CN114721761B

CN114721761B - Terminal equipment, application icon management method and storage medium

Info

Publication number: CN114721761B
Application number: CN202210398402.6A
Authority: CN
Inventors: 王朔; 吴锦
Original assignee: Hisense Mobile Communications Technology Co Ltd
Current assignee: Hisense Mobile Communications Technology Co Ltd
Priority date: 2022-04-15
Filing date: 2022-04-15
Publication date: 2023-09-19
Anticipated expiration: 2042-04-15
Also published as: CN114721761A

Abstract

The application provides terminal equipment, an application icon management method and a storage medium, and relates to the technical field of computers. The application can generate the floating display card through editing, and a user can open the application interface of any other application through the floating display card displayed on the currently running application interface, so that the operation is simple, the quick switching among the application programs is convenient, the tedious process of returning to the display desktop to find the application program and then open is avoided, and the time of the user can be saved.

Description

Terminal equipment, application icon management method and storage medium

Technical Field

The present application relates to the field of computer technologies, and in particular, to a terminal device, an application icon management method, and a storage medium.

Background

With the development of technology, the functions of mobile phones are increasing. Currently, icons of multiple applications can be grouped together in a desktop folder, but such desktop folders are cumbersome to open the application.

In an application interface running at present, if a user wants to open another application program, the user needs to return to the desktop first, open the desktop folder, find a corresponding application program in application program icons contained in the desktop folder, and click the application program icons to open the application program.

Disclosure of Invention

In order to solve the problems in the prior art, the embodiment of the application provides a terminal device, an application icon management method and a storage medium, which can be simpler and convenient for quick switching among various applications, can save complicated switching operation flow and can help a user save time.

In a first aspect, an embodiment of the present application provides a terminal device, including: a display, a memory, and a processor;

the display is configured to display an interface of the terminal device when in operation;

the memory is configured to store a program or data used by the terminal device to operate;

the processor is configured to generate a floating display card based on application icons of respective applications contained in an icon card in response to a floating display operation input by a user for the icon card in a desktop of the terminal device; if a first application is started, the floating display card is displayed on the upper layer of the operation interface of the first application in a floating mode; and responding to the triggering operation of the user for the second application in the floating display card, starting the second application and displaying the running interface of the second application.

The terminal equipment provided by the embodiment of the application can generate the floating display card through editing, and a user can open any application interface of other applications through the floating display card displayed on the currently running application interface, so that the operation is simple, the quick switching among various application programs is convenient, the tedious process of returning to the display desktop to find the application programs and then opening the application programs is avoided, and the time of the user can be saved.

In one possible implementation, the processor is specifically configured to:

generating an icon card based on application icons of each application contained in the floating display card in response to an exit operation of a user for the floating display card input;

and placing the icon card in a desktop of the terminal equipment based on the size of the icon card.

In one possible implementation, the processor is specifically configured to:

responding to the touch operation of a user on the icon card, and acquiring the sliding distance of a touch sliding event input by the user based on the touch operation;

and adjusting the card size of the icon card according to the sliding distance.

The terminal equipment provided by the embodiment of the application can respond to the touch operation of the user, adjust the card size of the icon card, and adjust the card size to the degree that the user can click directly to open the application conveniently and the card size is attractive.

In one possible implementation, the processor is specifically configured to:

responding to the touch operation of a user on the icon card, and acquiring the coordinates of a touch starting point;

receiving a touch sliding event input by a user based on the touch operation, and determining coordinates of a touch end point;

determining a start-stop distance based on the coordinates of the touch start point and the coordinates of the touch end point;

and if the starting and stopping point distance is larger than a preset value, taking the starting and stopping point distance as the sliding distance.

In one possible implementation, the icon card includes a plurality of grids, the grids of the plurality of grids being the same in size, each grid for displaying an application icon.

In one possible implementation, the processor is specifically configured to: and adjusting the number of grids displayed in the icon card according to the adjusted card size of the icon card and the grid size of the grids.

According to the terminal equipment provided by the embodiment of the application, the grid size of the grid is ensured to be unchanged according to the card size of the icon card after adjustment and the grid size of the grid, the grid number displayed in the card is adjusted, the grid size of the grid can be ensured to be the size defined by a user all the time, and the terminal equipment is convenient for the user to use.

In one possible implementation, the processor is specifically configured to: and adjusting the grid size of each grid displayed in the icon card according to the adjusted aspect ratio of the icon card and the number of grids displayed in the icon card.

According to the terminal equipment provided by the embodiment of the application, on the premise of ensuring the unchanged grid number, the grid size of each grid displayed in the icon card is adjusted according to the aspect ratio of the adjusted icon card and the grid number displayed in the icon card, so that each application contained in the icon card can be ensured to be seen by a user in a first page display interface of the picture card, and the application can be operated conveniently.

In one possible implementation, the processor is specifically configured to: responding to the operation of adding an application icon of a third application to the icon card by a user, if the application icons exist in grids currently displayed in the icon card, turning pages or scrolling the icon card until idle grids are displayed in the icon card, and adding the application icon of the third application to the idle grids; the idle grid refers to a grid to which an application icon has not been added.

In one possible implementation, the processor is specifically configured to: responding to the operation of adding the application icon of the third application to the icon card by a user, if the application icons exist in the grids currently displayed in the icon card, increasing the number of grids displayed in the icon card, and adding the application icon of the third application to the newly added idle grids.

The terminal equipment provided by the embodiment of the application can increase the number of grids displayed in the icon card and add the application icon of the third application to the newly added idle grid if the application icon is paved in the picture card when the user adds the application icon of the third application to the icon card. By the method, the application icons initially existing in the picture card and the application icons added later can be displayed in the display interface of the picture card, so that a user can directly operate the interface aiming at the application icons, and the user can conveniently use the interface.

In one possible implementation, the processor is specifically configured to:

increasing the number of rows and/or columns of grids displayed in the icon card to obtain updated grid numbers;

And adjusting the grid size of each grid displayed in the icon card based on the updated grid number and the card size of the icon card.

In a second aspect, an embodiment of the present application provides an application icon management method, where the method includes:

responding to a floating display operation input by a user aiming at an icon card in a desktop of terminal equipment, and generating a floating display card based on application icons of various applications contained in the icon card;

if a first application is started, the floating display card is displayed on the upper layer of the operation interface of the first application in a floating mode;

and responding to the triggering operation of the user for the second application in the floating display card, starting the second application and displaying the running interface of the second application.

In one possible embodiment, the method further comprises:

and adjusting the card size of the icon card according to the sliding distance.

In one possible implementation manner, the acquiring, in response to a touch operation of the icon card by the user, a sliding distance of the received touch sliding event includes:

In one possible implementation manner, after the adjusting the card size of the icon card according to the sliding distance, the method further includes:

And adjusting the number of grids displayed in the icon card according to the adjusted card size of the icon card and the grid size of the grids.

and adjusting the grid size of each grid displayed in the icon card according to the adjusted aspect ratio of the icon card and the number of grids displayed in the icon card.

In one possible embodiment, the method further comprises:

responding to the operation of adding an application icon of a third application to the icon card by a user, if the application icons exist in grids currently displayed in the icon card, turning pages or scrolling the icon card until idle grids are displayed in the icon card, and adding the application icon of the third application to the idle grids; the idle grid refers to a grid to which an application icon has not been added.

In one possible embodiment, the method further comprises:

responding to the operation of adding the application icon of the third application to the icon card by a user, if the application icons exist in the grids currently displayed in the icon card, increasing the number of grids displayed in the icon card, and adding the application icon of the third application to the newly added idle grids.

In one possible implementation, the increasing the number of grids displayed in the icon card includes:

In a third aspect, an embodiment of the present application provides an application icon management apparatus, including:

a floating unit, configured to generate a floating display card based on application icons of respective applications included in an icon card in response to a floating display operation input by a user for the icon card in a desktop of a terminal device;

the display unit is used for displaying the floating display card on the upper layer of the operation interface of the first application in a floating manner if the first application is started;

and the starting unit is used for responding to the triggering operation of the user for the second application in the floating display card, starting the second application and displaying the running interface of the second application.

In a fourth aspect, embodiments of the present application provide a computer readable storage medium having a computer program stored therein, which when executed by a processor, implements the method of the second aspect or any of the possible implementations of the second aspect.

In a fifth aspect, embodiments of the present application provide a computer program product comprising a computer program or instructions which, when executed by a processor, implement the method of the second aspect or any of the possible embodiments of the second aspect described above.

The technical effects caused by any implementation manner of the second aspect to the fifth aspect may refer to the technical effects caused by the corresponding implementation manner of the first aspect, and are not described herein.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it will be apparent that the drawings in the following description are only some embodiments of the present application, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

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

fig. 2 is a software architecture block diagram of a terminal device according to an embodiment of the present application;

FIG. 3 is a flowchart of an application icon management method according to an embodiment of the present application;

FIG. 4 is a schematic diagram of an icon card according to an embodiment of the present application;

FIG. 5 is a schematic diagram of an operation for generating a floating display card according to an embodiment of the present application;

FIG. 6 is a schematic illustration showing a floating display card after starting an operation interface of a first application according to an embodiment of the present application;

FIG. 7 is a schematic operation diagram of an operation interface for starting a second application on a floating display card according to an embodiment of the present application;

FIG. 8 is a schematic diagram illustrating an operation of switching a floating display card to an icon card according to an embodiment of the present application;

FIG. 9 is a schematic diagram illustrating another exemplary operation of switching a floating display card to an icon card according to an embodiment of the present application;

FIG. 10 is a schematic diagram illustrating an operation of adjusting a card size of an icon card according to an embodiment of the present application;

FIG. 11 is a schematic diagram of an operation of performing a page turning operation based on an icon card according to an embodiment of the present application;

fig. 12 is an operation schematic diagram of a sliding operation based on an icon card according to an embodiment of the present application;

FIG. 13 is a flow chart of adjusting card dimensions of an icon card according to an embodiment of the application;

FIG. 14 is a schematic diagram illustrating another operation of adjusting a card size of an icon card according to an embodiment of the present application;

FIG. 15 is a schematic diagram of an operation of adding an application icon to an icon card according to an embodiment of the present application;

FIG. 16 is a schematic flow chart of adding application icons to an icon card according to an embodiment of the present application;

FIG. 17 is a schematic diagram of another operation for adding application icons to an icon card according to an embodiment of the present application;

FIG. 18 is a flowchart illustrating another method for adding application icons to an icon card according to an embodiment of the present application;

FIG. 19 is a schematic diagram of an operation for deleting an application icon from an icon card according to an embodiment of the present application;

fig. 20 is a schematic structural diagram of an application icon management device according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be described in further detail below with reference to the accompanying drawings, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

It should be noted that, the application scenario described in the following embodiments of the present application is for more clearly describing the technical solution of the embodiments of the present application, and does not constitute a limitation on the technical solution provided by the embodiments of the present application, and those skilled in the art can know that, with the appearance of the new application scenario, the technical solution provided by the embodiments of the present application is also applicable to similar technical problems.

Currently, in order to save desktop space of a terminal device, a plurality of application icons may be grouped together by one desktop folder. However, when an application is being used, the user needs to open other applications in the desktop folder in the application interface of the application, and then open the application interfaces of the other applications after returning to the desktop to open the desktop folder. The operation mode needs repeated interface switching and is complex in operation.

Based on the above, the embodiment of the application provides a terminal device, which responds to a floating display operation input by a user for an icon card in a desktop of the terminal device, generates a floating display card based on application icons of each application contained in the icon card, if a first application is started, floating the floating display card on an upper layer of an operation interface of the first application, and responds to a triggering operation of the user for a second application in the floating display card, starts the second application and displays the operation interface of the second application.

The terminal equipment provided by the embodiment of the application can be portable equipment such as mobile phones, wearable equipment, tablet computers and the like. Fig. 1 is a block diagram schematically illustrating a hardware configuration of a terminal device according to an embodiment of the present application. It should be understood that the terminal device 100 shown in fig. 1 is only one example, and that the terminal device 100 may have more or fewer components than shown in fig. 1, may combine two or more components, or may have a different configuration of components. The various components shown in the figures may be implemented in hardware, software, or a combination of hardware and software, including one or more signal processing and/or application specific integrated circuits.

As shown in fig. 1, the terminal device 100 includes: communication component 110, processor 120, memory 130, display 140, input component 150, audio circuitry 160, SIM card interface 170, and sensor 180.

The communication component 110 is configured to receive or send a call request, receive and send signals during a call, and connect to a server to upload or download data. The communication component 110 may include an RF (radio frequency) circuit 111, a Wi-Fi (Wireless Fidelity ) module 112.

The RF circuit 111 may be used for receiving and transmitting signals during the process of receiving and transmitting information or communication, and may receive downlink data of the base station and then transmit the downlink data to the processor 120 for processing; uplink data may be sent to the base station. In general, RF circuitry 111 includes, but is not limited to, an antenna, at least one amplifier, a transceiver, a coupler, a low noise amplifier, a duplexer, and the like. The RF circuit 111 may receive electromagnetic waves from an antenna, filter, amplify, and the like the received electromagnetic waves, and transmit the electromagnetic waves to a modem processor for demodulation. The RF circuit 111 may amplify the signal modulated by the modem processor, and convert the signal into electromagnetic waves through the antenna to radiate. In some embodiments, at least some functional blocks of RF circuitry 111 may be disposed in processor 120. In some embodiments, at least some of the functional blocks of RF circuitry 111 may be disposed in the same device as at least some of the blocks of processor 120. The RF circuitry 111 and antenna of the terminal device 100 are coupled such that the terminal device 100 can communicate with a network and other devices through wireless communication techniques.

Wi-Fi belongs to a short-range wireless transmission technology, and the terminal device 100 can help a user to send and receive e-mail, browse web pages, access streaming media and the like through the Wi-Fi module 112, so that wireless broadband internet access is provided for the user. The Wi-Fi module 112 may connect to a router through which an external network is connected. The Wi-Fi module 112 may also connect to a server to upload or download data.

The memory 130 may be used to store data or program codes used by the terminal device when operating. The processor 120 performs various functions of the terminal device 100 and data processing by executing data or program codes stored in the memory 130. Memory 130 may include high-speed random access memory and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other volatile solid-state storage device. The memory 130 stores an operating system that enables the terminal device 100 to operate.

The display 140 is used to display information input by a user or information provided to the user and a graphical user interface (graphical user interface, GUI) of various menus of the terminal device 100. In particular, the display 140 may include a display disposed on the front side of the terminal device 100. The display may be configured in the form of a liquid crystal display, light emitting diodes, or the like. The display 140 may be used to display an interface of the terminal device while it is running.

The input component 150 may be used to receive numeric or character information entered by a user, various operations entered by the user, etc., and generate signal inputs related to user settings and function controls of the terminal device 100. In particular, the input component 150 may include keys and a touch screen, which may be disposed on the front side of the terminal device 100, may collect touch operations on or near the user, such as clicking buttons, dragging scroll boxes, and the like.

The touch screen may be covered on the display, and in some embodiments, the touch screen may be integrated with the display to implement the input and output functions of the terminal device 100, and after integration, the touch screen may be simply referred to as a touch display.

The terminal device 100 may further include a positioning module, such as a satellite positioning module or a mobile communication network positioning module, and may determine the geographic location of the terminal device 100 in real time.

Audio circuitry 160, speaker 161, microphone 162 may provide an audio interface between the user and terminal device 100. The audio circuit 160 may transmit the received electrical signal converted from audio data to the speaker 161, and the speaker 161 converts the electrical signal into a sound signal and outputs the sound signal. The terminal device 100 may also be configured with a volume button for adjusting the volume of the sound signal. On the other hand, the microphone 162 converts the collected sound signal into an electrical signal, receives it by the audio circuit 160, converts it into audio data, and outputs the audio data to the RF circuit 111 for transmission to, for example, another terminal, or outputs the audio data to the memory 130 for further processing.

The SIM card interface 170 is used to connect a SIM card. The SIM card may be contacted and separated from the terminal apparatus 100 by being inserted into the SIM card interface 170 or by being withdrawn from the SIM card interface 170. The terminal device 100 may support 1 or N SIM card interfaces, N being a positive integer greater than 1. The SIM card interface 170 may support Nano SIM cards, micro SIM cards, and the like. The same SIM card interface can be used to insert multiple cards simultaneously. The types of the plurality of cards may be the same or different. The SIM card interface may also be compatible with different types of SIM cards. The SIM card interface may also be compatible with external memory cards. The terminal device 100 interacts with the network through the SIM card to realize functions such as call and data communication. In some embodiments, the terminal device 100 employs esims, namely: an embedded SIM card. The eSIM card can be embedded in the terminal device 100 and cannot be separated from the terminal device 100. The SIM card is used to identify the user's mobile phone number.

The terminal device 100 may include a USB (universal serial bus ) interface or the like in addition to the SIM card interface 170. The USB interface is used for connecting a charging wire or other peripheral equipment. For example, the terminal device 100 may be connected to the charging wire through a USB interface. The components or modules in the terminal device 100 are connected by a bus.

The terminal device 100 may further comprise at least one sensor 180, such as an acceleration sensor 181, a distance sensor 182, a fingerprint sensor 183, a temperature sensor 184. The terminal device 100 may also be configured with other sensors such as gyroscopes, barometers, hygrometers, thermometers, infrared sensors, light sensors, motion sensors, and the like. For example, the fingerprint sensor 183 may be used to sense icons of the user's pointing interface with the terminal device 100.

The terminal device 100 may also include a camera for capturing still images or video. The camera can be one or a plurality of cameras. The object generates an optical image through the lens and projects the optical image onto the photosensitive element. The photosensitive element may be a charge coupled device (charge coupled device, CCD) or a Complementary Metal Oxide Semiconductor (CMOS) phototransistor. The photosensitive element converts the optical signal into an electrical signal, which is then transferred to the processor 120 for conversion into a digital image signal.

The processor 120 is a control center of the terminal device 100, connects various parts of the entire terminal using various interfaces and lines, and performs various functions of the terminal device 100 and processes data by running or executing software programs stored in the memory 130, and calling data stored in the memory 130. In some embodiments, processor 120 may include one or more processing units. The processor 120 of the present application may run an operating system, an application program, a user interface display and a touch response, and an application icon management method according to the embodiments of the present application. The processor 120 performs a specific procedure of the application icon management method, which will be described in detail below.

Fig. 2 is a software configuration block diagram of the terminal device 100 of the embodiment of the present application.

The layered architecture divides the software into several layers, each with distinct roles and branches. The layers communicate with each other through a software interface. In some embodiments, the Android system is divided into four layers, from top to bottom, an application layer, an application framework layer, an Zhuoyun row (Android run) and system libraries, and a kernel layer, respectively.

The application layer may include a series of application packages. As shown in fig. 2, the application package may include applications such as cameras, gallery, calendar, talk, map, navigation, clock, bluetooth, music, video, short message, etc. The user may set an alarm clock in the clock application. The application layer may also include third party applications installed on the terminal device.

The application framework layer provides an application programming interface (Application Programming Interface, API) and programming framework for application programs of the application layer. The application framework layer includes a number of predefined functions.

As shown in FIG. 2, the application framework layer may include a window manager, a content provider, a view system, a telephony manager, a resource manager, a notification manager, and the like.

The window manager is used for managing window programs. The window manager may obtain the display size, determine if there is a status bar, lock the screen, intercept the screen, etc.

The content provider is used to store and retrieve data and make such data accessible to applications. The data may include alarm clock data, video, images, audio, calls made and received, browsing history and bookmarks, phone books, etc.

The view system includes visual controls, such as controls to display text, controls to display pictures, and the like. The view system may be used to build applications. The display interface may be composed of one or more views. For example, a display interface including a text message notification icon may include a view displaying text and a view displaying a picture.

The telephony manager is arranged to provide communication functions for the terminal device. Such as the management of call status (including on, hung-up, etc.). The resource manager provides various resources for the application program, such as localization strings, icons, pictures, layout files, video files, and the like.

The notification manager allows the application to display notification information in a status bar, can be used to communicate notification type messages, can automatically disappear after a short dwell, and does not require user interaction. Such as notification manager is used to inform that the download is complete, message alerts, etc. The notification manager may also be a notification in the form of a chart or scroll bar text that appears on the system top status bar, such as a notification of a background running application, or a notification that appears on the screen in the form of a dialog window. For example, a text message is prompted in a status bar, a prompt tone is emitted, the terminal vibrates, and an indicator light blinks.

Android run time includes a core library and virtual machines. Android run time is responsible for scheduling and management of the Android system.

The core library consists of two parts: one part is a function which needs to be called by java language, and the other part is a core library of android.

The application layer and the application framework layer run in a virtual machine. The virtual machine executes java files of the application program layer and the application program framework layer as binary files. The virtual machine is used for executing the functions of object life cycle management, stack management, thread management, security and exception management, garbage collection and the like.

The system library may include a plurality of functional modules. For example: surface manager (surface manager), media Libraries (Media Libraries), three-dimensional graphics processing Libraries (e.g., openGL ES), 2D graphics engines (e.g., SGL), etc. Wherein the three-dimensional graphics processing library and the 2D graphics engine both belong to a common camera resource.

The surface manager is used to manage the display subsystem and provides a fusion of 2D and 3D layers for multiple applications.

Media libraries support a variety of commonly used audio, video format playback and recording, still image files, and the like. The media library may support a variety of audio and video encoding formats, such as MPEG4, h.264, MP3, AAC, AMR, JPG, PNG, etc.

The three-dimensional graphic processing library is used for realizing three-dimensional graphic drawing, image rendering, synthesis, layer processing and the like.

The 2D graphics engine is a drawing engine for 2D drawing.

The kernel layer is a layer between hardware and software. The inner core layer at least comprises a display driver, a camera driver, an audio driver and a sensor driver.

In order to further explain the technical solution provided by the embodiments of the present application, the following details are described with reference to the accompanying drawings and the detailed description. Although embodiments of the present application provide the method operational steps shown in the following embodiments or figures, more or fewer operational steps may be included in the method, either on a routine or non-inventive basis. In steps where there is logically no necessary causal relationship, the execution order of the steps is not limited to the execution order provided by the embodiments of the present application. The method may be performed sequentially or and in accordance with the method shown in the embodiments or drawings when the actual process or apparatus is performed.

Fig. 3 shows a flowchart of an application icon management method according to an embodiment of the present application. The method may be applied to the terminal device shown in fig. 1, which may include, but is not limited to, a mobile phone. As shown in fig. 3, the method may include the steps of:

step S301: and responding to the floating display operation input by the user for the icon card in the desktop of the terminal equipment, and generating a floating display card based on the application icons of the applications contained in the icon card.

Fig. 4 is a schematic diagram of a desktop of a terminal device, where, as shown in fig. 4, application icons of a plurality of applications are displayed on the desktop of the terminal device, and a user may open a corresponding application by clicking any one of the application icons. The desktop of the terminal equipment is also provided with an icon card, the icon card is a card type application icon set, the card type application icon set comprises a plurality of grids, the grids of the grids are the same in size, each grid is used for displaying an application icon of an application, each application corresponds to a respective application starting interface, and the application starting interface is used for responding to touch operation input by a user and starting an operation interface corresponding to the application icon. Therefore, the terminal equipment can respond to the touch operation of the user on the application icons in the icon card to directly open the corresponding application programs.

The card size of the icon card may be a set value. The mesh size may also be a set value. Taking the width and height of the grid dimension as s, the width of the icon card as W and the height of the icon card as H as an example. The maximum number of rows of the accommodating grid in the icon card is r=H/s, the maximum number of columns is c=W/s, and r and c are integers. The maximum number of grids that can be accommodated within one page of the icon card is n=r×c.

As shown in fig. 5, when a user inputs a touch operation to an icon card, the terminal device may generate a floating display card in response to a floating display operation input by the user in the icon card on the desktop, and load a small view corresponding to an application icon in the floating display card, so as to complete a process of generating the floating display card. After the floating display card is generated, the terminal device can delete the icon card on the desktop, update the database of the terminal device, and store the related data of the floating display card and the related data of the icon card in the database.

Specifically, as shown in (a) of fig. 5, the user presses the icon card on the desktop of the terminal device for a long time, and the terminal device receives a touch operation input by the user for the icon card, such as pressing the icon card for a long time, so as to make the icon card enter an editing state. As shown in fig. 5 (b), after the icon card enters the editing state, a switching menu of the "floating display" type may be popped up above the icon card, and the user clicks the switching menu to switch the icon card to the floating display state. Specifically, the terminal device receives the operation of clicking the 'floating display' switching menu by the user, determines the card size of the icon card, generates a floating display card with the width and the height identical to the card size of the icon card, and loads application icons of all applications in the floating display card. As shown in fig. 5 (c), the terminal device displays the generated floating display card on the desktop, the floating display card being floating above other application icons in the terminal device.

Step S302: and if the first application is started, displaying the floating display card in a floating manner on the upper layer of the operation interface of the first application.

The floating display card can be displayed above any display interface in a floating mode. For example, assuming that the first application is a social application, the user may launch the social application by clicking on an icon of the social application displayed on the desktop or clicking on an icon of the social application displayed in a floating display card. And the terminal equipment receives the operation of clicking the icon of the social application by the user, starts the social application and displays the running interface of the social application. As shown in fig. 6, a running interface of the social application is displayed on a display screen of the terminal device, and the floating display card is displayed above the running interface of the social application in a floating manner.

Step S303: and responding to the triggering operation of the user for the second application in the floating display card, starting the second application and displaying the running interface of the second application.

The terminal device may start the second application in response to an operation of the user with respect to the second application. The user can directly operate the application icons in the floating display card displayed on the upper layer of the operation interface of the first application, and the operation of clicking the second application can be realized without returning to the desktop, so that the second application is directly started.

For example, fig. 7 shows an operation schematic diagram of starting a second application based on the floating display card, where the second application may be any one of the floating display cards, as shown in (a) in fig. 7, and a user may perform a touch operation on the floating display card for the second application, such as clicking an application icon of the second application. The terminal equipment responds to the operation of clicking the application icon of the second application by the user, starts the second application and displays the running interface of the second application, after the second application is started, the floating display card is still floating displayed above the running interface of the second application, and the interface shown in (b) in fig. 7 is presented to the user.

In the floating display card, the user can directly click the application icon of the second application in the floating display card, so that the function of directly opening the operation interface of the second application is realized.

It should be noted that, when the floating display card provided in the embodiment of the present application is displayed in a floating manner, the floating display card may be displayed in a floating manner on a current display interface in a desktop, where the current display interface may be any display interface, for example, an operation interface of a first application or an operation interface of a second application.

The method provided by the embodiment of the application can generate the floating display card, so that a user can open another application through the floating display card displayed on any application interface, the operation is simple, the quick switching between application programs is convenient, and the tedious process of returning to the display desktop to find the application program and then open is avoided.

In some embodiments, the terminal device further provides a function of closing the floating display card, and the terminal device may generate an icon card based on application icons of respective applications included in the floating display card in response to an exit operation of the user for the floating display card input, and place the icon card in a desktop of the terminal device based on a size of the icon card.

The specific process for generating the icon card based on the suspension display card is as follows: the data of the floating display card is stored in the database of the terminal equipment, and the data comprises application icons of all applications, starting interfaces and card sizes of the floating display card. And receiving the exit operation of the user for the floating display card input, generating the icon cards with the same size according to the card size of the floating display card by the terminal equipment, inquiring the position on the desktop where enough space exists for accommodating the icon cards, and placing the icon cards on the desktop of the terminal equipment. Then, a view of the application icons for each application is loaded in the icon card. After generating the icon card based on the floating display card, the terminal equipment updates the database again, deletes the floating display card and adds the related information of the icon card; for example, the icon card may be reloaded in its initial position by default.

As shown in fig. 8, the upper right corner of the floating display card generated in the above step will be displayed with an "x" button. As shown in (a) of fig. 8, the user may click "x" displayed on the floating display card, and the terminal device may generate an icon card based on the floating display card in response to the user clicking "x" operation, displaying the interface as shown in (b) of fig. 8. The size of the generated icon card is the same as that of the floating display card, and the application icons of the various applications are also the same. The corresponding procedure of fig. 8 may be referred to as switching from the hover mode to the normal mode.

Fig. 9 shows a schematic operation of the hover display card exiting the hover display when there are other application icons at the initial position of the icon card. As shown in fig. 9 (a), after the user clicks "x", the terminal device generates an icon card in response to the user clicking operation, and since the icon card generated based on the floating display card cannot be accommodated due to the application icon existing at the initial position of the icon card, the terminal device loads the icon card out at other positions where the icon card can be accommodated based on the card size of the icon card, as shown in fig. 9 (b).

The floating display card also has a function of adjusting the size of the floating display card itself, and adding or deleting an application to or from the floating display card. Therefore, the card size of the generated icon card and the application icons of the respective applications included therein are such that the size of the card and the application icons of the respective applications included therein are displayed in a floating manner when "x" is clicked.

The floating display card and the icon card in the above process have the same function. The icon card and the floating display card provided by the embodiment of the application are the set of application icons, and a user can directly trigger the operation for the application on the desktop of the terminal equipment. The user can open the folder before performing the operation for the application on the icon card and the floating display card unlike the desktop folder.

In one possible embodiment, the terminal device further provides a function of adjusting a card size of the icon card. The terminal equipment can respond to the touch operation of the user on the icon card, acquire the sliding distance of the received touch sliding event, and adjust the card size of the icon card according to the sliding distance.

FIG. 10 is a schematic flow chart of a process for adjusting the card size of an icon card, comprising the following steps:

step S1001: and responding to the touch operation of the user on the icon card, enabling the icon card to enter an editing state, and acquiring the coordinates of the touch starting point.

Step S1002: and receiving a touch sliding event input by a user based on the touch operation, and determining coordinates of a touch end point.

Step S1003: the start-stop distance is determined based on the coordinates of the touch start point and the coordinates of the touch end point.

Step S1004: and taking the distance between the start point and the stop point as the sliding distance, and adjusting the card size of the icon card according to the sliding distance.

The touch sliding event input by the user can be understood as a drag operation performed by the user on the border, and at the starting time when the terminal device receives the touch sliding event of the user, the touch position of the user on the desktop of the terminal device is determined, and the touch position is the coordinates of the touch starting point.

Assuming that the width of the border of the icon card is b, taking the width of the icon card as W and the height as H as an example, if the coordinates of the touch start point are (x, y), it is possible to determine which position of the border of the icon card the touch start point is located on based on the coordinates of the touch start point.

When x >0 and x < b and y >0 and y < H, the touch starting point is positioned on the left frame of the icon card; when x > W-b and x < W and y >0 and y < H, the touch starting point is positioned on the right frame of the icon card; when x >0 and x < W and y >0 and y < b, the touch starting point is positioned on the upper frame of the icon card; when x >0 and x < W and y > H-b and y < H, the touch start point is located on the lower border of the icon card.

After the terminal equipment determines which frame the touch starting point is positioned on, the frame is taken as an initial frame, and the card size of the icon card is adjusted based on the dragging action of the user on the initial frame. Specifically, the terminal device may determine coordinates of a touch end point based on a touch sliding event triggered by a user, and determine a start-stop distance based on the coordinates of a touch start point and the coordinates of a fixed touch end point. The distance between the start point and the stop point refers to the distance from the touch start point to the touch end point on the frame of the icon card, namely the distance that the frame is dragged by the user and moved. And the terminal equipment takes the distance between the start point and the stop point as the sliding distance, and determines the card size of the adjusted icon card based on the sliding distance.

Step S1005: and if the distance between the starting point and the stopping point is larger than the preset value, adjusting the number of grids displayed in the icon card according to the adjusted card size of the icon card and the grid size of the grids.

If the distance between the starting point and the stopping point is smaller than the preset value, the sliding distance of the initial frame is small, and the number of grids displayed in the icon card does not need to be adjusted. If the distance between the starting point and the stopping point is larger than the preset value, the sliding distance of the initial frame is larger, the number of grids displayed in the icon card needs to be adjusted, and the application icons in the icon card are rearranged.

Step S1006: judging the relation between the number of the application icons included in the icon card and the new grid number, and if the number of the application icons included in the icon card is smaller than the new grid number, executing step S1008; if the number of application icons included in the icon card is greater than the new grid number, step S1007 is performed.

Step S1007: and turning or rolling the page of the icon card by utilizing the rolling control and the page turning control in the icon card, and arranging the application icons.

Step S1008: and arranging the application icons.

If the number of the application icons included in the icon card is smaller than the new grid number, the grid number does not need to be adjusted, and the application icons are arranged.

After the sliding distance is determined, the card size of the icon card is determined, and the application icons are rearranged based on the card size of the icon card, and the specific manner of rearranging the application icons is as follows:

The first way is: the mesh size is unchanged and the number of meshes is changed. And adjusting the number of grids displayed in the icon card according to the adjusted card size of the icon card and the grid size of the grids.

Illustratively, the width and height of the application icons are unchanged, the number of grids is redetermined based on the height H 'and width W' of the new icon card and the size s of the corresponding grid, and the arrangement of the grids inside the icon card is refreshed.

It should be noted that, when the arrangement mode of the grid inside the icon card is refreshed, if the card size of the icon card is changed from large to small, the situation that the number of application icons inside the icon card is larger than the number of the grid may occur. Based on the above, when the card size is adjusted, it is necessary to determine whether the grid number of the icon card can accommodate all the application icons, and if so, the process of adjusting the card size can be completed by refreshing the arrangement mode of the grids inside the icon card. If the application icons can not be accommodated, the number of the application icons included in the icon card is larger than the number of the new grids, and the scroll control and the page turning control can be utilized in the icon card to turn or scroll the icon card, so that the application icons are arranged.

Specifically, when using up-down scroll controls, the manner in which the height of the scroll controls can be adjusted is determined as follows: the total number of application icons in the icon card is obtained by dividing the total number of application icons in the icon card by the number of application icons which can be accommodated in each row of the icon card, and the total number of application icons is multiplied by the height of the application icons. When the left and right scroll controls are used, the mode for determining the adjustable width of the scroll controls is as follows: the total number of application icons in the icon card is obtained by dividing the total number of application icons in the icon card by the number of application icons which can be accommodated in each column of the icon card, and the total number of application icons is multiplied by the width of the application icons. When using a scroll control, the user can choose how much of it is specifically scrolled or slid.

Using the page turn control, the total number of icon cards = total number of application icons/maximum number of single page accommodations N. In the process of using the page turning control, each page turning operation is page turning, and application icons contained in the next page are presented to a user in a display interface of the icon card.

The specific adjustment of the card size of the icon card and the rearrangement of the application icons in the icon card are as follows:

In one embodiment, as shown in (a) of fig. 11, the user inputs a touch operation to the icon card, which may be a long press of the icon card, to bring the icon card into an editing state. As shown in (b) of fig. 11, after the icon card enters the edit state, the user performs a drag operation on the right frame of the icon card and slides the right frame of the icon card to the left. After the user finishes sliding the right frame of the icon card leftwards, the terminal device can readjust the card size of the icon card and the arrangement condition of the application icons in the icon card, as shown in an interface shown in (c) of fig. 11, the card size of the icon card becomes small, after readjustment, the number of application icons which can be contained in one page of the icon card is changed from 16 in 4 rows and 4 columns to 12 in 3 rows and 3 columns because the size of the application icons in the icon card is unchanged, so that page turning controls rearrange the application icons, and page breaks can be displayed in the icon card.

FIG. 12 illustrates a schematic diagram of arranging application icons with a page flip control. The user can turn pages based on the adjusted icon card, taking a left-right page turning mode as an example. As shown in (a) of fig. 12, the page break indicates that after the user performs the page turning operation in the icon card at the first page, as shown in (b) of fig. 12, the page break indicates to the second page, and the application icon displayed in the icon card is the application icon of the second page.

In addition to the above manner of arranging application icons by using page turning control, the embodiment of the present application further provides a manner of arranging application icons by using scrolling control, as shown in fig. 13. The user may scroll based on the adjusted icon card, for example in an upward sliding manner. By arranging the application icons by using the scrolling control, all the application icons are in one page, and the upward sliding distance can be determined by a user or preset. Taking the user's self-determination as an example, as shown in (a) of fig. 13, after sliding upward for a distance of 1.5s, the displayed interface is as shown in (b) of fig. 13.

The second way is: the mesh size is changed and the mesh number is unchanged. And adjusting the grid size of each grid displayed in the icon card according to the adjusted aspect ratio of the icon card and the number of grids displayed in the icon card.

The specific process is as follows: and (3) fixing the grid number, and changing the grid size in the icon card when the card size of the icon card is adjusted. In this process, the aspect ratio of the icon card may be ensured to be unchanged, if before the icon card is adjusted, the aspect ratio thereof is b=w/H, and the width and the height are both changed during the process of adjusting the card size of the icon card, based on the aspect ratio, the adjusted width W 'of the icon card may be taken as an example, and the height may be b×w'. After determining the card size of the icon card, ensuring that the grid number is unchanged, calculating the grid size, wherein the grid size can be the width s 'W'/W.

Illustratively, as shown in (a) of fig. 14, the user presses the icon card for a long time, causing the icon card to enter an editing state. As shown in (b) of fig. 14, after the icon card enters the edit state, the user performs a drag operation on the right frame of the icon card and slides the right frame of the icon card to the left. After the user finishes sliding the right frame of the icon card leftwards, the terminal device can readjust the card size of the icon card and the arrangement condition of the application icons in the icon card. Since the aspect ratio of the icon card is kept unchanged during the whole process, and the number of grids that can be displayed by one page in the icon card is ensured to be unchanged, the size of the application icon is reduced in the same proportion based on the width and the height in the card size before adjustment and the width and the height of the card size after adjustment, and the finally displayed interface is shown in (c) of fig. 14.

The first way can ensure that the grid size in the icon card is unchanged, so that a user can always see application icons with consistent sizes when using the icon card. The second mode can adjust the grid size of each grid displayed in the icon card on the premise of ensuring that the number of grids is unchanged, can ensure that the application which the user wants to see can always be seen in the first page display interface of the picture card, and operates the application, so that the user can conveniently use the application. The two modes are convenient for users to use through different angles.

In a possible implementation manner, the terminal device provided by the embodiment of the application further has the functions of adding new application icons to the icon card and deleting application icons from the chart card. Specifically, two embodiments of adding application icons to an icon card are as follows:

the first way is: and responding to the operation of adding the application icon of the third application to the icon card by the user, if the application icons exist in the grids currently displayed in the icon card, turning pages or scrolling the icon card until the idle grids are displayed in the icon card, and adding the application icon of the third application to the idle grids.

Wherein the idle grid refers to a grid to which an application icon has not been added.

FIG. 15 shows a schematic flow chart of adding application icons to an icon card, the steps being as follows:

step S1501: and adding an application icon of the third application to the icon card in response to the operation of the user.

Step S1502: and judging the relation between the number of application icons and the grid number in the icon card after adding the application icons of the third application. If the number of application icons in the icon card is smaller than the grid number, executing step S1503; if the number of application icons in the icon card is greater than the grid number, step S1504 is executed.

Step S1503: and displaying the application icons on a display interface of the icon card, and arranging the application icons.

Step S1504: and turning or rolling the page of the icon card by utilizing the rolling control and the page turning control in the icon card, and arranging the application icons.

Taking s as an example of the width and height of the grid size, W as an example of the width of the icon card and H as an example of the height of the icon card. The number of grids that the current icon card can accommodate is N, that is, the number of application icons that can be accommodated at most in one display interface of the icon card is N.

Responding to the operation of adding the application icons of the third application to the icon card by a user, judging that after the application icons of the third application are added to the icon card, if the number of the application icons included in the icon card is greater than or equal to N, scrolling the icon card by utilizing a scrolling control, and adding the application icons of the third application to the idle grid in sequence; or, the page turning control can be utilized to turn pages of the icon card, and the application icons of the third application are added to the idle grid in sequence.

The specific process of adding the application icons is shown in fig. 16, and as shown in (a) in fig. 16, the user adds the application icons of the third application to the icon card in a dragging manner, at this time, the icon card includes 16 application icons, the first page of the icon card is just filled, after the application icons of the third application are added to the icon card, the page turning control can be used to turn pages of the icon card, and the application icons of the third application are sequentially added to the idle grid. As in the interface shown in (b) in fig. 16, application icons of the third application that have been added to the icon card can be seen in the second page.

The second way is: responding to the operation of adding the application icon of the third application to the icon card by the user, if the application icons exist in the grids currently displayed in the icon card, increasing the number of grids displayed in the icon card, and adding the application icon of the third application to the newly added idle grids.

FIG. 17 illustrates another flow diagram for adding application icons to an icon card.

Step S1701: and adding an application icon of the third application to the icon card in response to the operation of the user.

Step S1702: and judging the relation between the number of application icons and the grid number in the icon card after adding the application icons of the third application. If the number of application icons in the icon card is smaller than the grid number, executing step S1703; if the number of application icons in the icon card is greater than the grid number, step S1704 is performed.

Step S1703: and adding the application icons of the third application into the icon card in sequence, and arranging the application icons.

Step S1704: and increasing the number of grids displayed in the icon card, and sequentially adding the application of the third application into the newly added idle grids.

Illustratively, taking s as the width and height of the grid size, W as the width of the icon card, and H as the height of the icon card as an example, it is assumed that the number of grids that the current icon card can accommodate is N, that is, the number of application icons that can be accommodated in one display interface of the icon card is N at most. At this time, the maximum number of rows of the grid is r, and the maximum number of columns is c.

Responding to the operation of adding the application icons of the third application to the icon card by the user, if the total number of the application icons in the icon card is N, namely that the application icons exist in the grids currently displayed in the icon card, increasing the grid number displayed in the icon card, and adding the application icons of the third application to the newly added idle grids.

Illustratively, the specific implementation of increasing the number of grids displayed within the icon card is as follows: and increasing the number of rows and/or columns of grids displayed in the icon card to obtain updated grid numbers, and adjusting the grid size of each grid displayed in the icon card based on the updated grid numbers and the card size of the icon card.

The number of rows of the grid displayed in the icon card can be increased by one row, and the number of columns of the grid is increased by one column. That is, the total number of rows of the application icon is added by 1, the total number of columns of the application icon is added by 1, and after the number of rows and columns are increased, the maximum number of rows of the grid is r+1, and the maximum number of columns is c+1. Under the condition that the card size of the icon card is unchanged, the grid size of each grid displayed in the icon card is readjusted, the width of the new grid size is W/c+1, and the height of the new grid size is H/r+1.

It should be noted that, if a new application icon is added to the icon card all the time, the grid size in the icon card may reach a minimum value, and when the grid size reaches the minimum value, more application icons cannot be contained in the icon card, and further application icons cannot be added to the icon card.

If the total number of application icons in the icon card is smaller than N, the application icons of the third application can be directly added into the icon card, the grid size is unchanged, and the grid number is unchanged.

As shown in fig. 18, the application icon is added to the icon card in the second manner. As shown in fig. 18 (a), after the user adds the application icon of the third application to the icon card by dragging, and adds the application icon of the third application to the icon card, since all application icons are to be ensured to be displayed in one page of the icon card, the grid size is adjusted, the application icons are rearranged, and the interface shown in fig. 18 (b) is presented to the user after the application icons are rearranged.

The above-described process is a process of adding an application icon to an icon card, and the following two embodiments are processes of deleting an application icon from an icon card.

In the following two modes, in the initial icon card, the width and height of the grid size are s, the width of the icon card is W, the height of the icon card is H, the number of grids which can be accommodated by the current icon card is N, the maximum number of rows of the grids is r, and the maximum number of columns is c.

The first way is: responding to the operation of deleting the application icons of the fourth application from the icon card by a user, deleting the application icons of the fourth application and updating the database if the number of the application icons remained in the icon card is less than or equal to N; if the number of the application icons remaining in the icon card is greater than N, deleting the application icons of the fourth application, turning or rolling the icon card by using a page turning control and a rolling control, arranging the application icons remaining in the icon card, and updating a database.

Based on the above manner, whether the first manner of adding the application icon or the first manner of deleting the application icon is mainly that the page turning control and the scroll control are utilized in the icon card, the icon card is turned or scrolled, and the rest application icons in the icon card after the operation are arranged and displayed.

The second way is: responding to the operation of deleting the application icons of the fourth application from the icon card by a user, if the number of the application icons remained in the icon card is larger than (r-1) x (c-1), the grid size is unchanged, the grid number is unchanged, the application icons remained in the icon card are sequentially arranged, and the database is updated.

If the number of the remaining application icons in the icon card is equal to (r-1) x (c-1), subtracting 1 from the grid number, and recalculating the grid size, wherein the width of the new grid size is W/c-1, the height of the new grid size is H/r-1, and arranging the remaining application icons in sequence, and updating the database.

When the application icon is deleted from the icon card by the second method, the grid size in the icon card may reach a maximum value, and when the grid size reaches the maximum value, the application icon is continuously deleted, and the grid size is not changed.

Based on the above manner, whether the second manner of adding the application icon or the second manner of deleting the application icon is actually based on only one display interface of the icon card for adjustment in the using process, and controls such as a scrolling control, a page turning control and the like are not involved. And expanding/reducing the maximum value of the grid number which can be contained in the icon card by adjusting the grid size, and arranging and displaying the rest application icons.

Fig. 19 shows a schematic operation of deleting an application icon from an icon card. As shown in fig. 19 (a), the user deletes the application icon of the fourth application from the icon card by dragging, and at this time, the terminal device responds to the operation of the user, and detects that after deleting the application icon of the fourth application in the icon card, the remaining application icons just occupy three rows of grids, and rearranges the application icons based on the remaining application icons, and finally, the interface shown in fig. 19 (b) is presented to the user.

Based on the same inventive concept, the embodiment of the present application further provides an application icon management device, as shown in fig. 20, where the application icon management device includes:

a floating unit 2001 for generating a floating display card based on application icons of respective applications included in an icon card in response to a floating display operation input by a user for the icon card in a desktop of a terminal device;

the display unit 2002 is configured to display the floating display card in a floating manner on an upper layer of an operation interface of the first application if the first application is started;

and a starting unit 2003 for starting the second application and displaying the running interface of the second application in response to the triggering operation of the user on the second application in the floating display card.

It will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present application without departing from the spirit or scope of the application. Thus, it is intended that the present application also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims

1. A terminal device, comprising: a display, a memory, and a processor;

the processor is configured to:

responding to a floating display operation input by a user aiming at an icon card in a desktop of terminal equipment, and generating a floating display card based on application icons of various applications contained in the icon card; the icon card is an application icon set, the icon card comprises a plurality of grids, the grids of the grids are the same in size, and each grid of the grids is used for displaying an application icon of an application;

and responding to the triggering operation of the user for the second application in the floating display card, starting the second application and displaying the running interface of the second application, wherein the floating display card is displayed at the upper layer of the running interface of the second application in a floating mode.

2. The terminal device of claim 1, wherein the processor is specifically configured to:

3. The terminal device of claim 1, wherein the processor is specifically configured to:

and adjusting the card size of the icon card according to the sliding distance.

4. The terminal device of claim 3, wherein the processor is further configured to:

5. The terminal device of claim 4, wherein the processor is further configured to:

6. The terminal device of claim 4, wherein the processor is further configured to:

7. The terminal device of claim 1, wherein the processor is further configured to:

8. The terminal device of claim 1, wherein the processor is further configured to:

9. The terminal device of claim 8, wherein the processor is further configured to: