CN104216602A - Method and system for controlling slider - Google Patents

Abstract

The invention belongs to the field of graphical interfaces, and discloses a method and system for controlling a slider. The method for controlling the slider comprises the steps that a first user behavior is detected, the first user behavior shows activation of a rotary mode, the rotary mode comprises displaying of a first slider bar, the included angle between the first slider bar and a second slider bar is larger than zero degree, and the second slider bar is displayed before entering in the rotary mode; the first slider bar is displayed by responding to the first detected user behavior; the slider is made to slide along the first slider bar. According to the technical scheme, the slider can automatically slide along the inclined slider bars by inclining the slider bars through a user, and the situation that the slider is visually blocked due to the fact that the user drags the slider with the fingers is avoided.

Description

A kind of method and system for controlling slide block

Technical field

The present invention relates to graphical interfaces field, more specifically, relating to a kind of method and system for controlling slide block.

Background technology

Along with constantly popularizing of touch panel device, the various application with slide block and slider bar gets more and more.Such as, usually all use slide block and slider bar to operate in media player, choose specific time point to play video or audio frequency to facilitate user.Also the application of some e-book reading also adopts slide block and slider bar to operate.

But all there is the problem that slide block is difficult to precise positioning in these application.Still for the media player on touch panel device, user wishes to see video from the time point of 1 hour 5 minutes, and user just needs to press...with one's finger slide block, is decontroled the position that slide block drags to hope along slider bar again.User just needs repeatedly to pull the trial of unclamping slide block could be allowed to be positioned at the position of 1 hour 5 minutes accurately under normal circumstances.

For touch panel device, the awkward reason of above-mentioned user is caused to be: the finger tip area ratio slide block area of user is large, in sliding process, finger tip can block the display position of slide block in slider bar, user cannot receive visual feedback perception slide block in time and be in what particular location, and due to finger tip and touch screen contact area comparatively conference cause slip granularity larger.Particularly in the mobile device that screen is less, the situation that slider bar is shorter, granularity is larger, the more difficult precise positioning slide block of user.

Summary of the invention

The conveniently accurate positioning sliding block of user, embodiments provides a kind of method and system for controlling slide block.

According to an aspect of the present invention, provide a kind of method for controlling slide block, described method comprises: detect first user behavior, the activation of described first user behavior representation rotary mode, described rotary mode comprises display first slider bar, angle between described first slider bar and the second slider bar is greater than 0 degree, described second slider bar be enter rotary mode before the slider bar that shows; In response to described first user behavior being detected, show described first slider bar; Slide block is slided along described first slider bar.

According to another aspect of the present invention, provide a kind of system for controlling slide block, described system comprises: first detection module, be configured to detect first user behavior, the activation of described first user behavior representation rotary mode, described rotary mode comprises display first slider bar, and the angle between described first slider bar and the second slider bar is greater than 0 degree, described second slider bar be enter rotary mode before the slider bar that shows; Rotation-activated module, is configured to, in response to described first user behavior being detected, show described first slider bar; Sliding block, is configured such that slide block slides along described first slider bar.

Technical scheme provided by the present invention can positioning sliding block comparatively accurately, and makes the visual feedback of slide position unaffected.

Accompanying drawing explanation

In conjunction with the drawings disclosure illustrative embodiments is described in more detail, above-mentioned and other object of the present disclosure, Characteristics and advantages will become more obvious, wherein, in disclosure illustrative embodiments, identical reference number represents same parts usually.

Fig. 1 shows the block diagram of the exemplary computer system/server 12 be suitable for for realizing embodiment of the present invention;

Fig. 2 shows the schematic flow sheet of a kind of method for controlling slide block of the embodiment of the present invention;

Fig. 3 shows a kind of concrete user interface schematic diagram of the embodiment of the present invention;

Fig. 4 shows the structural representation of a kind of system for controlling slide block of the embodiment of the present invention;

It is another kind of for controlling the structural representation of the system of slide block that Fig. 5 shows the embodiment of the present invention.

Embodiment

Below with reference to accompanying drawings preferred implementation of the present disclosure is described in more detail.Although show preferred implementation of the present disclosure in accompanying drawing, but should be appreciated that, the disclosure can be realized in a variety of manners and not should limit by the embodiment of setting forth here.On the contrary, provide these embodiments to be to make the disclosure more thorough and complete, and complete for the scope of the present disclosure can be conveyed to those skilled in the art.

Person of ordinary skill in the field knows, the present invention can be implemented as system, method or computer program.Therefore, the disclosure can be implemented as following form, that is: can be completely hardware, also can be software (comprising firmware, resident software, microcode etc.) completely, can also be the form that hardware and software combines, be commonly referred to as " circuit ", " module " or " system " herein.In addition, in certain embodiments, the present invention can also be embodied as the form of the computer program in one or more computer-readable medium, comprises computer-readable program code in this computer-readable medium.

The combination in any of one or more computer-readable medium can be adopted.Computer-readable medium can be computer-readable signal media or computer-readable recording medium.Computer-readable recording medium such as may be-but not limited to-the system of electricity, magnetic, optical, electrical magnetic, infrared ray or semiconductor, device or device, or combination above arbitrarily.The example more specifically (non exhaustive list) of computer-readable recording medium comprises: the combination with the electrical connection of one or more wire, portable computer diskette, hard disk, random access memory (RAM), ROM (read-only memory) (ROM), erasable type programmable read only memory (EPROM or flash memory), optical fiber, Portable, compact disk ROM (read-only memory) (CD-ROM), light storage device, magnetic memory device or above-mentioned any appropriate.In this document, computer-readable recording medium can be any comprising or stored program tangible medium, and this program can be used by instruction execution system, device or device or be combined with it.

The data-signal that computer-readable signal media can comprise in a base band or propagate as a carrier wave part, wherein carries computer-readable program code.The data-signal of this propagation can adopt various ways, comprises the combination of---but being not limited to---electromagnetic signal, light signal or above-mentioned any appropriate.Computer-readable signal media can also be any computer-readable medium beyond computer-readable recording medium, and this computer-readable medium can send, propagates or transmit the program for being used by instruction execution system, device or device or be combined with it.

The program code that computer-readable medium comprises can with any suitable medium transmission, comprises that---but being not limited to---is wireless, electric wire, optical cable, RF etc., or the combination of above-mentioned any appropriate.

The computer program code operated for performing the present invention can be write with one or more programming languages or its combination, described programming language comprises object oriented program language-such as Java, Smalltalk, C++, also comprises conventional process type programming language-such as " C " language or similar programming language.Program code can fully perform on the user computer, partly perform on the user computer, as one, independently software package performs, partly part performs on the remote computer or performs on remote computer or server completely on the user computer.In the situation relating to remote computer, remote computer can by the network of any kind---comprise LAN (Local Area Network) (LAN) or wide area network (WAN)-be connected to subscriber computer, or, outer computer (such as utilizing ISP to pass through Internet connection) can be connected to.

Below with reference to the process flow diagram of the method for the embodiment of the present invention, device (system) and computer program and/or block diagram, the present invention is described.Should be appreciated that the combination of each square frame in each square frame of process flow diagram and/or block diagram and process flow diagram and/or block diagram, can be realized by computer program instructions.These computer programs capture the processor that can be supplied to multi-purpose computer, special purpose computer or other programmable data treating apparatus, thus produce a kind of machine, these computer program instructions are performed by computing machine or other programmable data treating apparatus, create the device of the function/operation specified in the square frame in realization flow figure and/or block diagram.

Also can these computer program instructions be stored in the computer-readable medium that computing machine or other programmable data treating apparatus can be made to work in a specific way, like this, the instruction be stored in computer-readable medium just produces the manufacture (manufacture) of the command device (instruction means) of the function/operation specified in a square frame comprising in realization flow figure and/or block diagram.

Also can computer program instructions be loaded on computing machine, other programmable data treating apparatus or miscellaneous equipment, make to perform sequence of operations step on computing machine, other programmable data treating apparatus or miscellaneous equipment, to produce computer implemented process, thus make the instruction performed on computing machine or other programmable device can provide the process of the function/operation specified in the square frame in realization flow figure and/or block diagram.

Fig. 1 shows the block diagram of the exemplary computer system/server 12 be suitable for for realizing embodiment of the present invention.The computer system/server 12 of Fig. 1 display is only an example, should not bring any restriction to the function of the embodiment of the present invention and usable range.

As shown in Figure 1, computer system/server 12 shows with the form of universal computing device.The assembly of computer system/server 12 can include but not limited to: one or more processor or processing unit 16, system storage 28, connects the bus 18 of different system assembly (comprising system storage 28 and processing unit 16).

Bus 18 represent in a few class bus structure one or more, comprise memory bus or Memory Controller, peripheral bus, AGP, processor or use any bus-structured local bus in multiple bus structure.For example, these architectures include but not limited to industry standard architecture (ISA) bus, MCA (MAC) bus, enhancement mode isa bus, VESA's (VESA) local bus and periphery component interconnection (PCI) bus.

Computer system/server 12 typically comprises various computing systems computer-readable recording medium.These media can be any usable mediums can accessed by computer system/server 12, comprise volatibility and non-volatile media, moveable and immovable medium.

System storage 28 can comprise the computer system-readable medium of volatile memory form, such as random access memory (RAM) 30 and/or cache memory 32.Computer system/server 12 may further include that other is removable/immovable, volatile/non-volatile computer system storage medium.Only as an example, storage system 34 may be used for reading and writing immovable, non-volatile magnetic media (Fig. 1 does not show, and is commonly referred to " hard disk drive ").Although not shown in Fig. 1, the disc driver that removable non-volatile magnetic disk (such as " floppy disk ") is read and write can be provided for, and to the CD drive that removable anonvolatile optical disk (such as CD-ROM, DVD-ROM or other light medium) is read and write.In these cases, each driver can be connected with bus 18 by one or more data media interfaces.Storer 28 can comprise at least one program product, and this program product has one group of (such as at least one) program module, and these program modules are configured to the function performing various embodiments of the present invention.

There is the program/utility 40 of one group of (at least one) program module 42, can be stored in such as storer 28, such program module 42 comprises---but being not limited to---operating system, one or more application program, other program module and routine data, may comprise the realization of network environment in each or certain combination in these examples.Function in program module 42 embodiment that execution is described in the invention usually and/or method.

Computer system/server 12 also can communicate with one or more external unit 14 (such as keyboard, sensing equipment, display 24 etc.), also can make with one or more devices communicating that user can be mutual with this computer system/server 12, and/or communicate with any equipment (such as network interface card, modulator-demodular unit etc.) making this computer system/server 12 can carry out communicating with other computing equipment one or more.This communication can be passed through I/O (I/O) interface 22 and carry out.Further, computer system/server 12 can also such as, be communicated by network adapter 20 and one or more network (such as LAN (Local Area Network) (LAN), wide area network (WAN) and/or public network, the Internet).As shown in the figure, network adapter 20 is by bus 18 other module communication with computer system/server 12.Be understood that, although not shown, other hardware and/or software module can be used in conjunction with computer system/server 12, include but not limited to: microcode, device driver, redundant processing unit, external disk drive array, RAID system, tape drive and data backup storage system etc.

Referring now to Fig. 2, Fig. 2, show a kind of method for controlling slide block that the embodiment of the present invention provides.Step 210, detects first user behavior, the activation of described first user behavior representation rotary mode; In response to detecting that this first user behavior then enters step 220; Step 220, shows the first slider bar; Step 230, makes slide block slide along described first slider bar.In the present embodiment, rotary mode comprises display first slider bar, and the angle between the first slider bar and the second slider bar is greater than 0 degree, the second slider bar be enter rotary mode before the slider bar that shows.In the present embodiment, the first slider bar and the second slider bar can show simultaneously, also just no longer can show the second slider bar when display the first slider bar.In specific implementation, the first slider bar and the second slider bar can be objects, and the angle that also namely the second slider bar can be tilted forms the first slider bar.

The method provided embodiment illustrated in fig. 2 can avoid user's pulling for slide block, and slide block can slide automatically along the slider bar that have rotated certain angle.Because user no longer needs to pull slide block, also can not there is slide block and blocked by finger and affect the problem of the visual feedback of slide position.Which concrete application is various embodiments of the present invention do not limit slide block and slider bar for.Such as, can be the application in video playback, help user and accurately locate the content play sometime, also can be the application in audio frequency or other multimedias, or can also be the application etc. in electronic reading.

Referring to Fig. 3, detailed illustrating is carried out to the embodiment shown in Fig. 2.

In step 210, first user behavior can be user by two fingers by keeping a period of time on any two points of the second slider bar 320.The present invention does not limit the embodiment of first user behavior, as long as the behavior activating rotary mode both can in pre-set representing.Such as, first user behavior can also be user one finger by keeping a period of time or by certain specific position in slider bar.And for non-touch screen equipment, first user behavior can be that mouse is moved on to a certain position in slider bar and pins left button or right button keeps a period of time etc. by user.In addition, first user behavior can also be the confirmation for prompting, and such as user answers "Yes" for prompting " whether entering rotary mode ", or clicks the button of " entering rotary mode ".No longer enumerate more first user behavior herein.The present invention does not limit the concrete form of the second slider bar 320, such as horizontal positioned or vertically place, for straight line or be curve etc.

In a step 220, the first slider bar 310 and the second slider bar 320 can be identical shapes also can be different shapes.Such as, the second slider bar 320 is for curve and the first slider bar 310 is straight line.The present invention does not limit the particular location that the first slider bar 310 shows, near the position that may be displayed on the second slider bar 320, and also can away from the second slider bar 320.Further, after showing the first slider bar 310, still can keep the display of the second slider bar 320, also no longer can show the second slider bar 320.If the first slider bar 310 is away from the second slider bar 320, then this angle is the angle of the first slider bar 310 or its extended line and the second slider bar 320 or its extended line.A kind of implementation of step 220 is that the second slider bar 320 is rotated an angle as the first slider bar 310, and the angle of this rotation is the angle between the first slider bar 310 and the second slider bar 320.For convenience, following examples are all straight line with the first slider bar 310 and the second slider bar 320, and the second slider bar 320 is horizontal, and the first slider bar 310 and the second slider bar 320 have intersection point to be that example is described.

In step 230, slide block 330 can along the first slider bar 310 from line slip.

In the present embodiment, by slide block from line slip, user can be avoided to pull the problems such as the inaccurate and inconvenient operation in the location caused to slide block, and visually can not to be blocked by any slide block, the visual feedback of slide position is very direct.

In an embodiment of the present invention, the embodiment shown in Fig. 2 can also comprise step: the sliding speed determining described slide block.Wherein sliding speed is relevant with the angle between the first slider bar and the second slider bar.Now, step 230 can be specifically embodied as according to the sliding speed determined along the first slider bar sliding slider.Such as, conveniently user adjusts the sliding speed of slide block, can set the larger then sliding speed of this angle faster.Such as this sliding speed can be the function about angle again, also be v=f (α) × v0, wherein v0 is the original sliding speed of slide block or a default value, and v is the sliding speed after entering rotary mode, and α is the angle between the first slider bar and the second slider bar.Illustrate, v=1/60 ° × α × vi.In the present embodiment, sliding speed is relevant with angle, simply and intuitively can adjust the sliding speed of slide block for user, so as in shorter time the position of positioning sliding block more accurately.Further, the sliding speed adjusting slide block by adjustment angle can be avoided pulling by finger the sliding speed adjusting slide block, thus can not there is finger and block slide block is visual.

In one embodiment of the invention, method as shown in Figure 2 can also comprise: the 4th user behavior detecting user, and described 4th user's behavior representation changes the angle between described first slider bar and described second slider bar; In response to described 4th user behavior being detected, change the angle between described first slider bar and described second slider bar.The present invention does not limit the embodiment of the 4th user behavior.Such as the 4th user behavior can be user after entering rotary mode, do not decontrol hand, continue the slider bar of rotational display.Or the 4th user behavior can be user after entering rotary mode, put and on some positions of slider bar, it rotated.

In an embodiment of the present invention, the step 230 in the embodiment shown in Fig. 2 such as can comprise: described slide block is slided along the glide direction of described first slider bar under Action of Gravity Field.Conveniently user uses, and can determine the direction that slide block slides along slider bar according to the angle of the first slider bar rotation compared with the second slider bar.Further, in order to the movement making user operate slide block more intuitively, slide block can be allowed to slide along the glide direction of the first slider bar under Action of Gravity Field.The direction of skid is represented with reference to the arrow above the first slider bar 310 in Fig. 2, Fig. 2.Can see, slide block slides in the direction along the first slider bar 310 towards Action of Gravity Field.Like this, user just need not remember the relation between skid direction and operation slider bar, only with the understanding for Action of Gravity Field in daily life general knowledge, and just can the glide direction of shirtsleeve operation slide block.

In one embodiment of the invention, the embodiment shown in Fig. 2 can also comprise step: detect the second user behavior; In response to described second user behavior being detected, described first slider bar is operated accordingly.Wherein, the corresponding relation of the second user behavior and corresponding operation comprise following one of at least: if described second user behavior represents the amplification of whole slider bar, the whole of described first slider bar are carried out amplifieroperation by corresponding being operating as; If described second user behavior represents reducing of whole slider bar, the whole of described first slider bar are carried out reduction operation by corresponding being operating as; If described second user behavior represents the amplification of the slider bar of part, the part of described first slider bar is carried out amplifieroperation by corresponding being operating as; If reducing of the slider bar of described second user behavior expression part, the part of described first slider bar is carried out reduction operation by corresponding being operating as.The present embodiment does not limit the embodiment of the second user behavior.Such as, the second user behavior can be pin the first slider bar two ends and stretch out or inwardly compress.Such as, the second user behavior can be the two ends of certain part pinning the first slider bar and stretches out or inwardly compress.Such as the second user behavior can also be by device left or be tilted to the right.Be appreciated that the granularity of this first slider bar can change thereupon, and also namely the unit quantity of skid can change along with all or part of of the first slider bar is exaggerated or reduces.Such as, when user does not change the granularity of the first slider bar, slide block is the length in 5 seconds along the unit quantity that slider bar is slided, user pins the point of the 1st hour 10 minutes of the first slider bar and the point of the 1st hour 30 minutes and stretches out, then the part of this 20 minutes length is exaggerated, and the unit quantity of sliding changes into the length in 1 second.Now, user can in this length of 20 minutes more accurately and find the position of hope easily.

In one embodiment of the invention, embodiment illustrated in fig. 2ly can also to comprise further: detect the 3rd user behavior, described 3rd user behavior represents and exits rotary mode; In response to the 3rd user behavior being detected, cancelling the display of the first slider bar, only showing described second slider bar.The present invention does not limit the embodiment of the 3rd user behavior.3rd user behavior is such as that user decontrols slider bar, or the 3rd user behavior can be that user clicks specific region, or can also be the confirmation for prompting problem.In the present embodiment, after exiting rotary mode, slide block can be stopped on position when exiting, or also can be allow slide block enter common operator scheme, such as, continue to play video with original speed.In the present embodiment, due to rotary mode activate time, can be that only to show the first slider bar also can be show the first slider bar and the second slider bar simultaneously, so when exiting rotary mode, can be only cancel the first slider bar, the while of also can being cancellation the first slider bar, the second slider bar will be shown.

In one embodiment of the invention, in embodiment as shown in Figure 2, in response to first user behavior being detected, showing the first slider bar can comprise: in response to first user behavior being detected, cancelling the display of the second slider bar, only showing the first slider bar.In the present embodiment, do not show the second slider bar and user interface can be made more succinct, and only can just realize the first slider bar and the second slider bar with an object.

In one embodiment of the invention, after entering rotary mode, the display of the second slider bar can not be cancelled, but dimmed or become translucent.User can be facilitated like this to adjust angle between the first slider bar and the second slider bar.Certainly, even if it will be understood by those skilled in the art that not showing the second slider bar also can adjust angle between the first slider bar and the second slider bar.

Between the above embodiment of the present invention can each other with reference to, combine, obtain more embodiment.Such as, the embodiment shown in Fig. 2 can comprise the step confirming sliding speed and glide direction simultaneously.Such as, the embodiment shown in Fig. 2 can comprise the step determined sliding speed and exit rotary mode simultaneously.

In order to better set forth the embodiment of the present invention, further describe said method embodiment with a concrete example below.In this example, by adopting new design to complete above-described embodiment to the progress bar control in tool graphical user interface bag (GUI Toolkit).For Java AWT, represent the activation of rotary mode by defining new class and exit, such as set the activation that ScrollBarRotation.EnteringAction represents rotary mode, setting ScrollBarRotation.ExitingAction represents exiting of rotary mode.Can receive by adding rotary mode audiomonitor the event that user enters rotary mode, such as, adopt public void addRotationListener (ActionListener l) to realize detecting first user behavior.The detection of corresponding 3rd user behavior also can be realized by rotary mode audiomonitor.In addition, public void removeRotationListener (ActionListenerl) can also be adopted to remove rotary mode audiomonitor.In this example, the glide direction that can define slide block respectively by static int ROTATION_INCREMENT and static int ROTATION_DECREMENT for user turn clockwise slider bar time slide block forward slip and user be rotated counterclockwise slider bar time slide block slide backward.Such as can adopt public double getRotationIncrement () or public void setRotationIncrement (double v) that the anglec of rotation of slider bar is set.Such as can adopt public double getLength () or public void setLength (double v) that the length of slider bar is set to realize the stretching or compression etc. of slider bar again.It will be understood by those skilled in the art that and other GUI Toolkit can also be adopted to realize various embodiments of the present invention, such as, based on the AWT of Java, Swing, based on the CroPL of C++, the MacAPP on apple platform and the GTK+ in Linux platform.

As shown in Figure 4, the embodiment of the present invention also provides a kind of system 400 for controlling slide block.This system 400 comprises: first detection module 410, be configured to detect first user behavior, the activation of described first user behavior representation rotary mode, described rotary mode comprises display first slider bar, angle between described first slider bar and the second slider bar is greater than 0 degree, described second slider bar be enter rotary mode before the slider bar that shows; Rotation-activated module 420, is configured to, in response to described first user behavior being detected, show described first slider bar; Sliding block 430, is configured such that slide block slides along described first slider bar.By the system 400 adopting the embodiment of the present invention to provide, automatically can slide along the first slider bar at the rotary mode relief slide block that is activated, no longer need user to use finger sliding slide block, thus avoid finger for slide block to block the slide block location caused inaccurate.

As shown in Figure 5, system as shown in Figure 4 can also comprise speed determination module 510, and be configured to the sliding speed determining described slide block, wherein said sliding speed is relevant with described angle.Sliding block 430 is configured such that slide block slides along described first slider bar according to the sliding speed determined further.By adopting the system 500 that provides of the embodiment of the present invention, user can be allowed to realize the change of the sliding speed of slide block by the angle of adjustment first slider bar and the second slider bar.Further, in another embodiment of the present invention, the angle between the first slider bar and the second slider bar is about large, and sliding speed is faster.

In one embodiment of the invention, sliding block 430 is configured such that slide block slides along the glide direction of described first slider bar under Action of Gravity Field further.

In one embodiment of the invention, system 400 as shown in Figure 4 can also comprise: the second detection module, is configured to detection second user behavior; Operational module, is configured to, in response to described second user behavior being detected, operate accordingly described first slider bar.Wherein, the corresponding relation of described second user behavior and corresponding operation comprise following one of at least: if described second user behavior represents the amplification of whole slider bar, the whole of described first slider bar are carried out amplifieroperation by corresponding being operating as; If described second user behavior represents reducing of whole slider bar, the whole of described first slider bar are carried out reduction operation by corresponding being operating as; If described second user behavior represents the amplification of the slider bar of part, the part of described first slider bar is carried out amplifieroperation by corresponding being operating as; If reducing of the slider bar of described second user behavior expression part, the part of described first slider bar is carried out reduction operation by corresponding being operating as.

In one embodiment of the invention, system 400 as shown in Figure 4, can also comprise: the 3rd detection module, is configured to detection the 3rd user behavior, and described 3rd user behavior represents and exits rotary mode; Module is exited in rotation, is configured to, in response to the 3rd user behavior being detected, cancel the display of described first slider bar, only show described second slider bar.

In one embodiment of the invention, system 400 as shown in Figure 4, can also comprise: the 4th detection module, is configured to detection the 4th user behavior, and described 4th user's behavior representation changes the angle between described first slider bar and described second slider bar; Angulation changes module, is configured to, in response to described 4th user behavior being detected, change the angle between described first slider bar and described second slider bar.

In one embodiment of the invention, in system 400, rotation-activated module 420 is configured to, in response to described first user behavior being detected, cancel the display of described second slider bar, only show described first slider bar further.

The details that realizes in said apparatus embodiment can with reference to corresponding embodiment of the method, and can each other with reference to obtain more embodiment between said apparatus embodiment.

Process flow diagram in accompanying drawing and block diagram show system according to multiple embodiment of the present invention, the architectural framework in the cards of method and computer program product, function and operation.In this, each square frame in process flow diagram or block diagram can represent a part for module, program segment or a code, and a part for described module, program segment or code comprises one or more executable instruction for realizing the logic function specified.Also it should be noted that at some as in the realization of replacing, the function marked in square frame also can be different from occurring in sequence of marking in accompanying drawing.Such as, in fact two continuous print square frames can perform substantially concurrently, and they also can perform by contrary order sometimes, and this determines according to involved function.Also it should be noted that, the combination of the square frame in each square frame in block diagram and/or process flow diagram and block diagram and/or process flow diagram, can realize by the special hardware based system of the function put rules into practice or operation, or can realize with the combination of specialized hardware and computer instruction.

Be described above various embodiments of the present invention, above-mentioned explanation is exemplary, and non-exclusive, and be also not limited to disclosed each embodiment.When not departing from the scope and spirit of illustrated each embodiment, many modifications and changes are all apparent for those skilled in the art.The selection of term used herein, is intended to explain best the principle of each embodiment, practical application or the technological improvement to the technology in market, or makes other those of ordinary skill of the art can understand each embodiment disclosed herein.

Claims (16)

1., for controlling a method for slide block, described method comprises:

Detect first user behavior, the activation of described first user behavior representation rotary mode, described rotary mode comprises display first slider bar, and the angle between described first slider bar and the second slider bar is greater than 0 degree, described second slider bar be enter rotary mode before the slider bar that shows;

In response to described first user behavior being detected, show described first slider bar;

Slide block is slided along described first slider bar.

2. method according to claim 1, wherein,

Described method comprises further: the sliding speed determining described slide block, and wherein said sliding speed is relevant with described angle;

The described slide block that makes slides along described first slider bar, comprising: described slide block is slided along described first slider bar according to the sliding speed determined.

3. method according to claim 2, wherein, described sliding speed is relevant with described angle, comprising: described angle is larger, and described sliding speed is faster.

4. method according to claim 1, wherein, described in slide block is slided along described first slider bar comprise: described slide block is slided along the glide direction of described first slider bar under Action of Gravity Field.

5. the method according to any one of claim 1-4, wherein, described method comprises further:

Detect the second user behavior;

In response to described second user behavior being detected, described first slider bar is operated accordingly;

Wherein, the corresponding relation of described second user behavior and corresponding operation comprise following one of at least:

If described second user behavior represents the amplification of whole slider bar, the whole of described first slider bar are carried out amplifieroperation by corresponding being operating as;

If described second user behavior represents reducing of whole slider bar, the whole of described first slider bar are carried out reduction operation by corresponding being operating as;

If described second user behavior represents the amplification of the slider bar of part, the part of described first slider bar is carried out amplifieroperation by corresponding being operating as;

If reducing of the slider bar of described second user behavior expression part, the part of described first slider bar is carried out reduction operation by corresponding being operating as.

6. the method according to any one of claim 1-4, wherein, described method comprises further:

Detect the 3rd user behavior, described 3rd user behavior represents and exits rotary mode;

In response to described 3rd user behavior being detected, cancelling the display of described first slider bar, only showing described second slider bar.

7. the method according to any one of claim 1-4, wherein, described method comprises further:

Detect the 4th user behavior, described 4th user's behavior representation changes the angle between described first slider bar and described second slider bar;

In response to described 4th user behavior being detected, change the angle between described first slider bar and described second slider bar.

8. the method according to any one of claim 1-4, wherein, described in response to described first user behavior being detected, show described first slider bar, comprising in response to described first user behavior being detected, cancelling the display of described second slider bar, only show described first slider bar.

9., for controlling a system for slide block, described system comprises:

First detection module, be configured to detect first user behavior, the activation of described first user behavior representation rotary mode, described rotary mode comprises display first slider bar, angle between described first slider bar and the second slider bar is greater than 0 degree, described second slider bar be enter rotary mode before the slider bar that shows;

Rotation-activated module, is configured to, in response to described first user behavior being detected, show described first slider bar;

Sliding block, is configured such that slide block slides along described first slider bar.

10. system according to claim 9, wherein,

Described system comprises further: speed determination module, and be configured to the sliding speed determining described slide block, wherein said sliding speed is relevant with described angle;

Described sliding block is configured such that described slide block slides along described first slider bar according to the sliding speed determined further.

11. systems according to claim 10, wherein, described sliding speed is relevant with described angle, comprising: described angle is larger, and described sliding speed is faster.

12. systems according to claim 9, wherein, described sliding block is configured such that described slide block slides along the glide direction of described first slider bar under Action of Gravity Field further.

13. systems according to any one of claim 9-12, wherein, described system comprises further:

Second detection module, is configured to detection second user behavior;

Operational module, is configured to, in response to described second user behavior being detected, operate accordingly described first slider bar;

Wherein, the corresponding relation of described second user behavior and corresponding operation comprise following one of at least:

If described second user behavior represents the amplification of whole slider bar, the whole of described first slider bar are carried out amplifieroperation by corresponding being operating as;

If described second user behavior represents reducing of whole slider bar, the whole of described first slider bar are carried out reduction operation by corresponding being operating as;

If described second user behavior represents the amplification of the slider bar of part, the part of described first slider bar is carried out amplifieroperation by corresponding being operating as;

If reducing of the slider bar of described second user behavior expression part, the part of described first slider bar is carried out reduction operation by corresponding being operating as.

14. systems according to any one of claim 9-12, wherein, described system comprises further:

3rd detection module, is configured to detection the 3rd user behavior, and described 3rd user behavior represents and exits rotary mode;

Module is exited in rotation, is configured to, in response to described 3rd user behavior being detected, cancel the display of described first slider bar, only show described second slider bar.

15. systems according to any one of claim 9-12, wherein, described system comprises further:

4th detection module, is configured to detection the 4th user behavior, and described 4th user's behavior representation changes the angle between described first slider bar and described second slider bar;

Angulation changes module, is configured to, in response to described 4th user behavior being detected, change the angle between described first slider bar and described second slider bar.

16. systems according to any one of claim 9-12, wherein, described rotation-activated module is configured to, in response to described first user behavior being detected, cancel the display of described second slider bar, only show described first slider bar further.