CN113476837A - Image quality display method, device, equipment and storage medium - Google Patents

Abstract

The application provides an image quality display method, an image quality display device, image quality display equipment and a storage medium, wherein the method comprises the following steps: receiving an image quality configuration instruction, wherein the image quality configuration instruction at least comprises: picture display parameters; acquiring historical operation data on a terminal; operating the historical operation data according to the picture display parameters to render and obtain operation image information related to historical operation; and displaying the operation image information. The method and the device can display the actual effect of the picture configuration in a more intuitive mode.

Description

Image quality display method, device, equipment and storage medium

Technical Field

The present application relates to the field of display processing technologies, and in particular, to a method, an apparatus, a device, and a storage medium for displaying image quality.

Background

With the development of electronic games, players have increasingly demanded higher game image quality. Therefore, in the electronic game, the user can generally configure the image quality of the game screen.

In the conventional image quality configuration scheme, a user can directly set a picture on a setting interface, and the user cannot know the display effect after the setting is finished usually during the setting. Some simple previews exist in part of electronic games, after a user sets image quality parameters, the user generally jumps to a game picture, and then the user is given a certain time to judge whether to use new picture settings.

In the above method, the user may not feel intuitive about the configured image quality effect, and cannot predict whether the electronic device used in the new image quality configuration will have a pause phenomenon, so that it is often necessary to repeatedly set the image quality effect to find the appropriate image quality parameters, which is a cumbersome process.

Disclosure of Invention

An object of the embodiments of the present application is to provide a method, an apparatus, a device and a storage medium for displaying image quality, which display the actual effect of the screen configuration in a very intuitive manner.

A first aspect of an embodiment of the present application provides an image quality displaying method, including: receiving an image quality configuration instruction, wherein the image quality configuration instruction at least comprises an image display parameter; acquiring historical operation data on a terminal; operating the historical operation data according to the picture display parameters to render and obtain operation image information related to historical operation; and displaying the operation image information.

In one embodiment, the historical operation data is operation data within a preset time period before a specified game event occurs; before the receiving the image quality configuration instruction, the method comprises the following steps: and when the specified game event is detected to occur, displaying a picture quality configuration control, wherein the picture quality configuration control is used for setting the picture quality configuration instruction.

In an embodiment, the image quality configuration instruction further includes: visual range information of the picture; the image quality configuration instructions are multiple; the operating the historical operating data according to the picture display parameters to render and obtain operating image information related to the historical operation comprises the following steps: determining the size of a display window and the range of screen content of the operation image information under each image quality configuration instruction according to the screen visible range information carried in each image quality configuration instruction; and according to the picture display parameters carried in each picture quality configuration instruction, respectively operating the historical operation data corresponding to each picture quality configuration instruction so as to render and obtain a plurality of operation image information under different picture quality configuration instructions.

In an embodiment, the displaying the operation image information includes: and displaying the plurality of operation image information on the same screen.

In an embodiment, after displaying the operation image information on the same screen, the method further includes: and responding to a visual range changing instruction of the current display picture, and displaying the changing instruction on the same screen of a plurality of pictures appointed in the plurality of operation image information.

In an embodiment, the displaying the plurality of operation image information on the same screen includes: and synchronously playing the plurality of operation image information on the same screen according to the same playing frame rate.

In one embodiment, the method further comprises: and responding to a selection instruction of the user for image quality configuration, and adjusting the image quality of the current picture to the target image quality configuration selected by the selection instruction.

A second aspect of the present application provides an image quality displaying apparatus, including: a receiving module, configured to receive an image quality configuration instruction, where the image quality configuration instruction at least includes: picture display parameters; the acquisition module is used for acquiring historical operation data on the terminal; the rendering module is used for operating the historical operation data according to the picture display parameters so as to render and obtain operation image information related to historical operation; and the display module is used for displaying the operation image information.

In one embodiment, the historical operation data is operation data within a preset time period before a specified game event occurs; the device comprises: and the detection module is used for displaying a picture quality configuration control when the specified game event is detected to occur before the picture quality configuration instruction is received, wherein the picture quality configuration control is used for setting the picture quality configuration instruction.

In an embodiment, the image quality configuration instruction further includes: visual range information of the picture; the image quality configuration instructions are multiple; the rendering module is to: determining the size of a display window and the range of screen content of the operation image information under each image quality configuration instruction according to the screen visible range information carried in each image quality configuration instruction; and according to the picture display parameters carried in each picture quality configuration instruction, respectively operating the historical operation data corresponding to each picture quality configuration instruction so as to render and obtain a plurality of operation image information under different picture quality configuration instructions.

In one embodiment, the display module is configured to: and displaying the plurality of operation image information on the same screen.

In one embodiment, the method further comprises: and the first response module is used for responding to a visual range change instruction of a current display picture after the plurality of operation image information are displayed on the same screen, and displaying the change instruction on the same screen in a plurality of pictures appointed in the plurality of operation image information.

In an embodiment, the displaying the plurality of operation image information on the same screen includes: and synchronously playing the plurality of operation image information on the same screen according to the same playing frame rate.

In one embodiment, the method further comprises: and the second response module is used for responding to a selection instruction of the user for image quality configuration and adjusting the current image quality to the target image quality configuration selected by the selection instruction.

A third aspect of embodiments of the present application provides an electronic device, including: the display screen is used for displaying the operation image information; a memory to store a computer program; a processor configured to execute the computer program to implement the method of the first aspect and any embodiment of the present application.

A fourth aspect of embodiments of the present application provides a non-transitory electronic device-readable storage medium, including: a program which, when run by an electronic device, causes the electronic device to perform the method of the first aspect of an embodiment of the present application and any embodiment thereof.

According to the image quality display method, the image quality display device, the image quality display equipment and the storage medium, historical operation data of a user on a terminal are operated according to an image quality configuration instruction input by the user, so that operation images related to historical operation are rendered, and then the operation images are displayed.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that those skilled in the art can also obtain other related drawings based on the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of an electronic device according to an embodiment of the present application;

fig. 2 is a schematic flowchart illustrating an image quality displaying method according to an embodiment of the present disclosure;

fig. 3 is a schematic flowchart illustrating an image quality displaying method according to an embodiment of the present application;

FIG. 4A is a schematic diagram of a structure of a display on a same screen according to an embodiment of the present application;

fig. 4B is a schematic diagram of a display of 2 image quality configuration schemes on a same screen according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of an image quality display apparatus according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application. In the description of the present application, the terms "first," "second," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

For the purpose of clearly describing the technical scheme of the embodiment in the present market, the related technical terms are first explained as follows:

virtual scene: is a virtual scene displayed when an application program runs on a terminal. The virtual scene can be a simulation environment scene of a real world, can also be a semi-simulation semi-fictional three-dimensional environment scene, and can also be a pure fictional three-dimensional environment scene. The virtual scene may be any one of a two-dimensional virtual scene, a 2.5-dimensional virtual scene, and a three-dimensional virtual scene, and the following embodiments are illustrated by way of example, but not limited thereto, in which the virtual scene is a three-dimensional virtual scene.

In one embodiment, the virtual scene may also be used for virtual scene engagement between at least two virtual characters. For example, the virtual scene may also be used for at least two virtual characters to fight using a virtual weapon. As another example, the virtual scene may also be used to engage in virtual weapons between at least two virtual characters within the target area.

Virtual object: refers to a movable object in a virtual scene. The movable object may be at least one of a virtual character, a virtual animal, a virtual vehicle, such as a game character.

In one embodiment, when the virtual scene is a three-dimensional virtual scene, the virtual object is a three-dimensional model created based on an animated skeleton technique. Each virtual object has its own shape, volume and orientation in the three-dimensional virtual scene and occupies a portion of the space in the three-dimensional virtual scene.

Virtual scenes are typically rendered based on hardware (e.g., a screen) in a terminal generated by an application in a computer device, such as a terminal. The terminal can be a mobile terminal such as a smart phone, a tablet computer or an electronic book reader; alternatively, the terminal may be a personal computer device such as a notebook computer or a stationary computer.

As shown in fig. 1, the present embodiment provides an electronic apparatus 1 including: at least one processor 11, a memory 12 and a display 13, one processor being exemplified in fig. 1. Processor 11, memory 12 and display 13 are connected by bus 10. The memory 12 stores instructions executable by the processor 11, and the instructions are executed by the processor 11, so that the electronic device 1 can perform all or part of the processes of the methods in the embodiments described below, so as to visually display the real display effect after the picture is configured.

In an embodiment, the electronic device 1 may be a mobile phone, a tablet computer, a notebook computer, a desktop computer, or the like.

In an embodiment, the electronic device may be a local terminal device. Taking a game as an example, the local terminal device stores a game program and is used for presenting a game screen. The local terminal equipment is used for interacting with the player through an interactive interface, namely, the game program can be downloaded and installed through the electronic equipment and operated. The manner in which the local terminal device provides the interactive interface to the player may include a variety of ways, for example, it may be rendered for display on a display screen of the terminal or provided to the player through holographic projection.

In one embodiment, the local terminal device may include a display screen for presenting an interactive interface including a game screen, and a processor for running the game, generating the interactive interface, and controlling display of the interactive interface on the display screen.

Please refer to fig. 2, which is a diagram illustrating a method of displaying image quality according to an embodiment of the present application, the method being executable by the electronic device 1 shown in fig. 1 as a terminal to display a real effect of image quality configuration based on an image quality configuration command. For a more clear description of the present solution, the following description will be given by taking the image quality configuration in the video game as an example, and the method can be applied to different game types. The method comprises the following steps:

step 201: receiving an image quality configuration instruction, wherein the image quality configuration instruction at least comprises: and displaying the parameters on the picture.

In this step, the configuration command may be triggered by the user, or the system may automatically pop up the configuration prompt. For example, an electronic game may be loaded on the electronic device 1, and when the user wants to customize the game quality, the user may actively enter the quality configuration mode to set parameters. The image quality configuration command at least includes a frame display parameter, wherein the frame display parameter may include: one or more of picture resolution, texture quality, shadow quality, texture quality, motion blur effect, ambient light, RTX (Ray Tracing eXtreme), antialiasing, vertical synchronization, and anisotropic filtering. Step 202: historical operating data on the terminal is obtained.

In this step, the terminal may be implemented by the electronic device 1, the terminal is loaded with an electronic game program, and the historical operation data is operation behavior record data of the user playing the electronic game on the terminal, such as: releasing skills, triggering organs and the like, wherein historical operation data can be pre-stored in a user-defined mode based on actual requirements, and can also be directly intercepted when a user plays the electronic game within a period of time in the past.

In one embodiment, for a game program, the historical operating data may be parameters related to a particular combat process loaded by a game engine to achieve the goal of reproducing the combat process. The game engine is an inherent part of the game program. When recording the historical operation data, the related parameters can be packaged into a game video package and stored so as to have the condition of playing the game picture. The historical operation data can be generated in the process of local games, namely, scenario or combat operation data which is recorded by local user players and occurs in the games; and the plot or battle operation data generated by other users in the game can be imported through network downloading or data transmission.

In an embodiment, the historical operation data may specifically include attribute parameters and operation parameters. The attribute parameters may be parameters of the game character (or game object) itself, such as the level, life value, attack power, equipment condition, skill condition, etc. of the game character. Alternatively, the attribute parameters may also include parameters of the associated virtual environment or virtual scene. The attribute parameters can be relatively stable or fixed in the game process, and can also be changed strictly according to the operation rule of the game engine. The operation parameter may be a parameter generated by an externally input instruction during the game of the player. The operating parameters may also be considered to record the player's operation during the game. In an actual game scene, the operation of a player for controlling the displacement, attack, skill release, prop use and the like of a game character can influence the game process in the form of external instructions. It is all the external commands mentioned above that are recorded by the operating parameters.

In one embodiment, a game beginner may be set to experience an operation task when a player logs in a game for the first time at a terminal, such as an operation related to a previous violent conflict point, to better verify performance. Further, the operation record of the player is recorded and stored as the history operation data. After the player finishes the game experience, the player can automatically pop up the picture setting so as to input the picture quality configuration instruction by the user.

In one embodiment, the historical operation data may be operation data within a predetermined time period before a specified game event occurs; before step 201, the method may further include: and when the specified game event is detected to occur, displaying a picture quality configuration control, wherein the picture quality configuration control is used for setting the picture quality configuration instruction.

In this embodiment, the image quality configuration instruction may be automatically popped up by the system based on the configured trigger condition. For example, the trigger condition may be the occurrence of a specific game event, such as a game piece death event, the historical operation data may be operation data within a preset time period before the death of the game piece, and the preset time period may be set based on an actual scene, such as 5 minutes or 10 minutes, and the like. That is, assuming that the preset time period is 5 minutes, the historical operation data may be operation data within 5 minutes before death of the game character. In the game process, whether a specified event occurs or not can be detected in real time, and once the specified game event is detected to occur, a picture quality configuration control is automatically displayed and is used for setting the picture quality configuration instruction. The image quality configuration control can be interactive interface elements such as a window, a prompt box, an icon, sound and the like, so that a user can check the image quality configuration control in time, and the user can input a related image quality configuration instruction based on the image quality configuration control.

In the actual game scene, after the picture configuration instruction is set, the player can see the picture contrast only through display. The mechanism is characterized in that the appointed event is set as the game character death event, the existing mechanism in the game can be fully utilized, when the character in the game dies and needs to play the game picture again, the picture quality configuration control can be automatically triggered and displayed, so that the player can select picture quality configuration when playing again, the player can recall the plot and can compare the set picture quality in the playing process, the displayed content is not abrupt and the player can not feel that the player sees repeatedly when the picture quality is compared, and the effect of improving the game experience of the player under the condition of occupying less memory resources of the terminal is realized.

In an embodiment, the interactive interface may be an interface rendered by a game program, and the terminal device may include a display screen, where the interactive interface is displayed by the display screen, and a user may perform corresponding interactive operation on the interactive interface. Step 203: and running historical operation data according to the picture display parameters to render and obtain operation image information related to the historical operation.

In this step, according to the image display parameters input by the user, the historical operation data is rerun, for example, the game engine may be used to load the relevant parameters of the fighting process in the historical operation data, so as to achieve the effect of reproducing the fighting process, and the image rendering effect may be recorded in a video recording manner, so as to generate the operation image information relevant to the fighting process.

In an embodiment, the PBR (physical Based Rendering) mode may be used to render to obtain the operation image information related to the historical operation, and the PBR is a scene Rendering mode with fine image quality, which is a scene Rendering technology Based on a real world illumination physical model, and uses a mode more conforming to the physical rules to simulate light, so as to achieve a more real scene Rendering effect, and directly achieve the desired result through the physical parameters. For example, highlight detail effect, shadow display effect, halo gradual change effect and the like of the model can be displayed vividly by using the PBR technology, and the effect is more vivid than that of the traditional model rendering mode.

Step 204: and displaying the operation image information.

In this step, the re-rendered operation image information is displayed on the display screen 13, and the video recording of the fighting process between game objects is reproduced, so that the user can visually see the effect of the picture configuration from the operation image.

According to the image quality display method, historical operation data of a user on the terminal is rendered according to an image quality configuration instruction input by the user, an operation image is generated, and then the operation image is displayed, so that the user can visually see the effect after the image configuration from the operation image display without jumping to a game page. Please refer to fig. 3, which is a diagram illustrating a method of displaying image quality according to an embodiment of the present application, the method may be executed by the electronic device 1 shown in fig. 1 as a terminal, and may display real effects of different image quality configurations on the same screen based on different image quality configuration commands. In order to describe the scheme more clearly, the following description is made by taking the image quality configuration in the electronic game as an example, and the method comprises the following steps:

step 301: receiving an image quality configuration instruction, wherein the image quality configuration instruction at least comprises: and displaying the parameters on the picture. See the description of step 201 in the above embodiments for details.

Step 302: historical operating data on the terminal is obtained. See the description of step 202 in the above embodiments for details.

Step 303: determining the size of a display window and the range of screen content of the operation image information under each image quality configuration instruction according to the screen visible range information carried in each image quality configuration instruction;

in this step, the image quality configuration instruction further includes: visual range information of the picture; the image quality configuration instructions are multiple. That is, when setting image quality parameters, a user may set a plurality of image quality plans for one set of historical operation data, or set a plurality of corresponding image quality plans for each of the plurality of sets of historical operation data, and each image quality plan generates one image quality configuration command, thereby increasing flexibility of image quality configuration. The picture visible range information refers to relevant parameters for limiting the size of the display window and the range of the picture content, and a player can input different picture visible range information based on own requirements to determine the size of the display window for operating the image information and the range of the picture content.

In an embodiment, for a piece of historical operation data, the screen visible range information in a plurality of image quality configuration instructions may be the same, and at this time, the display window size and the range of the screen content of the operation image information are the same under each image quality configuration instruction, and the same content is displayed in different display windows with the same size, which is more beneficial for a user to observe differences of different image qualities.

In an embodiment, for a piece of historical operation data, the frame visibility range information in the plurality of image quality configuration commands may be different, for example, assuming that the frame content of the operation image information includes a virtual object 1 and a virtual object 2, and there are two image quality configuration commands in total, the contents are as follows:

1. the image quality configuration instruction a defines a display window size of 100 × 100, and the range of the screen content defines a game scene including only the virtual object 1.

2. The image quality configuration instruction B defines the display window size as 100 × 100, and the range of the screen content defines the game scene including only the virtual object 2.

The image quality configuration instruction A and the image quality configuration instruction B can jointly limit one image in the operation image information, the size of the display window of the image quality configuration instruction A and the size of the display window of the image quality configuration instruction B are arranged together with the range of the image content to form the image content of the operation image information, so that a player can watch the same image more like watching the same image when watching the image, and the watching experience of the player is improved.

In an embodiment, the frame visible range information may define the range of the frame content by defining the relative coordinate range of the frame content.

Step 304: according to the picture display parameters carried in each picture quality configuration instruction, historical operation data corresponding to each picture quality configuration instruction is respectively operated so as to render and obtain a plurality of operation image information under different picture quality configuration instructions.

In this step, when setting the image quality parameters, the user may set a plurality of image quality plans, and each image quality plan generates an image quality configuration instruction, so that flexibility of image quality configuration may be increased. And then, running historical operation data corresponding to each image quality configuration instruction, rendering by adopting the image display parameters in each image quality configuration instruction, respectively, and recording images, thereby generating a plurality of operation image information under different image quality configuration schemes. Here, the plurality of image quality configuration commands may increase the user selectable range. In an actual scene, the picture configuration of high material quality often brings about picture blocking, so a user needs to find a picture quality setting which seeks balance between a picture and fluency, and the user can select more intuitively by comparing a plurality of operation image information under a plurality of picture quality configuration schemes.

Step 305: and displaying the plurality of operation image information on the same screen.

In this step, in order to make the user more intuitively compare the image effect and the fluency under different image quality parameters, a plurality of operation image information under a plurality of image quality configuration schemes can be displayed on the same screen.

In an embodiment, the on-screen display may be to play two operation image videos simultaneously, capture a part of the images from the operation image videos for display, display a plurality of comparison images on one display screen 13 simultaneously, and divide the display area of the display screen 13 into a plurality of sub-areas by using an image division technique, where each sub-area corresponds to a display window of the operation image information. As shown in fig. 4A, on the display 13, the image quality allocation commands 1 to N correspond to the display windows 1 to N, respectively, where N is a positive integer.

In an embodiment, step 305 may specifically include: and synchronously playing the plurality of operation image information on the same screen according to the same playing frame rate.

In this step, for the same historical operation behavior, the operation image information under different image quality configuration schemes is synchronously played on the display screen 13, so that the user can more intuitively see the image comparison effect of different image quality settings in the screen. For example, synchronous on-screen playback is performed at a fixed playback frame rate of 60 frames, so that one image composed of a plurality of display windows is displayed on the display 13, as shown in fig. 4B, by taking the display comparison of 2 image quality allocation schemes as an example, an operation image of the image quality allocation scheme 1 is displayed on the display window 1 of the display 13, and an operation image of the image quality allocation scheme 1 is displayed on the display window 2 of the display 13.

In one embodiment, some play methods can be set in the game, so that the player does not feel to repeat the original operation when watching the contrast image, for example, when the player operates for the first time, the beginner finishes triggering to force death. Then the player flashes back to the beginning, and plays the process again, so that the picture quality setting selection can be carried out when the player plays the picture again, and another scenario is triggered after the playback is finished, so that the player does not die, and the story continues. Therefore, the interest of the player participating in the game can be increased, and the game experience of the player is also improved.

In an embodiment, different trigger scenarios may be preconfigured for the image quality display, and the user may select the trigger scenario by himself or herself, and if the user does not select the trigger scenario, the user may execute the trigger scenario according to a default setting, and prompt the user whether to select the trigger scenario after the image quality display. The individuation of the image quality display function is enriched.

Step 306: and responding to the visible range changing instruction of the current display picture, and displaying the plurality of pictures specified in the plurality of operation image information by the changing instruction on the same screen.

In this step, the size of each display window may be changed, and a window control may be set on the interactive interface for configuring the size of each display window. The window control can be an icon, a shortcut key, a size prompt box or the like, and a user can enter a change instruction through the window control.

For example, the user may trigger a visual range change instruction for the currently displayed screen by dragging the indicator bar 131 of the display window to change the display window size. As shown in fig. 4B, taking the display comparison of 2 image quality allocation schemes as an example, 2 arrow guides are provided on two sides of the middle indicator bar 131, and the display range of different image quality allocation schemes can be changed by dragging the indicator bar 131 left and right. In an actual scene, more image quality configuration schemes may be used for the on-screen display comparison, for example, 4 image quality schemes may be used for the comparison, and the display range of a single display window may be selected by dragging the lower drag indication bar 131 to the left and right.

In an embodiment, the window controls of the multiple display windows may be the same or different, and an interactive interface for configuring the window controls by user definition may be provided, and the user may configure the type and size of the window control of each display window, so as to increase interest and personalization of image quality display.

In an embodiment, the window controls may be arranged in a table of the interactive interface, and the window controls of each display window may be sequentially arranged in the table according to a numbering order.

In an embodiment, the window control may be respectively disposed on each corresponding display window, such as a left corner or a right upper corner of the display window, or an edge of the display window, so as to avoid blocking the display frame as much as possible.

In an embodiment, the window control may also be a touch area, and the change instruction may be a touch sliding operation, for example, the change instruction may be an operation of sliding in a certain direction with any one point acting on the window touch area as a sliding starting point. The touch area may be the entire display window area. The picture content displayed in the corresponding display window can be adjusted according to the sliding operation of the window touch area. For example, in response to a selected sliding operation, the size and content of the displayed screen of the corresponding display window are adjusted according to the sliding operation, and when the sliding operation is stopped on the display window, a display window adjustment process is completed. If the user is not satisfied, the sliding operation can be adjusted for multiple times.

Specifically, the sliding characteristic of the sliding operation may be detected, and the screen presented in the corresponding display window may be adjusted according to the sliding characteristic of the sliding operation. The sliding characteristic may be a sliding direction. For example: the sliding operation is a sliding operation from left to right applied to the touch area of the display window, that is, the sliding direction is from left to right, and the game scene displayed by the corresponding display window is gradually adjusted to left. The sliding characteristic may further include a sliding speed, and the adjustment speed of the picture content presented by the display window may be determined according to the sliding speed, that is, the adjustment speed of the picture content may be increased along with the increase of the sliding speed, and of course, the adjustment speed may also be adjusted according to a preset speed.

Step 307: and responding to a selection instruction of the user for image quality configuration, and adjusting the current image quality of the picture to the target image quality configuration selected by the selection instruction.

In this step, after watching the image effects of the on-screen display of the multiple pieces of operation image information, the user may select an image quality configuration scheme based on his own needs, trigger a selection instruction, and then respond to the selection instruction of the image quality configuration by the user, and may adjust the current image quality to the target image quality configuration selected by the selection instruction, or may store the target image quality configuration for subsequent use by the user.

In one embodiment, a selection control can be provided in the interactive interface for receiving a selection instruction from a user. The selected control can be in the form of an icon, a prompt box or a shortcut key and the like, so that the interestingness of image quality display is increased.

In one embodiment, the display windows may be numbered separately, and then each display window may be configured with a shortcut key with the same number, for example, by pressing shortcut key F1 to select the display window numbered 1.

In one embodiment, the selection control may also float in the interactive interface to prompt the user to select a target image quality in time.

According to the image quality display method, the actual effect of different picture settings is dynamically displayed on the same screen, the real equipment performance of the terminal can be reflected, a user can be helped to quickly decide a configuration scheme, the user can see different picture configuration results on one screen, and the user can visually feel different stuck differences of different settings. The method helps the PC end or the mobile end game player to intuitively know the difference of different image quality setting schemes displayed in the actual game process.

In an embodiment, the image quality displaying method may also be performed in a server. When the image quality display method is operated on the server, the image quality display method can be implemented and executed based on a cloud interaction system, wherein the cloud interaction system comprises the server and the client device. Various cloud applications can be run under the cloud interaction system, for example: and (5) cloud games. Taking a cloud game as an example, a cloud game refers to a game mode based on cloud computing. In the cloud game operation mode, the game program operation main body and the game picture presentation main body are separated, the storage and the operation of the image quality display method are completed on the cloud game server, the client device is used for receiving and sending data and presenting the game picture, for example, the client device can be a display device with a data transmission function close to a user side, such as a mobile terminal, a television, a computer, a palm computer and the like; however, the terminal device performing the image quality display is a cloud game server at the cloud end. When a game is played, a player operates the client device to send an operation instruction to the cloud game server, the cloud game server runs the game according to the operation instruction, data such as game pictures, image quality display pictures and the like are encoded and compressed, the data are returned to the client device through a network, and finally the data are decoded through the client device and the game pictures and the image quality display pictures are output.

Please refer to fig. 5, which is a diagram illustrating an apparatus 500 according to an embodiment of the present application, which is applicable to the electronic device 1 shown in fig. 1 to illustrate an actual effect of image configuration based on an image configuration command. The device includes: the system comprises a receiving module 501, an obtaining module 502, a rendering module 503 and a display module 504, wherein the principle relationship of the modules is as follows:

the receiving module 501 is configured to receive an image quality configuration instruction, where the image quality configuration instruction at least includes: and displaying the parameters on the picture. See the description of step 201 in the above embodiments for details.

An obtaining module 502, configured to obtain historical operation data on the terminal. See the description of step 202 in the above embodiments for details.

The rendering module 503 is configured to run the historical operation data according to the screen display parameter, so as to render to obtain operation image information related to the historical operation. See the description of step 203 in the above embodiments for details.

The display module 504 is configured to display the operation image information. See the description of step 204 in the above embodiments for details.

In one embodiment, the historical operation data is operation data within a preset time period before a specified game event occurs; the device comprises: the detecting module 507 is configured to, before the receiving of the image quality configuration instruction, display an image quality configuration control when the specified game event is detected to occur, where the image quality configuration control is configured to set the image quality configuration instruction. See the description of step 303 in the above embodiments for details.

In an embodiment, the image quality configuration instruction further includes: visual range information of the picture; the image quality configuration instructions are multiple. The rendering module 503 is configured to: determining the size of a display window and the range of screen contents of the operation image information under different image quality configuration instructions according to the screen visible range information carried in each image quality configuration instruction; according to the picture display parameters carried in each picture quality configuration instruction, historical operation data corresponding to each picture quality configuration instruction is respectively operated so as to render and obtain a plurality of operation image information under different picture quality configuration instructions. See the description of step 304 in the above embodiments for details.

In one embodiment, the display module 504 is configured to: and displaying the plurality of operation image information on the same screen. See the description of step 305 in the above embodiments for details.

In one embodiment, the method further comprises: the first response module 505 is configured to respond to a visual range change instruction for a currently displayed screen after the plurality of pieces of operation image information are displayed on the same screen, and display the change instruction on the same screen for a plurality of screens specified in the plurality of pieces of operation image information. See the description of step 306 in the above embodiments for details.

In one embodiment, displaying the plurality of operation image information on the same screen includes: and synchronously playing the plurality of operation image information on the same screen according to the same playing frame rate. Reference is made in detail to the description of step 305 and its alternatives in the above embodiments.

In one embodiment, the method further comprises: the second response module 506 is configured to respond to a selection instruction of the image quality configuration by the user, and adjust the current image quality to the target image quality configuration selected by the selection instruction. See the description of step 307 in the above embodiments for details.

For a detailed description of the aforementioned image quality displaying apparatus 500, please refer to the description of the related method steps in the aforementioned embodiments.

An embodiment of the present invention further provides a non-transitory electronic device readable storage medium, including: a program that, when run on an electronic device, causes the electronic device to perform all or part of the procedures of the methods in the above-described embodiments. The storage medium may be a magnetic Disk, an optical Disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a Flash Memory (Flash Memory), a Hard Disk (Hard Disk Drive, abbreviated as HDD), a Solid State Drive (SSD), or the like. The storage medium may also comprise a combination of memories of the kind described above.

Although the embodiments of the present invention have been described in conjunction with the accompanying drawings, those skilled in the art may make various modifications and variations without departing from the spirit and scope of the invention, and such modifications and variations fall within the scope defined by the appended claims.

Claims (10)

1. An image quality display method, comprising:

receiving an image quality configuration instruction, wherein the image quality configuration instruction at least comprises: picture display parameters;

acquiring historical operation data on a terminal;

operating the historical operation data according to the picture display parameters to render and obtain operation image information related to historical operation;

and displaying the operation image information.

2. The method of claim 1, wherein the historical operational data is operational data within a preset time period prior to occurrence of a specified game event; before the receiving the image quality configuration instruction, the method comprises the following steps:

and when the specified game event is detected to occur, displaying a picture quality configuration control, wherein the picture quality configuration control is used for setting the picture quality configuration instruction.

3. The method of claim 1, wherein the image quality configuration instructions further comprise: visual range information of the picture; the image quality configuration instructions are multiple; the operating the historical operating data according to the picture display parameters to render and obtain operating image information related to the historical operation comprises the following steps:

determining the size of a display window and the range of screen content of the operation image information under each image quality configuration instruction according to the screen visible range information carried in each image quality configuration instruction;

and according to the picture display parameters carried in each picture quality configuration instruction, respectively operating the historical operation data corresponding to each picture quality configuration instruction so as to render and obtain a plurality of operation image information under different picture quality configuration instructions.

4. The method of claim 3, wherein the displaying the operational image information comprises:

and displaying the plurality of operation image information on the same screen.

5. The method of claim 4, further comprising, after said displaying said plurality of operational image information on-screen,:

and responding to a visual range changing instruction of the current display picture, and displaying the changing instruction on the same screen of a plurality of pictures appointed in the plurality of operation image information.

6. The method of claim 4, wherein said displaying said plurality of operation image information on screen comprises:

and synchronously playing the plurality of operation image information on the same screen according to the same playing frame rate.

7. The method of claim 1, further comprising:

and responding to a selection instruction of the user for image quality configuration, and adjusting the image quality of the current picture to the target image quality configuration selected by the selection instruction.

8. An image quality display apparatus, comprising:

a receiving module, configured to receive an image quality configuration instruction, where the image quality configuration instruction at least includes: picture display parameters;

the acquisition module is used for acquiring historical operation data on the terminal;

the rendering module is used for operating the historical operation data according to the picture display parameters so as to render and obtain operation image information related to historical operation;

and the display module is used for displaying the operation image information.

9. An electronic device, comprising:

the display screen is used for displaying the operation image information;

a memory to store a computer program;

a processor to execute the computer program to implement the method of any one of claims 1 to 7.

10. A non-transitory electronic device readable storage medium, comprising: program which, when run by an electronic device, causes the electronic device to perform the method of any one of claims 1 to 7.

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