WO2021031883A1 - 显示数据处理、显示方法、装置、终端及可读存储介质 - Google Patents

显示数据处理、显示方法、装置、终端及可读存储介质 Download PDF

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Publication number
WO2021031883A1
WO2021031883A1 PCT/CN2020/107753 CN2020107753W WO2021031883A1 WO 2021031883 A1 WO2021031883 A1 WO 2021031883A1 CN 2020107753 W CN2020107753 W CN 2020107753W WO 2021031883 A1 WO2021031883 A1 WO 2021031883A1
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Prior art keywords
display
display data
data processing
display screen
processing result
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PCT/CN2020/107753
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English (en)
French (fr)
Inventor
徐源源
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中兴通讯股份有限公司
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Application filed by 中兴通讯股份有限公司 filed Critical 中兴通讯股份有限公司
Priority to US17/617,366 priority Critical patent/US11798230B2/en
Priority to EP20854824.8A priority patent/EP4020160A4/en
Publication of WO2021031883A1 publication Critical patent/WO2021031883A1/zh

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/14Digital output to display device ; Cooperation and interconnection of the display device with other functional units
    • G06F3/147Digital output to display device ; Cooperation and interconnection of the display device with other functional units using display panels
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06TIMAGE DATA PROCESSING OR GENERATION, IN GENERAL
    • G06T17/00Three dimensional [3D] modelling, e.g. data description of 3D objects
    • G06T17/20Finite element generation, e.g. wire-frame surface description, tesselation
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/048Interaction techniques based on graphical user interfaces [GUI]
    • G06F3/0484Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/14Digital output to display device ; Cooperation and interconnection of the display device with other functional units
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F9/00Arrangements for program control, e.g. control units
    • G06F9/06Arrangements for program control, e.g. control units using stored programs, i.e. using an internal store of processing equipment to receive or retain programs
    • G06F9/44Arrangements for executing specific programs
    • G06F9/451Execution arrangements for user interfaces
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06TIMAGE DATA PROCESSING OR GENERATION, IN GENERAL
    • G06T15/003D [Three Dimensional] image rendering
    • G06T15/10Geometric effects
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06TIMAGE DATA PROCESSING OR GENERATION, IN GENERAL
    • G06T19/00Manipulating 3D models or images for computer graphics
    • G06T19/20Editing of 3D images, e.g. changing shapes or colours, aligning objects or positioning parts
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G2370/00Aspects of data communication
    • G09G2370/04Exchange of auxiliary data, i.e. other than image data, between monitor and graphics controller

Definitions

  • the embodiments of the present disclosure relate to, but are not limited to, the field of image processing technology.
  • the image display tends to be deformed accordingly. This kind of deformation sometimes affects the display effect, but sometimes it also produces peculiar display effects.
  • the current screenshot method will completely record the image on the display component, but cannot record the effect of deformation. In flexible screen products, it cannot meet the needs of users to record the actual display effect, and the user experience is low.
  • the embodiment of the present disclosure provides a display data processing method, which includes: acquiring a display data saving instruction; when the display screen is deformed, saving the display data and display state parameters corresponding to the display screen to obtain the display data processing result.
  • the embodiment of the present disclosure also provides a display method, which includes: obtaining the display data processing result described herein; when the type includes the source file and the three-dimensional model, determining whether the current display screen can follow the display state parameters Perform corresponding deformation processing; if yes, perform corresponding deformation processing on the display screen according to the display state parameters, and display the tiled image on the display screen; if not, set the type to three-dimensional
  • the display data processing result of the model is displayed on the display screen.
  • the embodiment of the present disclosure also provides a display data processing device, the display data processing device includes: a first acquisition module configured to acquire display data saving instructions; a saving module configured to save the display data when the display screen is deformed The display data and display state parameters corresponding to the display screen obtain the display data processing result.
  • the embodiment of the present disclosure also provides a display device, the display device includes: a fourth acquisition module configured to acquire the display data processing results described herein; a display module configured to when the category includes the source file and In the case of a three-dimensional model, it is determined whether the current display screen can perform corresponding deformation processing according to the display state parameters; if so, the display module performs corresponding deformation processing on the display screen according to the display state parameters, and the flat The layout is displayed on the display screen; if not, the display module displays the display data processing result of the three-dimensional model on the display screen.
  • the embodiment of the present disclosure also provides a display data processing terminal, the display data processing terminal includes: a processor, a memory, and a communication bus; the communication bus is configured to realize connection and communication between the processor and the memory; The processor is configured to execute one or more computer programs stored in the memory to implement the steps of any display data processing method as described herein.
  • the embodiment of the present disclosure further provides a readable storage medium, the readable storage medium stores one or more first computer programs, and the one or more first computer programs can be used by one or more first processors Executed to implement the steps of any display data processing method as described herein; or, the readable storage medium stores one or more second computer programs, and the one or more second computer programs can be Or executed by multiple second processors to implement the steps of any one of the display methods described herein.
  • FIG. 1 is a schematic flowchart of a display data processing method provided by Embodiment 1 of the present disclosure
  • 2A is a structural schematic diagram of an undeformed display screen of an axially folded flexible system
  • FIG. 2B is a schematic structural diagram of the state after the display screen of FIG. 2A is deformed
  • FIG. 3A is a schematic structural diagram of a display screen in an undeformed state of an array substrate type flexible system
  • 3B is a schematic diagram of the state structure diagram of the display screen of FIG. 3A after deformation
  • FIG. 4 is a schematic flowchart of a specific embodiment of a display data processing method provided in Embodiment 1 of the present disclosure
  • FIG. 5 is a schematic flowchart of another specific embodiment of a display data processing method according to Embodiment 1 of the present disclosure.
  • FIG. 6 is a schematic flowchart of a display method provided by Embodiment 2 of the present disclosure.
  • FIG. 7 is a structural diagram of a display data processing device provided by Embodiment 3 of the disclosure.
  • FIG. 8 is a structural diagram of a display device provided in the fourth embodiment of the disclosure.
  • FIG. 9 is a schematic structural diagram of a display data processing terminal provided by Embodiment 5 of the disclosure.
  • FIG. 10 is a schematic structural diagram of a display terminal provided by Embodiment 6 of the present disclosure.
  • a display data processing method includes: S101: Obtain display data saving instructions; S102: When the display screen is deformed, save the display data and display state parameters corresponding to the display screen to obtain Display the results of data processing.
  • the display data saving instruction in the embodiment of the present disclosure may be a screenshot instruction, or a photographing instruction, a video recording instruction, a screen recording instruction, and other instructions that need to store or cache display data.
  • the save instruction for the display image or the display video is essentially the save instruction for the display data. Therefore, the save instruction for the display image or the display video is also included in the display data save instruction protected by the embodiment of the present disclosure. .
  • the execution state of the embodiment of the present disclosure may be that when there is a deformation to the display screen, the display screen data and display state parameters corresponding to the display screen are saved to obtain the display data process result. For example: when terminal B is shooting a 1-minute video, its display screen is deformed from the 5th to 9th seconds, then the display data and display status parameters from the 5th to 9th seconds will be saved to obtain a copy of the type The display data processing results of the tiled graph + display state parameters. It should be noted that when the display data processing result is a video, the tile can be understood as an image of each frame of the video.
  • the display data saving instruction may be issued by the terminal itself where the deformable display screen is located; the display data saving instruction may also be an instruction received by the terminal from another server or other terminal.
  • At least one of the display screens of the terminal targeted by the embodiments of the present disclosure is a deformable display screen.
  • the terminal includes at least one flexible screen.
  • the types of display data processing results include at least one of the following: source files and three-dimensional models; wherein the source files include tiles obtained from the display data and display state parameters.
  • the type of the displayed data processing result can also be a tiled image, so that the user can share the tiled image with the display screen as a non-deformable mobile phone, or improve the processing efficiency when the user only needs to save the tiled image .
  • the method when the type of display data processing result includes a three-dimensional model, after obtaining the display data saving instruction, the method further includes: obtaining a preset basic model; correspondingly adjusting the basic model according to the state parameters of the display screen to obtain The deformation model corresponding to the state parameter; the tiled image and the deformation model are subjected to texture processing, and the display data processing result of the type of three-dimensional model is obtained.
  • the preset basic model may be preset according to the display state parameters of the terminal.
  • the preset basic model may also be obtained after preliminary settings are made according to the display state parameters of the terminal and the user adjusts according to his preferences.
  • the texture processing of the tiled map and the deformed model can be based on the pixel-to-point method, and the tiled map and the deformed model are mapped to obtain the display that the terminal deforms while the display data save instruction is retrieved.
  • 3D model of the image displayed on the screen For example, the display screen is currently in a half-folded state with a certain angle, and the effect of the displayed image observed by the user is state A.
  • the type obtained by applying the method of the embodiment of the present disclosure is the result of the display data processing of the three-dimensional model. What is presented is a three-dimensional image of state A with a certain angle of the folded state.
  • the method further includes: performing image adjustment; and obtaining a display data processing result of a three-dimensional model.
  • the display screen state parameters include but are not limited to at least one of the following: display screen display parameters and display screen deformation parameters.
  • the display parameters of the display screen include but are not limited to at least one of the following: the number of display screens, and the full resolution of each sub-display screen constituting the display screen.
  • the deformation parameter of the display screen is related to the deformation type of the display screen. Two more common types of deformation of the display screen are taken as examples to illustrate the deformation parameters of the display screen. It should be noted that the following description is only an exemplary description. For other deformation types of display screens, the known deformation parameters of the display screen or known to those skilled in the art can be used as the display screen deformation parameters.
  • the deformation parameters of the display screen include but are not limited to at least one of the following: the number of axes, the position of each axis, the bending direction of each axis, the rotation angle, and the curvature. It should be noted that the position of each axis can also be marked by pre-setting a coordinate system, using coordinate points and other feasible methods, and the method of marking the position of each axis is not limited in the embodiment of the present disclosure. It should be noted that the various axes may be parallel or non-parallel, which is not limited here.
  • 2A is a schematic diagram of an undeformed state of the display screen of an axially folded flexible system, which includes a first axis 201 and a second circle 202, where the first axis 201 is located at a distance A from the left side of the display screen, and the second axis 202 is located at distance B on the right side of the display.
  • 2B is a schematic diagram of the state of the display screen shown in FIG. 2A after being deformed.
  • the deformation parameters of the display screen include but are not limited to the layout mode and curvature of the array matrix in different directions.
  • FIG. 3A and FIG. 3B are only an exemplary description of the display screen of the flexible system of the array substrate type, and the solutions of the embodiments of the present disclosure are also applicable to display screens of other layout modes.
  • 3A is a schematic diagram of an undeformed state of the display screen of an array substrate type flexible system, which has an array matrix layout of A-M in the horizontal direction and 1-8 in the vertical direction.
  • Figure 3B is a schematic diagram of the state of the display screen of Figure 3A after deformation.
  • the deformation parameters of the display screen also include the curvature of each monitoring point at the center point of the detection array.
  • the way to obtain the user's intention can be to pop up an inquiry box in the display interface of the display screen and ask the user each time; it can also be set by the user or the system; it can also be based on the user's usage habits. After a certain amount of learning, the type of data processing result displayed this time is automatically set.
  • the method further includes: adding a mark to the display data processing result.
  • adding a mark to the display data processing result can help the user to classify, view, classify and archive the display data saved or received by the user, and quickly distinguish whether the display data processing result includes the display state parameters.
  • the method further includes: sending the display data processing result according to the first preset rule.
  • the display data processing result can be sent by sharing, emailing, or sending with the help of other software, such as sending via WeChat.
  • the first preset rule includes: when the type includes the source file and the three-dimensional model, determining whether the receiving end display screen can perform corresponding deformation processing according to the display state parameter; if so, the sending type is the source file If not, send the display data processing result of the three-dimensional model.
  • the above display data processing method will be further described in detail through a specific embodiment. As shown in Fig. 4, the method may include steps S401 to S405.
  • step S402 the user's intention is acquired, and the user's intention includes the type of the displayed data processing result.
  • step S403 according to the user's intention, when the display screen is deformed, the display data corresponding to the display screen and the display state parameters are saved to obtain the display data processing result.
  • step S404 a mark is added to the display data processing result.
  • step S405 the display data processing result is sent according to the first preset rule.
  • the method further includes: determining whether the receiving end display screen can perform corresponding deformation processing according to the display state parameters; if so, sending the display data processing of the source file type Result; if not, send the display data processing result of the three-dimensional model.
  • the display data processing results are saved accordingly, which can save the storage space of the terminal and the resources and processing time occupied by the processing process, better meet the needs of the user, and improve the user experience.
  • the display data processing result can be the same tiled image as in the prior art, or it can be understood that regardless of the current deformation state of the display screen, the display picture in the flat state of the display screen is saved by default. It can also be a tiled image and display state parameters that can be provided to other deformable terminals for corresponding deformation. It should be noted that the display state parameters obtained by other terminals can be used directly or after calculation and conversion.
  • the second display screen will determine the second display screen after receiving the first display data processing result Whether it is a display screen with the same deformation rules as the first display screen, or whether it is a display screen of the same model, if so, directly use the display state parameters for deformation, and the second display screen after deformation and the first display screen take screenshots at the same time
  • the deformation state is the same.
  • the image state displayed on the second display screen at this time is consistent with the image state of the screenshot of the first display screen.
  • the user of the second display screen can watch the same image as the screenshot of the user on the first display screen at the time through some viewing guidelines, etc., which means that what the user of the first display screen sees is what the user of the second display screen gains.
  • the method when the type of display data processing result includes a three-dimensional model, the method further includes steps S501 to S505.
  • step S501 a preset basic model is obtained.
  • step S503 the tiled image and the deformed model are subjected to texture processing.
  • step S504 image adjustment is performed.
  • step S505 a display data processing result whose type is a three-dimensional model is obtained.
  • the display data processing method provided by the embodiments of the present disclosure obtains display data saving instructions; when the display screen is deformed, the display data corresponding to the display screen and the state parameters of the display screen are saved to obtain the display data processing result.
  • the display data is processed in a targeted manner, and an image of a corresponding angle or a video or model of a viewing angle change is output according to the user's instruction.
  • By adding marks to the display data processing results it is more convenient for users to further identify the display data processing results in the future, which is convenient for users follow-up operations.
  • the basic model is adjusted according to the display state parameters to obtain the model corresponding to the display state parameters, and then the tiled map and the deformation model are mapped to obtain the display data processing results of the three-dimensional model, which can make the user need
  • a display method provided in this embodiment includes: S601: Obtain the display data processing result of any one of the foregoing embodiments; S602: Display the display data processing result according to a second preset rule.
  • the second preset rule includes: when the type includes source files and 3D models, it is determined whether the current display screen can perform corresponding deformation processing according to the display state parameters; if so, the display screen is correspondingly processed according to the display state parameters If not, display the data processing result of the three-dimensional model type on the display screen.
  • the obtained display data processing result is one type, for example, one of the source file, tiled map, and three-dimensional model
  • the obtained display data processing result is directly displayed.
  • the display failure prompt may be provided to the sending end while prompting the receiving end user with a display failure prompt.
  • the display may also be performed according to a second preset rule set by the user.
  • the 3D model can be displayed by default, or the source file can be displayed by default.
  • the display screen is set to display a tiled image or a three-dimensional model by default.
  • the second preset rule can also be adjusted according to the learned user's usage habits. For example, it is learned that the user displays the source file when the user is connected to WiFi, and displays the three-dimensional model or the flat file in the traffic state. If the map is laid out, the second preset rule is adjusted accordingly.
  • the second preset rule can also be set according to the time of use. For example, the default setting is to display the 3D model from 8 pm to 7 am the next day, and the type of the data processing result is the source file. Is not displayed by default.
  • the method of obtaining the display data processing results described in the foregoing embodiments may be: receiving the display data processing results sent by other terminals or servers and displaying them, or the terminal itself may obtain the display data after saving the display data.
  • the display data processing results are displayed.
  • the display screen of terminal A is in a deformed state, there is a screen recorder.
  • terminal A views the screen recorder, that is, it displays, it can display the screen recorder according to the second preset rule.
  • terminal B is shooting a 1-minute video
  • its display screen deforms from the 5th to the 9th second, and obtains a display data processing result of the type of tile + display state parameter. It sends the display data processing result to terminal C through the server or Bluetooth.
  • terminal C After receiving the above display data processing result, terminal C controls its display screen to perform corresponding deformation according to the display state parameters from the 5th to 9th seconds.
  • the display data processing result is a video
  • the tile can be understood as an image of each frame of the video.
  • the display method provided by the embodiment of the present disclosure obtains the display data processing result of any one of the foregoing embodiments, and displays the display data processing result according to the second preset rule.
  • the acquired display data processing result can be used to display either the three-dimensional model of the display data processing result or the deformation adjustment of its own display screen through the display state parameters, so that the adjusted display screen can display
  • the data processing result of the display screen is consistent with its actual state, which meets the needs of the user to be able to watch and record the actual display effect, and enhance the user experience.
  • the display data processing device 700 includes a first obtaining module 701 and a saving module 702.
  • the first obtaining module 701 is configured to obtain display data saving instructions
  • the saving module 702 is configured to save the display data and state parameters of the display screen corresponding to the display screen when the display screen is deformed to obtain the display data processing result.
  • the display data saving instruction in the embodiment of the present disclosure may be a screenshot instruction, or a photographing instruction, a video recording instruction, a screen recording instruction, and other instructions that need to store or cache display data.
  • the save instruction for the display image or the display video is essentially the save instruction for the display data. Therefore, the save instruction for the display image or the display video is also included in the display data save instruction protected by the embodiment of the present disclosure. .
  • the execution state of the embodiment of the present disclosure may be that when there is a deformation to the display screen, the display screen data and display state parameters corresponding to the display screen are saved to obtain the display data process result. For example: when device B is shooting a 1-minute video, its display screen is deformed from the 5th to the 9th second, then the display data and the display status parameters from the 5th to 9th seconds will be saved to obtain a copy of the type
  • the tile can be understood as an image of each frame of the video.
  • the display data saving instruction is issued by the terminal where the deformable display screen is located; the display data saving instruction may also be an instruction received by the terminal from another server or other terminal.
  • At least one of the display screens of the display data processing device targeted by the embodiments of the present disclosure is a deformable display screen, for example, includes at least one flexible screen.
  • the types of display data processing results include at least one of the following: source files and three-dimensional models; wherein the source files include tiles obtained from the display data and display state parameters.
  • the type of display data processing result can also be only a tile, so that the user can share the tile with the display screen as a non-deformable mobile phone, or improve the processing when the user only needs to save the tile. effectiveness.
  • the display data processing device when the type of display data processing result includes a three-dimensional model, the display data processing device further includes: a second acquisition module configured to acquire a preset basic model; The model is adjusted accordingly to obtain a deformation model corresponding to the state parameters of the display screen; the processing module is configured to map the tile map and the deformation model to obtain the display data processing result of the three-dimensional model.
  • the preset basic model may be preset according to the display state parameters of the terminal.
  • the preset basic model may also be obtained after preliminary settings are made according to the display state parameters of the terminal and the user adjusts according to his preferences.
  • the texture processing of the tiled map and the deformed model can be based on the pixel-to-point method, and the tiled map and the deformed model are mapped to obtain the display that the terminal deforms while the display data save instruction is retrieved.
  • 3D model of the image displayed on the screen For example, the display screen is currently in a half-folded state with a certain angle, and the effect of the displayed image observed by the user is state A.
  • the type obtained by applying the method of the embodiment of the present disclosure is the result of the display data processing of the three-dimensional model. What is presented is a three-dimensional image of state A with a certain angle of the folded state.
  • the processing module is further configured to: perform image adjustment after the tiled map and the deformed model are subjected to texture processing; to perform image adjustment; and to obtain a display data processing result of a three-dimensional model.
  • image adjustment includes but is not limited to at least one of the following: zoom, rotation angle, brightness adjustment, contrast adjustment, adding texture, adding text, adding music, and so on.
  • the obtained type of display data processing result of the three-dimensional model is angle A, but the user's actual viewing angle may be angle B. At this time, the user can adjust the angle of the display data processing result to make it more suitable for their real needs. Display the results of data processing.
  • the display screen state parameters include but are not limited to at least one of the following: display screen display parameters and display screen deformation parameters.
  • the display parameters of the display screen include but are not limited to at least one of the following: the number of display screens, and the full resolution of each sub-display screen constituting the display screen.
  • the deformation parameter of the display screen is related to the deformation type of the display screen. Two more common types of deformation of the display screen are taken as examples to illustrate the deformation parameters of the display screen. It should be noted that the following description is only an exemplary description. For other deformation types of display screens, the known deformation parameters of the display screen or known to those skilled in the art can be used as the display screen deformation parameters.
  • the deformation parameters of the display screen include but are not limited to at least one of the following: the number of axes, the position of each axis, the bending direction of each axis, the rotation angle, and the curvature. It should be noted that the position of each axis can also be marked by pre-setting a coordinate system, using coordinate points and other feasible methods, and the method of marking the position of each axis is not limited in the embodiment of the present disclosure. It should be noted that the various axes may be parallel or non-parallel, which is not limited here.
  • the deformation parameters of the display screen include but are not limited to the layout mode and curvature of the array matrix in different directions.
  • FIG. 3A and FIG. 3B are only an exemplary description of the display screen of the flexible system of the array substrate type, and the solutions of the embodiments of the present disclosure are also applicable to display screens of other layout modes.
  • 3A is a schematic diagram of an undeformed state of the display screen of an array substrate type flexible system, which has an array matrix layout of A-M in the horizontal direction and 1-8 in the vertical direction.
  • Figure 3B is a schematic diagram of the state of the display screen of Figure 3A after deformation.
  • the display data processing apparatus further includes a third acquisition module configured to acquire a user's intention after the first acquisition module acquires the display data saving instruction, and the user's intention includes the type of display data processing result; in this case, the save module It is configured to save the display data corresponding to the display screen and display state parameters when the display screen is deformed according to the user's intention to obtain the display data processing result.
  • the way to obtain the user's intention can be to pop up an inquiry box in the display interface of the display screen and ask the user each time; it can also be set by the user or the system; it can also be based on the user's usage habits. After a certain amount of learning, the type of data processing result displayed this time is automatically set.
  • the source file when it is obtained that the user wants to save the source file, only the source file can be saved, which saves the time for generating a three-dimensional model, saves storage space and improves processing efficiency.
  • the display data processing device further includes a marking module configured to add a mark to the display data processing result after the storage module obtains the display data processing result.
  • adding a mark to the display data processing result can help users to classify, view, classify and archive the display data saved or received by themselves, and quickly distinguish whether the display data processing result includes display state parameters.
  • the display data processing device further includes a sending module configured to send the display data processing result according to the first preset rule after the display data processing result is obtained.
  • the display data processing result can be sent by sharing, emailing, or sending with the help of other software, such as sending via WeChat.
  • the first preset rule includes: when the type includes the source file and the three-dimensional model, determining whether the receiving end display screen can perform corresponding deformation processing according to the display state parameter; if so, the sending type is the source file If not, send the display data processing result of the three-dimensional model.
  • the first preset rule further includes sending according to a method selected by the user. For example, the three-dimensional model is sent for the display data processing results obtained in certain time periods, and the source file is sent by default for certain objects.
  • the display data processing result can be the same tiled image as in the prior art, or it can be understood that regardless of the current deformation state of the display screen, the display picture in the flat state of the display screen is saved by default. It may also be a tiled image and display state parameters that can be provided to other deformable terminals or devices for corresponding deformation. It should be noted that the display screen state parameters obtained by other terminals or devices may be used directly, or may be used after calculation and conversion.
  • the second display screen will determine the second display screen after receiving the first display data processing result Whether it is a display screen with the same deformation rules as the first display screen, or whether it is a display screen of the same model, if so, directly use the display state parameters for deformation, and the second display screen after deformation and the first display screen take screenshots at the same time
  • the deformation state is the same.
  • the image state displayed on the second display screen at this time is consistent with the image state of the screenshot of the first display screen.
  • the user of the second display screen can watch the same image as the screenshot of the user on the first display screen at the time through some viewing guidelines, etc., which means that what the user of the first display screen sees is what the user of the second display screen gains.
  • the display data processing device obtained by the embodiment of the present disclosure obtains the display data saving instruction through the first acquisition module; when the display screen is deformed, the saving module saves the display data corresponding to the display screen and the display state parameters to obtain the display data processing result.
  • the third acquisition module acquires user intentions and saves the module to process the display data in a targeted manner, which is more in line with user needs and enhances user experience.
  • the marking module adds markings to the display data processing results, which can be more convenient for users to follow up Display the data processing results for further identification, which is convenient for users to follow-up operations.
  • the processing module obtains the model corresponding to the display state parameters by adjusting the basic model according to the display state parameters, and then maps the tiled map and the deformation model, and the save module obtains the display data processing results of the three-dimensional model.
  • this embodiment also provides a display device 800, including: a fourth obtaining module 801 configured to obtain the display data processing results described in the foregoing embodiments; and a display module 802 configured to The display data processing result is displayed according to the second preset rule.
  • the second preset rule includes: when the type includes source files and three-dimensional models, determine whether the current display screen can perform corresponding deformation processing according to the display state parameters; if so, perform corresponding deformation processing on the display screen according to the display state parameters Deformation processing, the tiled image is displayed on the display screen; if not, the display data processing results of the three-dimensional model type are displayed on the display screen.
  • the obtained display data processing result is one type, for example, one of the source file, tiled map, and three-dimensional model
  • the obtained display data processing result is directly displayed.
  • the display failure prompt may be provided to the sending end while prompting the receiving end user with a display failure prompt.
  • the display may also be performed according to a second preset rule set by the user.
  • the 3D model can be displayed by default, or the source file can be displayed by default.
  • the display screen is set to display a tiled image or a three-dimensional model by default.
  • the second preset rule can also be adjusted according to the learned user's usage habits. For example, it is learned that the user displays the source file when the user is connected to WiFi, and displays the three-dimensional model or the flat file in the traffic state. If the map is laid out, the second preset rule is adjusted accordingly.
  • the second preset rule can also be set according to the time of use. For example, the default setting is to display the 3D model from 8 pm to 7 am the next day, and the type of the data processing result is the source file. Is not displayed by default.
  • the display device C After the display device C receives the above display data processing result, it controls its display screen to respond according to the display state parameters from the 5th to 9th seconds.
  • the deformation It should be noted that when the display data processing result is a video, the tile can be understood as an image of each frame of the video.
  • the display device provided by the embodiment of the present disclosure obtains the display data processing result of any one of the foregoing embodiments through the fourth obtaining module, and the display module displays the display data processing result according to the second preset rule.
  • the acquired display data processing result can be used to display either the three-dimensional model of the display data processing result or the deformation adjustment of its own display screen through the display state parameters, so that the adjusted display screen can display
  • the data processing result of the display screen is consistent with its actual state, which meets the needs of the user to be able to watch and record the actual display effect, and enhance the user experience.
  • This embodiment also provides a display data processing terminal. As shown in FIG. 9, it includes a processor 901, a memory 903, and a communication bus 902.
  • the communication bus 902 is configured to realize the connection between the processor 901 and the memory 903. Communication;
  • the processor 901 is configured to execute one or more computer programs stored in the memory 903 to implement at least one step in the display data processing method in the foregoing embodiments.
  • Embodiment 6 is a diagrammatic representation of Embodiment 6
  • This embodiment also provides a display terminal. As shown in FIG. 10, it includes a second processor 1001, a second memory 1003, and a second communication bus 1002.
  • the second communication bus 1002 is configured to implement the second processor. Connection communication between 1001 and the second memory 1003; the second processor 1001 is configured to execute one or more computer programs stored in the second memory 1003 to implement at least one step in the display method in the foregoing embodiments.

Abstract

本公开实施例提供一种显示数据处理、显示方法、装置、终端及可读存储介质。该显示数据处理方法包括:获取显示数据保存指令;当显示屏存在形变时,保存显示屏所对应的显示数据及显示屏状态参数,得到显示数据处理结果。

Description

显示数据处理、显示方法、装置、终端及可读存储介质 技术领域
本公开实施例涉及但不限于图像处理技术领域。
背景技术
根据柔性屏的可折叠特性,图像显示往往会随之产生一定的形变。这种形变有时是会影响显示效果,但有时也会因此产生奇特的显示效果。目前的截图方式会完整记录显示元器件上的图像,而不能记录形变的效果,在柔性屏产品中不能满足用户记录实际显示效果的需求,用户体验度低。
发明内容
本公开实施例提供一种显示数据处理方法,包括:获取显示数据保存指令;当显示屏存在形变时,保存所述显示屏所对应的显示数据及显示屏状态参数,得到显示数据处理结果。
本公开实施例还提供了一种显示方法,包括:获取本文所述的显示数据处理结果;当所述种类包括所述源文件以及三维模型时,判定当前显示屏是否能够按照所述显示状态参数进行相应的形变处理;若是,则根据所述显示状态参数对所述显示屏进行相应的形变处理,将所述平铺图在所述显示屏上显示;若否,则将所述种类为三维模型的所述显示数据处理结果在所述显示屏上显示。
本公开实施例还提供了一种显示数据处理装置,所述显示数据处理装置包括:第一获取模块,配置为获取显示数据保存指令;保存模块,配置为当显示屏存在形变时,保存所述显示屏所对应的显示数据及显示屏状态参数,得到显示数据处理结果。
本公开实施例还提供了一种显示装置,所述显示装置包括:第四获取模块,配置为获取本文所述的显示数据处理结果;显示模块,配置为当所述种类包括所述源文件以及三维模型时,判定当前显示屏是否能够按照所述显示状态参数进行相应的形变处理;若是,则所述 显示模块根据所述显示状态参数对所述显示屏进行相应的形变处理,将所述平铺图在所述显示屏上显示;若否,则所述显示模块将所述种类为三维模型的所述显示数据处理结果在所述显示屏上显示。
本公开实施例还提供了一种显示数据处理终端,所述显示数据处理终端包括:处理器、存储器及通信总线;所述通信总线配置为实现处理器和存储器之间的连接通信;所述处理器配置为执行存储器中存储的一个或者多个计算机程序,以实现如本文所述任一项显示数据处理方法的步骤。
本公开实施例还提供一种可读存储介质,所述可读存储介质存储有一个或者多个第一计算机程序,所述一个或者多个第一计算机程序可被一个或者多个第一处理器执行,以实现如本文所述任一项显示数据处理方法的步骤;或,所述可读存储介质存储有一个或者多个第二计算机程序,所述一个或者多个第二计算机程序可被一个或者多个第二处理器执行,以实现如本文所述任一项显示方法的步骤。
附图说明
图1为本公开实施例一提供的一种显示数据处理方法的流程示意图;
图2A为一种轴向折叠类型的柔性系统的显示屏未形变状态结构示意图;
图2B为图2A的显示屏发生形变后的状态结构示意图;
图3A为一种阵列基底类型的柔性系统的显示屏未形变状态结构示意图;
图3B为图3A的显示屏发生形变后状态结构示意图;
图4为本公开实施例一提供的一种显示数据处理方法具体实施例的流程示意图;
图5为本公开实施例一提供的一种显示数据处理方法另一种具体实施例的流程示意图;
图6为本公开实施例二提供的一种显示方法的流程示意图;
图7为本公开实施例三提供的显示数据处理装置的结构图;
图8为本公开实施例四提供的显示装置的结构图;
图9为本公开实施例五提供的显示数据处理终端的结构示意图;
图10为本公开实施例六提供的显示终端的结构示意图。
具体实施方式
为了使本公开的目的、特征及优点更加清楚明白,下面通过具体实施方式结合附图对本公开实施例作进一步详细说明。应当理解,此处所描述的具体实施例仅仅用以解释本公开,并不用于限定本公开。
实施例一:
请参见图1,本实施例提供的一种显示数据处理方法包括:S101:获取显示数据保存指令;S102:当显示屏存在形变时,保存显示屏所对应的显示数据及显示屏状态参数,得到显示数据处理结果。
需要说明的是,本公开实施例中的显示数据保存指令可以是截图指令,也可以是拍照指令、录像指令、录屏指令等其他需要存储或者缓存显示数据的指令。
需要说明的是,针对显示图像或者显示视频的保存指令,实质上也是显示数据的保存指令,因此,针对显示图像或者显示视频的保存指令也在本公开实施例所保护的显示数据保存指令之内。
需要说明的是,当显示数据保存指令为视频类指令时,本公开实施例的执行状态可以为对显示屏存在形变时,保存显示屏所对应的显示屏数据及显示屏状态参数,得到显示数据处理结果。例如:终端B在拍摄一段1分钟的视频的过程中其显示屏在第5秒-第9秒存在形变,则保存第5秒-第9秒的显示数据和显示屏状态参数,得到一份种类为平铺图+显示状态参数的显示数据处理结果。需要说明的是,对于显示数据处理结果为视频时,其平铺图可以理解为视频每一帧的图像。
其中,显示数据保存指令可以是具有可形变显示屏所在终端自身发出的;显示数据保存指令也可以是终端接收到其他服务器或其他终端所发送的指令。
需要说明的是,本公开实施例所针对的终端的显示屏中至少有 一个是可形变的显示屏,例如,终端包括至少一个柔性屏。
在一些实施例中,显示数据处理结果的种类包括以下中至少之一:源文件、三维模型;其中源文件包括由显示数据所得到的平铺图和显示状态参数。
在一些实施例中,显示数据处理结果的种类还可以为平铺图,以便用户将该平铺图与显示屏为非形变手机进行分享,或者当用户仅需要保存平铺图时来提升处理效率。
在一些实施例中,当显示数据处理结果的种类包括三维模型时,获取显示数据保存指令之后,还包括:获取预设的基础模型;根据显示屏状态参数对基础模型进行相应调整得到与显示屏状态参数相对应的形变模型;将平铺图与形变模型进行贴图处理,得到种类为三维模型的显示数据处理结果。
需要说明的是,预设的基础模型可以是根据终端的显示状态参数来进行预设。预设的基础模型也可以是根据终端的显示状态参数进行初步设置后,用户根据其喜好进行调整后得到的。
需要说明的是,将平铺图与形变模型进行贴图处理可以是按照像素点对点的方式,将平铺图与形变模型进行贴图处理,从而获得还原获取到显示数据保存指令的同时终端发生形变的显示屏所显示出的图像的三维模型。例如:显示屏当前处于具有一定角度的对折状态,用户观察到的显示出的图像的效果为状态A,则此时,应用本公开实施例的方法得到的种类为三维模型的显示数据处理结果所呈现的就是具有一定角度的对折状态的状态A的三维图像。
在一些实施例中,将所述平铺图与所述形变模型进行贴图处理之后,还包括:进行图像调整;得到种类为三维模型的显示数据处理结果。
需要说明的是,在一些实施例中,图像调整包括但不限于以下至少之一:缩放、旋转角度、亮度调整、对比度调整、添加贴图、添加文字、添加音乐等。例如,得到的种类为三维模型的显示数据处理结果为A角度,但用户实际的视角可能是B角度,此时,用户可以调整显示数据处理结果的角度,以使得其得到更加符合其真实需要的 显示数据处理结果。
在一些实施例中,显示屏状态参数包括但不限于以下至少之一:显示屏显示参数、显示屏形变参数。
需要说明的是显示屏的显示参数包括但不限于以下至少之一:显示屏的个数、组成显示屏的每个子显示屏的平铺完整分辨率。
在一些实施例中,显示屏形变参数与显示屏的形变类型有关,以下以两种比较常见的形变类型的显示屏为例,说明显示屏的形变参数。需要说明的是,下述说明仅是示例性的说明,对于其他形变类型的显示屏,可以以其所通过其公知的或者本领域的技术人员所知晓的形变参数作为其显示屏形变参数。
对于轴向折叠类型的柔性系统的显示屏,其显示屏形变参数包括但不限于以下至少之一:轴的个数,各个轴的位置、各个轴的弯曲方向、旋转角度、曲率。需要说明的是,各个轴的位置还可以通过预先设置坐标系的方式,采用坐标点进行等其他可行的方法进行标注,本公开实施例中对各个轴的位置标注方式不做限定。需要说明的是,各个轴之间可以是平行的,也可以是不平行的,在此不做限定。图2A是一种轴向折叠类型的柔性系统的显示屏未形变状态示意图,其包括第一轴201和第二周202,其中第一轴201位于显示屏左侧边距离A处,第二轴202位于显示屏右侧边距离B处。图2B是图2A的显示屏发生形变后的状态示意图,此时,显示屏形变参数还包括第一轴201弯曲方向向下、第二轴202弯曲方向向上、第一轴201旋转角度R1、第二轴202旋转角度R2及曲率,其中合曲率可以通过确定显示屏中轴向方向各个像素点的正交曲线,计算各个正交曲线的正交曲率来获得。
对于阵列基底类型的柔性系统的显示屏,其显示屏形变参数包括但不限于不同方向阵列矩阵的布局方式、曲率。需要说明的是,图3A及图3B仅是对阵列基底类型的柔性系统的显示屏做一种示例性的说明,对于其他布局方式的显示屏,本公开实施例的方案也适用。图3A是一种阵列基底类型的柔性系统的显示屏未形变状态示意图,其具有水平方向的A-M,竖直方向的1-8的阵列矩阵布局。图3B是 图3A的显示屏发生形变后状态示意图,此时显示屏的形变参数还包括检测阵列中心点的每个监测点的曲率,其计算公式为k=2δ/ED,其中k表示所述检测点的曲率,δ表示所述检测点的压力值,E表示柔性屏材料的弹性模量,D表示柔性屏的厚度。
在一些实施例中,获取显示数据保存指令之后,所述方法还包括:获取用户意图,用户意图包括显示数据处理结果的种类;根据用户意图,当显示屏存在形变时,保存显示屏所对应的显示数据及显示屏状态参数,得到显示数据处理结果。
需要说明的是,获取用户意图的方式可以为在显示屏的显示界面中弹出问询框,每次询问用户;也可以是通过用户或者系统进行设置的;还可以是根据用户的使用习惯,进行一定的学习后,自动设定该次显示数据处理结果的种类。
例如当获取到用户是希望保存源文件,则可以仅保存源文件,省去了生成三维模型的时间,节省了存储空间和提升了处理效率。
在一些实施例中,得到显示数据处理结果之后,所述方法还包括:对显示数据处理结果增加标记。
需要说明的是,对显示数据处理结果增加标记可以有利于用户对自身保存或者接受到的显示数据进行分类查看、归类归档,快速分辨出显示数据处理结果是否是包括显示屏状态参数。
在一些实施例中,得到显示数据处理结果之后,所述方法还包括:按照第一预设规则将显示数据处理结果进行发送。
需要说明的是,显示数据处理结果发送方式可以是分享、发送邮件、借助其他软件进行发送,例如通过微信发送。
在一些实施例中,第一预设规则包括:当种类包括所述源文件和三维模型时,判定接收端显示屏是否能够按照显示状态参数进行相应的形变处理;若是,则发送种类为源文件的显示数据处理结果;若否,则发送种类为三维模型的显示数据处理结果。
在一些实施例中,第一预设规则还包括根据用户选定的方式进行发送。例如:针对与某些时间段所得到的显示数据处理结果均发送三维模型,针对某些对象默认发送源文件等方式。
下面结合图4,通过一种具体的实施例对上述显示数据处理方法进行进一步详细的说明。如图4所示,所述方法可以包括步骤S401至S405。
在步骤S401,获取显示数据保存指令。
在步骤S402,获取用户意图,用户意图包括显示数据处理结果的种类。
在步骤S403,根据所用户意图,当显示屏存在形变时,保存显示屏所对应的显示数据及显示屏状态参数,得到显示数据处理结果。
在步骤S404,对显示数据处理结果增加标记。
在步骤S405,按照第一预设规则将显示数据处理结果进行发送。
需要说明的是,当种类包括源文件和三维模型时,所述方法还包括:判定接收端显示屏是否能够按照显示状态参数进行相应的形变处理;若是,则发送种类为源文件的显示数据处理结果;若否,则发送种类为三维模型的显示数据处理结果。
根据用户意图对显示数据处理结果进行相应的保存,可以节约终端的存储空间以及处理过程所占用的资源和处理时间,更好的满足用户的需求,提升用户的体验度。
其中,获取用户意图的方式可以有很多,例如临时询问用户,根据用户的使用习惯学习完善用户意图的获取,根据用户或者其他人提前设定的规则进行获取等。
其中,显示数据处理结果可以是与现有技术一样的平铺图,也可以理解为不论显示屏当前的形变状态如何,默认保存显示屏处于平面状态的显示图片。还可以是平铺图和能够提供给其他可形变终端用以进行相应形变的显示屏状态参数。需要说明的是,其他终端获取到的显示屏状态参数可以是直接利用,也可以是经过计算换算后加以利用。例如,通过第一显示屏截图得到的种类为平铺图+显示状态参数的源文件的第一显示数据处理结果后,第二显示屏接收到第一显示数据处理结果后,判断第二显示屏与第一显示屏是否为同样形变规则的显示屏,或者是否为同一型号的显示屏,若是,则直接利用显示状态参数进行形变,形变后的第二显示屏与第一显示屏进行截图同时的形 变状态一致,将平铺图显示在第二显示屏上后,则此时第二显示屏所显示的图像状态与第一显示屏截图当时的图像状态就是一致的。第二显示屏的用户通过一些观看指引等方式可以观看到与第一显示屏的用户截图当时同样的图像,也即能够实现第一显示屏用户的所见就是第二显示屏用户的所得。
在一些实施例中,如图5所示,当显示数据处理结果的种类包括三维模型时,所述方法还包括步骤S501至S505.
在步骤S501,获取预设的基础模型。
在步骤S502,根据显示屏状态参数对基础模型进行相应调整得到与显示屏状态参数相对应的形变模型。
在步骤S503,将平铺图与形变模型进行贴图处理。
在步骤S504,进行图像调整。
在步骤S505,得到种类为三维模型的显示数据处理结果。
本公开实施例提供的显示数据处理方法通过获取显示数据保存指令;当显示屏存在形变时,保存显示屏所对应的显示数据及显示屏状态参数,得到显示数据处理结果。通过本公开的实施,能够对包括柔性屏产品在内的具有可形变显示屏的截图方式记录形变效果,满足用户记录实际显示效果的需求,提升用户体验度。
进一步的,通过获取用户意图,有针对性的对显示数据进行处理,根据用户的指令输出对应角度的图像或者视角变化的视频或模型。满足用户记录和分享柔性屏带来的有趣瞬间的使用需求,更加符合用户需求,提升用户体验,通过对显示数据处理结果增加标记,可以更加方便用户后续对显示数据处理结果进行进一步识别,方便用户后续操作。通过根据显示屏状态参数对基础模型进行相应调整得到与显示屏状态参数相对应的模型,进而将平铺图与形变模型进行贴图处理得到种类为三维模型的显示数据处理结果,可以使得当用户需要将当前保存的显示数据与其他不支持或者不想通过显示屏形变来观看显示数据处理结果的用户进行分享时,可以相对直观的看到显示数据处理结果,而不是单纯与实际观看状态并不符合的平铺图。
实施例二:
请参见图6,本实施例提供的一种显示方法,包括:S601:获取上述各实施例所述任意一个的显示数据处理结果;S602:将显示数据处理结果按照第二预设规则显示。
需要说明的是,第二预设规则包括:当种类包括源文件以及三维模型时,判定当前显示屏是否能够按照显示状态参数进行相应的形变处理;若是,则根据显示状态参数对显示屏进行相应的形变处理,将平铺图在显示屏上显示;若否,则将种类为三维模型的显示数据处理结果在显示屏上显示。
在一些实施例中,若获取到的显示数据处理结果就是一种,例如就是源文件、平铺图、三维模型三者之一,则直接对获取到的显示数据处理结果进行显示。在一些实施例中,若接收端对获取到的显示数据处理结果不能正常显示,则可以将显示失败的提示在提示接收端用户的同时,也提供一份显示失败的提示给到发送端。
在一些实施例中,也可以根据用户自行设置的第二预设规则进行显示。例如:可以默认设置显示三维模型,或者默认显示源文件。
在一些实施例中,若当前显示屏不能按照显示状态参数进行形变,则默认设置该显示屏显示平铺图或者三维模型。
在一些实施例中,也可以根据学习到的用户的使用习惯来进行第二预设规则的调整,例如,学习到用户在接入WiFi状态下显示源文件、在流量状态下显示三维模型或者平铺图,则对第二预设规则进行相应的调整。
在一些实施例中,还可以根据使用时间来进行第二预设规则进行设置,例如晚上8点到第二天凌晨7点前默认设置为显示三维模型,对显示数据处理结果的种类为源文件的则默认不显示。
需要说明的是,获取上述各实施例所述的显示数据处理结果的方式可以是:接收其他终端或者服务器所发送的显示数据处理结果后进行显示,也可以是终端自身对显示数据进行保存后得到的显示数据处理结果进行显示。例如:终端A的显示屏处于形变状态下有录屏甲,当终端A对录屏甲进行查看也即进行显示时,则可以根据第二 预设规则对录屏甲进行显示。又例如:终端B在拍摄一段1分钟的视频的过程中其显示屏在第5秒-第9秒存在形变,得到一份种类为平铺图+显示状态参数的显示数据处理结果。其通过服务器或者蓝牙将该显示数据处理结果发送给终端C,终端C接收到上述显示数据处理结果后,在播放到第5秒-第9秒时根据显示状态参数控制其显示屏进行相应的形变。需要说明的是,对于显示数据处理结果为视频时,其平铺图可以理解为视频每一帧的图像。
本公开实施例提供的显示方法通过获取上述各实施例所述任意一个的显示数据处理结果,将显示数据处理结果按照第二预设规则显示。通过本公开的实施,能够通过获取到的显示数据处理结果,要么显示显示数据处理结果的三维模型,要么通过显示屏状态参数对自身的显示屏进行形变调整,使得调整后的显示屏所显示的显示屏数据处理结果与其实际状态一致,满足用户能够观看到记录实际显示效果的需求,提升用户体验度。
实施例三:
本实施例还提供了一种显示数据处理装置,如图7所示,显示数据处理装置700其包括第一获取模块701和保存模块702。
第一获取模块701,配置为获取显示数据保存指令;
保存模块702,配置为当显示屏存在形变时,保存显示屏所对应的显示数据及显示屏状态参数,得到显示数据处理结果。
需要说明的是,本公开实施例中的显示数据保存指令可以是截图指令,也可以是拍照指令、录像指令、录屏指令等其他需要存储或者缓存显示数据的指令。
需要说明的是,针对显示图像或者显示视频的保存指令,实质上也是显示数据的保存指令,因此,针对显示图像或者显示视频的保存指令也在本公开实施例所保护的显示数据保存指令之内。
需要说明的是,当显示数据保存指令为视频类指令时,本公开实施例的执行状态可以为对显示屏存在形变时,保存显示屏所对应的显示屏数据及显示屏状态参数,得到显示数据处理结果。例如:装置 B在拍摄一段1分钟的视频的过程中其显示屏在第5秒-第9秒存在形变,则保存第5秒-第9秒的显示数据和显示屏状态参数,得到一份种类为平铺图+显示状态参数的显示数据处理结果。需要说明的是,对于显示数据处理结果为视频时,其平铺图可以理解为视频每一帧的图像。
其中,显示数据保存指令是具有可形变显示屏所在终端自身发出的;显示数据保存指令也可以是终端接收到其他服务器或其他终端所发送的指令。
需要说明的是,本公开实施例所针对的显示数据处理装置的显示屏中至少有一个是可形变的显示屏,例如,包括至少一个柔性屏。
在一些实施例中,显示数据处理结果的种类包括以下中至少之一:源文件、三维模型;其中源文件包括由显示数据所得到的平铺图和显示状态参数。
在一些实施例中,显示数据处理结果的种类还可以仅为平铺图,以便用户将该平铺图与显示屏为非形变手机进行分享,或者当用户仅需要保存平铺图时来提升处理效率。
在一些实施例中,显示数据处理结果的种类包括三维模型时,显示数据处理装置还包括:第二获取模块,配置为获取预设的基础模型;计算模块,配置为根据显示屏状态参数对基础模型进行相应调整得到与显示屏状态参数相对应的形变模型;处理模块,配置为将平铺图与形变模型进行贴图处理,得到种类为三维模型的显示数据处理结果。
需要说明的是,预设的基础模型可以是根据终端的显示状态参数来进行预设。预设的基础模型也可以是根据终端的显示状态参数进行初步设置后,用户根据其喜好进行调整后得到的。
需要说明的是,将平铺图与形变模型进行贴图处理可以是按照像素点对点的方式,将平铺图与形变模型进行贴图处理,从而获得还原获取到显示数据保存指令的同时终端发生形变的显示屏所显示出的图像的三维模型。例如:显示屏当前处于具有一定角度的对折状态,用户观察到的显示出的图像的效果为状态A,则此时,应用本公开实 施例的方法得到的种类为三维模型的显示数据处理结果所呈现的就是具有一定角度的对折状态的状态A的三维图像。
在一些实施例中,处理模块还配置为:将平铺图与形变模型进行贴图处理之后;进行图像调整;得到种类为三维模型的显示数据处理结果。
需要说明的是,在一些实施例中,图像调整包括但不限于以下至少之一:缩放、旋转角度、亮度调整、对比度调整、添加贴图、添加文字、添加音乐等。例如,得到的种类为三维模型的显示数据处理结果为A角度,但用户实际的视角可能是B角度,此时,用户可以调整显示数据处理结果的角度,以使得其得到更加符合其真实需要的显示数据处理结果。
在一些实施例中,显示屏状态参数包括但不限于以下至少之一:显示屏显示参数、显示屏形变参数。
需要说明的是显示屏的显示参数包括但不限于以下至少之一:显示屏的个数、组成显示屏的每个子显示屏的平铺完整分辨率。
在一些实施例中,显示屏形变参数与显示屏的形变类型有关,以下以两种比较常见的形变类型的显示屏为例,说明显示屏的形变参数。需要说明的是,下述说明仅是示例性的说明,对于其他形变类型的显示屏,可以以其所通过其公知的或者本领域的技术人员所知晓的形变参数作为其显示屏形变参数。
对于轴向折叠类型的柔性系统的显示屏,其显示屏形变参数包括但不限于以下至少之一:轴的个数,各个轴的位置、各个轴的弯曲方向、旋转角度、曲率。需要说明的是,各个轴的位置还可以通过预先设置坐标系的方式,采用坐标点进行等其他可行的方法进行标注,本公开实施例中对各个轴的位置标注方式不做限定。需要说明的是,各个轴之间可以是平行的,也可以是不平行的,在此不做限定。图2A是一种轴向折叠类型的柔性系统的显示屏未形变状态示意图,其包括第一轴201和第二周202,其中第一轴201位于显示屏左侧边距离A处,第二轴202位于显示屏右侧边距离B处。图2B是图2A的显示屏发生形变后的状态示意图,此时,显示屏形变参数还包括第一 轴201弯曲方向向下、第二轴202弯曲方向向上、第一轴201旋转角度R1、第二轴202旋转角度R2及曲率,其中合曲率可以通过确定显示屏中轴向方向各个像素点的正交曲线,计算各个正交曲线的正交曲率来获得。
对于阵列基底类型的柔性系统的显示屏,其显示屏形变参数包括但不限于不同方向阵列矩阵的布局方式、曲率。需要说明的是,图3A及图3B仅是对阵列基底类型的柔性系统的显示屏做一种示例性的说明,对于其他布局方式的显示屏,本公开实施例的方案也适用。图3A是一种阵列基底类型的柔性系统的显示屏未形变状态示意图,其具有水平方向的A-M,竖直方向的1-8的阵列矩阵布局。图3B是图3A的显示屏发生形变后状态示意图,此时显示屏的形变参数还包括检测阵列中心点的每个监测点的曲率,其计算公式为k=2δ/ED,其中k表示所述检测点的曲率,δ表示所述检测点的压力值,E表示柔性屏材料的弹性模量,D表示柔性屏的厚度。
在一些实施例中,显示数据处理装置还包括第三获取模块,配置为在第一获取模块获取显示数据保存指令之后,获取用户意图,用户意图包括显示数据处理结果的种类;此时,保存模块配置为根据用户意图,当显示屏存在形变时,保存显示屏所对应的显示数据及显示屏状态参数,得到显示数据处理结果。
需要说明的是,获取用户意图的方式可以为在显示屏的显示界面中弹出问询框,每次询问用户;也可以是通过用户或者系统进行设置的;还可以是根据用户的使用习惯,进行一定的学习后,自动设定该次显示数据处理结果的种类。
例如当获取到用户是希望保存源文件,则可以仅保存源文件,省去了生成三维模型的时间,节省了存储空间和提升了处理效率。
在一些实施例中,显示数据处理装置还包括标记模块,配置为在保存模块得到显示数据处理结果之后,对显示数据处理结果增加标记。
需要说明的是,对显示数据处理结果增加标记可以有利于用户对自身保存或者接受到的显示数据进行分类查看、归类归档,快速分 辨出显示数据处理结果是否是包括显示屏状态参数。
在一些实施例中,显示数据处理装置还包括发送模块,配置为在得到显示数据处理结果之后,按照第一预设规则将显示数据处理结果进行发送。
需要说明的是,显示数据处理结果发送方式可以是分享、发送邮件、借助其他软件进行发送,例如通过微信发送。
在一些实施例中,第一预设规则包括:当种类包括所述源文件和三维模型时,判定接收端显示屏是否能够按照显示状态参数进行相应的形变处理;若是,则发送种类为源文件的显示数据处理结果;若否,则发送种类为三维模型的显示数据处理结果。
在一些实施例中,第一预设规则还包括根据用户选定的方式进行发送。例如:针对与某些时间段所得到的显示数据处理结果均发送三维模型,针对某些对象默认发送源文件等方式。
需要说明的是,显示数据处理结果可以是与现有技术一样的平铺图,也可以理解为不论显示屏当前的形变状态如何,默认保存显示屏处于平面状态的显示图片。还可以是平铺图和能够提供给其他可形变终端或者装置用以进行相应形变的显示屏状态参数。需要说明的是,其他终端或者装置获取到的显示屏状态参数可以是直接利用,也可以是经过计算换算后加以利用。例如,通过第一显示屏截图得到的种类为平铺图+显示状态参数的源文件的第一显示数据处理结果后,第二显示屏接收到第一显示数据处理结果后,判断第二显示屏与第一显示屏是否为同样形变规则的显示屏,或者是否为同一型号的显示屏,若是,则直接利用显示状态参数进行形变,形变后的第二显示屏与第一显示屏进行截图同时的形变状态一致,将平铺图显示在第二显示屏上后,则此时第二显示屏所显示的图像状态与第一显示屏截图当时的图像状态就是一致的。第二显示屏的用户通过一些观看指引等方式可以观看到与第一显示屏的用户截图当时同样的图像,也即能够实现第一显示屏用户的所见就是第二显示屏用户的所得。
本公开实施例提供的显示数据处理装置通过第一获取模块获取显示数据保存指令;保存模块当显示屏存在形变时,保存显示屏所对 应的显示数据及显示屏状态参数,得到显示数据处理结果。通过本公开的实施,能够对包括柔性屏产品在内的具有可形变显示屏的截图方式记录形变效果,满足用户记录实际显示效果的需求,提升用户体验度。
进一步的,第三获取模块通过获取用户意图,保存模块有针对性的对显示数据进行处理,更加符合用户需求,提升用户体验,标记模块通过对显示数据处理结果增加标记,可以更加方便用户后续对显示数据处理结果进行进一步识别,方便用户后续操作。处理模块通过根据显示屏状态参数对基础模型进行相应调整得到与显示屏状态参数相对应的模型,进而将平铺图与形变模型进行贴图处理,保存模块得到种类为三维模型的显示数据处理结果,可以使得当用户需要将当前保存的显示数据与其他不支持或者不想通过显示屏形变来观看显示数据处理结果的用户进行分享时,可以相对直观的看到显示数据处理结果,而不是单纯与实际观看状态并不符合的平铺图。
实施例四:
参见图8所示,本实施例还提供了一种显示装置800,包括:第四获取模块801,配置为获取上述各实施例所述的显示数据处理结果;以及显示模块802,配置为将所述显示数据处理结果按照第二预设规则显示。
需要说明的是第二预设规则包括:当种类包括源文件以及三维模型时,判定当前显示屏是否能够按照显示状态参数进行相应的形变处理;若是,则根据显示状态参数对显示屏进行相应的形变处理,将平铺图在显示屏上显示;若否,则将种类为三维模型的显示数据处理结果在显示屏上显示。
在一些实施例中,若获取到的显示数据处理结果就是一种,例如就是源文件、平铺图、三维模型三者之一,则直接对获取到的显示数据处理结果进行显示。在一些实施例中,若接收端对获取到的显示数据处理结果不能正常显示,则可以将显示失败的提示在提示接收端用户的同时,也提供一份显示失败的提示给到发送端。
在一些实施例中,也可以根据用户自行设置的第二预设规则进行显示。例如:可以默认设置显示三维模型,或者默认显示源文件。
在一些实施例中,若当前显示屏不能按照显示状态参数进行形变,则默认设置该显示屏显示平铺图或者三维模型。
在一些实施例中,也可以根据学习到的用户的使用习惯来进行第二预设规则的调整,例如,学习到用户在接入WiFi状态下显示源文件、在流量状态下显示三维模型或者平铺图,则对第二预设规则进行相应的调整。
在一些实施例中,还可以根据使用时间来进行第二预设规则进行设置,例如晚上8点到第二天凌晨7点前默认设置为显示三维模型,对显示数据处理结果的种类为源文件的则默认不显示。
需要说明的是,获取上述各实施例所述的显示数据处理结果的方式可以是:接收其他终端或者服务器所发送的显示数据处理结果后进行显示,也可以是显示装置自身对显示数据进行保存后得到的显示数据处理结果进行显示。例如:显示装置A的显示屏处于形变状态下有录屏甲,当显示装置A对录屏甲进行查看也即进行显示时,则可以根据第二预设规则对录屏甲进行显示。又例如:终端B在拍摄一段1分钟的视频的过程中其显示屏在第5秒-第9秒存在形变,得到一份种类为平铺图+显示状态参数的显示数据处理结果。其通过服务器或者蓝牙将该显示数据处理结果发送给显示装置C,显示装置C接收到上述显示数据处理结果后,在播放到第5秒-第9秒时根据显示状态参数控制其显示屏进行相应的形变。需要说明的是,对于显示数据处理结果为视频时,其平铺图可以理解为视频每一帧的图像。
本公开实施例提供的显示装置通过第四获取模块获取上述各实施例所述任意一个的显示数据处理结果,显示模块将显示数据处理结果按照第二预设规则显示。通过本公开的实施,能够通过获取到的显示数据处理结果,要么显示显示数据处理结果的三维模型,要么通过显示屏状态参数对自身的显示屏进行形变调整,使得调整后的显示屏所显示的显示屏数据处理结果与其实际状态一致,满足用户能够观看到记录实际显示效果的需求,提升用户体验度。
实施例五:
本实施例还提供了一种显示数据处理终端,参见图9所示,其包括处理器901、存储器903及通信总线902,其中:通信总线902配置为实现处理器901和存储器903之间的连接通信;处理器901配置为执行存储器903中存储的一个或者多个计算机程序,以实现上述各实施例中的显示数据处理方法中的至少一个步骤。
实施例六:
本实施例还提供了一种显示终端,参见图10所示,其包括第二处理器1001、第二存储器1003及第二通信总线1002,其中:第二通信总线1002配置为实现第二处理器1001和第二存储器1003之间的连接通信;第二处理器1001用于执行第二存储器1003中存储的一个或者多个计算机程序,以实现上述各实施例中的显示方法中的至少一个步骤。
实施例七:
本实施例还提供了一种计算机可读存储介质,该计算机可读存储介质包括在用于存储信息(诸如计算机可读指令、数据结构、计算机程序模块或其他数据)的任何方法或技术中实施的易失性或非易失性、可移除或不可移除的介质。计算机可读存储介质包括但不限于RAM(Random Access Memory,随机存取存储器),ROM(Read-Only Memory,只读存储器),EEPROM(Electrically Erasable Programmable read only memory,带电可擦可编程只读存储器)、闪存或其他存储器技术、CD-ROM(Compact Disc Read-Only Memory,光盘只读存储器),数字多功能盘(DVD)或其他光盘存储、磁盒、磁带、磁盘存储或其他磁存储装置、或者可以用于存储期望的信息并且可以被计算机访问的任何其他的介质。
本实施例中的计算机可读存储介质可用于存储一个或者多个计算机程序,其存储的一个或者多个计算机程序可被处理器执行,以实 现上述各实施例中的显示数据处理方法和/或显示方法的至少一个步骤。
本实施例还提供了一种计算机程序(或称计算机软件),该计算机程序可以分布在计算机可读介质上,由可计算装置来执行,以实现上述各实施例中的显示数据处理方法和/或显示方法的至少一个步骤;并且在某些情况下,可以采用不同于上述实施例所描述的顺序执行所示出或描述的至少一个步骤。
应当理解的是,在某些情况下,可以采用不同于上述实施例所描述的顺序执行所示出或描述的至少一个步骤。
本实施例还提供了一种计算机程序产品,包括计算机可读装置,该计算机可读装置上存储有如上所示的计算机程序。本实施例中该计算机可读装置可包括如上所示的计算机可读存储介质。
可见,本领域的技术人员应该明白,上文中所公开方法中的全部或某些步骤、系统、装置中的功能模块/单元可以被实施为软件(可以用计算装置可执行的计算机程序代码来实现)、固件、硬件及其适当的组合。在硬件实施方式中,在以上描述中提及的功能模块/单元之间的划分不一定对应于物理组件的划分;例如,一个物理组件可以具有多个功能,或者一个功能或步骤可以由若干物理组件合作执行。某些物理组件或所有物理组件可以被实施为由处理器,如中央处理器、数字信号处理器或微处理器执行的软件,或者被实施为硬件,或者被实施为集成电路,如专用集成电路。
此外,本领域普通技术人员公知的是,通信介质通常包含计算机可读指令、数据结构、计算机程序模块或者诸如载波或其他传输机制之类的调制数据信号中的其他数据,并且可包括任何信息递送介质。所以,本公开不限制于任何特定的硬件和软件结合。
以上内容是结合具体的实施方式对本公开实施例所作的进一步详细说明,不能认定本公开的具体实施只局限于这些说明。对于本公开所属技术领域的普通技术人员来说,在不脱离本公开构思的前提下,还可以做出若干简单推演或替换,都应当视为属于本公开的保护范围。

Claims (15)

  1. 一种显示数据处理方法,包括:
    获取显示数据保存指令;
    当显示屏存在形变时,保存所述显示屏所对应的显示数据及显示屏状态参数,得到显示数据处理结果。
  2. 如权利要求1所述的显示数据处理方法,其中,所述显示数据处理结果的种类包括以下中至少之一:
    源文件、三维模型;
    其中所述源文件包括由所述显示数据所得到的平铺图和显示状态参数。
  3. 如权利要求2所述的显示数据处理方法,其中,所述显示数据处理结果的种类包括三维模型时,所述获取显示数据保存指令之后,所述方法还包括:
    获取预设的基础模型;
    根据所述显示屏状态参数对所述基础模型进行相应调整得到与所述显示屏状态参数相对应的形变模型;
    将所述平铺图与所述形变模型进行贴图处理,得到所述种类为三维模型的所述显示数据处理结果。
  4. 如权利要求3所述的显示数据处理方法,其中,所述将所述平铺图与所述形变模型进行贴图处理之后,所述方法还包括:
    进行图像调整;
    得到所述种类为三维模型的所述显示数据处理结果。
  5. 如权利要求1-4任一项所述的显示数据处理方法,其中,所述获取显示数据保存指令之后,所述方法还包括:
    获取用户意图,所述用户意图包括所述显示数据处理结果的种类;根据所述用户意图,当显示屏存在形变时,保存所述显示屏所对应的显示数据及显示屏状态参数,得到显示数据处理结果;
    对所述显示数据处理结果增加标记。
  6. 如权利要求2-4任一项所述的显示数据处理方法,其中, 所述得到显示数据处理结果之后,所述方法还包括:当所述种类包括所述源文件和三维模型时,判定接收端显示屏是否能够按照所述显示状态参数进行相应的形变处理;若是,则发送所述种类为源文件的所述显示数据处理结果;若否,则发送所述种类为三维模型的所述显示数据处理结果。
  7. 一种显示方法,包括:
    获取如权利要求2-6任一项所述的显示数据处理结果;
    当所述种类包括所述源文件以及三维模型时,判定当前显示屏是否能够按照所述显示状态参数进行相应的形变处理;
    若是,则根据所述显示状态参数对所述显示屏进行相应的形变处理,将所述平铺图在所述显示屏上显示;
    若否,则将所述种类为三维模型的所述显示数据处理结果在所述显示屏上显示。
  8. 一种显示数据处理装置,包括:
    第一获取模块,配置为获取显示数据保存指令;
    保存模块,配置为当显示屏存在形变时,保存所述显示屏所对应的显示数据及显示屏状态参数,得到显示数据处理结果。
  9. 如权利要求8所述的显示数据处理装置,其中,所述显示数据处理结果的种类包括以下中至少之一:
    源文件、三维模型;
    其中所述源文件包括由所述显示数据所得到的平铺图和显示状态参数。
  10. 如权利要求9所述的显示数据处理装置,其中,所述显示数据处理结果的种类包括三维模型时,所述显示数据处理装置还包括:
    第二获取模块,配置为获取预设的基础模型;
    计算模块,配置为根据所述显示屏状态参数对所述基础模型进行相应调整得到与所述显示屏状态参数相对应的形变模型;
    处理模块,配置为将所述平铺图与所述形变模型进行贴图处理,得到所述种类为三维模型的所述显示数据处理结果。
  11. 如权利要求9-10任一项所述的显示数据处理装置,还包括第三获取模块和/或标记模块,
    所述第三获取模块,配置为在所述第一获取模块获取所述显示数据保存指令之后,获取用户意图,所述用户意图包括所述显示数据处理结果的种类;
    所述保存模块还配置为根据所述用户意图,当所述显示屏存在形变时,保存所述显示屏所对应的显示数据及显示屏状态参数,得到显示数据处理结果;
    所述标记模块,配置为在所述保存模块得到显示数据处理结果之后,对所述显示数据处理结果增加标记。
  12. 如权利要求8-10任一项所述的显示数据处理装置,还包括发送模块,
    当所述种类包括所述源文件和三维模型时,判定接收端显示屏是否能够按照所述显示状态参数进行相应的形变处理;
    若是,则所述发送模块发送所述种类为源文件的所述显示数据处理结果;
    若否,则所述发送模块发送所述种类为三维模型的所述显示数据处理结果。
  13. 一种显示装置,包括:
    第四获取模块,配置为获取如权利要求9-12任一项所述的显示数据处理结果;
    显示模块,配置为当所述种类包括所述源文件以及三维模型时,判定当前显示屏是否能够按照所述显示状态参数进行相应的形变处理;
    若是,则所述显示模块根据所述显示状态参数对所述显示屏进行相应的形变处理,将所述平铺图在所述显示屏上显示;
    若否,则所述显示模块将所述种类为三维模型的所述显示数据处理结果在所述显示屏上显示。
  14. 一种显示数据处理终端,包括:处理器、存储器及通信总线;
    所述通信总线配置为实现处理器和存储器之间的连接通信;
    所述处理器配置为执行存储器中存储的一个或者多个计算机程序,以实现如权利要求1至7中任一项所述方法的步骤。
  15. 一种可读存储介质,其上存储有一个或者多个计算机程序,所述一个或者多个计算机程序可被一个或者多个处理器执行,以实现如权利要求1至7中任一项所述方法的步骤。
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