CN117289844A - Interface image display method and device, terminal equipment and storage medium - Google Patents

Abstract

The application relates to an interface image display method, a device, terminal equipment and a storage medium, and relates to the technical field of image display, wherein the method comprises the steps of receiving a display request of a target interface image and judging whether the target interface image is an SDR image or not; if yes, displaying the target interface image based on a preset SDR standard, otherwise, displaying the target interface image based on a default display standard; when a frame selection instruction for a local image in the target interface image is detected, determining a target display standard corresponding to the local image; and redisplaying the local image based on the target display standard, and displaying other images which are not the local image in the target interface image based on the original display standard. By adopting the video editing method and device, convenience and effect of video editing can be greatly improved.

Description

Interface image display method and device, terminal equipment and storage medium

Technical Field

The present disclosure relates to the field of image display technologies, and in particular, to an interface image display method, an apparatus, a terminal device, and a storage medium.

Background

SDR (Standard Dynamic Range ) technology and HDR (High-Dynamic Range) technology are two image and video synthesis technologies that are currently more commonly used in the fields of computer graphics and cinematography, where SDR is a traditional imaging standard, widely used in televisions, displays and projectors, and HDR has a wider color space, a greater color depth, and a higher brightness than SDR.

Since the program creation in the broadcast television field requires frequent and long-time image generation and display compared to the daily use, there is a higher demand for image display, and 4K HDR display devices are currently widely used. Especially, in the process of video editing, a program producer needs to accurately grasp each detail content contained in a video image and modify and adjust the detail content in a targeted manner, so that a multi-dimensional high-standard requirement exists for the display of the video image.

Disclosure of Invention

In order to improve convenience and effect of video editing, the embodiment of the application provides an interface image display method, an interface image display device, terminal equipment and a storage medium. The technical scheme is as follows:

in a first aspect, an embodiment of the present application provides an interface image display method, where the method is applied to a terminal device that uses a WINDOWS10 operating system, and the method includes:

receiving a display request of a target interface image, and judging whether the target interface image is an SDR image or not;

if yes, displaying the target interface image based on a preset SDR standard, otherwise, displaying the target interface image based on a default display standard;

when a frame selection instruction for a local image in the target interface image is detected, determining a target display standard corresponding to the local image;

and redisplaying the local image based on the target display standard, and displaying other images which are not the local image in the target interface image based on the original display standard.

In a second aspect, an embodiment of the present application provides an interface image display apparatus, where the apparatus uses a WINDOWS10 operating system, and the apparatus includes:

the image receiving module is used for receiving a display request of a target interface image and judging whether the target interface image is an SDR image or not;

the image display module is used for displaying the target interface image based on a preset SDR standard if the target interface image is displayed, otherwise, displaying the target interface image based on a default display standard;

the image frame selection module is used for determining a target display standard corresponding to the local image when a frame selection instruction for the local image in the target interface image is detected;

the image display module is further used for redisplaying the local image based on the target display standard and displaying other images which are not the local image in the target interface image based on the original display standard.

In a third aspect, an embodiment of the present application provides a terminal device, where the terminal device includes a processor and a memory, where at least one instruction, at least one section of program, a code set, or an instruction set is stored in the memory, where the at least one instruction, the at least one section of program, the code set, or the instruction set is loaded and executed by the processor to implement the interface image display method according to the first aspect.

In a fourth aspect, embodiments of the present application provide a computer readable storage medium having stored therein at least one instruction, at least one program, a set of codes, or a set of instructions, which are loaded and executed by a processor to implement the interface image display method according to the first aspect.

In summary, the present application has the following beneficial effects:

by adopting the interface image display method disclosed by the application, terminal equipment receives a display request of a target interface image and judges whether the target interface image is an SDR image or not; if yes, displaying a target interface image based on a preset SDR standard, otherwise, displaying the target interface image based on a default display standard; when a frame selection instruction for a local image in the target interface image is detected, determining a target display standard corresponding to the local image; the partial image is redisplayed based on the target display criteria, and other images than the partial image in the target interface image are displayed based on the original display criteria. Therefore, the user can quickly and accurately complete the adjustment of the display standard of the images in the frame selection area through simple frame selection operation in the interface image, and meanwhile, the display effect of other image areas is not affected, so that the convenience and effect of video editing can be greatly improved.

Drawings

FIG. 1 is a flowchart of an interface image display method according to an embodiment of the present application;

FIG. 2 is a schematic diagram illustrating a frame selection of a plurality of partial images according to an embodiment of the present application;

FIG. 3 is a schematic diagram of an automatic frame selection of a partial image according to an embodiment of the present application;

FIG. 4 is a schematic diagram of an automatic frame selection of a partial image according to an embodiment of the present application;

FIG. 5 is a schematic diagram of an automatic frame selection of a partial image according to an embodiment of the present application;

FIG. 6 is a schematic diagram of an automatic internal frame selection in an embodiment of the present application;

fig. 7 is a schematic structural diagram of an interface image display device according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of an interface image display device according to an embodiment of the present application.

Description of the embodiments

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to fig. 1 to 8 and the embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

In the prior art, when a terminal device using WINDOWS10 as an operating system displays an interface image, it is first identified whether the interface image is an HDR image or an SDR image, if the interface image is an HDR image, the terminal device displays the interface image based on the HDR standard, and if the interface image is not an HDR image, the terminal device displays the interface image based on the SDR standard. In the process of producing the program of the broadcast television, the clipping of the video image is often involved, and the interface image of the clipping software is generally marked as an SDR image by the terminal equipment, so the terminal equipment can display the interface image of the clipping software in an SDR standard, and the video image loaded in the clipping software can be displayed in the SDR standard, thus the display effect of the video image is poor, and the actual effect of the video clipping is easily affected.

Aiming at the problems existing in the prior art, the embodiment provides an interface image display method which is also applied to terminal equipment adopting a WINDOWS10 operating system, wherein the terminal equipment can be any equipment with a video editing function, and can be a computer. The terminal device may be used to acquire and display video images while supporting clipping and output processing for the video images. In this embodiment, a description is given by taking a displayed interface image as an example of a clipping interface in a video clipping process, and the interface image may be any other image that may be displayed on a terminal device.

The process flow shown in fig. 1 will be described in detail with reference to the specific embodiments, and the following may be included:

step 101, receiving a display request of a target interface image, and judging whether the target interface image is an SDR image.

In an implementation, a user may install video editing software on a terminal device and may operate on the terminal device to open the video editing software and further may load video to be edited into an application process of the video editing software to begin editing the video. Starting from the starting of the terminal device by the user, the terminal device continuously receives a display request of an interface image, wherein the interface image can be a starting picture, a system desktop image, a software interface of video editing software, a playing interface of video and the like. By describing the target interface image, when receiving a display request of the target interface image, the terminal device may first determine whether the target interface image is an SDR image.

And 102, if so, displaying the target interface image based on the preset SDR standard, otherwise, displaying the target interface image based on the default display standard.

In an implementation, if the target interface image to be displayed is an SDR image, the terminal device may display the target interface image based on a preset SDR standard, and if the target interface image to be displayed is not an SDR image, the terminal device may display the target interface image based on a default display standard. It can be understood that the WINDOWS10 operating system includes both SDR images and HDR images, and after the HDR function under the WINDOWS10 operating system is turned on, the terminal device may set the HDR standard to a default display standard. When the HDR image is required to be displayed, the terminal equipment can identify the HDR mark carried by the HDR image, so that the HDR image can be displayed by adopting a default HDR standard; if the HDR mark is not recognized, the terminal equipment can judge that the SDR image needs to be displayed, so that SDR standard display can be adopted. Of course, the specific display standard is not limited in this embodiment, and the terminal device may support the display function of the image corresponding to any number of display standards.

And 103, when a frame selection instruction for the local image in the target interface image is detected, determining a target display standard corresponding to the local image.

In implementation, when the terminal device displays the target interface image and the display standard needs to be adjusted for the local image in the target interface image, the user can execute the frame selection operation for the local image, so that the terminal device can be triggered to detect the corresponding frame selection instruction. The user can select the target display standard corresponding to the local image while selecting the local image, so that the terminal device can determine the target display standard based on the selection operation of the user. It will be appreciated that when the terminal device supports only two display criteria, the user need not select the target display criteria after the frame selection, and the terminal device can determine itself. Further, when the terminal device detects the frame selection instruction, it may first determine whether a switching condition of the display standard is currently satisfied, where the switching condition may be: whether the display standard switching function has been turned on, or whether the current display interface contains a video clip interface, etc.

And 104, redisplaying the local image based on the target display standard, and displaying other images which are not local images in the target interface image based on the original display standard.

In implementation, after determining the target display standard corresponding to the local image, the terminal device may redisplay the local image based on the target display standard, and display other image areas except the local image in the target interface image based on the original display standard. For example, when the user frame selects the partial image and selects the partial image to correspond to the HDR standard, the terminal device may display the partial image in the HDR standard and display other image portions except the partial image in the target interface image in the SDR standard, specifically, after the user frame selects the partial image, the terminal device may perform inverse operation of SDR to HDR on the data of the partial image, and then process the data for display based on EOTF (Electro-optical transfer function) of HDR. It should be noted that the HDR standard mentioned in this embodiment may be any sub-standard under the HDR standard, such as HDR10, HLG, dolby Vision, or the like.

Alternatively, the terminal device may support the simultaneous presence of multiple partial images, and the processing in step 103 may be as follows: and when detecting a frame selection instruction for a plurality of local images in the target interface image, respectively determining a target display standard corresponding to each local image.

In implementation, when the terminal device displays the target interface image and the display standard is required to be respectively adjusted for a plurality of local images in the target interface image, the user can execute the frame selection operation for the plurality of local images, so that the terminal device can be triggered to detect the frame selection instruction corresponding to each local image. The user can select the local images and select the target display standard corresponding to each local image, so that the terminal device can determine the target display standard corresponding to each local image based on the selection operation of the user, and the terminal device can refer to fig. 2. Thus, when executing step 104, the terminal device may display the partial images based on the display standard corresponding to each partial image, and display the image area not framed in the target interface image by using the original display standard.

Optionally, the user does not need to repeat the same box selection operation for each interface image, and accordingly, there may be the following processes: if the frame selection instruction with the same area, size and display standard exists in the continuous multiple interface images, when the subsequent interface images are displayed, the local images pointed by the frame selection instruction are redisplayed based on the display standard corresponding to the frame selection instruction, and other images which are not the local images are displayed based on the original display standard.

In implementation, when displaying the interface images, if the terminal device detects the frame selection instruction in the plurality of interface images (for example, 3 interface images) that are continuously displayed, and the area, the size and the display standard of the frame selection range corresponding to the frame selection instruction between different interface images are the same, as shown in fig. 3, all frame selection instructions in the plurality of interface images that are continuously displayed can be duplicated when displaying the subsequent interface images, that is, based on the display standard corresponding to each frame selection instruction, the local image pointed by each frame selection instruction is redisplayed, and other images that are not local images are displayed based on the original display standard. In another case, if the frame selection instruction is detected in the plurality of interface images which are continuously displayed, and the same frame selection instruction with consistent area, size and display standard exists in different interface images, as shown in fig. 4, the frame selection instruction can be copied when the subsequent interface images are displayed, that is, the local image pointed by the frame selection instruction is redisplayed based on the display standard corresponding to the frame selection instruction, and other images which are not local images are displayed based on the original display standard. It can be understood that, when video editing is performed, the layout of the interface image displayed in each refresh is basically similar, so that after continuous frame selection for a plurality of times, the terminal device can automatically copy the frame selection operation, thereby simplifying the user operation. Further, when the user performs the frame selection operation again in the subsequent interface image, the copy processing for the frame selection instruction in the preceding interface image may be canceled.

Optionally, before copying the frame selection instruction in the previous interface image, the relevant attribute of the subsequent interface image needs to be determined, and the corresponding processing may be as follows: judging whether the subsequent interface image contains sub-interface images belonging to the same application process with the continuous multiple interface images; if yes, acquiring interface display proportions of the sub-interface images and the continuous multiple interface images; and determining the local image pointed by the frame selection instruction in the sub-interface image according to the interface display proportion.

In implementation, when the terminal device displays the interface images, if the frame selection instruction is detected in the plurality of interface images (such as 3 interface images) which are continuously displayed, and the area, the size and the display standard of the frame selection range corresponding to the frame selection instruction among the different interface images are the same, or if the frame selection instruction is detected in the plurality of interface images which are continuously displayed, and the same frame selection instruction with the same area, the same size and the same display standard exists in the different interface images, whether the subsequent interface images contain sub-interface images belonging to the same application process with the continuous plurality of interface images can be further determined. Here, considering that the interface image may have a zoom function, a sub-interface image of a plurality of application processes may be simultaneously included in the interface image displayed later, and when the subsequent interface image includes a sub-interface image of the same application process, it is necessary to copy the box selection instruction in the previous interface image. Next, if the sub-interface image of the same application process is included, the terminal device may acquire the interface display proportions of the sub-interface image and the continuous multiple interface images, and correspondingly adjust the area and the size of the frame selection instruction in the sub-interface image according to the interface display proportions, so as to determine the local image pointed by the frame selection instruction, which may be shown in fig. 5.

It should be noted that, based on consideration of interface scaling, the areas and the sizes of the frame selection instructions in the continuous multiple interface images in the condition of triggering and copying the frame selection instructions are the same, and the relative areas and the relative sizes of the frame selection instructions to the sub-interface images of the application process may be the same.

Optionally, when the box selection area is too small, the corresponding box selection instruction does not need to be copied, and the corresponding processing may be as follows: judging the display visible area of the partial image pointed by each frame selection instruction; when the display visual area of the target partial image is larger than a preset threshold, redisplaying the target partial image based on a display standard corresponding to the frame selection instruction, and displaying other images of the non-target partial image based on the original display standard; and when the display visual area of the target partial image is not larger than a preset threshold value, saving a frame selection instruction of the target partial image, and displaying the target partial image based on the original display standard.

In implementation, when the terminal device displays the subsequent interface image, after determining the partial image pointed by the frame selection instruction, the display visual area of the partial image pointed by each frame selection instruction can be firstly judged, and the display visual area can be influenced by the size of a display window of the sub-interface image or by whether other windows are blocked on the partial image. When the display visual area of the target partial image is detected to be larger than the preset threshold, the terminal equipment can redisplay the target partial image based on the display standard corresponding to the frame selection instruction, and display other images of the non-target partial image based on the original display standard. When the display visual area of the target partial image is not greater than the preset threshold, the terminal device can display the target partial image based on the original display standard, and can simultaneously store a frame selection instruction for the target partial image, so that the target partial image is displayed again based on the display standard corresponding to the frame selection instruction after the display visual area of the target partial image is restored to be above the preset threshold. It will be appreciated that in the video editing process, the partial images selected by the frame are generally video frame playing areas, so that more suitable display standards are required, and when the visual area of the partial images displayed is too small, the possibility of video editing in the current interface image is impossible with high probability, so that the process of adjusting the display standards corresponding to the partial images is not required.

Alternatively, the internal framing instructions in one partial image may be synchronized to other associated partial images, and the corresponding processing may be as follows: when detecting a new internal frame selection instruction in the target partial image, determining other partial images with the same image shape and display standard as those of the target partial image; determining an internal frame selection image in the other local images according to the size relation between the other local images and the target local image; and displaying the internal frame selection image and the frame selection image pointed by the internal frame selection instruction based on the secondary display standard corresponding to the internal frame selection instruction.

In implementation, after the user frames the partial image in the target interface image, further frame selection operation may be performed in the target partial image to readjust the display standard of the relevant image area. In this way, the terminal device can detect the newly added internal frame selection instruction in the target local image, and further determine other local images with the same image shape and display standard as those of the target local image in the current interface image. It can be appreciated that in the video editing process, there may be multiple windows, such as an original video playing window, a video editing window, a final effect preview window, etc., where the shapes of the multiple windows are substantially consistent with the display standards, and when the user adjusts the display standard in one window, the terminal device can automatically correspondingly adjust the display standards in the other windows. Therefore, the terminal device may copy the internal frame selection instruction in the target partial image in the other partial image according to the size relationship between the other partial image and the target partial image, that is, determine the internal frame selection image in the other partial image, and further display the internal frame selection image in the target partial image and the other partial image based on the secondary display standard corresponding to the internal frame selection instruction, which may be shown in fig. 6.

Optionally, when the user cancels the validated box selection instruction, the relevant box selection operation may be stored, and the corresponding processing may be as follows: when all clearing operations of the frame selection instruction aiming at the first interface image are detected, judging whether the first interface image is identical with a second interface image when the frame selection instruction is newly added; if not, storing all the frame selection forms and display standards contained in the second interface image in the form of auxiliary plug-ins.

In implementation, the user can cancel the box selection instruction existing in the interface image through a preset operation, and the box selection instruction can be input by the user or can be added automatically after the terminal equipment is copied. When all clearing operations of the frame selection instruction aiming at the first interface image are detected, the terminal equipment can judge whether the first interface image is identical with a second interface image when the frame selection instruction is newly added, if so, the frame selection instruction is not validated, and if not, the frame selection instruction is validated. At this time, the terminal device may store all the frame selection forms and the display standards included in the second interface image in the form of an auxiliary plug-in, so that the user can directly call when displaying other interface images later.

By adopting the interface image display method disclosed by the application, terminal equipment receives a display request of a target interface image and judges whether the target interface image is an SDR image or not; if yes, displaying a target interface image based on a preset SDR standard, otherwise, displaying the target interface image based on a default display standard; when a frame selection instruction for a local image in the target interface image is detected, determining a target display standard corresponding to the local image; the partial image is redisplayed based on the target display criteria, and other images than the partial image in the target interface image are displayed based on the original display criteria. Therefore, the user can quickly and accurately complete the adjustment of the display standard of the images in the frame selection area through simple frame selection operation in the interface image, and meanwhile, the display effect of other image areas is not affected, so that the convenience and effect of video editing can be greatly improved.

Based on the same technical concept, the embodiment of the application further provides an interface image display device, where the device adopts a WINDOWS10 operating system, as shown in fig. 7, and the device includes:

the image receiving module 701 is configured to receive a display request of a target interface image, and determine whether the target interface image is an SDR image;

an image display module 702, configured to display the target interface image based on a preset SDR standard if yes, and otherwise display the target interface image based on a default display standard;

an image frame selection module 703, configured to determine, when a frame selection instruction for a local image in the target interface image is detected, a target display standard corresponding to the local image;

the image display module 702 is further configured to redisplay the partial image based on the target display standard, and display other images that are not the partial image in the target interface image based on an original display standard.

Optionally, the image frame selection module 703 is specifically configured to:

and when detecting a frame selection instruction for a plurality of local images in the target interface image, respectively determining a target display standard corresponding to each local image.

Optionally, the image display module 702 is further configured to:

if the frame selection instruction with the same area, size and display standard exists in the continuous multiple interface images, when the subsequent interface images are displayed, the local image pointed by the frame selection instruction is redisplayed based on the display standard corresponding to the frame selection instruction, and other images which are not the local image are displayed based on the original display standard.

Optionally, the image frame selection module 703 is further configured to:

judging whether the subsequent interface image contains a sub-interface image belonging to the same application process with the continuous multiple interface images;

if yes, acquiring interface display proportions of the sub-interface images and the continuous multiple interface images;

and determining the local image pointed by the frame selection instruction in the sub-interface image according to the interface display proportion.

Optionally, the image display module 702 is specifically configured to:

judging the display visible area of the partial image pointed by each frame selection instruction;

when the display visual area of the target partial image is larger than a preset threshold, redisplaying the target partial image based on a display standard corresponding to the frame selection instruction, and displaying other images which are not the target partial image based on the original display standard;

and when the display visual area of the target partial image is not larger than a preset threshold value, saving a frame selection instruction of the target partial image, and displaying the target partial image based on the original display standard.

Optionally, the image display module 702 is further configured to:

when detecting a new internal frame selection instruction in a target partial image, determining other partial images with the same image shape and display standard as those of the target partial image;

determining an internal frame selection image in the other local images according to the size relation between the other local images and the target local image;

and displaying the internal frame selection image and the frame selection image pointed by the internal frame selection instruction based on a secondary display standard corresponding to the internal frame selection instruction.

Optionally, as shown in fig. 8, the apparatus further includes an instruction storage module 704, configured to:

when all clearing operations of a frame selection instruction aiming at a first interface image are detected, judging whether the first interface image is identical with a second interface image when the frame selection instruction is newly added;

and if the frame selection forms and the display standards contained in the second interface image are not the same, storing all frame selection forms and the display standards contained in the second interface image in the form of auxiliary plug-ins.

The embodiment of the application also provides a terminal device, which comprises a processor and a memory, wherein at least one instruction, at least one section of program, a code set or an instruction set is stored in the memory, and the at least one instruction, the at least one section of program, the code set or the instruction set is loaded and executed by the processor to realize the interface image display method as shown in the steps 101-104.

It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program for instructing relevant hardware, where the program may be stored in a computer readable storage medium, and the storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.

The foregoing description of the preferred embodiments of the present application is not intended to limit the scope of the application, in which any feature disclosed in this specification (including abstract and drawings) may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise. That is, each feature is one example only of a generic series of equivalent or similar features, unless expressly stated otherwise.

Claims (10)

1. An interface image display method, wherein the method is applied to a terminal device adopting a WINDOWS10 operating system, and the method comprises the following steps:

receiving a display request of a target interface image, and judging whether the target interface image is an SDR image or not;

if yes, displaying the target interface image based on a preset SDR standard, otherwise, displaying the target interface image based on a default display standard;

when a frame selection instruction for a local image in the target interface image is detected, determining a target display standard corresponding to the local image;

and redisplaying the local image based on the target display standard, and displaying other images which are not the local image in the target interface image based on the original display standard.

2. The method of claim 1, wherein when detecting a box selection instruction for a partial image within the target interface image, determining a target display standard corresponding to the partial image comprises:

and when detecting a frame selection instruction for a plurality of local images in the target interface image, respectively determining a target display standard corresponding to each local image.

3. The method according to claim 1, wherein the method further comprises:

if the frame selection instruction with the same area, size and display standard exists in the continuous multiple interface images, when the subsequent interface images are displayed, the local image pointed by the frame selection instruction is redisplayed based on the display standard corresponding to the frame selection instruction, and other images which are not the local image are displayed based on the original display standard.

4. The method according to claim 3, wherein before redisplaying the partial image pointed to by the box selection instruction based on the display standard corresponding to the box selection instruction and displaying the other image than the partial image based on the original display standard, the method further comprises:

judging whether the subsequent interface image contains a sub-interface image belonging to the same application process with the continuous multiple interface images;

if yes, acquiring interface display proportions of the sub-interface images and the continuous multiple interface images;

and determining the local image pointed by the frame selection instruction in the sub-interface image according to the interface display proportion.

5. The method according to claim 4, wherein redisplaying the partial image pointed to by the box selection instruction based on the display standard corresponding to the box selection instruction, and displaying other images than the partial image based on the original display standard, comprises:

judging the display visible area of the partial image pointed by each frame selection instruction;

when the display visual area of the target partial image is larger than a preset threshold, redisplaying the target partial image based on a display standard corresponding to the frame selection instruction, and displaying other images which are not the target partial image based on the original display standard;

and when the display visual area of the target partial image is not larger than a preset threshold value, saving a frame selection instruction of the target partial image, and displaying the target partial image based on the original display standard.

6. The method according to claim 1, wherein the method further comprises:

when detecting a new internal frame selection instruction in a target partial image, determining other partial images with the same image shape and display standard as those of the target partial image;

determining an internal frame selection image in the other local images according to the size relation between the other local images and the target local image;

and displaying the internal frame selection image and the frame selection image pointed by the internal frame selection instruction based on a secondary display standard corresponding to the internal frame selection instruction.

7. The method according to any one of claims 1-6, wherein after displaying the internal frame selection image and the frame selection image pointed to by the internal frame selection instruction based on the secondary display standard corresponding to the internal frame selection instruction, further comprises:

when all clearing operations of a frame selection instruction aiming at a first interface image are detected, judging whether the first interface image is identical with a second interface image when the frame selection instruction is newly added;

and if the frame selection forms and the display standards contained in the second interface image are not the same, storing all frame selection forms and the display standards contained in the second interface image in the form of auxiliary plug-ins.

8. An interface image display device, wherein the device employs a WINDOWS10 operating system, the device comprising:

the image receiving module is used for receiving a display request of a target interface image and judging whether the target interface image is an SDR image or not;

the image display module is used for displaying the target interface image based on a preset SDR standard if the target interface image is displayed, otherwise, displaying the target interface image based on a default display standard;

the image frame selection module is used for determining a target display standard corresponding to the local image when a frame selection instruction for the local image in the target interface image is detected;

the image display module is further used for redisplaying the local image based on the target display standard and displaying other images which are not the local image in the target interface image based on the original display standard.

9. A terminal device, characterized in that it comprises a processor and a memory, in which at least one instruction, at least one program, a set of codes or a set of instructions is stored, which is loaded and executed by the processor to implement the interface image display method according to any one of claims 1 to 7.

10. A computer readable storage medium having stored therein at least one instruction, at least one program, code set, or instruction set, the at least one instruction, the at least one program, the code set, or instruction set being loaded and executed by a processor to implement the interface image display method of any one of claims 1 to 7.