CN106325655B - 3D application icon interaction method applied to touch terminal and touch terminal - Google Patents

Abstract

The invention discloses a 3D application icon interaction method applied to a touch terminal and the touch terminal, wherein the display mode of the touch terminal comprises a use mode and an icon editing mode, a backboard and a 3D application icon suspended on the backboard are displayed on a user interface of the touch terminal in the use mode, and the method comprises the following steps: detecting operation information input by an operator on a screen of the touch terminal aiming at the 3D application icon; determining the current operation type of the operation body according to the detected operation information and the current display mode of the touch terminal; and executing the operation corresponding to the determined operation type on the 3D application icon. Through the mode, the interaction of the 3D application icons is realized, the user control experience is improved, and the usability, flexibility and fun of a user interface are greatly enhanced.

Description

3D application icon interaction method applied to touch terminal and touch terminal

Technical Field

The invention relates to the technical field of 3D processing, in particular to a 3D application icon interaction method applied to a touch terminal and the touch terminal.

Background

The touch terminals such as mobile phones and tablet computers are greatly convenient for interaction between people and terminal equipment due to the adoption of touch operation, and the touch terminals such as the mobile phones and the tablet computers become common equipment for daily office work and entertainment of people.

However, in the prior art, the interaction of the user interface is relatively single in function except the interaction satisfying the basic operation function, and particularly, the application icons are not changed at all, and certain relation is lacked among the application icons, so that the user feels rigid, and flexibility and fun are lacked.

Disclosure of Invention

The invention provides a 3D application icon interaction method applied to a touch terminal and the touch terminal.

In order to solve the technical problems, the invention adopts a technical scheme that:

A3D application icon interaction method applied to a touch terminal, wherein the display mode of the touch terminal comprises a use mode and an icon editing mode, and in the use mode, a backboard and a 3D application icon suspended on the backboard are displayed on a user interface of the touch terminal, and the method comprises the following steps: detecting operation information input by an operator on the touch terminal screen aiming at the 3D application icon; determining the current operation type of the operation body according to the detected operation information and the current display mode of the touch terminal; and executing the operation corresponding to the determined operation type on the 3D application icon.

In order to solve the technical problems, the invention adopts a technical scheme that:

a touch terminal, the display mode of the touch terminal comprises a use mode and an icon editing mode; in a use mode, a backboard and a 3D application icon suspended on the backboard are displayed on a user interface of the touch terminal screen, and the touch terminal further includes:

the detection module is used for detecting operation information input by an operation body on the screen aiming at the 3D application icon;

the determining module is used for determining the current operation type of the operation body according to the detected operation information and the current display mode of the touch terminal;

and the execution module is used for executing the operation corresponding to the determined operation type on the 3D application icon.

In order to solve the technical problems, the invention adopts a technical scheme that:

the touch terminal comprises a processor, a screen and a bus, wherein the processor and the screen are connected with the bus; the display mode of the touch terminal comprises a use mode and an icon editing mode, and in the use mode, a backboard and a 3D application icon suspended on the backboard are displayed on a user interface of a screen of the touch terminal;

the processor is used for detecting operation information input by an operation body on the screen aiming at the 3D application icon, determining the current operation type of the operation body according to the detected operation information and the current display mode of the touch terminal, and executing the operation corresponding to the determined operation type on the 3D application icon.

In the embodiment of the invention, the display mode of the touch terminal and the operation information input by the operation body at the touch terminal aiming at the 3D application icon are obtained, the operation type is determined according to the display mode and the operation information, and the operation is carried out according to the operation type, so that the interaction of the 3D application icon is realized, the interaction mode of a user interface is enriched, the user operation experience is improved, and the usability, the flexibility and the enjoyment of the user interface are greatly enhanced.

Drawings

FIG. 1 is a schematic view of a user interface of a touch terminal of the present invention;

FIG. 2 is a schematic diagram of a 3D application icon floating on a backplane according to the present invention;

FIG. 3 is a flowchart of a first embodiment of a 3D application icon interaction method of the present invention;

FIG. 4 is a flowchart of a second embodiment of a 3D application icon interaction method of the present invention;

FIG. 5 is a flow chart of the present invention for determining the type of operation in a usage mode;

FIG. 6 is a schematic diagram of the present invention sliding sub-level functionality up and down on a touch terminal;

FIG. 7 is a schematic diagram of the present invention generating a projection of a 3D application icon at 12 PM;

FIG. 8 is a schematic illustration of a projection of the present invention generating a 3D application icon at 1 PM;

FIG. 9 is a schematic illustration of a projection of the present invention generating a 3D application icon at 3 PM;

FIG. 10 is a flow chart of the present invention for determining the type of operation in the icon edit mode;

FIG. 11 is a schematic diagram of the invention in an icon edit mode with an operator sucking up a 3D application icon;

FIG. 12 is a schematic diagram of releasing a 3D application icon in an icon edit mode according to the present invention;

FIG. 13 is a schematic diagram of the present invention changing the position of a 3D application icon;

FIG. 14 is a schematic diagram of the present invention in which a new folder is generated;

FIG. 15 is a schematic diagram of deleting a 3D application icon according to the present invention

FIG. 16 is a schematic structural diagram of a touch terminal according to a first embodiment of the present invention;

FIG. 17 is a schematic structural diagram of a touch terminal according to a second embodiment of the present invention;

fig. 18 is a schematic structural diagram of a touch terminal according to a third embodiment of the present invention.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

The present invention will be described in detail below with reference to the accompanying drawings and examples.

It should be noted that, if not conflicted, the various features of the embodiments of the invention may be combined with each other within the scope of protection of the invention. Additionally, while functional block divisions are performed in apparatus schematics, with logical sequences shown in flowcharts, in some cases, steps shown or described may be performed in sequences other than block divisions in apparatus or flowcharts.

To facilitate an understanding of the embodiments of the invention, some terms referred to in all embodiments of the invention are explained before beginning to describe various embodiments of the invention. Specifically, a 3D application icon is displayed on the screen of the touch terminal, and the 3D application icon refers to an application icon having a 3D display effect, namely an APP icon. The display modes of the touch terminal include an icon editing mode and a use mode. A mode in which the touch terminal normally displays a UI (user interface) is referred to as a use mode, and a mode in which an application icon on the user interface is edited is referred to as an icon editing mode. When the touch terminal is in a use mode, a backboard and a 3D application icon suspended on the backboard are displayed on a user interface of the touch terminal. Referring to fig. 1 and fig. 2, when the touch terminal is in the use mode, a backboard 11 and a 3D application icon 12 suspended on the backboard 11 are displayed on a user interface of the touch terminal, wherein the backboard 11 is formed by seamlessly splicing a plurality of polyhedrons 111. In the icon editing mode, a plurality of polyhedrons are split, each of which can carry a 3D application icon.

In all embodiments of the present invention, the touch terminal includes devices such as a computer, a PDA, a tablet computer, an MP4, a smart phone, an electronic paper book, a game machine, etc. which implement human-computer interaction by using a User Interface (UI).

The user can operate the 3D application icon displayed in the touch terminal, and the touch terminal can respond according to the input of the operation body, so that the interaction of the 3D application icon is realized. Since a plurality of 3D application icons are displayed on the user interface of the touch terminal, the 3D application icon interaction method according to the embodiment of the present invention will be described in detail below by taking an example in which an operator has selected one 3D application icon on the user interface.

Referring to fig. 3, fig. 3 is a flowchart illustrating a 3D application icon interaction method according to a first embodiment of the present invention, where the 3D application icon interaction method includes:

step S201, detecting operation information input by an operation body on a screen of a touch terminal aiming at a 3D application icon;

the operator is a touch carrier which generates an operation signal by touching the terminal when touching the screen, and may be a touch pen, a touch glove, a hand of a user, and the like, and the 3D application icon on the screen refers to an icon of an application program, and does not include a widget icon or a folder icon.

It is understood that the 3D application icons on the touch terminal may be formed in various manners, such as forming the 3D application icons in a manner of having parallax images, forming the 3D application icons in a manner of 3D modeling, or forming the 3D application icons in a manner of using a layered technology and appearing to have a stereoscopic effect.

Step S202, determining the current operation type of the operation body according to the detected operation information and the current display mode of the touch terminal;

the operation information includes: the time information of the contact of the operating body with the screen and/or the motion trail information of the operating body on the screen. The time information of the operator contacting the screen refers to the time length of the operator contacting the screen, and the motion track information of the operator on the screen refers to the related information of the operator contacting the screen and sliding on the screen.

Step S203, an operation corresponding to the determined operation type is performed on the 3D application icon.

In the embodiment of the invention, the display mode of the touch terminal and the operation information input by the operation body at the touch terminal aiming at the 3D application icon are obtained, the operation type is determined according to the display mode and the operation information, and the operation is carried out according to the operation type, so that the interaction of the 3D application icon is realized, the interaction mode of a user interface is enriched, the user operation experience is improved, and the usability, the flexibility and the enjoyment of the user interface are greatly enhanced.

Referring to fig. 4, fig. 4 is a flowchart illustrating a 3D application icon interaction method according to a second embodiment of the present invention, the method including:

step S301, detecting operation information input by an operation body on a screen of the touch terminal aiming at the 3D application icon;

step S302, determining the current operation type of the operation body according to the detected operation information and the current display mode of the touch terminal;

the operation information includes: the time information of the contact of the operating body with the screen and/or the motion trail information of the operating body on the screen.

Step S303, an operation corresponding to the determined operation type is performed on the 3D application icon.

The display mode of the touch terminal includes: a use mode and an icon edit mode. In the use mode and the icon editing mode, a user can execute different operations, different operation types are generated by triggering different operations, and the touch terminal responds to different contents according to different operation types.

Mode of use

In the use mode, the operation types of the operation body include: one or more of click operation, up-down sliding operation, left-right sliding operation, or long-press operation. When the touch terminal is in the use mode, the step of determining the current operation type of the operation body according to the detected operation information, that is, when step S302 is executed, as shown in fig. 5, may include:

step S3021, when the time for the operating body to contact the screen is less than a preset first time threshold, judging whether a motion track exists on the screen by the operating body, if no motion track exists, entering step S3022, if a motion track exists and the motion track is displaced up and down, entering step S3023, and if a motion track exists and the motion track is displaced left and right, entering step S3024;

step S3022: determining the current operation type of the operation body as single click operation;

step S3023: determining the current operation type of the operation body as the up-down sliding operation;

step S3024: determining the current operation type of the operation body as a left-right sliding operation;

or, when the operation body presses the screen for a long time, it is determined that the operation type is a long press operation, and when the touch terminal is in the use mode, according to the detected operation information, it is determined that the current operation type of the operation body is determined, that is, step S302 may be specifically: and when the time that the operating body contacts the screen is greater than or equal to a preset first time threshold and the operating body does not have a motion track on the screen, determining that the current operation type of the operating body is long-press operation. It is worth mentioning that: when the operation type is determined to be long-press operation, the time that the operation body contacts the screen is greater than or equal to a preset first time threshold, and no motion track of the operation body on the screen includes two meanings: the first time is that the time for which the operation body contacts the screen is greater than or equal to a preset first time threshold, and the second time is that the operation body does not have any motion action in the time for which the operation body contacts the screen.

It should be noted that, in the use mode, the 3D application icon may sink differently when the user presses a different position on the user interface, for example: when the long press is a blank area on the user interface and the long press duration is judged to exceed the first time threshold, the 3D application icons on the user interface sink together below the screen, and meanwhile, the sunk 3D application icons float on the corresponding polyhedrons along with the separation of the back panel into the polyhedrons. When the long-time press is performed on the 3D application icon on the user interface, the operated 3D application icon begins to sink, when the long-time press is judged to exceed a certain time, the rest application icons on the user interface sink to the lower side of the screen together, meanwhile, the rest application icons are separated into a plurality of polyhedrons along with the backboard, and the sunk 3D application icon is suspended on the corresponding polyhedron. The touch terminal can set two response modes for long-time pressing operation of a user in a use mode, wherein one mode is as follows: entering a currently selected and pressed icon into an icon editing mode; the other is as follows: not only the currently selected pressed icon enters the icon edit mode state, but all 3D application icons displayed on the screen of the touch terminal enter the icon edit mode. That is, in the icon edit mode, all 3D application icons displayed on the screen may enter the icon edit mode, or only the 3D application icon pressed by the user enters the icon edit mode. In the icon editing mode, the user can exit the icon editing mode by clicking a hardware key of the touch terminal and return to the use mode.

When the touch terminal is in the use mode and the operation type is a single-click operation, the application is started, and step S303 may be further specifically: and when the operation type is single-click operation, executing the operation of shaking the 3D application icon and starting the application corresponding to the 3D application icon.

When the touch terminal is in the use mode and the operation type is the up-down sliding operation, the sub-level function is activated, and step S303 may further specifically be: when the operation type is the up-down sliding operation, executing the operation of starting the corresponding sub-level function of the 3D application icon; after the sub-level function is started, the sub-level function of the sub-application can be directly displayed, the sub-level application does not need to be accessed, and the method is very convenient. That is, when step S303 is executed, specifically, the following steps may be performed: and turning over the polyhedron corresponding to the 3D application icon along the sliding direction, displaying an icon corresponding to the sub-level function on the other surface of the polyhedron to prompt the function of the currently started sub-level function, starting the sub-level function, and displaying a user interface of the sub-level function, as shown in FIG. 6. At this point, to achieve the purpose of directly starting the sub-level function of the 3D application icon when the 3D application icon is slid up and down, a mapping relationship between the operation command and the directly starting the sub-level function of the certain 3D application icon needs to be generated in advance and stored in the touch terminal, so that when the touch terminal receives the corresponding operation command, the sub-level function can be directly started in response. Specifically, in the embodiment of the present invention, the shortcut setting operation needs to be executed, and the setting method of the shortcut setting operation will be described in detail below.

When the touch terminal is in the use mode and the operation type is a left-right sliding operation, the screen switching operation is performed, and step S303 may be specifically: and when the operation type is a left-right sliding operation, executing screen switching operation. Further, when the touch terminal is used for screen switching, the screen switching can be performed according to the sliding parameter of the operation body, and then step S303 may specifically be: the method comprises the steps of obtaining sliding parameters of an operation body, judging whether the sliding parameters are larger than a preset parameter threshold value, executing screen switching operation if the sliding parameters are larger than the preset parameter threshold value, and rebounding if the sliding parameters are smaller than or equal to the preset parameter threshold value, wherein screen switching fails. Of course, the screen can be switched according to the sliding direction during the screen switching, for example: when sliding to the left, the icon of the user interface on the left is switched to, and when sliding to the right, the icon of the user interface on the right is switched to. Touch terminal still can show different screen cutting effects at the in-process of screen cutting to the interest is strengthened, for example: the 3D application icons displayed on the screen are switched by turning over the whole backboard, or the 3D application icons displayed on the screen are switched by turning over all polyhedrons, or the 3D application icons fly into the display screen from the outside of the screen to be cut.

When the touch terminal is in the use mode and the operation type is long press operation, the display mode of the touch terminal is switched, and step S303 may further include: and when the operation type is long press operation, executing the operation of switching the touch terminal to the icon editing mode. In the use mode, the backplane is integrated, and in the icon editing mode, the backplane is separated into a plurality of polyhedrons, and then performing switching the touch terminal to the icon editing mode includes: and splitting the backboard into a plurality of polyhedrons, so that the 3D application icon shrinks and sinks between the screen and the polyhedron corresponding to the 3D application icon. The polyhedrons are separated by the splitting identifier to make the separation effect between the polyhedrons more remarkable, and in this embodiment, the splitting identifier is preferably a splitting line having depth information.

It can be understood that, when the back plate is split into a plurality of polyhedrons and the polyhedrons are seamlessly spliced together, the following method can be specifically adopted:

the back plate is formed by splicing a plurality of polyhedrons with a three-dimensional spatial position relationship, specifically, a three-dimensional coordinate is established by taking a certain position (for example, the upper left corner) of a screen as an origin of a coordinate system, each polyhedron is respectively provided with a fixed point (for example, a central point) with a fixed position in the three-dimensional coordinate, and when a terminal receives a trigger signal for triggering the contraction or amplification of each polyhedron, each polyhedron contracts to a preset size around the respective fixed point within a preset time, so that cracks with depth information appear between the polyhedrons, further, interval features exist between the polyhedrons, or each polyhedron expands to a preset size around the respective fixed point within the preset time, so that the polyhedrons return to an initial seamless splicing state. For example: during splitting, each polyhedron contracts inwards along a certain position (such as a central position) of the polyhedron, and the contraction with a preset amplitude is completed within a preset time, such as within 0.2 second, and the contraction amplitude reaches 2% of the size of the original polyhedron when the contraction is completed; and when the polyhedron is contracted, the edge of the surface of each polyhedron automatically forms a round chamfer, and the radius of the chamfer is equal to the contraction amplitude at the moment, so that cracks are generated among the polyhedrons. In addition, the contraction process can simulate some physical effects, such as acceleration and deceleration effects, vibration effects, changes of colors and relative positions and the like, so that the effects of increasing fun and feeling are achieved. The contraction time, the contraction amplitude, the chamfer radius, the contraction effect and the like can be set in a user-defined mode in the touch terminal. Obviously, when there are cracks having depth information between the polyhedrons, it is also possible to provide other spacers having different shapes from the polyhedrons in the cracks, thereby playing the same role as a cue for switching between the use mode and the icon editing mode.

After the touch terminal enters the icon editing mode from the use mode, the sizes of the polyhedrons separated from the back plate can be the same or different, and a certain spacing distance is kept between the polyhedrons. The 3D application icon may be suspended on a corresponding polyhedron, and the 3D application icon and the icon text may be placed in the middle of the polyhedron and centered in alignment.

Before the touch terminal is in a use mode and the operation body is not in contact with the screen of the touch terminal, the 3D application icon corresponding to the operation body gradually sinks along with the operation body approaching the icon, so that a visual angle effect that the operation body presses the 3D application icon is generated on the visual angle effect; in addition, the icon sinks when the operation body is close to the icon, which is also convenient for the user to know which application program is about to be operated, and is beneficial to reducing misoperation, so that before step S301, the 3D application icon sinks according to the distance between the operation body and the touch terminal screen.

Since it has been described in the foregoing, there are three implementations of the 3D application icon, but only the 3D application icon formed in the manner of the parallax image can be projected out of the screen display of the touch terminal. The display protruding from the touch terminal screen in the embodiment of the invention refers to the display effect of the protruding screen formed after the parallax image is incident on human eyes, and the display effect is the subjective visual effect of a user. Therefore, when executing the sinking processing operation of the 3D application icon according to the distance between the operation body and the touch terminal screen, the sinking processing operation needs to be executed in different manners according to whether the 3D application icon can protrude out of the screen for display.

When the 3D application icon having the stereoscopic effect is formed by using the layering technique or the 3D modeling technique, since the 3D application icon does not always exhibit the display effect of the convex screen, the touch terminal makes the 3D application icon look like being pressed down by some rendering means when detecting that the distance between the operation body and the screen is reduced.

When the 3D application icon is formed by means of the parallax image, a display effect that the 3D application icon protrudes or recedes into the screen may be achieved by adjusting depth information of the 3D application icon, that is, before step S301, the method may further include:

step S304: detecting the distance between the operation body and the screen;

the distance between the operation body and the screen can be detected through a suspension touch sensor arranged in the touch terminal. The floating touch sensor has a maximum sensing distance, and when the distance between the operating body and the screen is greater than the maximum sensing distance of the floating touch sensor, the floating touch sensor cannot sense the distance between the operating body and the screen. Preferably, the maximum sensing distance of the floating touch sensor is greater than the maximum distance of the application icon protruding out of the screen.

Step S305: judging whether the distance between the operation body and the screen is smaller than the maximum distance of the 3D application icon protruding out of the screen, if so, entering the step S306, otherwise, not processing;

and S306, adjusting the distance of the 3D application icon protruding out of the screen to enable the 3D application icon to sink towards the backboard direction.

Preferably, the sinking of the 3D application icon towards the backboard direction includes adjusting a distance that the 3D application icon protrudes from the screen to be equal to a distance between the operating body and the screen. The distance between the 3D application icon and the screen is equal to the distance between the operation body and the screen, namely the operation body touches the 3D application icon, from the perspective effect, the operation body touches the 3D application icon, and the 3D application icon sinks due to being pressed down by the operation body, so that the 3D interaction method has a better 3D interaction effect.

In the process of adjusting the distance between the 3D application icons and the protruding screen, the distances between the protruding screens of all the 3D application icons displayed on the touch terminal user interface may be adjusted first, and then the distance between the protruding screens of the 3D application icons controlled by the operating body may be adjusted separately. Preferably, the distance that the 3D application icon protrudes from the screen may be adjusted to the distance between the operator and the screen, so that the effect of the operator passing through the 3D application icon does not occur. It is understood that, in the process of adjusting the distance that the 3D application icon protrudes from the screen, the size of the 3D application icon in the X-Y direction may also be adjusted at the same time. In addition, in the sinking process of the 3D application icon, the operation body touches different positions of the 3D application icon, and the 3D application icon may also shake to different degrees. In addition, in the process of manipulating the application icon by the operation body, there may be a linkage change process between the selected 3D application icon and the 3D application icon that is not selected by the operation body, for example, after the operation body clicks the 3D application icon, the 3D application icon around the 3D application icon may also change, just like ripples caused by water drops. For example, in the process of shaking, the icons of the application program manipulated by the operation body will also shake the surrounding application icons. When the application icon sinks to the screen, the distance that the application icon protrudes from the screen is 0. And if the operation body is released, highlighting the application icon and opening the corresponding application program. At this time, the touch terminal can also enable the application icon to automatically float upwards, and enable the distance of the application icon protruding out of the screen to be restored to the initial state, so that the user can enable the application icon to keep the original shape when exiting the application program corresponding to the application icon.

In order to make the 3D effect of the 3D application icon better, in the use mode, a projection of the 3D application icon is also displayed on the user interface of the touch terminal screen, and the size or shape of the projection is changed according to time and/or date in combination with a preset change model. Specifically, the present invention places a set of parallel or point light sources at the current time to illuminate the user interface of the touch terminal, so as to generate a projection corresponding to the current time, and the user can determine the current time accordingly, as shown in fig. 7, 8, and 9, which illustrate the variation of the projection of several times, wherein fig. 6 is 12 am, fig. 7 is 13 pm and half pm, and fig. 8 is 3 pm. The time may be a time displayed on the touch terminal or a network time. The application icons on the user interface have different projection changes along with the change of time, so that the expression forms of the application icons are rich and diversified, and the interest of the user interface in displaying the application icons is improved.

(II) icon editing mode

When the touch terminal is in the icon editing mode, all polyhedrons of seamless splicing where the 3D application icons are located shrink and split, and the 3D application icons sink into the space between the screen and the polyhedrons corresponding to the 3D application icons, so that the icon editing mode and the using mode of the touch terminal are obviously different.

In the icon editing mode, the operation types of the operation body include: one or more of a move operation, a screen cut operation, or a shortcut setting operation. When the touch terminal is in the icon editing mode, the current operation type of the operation body may also be determined according to the time information of the operation body contacting the screen and/or the motion track of the operation body, as shown in fig. 10, step S302 further specifically includes:

step S3025: when the time that the operation body contacts the screen is less than a preset second time threshold, judging whether the operation body has a motion track on the screen, if not, entering step S3026, if the motion track exists and the motion track is rapid vertical displacement, entering step S3027, and if the motion track exists and the motion track is rapid horizontal displacement, entering step S3028;

step S3026: determining the current operation type of the operation body as an adsorption icon operation;

step S3027: determining the current operation type of the operation body as a shortcut setting operation;

step S3028: determining the current operation type of the operation body as screen cutting operation;

or, when the operator presses the screen and moves, the operation type is determined to be a moving operation, and step S302 may be further specifically: and when the time for the operating body to contact the screen is greater than a preset second time threshold and the motion trail exists, judging the current operation type of the operating body to be the moving operation.

The second time threshold may be set according to actual conditions, for example: 3 seconds, 5 seconds, etc. The moving operation is used to change the arrangement of the 3D application icons in the user interface, and in this embodiment, the moving operation includes: an icon position replacing operation, an icon position changing operation, a folder creating operation, and an icon deleting operation.

When the touch terminal is in the icon editing mode and the operation type is a moving operation, step S303 is specifically: and when the movement track is moved from the initial position of the 3D application icon currently adsorbed by the operation body to the position above the target icon and stops for a preset time, and the operation body is released, the operation body leaves the screen, and the icon position replacement operation is executed.

Wherein, executing the icon position replacement operation specifically comprises: under the control of the touch terminal, the replaced target icon is extruded and moved to the initial position of the 3D application icon currently adsorbed by the operation body, and the position of the replaced target icon is replaced by the 3D application icon currently adsorbed by the operation body, namely the 3D application icon is controlled to sink to the position of the target icon; or, the replaced target icon sinks into the polyhedron to gradually recede, the replaced target icon gradually appears at the initial position of the 3D application icon currently adsorbed by the operation body, and the 3D application icon currently adsorbed by the operation body replaces the position of the replaced target icon, that is, the 3D application icon is controlled to sink at the position of the target icon.

When the touch terminal is in the icon editing mode and the operation type is a moving operation, step S303 is specifically: and when the motion track is that the operation body moves to the position above a blank polyhedron from the initial position of the 3D application icon currently adsorbed by the operation body and stops for a preset time, releasing the operation body, and at the moment, the operation body leaves the screen to execute the icon position change operation. Wherein, executing the icon position change operation specifically comprises: the 3D application icon currently adsorbed by the operator is sunk to the blank polyhedron as shown in fig. 13.

It can be understood that, in the icon position replacing operation and the icon position changing operation, in order to ensure that the icon can still be directly started when the icon is slid up and down after the icon position is changed, when the icon position replacing operation or the icon position changing operation is executed, the background of the touch terminal needs to change the mapping relationship between the icon sub-level function and the screen position where the icon is located. Specifically, assuming that a mapping relationship is established between the sub-level function of icon 1 and screen position 1 before icon 1 changes its position on the screen, when icon 1 changes from screen position 1 to screen position 2, the sub-level function of icon 1 should remove its mapping relationship with screen position 1 and establish its mapping relationship with screen position 2.

When the touch terminal is in the icon editing mode and the operation type is a moving operation, step S303 is specifically: and when the movement track moves from the initial position of the 3D application icon currently adsorbed by the operating body to the position above another polyhedron with the icon and not above the icon on the polyhedron, executing the operation of creating the folder. The method specifically comprises the following steps of when the folder creating operation is executed: under the control of the touch terminal, the icon above the polyhedron is made small, and the 3D application icon attracted by the operator sinks into the polyhedron and becomes small, and is placed in a newly created folder together with the icon on the polyhedron, as shown in fig. 14. For example: dragging the current 3D application icon to the edge of the polyhedron where another 3D application icon is located, wherein the 3D application icon can be automatically sucked and zoomed together with the original 3D application icon to form a new folder.

When the touch terminal is in the icon editing mode and the operation type is a moving operation, step S303 is specifically: and when the motion track moves from the initial position currently adsorbed by the operation body to the icon deletion position area, executing icon deletion operation. Wherein, executing the icon deleting operation comprises: when the 3D application icon currently being suctioned by the operating body is moved to the edge of the icon deletion position area under the control of the touch terminal, the suctioned 3D application icon is suctioned by the icon deletion position area and disappears, as shown in fig. 15. In this embodiment, the icon deletion position can also display the shredder icon and the deleted typeface, so that the user can conveniently find the icon deletion position area.

When the touch terminal is in the icon editing mode and the operation type is the icon adsorption operation, step S302 may further specifically be:

and floating the 3D application icon adsorbed by the operation body to the screen direction by a preset height. For example: if a 3D application icon is selected by the operator, the 3D application icon and the corresponding polyhedron float upward to approach the backboard, and the positions of the other 3D application icons and the corresponding polyhedrons which are not selected by the operator remain unchanged, and the selected 3D application icon presents a feeling of being sucked by the operator, but the 3D application icon does not protrude out of the screen, as shown in fig. 11. After the operator sucks up the 3D application icon, the operator can slide on the screen at will. When the operator selects a certain position to release and release the 3D application icon, the 3D application icon sinks to return to the initial state when entering the icon editing mode, as shown in fig. 12.

When the touch terminal is in the icon editing mode and the operation type is the shortcut setting operation, step S303 may further specifically be: and generating a corresponding relation between the 3D application icon sub-level function and a preset signal for quickly starting the application program sub-level function. Preferably, generating the pair of relationships comprises: receiving a preset signal for quickly starting the sub-level function of the selected application program input by aiming at the selected 3D application icon, displaying a sub-level function list corresponding to the selected 3D application icon, receiving the sub-level function selected from the sub-level function list, and establishing and storing a corresponding relation between the input preset signal and the selected sub-level function.

The preset signal may be a sliding operation in any sliding direction, such as an upward sliding operation, a downward sliding operation, a leftward sliding operation, a rightward sliding operation, or other sliding operations. In specific operation, a user may perform a sliding operation by pressing and holding a certain 3D application icon and selecting any one of the directions, for example: and the user executes a sliding operation upwards or downwards, namely, a preset signal for quickly starting the selected 3D application sublevel function can be input. And after receiving the preset signal, the touch terminal responds to the received preset signal for quickly starting the sub-level function of the selected application program and displays a sub-level function list corresponding to the icon selected by the sliding operation. And displaying a sub-level function list of the 3D application icon selected by the sliding operation, enabling a user to select a sub-level function from the sub-level function list, and establishing a corresponding relation between the sub-level function and a preset signal after the sub-level function is selected. For example: after the user performs the upward sliding operation on the WeChat icon, a secondary application list of the WeChat icon is displayed, and the secondary application list comprises: and after a scanning sub-level function is selected from the secondary application list, establishing a corresponding relation between the scanning sub-level function and the upward sliding operation, and storing the corresponding relation, wherein the quick start setting is completed at the moment.

It should be noted that: after the sub-level function list is popped up and a user selects a certain sub-level function, that is, after the quick start setting is completed, the response mode of the touch terminal has three modes:

the first method is as follows: once a user selects a certain sub-level function, the current sub-level function list automatically disappears, and the icon editing mode is returned;

the second method is as follows: the user can click on the area where the current sublevel function list is not located, at the moment, the sublevel function list disappears, and the electronic equipment returns to the icon editing mode. In this way, the area where the sub-level function list is located and the area where the non-sub-level function list is located can be distinguished by a shading technique for prompting.

The third is: the user selects a hardware key to return to the icon editing mode; the user can return to the icon editing mode by pressing a hardware key, for example, by pressing a return key (home key).

Further, in order to ensure that each preset signal only corresponds to a sub-level function under a selected application program, when multiple times of quick start setting are performed on the same APP icon, whether coverage relationships exist in the multiple times of setting needs to be considered. For example, if the WeChat icon is slid up for the first time, a quick start mode of shaking the two-level sub-level function is set. If the WeChat icon is set to be the quick starting mode of the second-level application friend circle when the upward sliding operation is performed on the WeChat icon for the second time, the electronic equipment is required to cover the setting of the last time with the setting of the last time, namely, the upward sliding operation of the WeChat icon is set to be the quick starting mode of the second-level sub-level function friend circle, and under the condition, if the upward sliding operation is not covered, system errors can occur to influence user experience. For example, if the WeChat icon is slid up for the first time, the quick start mode of shaking the secondary sub-level function is set, and if the WeChat icon is slid down for the second time, the quick start mode of shaking the secondary sub-level function is set. In this case, the second setting does not need to cover the first setting, so that the user can start the secondary application of shaking when the user executes the up-sliding and down-sliding of the WeChat icon in the use mode. Therefore, the criterion for judging whether the current quick start setting mode covers the previous quick start setting mode is as follows: whether the sliding direction of the current quick start setting mode is consistent with the sliding direction of the previous quick start setting mode or not is judged, and if so, the current quick start setting covers the previous quick start setting; otherwise, it is not covered.

In the embodiment of the invention, the display mode of the touch terminal and the operation information input by the operation body at the touch terminal aiming at the 3D application icon are obtained, the operation type is determined according to the display mode and the operation information, and the operation is carried out according to the operation type, so that the interaction of the 3D application icon is realized, the interaction mode of a user interface is enriched, the user operation experience is improved, and the usability, the flexibility and the enjoyment of the user interface are greatly enhanced.

In fig. 1 to 15, the interaction method of the 3D icon is described in detail, and a touch terminal using the interaction method will be described with reference to fig. 16 to 18.

Referring to fig. 16, fig. 16 is a schematic structural diagram of a touch terminal according to a first embodiment of the present invention. The display mode of the touch terminal comprises a use mode and an icon editing mode, in the use mode, a backboard and a 3D application icon suspended on the backboard are displayed on a user interface of a screen of the touch terminal, and the touch terminal 40 further comprises a detection module 41, a determination module 42 and an execution module 43.

The detection module 41 is configured to detect operation information input by an operator for a 3D application icon on the screen of the touch terminal 40. The determining module 42 determines the current operation type of the operation body according to the detected operation information and the current display mode of the touch terminal. The execution module 43 executes the operation corresponding to the determined operation type on the 3D application icon. In this embodiment, the operation information includes: the method comprises the following steps of obtaining time information of an operation body contacting a screen and/or motion trail information of the operation body on the screen, wherein the time information of the operation body contacting the screen refers to the time length of the operation body contacting the screen, and the motion trail information of the operation body on the screen refers to related information of the operation body contacting the screen and sliding on the screen.

In the embodiment of the invention, the display mode of the touch terminal and the operation information input by the operation body at the touch terminal aiming at the 3D application icon are obtained, the operation type is determined according to the display mode and the operation information, and the operation is carried out according to the operation type, so that the interaction of the 3D application icon is realized, the interaction mode of a user interface is enriched, the user operation experience is improved, and the usability, the flexibility and the enjoyment of the user interface are greatly enhanced.

Referring to fig. 17, fig. 17 is a schematic structural diagram of a touch terminal according to a second embodiment of the present invention. The touch terminal includes a detection module 50, a determination module 51, and an execution module 52.

The detection module 50 is used for detecting operation information input by an operator on a screen of the touch terminal for the 3D application icon. The determining module 51 determines the current operation type of the operation body according to the detected operation information and the current display mode of the touch terminal. The execution module 52 executes the operation corresponding to the determined operation type on the 3D application icon. In this embodiment, the operation information includes: the method comprises the following steps of obtaining time information of an operation body contacting a screen and/or motion trail information of the operation body on the screen, wherein the time information of the operation body contacting the screen refers to the time length of the operation body contacting the screen, and the motion trail information of the operation body on the screen refers to related information of the operation body contacting the screen and sliding on the screen.

In the use mode and the icon editing mode, a user can execute different operations, different operation types are generated by triggering different operations, and the touch terminal responds to different contents according to different operation types.

Mode of use

When the touch terminal is in a use mode, a backboard is displayed on a user interface of a screen of the touch terminal, and the 3D application icons are suspended on the backboard. Furthermore, in order to enable the touch terminal to have a good 3D display effect in the use mode, the 3D application icon may protrude from the screen for display, and the display module is further configured to protrude the 3D application icon from the screen for display in the use mode before the operating body is not in contact with the screen.

In the use mode, the operation types of the operation body include: one or more of click operation, up-down sliding operation, left-right sliding operation, or long-press operation. When the touch terminal is in the use mode, the current operation type of the operation body is determined by the time when the operation body contacts the screen and the motion track of the operation body, and the determination module 51 includes a first judgment unit 510, a first determination unit 511, a second determination unit 512, a third determination unit 513 and a fourth determination unit 514. The first determining unit 510 is configured to determine whether a motion trajectory of the operating body exists on the screen when the time that the operating body contacts the screen is less than a preset first time threshold and the touch terminal is in the use mode. The first determination unit 511 is configured to determine that the current operation type of the operation body is a single-click operation when the first determination unit 510 determines that there is no motion trajectory. The second determining unit 512 is configured to determine that the current operation type of the operation body is a vertical sliding operation when the first determining unit 510 determines that the motion trajectory exists and the motion trajectory is a fast vertical displacement operation. The third determination unit 513 determines that there is a movement trajectory and the movement trajectory is a fast left-right shift operation at the first determination unit 510, and determines that the current operation type of the operation body is a left-right slide operation. The first determining unit 510 is further configured to determine whether a motion track exists on the screen of the operating body when the time that the operating body contacts the screen is greater than or equal to a preset first time threshold and the touch terminal is in the use mode; the fourth determining unit 514 is configured to determine that the current operation type of the operation body is the long press operation when the first determining unit 510 determines that the operation body has the motion trajectory.

The execution module 52 includes a first execution unit 521, a second execution unit 522, a third execution unit 523, and a fourth execution unit 524.

And a first execution unit 521 for executing launching of the application corresponding to the 3D application icon when the touch terminal is in the use mode and the operation type is a single-click operation.

The second execution unit 522 is configured to execute the function of starting the sub-level corresponding to the 3D application icon when the touch terminal is in the use mode and the operation type is the up-down sliding operation. Further, after the sub-level function is started, the sub-level function may be displayed in the original position of the 3D application icon, and it is not necessary to enter the sub-level function, so that it is very convenient, then the second execution unit 522 may further specifically display an icon corresponding to the sub-level function to prompt the currently started sub-level function, start the sub-level function, and display a user interface of the sub-level function.

The third performing unit 523 is configured to perform a screen switching operation when the touch terminal is in the use mode and the operation type is a slide left-right operation.

The fourth execution unit 524 is configured to execute an operation of switching the touch terminal to the icon editing mode when the touch terminal is in the use mode and the operation type is a long press operation. In order to make the 3D display effect of the touch terminal better, in the icon editing mode, the back panel is split, and the 3D application icons are respectively shrunk, and then the fourth executing unit 524 may further specifically be: and splitting the back panel into a plurality of polyhedrons, and respectively shrinking and sinking the 3D application icons to the corresponding polyhedrons. The polyhedrons are separated by the split identifier, which is a split line with depth information in this embodiment, so that the separation between the polyhedrons is more significant.

Further, the present invention can simulate a 3D effect of pressing a 3D application icon in a simulation mode, and the touch terminal 50 further includes an adjusting module 53.

The detection module 50 is also used for detecting the distance between the operation body and the screen. The adjusting module 53 is configured to adjust a distance that the 3D application icon protrudes from the screen when the distance between the operation body and the screen is smaller than a maximum distance that the 3D application icon protrudes from the screen, so that the 3D application icon sinks toward the backboard. In the process that the 3D application icon sinks towards the backboard direction, the distance that the 3D application icon protrudes from the screen is kept equal to the distance between the operation body and the screen, so that from the perspective effect, the 3D application icon sinks due to the operation body being pressed down, and then the adjusting module 53 is specifically configured to adjust the distance that the 3D application icon protrudes from the screen to be equal to the distance between the operation body and the screen.

In order to make the 3D effect better, in the use mode, a projection of an icon is also displayed on the back plate, wherein the size or shape of the projection is changed according to time and/or date in combination with a preset change model.

(II) icon editing mode

The back panel is formed by combining a plurality of polyhedrons, in a use mode, the display module is used for enabling the polyhedrons to be seamlessly spliced to form the back panel, and the 3D application icons are suspended on the corresponding polyhedrons; in the icon editing mode, the back panel is split into a plurality of polyhedrons, and the 3D application icons are respectively contracted and sunk in the space between the screen and the corresponding polyhedron, so that the touch terminal has obvious distinguishing characteristics in the using mode and the icon editing mode.

In the icon editing mode, the operation types of the operation body include: one or more of a move operation, a screen cut operation, or a shortcut setting operation. When the touch terminal is in the icon editing mode, the current operation type of the operator can also be determined by the time when the operator touches the screen and the motion track of the operator, and then the determining module 51 includes a second judging unit 515, a fifth determining unit 516, a sixth determining unit 517, a seventh determining unit 518, and an eighth determining unit 519.

The second judging unit 515 is configured to judge whether a motion trajectory of the operation body exists on the screen when the time for the operation body to contact the screen is less than a preset second time threshold and the touch terminal is in the icon editing mode. The fifth determining unit 516 is configured to determine that the current operation type of the operation body is the icon adsorption operation when the second judging unit 515 judges that there is no motion trajectory. The sixth determining unit 517 is configured to determine that the current operation type of the operation body is the shortcut setting operation when the second determining unit 515 determines that the motion trajectory exists and the motion trajectory is the fast vertical displacement operation. The seventh determining unit 518 is configured to determine that the motion trajectory exists and the motion trajectory is a fast left-right displacement operation in the second determining unit 515, and determine that the current operation type of the operation body is a screen-cut operation. The second judging unit is also used for judging whether the motion trail exists on the screen of the operation body when the time for the operation body to contact the screen is greater than a preset second time threshold; the eighth determining unit 519 is configured to determine that the current operation type of the operation body is a moving operation when the operation body has a motion trajectory on the screen and the touch terminal is in the icon editing mode.

The 3D application icon arrangement in the user interface may be changed by a move operation, which in this embodiment includes: an icon position replacing operation, an icon position changing operation, a folder creating operation, and an icon deleting operation. The execution module 52 includes a fifth execution unit 525, a sixth execution unit 526, a seventh execution unit 528, and an eighth execution unit 529.

The fifth execution unit 525 is configured to execute an icon position replacement operation when the movement trajectory is from the initial position of the 3D application icon currently being adsorbed by the operation body to a position above another target icon and stops for a predetermined time, and when the operation body is released or leaves the screen. When the 3D application icon currently adsorbed by the operating body moves from the initial position to the position above the replaced target icon, the replaced target icon is extruded and moves to the initial position of the 3D application icon currently adsorbed by the operating body, and the 3D application icon currently adsorbed by the operating body sinks to the position of the replaced target icon to realize position exchange with the replaced target icon; or, when the 3D application icon currently adsorbed by the operator moves from its initial position to above the replaced target icon, the replaced target icon sinks gradually receding and sinks into the polyhedron, and the replaced target icon gradually appears at the initial position of the 3D application icon currently adsorbed by the operator. And the 3D application icon currently adsorbed by the operation body sinks to the position of the replaced target icon to replace the replaced target icon, and the position of the replaced target icon are interchanged.

The sixth executing unit 526 is configured to, when the movement trajectory is that the operating body is released after moving from the initial position of the 3D application icon currently being adsorbed by the operating body to above a blank polyhedron and pausing for a predetermined time, and at this time, the operating body leaves the screen, perform an icon position changing operation. Executing icon position change operation, including: when the 3D application icon currently adsorbed by the operation body moves from the initial position to above the blank polyhedron and the operation body leaves the screen, the 3D application icon adsorbed by the operation body sinks to the blank polyhedron.

The seventh execution unit 527 is configured to, when the movement trajectory is that the operator moves from the initial position of the currently adsorbed 3D application icon to a position above another polygon having the icon and not above the icon on the polygon, at which time the operator leaves the screen, perform a create folder operation. The method specifically comprises the following steps of when the folder creating operation is executed: when the 3D application icon currently adsorbed by the operating body moves from the initial position to the position above another polyhedron with the icon above and not above the icon on the polyhedron, the icon above the polyhedron becomes smaller, and the 3D application icon adsorbed by the operating body sinks into the polyhedron and becomes smaller, and is placed in a newly created folder together with the icon on the polyhedron.

The eighth executing unit 528 is configured to execute an icon deletion operation when the motion trajectory is that the operator moves from the initial position of the currently-adsorbed 3D application icon to the icon deletion position area. Wherein, executing the icon deleting operation comprises: when the 3D application icon currently being suctioned by the operator is moved to the edge of the icon deletion position area, the suctioned 3D application icon is suctioned by the icon deletion position area and disappears. In this embodiment, the icon deletion position can also display the shredder icon and the deleted typeface, so that the user can conveniently find the icon deletion position area.

When the touch terminal is in the icon editing mode and the operation type is the icon adsorption operation, the executing module 52 may further specifically be: and enabling the touched and pressed 3D application icon to float upwards to the screen by a preset height. When the touch terminal is in the icon editing mode and the operation type is the shortcut setting operation, the executing module 52 may further specifically be: and generating a corresponding relation between the 3D application icon sub-level function and a preset signal for quickly starting the application program sub-level function. Preferably, generating the pair of relationships comprises: receiving a preset signal for quickly starting the sub-level function of the selected application program input by aiming at the selected 3D application icon, displaying a sub-level function list corresponding to the selected 3D application icon, receiving the sub-level function selected from the sub-level function list, and establishing and storing a corresponding relation between the input preset signal and the selected sub-level function.

In the embodiment of the invention, the display mode of the touch terminal and the operation information input by the operation body at the touch terminal aiming at the 3D application icon are obtained, the operation type is determined according to the display mode and the operation information, and the operation is carried out according to the operation type, so that the interaction of the 3D application icon is realized, the interaction mode of a user interface is enriched, the user operation experience is improved, and the usability, the flexibility and the enjoyment of the user interface are greatly enhanced.

Referring to fig. 18, fig. 18 is a schematic structural diagram of a touch terminal according to a third embodiment of the present invention, where the touch terminal includes a processor 601, a screen 602, and a bus 603. The processor 601 and the screen 602 are both connected to a bus 603.

The display modes of the touch terminal 60 include a use mode in which a backplane and 3D application icons suspended from the backplane are displayed on the user interface of the screen 602 of the touch terminal 60, and an icon editing mode. The processor 601 is used for detecting operation information input by an operator on a screen of the touch terminal aiming at the 3D application icon; determining the current operation type of the operation body according to the detected operation information and the current display mode of the touch terminal; and executing the operation corresponding to the determined operation type on the 3D application icon.

In the use mode and before the operation body contacts with the screen of the touch terminal, the 3D application icon protrudes from the screen for display. At this time, the processor 601 is further configured to detect a distance between the operation body and the screen 602, and if the distance between the operation body and the screen 602 is smaller than a maximum distance at which the 3D application icon protrudes from the screen 602, adjust the distance at which the 3D application icon protrudes from the screen 602, so that the 3D application icon sinks toward the back panel.

Of course, the processor 601 may also perform other operations, so that the touch terminal 60 may also perform other functions, and for the other operations performed by the processor 601, reference may be made to the touch terminal embodiment, which is not described herein again.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (24)

1. The 3D application icon interaction method applied to the touch terminal is characterized in that the display mode of the touch terminal comprises a use mode and an icon editing mode, a backboard and a 3D application icon suspended on the backboard are displayed on a user interface of a screen of the touch terminal in the use mode, and the backboard is formed by combining a plurality of polyhedrons; the 3D application icon is formed in a mode of adopting a parallax image to form the 3D application icon, or a 3D modeling mode is adopted to form the 3D application icon, or a layering technology mode is adopted to form the 3D application icon which is seen to have a three-dimensional effect;

the method comprises the following steps:

detecting operation information input by an operator on the touch terminal screen aiming at the 3D application icon;

determining the current operation type of the operation body according to the detected operation information and the current display mode of the touch terminal;

executing the operation corresponding to the determined operation type on the 3D application icon, wherein when the touch terminal is in an icon editing mode and the operation type is a shortcut setting operation, executing the operation corresponding to the determined operation type on the 3D application icon comprises:

receiving a preset signal for quickly starting a sub-level function of a selected application program input by aiming at the 3D application icon;

displaying a sub-level function list corresponding to the 3D application icon;

and receiving the selected sub-level function from the sub-level function list, and establishing and storing the corresponding relation between the input preset signal and the selected sub-level function.

2. The method of claim 1,

in a use mode and when the operator does not contact the screen, the 3D application icon protrudes from the screen for display, the method further comprising:

detecting a distance between the operation body and the screen;

and if the distance between the operation body and the screen is smaller than the maximum distance of the 3D application icon protruding out of the screen, adjusting the distance of the 3D application icon protruding out of the screen, and enabling the 3D application icon to sink towards the direction of the back plate.

3. The method of claim 2, wherein the adjusting the distance that the 3D application icon protrudes from the screen to make the 3D application icon sink toward the backboard comprises:

and adjusting the distance of the 3D application icon protruding out of the screen to be the distance between the operation body and the screen.

4. The method of claim 1, wherein in the use mode, the plurality of polyhedrons are seamlessly stitched to form the backplane; in the icon editing mode, the backboard is split into a plurality of polyhedrons, and the 3D application icon is located between the screen and the polyhedron corresponding to the 3D application icon.

5. The method of claim 4, wherein in the use mode, the operation type of the operation body comprises: one or more of click operation, up-down sliding operation, left-right sliding operation, or long-press operation.

6. The method according to claim 4, wherein in the icon editing mode, the operation types of the operation body include: one or more of a move operation, a screen cut operation, or a shortcut setting operation.

7. The method according to claim 5 or 6, wherein the operation information comprises:

and the time information of the contact of the operating body with the screen and/or the motion trail information of the operating body on the screen.

8. The method according to claim 7, wherein when the touch terminal is in a use mode, the determining the current operation type of the operation body according to the detected operation information and the display mode in which the touch terminal is currently located comprises:

when the time that an operating body contacts a screen is less than a preset first time threshold, judging whether the operating body has a motion track on the screen, and if the motion track does not exist, determining that the current operation type of the operating body is single-click operation; if the motion trail exists and the motion trail is rapid up-down displacement, determining that the current operation type of the operation body is up-down sliding operation; if the motion trail exists and the motion trail is rapid left-right displacement, determining that the current operation type of the operation body is left-right sliding operation;

alternatively, the first and second electrodes may be,

and when the time that the operation body contacts the screen is greater than or equal to a preset first time threshold and the operation body does not have a motion track on the screen, determining that the current operation type of the operation body is long-press operation.

9. The method according to claim 8, wherein when the touch terminal is in a use mode, performing an operation corresponding to the determined operation type on the 3D application icon includes:

when the operation type is single-click operation, executing and shaking the 3D application icon, and starting the operation of the corresponding application; alternatively, the first and second electrodes may be,

when the operation type is the up-down sliding operation, executing the operation of starting the 3D application icon sub-level function; alternatively, the first and second electrodes may be,

when the operation type is a left-right sliding operation, executing screen switching operation; alternatively, the first and second electrodes may be,

and when the operation type is long-press operation, executing the operation of switching the touch terminal to the icon editing mode.

10. The method of claim 9, wherein the performing the operation of launching the 3D application icon sub-level function comprises:

turning a polyhedron corresponding to the 3D application icon along a sliding direction;

displaying an icon corresponding to the sub-level function on the other surface of the polyhedron to prompt the currently started sub-level function;

and starting the sub-level function and displaying a user interface of the sub-level function.

11. The method according to claim 9, wherein the performing of the operation of switching the touch terminal to the icon editing mode includes:

splitting the back plate into a plurality of polyhedrons;

and shrinking and sinking the 3D application icon between the screen and a polyhedron corresponding to the 3D application icon.

12. The method of claim 11, wherein the plurality of polyhedrons are separated by a split identifier.

13. The method of claim 12, wherein the split identifier is a split line with depth information.

14. The method according to claim 7, wherein when the touch terminal is in an icon editing mode, the determining the current operation type of the operation body according to the detected operation information and the display mode in which the touch terminal is currently located comprises:

when the time for the operating body to contact the screen is less than a preset second time threshold, judging whether a motion track exists on the screen of the operating body, and if the motion track does not exist, determining that the current operation type of the operating body is icon adsorption operation; if the motion trail exists and the motion trail is rapid left-right displacement, the current operation type of the operation body is determined to be screen switching operation;

alternatively, the first and second electrodes may be,

and when the time for the operating body to contact the screen is greater than a preset second time threshold and the motion track of the operating body exists, determining that the current operation type of the operating body is a moving operation.

15. The method of claim 14, wherein the moving operation comprises: icon position replacement operation, icon position change operation, folder creation operation and icon deletion operation;

when the touch terminal is in an icon editing mode and the operation type is a mobile operation, executing an operation corresponding to the determined operation type on the 3D application icon, including:

when the motion trail is that the motion trail stops for a preset time from the initial position of the 3D application icon currently adsorbed by the operation body to the position above the target icon, executing icon position replacement operation; or the like, or, alternatively,

when the motion trail moves from the initial position of the 3D application icon currently adsorbed by the operation body to the position above the blank polyhedron and stops for a preset time, executing icon position change operation; or the like, or, alternatively,

when the movement track moves from the initial position of the 3D application icon currently adsorbed by the operation body to the position above another polyhedron with icons and not above the icons on the polyhedron, executing a folder creating operation; or the like, or, alternatively,

and when the motion trail moves from the initial position of the 3D application icon currently adsorbed by the operation body to the icon deletion position area, executing icon deletion operation.

16. The method according to claim 15, wherein the performing the icon position replacement operation specifically includes:

causing the target icon to be extruded and moved to an initial position of the 3D application icon, and causing the 3D application icon to sink to a position of the target icon; alternatively, the first and second electrodes may be,

and controlling the target icon to gradually hide and sink into the corresponding polyhedron of the target icon, and gradually showing the target icon at the initial position of the 3D application icon, so that the 3D application icon sinks to the position of the target icon.

17. The method according to claim 15, wherein the performing an icon position change operation specifically includes:

sinking the 3D application icon to the blank polyhedron.

18. The method according to claim 15, wherein the executing the delete icon operation specifically includes:

and controlling the 3D application icon to be sucked by the icon deletion position area.

19. The method according to claim 15, wherein when performing the folder creation operation, the method specifically comprises:

and the icon on the other polyhedron is reduced, and the 3D application icon sinks to the other polyhedron and is reduced, and is positioned in a newly created folder together with the icon on the other polyhedron.

20. The method according to claim 14, wherein when the touch terminal is in an icon editing mode and the operation type is an icon adsorption operation, performing an operation corresponding to the determined operation type on the 3D application icon includes:

and enabling the 3D application icon to float upwards to the screen direction by a preset height.

21. The method of claim 20, further comprising:

in a use mode, a projection of the 3D application icon is displayed on the user interface.

22. A touch terminal is characterized in that the display mode of the touch terminal comprises a use mode and an icon editing mode; in a use mode, a backboard and a 3D application icon suspended on the backboard are displayed on a user interface of the touch terminal screen, and the backboard is formed by combining a plurality of polyhedrons; the 3D application icon is formed in a mode of adopting a parallax image to form the 3D application icon, or a 3D modeling mode is adopted to form the 3D application icon, or a layering technology mode is adopted to form the 3D application icon which is seen to have a three-dimensional effect; the touch terminal further includes:

the detection module is used for detecting operation information input by an operation body on the touch terminal screen aiming at the 3D application icon;

the determining module is used for determining the current operation type of the operation body according to the detected operation information and the current display mode of the touch terminal;

an execution module, configured to execute an operation corresponding to the determined operation type on the 3D application icon, where when the touch terminal is in an icon editing mode and the operation type is a shortcut setting operation, the execution module executes the operation corresponding to the determined operation type on the 3D application icon, including:

receiving a preset signal for quickly starting a sub-level function of a selected application program input by aiming at the 3D application icon;

displaying a sub-level function list corresponding to the 3D application icon;

and receiving the selected sub-level function from the sub-level function list, and establishing and storing the corresponding relation between the input preset signal and the selected sub-level function.

23. The touch terminal of claim 22, wherein the back plate is assembled from a plurality of polyhedrons; in the use mode, the plurality of polyhedrons are seamlessly spliced to form the back plate; in the icon editing mode, the backboard is split into a plurality of polyhedrons, and the 3D application icon is located between the screen and the polyhedron corresponding to the 3D application icon.

24. The touch terminal is characterized by comprising a processor, a screen and a bus, wherein the processor and the screen are connected with the bus; the display mode of the touch terminal comprises a use mode and an icon editing mode; in a use mode, a backboard and a 3D application icon suspended on the backboard are displayed on a user interface of the touch terminal screen; the back plate is formed by combining a plurality of polyhedrons; the 3D application icon is formed in a mode of adopting a parallax image to form the 3D application icon, or a 3D modeling mode is adopted to form the 3D application icon, or a layering technology mode is adopted to form the 3D application icon which is seen to have a three-dimensional effect;

the processor is configured to detect operation information input by an operator on the screen for the 3D application icon, determine a current operation type of the operator according to the detected operation information and a display mode in which the touch terminal is currently located, and execute an operation corresponding to the determined operation type on the 3D application icon, where when the touch terminal is in an icon editing mode and the operation type is a shortcut setting operation, the executing the operation corresponding to the determined operation type on the 3D application icon includes:

receiving a preset signal for quickly starting a sub-level function of a selected application program input by aiming at the 3D application icon;

displaying a sub-level function list corresponding to the 3D application icon;

and receiving the selected sub-level function from the sub-level function list, and establishing and storing the corresponding relation between the input preset signal and the selected sub-level function.

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