment can control the movement of a cursor in second equipment; responding to the light-gathering instruction, and creating a light-gathering window body provided with a light-gathering hole; receiving moving direction data of first equipment and position data of a cursor in a current display window in second equipment; and controlling the moving direction and the moving position of the light-gathering window above the current display window according to the moving direction data of the first device and the position data of a cursor in the second device in the current display window. The invention also correspondingly provides a light-gathering display device. When the user selects to use the light-gathering function, the moving direction of the light-gathering window body is controlled through the moving direction of the user when the user uses the first device, so that the movement of the light-gathering window body is consistent with that of the first device. Need not real-time spotlight hole of seting up, avoid the phenomenon of spotlight hole ghost to appear, promote user experience.

Description

Spotlight display method and device

Technical Field

The application relates to the field of human-computer interaction, in particular to a light-gathering display method and device.

Background

With the development of society, intelligent devices frequently appear in people's lives, including multi-touch screens and intelligent writing pens used in cooperation with the multi-touch screens. The multi-point touch screen is widely applied to intelligent education and intelligent meetings. Various documents and teaching materials can be presented for audiences, and the operation and writing are convenient and are very popular with users.

At present, in order to enable a user to generate better use effect and user experience in the process of applying a multi-point touch screen and an intelligent writing pen, more humanized and convenient display functions such as amplification, light condensation and the like are realized through software. The spotlight display function enables a user to highlight a display content that the user wants to pay attention to. The function is realized mainly by arranging a light-gathering window body with the same size as the display window body on the upper layer of the display window body and then arranging light-gathering holes on the light-gathering window body. Then, the light-gathering hole can move on the light-gathering window body along with the movement of the mouse, so that the display window body positioned below the light-gathering hole on the movement path of the light-gathering hole can be displayed through the light-gathering hole. The existing realization process needs to set a light-gathering hole on a light-gathering window body in real time along with the movement of a mouse, needs a certain processing speed, and easily causes the phenomenon of light-gathering hole ghost, thereby influencing the normal use of a user.

Disclosure of Invention

In order to solve one of the above technical problems, the present invention provides a method and an apparatus for displaying a condensed light.

A first aspect of an embodiment of the present invention provides a light condensing display method, where the method includes:

receiving a light-gathering instruction sent by first equipment, wherein the first equipment can control the movement of a cursor in second equipment;

responding to the light-gathering instruction, creating a light-gathering window body with a light-gathering hole, wherein the light-gathering window body is laid above a current display window body of the second equipment, so that a local area display window body positioned below the light-gathering hole in the current display window body is displayed through the light-gathering hole; the center of the light-gathering hole is the position of a cursor in the second device in the current display window, and the distance between the edge of the light-gathering hole and the center of the light-gathering hole is a preset distance;

receiving moving direction data of first equipment and position data of a cursor in a current display window in second equipment;

and controlling the moving direction and the moving position of the light-gathering window above the current display window according to the moving direction data of the first device and the position data of a cursor in the second device in the current display window.

Preferably, the process of creating the light condensing window body with the light condensing hole includes:

laying a main window body provided with a light-gathering hole above the current display window body of the second equipment;

and one or more secondary frames surround the main frame, and the main frame and the one or more secondary frames form the light gathering frame.

Preferably, the process of creating the light condensing window body with the light condensing hole includes:

the method comprises the steps of creating a light-gathering window body with certain opacity and provided with light-gathering holes, and laying the light-gathering window body above a current display window body of the second device, so that the display brightness of a local area display window body displayed through the light-gathering holes is higher than that of other area display window bodies covered by the light-gathering window body in the current display window body, and the display brightness of the other area display window bodies covered by the light-gathering window body in the current display window body is not zero.

Preferably, the method further comprises:

receiving a closing instruction sent by first equipment;

responding to the closing instruction, and gradually reducing the opacity of the light gathering window body within a preset time range until the opacity of the light gathering window body reaches a preset value;

the light-gathering window is eliminated.

Preferably, the method further comprises:

hiding a cursor in a current display window of the second equipment while creating a light-gathering window with a light-gathering hole;

and displaying the cursor in the current display window of the second device while canceling the light-gathering window.

A second aspect of embodiments of the present invention provides a spotlight display device, the device comprising a processor configured with processor-executable operating instructions to perform operations including:

receiving a light-gathering instruction sent by first equipment, wherein the first equipment can control the movement of a cursor in second equipment;

responding to the light-gathering instruction, creating a light-gathering window body with a light-gathering hole, wherein the light-gathering window body is laid above a current display window body of the second equipment, so that a local area display window body positioned below the light-gathering hole in the current display window body is displayed through the light-gathering hole; the center of the light-gathering hole is the position of a cursor in the second device in the current display window, and the distance between the edge of the light-gathering hole and the center of the light-gathering hole is a preset distance;

receiving moving direction data of first equipment and position data of a cursor in a current display window in second equipment;

and controlling the moving direction and the moving position of the light-gathering window above the current display window according to the moving direction data of the first device and the position data of a cursor in the second device in the current display window.

Preferably, the processor is configured with processor-executable operating instructions to perform the following operations:

laying a main window body provided with a light-gathering hole above the current display window body of the second equipment;

and one or more secondary frames surround the main frame, and the main frame and the one or more secondary frames form the light gathering frame.

Preferably, the processor is configured with processor-executable operating instructions to perform the following operations:

the method comprises the steps of creating a light-gathering window body with certain opacity and provided with light-gathering holes, and laying the light-gathering window body above a current display window body of the second device, so that the display brightness of a local area display window body displayed through the light-gathering holes is higher than that of other area display window bodies covered by the light-gathering window body in the current display window body, and the display brightness of the other area display window bodies covered by the light-gathering window body in the current display window body is not zero.

Preferably, the processor is configured with processor-executable operating instructions to perform the following operations:

receiving a closing instruction sent by first equipment;

responding to the closing instruction, and gradually reducing the opacity of the light gathering window body within a preset time range until the opacity of the light gathering window body reaches a preset value;

the light-gathering window is eliminated.

Preferably, the processor is configured with processor-executable operating instructions to perform the following operations:

hiding a cursor in a current display window of the second equipment while creating a light-gathering window with a light-gathering hole;

and displaying the cursor in the current display window of the second device while canceling the light-gathering window.

The invention has the following beneficial effects: when the user selects to use the light-gathering function, the light-gathering window body with the light-gathering hole is established above the current display window body of the second device, and the moving direction of the light-gathering window body is controlled through the moving direction of the user when the user uses the first device, so that the movement of the light-gathering window body is consistent with that of the first device. Like this, the light gathering hole is fixed for the position of spotlight window body, need not real-time light gathering hole of seting up, avoids the light gathering hole phenomenon of ghost to appear, promotes user experience.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a flowchart of a light condensing display method according to embodiment 1 of the present invention;

fig. 2 is a schematic diagram of a positional relationship between a light-gathering window and a display window according to embodiment 1 of the present invention;

fig. 3 shows that the light-gathering window moves integrally along the moving direction of the first device according to embodiment 1 of the present invention;

fig. 4 is a schematic view of a light-gathering window according to embodiment 1 of the present invention;

fig. 5 is another schematic view of a light-gathering window according to embodiment 1 of the present invention;

fig. 6 is another schematic view of the light-gathering window according to embodiment 1 of the present invention.

Detailed Description

In order to make the technical solutions and advantages of the embodiments of the present application more apparent, the following further detailed description of the exemplary embodiments of the present application with reference to the accompanying drawings makes it clear that the described embodiments are only a part of the embodiments of the present application, and are not exhaustive of all embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

Example 1

As shown in fig. 1, the present embodiment proposes a spotlight display method, including:

s101, receiving a light gathering instruction sent by first equipment, responding to the light gathering instruction, and creating a light gathering window body with a light gathering hole.

Specifically, the first device described in this embodiment may be an intelligent electronic device such as an intelligent writing pen, an air mouse, or an intelligent remote controller. The second device may be a display device or a touch device having a display function. The first device can perform wireless control on the second device, including controlling the movement of a cursor, the selection of an icon or a file, the starting or closing of various functions and the like. In the present embodiment, an application program in which a display function is configured is installed in the host of the second device. The display function may be one or more. Each display function corresponds to its own unique display effect. The user can select the display effect required by the user through the first device to display, wherein one display function is a spotlight display function.

For example, the first device is an intelligent writing pen, the second device is a commonly-used computer monitor, and the computer monitor is connected with a host. First, an application program including a display function is installed in a host computer. And then connecting or pairing the intelligent writing pen with the host. A selection key can be arranged on the intelligent writing pen, and a user can turn on or off the display function through the selection key. When a user presses a selection key for the first time, a selection instruction is sent to the host, and the host calls a corresponding display function after analyzing the selection instruction. And finally, displaying the display effect corresponding to the display function on the current display form of the display equipment.

In the process of selecting the display function, if only one display function exists at the moment, the display effect corresponding to the display function is directly displayed on the current display form of the display equipment. If multiple display functions are present at this time, a selection window (e.g., a selection menu bar) may be provided for the user. All display function boxes are listed in the selection window, and a movable selection mark is loaded on one of the display function boxes. The user can move the selected mark to the selection frames of other display functions through other keys on the intelligent writing pen, and then the user can press the selection keys to select the display function corresponding to the selection frame of the display function where the selected mark is located. The selection mark can also be moved by pressing the selection key for a short duration and then selecting by pressing the selection key for a long duration.

Besides the scheme of selecting the display function through the keys, any scheme capable of realizing the functions can be adopted, such as voice control, fingerprints, sliding, body feeling and the like. The present embodiment is not limited thereto.

The above is the process of selecting the display function, and the display function described in this embodiment is the spotlight display function. After the user selects the spotlight display function through the keys on the first device, the first device sends a spotlight instruction to the host of the second device. The host of the second device creates a spotlight window in response to the spotlight command, as shown in fig. 2. The light-gathering window body is laid above the current display window body of the second device, and a light-gathering hole is formed in the light-gathering window body, so that the local area display window body located below the light-gathering hole in the current display window body of the second device can be displayed through the light-gathering hole. And the center of the light-gathering hole is the position of the cursor in the current display window in the second device. The shape of the light-gathering hole may be circular, rectangular, rhombic, or triangular, and the like, which is not particularly limited in this embodiment. The distance between the edge of the light gathering hole and the center of the light gathering hole can be preset according to different shapes of the light gathering hole. In addition, colors can be set at the edges of the light gathering holes according to the actual requirements of users.

S102, receiving moving direction data of first equipment and position data of a cursor in second equipment in a current display window; and controlling the moving direction and the moving position of the light-gathering window above the current display window according to the moving direction data of the first device and the position data of a cursor in the second device in the current display window.

Specifically, in this embodiment, after the user selects the spotlight display function using the first device and establishes the spotlight window above the currently displayed window of the second device through the host of the second device, the user may move the first device. The first device is provided with a motion sensor which can detect the gesture of the first device, wherein the gesture comprises information such as a motion direction or a moving position, and then the gesture of the first device is sent to the host of the second device. The host of the second device can obtain the moving direction data of the first device after processing the posture of the first device. And finally, controlling the light-gathering window to integrally move along the moving direction of the first equipment according to the moving direction data. As shown in fig. 3, the first device moves from a to B, and accordingly, the whole of the light-gathering window moves following the movement of the first device.

In addition, the light gathering hole is established by taking the position of the cursor in the current display window in the second device as the center, and the first device can control the moving position of the cursor in the second device in a wired or wireless mode. Therefore, when the user moves the first device, the light-gathering window can also change according to the position change of the cursor in the current display window in the second device, and the consistency of the movement of the first device and the light-gathering window is ensured. And when the cursor in the second device reaches the edge in the current display window and cannot move to the outer side of the edge of the current display window continuously, the light-gathering window cannot move as well until the cursor moves towards the direction in which other cursors can move along with the first device.

In this embodiment, since the light-gathering window is movable as a whole, if the area of the light-gathering window covering the current display window is small, the light-gathering window may not completely cover the current display window during the movement of the light-gathering window, and thus the meaning of the light-gathering display function is lost. Therefore, in this embodiment, the current display window is fully covered by expanding the light-gathering window, and the specific implementation process is as follows:

a main window body provided with a light gathering hole is laid above a current display window body of second equipment, then one or more secondary window bodies are arranged around the main window body, and the main window body and the one or more secondary window bodies jointly form a light gathering window body.

Specifically, in order to avoid the situation that the light-gathering window cannot completely cover the current display window in the moving process, the light-gathering window may be set to be infinite, or the area of the light-gathering window may be adaptively adjusted according to the actual situation, as shown in fig. 4. In addition, a mode of splicing the main frame and the secondary frame can also be adopted. The secondary frame may be a large frame and then the primary frame is inserted at the center of the secondary frame as shown in fig. 5. Or a plurality of small windows spliced around the main window as shown in fig. 6. The main window body can completely cover the current display window body in a static state and is provided with a light gathering hole, and the secondary window body is positioned above the side of the current display window body and is not provided with the light gathering hole. The above methods can be used as an effective method for enlarging the coverage area of the light-gathering window.

The purpose of the spotlight display function is to enable a user to highlight a content that needs attention using a spotlight display effect. In actual use, the user often needs to see the content on the display frame of other areas in the current display frame covered by the spotlight frame. Thus, the present embodiment creates a spotlight window that has some opacity but is not completely opaque. Like this, the local region that shows the window form that sees through spotlight hole on the spotlight window form shows will be higher than the luminance that other regions show the window form, simultaneously, can also make the user see other regional contents that show the window form through the clear of naked eye. In order not to affect the normal viewing of the content displayed from the light gathering hole by the user, the cursor in the currently displayed frame of the second device is hidden while the light gathering frame is created. So that there is no interference in the light gathering hole except for what the user wants to display.

In the process, the light-gathering window is utilized to reduce the brightness of the display window in other areas in the current display window of the second device and keep the brightness of the display window in the local area in the light-gathering hole, so that the brightness difference is generated between the brightness in the light-gathering hole and the brightness in other areas, and the light-gathering display effect is finally generated. In addition, the brightness of the display window in other areas in the current display window can be maintained, and the brightness of the display window in a local area in the light gathering hole can be improved. But the latter is more difficult to implement and produces less effective brightness differences. Therefore, the former implementation is preferred.

When the user finishes using the light-gathering function and needs to close the light-gathering function, the closing process of the light-gathering function is optimized in the embodiment:

receiving a closing instruction sent by first equipment;

responding to the closing instruction, and gradually reducing the opacity of the light gathering window body within a preset time range until the opacity of the light gathering window body reaches a preset value;

the light-gathering window is eliminated.

Specifically, when the user wants to turn off the current spotlight display function, the user can turn off the function in any mode such as key pressing, voice control, fingerprint, sliding, body feeling and the like. When a user performs a shutdown operation, the first device sends a shutdown instruction to the host of the second device. And the host of the second device closes the current spotlight display function after receiving the closing instruction.

The light condensing function is realized by a luminance difference between a display content to be condensed and another display content. In this embodiment, a light-gathering window with a certain opacity is established on the upper layer of the current display window, and then a "hole" is formed in the light-gathering window, and the hole is a light-gathering hole. The display content of the local area display window in the current display window can be displayed at normal display brightness through the light gathering hole, and the display content of the other area display windows is shielded by the light gathering window. When the light-gathering function needs to be closed, the opacity of the light-gathering window body is integrally and gradually reduced until the light-gathering window body is completely transparent. In this way, the user sees the gradual change effect that the brightness of the display window in the other areas except the light-gathering holes gradually increases until the normal brightness of the currently displayed window is restored. Meanwhile, in order to avoid the time for which the opacity of the light condensing window changes to be too long, a time range for which the opacity of the light condensing window changes may be set, for example, 1 s. In this 1s, the light-gathering window can be changed from having a certain opacity to a completely transparent state. If the edge of the light-gathering hole in the light-gathering window has a set color, the opacity of the color is changed synchronously with the opacity of the light-gathering window until the color is completely transparent. And finally, after the light-gathering window is completely transparent, the light-gathering window is cancelled.

Example 2

Corresponding to embodiment 1, this embodiment proposes a spotlight display device, which includes a processor configured with processor-executable operating instructions to perform the following operations:

receiving a light-gathering instruction sent by first equipment, wherein the first equipment can control the movement of a cursor in second equipment;

responding to the light-gathering instruction, creating a light-gathering window body with a light-gathering hole, wherein the light-gathering window body is laid above a current display window body of the second equipment, so that a local area display window body positioned below the light-gathering hole in the current display window body is displayed through the light-gathering hole; the center of the light-gathering hole is the position of a cursor in the second device in the current display window, and the distance between the edge of the light-gathering hole and the center of the light-gathering hole is a preset distance;

receiving moving direction data of first equipment and position data of a cursor in a current display window in second equipment;

and controlling the moving direction and the moving position of the light-gathering window above the current display window according to the moving direction data of the first device and the position data of a cursor in the second device in the current display window.

Specifically, the first device described in this embodiment may be an intelligent electronic device such as an intelligent writing pen, an air mouse, or an intelligent remote controller. The second device may be a display device or a touch device having a display function. The first device can perform wireless control on the second device, including controlling the movement of a cursor, the selection of an icon or a file, the starting or closing of various functions and the like. In the present embodiment, an application program in which a display function is configured is installed in the host of the second device. The display function may be one or more. Each display function corresponds to its own unique display effect. The user can select the display effect required by the user through the first device to display, wherein one display function is a spotlight display function.

For example, the first device is an intelligent writing pen, the second device is a commonly-used computer monitor, and the computer monitor is connected with a host. First, an application program including a display function is installed in a host computer. And then connecting or pairing the intelligent writing pen with the host. A selection key can be arranged on the intelligent writing pen, and a user can turn on or off the display function through the selection key. When a user presses a selection key for the first time, a selection instruction is sent to the host, and the host calls a corresponding display function after analyzing the selection instruction. And finally, displaying the display effect corresponding to the display function on the current display form of the display equipment.

In the process of selecting the display function, if only one display function exists at the moment, the display effect corresponding to the display function is directly displayed on the current display form of the display equipment. If multiple display functions are present at this time, a selection window (e.g., a selection menu bar) may be provided for the user. All display function boxes are listed in the selection window, and a movable selection mark is clipped on one of the display function boxes. The user can move the selected mark to the selection frames of other display functions through other keys on the intelligent writing pen, and then the user can press the selection keys to select the display function corresponding to the selection frame of the display function where the selected mark is located. The selection mark can also be moved by pressing the selection key for a short duration and then selecting by pressing the selection key for a long duration.

Besides the scheme of selecting the display function through the keys, any scheme capable of realizing the functions can be adopted, such as voice control, fingerprints, sliding, body feeling and the like. The present embodiment is not limited thereto.

The above is the process of selecting the display function, and the display function described in this embodiment is the spotlight display function. After the user selects the spotlight display function through the keys on the first device, the first device sends a spotlight instruction to the host of the second device. And the host of the second device responds to the spotlight instruction and then creates a spotlight window. The light-gathering window body is laid above the current display window body of the second device, and a light-gathering hole is formed in the light-gathering window body, so that the local area display window body located below the light-gathering hole in the current display window body of the second device can be displayed through the light-gathering hole. And the center of the light-gathering hole is the position of the cursor in the current display window in the second device. The shape of the light-gathering hole may be circular, rectangular, rhombic, or triangular, and the like, which is not particularly limited in this embodiment. The distance between the edge of the light gathering hole and the center of the light gathering hole can be preset according to different shapes of the light gathering hole. In addition, colors can be set at the edges of the light gathering holes according to the actual requirements of users.

In this embodiment, after the user selects the spotlighting display function using the first device and establishes a spotlighting window over a currently displayed window of the second device through a host of the second device, the user may move the first device. A motion sensor may be provided in the first device, and the motion sensor may detect a posture of the first device, which includes information such as a motion direction or a movement position, and then transmit the posture of the first device to the host of the second device. The host of the second device can obtain the moving direction data of the first device after processing the posture of the first device. And finally, controlling the light-gathering window to integrally move along the moving direction of the first equipment according to the moving direction data.

In addition, the light gathering hole is established by taking the position of the cursor in the current display window in the second device as the center, and the first device can control the moving position of the cursor in the second device in a wired or wireless mode. Therefore, when the user moves the first device, the light-gathering window can also change according to the position change of the cursor in the current display window in the second device, and the consistency of the movement of the first device and the light-gathering window is ensured. And when the cursor in the second device reaches the edge in the current display window and cannot move to the outer side of the edge of the current display window continuously, the light-gathering window cannot move as well until the cursor moves towards the direction in which other cursors can move along with the first device.

In this embodiment, since the light-gathering window is movable as a whole, if the area of the light-gathering window covering the current display window is small, the light-gathering window may not completely cover the current display window during the movement of the light-gathering window, and thus the meaning of the light-gathering display function is lost. Therefore, in this embodiment, the current display window is fully covered by expanding the light-gathering window, and the specific implementation process is as follows:

a main window body provided with a light gathering hole is laid above a current display window body of second equipment, then one or more secondary window bodies are arranged around the main window body, and the main window body and the one or more secondary window bodies jointly form a light gathering window body.

Specifically, in order to avoid the situation that the light-gathering window cannot completely cover the current display window in the moving process, the light-gathering window can be set to be infinite, or the area of the light-gathering window can be adaptively adjusted according to actual conditions. In addition, a mode of splicing the main frame and the secondary frame can also be adopted. The secondary window may be a large window and then the primary window is inserted at the center of the secondary window. Or a plurality of small window bodies spliced around the main window body. The main window body can completely cover the current display window body in a static state and is provided with a light-gathering hole, and the secondary window body is positioned above the side of the current display window body and is not provided with the light-gathering hole. The above methods can be used as an effective method for enlarging the coverage area of the light-gathering window.

The purpose of the spotlight display function is to enable a user to highlight a content that needs attention using a spotlight display effect. In actual use, the user often needs to see the content on the display frame of other areas in the current display frame covered by the spotlight frame. Thus, the present embodiment creates a spotlight window that has some opacity but is not completely opaque. Like this, the local region that shows the window form that sees through spotlight hole on the spotlight window form shows will be higher than the luminance that other regions show the window form, simultaneously, can also make the user see other regional contents that show the window form through the clear of naked eye. In order not to affect the normal viewing of the content displayed from the light gathering hole by the user, the cursor in the currently displayed frame of the second device is hidden while the light gathering frame is created. So that there is no interference in the light gathering hole except for what the user wants to display.

In the process, the light-gathering window is utilized to reduce the brightness of the display window in other areas in the current display window of the second device and keep the brightness of the display window in the local area in the light-gathering hole, so that the brightness difference is generated between the brightness in the light-gathering hole and the brightness in other areas, and the light-gathering display effect is finally generated. In addition, the brightness of the display window in other areas in the current display window can be maintained, and the brightness of the display window in a local area in the light gathering hole can be improved. But the latter is more difficult to implement and produces less effective brightness differences. Therefore, the former implementation is preferred.

When the user finishes using the light-gathering function and needs to close the light-gathering function, the closing process of the light-gathering function is optimized in the embodiment:

receiving a closing instruction sent by first equipment;

responding to the closing instruction, and gradually reducing the opacity of the light gathering window body within a preset time range until the opacity of the light gathering window body reaches a preset value;

the light-gathering window is eliminated.

Specifically, when the user wants to turn off the current spotlight display function, the user can turn off the function in any mode such as key pressing, voice control, fingerprint, sliding, body feeling and the like. When a user performs a shutdown operation, the first device sends a shutdown instruction to the host of the second device. And the host of the second device closes the current spotlight display function after receiving the closing instruction.

The light condensing function is realized by a luminance difference between a display content to be condensed and another display content. In this embodiment, a light-gathering window with a certain opacity is established on the upper layer of the current display window, and then a "hole" is formed in the light-gathering window, and the hole is a light-gathering hole. The display content of the local area display window in the current display window can be displayed at normal display brightness through the light gathering hole, and the display content of the other area display windows is shielded by the light gathering window. When the light-gathering function needs to be closed, the opacity of the light-gathering window body is integrally and gradually reduced until the light-gathering window body is completely transparent. In this way, the user sees the gradual change effect that the brightness of the display window in the other areas except the light-gathering holes gradually increases until the normal brightness of the currently displayed window is restored. Meanwhile, in order to avoid the time for which the opacity of the light condensing window changes to be too long, a time range for which the opacity of the light condensing window changes may be set, for example, 1 s. In this 1s, the light-gathering window can be changed from having a certain opacity to a completely transparent state. If the edge of the light-gathering hole in the light-gathering window has a set color, the opacity of the color is changed synchronously with the opacity of the light-gathering window until the color is completely transparent. And finally, after the light-gathering window is completely transparent, the light-gathering window is cancelled.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (8)

1. A method for spotlight display, the method comprising:

receiving a light-gathering instruction sent by first equipment, wherein the first equipment can control the movement of a cursor in second equipment;

responding to the light-gathering instruction, creating a light-gathering window body with a light-gathering hole, wherein the light-gathering window body is laid above a current display window body of the second equipment, so that a local area display window body positioned below the light-gathering hole in the current display window body is displayed through the light-gathering hole; the center of the light-gathering hole is the position of a cursor in the second device in the current display window, and the distance between the edge of the light-gathering hole and the center of the light-gathering hole is a preset distance;

receiving moving direction data of first equipment and position data of a cursor in a current display window in second equipment;

controlling the moving direction and the moving position of the light-gathering window above the current display window according to the moving direction data of the first device and the position data of a cursor in the second device in the current display window;

the process of creating the light-gathering window body with the light-gathering holes comprises the following steps:

laying a main window body provided with a light-gathering hole above the current display window body of the second equipment;

and surrounding one or more secondary frames around the main frame, wherein the main frame and the one or more secondary frames form the light gathering frame.

2. The method of claim 1, wherein the process of creating the light condensing window having the light condensing hole comprises:

the method comprises the steps of creating a light-gathering window body with certain opacity and provided with light-gathering holes, and laying the light-gathering window body above a current display window body of the second device, so that the display brightness of a local area display window body displayed through the light-gathering holes is higher than that of other area display window bodies covered by the light-gathering window body in the current display window body, and the display brightness of the other area display window bodies covered by the light-gathering window body in the current display window body is not zero.

3. The method according to claim 1 or 2, characterized in that the method further comprises:

receiving a closing instruction sent by first equipment;

responding to the closing instruction, and gradually reducing the opacity of the light gathering window body within a preset time range until the opacity of the light gathering window body reaches a preset value;

the light-gathering window is eliminated.

4. The method of claim 3, further comprising:

hiding a cursor in a current display window of the second equipment while creating a light-gathering window with a light-gathering hole;

and displaying the cursor in the current display window of the second device while canceling the light-gathering window.

5. A spotlight display device, the device comprising a processor configured with processor-executable operating instructions to:

receiving a light-gathering instruction sent by first equipment, wherein the first equipment can control the movement of a cursor in second equipment;

responding to the light-gathering instruction, creating a light-gathering window body with a light-gathering hole, wherein the light-gathering window body is laid above a current display window body of the second equipment, so that a local area display window body positioned below the light-gathering hole in the current display window body is displayed through the light-gathering hole; the center of the light-gathering hole is the position of a cursor in the second device in the current display window, and the distance between the edge of the light-gathering hole and the center of the light-gathering hole is a preset distance;

receiving moving direction data of first equipment and position data of a cursor in a current display window in second equipment;

controlling the moving direction and the moving position of the light-gathering window above the current display window according to the moving direction data of the first device and the position data of a cursor in the second device in the current display window;

the processor is configured with processor-executable operational instructions to perform operations comprising:

laying a main window body provided with a light-gathering hole above the current display window body of the second equipment;

and surrounding one or more secondary frames around the main frame, wherein the main frame and the one or more secondary frames form the light gathering frame.

6. The apparatus of claim 5, wherein the processor is configured with processor-executable operating instructions to:

the method comprises the steps of creating a light-gathering window body with certain opacity and provided with light-gathering holes, and laying the light-gathering window body above a current display window body of the second device, so that the display brightness of a local area display window body displayed through the light-gathering holes is higher than that of other area display window bodies covered by the light-gathering window body in the current display window body, and the display brightness of the other area display window bodies covered by the light-gathering window body in the current display window body is not zero.

7. The apparatus of claim 5 or 6, wherein the processor is configured with processor-executable operating instructions to:

receiving a closing instruction sent by first equipment;

responding to the closing instruction, and gradually reducing the opacity of the light gathering window body within a preset time range until the opacity of the light gathering window body reaches a preset value;

the light-gathering window is eliminated.

8. The apparatus of claim 7, wherein the processor is configured with processor-executable operating instructions to:

hiding a cursor in a current display window of the second equipment while creating a light-gathering window with a light-gathering hole;

and displaying the cursor in the current display window of the second device while canceling the light-gathering window.

Images