WO2022062940A1 - 一种图标数据迁移方法、电子设备和计算机可读存储介质 - Google Patents

一种图标数据迁移方法、电子设备和计算机可读存储介质 Download PDF

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WO2022062940A1
WO2022062940A1 PCT/CN2021/118009 CN2021118009W WO2022062940A1 WO 2022062940 A1 WO2022062940 A1 WO 2022062940A1 CN 2021118009 W CN2021118009 W CN 2021118009W WO 2022062940 A1 WO2022062940 A1 WO 2022062940A1
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Prior art keywords
icon
display screen
layout
data
icon data
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PCT/CN2021/118009
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English (en)
French (fr)
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徐博文
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华为技术有限公司
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Publication date
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Priority to JP2023518057A priority Critical patent/JP2023542027A/ja
Priority to EP21871311.3A priority patent/EP4206911A4/en
Priority to US18/246,142 priority patent/US20230367614A1/en
Publication of WO2022062940A1 publication Critical patent/WO2022062940A1/zh

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    • 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
    • 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]
    • G06F3/0481Interaction techniques based on graphical user interfaces [GUI] based on specific properties of the displayed interaction object or a metaphor-based environment, e.g. interaction with desktop elements like windows or icons, or assisted by a cursor's changing behaviour or appearance
    • 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]
    • G06F3/0481Interaction techniques based on graphical user interfaces [GUI] based on specific properties of the displayed interaction object or a metaphor-based environment, e.g. interaction with desktop elements like windows or icons, or assisted by a cursor's changing behaviour or appearance
    • G06F3/04817Interaction techniques based on graphical user interfaces [GUI] based on specific properties of the displayed interaction object or a metaphor-based environment, e.g. interaction with desktop elements like windows or icons, or assisted by a cursor's changing behaviour or appearance using icons
    • 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
    • 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
    • G06F9/445Program loading or initiating
    • G06F9/44505Configuring for program initiating, e.g. using registry, configuration files
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G2354/00Aspects of interface with display user
    • 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
    • G09G2370/042Exchange of auxiliary data, i.e. other than image data, between monitor and graphics controller for monitor identification

Definitions

  • the present application relates to the technical field of intelligent terminals, and in particular, to an icon data migration method, an electronic device and a computer-readable storage medium.
  • the screens of smart terminals have also appeared in various forms. For example, taking a folding screen mobile phone as an example, a folding screen mobile phone has two screens of different sizes, which are applied to different usage scenarios of users.
  • the device types of the current mainstream smart terminals are single-screen devices. Therefore, in the related art, the icon data of the old device is migrated to the new device by using data migration software.
  • the present application proposes an icon data migration method, an electronic device and a computer-readable storage medium, which can realize icon data migration between migration devices of different device types and devices to be migrated of different device types, so that users can use Habits and icon data are preserved to the greatest extent, which facilitates users to organize and manage desktop icons more conveniently, thereby improving the convenience of users.
  • an embodiment of the present application provides a method for migrating icon data, which is applied to a device to be migrated, where the device to be migrated includes a first display screen, including:
  • the link establishment request carries a device type of the migration device, and the device type includes a single-screen device or a multi-screen device;
  • the icon corresponding to the actual icon data is displayed.
  • obtaining the reference icon data of the migration device according to the device type of the migration device and the device type of the migration device includes:
  • the device type of the migration device includes a single-screen device, and its own device type includes a multi-screen device, acquire all icon data sent by the migration device, and determine all the icon data as reference icon data, wherein,
  • the multi-screen device may include multiple display screens.
  • obtaining the reference icon data of the migration device according to the device type of the migration device and the device type of the migration device includes:
  • the device type of the migration device includes a multi-screen device and its own device type includes a single-screen device, acquire part of the icon data selected to migrate by the migration device, and determine the part of the icon data as the reference icon data, wherein , the multi-screen device may include multiple display screens, and the part of the icon data is used to indicate icon data corresponding to a specified display screen of the migration device.
  • calculating the actual icon data according to the reference icon data and the acquired icon layout of the first display screen includes:
  • the reference icon data of the designated display screen is used as the actual icon data of the first display screen
  • the icon mapping algorithm is used to determine the icon layout according to the reference icon data and the icon layout of the first display screen. The actual icon data of the first display screen.
  • the icon layout of the first display interface includes the number of second icon columns
  • the method of determining the actual icon data of the first display screen through the icon mapping algorithm according to the reference icon data and the icon layout of the first display screen includes:
  • the set of coordinates of each icon is used as the actual icon data of the first display screen to determine at least one actual icon data of the first display screen.
  • the second number of icon columns includes N columns, and the first number of icon columns includes J columns;
  • the icon mapping algorithm is used to calculate the icon layout of the first display screen according to the first icon column number, the second icon column number and the obtained coordinates of each icon in the icon layout of the designated display screen
  • the coordinates of each icon in including:
  • obtaining the reference icon data of the migration device according to the device type of the migration device and the device type of the migration device includes:
  • the device type of the migration device includes a multi-screen device, and its own device type includes a multi-screen device, acquire a plurality of partial icon data selected for migration by the migration device, and determine each of the partial icon data as a reference icon data to determine a plurality of the reference icon data, wherein the multi-screen device may include a plurality of display screens, and the part of the icon data is used to indicate icon data corresponding to a specified display screen of the migration device.
  • calculating the actual icon data according to the reference icon data and the acquired icon layout of the first display screen includes:
  • the prompt information is used to prompt the user to select the reference icon data to be migrated from the plurality of the reference icon data;
  • For each of the first display screens receive a user's selection operation, and determine the icon layout of the designated display screen corresponding to the reference icon data selected by the user;
  • the reference icon data of the designated display screen is used as the actual icon data of the first display screen
  • the icon mapping algorithm is used to determine the reference icon data selected by the user and the icon layout of the first display screen.
  • the actual icon data of the first display screen is displayed.
  • the icon layout of the first display interface includes the number of second icon columns
  • the icon mapping algorithm determines the actual icon data of the first display screen according to the reference icon data selected by the user and the icon layout of the first display screen, including:
  • the number of the first icon columns of the designated display screen is determined
  • the set of coordinates of each icon is used as the actual icon data of the first display screen to determine a plurality of actual icon data of the first display screen.
  • embodiments of the present application provide an electronic device, including: a display screen; one or more processors; a memory; a plurality of application programs; and one or more computer programs, wherein the one or more computer programs A program is stored in the memory, and the one or more computer programs include instructions that, when executed by the device, cause the device to perform the icon data migration method in any of the possible implementations of any of the above aspects .
  • an embodiment of the present application provides a computer-readable storage medium, where the computer-readable storage medium is used for program code executed by a device, and the program code includes the first aspect or any of the first aspect. Instructions for a method in a possible implementation.
  • a request for establishing a link sent by a migration device is obtained, and the request for establishing a link carries the device type of the migration device, and the device type includes a single-screen device or a multi-screen device.
  • the device type and its own device type obtain the reference icon data of the migration device, calculate the actual icon data according to the reference icon data and the obtained icon layout of the first display screen, and display the icon corresponding to the actual icon data according to the icon layout, It can realize icon data migration between migrating devices of different device types and devices to be migrated with different device types, so that users' usage habits and icon data are preserved to the greatest extent, and it is convenient for users to organize and manage desktop icons more conveniently. Improve the convenience for users to use icons.
  • FIG. 1 is an architecture diagram of an icon data migration system provided by an embodiment of the present application
  • FIG. 2 is an apparatus structure diagram of a migration device 110 or a device to be migrated 120 according to an embodiment of the present application;
  • FIG. 3 is a flowchart of a method for migrating icon data provided by an embodiment of the present application.
  • FIG. 4 is a schematic diagram of an effect of displaying prompt information provided by an embodiment of the present application.
  • FIG. 5 is a schematic diagram of an icon layout of a migration device 110 provided by an embodiment of the present application.
  • 6a is a schematic diagram of an icon layout of an internal display screen of a device to be migrated 120 according to an embodiment of the present application
  • 6b is a schematic diagram of an icon layout of an external display screen of a device to be migrated 120 according to an embodiment of the present application
  • FIG. 7a is a schematic diagram of another icon layout of the migration device 110 provided by an embodiment of the present application.
  • FIG. 7b is a schematic diagram of another icon layout of the device to be migrated 120 provided by an embodiment of the present application.
  • FIG. 8a is a schematic diagram of an icon layout of a designated display screen of a migration device 110 according to an embodiment of the present application
  • FIG. 8b is a schematic diagram of an icon layout of a first display screen of a device to be migrated 120 according to an embodiment of the present application
  • FIG. 8c is a schematic diagram of an icon layout of a designated display screen of another migration device 110 according to an embodiment of the present application.
  • FIG. 8d is a schematic diagram of another icon layout of the first display screen of the device to be migrated 120 according to an embodiment of the present application.
  • 9a is a schematic diagram of an icon layout of a designated display screen of another migration device 110 according to an embodiment of the present application.
  • FIG. 9b is a schematic diagram of another icon layout of the first display screen of the device to be migrated 120 according to an embodiment of the present application.
  • FIG. 10 is a schematic diagram of establishing a coordinate system according to an embodiment of the present application.
  • FIG. 11a is a schematic diagram of an icon layout of a designated display screen of another migration device 110 according to an embodiment of the present application.
  • FIG. 11b is a schematic diagram of an icon layout of a first display screen of another device to be migrated 120 according to an embodiment of the present application
  • FIG. 12a is a schematic diagram showing the effect of displaying icons on a device to be migrated 120 according to an embodiment of the present application
  • FIG. 12b is a schematic diagram illustrating the effect of displaying icons on another device to be migrated 120 according to an embodiment of the present application
  • FIG. 13 is a schematic diagram illustrating the effect of displaying icons on another device to be migrated 120 according to an embodiment of the present application
  • FIG. 14 is a flowchart of another icon data migration method provided by an embodiment of the present application.
  • 15 is a schematic diagram of another effect of displaying prompt information provided by an embodiment of the present application.
  • FIG. 16 is a schematic diagram of an icon layout of a designated display screen of another migration device 110 provided by an embodiment of the present application.
  • FIG. 17a is a schematic diagram of an icon layout of a designated display screen of another migration device 110 according to an embodiment of the present application.
  • 17b is a schematic diagram of an icon layout of a designated display screen of another migration device 110 according to an embodiment of the present application.
  • FIG. 18a is a schematic diagram illustrating the effect of another device to be migrated 120 displaying icons according to an embodiment of the present application
  • FIG. 18b is a schematic diagram illustrating the effect of another device to be migrated 120 displaying icons according to an embodiment of the present application
  • FIG. 19 is a schematic block diagram of an electronic device provided by an embodiment of the present application.
  • FIG. 20 is a schematic structural diagram of an electronic device according to an embodiment of the present application.
  • the current mainstream smart terminal screens are in the form of a single screen, in the related art, data migration software is usually used, which can smoothly migrate the icon data of the old device to the new device.
  • the screens of smart terminals have also appeared in various forms. Taking a folding screen mobile phone as an example, the folding screen mobile phone has two screens of different sizes, which are applied to different usage scenarios of users. .
  • other multi-screen devices can also be included.
  • the data migration software in the related art is used to migrate the icon data of the single-screen device to the multi-screen device, the number of screens between the two devices will be inconsistent, which will cause the multi-screen device.
  • Some screens of 2019 cannot properly retain the icon layout as expected by users, resulting in the problem that desktop icons are scattered irregularly on some screens of multi-screen devices.
  • the data migration software in the related art is used to migrate the icon data of the multi-screen device to the single-screen device, due to the difference in the number of screens, the icon data expected to be migrated by the user and the actual migration will appear.
  • the icon data does not match the problem.
  • the data migration software in the related art is used to migrate the icon data of the multi-screen device to the multi-screen device, due to the different screen shapes, the migrated icon data will be incomplete and missing.
  • the technical problem to be solved by this application is: how to solve the problem of scattered icons due to differences in screen shape or number of screens during data migration between multi-screen devices and single-screen devices and between multi-screen devices and multi-screen devices.
  • the migration data does not meet expectations, and the icon data is incomplete. Therefore, the embodiment of the present application provides an icon data migration method, which solves the data migration problem existing in the related art and reduces the tedious operation of user synchronization.
  • FIG. 1 is an architecture diagram of an icon data migration system according to an embodiment of the present application.
  • the system 100 includes a migration device 110 , a to-be-migrated device 120 , and a cloud backup and storage platform 130 .
  • the migration device 110 includes a device for migrating icon data to other devices.
  • the device to be migrated 120 includes a device that receives icon data sent by the migration device 110 .
  • the migration device 110 and the device to be migrated 120 may be terminal devices, such as mobile phone terminals, tablet computers, notebook computers, augmented reality (AR for short)/virtual reality (VR for short), vehicle terminals It can also be a server or cloud, etc.
  • the migrating device 110 and the device to be migrated 120 may also be computing devices such as desktop computers, laptop computers, handheld computers, cellular telephones, dedicated media players, consumer electronic devices, and the like.
  • FIG. 2 is a device structure diagram of the migration device 110 or the device to be migrated 120 provided by the embodiment of the present application.
  • the device of the migration device 110 may include: an application module, An operating system, a processor, a communication module, a memory, a display device, and an input device.
  • the devices of the device to be migrated 120 may include: an application program module, an operating system, a processor, a communication module, a memory, a display device, and an input device.
  • the processor is used to control the reception and manipulation of input and output data between the various components of the computer system. Specifically, the processor is used to calculate causal time, display time, and ordering calculations.
  • the communication module is used to connect the terminal device to the Internet, and can perform data communication with the server deployed on the Internet.
  • the data interaction between the application program and the server is all through the communication module.
  • the communication module can be used to deliver with services, obtain server UTC time, transmit chat records and receive records.
  • the memory is used to connect the processor, and the memory is also used to store the operating system and application program information used by the terminal.
  • Memory may include read only memory (ROM), random access memory (RAM), etc. Information may also reside on removable storage media, including SD memory cards, and be loaded or installed on a computer system when needed .
  • the memory is used to store the chat application itself and record chat records, including but not limited to chat content, causal time, display time, and the like.
  • the display device is operably connected to the processor, and the display device is used for receiving and displaying the processing result returned by the processor.
  • display devices are configured with a graphical user interface (GUI), which includes a user interface that provides an easy-to-use user interface between a user of a computer system and an operating system or application running on it.
  • GUI graphical user interface
  • the display device is configured to display the merged chat records and time blocks according to the sorting result.
  • the input device is operably connected to the processor, and the terminal input device is used for receiving user input operation and can send the user input content to the server.
  • the input device may be a touch pad or touch screen placed on or in front of the display device, and may be based on various sensing technologies, including but not limited to capacitive sensing, resistive sensing, surface acoustic wave sensing, pressure sensing, light sensing, and the like.
  • the touchpad or touchscreen may be integrated with the display device or may be a separate component.
  • Input devices can be single-point or multi-point input devices. Specifically, the input device is used to receive a user's chat input operation.
  • a terminal device conforming to the above-mentioned apparatus structure can be used as the migration device 110 or the device to be migrated 120 provided by the embodiment of the present application.
  • the following is a specific introduction to the migration device 110 or the device to be migrated 120 provided by the embodiment of the present application:
  • the migration device 110 includes a first cloud backup module 1101 , a first clone module 1102 and a first backup and restoration module 1103 .
  • the device to be migrated 120 includes a second cloud backup module 1201, a second clone module 1202, and a second backup recovery module 1203, wherein the first cloud backup module 1101 and the second cloud backup module 1201 are performed through the cloud backup and storage platform 130.
  • icon data migration can be performed through the above three data transmission methods.
  • the device to be migrated 120 obtains a request for establishing a link sent by the migration device 110, and the link establishment request carries the device type of the migration device 110.
  • the migration device 110 and the device to be migrated 120 can obtain each other's device types, and based on the device types of both parties, the migration device 110 uploads the reference icon data to the cloud backup and storage platform 130 through the first cloud backup module 1101 , send the reference icon data to the device to be migrated 120 through the cloud backup and storage platform 130, so that the device to be migrated 120 obtains the reference icon data of the migration device 110, and calculates the reference icon data according to the reference icon data and the obtained icon layout of the first display screen
  • the actual icon data is generated to complete the migration of the icon data, and after the icon data migration is completed, the icon corresponding to the actual icon data is displayed.
  • the device to be migrated 120 obtains the request for establishing a link sent by the migration device 110, and the link establishment request carries the device type of the migration device 110.
  • the migration device 110 and the device to be migrated 120 can mutually obtain the device type of each other, and based on the device types of both parties, the migration device 110 sends the reference icon data to the device to be migrated 120 through the Wi-Fi signal through the first cloning module 1102, So that the device to be migrated 120 obtains the reference icon data of the migration device 110, calculates the actual icon data according to the reference icon data and the obtained icon layout of the first display screen, thereby completing the migration of the icon data, and after the icon data migration is completed to display the icon corresponding to the actual icon data.
  • the device to be migrated 120 obtains the request for establishing a link sent by the migration device 110, and the request for establishing a link carries the device type of the migration device 110.
  • the migration device 110 and the device to be migrated 120 can obtain the device type of each other, and based on the device types of both parties, the migration device 110 sends the reference icon data to the device to be migrated 120 through the device assistant through the first backup and recovery module 1103 to Make the device to be migrated 120 obtain the reference icon data of the migration device 110, calculate the actual icon data according to the reference icon data and the obtained icon layout of the first display screen, so as to complete the migration of the icon data, and after the icon data migration is completed, Displays the icon corresponding to the actual icon data.
  • icon data migration between migrating devices of different device types and devices to be migrated of different device types can be implemented.
  • the data migration process of migrating icon data from a multi-screen device to a single-screen device, migrating icon data from a single-screen device to a multi-screen device, and migrating icon data from a multi-screen device to a multi-screen device is described in detail. instruction of:
  • FIG. 3 is a flowchart of a method for migrating icon data according to an embodiment of the present application. The method is applied to a device to be migrated. As shown in FIG. 3 , the method includes:
  • Step 102 Obtain a link establishment request sent by the migration device.
  • each step is performed by the device to be migrated, and by performing step 102, the device to be migrated can obtain the device type of the device to be migrated, so as to facilitate subsequent implementation of the device to be migrated for different device types and the device to be migrated for different device types Icon data migration between.
  • the link establishment request carries the device type of the migration device, and the device type includes a single-screen device or a multi-screen device.
  • the embodiments of the present application specifically describe the migration of a device whose device type includes a single-screen device to a device to be migrated whose device type includes a multi-screen device, and the migration device whose device type includes a multi-screen device to a device whose device type includes a single-screen device.
  • the icon data migration process between devices to be migrated and for the icon data migration process between devices whose device types include multi-screen devices to be migrated whose device types include multi-screen devices, reference may be made to the following embodiments.
  • Step 104 After the link is established successfully, obtain reference icon data of the migration device according to the device type of the migration device and the device type of the migration device.
  • step 104 may perform different processes according to the device types of different migration devices and the device type of the device itself, which may specifically include:
  • step 104 may specifically include: if the device type of the migration device includes a single-screen device and the device type of the migration device includes a multi-screen device, acquiring all icon data sent by the migration device, and determining all icon data as reference Icon data.
  • the multi-screen device includes multiple display screens
  • the single-screen device includes one display screen
  • all icon data can be understood as the sum of icon data corresponding to the display screens. Since the device type of the migration device includes a single-screen device, all the icon data obtained from the migration device is the icon data of one display screen. In other words, when the device type of the migration device includes a single-screen device, the icon data sent by the migration device is all the icon data of the migration device.
  • step 104 may further specifically include: if the device type of the migrating device includes a multi-screen device and its own device type includes a single-screen device, acquiring part of the icon data selected for migration, and determining the part of the icon data as Reference icon data.
  • the multi-screen device includes multiple display screens
  • the single-screen device includes one display screen
  • part of the icon data is used to indicate icon data corresponding to a specified display screen of the migration device.
  • the multi-screen device may include multiple display screens, for example, the multi-screen device may include two screens, wherein the two screens may include an inner screen and an outer screen.
  • the multi-screen device may further include other numbers of first display screens, and the icon data migration method provided in the embodiment of the present application can be executed for different numbers of first display screens.
  • part of the icon data is used to indicate icon data corresponding to a specified display screen of the migration device, that is, when the device type of the migration device includes a multi-screen device, each display screen of the migration device has a different Icon data, at this time, when the device type includes a single-screen device, the icon data corresponding to a specified display screen can be selected from the migration device according to the user's selection operation and sent. Therefore, the acquired icon data is the part of the icon data selected for migration. , not all icon data.
  • the process of selecting a part of the icon data to be migrated by the migration device may include: in the migration device, displaying prompt information to prompt the user to select the reference icon data to be migrated; The icon data is sent to the device to be migrated as part of the icon data.
  • the migration device includes two display screens as an example, wherein the two display screens include an outer screen and an inner screen.
  • the display interface 2 of the migration device displays a prompt message: "Please Select the icon data to be migrated", and provide the optional items "External screen 4*6" and "Internal screen 5*6".
  • the display interface 2 is a user-oriented display interface
  • "external screen 4*6” is used to indicate the icon data corresponding to the external screen
  • “external screen 4*6” means that the icon layout of the external screen includes 6 rows and 4 columns .
  • Internal screen 5*6 is used to indicate the icon data corresponding to the internal screen, and "Internal screen 5*6" means that the icon layout of the internal screen includes 6 rows and 5 columns. Based on the selection operation of the receiving user, the icon data selected for migration is determined, and the icon data is sent to the device to be migrated as part of the icon data.
  • the icon data corresponding to the external screen of the migration device is taken as part of the icon data and sent to the device to be migrated.
  • Step 106 Determine the icon layout of the designated display screen according to the reference icon data.
  • the designated display screen is used to indicate the display screen of the migration device itself.
  • the designated display screen is used to indicate the display screen corresponding to the reference icon data.
  • the icon data selected for migration is determined based on the receiving user's selection operation as The icon data corresponding to the external screen refers to the icon data corresponding to the external screen as the reference icon data.
  • the icon layout is used to indicate the arrangement of the icons.
  • the icon layout of the designated display screen of the migration device includes the arrangement layout of row a and column b.
  • the icon layout of the external screen of the migration device includes 6 rows and 4 columns.
  • Step 108 Determine whether the icon layout of each first display screen is the same as the icon layout of the designated display screen, if yes, go to step 110; if not, go to step 112.
  • the icon layout of each first display screen can be acquired according to the layout setting of the own device.
  • the specific execution process of step 108 may include: when it is determined that the device type of the migration device includes a single-screen device, and its own device type includes a multi-screen device, it is necessary to determine the icon layout and designation of each first display screen. Whether the layout of the icons on the display screen is the same, if it is determined that the layout of the icons on the first display screen is the same as the layout of the icons on the designated display screen, it means that the layout of the icons on the first display screen is the same as the layout of the icons on the migration device , so the subsequent step 110 can be performed to use the reference icon data of the designated display screen as the actual icon data of the first display screen; if it is determined that the icon layout of the first display screen is different from the icon layout of the designated display screen, it means that the first display screen The arrangement of the icons on the display screen is different from the arrangement of the icons of the migration device.
  • the icons will be scattered and the migration data will not meet expectations due to the different screen shapes. , the icon data is incomplete, so it is necessary to perform step 112 to generate actual icon data according to the icon layout of the designated display screen and its own icon layout through the icon mapping algorithm.
  • the device type of the migration device 110 includes a single-screen device, and the icon layout of the designated display screen S of the migration device 110 is an arrangement layout of 6 rows and 4 columns, as shown in FIG. 6a
  • the device type of itself includes a multi-screen device, that is, the multiple first display screens of the device to be migrated 120 include an inner display screen A and an outer display screen B, wherein, as shown in Figure 6a
  • the icon layout of the inner display screen A includes an arrangement layout of 6 rows and 4 columns.
  • the icon layout of the outer display screen B includes an arrangement layout of 6 rows and 5 columns. Therefore, by executing step 108, it is determined whether the icon layout of each first display screen is the same as the icon layout of the designated display screen. Whether the icon layout of the external display screen B is the same as the icon layout of the designated display screen S.
  • the device type of the migration device 110 includes a multi-screen device, and it is determined according to step 106 that the icon layout of the designated display screen E of the migration device 110 includes an arrangement of 6 rows and 5 columns Layout, the device type of itself (device 120 to be migrated) includes a single-screen device.
  • the icon layout of the first display screen D includes an arrangement layout of 6 rows and 5 columns. Therefore, by executing step 108, it is determined whether the icon layout of each first display screen is the same as that of the designated display screen. Specifically, it is determined whether the icon layout of the first display screen D is the same as that of the designated display screen E.
  • Step 110 take the reference icon data of the designated display screen as the actual icon data of the first display screen, and continue to execute 116 .
  • step 110 when it is determined that the icon layout of the inner display screen A is the same as the icon layout of the designated display screen, step 110 can be executed to use the reference icon data of the designated display screen as the first display screen the actual icon data, so that the same icon layout as the device to be migrated 110 can be displayed on the device 120 to be migrated.
  • FIG. 8a is the icon layout of the designated display screen S of the device to be migrated 110
  • FIG. 8b is the icon layout of the internal display screen A of the device to be migrated 120. As shown in FIGS.
  • icon 1 - icon 14 can be understood as reference icon data. Since the icon layout of the inner display screen A is the same as the icon layout of the designated display screen S, the reference icon data is used as the actual display screen A of the inner display screen.
  • the icon data, ie Icon 1 - Icon 14 in Fig. 8b, are represented as the actual icon data of the inner display screen A.
  • the reference icon data provided in FIG. 8a is only an example, and in practical applications, the position of the icon can be adjusted according to the user's operating habits.
  • the icon layout of the migration device 110 is the same as that in Fig. 8a (both are 6 rows and 4 columns), and the number of icons in the reference icon data of the migration device 110 in Fig. 8c (14)
  • the number of icons (14) is the same as that of the reference icon data in Fig. 8a, but the arrangement order of the icon data is different, that is, the reference icon data can be laid out in a designated position according to the user's operating habits.
  • the process of the above embodiment can still be performed,
  • the reference icon data of the migrated device is migrated to the device to be migrated 120 in a ratio of 1:1 to generate actual icon data.
  • icon 1-icon 14 in Fig. 8d is represented as the actual icon data of the inner display screen A'
  • the icon layout of Fig. 8d is the same as that of Fig. 8c.
  • step 110 can be performed to use the reference icon data of the designated display screen as the actual icon data of the first display screen, Therefore, the same icon layout as the device to be migrated can be displayed on the device to be migrated.
  • FIG. 9a is the icon layout of the designated display screen E of the migration device 110
  • FIG. 9b is the icon layout of the first display screen D of the device 120 to be migrated.
  • FIGS. 9a and 9b due to the designated display of the migration device 110
  • the icon layout of screen E is the same as the icon layout of the first display screen D of the device to be migrated 120.
  • the reference icon data corresponding to the designated display screen E of the migration device 110 can be migrated to the device to be migrated at a ratio of 1:1 to generate an actual icon data.
  • the actual icon data of the first display screen D is determined.
  • icon 1-icon 14 can be understood as reference icon data. Since the icon layout of the first display screen D is the same as that of the designated display screen E, the reference icon data is used as the first display screen D.
  • the actual icon data of that is, the icon 1-icon 14 in FIG.
  • 9b are represented as the actual icon data of the first display screen D, wherein the dotted box can be understood as the position does not include icon data, but the dotted box belongs to the icon layout part of, when the user downloads a new application, the corresponding icon data will be added in the dotted box to display the corresponding icon.
  • Step 112 Determine the actual icon data of the first display screen according to the reference icon data and the icon layout of the first display screen through the icon mapping algorithm.
  • the icon layout of the first display interface includes the number of second icon columns.
  • step 112 is executed to determine the external display screen. Actual icon data for screen B.
  • the execution process of step 112 may include:
  • Step 1121 Determine the number of first icon columns of the designated display screen from the icon layout of the designated display screen.
  • the icon layout of the designated display screen S of the migration device 110 includes an arrangement layout of 6 rows and 4 columns, so it can be determined that the number of first icon columns of the migration device 110 is 4.
  • the icon layout of the designated display screen E of the migration device 110 includes an arrangement layout of 6 rows and 5 columns, so it can be determined that the number of the first icon columns of the migration device 110 is 5.
  • Step 1122 Calculate the value of each icon in the icon layout of the first display screen according to the number of first icon columns, the number of second icon columns, and the obtained coordinates of each icon in the icon layout of the designated display screen through the icon mapping algorithm. coordinate.
  • step 1122 may include:
  • the coordinates of each icon can be obtained by establishing a coordinate system for the icon layout of the designated display screen S of the migration device 110 .
  • the coordinates of icon 1 are (0,0) and the coordinates of icon 2 are (1,0).
  • step 110 can be executed to determine the actual icon data of the internal display screen A.
  • step 112 the execution process of step 112 is performed. Specifically, after obtaining the coordinates of each icon in the icon layout of the designated display screen S, according to the first icon column number, the second icon column number and the obtained coordinates of each icon in the icon layout of the designated display screen, The coordinates of each icon in the icon layout of the first display screen are calculated.
  • FIG. 11a is the icon layout of the designated display screen S of the migration device 110
  • FIG. 11b is the icon layout of the outer display screen B of the device to be migrated 120. As shown in FIGS.
  • the first number of icon columns includes 4 columns
  • the second number of icon columns includes 5 columns
  • the coordinates of the icon 5 in the icon layout of the designated display screen S of the migration device 110 are (0, 1), that is, the X-axis coordinate value is 0, and the Y-axis coordinate value is 1 , through the above formula, the coordinates of the icon 5 on the first display screen B outside the device 120 to be migrated can be calculated.
  • the Y-axis coordinate of the external display screen B of icon 5 is calculated to be 0
  • the X-axis coordinate of the icon 4 on the external display screen B is calculated to be 4, so the calculated coordinate of the icon 5 on the external display screen B is (4, 0).
  • the coordinates of each icon in the icon layout of the external display screen B can be calculated.
  • the above steps can also be performed to map the icons in the case of irregular icon layouts and different icon layouts.
  • the algorithm calculates the coordinates of each icon in the icon layout of the first display screen according to the number of first icon columns, the number of second icon columns and the obtained coordinates of each icon in the icon layout of the designated display screen, an embodiment of the present application No more elaborating on this.
  • FIG. 6a shows the icon layout of the internal display screen A of the device to be migrated 120.
  • the internal display screen of the device to be migrated 120 can also be determined by determining the coordinates of each icon. Display the first icon column number of the icon layout of screen A, perform the above step 112 through the icon mapping algorithm, according to the first icon column number, the second icon column number and the obtained coordinates of each icon in the icon layout of the inner display screen A , calculate the coordinates of each icon in the icon layout of the external display screen B.
  • the order value of each icon in the icon layout of the first display screen can be kept unchanged. That is to say, the coordinates of each icon in the icon layout of the first display screen can be obtained from the linkage mapping of the coordinates of each icon in the icon layout of the designated display screen. Specifically, the obtained icon layout of the designated display screen can be The X-axis coordinate value of each icon in , calculates the order value of the designated display screen, and makes all the icons map the icon layout of the first display screen under the condition that the relative relationship between the order values remains unchanged.
  • Step 114 take the set of coordinates of each icon as the actual icon data of the first display screen to determine the actual icon data of at least one first display screen, and continue to step 116 .
  • a set of coordinates of icons is acquired through step 112, and the set of coordinates of multiple icons is used as the actual icon data of the first display screen.
  • the actual icon data of multiple first display screens can be determined by executing the above steps, and when its own device type includes a single-screen device, by executing the above steps.
  • the step can determine the actual icon data of a first display screen.
  • Step 116 Display the icon corresponding to the actual icon data.
  • step 116 may include: displaying icons corresponding to actual icon data based on the icon layout of the first display screen.
  • the device to be migrated includes an inner display screen A and an outer display screen B, wherein the actual icon data of the inner display screen A is shown in Figure 8b , the actual icon data of the external display screen B is shown in Figure 11b.
  • the icon corresponding to the actual icon data can be displayed through step 116.
  • FIG. 12a is a schematic diagram of the effect of displaying icons on the inner display screen A
  • FIG. 12b is a schematic diagram of the effect of displaying icons on the outer display screen B.
  • the internal display screen is obtained.
  • the icon corresponding to the actual icon data can be displayed on the inner display screen A based on the icon layout of the inner display screen A, so that the user can normally use the device to be migrated.
  • the icons corresponding to the actual icon data can be displayed on the external display screen B based on the icon layout of the external display screen B, so that the user can normally use the device to be migrated.
  • FIG. 13 is a schematic diagram of the effect of displaying the icons on the first display screen D. As shown in FIG. 13, after obtaining the actual icon data on the first display screen D, the first display screen D The icon layout of the display screen D is displayed, and the icons corresponding to the actual icon data are displayed on the first display screen D, so that the user can normally use the device to be migrated.
  • the icon data migration method provided by the embodiment of the present application proposes an operation method for migrating desktop icon data from a single-screen device to a multi-screen device and a calculation method for mapping between different grid layouts.
  • the problem of scattered icons on multi-screen devices improves the ease of use of new devices for users, and preserves the original operation and usage habits of users to the greatest extent.
  • the link establishment request sent by the migration device is obtained, and the link establishment request carries the device type of the migration device, and the device type includes a single-screen device or a multi-screen device.
  • own device type obtain the reference icon data of the migrated device, calculate the actual icon data according to the reference icon data and the obtained icon layout of the first display screen, and display the icon corresponding to the actual icon data according to the icon layout, which can realize different devices
  • the icon data migration between the type of migration device and the device to be migrated of different device types makes the user's usage habits and icon data preserved to the greatest extent, which facilitates the user to organize and manage the desktop icons more conveniently, thereby improving the user's use. Convenience of icons.
  • FIG. 14 is a flowchart of a method for migrating icon data according to an embodiment of the present application. The method is applied to a device to be migrated. As shown in FIG. 14 , the method includes:
  • Step 202 Obtain a link establishment request sent by the migration device.
  • step 202 for the execution process of step 202, reference may be made to the foregoing step 102.
  • Step 204 If the device type of the migration device includes a multi-screen device, and the device type of the migration device includes a multi-screen device, obtain a plurality of partial icon data selected for migration by the migration device, and determine each partial icon data as reference icon data, A plurality of reference icon data are determined.
  • the multi-screen device may include multiple display screens, and part of the icon data is used to indicate icon data corresponding to a specified display screen of the migration device.
  • the device type of the migration device includes a multi-screen device, that is, the migration device has multiple designated display screens
  • the icon data corresponding to one designated display screen can be used as a part of the icon data to obtain the migration device.
  • the device chooses to migrate multiple parts of the icon data. For example, when the migration device includes two display screens, the icon data corresponding to each display screen is respectively sent to the device to be migrated as part of the icon data.
  • Step 206 Display prompt information on each first display screen, where the prompt information is used to prompt the user to select the reference icon data to be migrated from the plurality of reference icon data.
  • the device to be migrated includes two display screens as an example, wherein the two display screens include an outer screen and an inner screen.
  • the display interface 3 of the device to be migrated 120 displays prompt information : "Please select the icon data to be migrated", and provide optional items "outer screen 4*6" and "inner screen 5*6".
  • the display interface 3 is a user-oriented display interface
  • "external screen 4*6” is used to indicate the icon data corresponding to the external screen
  • “external screen 4*6” means that the icon layout of the external screen includes 6 rows and 4 columns .
  • Internal screen 5*6 is used to indicate the icon data corresponding to the internal screen, and "Internal screen 5*6" means that the icon layout of the internal screen includes 6 rows and 5 columns. Based on the selection operation of the receiving user, the icon data selected to be migrated is determined, and the icon data is sent to the device to be migrated 120 as part of the icon data.
  • Step 208 For each first display screen, receive a user's selection operation, and determine the icon layout of the designated display screen corresponding to the reference icon data selected by the user.
  • the designated display screen corresponding to the reference icon data of "internal screen 5*6” is determined, for example, as shown in As shown in FIG. 16 , the determined “inner screen 5*6” is the icon layout of the designated display screen F of the migration device 110 .
  • Step 210 Determine whether the icon layout of each first display screen is the same as the icon layout of the designated display screen, if yes, go to step 212; if not, go to step 214.
  • the executable Subsequent step 212 uses the reference icon data of the designated display screen as the actual icon data of the first display screen; if it is determined that the icon layout of the first display screen is different from the icon layout of the designated display screen, it indicates that the icon of the first display screen The arrangement of the icons is different from the arrangement of the icons of the migration device.
  • step 214 it is necessary to perform step 214 to generate actual icon data according to the icon layout of the designated display screen and its own icon layout through the icon mapping algorithm.
  • the migration device includes a display screen F and a display screen G
  • the device to be migrated includes a display screen H and a display screen I
  • first obtain the current user-facing display screen for example, when the current user-facing display screen includes the display screen H
  • prompt information needs to be displayed on the display screen H to prompt the user to select the reference icon data to be migrated to the display screen H from the reference icon data corresponding to the display screen F and the reference icon data corresponding to the display screen G. If the user selects the reference icon data corresponding to the display screen F, it is necessary to perform step 210 to determine whether the icon layout of the display screen H is the same as the icon layout of the specified display screen (display screen F).
  • the reference icon data of F is used as the actual icon data of the display screen H. If they are different, step 214 is executed to determine the actual icon data of the display screen H. After the actual icon data of the display screen H is determined, the icons corresponding to the actual icon data are displayed on the display screen H based on the icon layout of the display screen H. Similarly, according to the above method, the actual icon data of the display screen I is determined, and the icons corresponding to the actual icon data are displayed on the display screen I based on the icon layout of the display screen H.
  • the user can be prompted to select the need to migrate.
  • the reference icon data of the display screen I is reached, the reference icon data corresponding to the display screen G is selected, thereby ensuring that the icon data is retained to the greatest extent, and avoiding the problem of incomplete and omission of the migrated icon data.
  • Step 212 take the reference icon data of the designated display screen as the actual icon data of the first display screen, and proceed to step 218 .
  • step 210 for the execution process of step 210, reference may be made to the foregoing step 110.
  • Step 214 Determine the actual icon data of the first display screen according to the reference icon data selected by the user and the icon layout of the first display screen through the icon mapping algorithm.
  • the own icon layout includes the second icon column number.
  • step 214 specifically includes:
  • Step 2141 Determine the number of first icon columns on the designated display screen according to the icon layout of the designated display screen corresponding to the reference icon data selected by the user.
  • step 2141 for the execution process of step 2141, reference may be made to the foregoing step 1121.
  • Step 2142 Calculate the value of each icon in the icon layout of the first display screen according to the number of first icon columns, the number of second icon columns, and the obtained coordinates of each icon in the icon layout of the designated display screen through the icon mapping algorithm. coordinate.
  • step 2142 may include:
  • the second icon column number includes N columns, and the first icon column number includes J columns;
  • step 2142 for the execution process of step 2142, reference may be made to the foregoing step 1122.
  • Step 216 Use the set of coordinates of each icon as the actual icon data of the first display screen to determine the actual icon data of a plurality of first display screens.
  • a set of coordinates of icons is obtained through step 214, and the set of coordinates of multiple icons is used as the actual icon data of the first display screen. It should be noted that, when each of its own device types includes multi-screen devices, actual icon data of multiple first display screens can be determined by performing the above steps.
  • Step 218 Display the icon corresponding to the actual icon data.
  • step 218 may include: based on the icon layout of each first display screen, displaying an icon corresponding to the actual icon data.
  • FIG. 17a is a schematic diagram of the effect of the icon layout of the display screen F
  • FIG. 17b 17a and 17b the display screen F and the display screen G respectively have corresponding reference icon data.
  • an icon corresponding to the actual icon data can be displayed on the display screen H based on the icon layout of the display screen H, so that the user can normally use the device to be migrated.
  • an icon corresponding to the actual icon data can be displayed on the display screen I, so that the user can normally use the device to be migrated.
  • the display screen H may select the reference icon data corresponding to the transition display screen G, and the display screen I select the reference icon data corresponding to the transition display screen F. This application The embodiment does not limit this. Further, the above-mentioned icon data migration method can still be executed for more than two display screens, which will not be repeated.
  • the link establishment request sent by the migration device is obtained, and the link establishment request carries the device type of the migration device, and the device type includes a single-screen device or a multi-screen device.
  • own device type obtain the reference icon data of the migrated device, calculate the actual icon data according to the reference icon data and the obtained icon layout of the first display screen, and display the icon corresponding to the actual icon data according to the icon layout, which can realize different devices
  • the icon data migration between the type of migration device and the device to be migrated of different device types makes the user's usage habits and icon data preserved to the greatest extent, which facilitates the user to organize and manage the desktop icons more conveniently, thereby improving the user's use. Convenience of icons.
  • FIG. 19 is a schematic block diagram of an electronic device 110 provided by an embodiment of the present application. It should be understood that the electronic device 110 can execute each step in the icon data migration method in FIG. 3 and FIG. 14 , which will not be described in detail here in order to avoid repetition. As shown in FIG. 19 , the electronic device 110 includes: a processing unit 401 and a display unit 402 .
  • the processing unit 401 is configured to obtain a link establishment request sent by the migration device, where the link establishment request carries the device type of the migration device, and the device type includes a single-screen device or a multi-screen device; According to the device type of the migration device and its own device type, the reference icon data of the migration device is obtained; according to the reference icon data and the obtained icon layout of the first display screen, the actual icon data is calculated.
  • the display unit 402 is configured to display an icon corresponding to the actual icon data.
  • the processing unit 401 is further configured to acquire all icon data sent by the migration device when the device type of the migration device includes a single-screen device and the device type of the migration device includes a multi-screen device, and store all the icon data sent by the migration device.
  • the entire icon data is determined as reference icon data, wherein the multi-screen device may include a plurality of display screens.
  • the processing unit 401 is further configured to acquire part of the icon data selected to be migrated by the migration device when the device type of the migration device includes a multi-screen device and the device type of the migration device includes a single-screen device, and use The part of the icon data is determined as reference icon data, wherein the multi-screen device may include multiple display screens, and the part of the icon data is used to indicate icon data corresponding to one designated display screen of the migration device.
  • the processing unit 401 is further configured to determine the icon layout of the designated display screen of the migration device according to the reference icon data; determine the icon layout of each of the first display screens and the designated display screen Whether the icon layout of the specified display screen is the same; if it is determined that the icon layout of the first display screen is the same as the icon layout of the specified display screen, the reference icon data of the specified display screen is used as the actual value of the first display screen icon data; if it is determined that the icon layout of the first display screen is different from the icon layout of the designated display screen, the icon mapping algorithm is used to determine the reference icon data and the icon layout of the first display screen. The actual icon data of the first display screen is displayed.
  • the icon layout of the first display interface includes the number of second icon columns; the processing unit 401 is further configured to determine the first icon column of the specified display screen from the icon layout of the specified display screen
  • the icon layout of the first display screen is calculated by the icon mapping algorithm according to the number of the first icon column, the number of the second icon column and the obtained coordinates of each icon in the icon layout of the designated display screen
  • the coordinates of each icon in ; the set of coordinates of each icon is used as the actual icon data of the first display screen to determine at least one actual icon data of the first display screen.
  • the processing unit 401 is further configured to use the icon mapping algorithm formula:
  • the processing unit 401 is further configured to acquire a plurality of partial icon data selected to be migrated by the migration device if the device type of the migration device includes a multi-screen device and the device type of the migration device includes a multi-screen device, and determining each of the partial icon data as reference icon data to determine a plurality of the reference icon data, wherein the multi-screen device may include a plurality of display screens, and the partial icon data is used to indicate the Icon data corresponding to a specified display screen of the migration device.
  • the processing unit 401 is further configured to display prompt information on each of the first display screens, where the prompt information is used to prompt the user to select reference icon data to be migrated from a plurality of the reference icon data ; For each of the first display screens, receive the user's selection operation, and determine the icon layout of the designated display screen corresponding to the reference icon data selected by the user; determine the icon layout of each of the first display screens and the designated display screen.
  • the reference icon data of the designated display screen is used as the first display screen If it is determined that the icon layout of the first display screen is different from the icon layout of the designated display screen, an icon mapping algorithm is used to determine the reference icon data selected by the user and the first display screen according to the reference icon data selected by the user. to determine the actual icon data of the first display screen.
  • the icon layout of the first display interface includes the number of second icon columns; the processing unit 401 is further configured to determine the icon layout of the designated display screen corresponding to the reference icon data selected by the user Specify the number of the first icon columns of the display screen; through the icon mapping algorithm, according to the first icon column number, the second icon column number and the obtained coordinates of each icon in the icon layout of the specified display screen, calculate all the the coordinates of each icon in the icon layout of the first display screen; use the set of coordinates of each icon as the actual icon data of the first display screen to determine a plurality of actual icon data of the first display screen .
  • the electronic device 110 here is embodied in the form of functional units.
  • the term "unit” here can be implemented in the form of software and/or hardware, which is not specifically limited.
  • a “unit” may be a software program, a hardware circuit, or a combination of the two that realizes the above-mentioned functions.
  • the hardware circuits may include application specific integrated circuits (ASICs), electronic circuits, processors for executing one or more software or firmware programs (eg, shared processors, proprietary processors, or group processors) etc.) and memory, merge logic and/or other suitable components to support the described functions.
  • ASICs application specific integrated circuits
  • processors for executing one or more software or firmware programs (eg, shared processors, proprietary processors, or group processors) etc.) and memory, merge logic and/or other suitable components to support the described functions.
  • the units of each example described in the embodiments of the present application can be implemented by electronic hardware, or a combination of computer software and electronic hardware. Whether these functions are performed in hardware or software depends on the specific application and design constraints of the technical solution. Skilled artisans may implement the described functionality using different methods for each particular application, but such implementations should not be considered beyond the scope of this application.
  • An embodiment of the present application further provides an electronic device, where the electronic device may be a terminal device or a circuit device built in the terminal device.
  • the device may be used to perform the functions/steps in the above method embodiments.
  • FIG. 20 is a schematic structural diagram of an electronic device according to an embodiment of the present application.
  • the electronic device 900 includes a processor 910 and a transceiver 920 .
  • the electronic device 900 may further include a memory 930 .
  • the processor 910, the transceiver 920 and the memory 930 can communicate with each other through an internal connection path to transmit control and/or data signals. Invoke and run the computer program.
  • the electronic device 900 may further include an antenna 940 for sending out the wireless signal output by the transceiver 920 .
  • the above-mentioned processor 910 and the memory 930 can be combined into a processing device, and more commonly, they are independent components, and the processor 910 is used to execute the program codes stored in the memory 930 to realize the above-mentioned functions.
  • the memory 930 may also be integrated in the processor 910 , or be independent of the processor 910 .
  • the processor 910 may correspond to the processing unit 401 in the electronic device 110 in FIG. 19 .
  • the electronic device 900 may further include one or more of an input unit 960, a display unit 970, an audio circuit 980, a camera 990, a sensor 901, etc., the audio The circuit may also include a speaker 982, a microphone 984, and the like.
  • the display unit 970 may include a display screen, and the display unit 970 may correspond to the display unit 402 in the electronic device 110 in FIG. 19 .
  • the above electronic device 900 may further include a power supply 950 for providing power to various devices or circuits in the terminal device.
  • the electronic device 900 shown in FIG. 20 can implement various processes of the method embodiments shown in FIG. 3 and FIG. 14 .
  • the operations and/or functions of each unit in the electronic device 900 are respectively to implement the corresponding processes in the foregoing method embodiments.
  • the processor 910 in the electronic device 900 shown in FIG. 20 may be a system on a chip (SOC), and the processor 910 may include a central processing unit (CPU), and may further Including other types of processors, the CPU may be referred to as the main CPU.
  • SOC system on a chip
  • CPU central processing unit
  • Each part of the processor cooperates to implement the previous method flow, and each part of the processor can selectively execute a part of the software driver.
  • each part of the processors or processing units inside the processor 910 can cooperate to implement the previous method process, and the corresponding software programs of each part of the processors or processing units can be stored in the memory 930 .
  • the present application also provides a computer-readable storage medium, where an instruction is stored in the computer-readable storage medium, and when the instruction is executed on the computer, the computer is made to execute the icon data migration method shown in FIG. 3 and FIG. 14 above. in each step.
  • the involved processor 910 may include, for example, a central processing unit (CPU), a microprocessor, a microcontroller or a digital signal processor, and may also include a GPU, an NPU, and an ISP.
  • CPU central processing unit
  • microprocessor a microcontroller or a digital signal processor
  • GPU graphics processing unit
  • NPU an NPU
  • ISP an ISP
  • Necessary hardware accelerators or logic processing hardware circuits may also be included, such as application-specific integrated circuits (ASICs), or one or more integrated circuits for controlling the execution of programs in the technical solution of the present application, and the like.
  • the processor may have the functionality to operate one or more software programs, which may be stored in the memory.
  • the memory may be read-only memory (ROM), other types of static storage devices that can store static information and instructions, random access memory (RAM), or other types of storage devices that can store information and instructions
  • the dynamic storage device can also be electrically erasable programmable read-only memory (electrically erasable programmable read-only memory, EEPROM), compact disc read-only memory (CD-ROM) or other optical disk storage, optical disk storage (including compact discs, laser discs, compact discs, digital versatile discs, Blu-ray discs, etc.), magnetic disk storage media, or other magnetic storage devices, or may also be capable of carrying or storing desired program code in the form of instructions or data structures and capable of Any other medium accessed by a computer, etc.
  • “at least one” refers to one or more, and “multiple” refers to two or more.
  • “And/or”, which describes the association relationship of the associated objects means that there can be three kinds of relationships, for example, A and/or B, which can indicate the existence of A alone, the existence of A and B at the same time, and the existence of B alone. where A and B can be singular or plural.
  • the character “/” generally indicates that the associated objects are an “or” relationship.
  • “At least one of the following” and similar expressions refer to any combination of these items, including any combination of single or plural items.
  • At least one of a, b, and c may represent: a, b, c, a-b, a-c, b-c, or a-b-c, where a, b, c may be single or multiple.
  • any function is implemented in the form of a software functional unit and sold or used as an independent product, it can be stored in a computer-readable storage medium.
  • the technical solution of the present application can be embodied in the form of a software product in essence, or the part that contributes to the prior art or the part of the technical solution.
  • the computer software product is stored in a storage medium, including Several instructions are used to cause a computer device (which may be a personal computer, a server, or a network device, etc.) to execute all or part of the steps of the methods described in the various embodiments of the present application.
  • the aforementioned storage medium includes: U disk, mobile hard disk, read-only memory (ROM), random access memory (RAM), magnetic disk or optical disk and other media that can store program codes .

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Abstract

一种图标数据迁移方法、电子设备和计算机可读存储介质,获取迁移设备发送的建立链接请求,建立链接请求中携带迁移设备的设备类型,设备类型包括单屏设备或多屏设备,当建立链接成功后,根据迁移设备的设备类型和自身的设备类型,获取迁移设备的参考图标数据,根据参考图标数据以及获取的第一显示屏幕的图标布局,计算出实际图标数据,根据图标布局,显示实际图标数据对应的图标,能够实现不同设备类型的迁移设备与不同设备类型的待迁移设备之间的图标数据迁移,使得用户的使用习惯和图标数据得到最大程度的保留,方便了用户更加便捷的整理和管理桌面图标,从而提升了用户使用图标的便捷性。

Description

一种图标数据迁移方法、电子设备和计算机可读存储介质 技术领域
本申请涉及智能终端技术领域,具体地涉及一种图标数据迁移方法、电子设备和计算机可读存储介质。
背景技术
随着智能终端的发展,智能终端的屏幕也出现了各种不同的形态,例如,以折叠屏手机为例,折叠屏手机具有大小不一的两块屏幕,应用于用户不同的使用场景。而目前主流的智能终端的设备类型都是单屏设备,因此在相关技术中,通过采用数据迁移软件,将旧设备的图标数据迁移到新设备上。
由于在相关技术中,仅考虑了单屏设备到单屏设备之间的迁移,因此在单屏设备向多屏设备进行图标数据迁移时,会由于两者设备之间的屏幕个数不一致,从而导致多屏设备上的外屏无法正确按照用户预期保留图标布局,造成多屏设备的外屏上桌面图标无规律散落的问题。进一步地,在多屏设备向单屏设备进行图标数据迁移时,会导致出现用户预期迁移图标数据与实际迁移图标数据不符的问题。另外,在单屏设备向多屏设备进行图标数据迁移时,会导致迁移的图标数据残缺,遗漏的问题。
发明内容
有鉴于此,本申请提一种图标数据迁移方法、电子设备和计算机可读存储介质,能够实现不同设备类型的迁移设备与不同设备类型的待迁移设备之间的图标数据迁移,使得用户的使用习惯和图标数据得到最大程度的保留,方便了用户更加便捷的整理和管理桌面图标,从而提升用户使用的便捷性。
一方面,本申请实施例提供了一种图标数据迁移方法,应用于待迁移设备,所述待迁移设备包括第一显示屏幕,包括:
获取迁移设备发送的建立链接请求,所述建立链接请求中携带所述迁移设备的设备类型,所述设备类型包括单屏设备或多屏设备;
当建立链接成功后,根据所述迁移设备的设备类型和自身的设备类型,获取所述迁移设备的参考图标数据;
根据所述参考图标数据以及获取的所述第一显示屏幕的图标布局,计算出实际图标数据;
显示所述实际图标数据对应的图标。
在一种可能的实现方式中,所述根据所述迁移设备的设备类型和自身的设备类型,获取所述迁移设备的参考图标数据,包括:
若所述迁移设备的设备类型包括单屏设备,且自身的设备类型包括多屏设备时,获取所述迁移设备发送的全部图标数据,并将所述全部图标数据确定为参考图标数据,其中,所述多屏设备可包括多个显示屏幕。
在一种可能的实现方式中,所述根据所述迁移设备的设备类型和自身的设备类型,获取所述迁移设备的参考图标数据,包括:
若所述迁移设备的设备类型包括多屏设备,且自身的设备类型包括单屏设备时,获取所述迁移设备选择迁移的部分图标数据,并将所述部分图标数据确定为参考图标数据,其中,所述多屏设备可包括多个显示屏幕,所述部分图标数据用于指示所述迁移设备的一个指定显示屏幕对应的图标数据。
在一种可能的实现方式中,所述根据所述参考图标数据以及获取的所述第一显示屏幕的图标布局,计算出实际图标数据,包括:
根据所述参考图标数据确定出所述迁移设备的指定显示屏幕的图标布局;
判断每个所述第一显示屏幕的图标布局与所述指定显示屏幕的图标布局是否相同;
若判断出所述第一显示屏幕的图标布局与所述指定显示屏幕的图标布局相同,将所述指定显示屏幕的所述参考图标数据作为所述第一显示屏幕的实际图标数据;
若判断出所述第一显示屏幕的图标布局与所述指定显示屏幕的图标布局不相同,通过图标映射算法,根据所述参考图标数据和所述第一显示屏幕的图标布局,确定出所述第一显示屏幕的实际图标数据。
在一种可能的实现方式中,所述第一显示界面的图标布局包括第二图标列数;
所述通过图标映射算法,根据所述参考图标数据和所述第一显示屏幕的图标布局,确定出所述第一显示屏幕的实际图标数据,包括:
从所述指定显示屏幕的图标布局中确定出所述指定显示屏幕的第一图标列数;
通过图标映射算法,根据所述第一图标列数、第二图标列数以及获取的所述指定显示屏幕的图标布局中每个图标的坐标,计算出所述第一显示屏幕的图标布局中每个图标的坐标;
将每个图标的坐标的集合作为所述第一显示屏幕的实际图标数据,以确定出至少一个所述第一显示屏幕的实际图标数据。
在一种可能的实现方式中,所述第二图标列数包括N列,所述第一图标列数包括J列;
所述通过图标映射算法,根据所述第一图标列数、第二图标列数以及获取的所述指定显示屏幕的图标布局中每个图标的坐标,计算出所述第一显示屏幕的图标布局中每个图标的坐标,包括:
通过图标映射算法公式:
Y′=((Y*J)+X)%N
X′=((Y*J)+X)-(Y′*N)
计算出每个所述第一显示屏幕的图标布局中每个图标的坐标,其中,X表示为所述指定显示屏幕的图标布局中的某一图标的X轴坐标值,Y表示为所述指定显示屏幕的图标布局中的某一图标的Y轴坐标值,X’表示为该图标在所述第一显示屏幕的图标布局中的X轴坐标值,Y’表示为该图标在所述第一显示屏幕的图标布局中的Y轴 坐标值。
在一种可能的实现方式中,所述根据所述迁移设备的设备类型和自身的设备类型,获取所述迁移设备的参考图标数据,包括:
若所述迁移设备的设备类型包括多屏设备,且自身的设备类型包括多屏设备时,获取所述迁移设备选择迁移的多个部分图标数据,并将每个所述部分图标数据确定为参考图标数据,以确定出多个所述参考图标数据,其中,所述多屏设备可包括多个显示屏幕,所述部分图标数据用于指示所述迁移设备的一个指定显示屏幕对应的图标数据。
在一种可能的实现方式中,所述根据所述参考图标数据以及获取的所述第一显示屏幕的图标布局,计算出实际图标数据,包括:
在每个所述第一显示屏幕中显示提示信息,所述提示信息用于提示用户从多个所述参考图标数据中选择需要迁移的参考图标数据;
针对每个所述第一显示屏幕,接收用户的选择操作,确定出用户选择的参考图标数据对应的指定显示屏幕的图标布局;
判断每个所述第一显示屏幕的图标布局与所述指定显示屏幕的图标布局是否相同;
若判断出所述第一显示屏幕的图标布局与所述指定显示屏幕的图标布局相同,将所述指定显示屏幕的所述参考图标数据作为所述第一显示屏幕的实际图标数据;
若判断出所述第一显示屏幕的图标布局与所述指定显示屏幕的图标布局不相同,通过图标映射算法,根据所述用户选择的参考图标数据和所述第一显示屏幕的图标布局,确定出所述第一显示屏幕的实际图标数据。
在一种可能的实现方式中,所述第一显示界面的图标布局包括第二图标列数;
所述通过图标映射算法,根据所述用户选择的参考图标数据和所述第一显示屏幕的图标布局,确定出所述第一显示屏幕的实际图标数据,包括:
根据所述用户选择的参考图标数据对应的指定显示屏幕的图标布局,确定出所述指定显示屏幕的第一图标列数;
通过图标映射算法,根据所述第一图标列数、第二图标列数以及获取的所述指定显示屏幕的图标布局中每个图标的坐标,计算出所述第一显示屏幕的图标布局中每个图标的坐标;
将每个图标的坐标的集合作为所述第一显示屏幕的实际图标数据,以确定出多个所述第一显示屏幕的实际图标数据。
第二方面,本申请实施例提供了一种电子设备,包括:显示屏;一个或多个处理器;存储器;多个应用程序;以及一个或多个计算机程序,其中所述一个或多个计算机程序被存储在所述存储器中,所述一个或多个计算机程序包括指令,当所述指令被所述设备执行时,使得设备执行上述任一方面任一项可能的实现中的图标数据迁移方法。
第三方面,本申请实施例提供了一种计算机可读存储介质,所述计算机可读存储介质用于设备执行的程序代码,所述程序代码包括用于执行第一方面或者第一方面的任一可能的实现方式中的方法的指令。
本申请实施例提供的技术方案中,获取迁移设备发送的建立链接请求,建立链接 请求中携带迁移设备的设备类型,设备类型包括单屏设备或多屏设备,当建立链接成功后,根据迁移设备的设备类型和自身的设备类型,获取迁移设备的参考图标数据,根据参考图标数据以及获取的第一显示屏幕的图标布局,计算出实际图标数据,根据图标布局,显示实际图标数据对应的图标,能够实现不同设备类型的迁移设备与不同设备类型的待迁移设备之间的图标数据迁移,使得用户的使用习惯和图标数据得到最大程度的保留,方便了用户更加便捷的整理和管理桌面图标,从而提升了用户使用图标的便捷性。
附图说明
图1是本申请一实施例所提供的一种图标数据迁移系统的架构图;
图2是本申请一实施例所提供的一种迁移设备110或者待迁移设备120的装置结构图;
图3是本申请一实施例所提供的一种图标数据迁移方法的流程图;
图4是本申请一实施例所提供的一种显示提示信息的效果示意图;
图5是本申请一实施例提供的一种迁移设备110图标布局的示意图;
图6a是本申请一实施例提供的一种待迁移设备120的内显示屏幕的图标布局的示意图;
图6b是本申请一实施例提供的一种待迁移设备120的外显示屏幕的图标布局的示意图;
图7a是本申请一实施例提供的另一种迁移设备110的图标布局的示意图;
图7b是本申请一实施例提供的另一种待迁移设备120的图标布局的示意图;
图8a是本申请一实施例提供的一种迁移设备110的指定显示屏幕的图标布局的示意图;
图8b是本申请一实施例提供的一种待迁移设备120的第一显示屏幕的图标布局的示意图;
图8c是本申请一实施例提供的另一种迁移设备110的指定显示屏幕的图标布局的示意图;
图8d是本申请一实施例提供的另一种待迁移设备120的第一显示屏幕的图标布局的示意图;
图9a是本申请一实施例提供的另一种迁移设备110的指定显示屏幕的图标布局的示意图;
图9b是本申请一实施例提供的另一种待迁移设备120的第一显示屏幕的图标布局的示意图;
图10是本申请一实施例提供的一种建立坐标系的示意图;
图11a是本申请一实施例提供的另一种迁移设备110的指定显示屏幕的图标布局的示意图;
图11b是本申请一实施例提供的另一种待迁移设备120的第一显示屏幕的图标布局的示意图;
图12a是本申请一实施例提供的一种待迁移设备120显示图标的效果示意图;
图12b是本申请一实施例提供的另一种待迁移设备120显示图标的效果示意图;
图13是本申请一实施例提供的另一种待迁移设备120显示图标的效果示意图;
图14是本申请一实施例所提供的另一种图标数据迁移方法的流程图;
图15是本申请一实施例所提供的另一种显示提示信息的效果示意图;
图16是本申请一实施例提供的另一种迁移设备110的指定显示屏幕的图标布局的示意图;
图17a是本申请一实施例提供的另一种迁移设备110的指定显示屏幕的图标布局的示意图;
图17b是本申请一实施例提供的另一种迁移设备110的指定显示屏幕的图标布局的示意图;
图18a是本申请一实施例提供的另一种待迁移设备120显示图标的效果示意图;
图18b是本申请一实施例提供的另一种待迁移设备120显示图标的效果示意图;
图19是本申请一实施例提供的一种电子设备的示意性框图;
图20为本申请一实施例提供的一种电子设备的结构示意图。
具体实施方式
为了更好的理解本申请的技术方案,下面结合附图对本申请实施例进行详细描述。
应当明确,所描述的实施例仅仅是本申请一部分实施例,而不是全部的实施例。基于本申请中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其它实施例,都属于本申请保护的范围。
在本申请实施例中使用的术语是仅仅出于描述特定实施例的目的,而非旨在限制本申请。在本申请实施例和所附权利要求书中所使用的单数形式的“一种”、“所述”和“该”也旨在包括多数形式,除非上下文清楚地表示其他含义。
应当理解,本文中使用的术语“和/或”仅仅是一种描述关联对象的关联关系,表示可以存在三种关系,例如,甲和/或乙,可以表示:单独存在甲,同时存在甲和乙,单独存在乙这三种情况。另外,本文中字符“/”,一般表示前后关联对象是一种“或”的关系。
在对本申请实施例提供的一种图标数据迁移方法进行介绍之前,先对相关技术的图标数据迁移方法进行简单介绍:
随着用户对于智能终端的依赖程度与日俱增,不同类型的应用程序(Application,简称APP)也越来越多,由于生活和工作的需要,用户安装和使用的APP数量也呈现大量增长的趋势。随着在智能终端上安装越来越多的APP,当用户在更换智能终端或者使用新智能终端时,通常不会选择在新智能终端上重新下载这些APP,而是将旧设备的图标数据迁移至新设备上,以减少安装应用程序的耗时。
由于目前主流的智能终端屏幕都是单屏形态,因此在相关技术中,通常采用数据迁移软件,能够顺利的将旧设备的图标数据迁移到新设备上。然而随着智能终端的发展,智能终端的屏幕也出现了各种不同的形态,以折叠屏手机为例,该折叠屏手机均出现了大小不一的两块屏幕,应用于用户不同的使用场景。除了折叠屏手机之外,还可以包括其他的多屏设备。针对这类多屏设备,若采用相关技术中的数据迁移软件,将单屏设备的图标数据迁移到多屏设备时,会由于两者设备之间的屏幕个数不一致, 从而导致多屏设备上的某些屏幕无法正确按照用户预期保留图标布局,造成多屏设备的某些屏幕上桌面图标无规律散落的问题。
进一步地,针对这类多屏设备,若采用相关技术中的数据迁移软件,将多屏设备的图标数据迁移到单屏设备时,由于屏幕数量不同,会出现用户预期迁移的图标数据与实际迁移的图标数据不符的问题。另外,若采用相关技术中的数据迁移软件,将多屏设备的图标数据迁移到多屏设备时,由于屏幕形态不同,会导致迁移的图标数据残缺,遗漏的问题。
基于此,本申请所要解决的技术问题是:如何解决多屏设备与单屏设备以及多屏设备与多屏设备之间进行数据迁移时,由于屏幕形态或者屏幕数量的不同,造成的图标散落、迁移数据不符合预期、图标数据残缺问题。因此本申请实施例提供一种图标数据迁移方法,解决相关技术存在的数据迁移问题,减少用户同步的繁琐操作。
图1为本申请一实施例提供的一种图标数据迁移系统的架构图,如图1所示,该系统100包括:迁移设备110、待迁移设备120以及云备份与存储平台130。其中,迁移设备110包括将图标数据迁移至其他设备的设备。待迁移设备120包括接收迁移设备110发送的图标数据的设备。
需要说明的是,迁移设备110和待迁移设备120可以是终端设备,如手机终端,平板电脑,笔记本电脑,增强现实(augmented reality,简称AR)/虚拟现实(virtual reality,简称VR),车载终端等,还可以是服务器或者云端等。此外,迁移设备110和待迁移设备120还可以是桌面型计算机、膝上型计算机、手持计算机、蜂窝电话、专用媒体播放器、消费类电子设备等计算设备。
除此之外,迁移设备110和待迁移设备120还可以是其他类型的设备,只需要满足指定的装置结构的设备均为作为迁移设备110和待迁移设备120。下列对于迁移设备110或者待迁移设备120的装置进行简要介绍:图2为本申请实施例所提供的迁移设备110或者待迁移设备120的装置结构图,迁移设备110装置可包括:应用程序模块、操作系统、处理器、通信模块、存储器、显示设备以及输入设备,待迁移设备120的装置可包括:应用程序模块、操作系统、处理器、通信模块、存储器、显示设备以及输入设备。
其中,处理器用于控制计算机系统的各组件之间输入和输出数据的接收和操纵。具体地,处理器用于计算因果时间、显示时间以及排序计算。
通信模块用于将终端设备连接到互联网,并能与部署在互联网上的服务器进行数据通信,应用程序与服务端的数据交互都通过通信模块。具体地,通信模块可用于与服务交付,获取服务器UTC时间,传送聊天记录和接收记录。
存储器用于连接处理器,存储器还用于存储供终端使用的操作系统、应用程序信息等。存储器可包括只读存储器(ROM)、随机存取存储器(RAM)等,信息也可以驻留在可移动存储介质上并在需要时加载或安装到计算机系统上,可移动存储介质包括SD存储卡。具体地,存储器用于存储聊天应用本身以及记录聊天记录,包括但不限于聊天内容、因果时间、显示时间等。
显示设备可操作地连接到处理器,显示设备用于接收处理器返回的处理结果并进行显示。通常显示设备配置了图形用户接口(GUI),GUI包括一种在计算机系统的用户 和在其上运行的操作系统或应用之间提供一个易于使用的用户接口。具体地,显示设备用于根据排序结果显示合并之后的聊天记录以及时间块。
输入设备可操作地连接到处理器,终端输入设备用于接收用户输入操作,并可将用户输入内容发送给服务端。输入设备可以是放置在显示设备之上或之前的触摸板或触摸屏,可基于各种感应技术,包括但不限于电容感应、电阻感应、表面声波感应、压力感应、光感应等。触摸板或触摸屏可以与显示设备集成在一起或者可以是单独的部件。输入设备可以是单点或多点输入设备。具体地,输入设备用于接收用户的聊天输入操作。
也就是说,当符合上述装置结构的终端设备均可作为本申请实施例所提供的迁移设备110或者待迁移设备120。下列针对本申请实施例所提供的迁移设备110或者待迁移设备120进行具体介绍:
本申请实施例中,迁移设备110包括第一云备份模块1101、第一克隆模块1102以及第一备份恢复模块1103。待迁移设备120包括第二云备份模块1201、第二克隆模块1202以及第二备份恢复模块1203,其中,第一云备份模块1101与第二云备份模块1201之间通过云备份与存储平台130进行数据传输,第一克隆模块1102与第二克隆模块1202之间通过WIFI信号进行数据传输,第一备份恢复模块1103与第二备份恢复模块1203之间通过设备助手进行数据传输,其中,设备助手包括系统自带的搬家软件,或者通过其他平台下周的搬家软件。
具体地,可通过上述三种数据传输方式进行图标数据迁移。
作为一种可选的方案,以通过云备份与存储平台130进行数据传输为例,待迁移设备120获取迁移设备110发送的建立链接请求,建立链接请求中携带迁移设备110的设备类型,当建立链接成功后,迁移设备110和待迁移设备120能够互相获取到对方的设备类型,并基于双方的设备类型,迁移设备110通过第一云备份模块1101将参考图标数据上传至云备份与存储平台130,通过云备份与存储平台130将参考图标数据发送至待迁移设备120,以使待迁移设备120获取迁移设备110的参考图标数据,根据参考图标数据以及获取的第一显示屏幕的图标布局,计算出实际图标数据,从而完成图标数据的迁移,并在图标数据迁移完成后,显示实际图标数据对应的图标。
作为另一种可选的方案,以通过WIFI信号进行数据传输为例,待迁移设备120获取迁移设备110发送的建立链接请求,建立链接请求中携带迁移设备110的设备类型,当建立链接成功后,迁移设备110和待迁移设备120能够互相获取到对方的设备类型,并基于双方的设备类型,迁移设备110通过第一克隆模块1102将参考图标数据通过Wi-Fi信号发送至待迁移设备120,以使待迁移设备120获取迁移设备110的参考图标数据,根据参考图标数据以及获取的第一显示屏幕的图标布局,计算出实际图标数据,从而完成图标数据的迁移,并在图标数据迁移完成后,显示实际图标数据对应的图标。
作为另一种可选的方案,以通过设备助手进行数据传输为例,待迁移设备120获取迁移设备110发送的建立链接请求,建立链接请求中携带迁移设备110的设备类型,当建立链接成功后,迁移设备110和待迁移设备120能够互相获取到对方的设备类型,并基于双方的设备类型,移设备110通过第一备份恢复模块1103将参考图标数据通过 设备助手发送至待迁移设备120,以使待迁移设备120获取迁移设备110的参考图标数据,根据参考图标数据以及获取的第一显示屏幕的图标布局,计算出实际图标数据,从而完成图标数据的迁移,并在图标数据迁移完成后,显示实际图标数据对应的图标。
在本申请实施例中,通过上述的系统架构100,能够实现不同设备类型的迁移设备与不同设备类型的待迁移设备之间的图标数据迁移。具体通过下述实施例分别对多屏设备的图标数据迁移到单屏设备、单屏设备的图标数据迁移到多屏设备以及多屏设备的图标数据迁移到多屏设备之间数据迁移过程进行详细的说明:
图3为本申请一实施例提供的一种图标数据迁移方法的流程图,该方法应用于待迁移设备,如图3所示,该方法包括:
步骤102、获取迁移设备发送的建立链接请求。
本申请实施例中,各步骤由待迁移设备执行,通过执行步骤102,使得待迁移设备能够获取到迁移设备的设备类型,从而便于后续实现不同设备类型的迁移设备与不同设备类型的待迁移设备之间的图标数据迁移。
本申请实施例中,建立链接请求中携带迁移设备的设备类型,设备类型包括单屏设备或多屏设备。需要说明的是,本申请实施例具体描述的是设备类型包括单屏设备的迁移设备到设备类型包括多屏设备的待迁移设备以及设备类型包括多屏设备的迁移设备到设备类型包括单屏设备的待迁移设备之间的图标数据迁移过程,而针对设备类型包括多屏设备的迁移设备到设备类型包括多屏设备的待迁移设备之间的图标数据迁移过程可参见下述实施例。
步骤104、当建立链接成功后,根据迁移设备的设备类型和自身的设备类型,获取迁移设备的参考图标数据。
本申请实施例中,步骤104根据不同的迁移设备的设备类型和自身的设备类型,可执行不同的过程,具体可包括:
作为一种方案,步骤104可具体包括:若迁移设备的设备类型包括单屏设备,且自身的设备类型包括多屏设备时,获取迁移设备发送的全部图标数据,并将全部图标数据确定为参考图标数据。
在该步骤中,多屏设备包括多个显示屏幕,单屏设备包括一个显示屏幕,全部图标数据可理解为显示屏幕对应的图标数据总和。由于迁移设备的设备类型包括单屏设备,因此获取迁移设备的全部图标数据即为一个显示屏幕的图标数据。换句话说,当迁移设备的设备类型包括单屏设备时,迁移设备所发送的图标数据,即为迁移设备全部的图标数据。
作为另一种方案,步骤104还可以具体包括:若迁移设备的设备类型包括多屏设备,且自身的设备类型包括单屏设备时,获取选择迁移的部分图标数据,并将部分图标数据确定为参考图标数据。
在该步骤中,多屏设备包括多个显示屏幕,单屏设备包括一个显示屏幕,部分图标数据用于指示所述迁移设备的一个指定显示屏幕对应的图标数据。
本申请实施中,多屏设备可包括多个显示屏幕,例如,多屏设备可包括2个屏幕,其中,2个屏幕可包括内屏和外屏。除此之外,多屏设备还可以包括其他数量的第一显示屏幕,针对不同的数量的第一显示屏幕均可执行本申请实施例所提供的图标数据 迁移方法。本申请实施中,部分图标数据用于指示迁移设备的一个指定显示屏幕对应的图标数据,也就是说,当迁移设备的设备类型包括多屏设备时,迁移设备的每个显示屏幕均具有不同的图标数据,此时,当自身的设备类型包括单屏设备,可根据用户的选择操作从迁移设备中选择一个指定显示屏幕对应的图标数据进行发送,因此获取的图标数据为选择迁移的部分图标数据,并非全部的图标数据。
进一步地,本申请实施中,迁移设备选择迁移的部分图标数据过程可包括:在迁移设备中,显示提示信息,以提示用户选择需迁移的参考图标数据;根据用户的选择操作,将需迁移的图标数据作为部分图标数据并发送至待迁移设备。
本申请实施例中,以迁移设备包括两个显示屏幕为例,其中,两个显示屏幕包括外屏和内屏,例如,如图4所示,迁移设备的显示界面2显示提示信息:“请选择需要迁移的图标数据”,并提供可选择项“外屏4*6”和“内屏5*6”。其中,该显示界面2为面向用户的显示界面,“外屏4*6”用于指示外屏对应的图标数据,“外屏4*6”表示为该外屏的图标布局包括6行4列。“内屏5*6”用于指示内屏对应的图标数据,“内屏5*6”表示为该内屏的图标布局包括6行5列。基于接收用户的选择操作,确定出选择迁移的图标数据,并将该图标数据作为部分图标数据并发送至待迁移设备。
例如,当用户点击“外屏4*6”的按钮后,将迁移设备的外屏对应的图标数据作为部分图标数据并发送至待迁移设备。
步骤106、根据参考图标数据确定出指定显示屏幕的图标布局。
本申请实施例中,当确定出迁移设备的设备类型包括单屏设备,指定显示屏幕用于指示该迁移设备本身的显示屏幕。当确定出迁移设备的设备类型包括多屏设备,指定显示屏幕用于指示参考图标数据对应的显示屏幕。例如,迁移设备包括外屏和内屏,且外屏的图标布局包括6行4列,内屏的图标布局包括6行5列时,基于接收用户的选择操作,确定出选择迁移的图标数据为外屏对应的图标数据,即将外屏对应的图标数据作为参考图标数据,因此,能够根据该参考图标数据确定出指定显示屏幕为外屏,图标布局为外屏的图标布局。其中,图标布局用于指示图标的排列方式。通过参考图标数据能够确定出迁移设备的指定显示屏幕的图标布局包括a行b列的排列布局。例如,通过参考图标数据能够确定出迁移设备的外屏的图标布局包括6行4列。
步骤108、判断每个第一显示屏幕的图标布局与指定显示屏幕的图标布局是否相同,若是,执行步骤110;若否,执行步骤112。
本申请实施例中,可根据自身设备的布局设置获取每个第一显示屏幕的图标布局。
具体地,关于步骤108的具体执行过程可包括:当确定出迁移设备的设备类型包括单屏设备,且自身的设备类型包括多屏设备时,需要判断每个第一显示屏幕的图标布局与指定显示屏幕的图标布局是否相同,若判断出第一显示屏幕的图标布局与指定显示屏幕的图标布局相同,则表明该第一显示屏幕的图标的排列方式与迁移设备的图标的排列方式是相同的,因此可执行后续步骤110将指定显示屏幕的参考图标数据作为第一显示屏幕的实际图标数据;若判断出第一显示屏幕的图标布局与指定显示屏幕的图标布局不相同,则表明该第一显示屏幕的图标的排列方式与迁移设备的图标的排列方式不相同,若将迁移设备的参考图标数据进行1:1比例迁移,则由于屏幕形态的不同,从而造成图标散落、迁移数据不符合预期、图标数据残缺问题,因此需要执行 步骤112通过图标映射算法,根据指定显示屏幕的图标布局和自身的图标布局,生成实际图标数据。
作为一种可选方案,例如,如图5所示,迁移设备110的设备类型包括单屏设备,且迁移设备110的指定显示屏幕S的图标布局为6行4列的排列布局,如图6a和图6b所示,自身(待迁移设备120)的设备类型包括多屏设备,即待迁移设备120的多个第一显示屏幕包括内显示屏幕A和外显示屏幕B,其中,如图6a所示,内显示屏幕A的图标布局包括6行4列的排列布局,如图6b所示,外显示屏幕B的图标布局包括6行5列的排列布局。因此通过执行步骤108,判断每个第一显示屏幕的图标布局与指定显示屏幕的图标布局是否相同,具体地,判断内显示屏幕A的图标布局与指定显示屏幕S的图标布局是否相同,以及判断外显示屏幕B的图标布局与指定显示屏幕S的图标布局是否相同。
作为另一种可选方案,例如,如图7a所示,迁移设备110的设备类型包括多屏设备,根据步骤106确定出迁移设备110的指定显示屏幕E的图标布局包括6行5列的排列布局,自身(待迁移设备120)的设备类型包括单屏设备,如图7b所示,第一显示屏幕D的图标布局包括6行5列的排列布局。因此通过执行步骤108,判断每个第一显示屏幕的图标布局与指定显示屏幕的图标布局是否相同,具体地,判断第一显示屏幕D的图标布局与指定显示屏幕E的图标布局是否相同。
步骤110、将指定显示屏幕的参考图标数据作为第一显示屏幕的实际图标数据,并继续执行116。
本申请实施例中,作为一种可选方案,当判断出内显示屏幕A的图标布局与指定显示屏幕的图标布局相同时,可执行步骤110将指定显示屏幕的参考图标数据作为第一显示屏幕的实际图标数据,从而能够在待迁移设备120上显示与迁移设备110相同的图标布局。例如,图8a为迁移设备110的指定显示屏幕S的图标布局,图8b为待迁移设备120的内显示屏幕A的图标布局,如图8a和图8b所示,由于待迁移设备120的内显示屏幕A的图标布局与迁移设备110的指定显示屏幕S的图标布局相同,因此可将迁移设备的参考图标数据1:1比例迁移至待迁移设备120,生成实际图标数据。进一步地,在图8a中,图标1-图标14可理解为参考图标数据,由于内显示屏幕A的图标布局与指定显示屏幕S的图标布局相同,因此将参考图标数据作为内显示屏幕A的实际图标数据,即图8b中的图标1-图标14表示为内显示屏幕A的实际图标数据。
需要说明的是,图8a所提供的参考图标数据仅为一种实例,在实际应用中,可根据用户的操作习惯,对图标的位置进行调整。例如,图8c所示,在图8c中,迁移设备110的图标布局与图8a相同(均为6行4列),且图8c中的迁移设备110的参考图标数据的图标数量(14个)与图8a中的参考图标数据的图标数量(14个)相同,但图标数据的排列顺序不同,也就是说,可根据用户的操作习惯将参考图标数据布局在指定位置。因此,当对于待迁移设备120的内显示屏幕A’的图标布局与迁移设备110的指定显示屏幕S’的图标布局相同,但图标数据布局不规律的情况,仍然可执行上述实施例的过程,将迁移设备的参考图标数据1:1比例迁移至待迁移设备120,生成实际图标数据。例如,如图8d所示,图8d中的图标1-图标14表示为内显示屏幕A’的实际图标数据,且图8d的图标布局与图8c的图标布局相同。
作为另一种可选方案,当判断出第一显示屏幕的图标布局与指定显示屏幕的图标布局相同时,可执行步骤110将指定显示屏幕的参考图标数据作为第一显示屏幕的实际图标数据,从而能够在待迁移设备上显示与迁移设备相同的图标布局。例如,图9a为迁移设备110的指定显示屏幕E的图标布局,图9b为待迁移设备120的第一显示屏幕D的图标布局,如图9a和图9b所示,由于迁移设备110的指定显示屏幕E的图标布局与待迁移设备120的第一显示屏幕D的图标布局相同,因此可将迁移设备110的指定显示屏幕E对应的参考图标数据1:1比例迁移至待迁移设备,生成实际图标数据。例如,如图9b所示,确定出第一显示屏幕D的实际图标数据。进一步地,在图9a中,图标1-图标14可理解为参考图标数据,由于第一显示屏幕D的图标布局与指定显示屏幕E的图标布局相同,因此将参考图标数据作为第一显示屏幕D的实际图标数据,即图9b中的图标1-图标14表示为第一显示屏幕D的实际图标数据,其中,虚线方框可理解为该位置未包括图标数据,但该虚线方框属于图标布局的一部分,当用户下载新的应用程序后,会在该虚线方框中添加对应的图标数据,以显示对应的图标。
步骤112、通过图标映射算法,根据参考图标数据和第一显示屏幕的图标布局,确定出第一显示屏幕的实际图标数据。
本申请实施例中,第一显示界面的图标布局包括第二图标列数。
本申请实施例中,基于上述步骤108的实施例所提供一种可选方案的条件,可确定出外显示屏幕B的图标布局与指定显示屏幕S的图标布局不相同,因此执行步骤112确定出外显示屏幕B的实际图标数据。具体地,步骤112的执行过程可包括:
步骤1121、从指定显示屏幕的图标布局中确定出指定显示屏幕的第一图标列数。
本申请实施例中,例如,如图5所示,迁移设备110的指定显示屏幕S的图标布局包括6行4列的排列布局,因此可确定出迁移设备110的第一图标列数为4。例如,如图7a所示,迁移设备110的指定显示屏幕E的图标布局包括6行5列的排列布局,因此可确定出迁移设备110的第一图标列数为5。
步骤1122、通过图标映射算法,根据第一图标列数、第二图标列数以及获取的指定显示屏幕的图标布局中每个图标的坐标,计算出第一显示屏幕的图标布局中每个图标的坐标。
具体地,当第二图标列数包括N列,第一图标列数包括J列时,步骤1122的执行过程可包括:
通过图标映射算法公式:
Y′=((Y*J)+X)%N
X′=((Y*J)+X)-(Y′*N)
计算出每个第一显示屏幕的图标布局中每个图标的坐标,其中,X表示为指定显示屏幕的图标布局中的某一图标的X轴坐标值,Y表示为指定显示屏幕的图标布局中的某一图标的Y轴坐标值,X’表示为该图标在第一显示屏幕的图标布局中的X轴坐标值,Y’表示为该图标在第一显示屏幕的图标布局中的Y轴坐标值。
本申请实施例中,如图10所示,可通过对迁移设备110的指定显示屏幕S的图标布局建立坐标系,从而获取到每个图标的坐标。例如,图标1的坐标为(0,0),图标2的坐标为(1,0)。
由于待迁移设备120的内显示屏幕A的图标布局与迁移设备110的指定显示屏幕S的图标布局相同,因此可执行步骤110确定出内显示屏幕A的实际图标数据。
由于待迁移设备120的外显示屏幕B的图标布局与指定显示屏幕S的图标布局不相同。因此执行步骤112的执行过程。具体地,当获取到指定显示屏幕S的图标布局中每个图标的坐标后,可根据第一图标列数、第二图标列数以及获取的指定显示屏幕的图标布局中每个图标的坐标,计算出第一显示屏幕的图标布局中每个图标的坐标。例如,图11a为迁移设备110的指定显示屏幕S的图标布局,图11b为待迁移设备120的外显示屏幕B的图标布局,如图11a和图11b所示,第一图标列数包括4列,第二图标列数包括5列,其中,图标5在迁移设备110的指定显示屏幕S的图标布局中的坐标为(0,1),即X轴坐标值为0,Y轴坐标值为1,通过上述公式,能够计算出图标5在待迁移设备120的外第一显示屏幕B的坐标。具体地,Y(图标5)'=((1*4)+0)%5=0,计算出图标5在外显示屏幕B的Y轴坐标为0,X(图标5)'=((1*4)+0)-(0*5)=4,计算出图标4在外显示屏幕B的X轴坐标为4,因此计算出图标5于外显示屏幕B的坐标为(4,0)。通过上述方式,能够计算出外显示屏幕B的图标布局中每个图标的坐标。
需要说明的是,若将如图7c所示的将图标数据迁移至图11b所示的图标布局时,针对这类图标布局不规律且图标布局不相同的情况,也可以执行上述步骤通过图标映射算法,根据第一图标列数、第二图标列数以及获取的指定显示屏幕的图标布局中每个图标的坐标,计算出第一显示屏幕的图标布局中每个图标的坐标,本申请实施例对此不再累述。
此外,图6a为待迁移设备120的内显示屏幕A的图标布局,除了通过步骤1122计算出外显示屏幕B的图标布局中每个图标的坐标之外,还可以通过确定出待迁移设备120的内显示屏幕A的图标布局的第一图标列数,执行上述步骤112通过图标映射算法,根据第一图标列数、第二图标列数以及获取的内显示屏幕A的图标布局中每个图标的坐标,计算出外显示屏幕B的图标布局中每个图标的坐标。
需要说明的是,通过上述图标映射算法公式,能够使得第一显示屏幕的图标布局中每个图标的次序值不变。也就是说,第一显示屏幕的图标布局中每个图标的坐标可由获取的指定显示屏幕的图标布局中每个图标的坐标联动映射而来,具体地,可通过获取的指定显示屏幕的图标布局中每个图标的X轴坐标值,计算出指定显示屏幕的次序值,并使所有图标在保持次序值相对关系不变的情况下,实现对第一显示屏幕的图标布局进行映射。
步骤114、将每个图标的坐标的集合作为第一显示屏幕的实际图标数据,以确定出至少一个第一显示屏幕的实际图标数据,并继续执行步骤116。
本申请实施例中,通过步骤112获取图标的坐标的集合,并将多个图标的坐标的集合作为第一显示屏幕的实际图标数据。需要说明的是,每个当自身的设备类型包括多屏设备时,通过执行上述步骤能够确定出多个第一显示屏幕的实际图标数据,当自身的设备类型包括单屏设备时,通过执行上述步骤能够确定出一个第一显示屏幕的实际图标数据。
步骤116、显示实际图标数据对应的图标。
本申请实施例中,具体地,步骤116可包括:基于第一显示屏幕的图标布局,显示实际图标数据对应的图标。
作为一种可选方案,例如,以自身的设备类型包括多屏设备为例,待迁移设备包括内显示屏幕A和外显示屏幕B,其中,内显示屏幕A的实际图标数据如图8b所示,外显示屏幕B的实际图标数据如图11b所示。通过步骤116能够显示实际图标数据对应的图标,具体地,图12a为内显示屏幕A显示图标的效果示意图,图12b为外显示屏幕B显示图标的效果示意图,如图12a所示,获取内显示屏幕A的实际图标数据之后,能够基于内显示屏幕A的图标布局,在内显示屏幕A显示实际图标数据对应的图标,以使得用户能够正常使用待迁移设备。如图12b所示,获取外显示屏幕B的实际图标数据之后,能够基于外显示屏幕B的图标布局,在外显示屏幕B显示实际图标数据对应的图标,以使得用户能够正常使用待迁移设备。
作为另一种可选方案,例如,当自身的设备类型包括单屏设备,当待迁移设备的第一显示屏幕包括第一显示屏幕D时,其中,第一显示屏幕D的实际图标数据如图9b所示。通过步骤116能够显示实际图标数据对应的图标,具体地,图13为第一显示屏幕D显示图标的效果示意图,如图13所示,获取第一显示屏幕D实际图标数据之后,能够基于第一显示屏幕D的图标布局,在第一显示屏幕D显示实际图标数据对应的图标,以使得用户能够正常使用待迁移设备。
本申请实施例所提供的图标数据迁移方法,提出了一种单屏设备向多屏设备迁移桌面图标数据的操作方法以及一种不同网格布局之间映射的计算方法优化了数据,从而解决了多屏设备上出现的图标散落问题,提升了用户使用新设备的易用性,最大程度的保留了用户原有的操作和使用习惯。
本申请实施例中,获取迁移设备发送的建立链接请求,建立链接请求中携带迁移设备的设备类型,设备类型包括单屏设备或多屏设备,当建立链接成功后,根据迁移设备的设备类型和自身的设备类型,获取迁移设备的参考图标数据,根据参考图标数据以及获取的第一显示屏幕的图标布局,计算出实际图标数据,根据图标布局,显示实际图标数据对应的图标,能够实现不同设备类型的迁移设备与不同设备类型的待迁移设备之间的图标数据迁移,使得用户的使用习惯和图标数据得到最大程度的保留,方便了用户更加便捷的整理和管理桌面图标,从而提升了用户使用图标的便捷性。
图14为本申请一实施例提供的一种图标数据迁移方法的流程图,该方法应用于待迁移设备,如图14所示,该方法包括:
步骤202、获取迁移设备发送的建立链接请求。
本申请实施例中,步骤202的执行过程可参见上述步骤102。
步骤204、若迁移设备的设备类型包括多屏设备,且自身的设备类型包括多屏设备时,获取迁移设备选择迁移的多个部分图标数据,并将每个部分图标数据确定为参考图标数据,以确定出多个参考图标数据。
本申请实施例中,多屏设备可包括多个显示屏幕,部分图标数据用于指示迁移设备的一个指定显示屏幕对应的图标数据。
本申请实施例中,由于迁移设备的设备类型包括多屏设备,也就是说,该迁移设备具有多个指定显示屏幕,可将一个指定显示屏幕对应的图标数据作为一个部分图标 数据,以获取迁移设备选择迁移的多个部分图标数据。例如,当迁移设备包括2个显示屏幕时,分别将每个显示屏幕对应的图标数据作为部分图标数据发送至待迁移设备。
步骤206、在每个第一显示屏幕中显示提示信息,提示信息用于提示用户从多个参考图标数据中选择需要迁移的参考图标数据。
本申请实施例中,以待迁移设备包括两个显示屏幕为例,其中,两个显示屏幕包括外屏和内屏,例如,如图15所示,待迁移设备120的显示界面3显示提示信息:“请选择需要迁移的图标数据”,并提供可选择项“外屏4*6”和“内屏5*6”。其中,该显示界面3为面向用户的显示界面,“外屏4*6”用于指示外屏对应的图标数据,“外屏4*6”表示为该外屏的图标布局包括6行4列。“内屏5*6”用于指示内屏对应的图标数据,“内屏5*6”表示为该内屏的图标布局包括6行5列。基于接收用户的选择操作,确定出选择迁移的图标数据,并将该图标数据作为部分图标数据并发送至待迁移设备120。
步骤208、针对每个第一显示屏幕,接收用户的选择操作,确定出用户选择的参考图标数据对应的指定显示屏幕的图标布局。
本申请实施例中,如图16所示,当接收到用户点击“内屏5*6”选择操作时,确定出“内屏5*6”的参考图标数据对应的指定显示屏幕,例如,如图16所示,确定出的“内屏5*6”为迁移设备110的指定显示屏幕F的图标布局。
步骤210、判断每个第一显示屏幕的图标布局与指定显示屏幕的图标布局是否相同,若是,执行步骤212;若否,执行步骤214。
本申请实施例中,当确定出迁移设备的设备类型包括多屏设备,且自身的设备类型包括多屏设备时,需要判断每个第一显示屏幕的图标布局与用户选择的指定显示屏幕的图标布局是否相同,若判断出第一显示屏幕的图标布局与指定显示屏幕的图标布局相同,则表明该第一显示屏幕的图标的排列方式与迁移设备的图标的排列方式是相同的,因此可执行后续步骤212将指定显示屏幕的参考图标数据作为第一显示屏幕的实际图标数据;若判断出第一显示屏幕的图标布局与指定显示屏幕的图标布局不相同,则表明该第一显示屏幕的图标的排列方式与迁移设备的图标的排列方式不相同,若将迁移设备的参考图标数据进行1:1比例迁移,则由于屏幕形态的不同,从而造成图标散落、迁移数据不符合预期、图标数据残缺问题,因此需要执行步骤214通过图标映射算法,根据指定显示屏幕的图标布局和自身的图标布局,生成实际图标数据。
具体地,对上述步骤206-步骤210的执行过程,举例说明:
例如,当迁移设备包括显示屏幕F和显示屏幕G,待迁移设备包括显示屏幕H和显示屏幕I时,首先获取当前面向用户的显示屏幕,例如,当前面向用户的显示屏幕包括显示屏幕H时,首先需要在显示屏幕H显示提示信息,以提示用户从显示屏幕F对应的参考图标数据和显示屏幕G对应的参考图标数据中,选取出需要迁移至显示屏幕H的参考图标数据。若用户选择显示屏幕F对应的参考图标数据时,需要执行步骤210,判断显示屏幕H的图标布局与指定显示屏幕(显示屏幕F)的图标布局是否相同,若相同,执行步骤212,将显示屏幕F的参考图标数据作为显示屏幕H的实际图标数据,若不相同,执行步骤214,确定出显示屏幕H的实际图标数据。当确定出显示屏幕H的实际图标数据后,在显示屏幕H中基于显示屏幕H的图标布局,显示实际图 标数据对应的图标。同理,按照上述方式,确定出显示屏幕I的实际图标数据,并在显示屏幕I中基于显示屏幕H的图标布局,显示实际图标数据对应的图标。
需要说明的是,在确定出显示屏幕I的实际图标数据的过程中,由于显示屏幕H已经选择了显示屏幕F对应的参考图标数据,为避免图标数据的完整性,可提示用户在选择需要迁移至显示屏幕I的参考图标数据时,选择显示屏幕G对应的参考图标数据,从而保证了图标数据得到最大程度的保留,避免了迁移的图标数据残缺,遗漏的问题。
步骤212、将指定显示屏幕的参考图标数据作为第一显示屏幕的实际图标数据,并继续执行步骤218。
本申请实施例中,步骤210的执行过程可参见上述步骤110。
步骤214、通过图标映射算法,根据用户选择的参考图标数据和第一显示屏幕的图标布局,确定出第一显示屏幕的实际图标数据。
本申请实施例中,自身的图标布局包括第二图标列数。
本申请实施例中,步骤214具体包括:
步骤2141、根据用户选择的参考图标数据对应的指定显示屏幕的图标布局,确定出指定显示屏幕的第一图标列数。
本申请实施例中,步骤2141的执行过程可参见上述步骤1121。
步骤2142、通过图标映射算法,根据第一图标列数、第二图标列数以及获取的指定显示屏幕的图标布局中每个图标的坐标,计算出第一显示屏幕的图标布局中每个图标的坐标。
其中,步骤2142的执行过程可包括:
第二图标列数包括N列,第一图标列数包括J列;
通过图标映射算法公式:
Y′=((Y*J)+X)%N
X′=((Y*J)+X)-(Y′*N)
计算出每个第一显示屏幕的图标布局中每个图标的坐标,其中,X表示为指定显示屏幕的图标布局中的某一图标的X轴坐标值,Y表示为指定显示屏幕的图标布局中的某一图标的Y轴坐标值,X’表示为该图标在第一显示屏幕的图标布局中的X轴坐标值,Y’表示为该图标在第一显示屏幕的图标布局中的Y轴坐标值。
本申请实施例中,步骤2142的执行过程可参见上述步骤1122。
步骤216、将每个图标的坐标的集合作为第一显示屏幕的实际图标数据,以确定出多个第一显示屏幕的实际图标数据。
本申请实施例中,通过步骤214获取图标的坐标的集合,并将多个图标的坐标的集合作为第一显示屏幕的实际图标数据。需要说明的是,每个当自身的设备类型包括多屏设备时,通过执行上述步骤能够确定出多个第一显示屏幕的实际图标数据。
步骤218、显示实际图标数据对应的图标。
本申请实施例中,本申请实施例中,具体地,步骤218可包括:基于每个第一显示屏幕的图标布局,显示实际图标数据对应的图标。
作为一种可选方案,以迁移设备110包括显示屏幕F和显示屏幕G,待迁移设备 120包括显示屏幕H和显示屏幕I为例,图17a为显示屏幕F的图标布局的效果示意图,图17b为显示屏幕G的图标布局的效果示意图,且在图17a和图17b中,显示屏幕F和显示屏幕G分别具有对应的参考图标数据。通过上述实施例,假设以显示屏幕H选择迁移显示屏幕F对应的参考图标数据,显示屏幕I选择迁移显示屏幕G对应的参考图标数据为例,如图18a所示,获取显示屏幕H的实际图标数据之后,能够基于显示屏幕H的图标布局,在显示屏幕H显示实际图标数据对应的图标,以使得用户能够正常使用待迁移设备。如图18b所示,获取显示屏幕I的实际图标数据之后,能够基于显示屏幕I的图标布局,在显示屏幕I显示实际图标数据对应的图标,以使得用户能够正常使用待迁移设备。需要说明的是,上述方案仅为举例说明,除此之外,还可以是显示屏幕H选择迁移显示屏幕G对应的参考图标数据,显示屏幕I选择迁移显示屏幕F对应的参考图标数据,本申请实施例对此不做限定。进一步地,针对2个以上的显示屏幕仍可以执行上述的图标数据迁移方法,对此不再累述。
本申请实施例中,获取迁移设备发送的建立链接请求,建立链接请求中携带迁移设备的设备类型,设备类型包括单屏设备或多屏设备,当建立链接成功后,根据迁移设备的设备类型和自身的设备类型,获取迁移设备的参考图标数据,根据参考图标数据以及获取的第一显示屏幕的图标布局,计算出实际图标数据,根据图标布局,显示实际图标数据对应的图标,能够实现不同设备类型的迁移设备与不同设备类型的待迁移设备之间的图标数据迁移,使得用户的使用习惯和图标数据得到最大程度的保留,方便了用户更加便捷的整理和管理桌面图标,从而提升了用户使用图标的便捷性。
图19是本申请一实施例提供的一种电子设备110的示意性框图。应理解,电子设备110能够执行图3和图14的图标数据迁移方法中的各个步骤,为了避免重复,此处不再详述。如图19所示,电子设备110包括:处理单元401和显示单元402。
处理单元401用于获取迁移设备发送的建立链接请求,所述建立链接请求中携带所述迁移设备的设备类型,所述设备类型包括单屏设备或多屏设备;当建立链接成功后,根据所述迁移设备的设备类型和自身的设备类型,获取所述迁移设备的参考图标数据;根据所述参考图标数据以及获取的所述第一显示屏幕的图标布局,计算出实际图标数据。
显示单元402用于显示所述实际图标数据对应的图标。
本申请实施例中,处理单元401还用于若所述迁移设备的设备类型包括单屏设备,且自身的设备类型包括多屏设备时,获取所述迁移设备发送的全部图标数据,并将所述全部图标数据确定为参考图标数据,其中,所述多屏设备可包括多个显示屏幕。
本申请实施例中,处理单元401还用于若所述迁移设备的设备类型包括多屏设备,且自身的设备类型包括单屏设备时,获取所述迁移设备选择迁移的部分图标数据,并将所述部分图标数据确定为参考图标数据,其中,所述多屏设备可包括多个显示屏幕,所述部分图标数据用于指示所述迁移设备的一个指定显示屏幕对应的图标数据。
本申请实施例中,处理单元401还用于根据所述参考图标数据确定出所述迁移设备的指定显示屏幕的图标布局;判断每个所述第一显示屏幕的图标布局与所述指定显示屏幕的图标布局是否相同;若判断出所述第一显示屏幕的图标布局与所述指定显示屏幕的图标布局相同,将所述指定显示屏幕的所述参考图标数据作为所述第一显示屏 幕的实际图标数据;若判断出所述第一显示屏幕的图标布局与所述指定显示屏幕的图标布局不相同,通过图标映射算法,根据所述参考图标数据和所述第一显示屏幕的图标布局,确定出所述第一显示屏幕的实际图标数据。
本申请实施例中,所述第一显示界面的图标布局包括第二图标列数;处理单元401还用于从所述指定显示屏幕的图标布局中确定出所述指定显示屏幕的第一图标列数;通过图标映射算法,根据所述第一图标列数、第二图标列数以及获取的所述指定显示屏幕的图标布局中每个图标的坐标,计算出所述第一显示屏幕的图标布局中每个图标的坐标;将每个图标的坐标的集合作为所述第一显示屏幕的实际图标数据,以确定出至少一个所述第一显示屏幕的实际图标数据。
本申请实施例中,所述第二图标列数包括N列,所述第一图标列数包括J列;处理单元401还用于通过图标映射算法公式:
Y′=((Y*J)+X)%N
X′=((Y*J)+X)-(Y′*N)
计算出每个所述第一显示屏幕的图标布局中每个图标的坐标,其中,X表示为所述指定显示屏幕的图标布局中的某一图标的X轴坐标值,Y表示为所述指定显示屏幕的图标布局中的某一图标的Y轴坐标值,X’表示为该图标在所述第一显示屏幕的图标布局中的X轴坐标值,Y’表示为该图标在所述第一显示屏幕的图标布局中的Y轴坐标值。
本申请实施例中,处理单元401还用于若所述迁移设备的设备类型包括多屏设备,且自身的设备类型包括多屏设备时,获取所述迁移设备选择迁移的多个部分图标数据,并将每个所述部分图标数据确定为参考图标数据,以确定出多个所述参考图标数据,其中,所述多屏设备可包括多个显示屏幕,所述部分图标数据用于指示所述迁移设备的一个指定显示屏幕对应的图标数据。
本申请实施例中,处理单元401还用于在每个所述第一显示屏幕中显示提示信息,所述提示信息用于提示用户从多个所述参考图标数据中选择需要迁移的参考图标数据;针对每个所述第一显示屏幕,接收用户的选择操作,确定出用户选择的参考图标数据对应的指定显示屏幕的图标布局;判断每个所述第一显示屏幕的图标布局与所述指定显示屏幕的图标布局是否相同;若判断出所述第一显示屏幕的图标布局与所述指定显示屏幕的图标布局相同,将所述指定显示屏幕的所述参考图标数据作为所述第一显示屏幕的实际图标数据;若判断出所述第一显示屏幕的图标布局与所述指定显示屏幕的图标布局不相同,通过图标映射算法,根据所述用户选择的参考图标数据和所述第一显示屏幕的图标布局,确定出所述第一显示屏幕的实际图标数据。
本申请实施例中,所述第一显示界面的图标布局包括第二图标列数;处理单元401还用于根据所述用户选择的参考图标数据对应的指定显示屏幕的图标布局,确定出所述指定显示屏幕的第一图标列数;通过图标映射算法,根据所述第一图标列数、第二图标列数以及获取的所述指定显示屏幕的图标布局中每个图标的坐标,计算出所述第一显示屏幕的图标布局中每个图标的坐标;将每个图标的坐标的集合作为所述第一显示屏幕的实际图标数据,以确定出多个所述第一显示屏幕的实际图标数据。
应理解,这里的电子设备110以功能单元的形式体现。这里的术语“单元”可以 通过软件和/或硬件形式实现,对此不作具体限定。例如,“单元”可以是实现上述功能的软件程序、硬件电路或二者结合。所述硬件电路可能包括应用特有集成电路(application specific integrated circuit,ASIC)、电子电路、用于执行一个或多个软件或固件程序的处理器(例如共享处理器、专有处理器或组处理器等)和存储器、合并逻辑电路和/或其它支持所描述的功能的合适组件。
因此,在本申请的实施例中描述的各示例的单元,能够以电子硬件、或者计算机软件和电子硬件的结合来实现。这些功能究竟以硬件还是软件方式来执行,取决于技术方案的特定应用和设计约束条件。专业技术人员可以对每个特定的应用来使用不同方法来实现所描述的功能,但是这种实现不应认为超出本申请的范围。
本申请实施例还提供一种电子设备,该电子设备可以是终端设备也可以是内置于所述终端设备的电路设备。该设备可以用于执行上述方法实施例中的功能/步骤。
图20为本申请一实施例提供的一种电子设备的结构示意图,如图20所示,电子设备900包括处理器910和收发器920。可选地,该电子设备900还可以包括存储器930。其中,处理器910、收发器920和存储器930之间可以通过内部连接通路互相通信,传递控制和/或数据信号,该存储器930用于存储计算机程序,该处理器910用于从该存储器930中调用并运行该计算机程序。
可选地,电子设备900还可以包括天线940,用于将收发器920输出的无线信号发送出去。
上述处理器910可以和存储器930可以合成一个处理装置,更常见的是彼此独立的部件,处理器910用于执行存储器930中存储的程序代码来实现上述功能。具体实现时,该存储器930也可以集成在处理器910中,或者,独立于处理器910。该处理器910可以与图19中电子设备110中的处理单元401对应。
除此之外,为了使得电子设备900的功能更加完善,该电子设备900还可以包括输入单元960、显示单元970、音频电路980、摄像头990和传感器901等中的一个或多个,所述音频电路还可以包括扬声器982、麦克风984等。其中,显示单元970可以包括显示屏,显示单元970可以与图19中电子设备110中的显示单元402对应。
可选地,上述电子设备900还可以包括电源950,用于给终端设备中的各种器件或电路提供电源。
应理解,图20所示的电子设备900能够实现图3和图14所示方法实施例的各个过程。电子设备900中的各个单元的操作和/或功能,分别为了实现上述方法实施例中的相应流程。具体可参见上述方法实施例中的描述,为避免重复,此处适当省略详细描述。
应理解,图20所示的电子设备900中的处理器910可以是片上系统(system on a chip,SOC),该处理器910中可以包括中央处理器(central processing unit,CPU),还可以进一步包括其他类型的处理器,所述CPU可以叫主CPU。各部分处理器配合工作实现之前的方法流程,并且每部分处理器可以选择性执行一部分软件驱动程序。
总之,处理器910内部的各部分处理器或处理单元可以共同配合实现之前的方法流程,且各部分处理器或处理单元相应的软件程序可存储在存储器930中。
本申请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中存储有指令, 当该指令在计算机上运行时,使得计算机执行如上述图3和图14所示的图标数据迁移方法中的各个步骤。
以上各实施例中,涉及的处理器910可以例如包括中央处理器(central processing unit,CPU)、微处理器、微控制器或数字信号处理器,还可包括GPU、NPU和ISP,该处理器还可包括必要的硬件加速器或逻辑处理硬件电路,如特定应用集成电路(application-specific integrated circuit,ASIC),或一个或多个用于控制本申请技术方案程序执行的集成电路等。此外,处理器可以具有操作一个或多个软件程序的功能,软件程序可以存储在存储器中。
存储器可以是只读存储器(read-only memory,ROM)、可存储静态信息和指令的其它类型的静态存储设备、随机存取存储器(random access memory,RAM)或可存储信息和指令的其它类型的动态存储设备,也可以是电可擦可编程只读存储器(electrically erasable programmable read-only memory,EEPROM)、只读光盘(compact disc read-only memory,CD-ROM)或其他光盘存储、光碟存储(包括压缩光碟、激光碟、光碟、数字通用光碟、蓝光光碟等)、磁盘存储介质或者其它磁存储设备,或者还可以是能够用于携带或存储具有指令或数据结构形式的期望的程序代码并能够由计算机存取的任何其它介质等。
本申请实施例中,“至少一个”是指一个或者多个,“多个”是指两个或两个以上。“和/或”,描述关联对象的关联关系,表示可以存在三种关系,例如,A和/或B,可以表示单独存在A、同时存在A和B、单独存在B的情况。其中A,B可以是单数或者复数。字符“/”一般表示前后关联对象是一种“或”的关系。“以下至少一项”及其类似表达,是指的这些项中的任意组合,包括单项或复数项的任意组合。例如,a,b和c中的至少一项可以表示:a,b,c,a-b,a-c,b-c,或a-b-c,其中a,b,c可以是单个,也可以是多个。
本领域普通技术人员可以意识到,本文中公开的实施例中描述的各单元及算法步骤,能够以电子硬件、计算机软件和电子硬件的结合来实现。这些功能究竟以硬件还是软件方式来执行,取决于技术方案的特定应用和设计约束条件。专业技术人员可以对每个特定的应用来使用不同方法来实现所描述的功能,但是这种实现不应认为超出本申请的范围。
所属领域的技术人员可以清楚地了解到,为描述的方便和简洁,上述描述的系统、装置和单元的具体工作过程,可以参考前述方法实施例中的对应过程,在此不再赘述。
在本申请所提供的几个实施例中,任一功能如果以软件功能单元的形式实现并作为独立的产品销售或使用时,可以存储在一个计算机可读取存储介质中。基于这样的理解,本申请的技术方案本质上或者说对现有技术做出贡献的部分或者该技术方案的部分可以以软件产品的形式体现出来,该计算机软件产品存储在一个存储介质中,包括若干指令用以使得一台计算机设备(可以是个人计算机,服务器,或者网络设备等)执行本申请各个实施例所述方法的全部或部分步骤。而前述的存储介质包括:U盘、移动硬盘、只读存储器(read-only memory,ROM)、随机存取存储器(random access memory,RAM)、磁碟或者光盘等各种可以存储程序代码的介质。
以上所述,仅为本申请的具体实施方式,任何熟悉本技术领域的技术人员在本申 请揭露的技术范围内,可轻易想到变化或替换,都应涵盖在本申请的保护范围之内。本申请的保护范围应以所述权利要求的保护范围为准。

Claims (11)

  1. 一种图标数据迁移方法,应用于待迁移设备,所述待迁移设备包括第一显示屏幕,其特征在于,所述方法包括:
    获取迁移设备发送的建立链接请求,所述建立链接请求中携带所述迁移设备的设备类型,所述设备类型包括单屏设备或多屏设备;
    当建立链接成功后,根据所述迁移设备的设备类型和自身的设备类型,获取所述迁移设备的参考图标数据;
    根据所述参考图标数据以及获取的所述第一显示屏幕的图标布局,计算出实际图标数据;
    显示所述实际图标数据对应的图标。
  2. 根据权利要求1所述的方法,其特征在于,所述根据所述迁移设备的设备类型和自身的设备类型,获取所述迁移设备的参考图标数据,包括:
    若所述迁移设备的设备类型包括单屏设备,且自身的设备类型包括多屏设备时,获取所述迁移设备发送的全部图标数据,并将所述全部图标数据确定为参考图标数据,其中,所述多屏设备可包括多个显示屏幕。
  3. 根据权利要求1所述的方法,其特征在于,所述根据所述迁移设备的设备类型和自身的设备类型,获取所述迁移设备的参考图标数据,包括:
    若所述迁移设备的设备类型包括多屏设备,且自身的设备类型包括单屏设备时,获取所述迁移设备选择迁移的部分图标数据,并将所述部分图标数据确定为参考图标数据,其中,所述多屏设备可包括多个显示屏幕,所述部分图标数据用于指示所述迁移设备的一个指定显示屏幕对应的图标数据。
  4. 根据权利要求2或3所述的方法,其特征在于,所述根据所述参考图标数据以及获取的所述第一显示屏幕的图标布局,计算出实际图标数据,包括:
    根据所述参考图标数据确定出所述迁移设备的指定显示屏幕的图标布局;
    判断每个所述第一显示屏幕的图标布局与所述指定显示屏幕的图标布局是否相同;
    若判断出所述第一显示屏幕的图标布局与所述指定显示屏幕的图标布局相同,将所述指定显示屏幕的所述参考图标数据作为所述第一显示屏幕的实际图标数据;
    若判断出所述第一显示屏幕的图标布局与所述指定显示屏幕的图标布局不相同,通过图标映射算法,根据所述参考图标数据和所述第一显示屏幕的图标布局,确定出所述第一显示屏幕的实际图标数据。
  5. 根据权利要求4所述的方法,其特征在于,所述第一显示界面的图标布局包括第二图标列数;
    所述通过图标映射算法,根据所述参考图标数据和所述第一显示屏幕的图标布局,确定出所述第一显示屏幕的实际图标数据,包括:
    从所述指定显示屏幕的图标布局中确定出所述指定显示屏幕的第一图标列数;
    通过图标映射算法,根据所述第一图标列数、第二图标列数以及获取的所述指定显示屏幕的图标布局中每个图标的坐标,计算出所述第一显示屏幕的图标布局中每个图标的坐标;
    将每个图标的坐标的集合作为所述第一显示屏幕的实际图标数据,以确定出至少 一个所述第一显示屏幕的实际图标数据。
  6. 根据权利要求5所述的方法,其特征在于,所述第二图标列数包括N列,所述第一图标列数包括J列;
    所述通过图标映射算法,根据所述第一图标列数、第二图标列数以及获取的所述指定显示屏幕的图标布局中每个图标的坐标,计算出所述第一显示屏幕的图标布局中每个图标的坐标,包括:
    通过图标映射算法公式:
    Y′=((Y*J)+X)%N
    X′=((Y*J)+X)-(Y′*N)
    计算出每个所述第一显示屏幕的图标布局中每个图标的坐标,其中,X表示为所述指定显示屏幕的图标布局中的某一图标的X轴坐标值,Y表示为所述指定显示屏幕的图标布局中的某一图标的Y轴坐标值,X’表示为该图标在所述第一显示屏幕的图标布局中的X轴坐标值,Y’表示为该图标在所述第一显示屏幕的图标布局中的Y轴坐标值。
  7. 根据权利要求1所述的方法,其特征在于,所述根据所述迁移设备的设备类型和自身的设备类型,获取所述迁移设备的参考图标数据,包括:
    若所述迁移设备的设备类型包括多屏设备,且自身的设备类型包括多屏设备时,获取所述迁移设备选择迁移的多个部分图标数据,并将每个所述部分图标数据确定为参考图标数据,以确定出多个所述参考图标数据,其中,所述多屏设备可包括多个显示屏幕,所述部分图标数据用于指示所述迁移设备的一个指定显示屏幕对应的图标数据。
  8. 根据权利要求7所述的方法,其特征在于,所述根据所述参考图标数据以及获取的所述第一显示屏幕的图标布局,计算出实际图标数据,包括:
    在每个所述第一显示屏幕中显示提示信息,所述提示信息用于提示用户从多个所述参考图标数据中选择需要迁移的参考图标数据;
    针对每个所述第一显示屏幕,接收用户的选择操作,确定出用户选择的参考图标数据对应的指定显示屏幕的图标布局;
    判断每个所述第一显示屏幕的图标布局与所述指定显示屏幕的图标布局是否相同;
    若判断出所述第一显示屏幕的图标布局与所述指定显示屏幕的图标布局相同,将所述指定显示屏幕的所述参考图标数据作为所述第一显示屏幕的实际图标数据;
    若判断出所述第一显示屏幕的图标布局与所述指定显示屏幕的图标布局不相同,通过图标映射算法,根据所述用户选择的参考图标数据和所述第一显示屏幕的图标布局,确定出所述第一显示屏幕的实际图标数据。
  9. 根据权利要求8所述的方法,其特征在于,所述第一显示界面的图标布局包括第二图标列数;
    所述通过图标映射算法,根据所述用户选择的参考图标数据和所述第一显示屏幕的图标布局,确定出所述第一显示屏幕的实际图标数据,包括:
    根据所述用户选择的参考图标数据对应的指定显示屏幕的图标布局,确定出所述指定显示屏幕的第一图标列数;
    通过图标映射算法,根据所述第一图标列数、第二图标列数以及获取的所述指定显示屏幕的图标布局中每个图标的坐标,计算出所述第一显示屏幕的图标布局中每个图标的坐标;
    将每个图标的坐标的集合作为所述第一显示屏幕的实际图标数据,以确定出多个所述第一显示屏幕的实际图标数据。
  10. 一种电子设备,其特征在于,所述电子设备包括:
    显示屏;
    一个或多个处理器;
    存储器;
    以及一个或多个计算机程序,其中所述一个或多个计算机程序被存储在所述存储器中,所述一个或多个计算机程序包括指令,当所述指令被所述电子设备执行时,使得所述电子设备执行权利要求1至9中任意一项所述的图标数据迁移方法。
  11. 一种计算机可读存储介质,其特征在于,所述计算机可读存储介质包括存储的程序,其中,在所述程序运行时控制所述计算机可读存储介质所在设备执行权利要求1至9中任意一项所述的图标数据迁移方法。
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