CN104808930A - Operating element control method - Google Patents

Abstract

The embodiment of the invention provides an operating element control method, which includes the following steps: the inclination angle of a terminal is detected by a gravity sensor; an operating element in an interface window is obtained; according to the inclination angle of the terminal, the position of the operating element is moved. The embodiment of the invention can move the position of the operating element, so that a user can touch the operating element with a single hand, consequently, operation is convenient, and the experience of the user is improved.

Description

A kind of operation element control method

Technical field

The present invention relates to electronic technology field, particularly relate to a kind of operation element control method.

Background technology

Along with the development of terminal technology, giant-screen touch-control can be realized.Such as, existing smart mobile phone can support the touch screen of 6 inch, existing panel computer can support the touch screen of 8 inch, user can by clicking dummy keyboard or information such as the mode control terminal such as hand-written input note or mail etc., because the screen of terminal is comparatively large, user needs two manual manipulation terminals.But under many circumstances, user needs one-handed performance terminal, such as user one portable thing, or user on a vehicle a hand get a grip on the rail etc.During one-handed performance terminal, user usually cannot touch-control to all operations element in screen, the convenience of operation is not enough, and Consumer's Experience is poor.

Summary of the invention

The embodiment of the present invention provides a kind of operation element control method, the position of movable operation element, so that singlehanded this operation element of touch-control of user, simple operation, promotes Consumer's Experience.

Embodiments provide a kind of operation element control method, comprising:

By gravity sensor sense terminals angle of inclination;

Obtain the operation element in interfaces windows;

According to described terminal angle of inclination, the position of mobile described operation element.

In the embodiment of the present invention, by gravity sensor sense terminals angle of inclination, obtain the operation element in interfaces windows, according to terminal angle of inclination, the position of mobile operation element, so that singlehanded this operation element of touch-control of user, simple operation, promotes Consumer's Experience.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the embodiment of the present invention, below the accompanying drawing used required in describing embodiment is briefly described, apparently, accompanying drawing in the following describes is some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is a kind of schematic flow sheet operating element control method provided in first embodiment of the invention;

Fig. 2 is a kind of schematic flow sheet operating element control method provided in second embodiment of the invention;

Fig. 3 is a kind of schematic flow sheet operating element control method provided in third embodiment of the invention;

Fig. 4 is a kind of schematic flow sheet operating element control method provided in fourth embodiment of the invention;

Fig. 5 A is a kind of interface schematic diagram operating element provided in first embodiment of the invention;

Fig. 5 B is a kind of interface schematic diagram operating element provided in second embodiment of the invention;

Fig. 6 is the structural representation of a kind of terminal provided in first embodiment of the invention;

Fig. 7 is the structural representation of the mobile unit of Fig. 6 in first embodiment of the invention;

Fig. 8 is the structural representation of the mobile unit of Fig. 6 in second embodiment of the invention;

Fig. 9 is the structural representation of the touch area acquiring unit of Fig. 6 in the embodiment of the present invention;

Figure 10 is the structural representation of the recovery instruction fetch unit of Fig. 6 in the embodiment of the present invention;

Figure 11 is the structural representation of a kind of terminal provided in second embodiment of the invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Embodiments provide a kind of operation element control method, by gravity sensor sense terminals angle of inclination, obtain the operation element in interfaces windows, according to terminal angle of inclination, the position of mobile operation element, so that singlehanded this operation element of touch-control of user, simple operation, promotes Consumer's Experience.

The interfaces windows that the embodiment of the present invention is mentioned to can comprise dummy keyboard, suspended window, application window or display screen etc.Such as, full keyboard, nine grids keyboard, weather suspended window, calendar suspended window, browser window or instant messaging application window (such as micro-letter or QQ) etc.

The operation element that the embodiment of the present invention is mentioned to can comprise in virtual key, application icon or cursor etc. one or more.Virtual key can be the virtual key in the virtual key in dummy keyboard, the virtual key in suspended window or application window, such as numerical key, phonetic key, search button or return push-button etc.Application icon can comprise micro-letter application icon or have dictionary application icon etc., specifically not by the restriction of the embodiment of the present invention.

The operation element control method that the embodiment of the present invention provides may operate in the terminals such as smart mobile phone (as Android phone, iOS mobile phone etc.), panel computer or wearable intelligent equipment.

Fig. 1 is a kind of schematic flow sheet operating element control method provided in first embodiment of the invention, and as shown in the figure, the operation element control method in the embodiment of the present invention at least can comprise:

S101, by gravity sensor sense terminals angle of inclination.

Terminal can pass through gravity sensor sense terminals angle of inclination.Terminal angle of inclination can comprise directional information.Such as, when terminal is tilted to the left by user, by gravity sensor, terminal can detect that terminal angle of inclination is: and the angle between horizontal X axle, such as 150 °; When terminal is tilted to the right by user, by gravity sensor, terminal can detect that terminal angle of inclination is: and the angle between horizontal X axle, such as 30 °; When terminal is inclined upwardly by user, by gravity sensor, terminal can detect that terminal angle of inclination is: and the angle between horizontal Y-axis, such as 30 °; When user is downward-sloping by terminal, by gravity sensor, terminal can detect that terminal angle of inclination is: and the angle between horizontal Y-axis, such as 150 ° etc.

In an alternative embodiment, terminal can obtain terminal acceleration by gravity sensor, judge whether terminal acceleration is greater than predetermined acceleration threshold value, when terminal acceleration is greater than predetermined acceleration threshold value, according to the terminal acceleration preset and the corresponding relation of displacement, determine the displacement that terminal acceleration is corresponding.

Concrete, after terminal gets terminal acceleration, can judge whether terminal acceleration is greater than predetermined acceleration threshold value, when terminal acceleration is greater than predetermined acceleration threshold value, trigger the step performing and determine the displacement that terminal acceleration is corresponding; When terminal acceleration is less than or equal to predetermined acceleration threshold value, show the position of terminal without the need to mobile operation element, terminal obtains terminal acceleration by gravity sensor after caning be passed through preset duration again.When the embodiment of the present invention can avoid terminal to get terminal acceleration in the processes such as user's driving or walking, determine the displacement that terminal acceleration is corresponding, and then the operation element in acquisition interfaces windows, the position of mobile operation element, the embodiment of the present invention can improve the precision of operation control of element, promotes Consumer's Experience.

Terminal can prestore the corresponding relation of terminal acceleration and displacement, after terminal judges terminal acceleration is greater than predetermined acceleration threshold value, can according to the corresponding relation of terminal acceleration and displacement, determine the displacement that the terminal acceleration that gets is corresponding.Such as, the corresponding relation of terminal acceleration and displacement can be: when terminal acceleration is S1, and corresponding displacement is L1; When terminal acceleration is S2, corresponding displacement is L2, etc.The terminal acceleration that then terminal gets is S1, and terminal according to the corresponding relation of terminal acceleration and displacement, can determine that the displacement that terminal acceleration is corresponding is L1; The terminal acceleration that terminal gets is S2, and terminal according to the corresponding relation of terminal acceleration and displacement, can determine that the displacement that terminal acceleration is corresponding is L2.

S102, obtains the operation element in interfaces windows.

Terminal can obtain the operation element in interfaces windows.The operation element that terminal gets can comprise one or more operation element, such as, terminal can obtain the phonetic order that user inputs object run element, object run element is obtained according to phonetic order, and for example, when terminal is tilted to the left by user, the terminal angle of inclination detected is the angle between horizontal X axle, this angle is 150 °, then the operation element that terminal gets can for being positioned at the operation element of the right-hand member of interfaces windows.

Interfaces windows can comprise dummy keyboard, suspended window, application window or display screen etc.Such as, full keyboard, nine grids keyboard, weather suspended window, calendar suspended window, browser window or instant messaging application window (such as micro-letter or QQ) etc.Operation element can comprise in virtual key, application icon or cursor etc. one or more.Virtual key can be the virtual key in the virtual key in dummy keyboard, the virtual key in suspended window or application window, such as numerical key, phonetic key, search button or return push-button etc.Application icon can comprise micro-letter application icon or have dictionary application icon etc.For the interface schematic diagram of the operation element shown in Fig. 5 A, the operation element in the interfaces windows that terminal gets can comprise the virtual key in dummy keyboard.

S103, according to terminal angle of inclination, the position of mobile operation element.

Terminal can according to terminal angle of inclination, the position of mobile operation element.Wherein, operation element can be moved to other positions in interfaces windows by terminal, and optionally, operation element also can be moved to other positions outside interfaces windows by terminal, specifically not by the restriction of the embodiment of the present invention.For the interface schematic diagram of the operation element shown in Fig. 5 B, terminal angle of inclination is the angle between horizontal X axle, this angle is 150 °, and then terminal can according to terminal angle of inclination, the position of virtual key is moved to the left, be moved to the left successively by each virtual key in dummy keyboard, and the virtual key of the high order end being positioned at dummy keyboard is moved to the low order end of dummy keyboard, so that the singlehanded touch-control of user is positioned at the virtual key of the right-hand member of dummy keyboard.It is to be noted, in the embodiment of the present invention, the position of mobile operation element is including but not limited to aforesaid way, such as, operation element in the interfaces windows that terminal gets can be 4 virtual keys of the low order end of dummy keyboard, terminal can according to terminal angle of inclination, the position of above-mentioned 4 virtual keys is moved to the left, etc., specifically not by the restriction of the embodiment of the present invention.

In an alternative embodiment, terminal can obtain the directional information at terminal angle of inclination, according to the directional information at terminal angle of inclination, and the position of mobile operation element.Such as, when terminal is tilted to the left by user, terminal detects terminal angle of inclination by gravity sensor, and the directional information at terminal angle of inclination is left, and the position of operation element can be moved to the left by terminal.And for example, when user is downward-sloping by terminal, terminal detects terminal angle of inclination by gravity sensor, and the directional information at terminal angle of inclination is downwards, and the position of operation element can move down by terminal.

Further alternative, after the displacement that terminal determination terminal acceleration is corresponding, can according to the directional information at terminal angle of inclination and displacement, the position of mobile operation element.Such as, user's weak vibrations terminal, the directional information at terminal angle of inclination is left, and the displacement that terminal acceleration is corresponding is L1, and the operation element in interfaces windows can be moved to the left L1 by terminal.And for example, user acutely rocks terminal, and the directional information at terminal angle of inclination is left, and the displacement that terminal acceleration is corresponding is L2, and the operation element in interfaces windows can be moved to the left L2 by terminal.

In an alternative embodiment, terminal according to terminal angle of inclination, can obtain the moving displacement of operation element, according to moving displacement, and the position of mobile operation element.Such as, user's weak vibrations terminal, terminal angle of inclination is the angle between horizontal X axle, this angle is 165 °, the direction of the moving displacement of the operation element that terminal gets can for left, the length of moving displacement can be L1, and terminal can according to the moving displacement got, the position of mobile operation element.And for example, user acutely rocks terminal, terminal angle of inclination is the angle between horizontal X axle, this angle is 150 °, the direction of the moving displacement of the operation element that terminal gets can for left, the length of moving displacement can be L2, and terminal can according to the moving displacement got, the position of mobile operation element.

In an alternative embodiment, terminal can obtain the target touch area of user's input, according to terminal angle of inclination, operation element is moved to target touch area.The finger length of different user is not identical, the touch custom of touch control terminal is not identical yet, in order to improve the mobile efficiency of operation element, terminal can obtain the target touch area of user's input, and according to terminal angle of inclination, operation element is moved to target touch area, so that singlehanded this operation element of touch-control of user.

Further alternative, terminal can obtain the positional information of each touch point of user's input, according to the positional information of each touch point, determines target touch area.Such as, user can input repeatedly gesture information above the contact panel of terminal, such as point the most left tangibly touch point, the rightest touch point, go up touch point most and descend touch point most, after terminal detects the gesture information that user inputs, the positional information of each touch point of user's input can be obtained, according to the positional information of each touch point, determine target touch area.And for example, user can input closed sliding trace on the contact panel of terminal, and terminal according to the sliding trace got, can determine target touch area.

In an alternative embodiment, terminal can obtain the direction key value of user to the input of operation element, according to direction key value, and the position of mobile operation element.Such as, when user clicks direction key left, the position of operation element can be moved to the left by terminal.And for example, when user clicks downward direction key, the position of operation element can move down by terminal.Wherein, direction key can be the physical button or virtual key etc. in terminal.

In an alternative embodiment, terminal can obtain the sliding trace of user to the input of operation element, according to sliding trace, and the position of mobile operation element.Such as, the reference position of sliding trace is positioned at the right-hand member in the final position of sliding trace, and the position of operation element can be moved to the left by terminal.And for example, the reference position of sliding trace is positioned at the top in the final position of sliding trace, and the position of operation element can move down by terminal.

In an alternative embodiment, terminal, according to terminal angle of inclination, after the position of mobile operation element, can obtain and recover instruction to the operation element of interfaces windows, recover instruction, the position of restoring operation element according to operation element.

Further alternative, terminal can judge in preset duration, whether receive the touch command to operation element, and when not receiving touch command in preset duration, generating run element recovers instruction.Such as, user does not carry out tilt operation to terminal in preset duration, and user does not carry out clicking operation to operation element in preset duration, then terminal can judge not receive touch command in preset duration, and then generating run element recovers instruction.And for example, when terminal receives the link order of user's input, trigger generating run element and recover instruction.And for example, when terminal receives the terminal locking instruction of user's input, trigger generating run element and recover instruction.

In the operation element control method shown in Fig. 1, by gravity sensor sense terminals angle of inclination, obtain the operation element in interfaces windows, according to terminal angle of inclination, the position of mobile operation element, so that singlehanded this operation element of touch-control of user, simple operation, promotes Consumer's Experience.

Fig. 2 is a kind of schematic flow sheet operating element control method provided in second embodiment of the invention, and as shown in the figure, the operation element control method in the embodiment of the present invention can comprise:

S201, by gravity sensor sense terminals angle of inclination.

Terminal can pass through gravity sensor sense terminals angle of inclination.Such as, when terminal is tilted to the left by user, by gravity sensor, terminal can detect that terminal angle of inclination is: and the angle between horizontal X axle, such as 150 °; When terminal is tilted to the right by user, by gravity sensor, terminal can detect that terminal angle of inclination is: and the angle between horizontal X axle, such as 30 °; When terminal is inclined upwardly by user, by gravity sensor, terminal can detect that terminal angle of inclination is: and the angle between horizontal Y-axis, such as 30 °; When user is downward-sloping by terminal, by gravity sensor, terminal can detect that terminal angle of inclination is: and the angle between horizontal Y-axis, such as 150 ° etc.

S202, according to terminal angle of inclination, obtains the moving displacement of operation element.

Terminal according to terminal angle of inclination, can obtain the moving displacement of operation element.Concrete, terminal can prestore the corresponding relation of terminal angle of inclination and moving displacement, after terminal gets terminal angle of inclination, can according to the corresponding relation of terminal angle of inclination and moving displacement, and the moving displacement of determination operation element.Such as, user's weak vibrations terminal, terminal angle of inclination is the angle between horizontal X axle, and this angle is 165 °, and the direction of the moving displacement of the operation element that terminal gets can for left, and the length of moving displacement can be L1.And for example, user acutely rocks terminal, and terminal angle of inclination is the angle between horizontal X axle, and this angle is 150 °, and the direction of the moving displacement of the operation element that terminal gets can for left, and the length of moving displacement can be L2.

S203, obtains the operation element in interfaces windows.

Terminal can obtain the operation element in interfaces windows.The operation element that terminal gets can comprise one or more operation element, such as, terminal can obtain the phonetic order that user inputs object run element, object run element is obtained according to phonetic order, and for example, when terminal is tilted to the left by user, the terminal angle of inclination detected is the angle between horizontal X axle, this angle is 150 °, then the operation element that terminal gets can for being positioned at the operation element of the right-hand member of interfaces windows.

Interfaces windows can comprise dummy keyboard, suspended window, application window or display screen etc.Such as, full keyboard, nine grids keyboard, weather suspended window, calendar suspended window, browser window or instant messaging application window (such as micro-letter or QQ) etc.Operation element can comprise in virtual key, application icon or cursor etc. one or more.Virtual key can be the virtual key in the virtual key in dummy keyboard, the virtual key in suspended window or application window, such as numerical key, phonetic key, search button or return push-button etc.Application icon can comprise micro-letter application icon or have dictionary application icon etc.For the interface schematic diagram of the operation element shown in Fig. 5 A, the operation element in the interfaces windows that terminal gets can comprise the virtual key in dummy keyboard.

S204, according to moving displacement, the position of mobile operation element.

Terminal can according to moving displacement, the position of mobile operation element.The direction of the moving displacement of operation element can be left, and the length of moving displacement can be L1, and terminal can according to the moving displacement got, the position of mobile operation element.For the interface schematic diagram of the operation element shown in Fig. 5 B, terminal can according to moving displacement, the position of virtual key is moved to the left, be moved to the left successively by each virtual key in dummy keyboard, and the virtual key of the high order end being positioned at dummy keyboard is moved to the low order end of dummy keyboard, so that the singlehanded touch-control of user is positioned at the virtual key of the right-hand member of dummy keyboard.It is to be noted, in the embodiment of the present invention, the position of mobile operation element is including but not limited to aforesaid way, such as, operation element in the interfaces windows that terminal gets can be 4 virtual keys of the low order end of dummy keyboard, terminal can according to moving displacement, the position of above-mentioned 4 virtual keys is moved to the left, specifically not by the restriction of the embodiment of the present invention.

In the operation element control method shown in Fig. 2, by gravity sensor sense terminals angle of inclination, according to terminal angle of inclination, obtain the moving displacement of operation element, obtain the operation element in interfaces windows, according to moving displacement, the position of mobile operation element, so that singlehanded this operation element of touch-control of user, simple operation, promotes Consumer's Experience.

Fig. 3 is a kind of schematic flow sheet operating element control method provided in third embodiment of the invention, and as shown in the figure, the operation element control method in the embodiment of the present invention can comprise:

S301, by gravity sensor sense terminals angle of inclination.

Terminal can pass through gravity sensor sense terminals angle of inclination.Such as, when terminal is tilted to the left by user, by gravity sensor, terminal can detect that terminal angle of inclination is: and the angle between horizontal X axle, such as 150 °; When terminal is tilted to the right by user, by gravity sensor, terminal can detect that terminal angle of inclination is: and the angle between horizontal X axle, such as 30 °; When terminal is inclined upwardly by user, by gravity sensor, terminal can detect that terminal angle of inclination is: and the angle between horizontal Y-axis, such as 30 °; When user is downward-sloping by terminal, by gravity sensor, terminal can detect that terminal angle of inclination is: and the angle between horizontal Y-axis, such as 150 ° etc.

S302, obtains the operation element in interfaces windows.

Terminal can obtain the operation element in interfaces windows.The operation element that terminal gets can comprise one or more operation element, such as, terminal can obtain the phonetic order that user inputs object run element, object run element is obtained according to phonetic order, and for example, when terminal is tilted to the left by user, the terminal angle of inclination detected is the angle between horizontal X axle, this angle is 150 °, then the operation element that terminal gets can for being positioned at the operation element of the right-hand member of interfaces windows.

S303, obtains the target touch area of user's input.

Terminal can obtain the target touch area of user's input.The finger length of different user is not identical, and the touch custom of touch control terminal is not identical yet, and in order to improve the mobile efficiency of operation element, terminal can obtain the target touch area of user's input.

In an alternative embodiment, terminal can obtain the positional information of each touch point of user's input, according to the positional information of each touch point, determines target touch area.Such as, user can input repeatedly gesture information above the contact panel of terminal, such as point the most left tangibly touch point, the rightest touch point, go up touch point most and descend touch point most, after terminal detects the gesture information that user inputs, the positional information of each touch point of user's input can be obtained, according to the positional information of each touch point, determine target touch area.And for example, user can input closed sliding trace on the contact panel of terminal, and terminal according to the sliding trace got, can determine target contact panel.

S304, according to terminal angle of inclination, moves to target touch area by operation element.

Operation element according to terminal angle of inclination, can be moved to target touch area by terminal, so that singlehanded this operation element of touch-control of user.

In an alternative embodiment, terminal can obtain the direction key value of user to the input of operation element, according to direction key value, operation element is moved to target touch area.Such as, when user clicks direction key left, the position of operation element can be moved to the left, operation element is moved to target touch area by terminal.And for example, when user clicks downward direction key, the position of operation element can move down, operation element is moved to target touch area by terminal.Wherein, direction key can be the physical button or virtual key etc. in terminal.

In an alternative embodiment, terminal can obtain the sliding trace of user to the input of operation element, according to sliding trace, and the position of mobile operation element.Such as, the reference position of sliding trace is positioned at the right-hand member in the final position of sliding trace, and the position of operation element can be moved to the left, operation element is moved to target touch area by terminal.And for example, the reference position of sliding trace is positioned at the top in the final position of sliding trace, and the position of operation element can move down, operation element is moved to target touch area by terminal.

In the operation element control method shown in Fig. 3, by gravity sensor sense terminals angle of inclination, obtain the operation element in interfaces windows, obtain the target touch area of user's input, according to terminal angle of inclination, operation element is moved to target touch area, so that singlehanded this operation element of touch-control of user, simple operation, promotes Consumer's Experience.

Fig. 4 is a kind of schematic flow sheet operating element control method provided in fourth embodiment of the invention, and as shown in the figure, the operation element control method in the embodiment of the present invention can comprise:

S401, by gravity sensor sense terminals angle of inclination.

Terminal can pass through gravity sensor sense terminals angle of inclination.Such as, when terminal is tilted to the left by user, by gravity sensor, terminal can detect that terminal angle of inclination is: and the angle between horizontal X axle, such as 150 °; When terminal is tilted to the right by user, by gravity sensor, terminal can detect that terminal angle of inclination is: and the angle between horizontal X axle, such as 30 °; When terminal is inclined upwardly by user, by gravity sensor, terminal can detect that terminal angle of inclination is: and the angle between horizontal Y-axis, such as 30 °; When user is downward-sloping by terminal, by gravity sensor, terminal can detect that terminal angle of inclination is: and the angle between horizontal Y-axis, such as 150 ° etc.

S402, obtains the operation element in interfaces windows.

Terminal can obtain the operation element in interfaces windows.The operation element that terminal gets can comprise one or more operation element, such as, terminal can obtain the phonetic order that user inputs object run element, object run element is obtained according to phonetic order, and for example, when terminal is tilted to the left by user, the terminal angle of inclination detected is the angle between horizontal X axle, this angle is 150 °, then the operation element that terminal gets can for being positioned at the operation element of the right-hand member of interfaces windows.For the interface schematic diagram of the operation element shown in Fig. 5 A, the operation element in the interfaces windows that terminal gets can comprise the virtual key in dummy keyboard.

S403, according to terminal angle of inclination, the position of mobile operation element.

Terminal can according to terminal angle of inclination, the position of mobile operation element.For the interface schematic diagram of the operation element shown in Fig. 5 B, terminal angle of inclination is the angle between horizontal X axle, this angle is 150 °, and then terminal can according to terminal angle of inclination, the position of virtual key is moved to the left, be moved to the left successively by each virtual key in dummy keyboard, and the virtual key of the high order end being positioned at dummy keyboard is moved to the low order end of dummy keyboard, so that the singlehanded touch-control of user is positioned at the virtual key of the right-hand member of dummy keyboard.It is to be noted, in the embodiment of the present invention, the position of mobile operation element is including but not limited to aforesaid way, such as, operation element in the interfaces windows that terminal gets can be 4 virtual keys of the low order end of dummy keyboard, terminal can according to terminal angle of inclination, the position of above-mentioned 4 virtual keys is moved to the left, etc., specifically not by the restriction of the embodiment of the present invention.

S404, obtains and recovers instruction to the operation element of interfaces windows.

Terminal, according to terminal angle of inclination, after the position of mobile operation element, can obtain and recover instruction to the operation element of interfaces windows.

In an alternative embodiment, terminal can judge in preset duration, whether receive the touch command to operation element, and when not receiving touch command in preset duration, generating run element recovers instruction.Such as, user does not carry out tilt operation to terminal in preset duration, and user does not carry out clicking operation to operation element in preset duration, then terminal can judge not receive touch command in preset duration, and then generating run element recovers instruction.And for example, when terminal receives the link order of user's input, trigger generating run element and recover instruction.And for example, when terminal receives the terminal locking instruction of user's input, trigger generating run element and recover instruction.

S405, recovers instruction, the position of restoring operation element according to operation element.

Terminal can recover instruction, the position of restoring operation element according to operation element.Such as, the position through the operation element of reduction can be as shown in Figure 5A.

In the operation element control method shown in Fig. 4, by gravity sensor sense terminals angle of inclination, obtain the operation element in interfaces windows, according to terminal angle of inclination, the position of mobile operation element, obtain and instruction is recovered to the operation element of interfaces windows, instruction is recovered, the position of restoring operation element, so that singlehanded this operation element of touch-control of user according to operation element, simple operation, promotes Consumer's Experience.

Fig. 6 is the structural representation of a kind of terminal provided in first embodiment of the invention, and the terminal as shown in the figure in the embodiment of the present invention at least can comprise: angle of inclination detecting unit 601, operation element acquiring unit 602 and mobile unit 603, wherein:

Angle of inclination detecting unit 601, for passing through gravity sensor sense terminals angle of inclination.

Such as, when terminal is tilted to the left by user, by gravity sensor, angle of inclination detecting unit 601 can detect that terminal angle of inclination is: and the angle between horizontal X axle, such as 150 °; When terminal is tilted to the right by user, by gravity sensor, angle of inclination detecting unit 601 can detect that terminal angle of inclination is: and the angle between horizontal X axle, such as 30 °; When terminal is inclined upwardly by user, by gravity sensor, angle of inclination detecting unit 601 can detect that terminal angle of inclination is: and the angle between horizontal Y-axis, such as 30 °; When user is downward-sloping by terminal, by gravity sensor, angle of inclination detecting unit 601 can detect that terminal angle of inclination is: and the angle between horizontal Y-axis, such as 150 ° etc.

Operation element acquiring unit 602, for obtaining the operation element in interfaces windows.

The operation element that operation element acquiring unit 602 gets can comprise one or more operation element, such as, operation element acquiring unit 602 can obtain the phonetic order that user inputs object run element, object run element is obtained according to phonetic order, and for example, when terminal is tilted to the left by user, the terminal angle of inclination detected is the angle between horizontal X axle, this angle is 150 °, then the operation element that operation element acquiring unit 602 gets can for being positioned at the operation element of the right-hand member of interfaces windows.

Interfaces windows can comprise dummy keyboard, suspended window, application window or display screen etc.Such as, full keyboard, nine grids keyboard, weather suspended window, calendar suspended window, browser window or instant messaging application window (such as micro-letter or QQ) etc.Operation element can comprise in virtual key, application icon or cursor etc. one or more.Virtual key can be the virtual key in the virtual key in dummy keyboard, the virtual key in suspended window or application window, such as numerical key, phonetic key, search button or return push-button etc.Application icon can comprise micro-letter application icon or have dictionary application icon etc.For the interface schematic diagram of the operation element shown in Fig. 5 A, the operation element in the interfaces windows that operation element acquiring unit 602 gets can comprise the virtual key in dummy keyboard.

Mobile unit 603, for according to terminal angle of inclination, moves the position of operation element.Wherein, operation element can be moved to other positions in interfaces windows by mobile unit 603, and optionally, operation element also can be moved to other positions outside interfaces windows by mobile unit 603, specifically not by the restriction of the embodiment of the present invention.

For the interface schematic diagram of the operation element shown in Fig. 5 B, terminal angle of inclination is the angle between horizontal X axle, this angle is 150 °, and then mobile unit 603 can according to terminal angle of inclination, the position of virtual key is moved to the left, be moved to the left successively by each virtual key in dummy keyboard, and the virtual key of the high order end being positioned at dummy keyboard is moved to the low order end of dummy keyboard, so that the singlehanded touch-control of user is positioned at the virtual key of the right-hand member of dummy keyboard.It is to be noted, in the embodiment of the present invention, mobile unit 603 moves the position of operation element including but not limited to aforesaid way, such as, operation element in the interfaces windows that operation element acquiring unit 602 gets can be 4 virtual keys of the low order end of dummy keyboard, mobile unit 603 can according to terminal angle of inclination, the position of above-mentioned 4 virtual keys is moved to the left, etc., specifically not by the restriction of the embodiment of the present invention.

Optionally, the mobile unit 603 in the embodiment of the present invention can as described in Figure 7, comprise further:

Directional information acquiring unit 701, for obtaining the directional information at terminal angle of inclination.

Primary importance mobile unit 702, for the directional information according to terminal angle of inclination, the position of mobile operation element.

Such as, when terminal is tilted to the left by user, angle of inclination detecting unit 601 detects terminal angle of inclination by gravity sensor, directional information acquiring unit 701 gets the directional information at terminal angle of inclination for left, and the position of operation element can be moved to the left by primary importance mobile unit 702.And for example, when user is downward-sloping by terminal, angle of inclination detecting unit 601 detects terminal angle of inclination by gravity sensor, the directional information that directional information acquiring unit 701 gets terminal angle of inclination is downward, and the position of operation element can move down by primary importance mobile unit 702.

Further alternative, the terminal in the embodiment of the present invention can also comprise:

Acceleration obtainment unit 604, before operating operation element that element acquiring unit 602 obtains in interfaces windows, obtains terminal acceleration by gravity sensor.

Judging unit 605, for judging whether terminal acceleration is greater than predetermined acceleration threshold value;

Displacement determining unit 606, for when terminal acceleration is greater than predetermined acceleration threshold value, according to the terminal acceleration preset and the corresponding relation of displacement, determines the displacement that terminal acceleration is corresponding.

Concrete, after acceleration obtainment unit 604 gets terminal acceleration, judging unit 605 can judge whether terminal acceleration is greater than predetermined acceleration threshold value, when terminal acceleration is greater than predetermined acceleration threshold value, triggers displacement determining unit 606 and determine the displacement that terminal acceleration is corresponding; When terminal acceleration is less than or equal to predetermined acceleration threshold value, show the position of user without the need to mobile operation element, acceleration obtainment unit 604 obtains terminal acceleration by gravity sensor after caning be passed through preset duration again.When the embodiment of the present invention can avoid acceleration obtainment unit 604 to get terminal acceleration in the processes such as user's driving or walking, determine the displacement that terminal acceleration is corresponding, and then operation element acquiring unit 602 obtains the operation element in interfaces windows, mobile unit 603 moves the position of operation element, the embodiment of the present invention can improve the precision of operation control of element, promotes Consumer's Experience.

Terminal can prestore the corresponding relation of terminal acceleration and displacement, after judging unit 605 judges that terminal acceleration is greater than predetermined acceleration threshold value, displacement determining unit 606 can according to the corresponding relation of terminal acceleration and displacement, determines the displacement that the terminal acceleration that gets is corresponding.Such as, the corresponding relation of terminal acceleration and displacement can be: when terminal acceleration is S1, and corresponding displacement is L1; When terminal acceleration is S2, corresponding displacement is L2, etc.The terminal acceleration that then acceleration obtainment unit 604 gets is S1, and displacement determining unit 606 according to the corresponding relation of terminal acceleration and displacement, can determine that the displacement that terminal acceleration is corresponding is L1; The terminal acceleration that acceleration obtainment unit 604 gets is S2, and displacement determining unit 606 according to the corresponding relation of terminal acceleration and displacement, can determine that the displacement that terminal acceleration is corresponding is L2.

Primary importance mobile unit 702, for according to the directional information at terminal angle of inclination and displacement, the position of mobile operation element.

Such as, user's weak vibrations terminal, directional information acquiring unit 701 gets the directional information at terminal angle of inclination for left, displacement determining unit 606 determines that the displacement that terminal acceleration is corresponding is L1, and the operation element in interfaces windows can be moved to the left L1 by primary importance mobile unit 702.And for example, user acutely rocks terminal, directional information acquiring unit 701 gets the directional information at terminal angle of inclination for left, displacement determining unit 606 determines that the displacement that terminal acceleration is corresponding is L2, and the operation element in interfaces windows can be moved to the left L2 by primary importance mobile unit 702.

As the optional embodiment of one, the mobile unit 603 in the embodiment of the present invention can as shown in Figure 8, comprise further:

Moving displacement acquiring unit 801, for according to terminal angle of inclination, obtains the moving displacement of operation element.

Second place mobile unit 802, for according to moving displacement, moves the position of operation element.

Such as, user's weak vibrations terminal, terminal angle of inclination is the angle between horizontal X axle, this angle is 165 °, the direction of the moving displacement of the operation element that moving displacement acquiring unit 801 gets can for left, the length of moving displacement can be L1, and second place mobile unit 802 can according to the moving displacement got, the position of mobile operation element.And for example, user acutely rocks terminal, terminal angle of inclination is the angle between horizontal X axle, this angle is 150 °, the direction of the moving displacement of the operation element that moving displacement acquiring unit 801 gets can for left, the length of moving displacement can be L2, and second place mobile unit 802 can according to the moving displacement got, the position of mobile operation element.

As the optional embodiment of one, the terminal in the embodiment of the present invention can also comprise:

Touch area acquiring unit 607, for mobile unit 603 according to terminal angle of inclination, before the position of mobile operation element, obtains the target touch area of user's input.

Mobile unit 603, for according to terminal angle of inclination, moves to target touch area by operation element.The finger length of different user is not identical, and the touch custom of touch control terminal is not identical yet, and the embodiment of the present invention can improve the mobile efficiency of operation element.

Further alternative, the touch area acquiring unit 607 in the embodiment of the present invention can as shown in Figure 9, comprise further:

Location information acquiring unit 901, for obtaining the positional information of each touch point of user's input.

Touch area determining unit 902, for the positional information according to each touch point, determines target touch area.

Such as, user can input repeatedly gesture information above the contact panel of terminal, such as point the most left tangibly touch point, the rightest touch point, go up touch point most and descend touch point most, after location information acquiring unit 901 detects the gesture information that user inputs, the positional information of each touch point of user's input can be obtained, touch area determining unit 902, according to the positional information of each touch point, determines target touch area.And for example, user can input closed sliding trace on the contact panel of terminal, and touch area acquiring unit 607 according to the sliding trace got, can determine target touch area.

As the optional embodiment of one, the terminal in the embodiment of the present invention can also comprise:

Direction key value acquiring unit 608, for obtaining the direction key value of user to the input of operation element.

Mobile unit 603, also for according to direction key value, moves the position of operation element.

Such as, when user clicks direction key left, the position of operation element can be moved to the left by mobile unit 603.And for example, when user clicks downward direction key, the position of operation element can move down by mobile unit 603.Wherein, direction key can be the physical button or virtual key etc. in terminal.

As the optional embodiment of one, the terminal in the embodiment of the present invention can also comprise:

Sliding trace acquiring unit 609, for obtaining the sliding trace of user to the input of operation element.

Mobile unit 603, also for according to sliding trace, moves the position of operation element.

Such as, the reference position of sliding trace is positioned at the right-hand member in the final position of sliding trace, and the position of operation element can be moved to the left by mobile unit 603.And for example, the reference position of sliding trace is positioned at the top in the final position of sliding trace, and the position of operation element can move down by mobile unit 603.

As the optional embodiment of one, the terminal in the embodiment of the present invention can also comprise:

Recover instruction fetch unit 610, for mobile unit 603 according to terminal angle of inclination, after the position of mobile operation element, obtain and instruction is recovered to the operation element of interfaces windows.

Reduction unit 611, for recovering instruction, the position of restoring operation element according to operation element.

Further alternative, the recovery instruction fetch unit 610 in the embodiment of the present invention can as shown in Figure 10, comprise further:

Whether judging unit 1001, receive the touch command to operation element for judging in preset duration.

Recover instruction generation unit 1002, for when not receiving touch command in preset duration, generating run element recovers instruction.

Such as, user does not carry out tilt operation to terminal in preset duration, and user does not carry out clicking operation to operation element in preset duration, then judging unit 1001 can judge not receive touch command in preset duration, recovers instruction generation unit 1002 generating run element and recovers instruction.And for example, when terminal receives the link order of user's input, trigger and recover instruction generation unit 1002 generating run element recovery instruction.And for example, when terminal receives the terminal locking instruction of user's input, trigger and recover instruction generation unit 1002 generating run element recovery instruction.

In the terminal shown in Fig. 6, angle of inclination detecting unit 601 is by gravity sensor sense terminals angle of inclination, operation element acquiring unit 602 obtains the operation element in interfaces windows, mobile unit 603 is according to terminal angle of inclination, the position of mobile operation element, so that singlehanded this operation element of touch-control of user, simple operation, promotes Consumer's Experience.

Figure 11 is the structural representation of a kind of terminal provided in second embodiment of the invention, and as shown in the figure, described terminal can comprise: at least one input media 1130, at least one output unit 1140, at least one processor 1110, such as CPU, storer 1150 and at least one bus 1120.

Wherein, above-mentioned bus 1120 is for connecting above-mentioned input media 1130, output unit 1140, processor 1110 and storer 1150.

Wherein, above-mentioned input media 1130 specifically can be gravity sensor, for sense terminals angle of inclination, optionally, also for obtaining terminal acceleration.Above-mentioned input media 1130 specifically can be contact panel, for obtaining the target touch area of user's input, obtaining the direction key value of user to the input of operation element, obtaining the sliding trace of user to the input of operation element.

Above-mentioned output unit 1140 specifically can be display screen, for showing operation element.

Above-mentioned storer 1150 can be high-speed RAM storer, also can be non-labile storer (non-volatile memory), such as magnetic disk memory, for storing operation element and terminal angle of inclination.Above-mentioned storer 1150 is also for storing batch processing code, and above-mentioned input media 1130, output unit 1140 and processor 1110, for calling the program code stored in storer 1150, perform and operate as follows:

Input media 1130, for sense terminals angle of inclination.

Processor 1110, for obtaining the operation element in interfaces windows.

Processor 1110, also for according to terminal angle of inclination, moves the position of operation element.

As the optional embodiment of one, processor 1110 is according to terminal angle of inclination, and the position of mobile operation element, is specifically as follows:

Obtain the directional information at terminal angle of inclination.

According to the directional information at terminal angle of inclination, the position of mobile operation element.

Further alternative, processor 1110 can also perform following operation before obtaining the operation element in interfaces windows:

Input media 1130 obtains terminal acceleration.

Processor 1110 judges whether terminal acceleration is greater than predetermined acceleration threshold value.

When terminal acceleration is greater than predetermined acceleration threshold value, processor 1110, according to the terminal acceleration preset and the corresponding relation of displacement, determines the displacement that terminal acceleration is corresponding.

Processor 1110 is according to the directional information at terminal angle of inclination, and the position of mobile operation element, is specifically as follows:

Processor 1110, according to the directional information at terminal angle of inclination and displacement, moves the position of operation element.

As the optional embodiment of one, processor 1110 is according to terminal angle of inclination, and the position of mobile operation element, is specifically as follows:

According to terminal angle of inclination, obtain the moving displacement of operation element.

According to moving displacement, the position of mobile operation element.

As the optional embodiment of one, processor 1110, according to terminal angle of inclination, before the position of mobile operation element, can also perform following operation:

Input media 1130 obtains the target touch area of user's input.

Processor 1110 is according to terminal angle of inclination, and the position of mobile operation element, is specifically as follows:

According to terminal angle of inclination, operation element is moved to target touch area.

Further alternative, input media 1130 obtains the target touch area of user's input, is specifically as follows:

Obtain the positional information of each touch point of user's input.

According to the positional information of each touch point, determine target touch area.

As the optional embodiment of one, input media 1130 can also perform following operation:

Obtain the direction key value of user to the input of operation element.

Processor 1110, according to direction key value, moves the position of operation element.

As the optional embodiment of one, input media 1130 can also perform following operation:

Obtain the sliding trace of user to the input of operation element.

Processor 1110, according to sliding trace, moves the position of operation element.

As the optional embodiment of one, processor 1110, according to terminal angle of inclination, after the position of mobile operation element in interfaces windows, can also perform following operation:

Processor 1110 obtains and recovers instruction to the operation element of interfaces windows.

Processor 1110 recovers instruction, the position of restoring operation element according to operation element.

Further alternative, processor 1110 obtains and recovers instruction to the operation element of interfaces windows, is specifically as follows:

Judge in preset duration, whether receive the touch command to operation element.

When not receiving touch command in preset duration, generating run element recovers instruction.

Concrete, the terminal introduced in the embodiment of the present invention can in order to implement the part or all of flow process in the operation element control method embodiment of composition graphs 1 ~ Fig. 4 of the present invention introduction.

Unit in all embodiments of the present invention, universal integrated circuit can be passed through, such as CPU (CentralProcessing Unit, central processing unit), or realized by ASIC (Application Specific IntegratedCircuit, special IC).

Step in embodiment of the present invention method can be carried out order according to actual needs and be adjusted, merges and delete.

Unit in embodiment of the present invention device can carry out merging, divide and deleting according to actual needs.

In the above-described embodiments, the description of each embodiment is all emphasized particularly on different fields, in certain embodiment, there is no the part described in detail, can see the associated description of other embodiments.

One of ordinary skill in the art will appreciate that all or part of flow process realized in above-described embodiment method, that the hardware that can carry out instruction relevant by computer program has come, described program can be stored in a computer read/write memory medium, this program, when performing, can comprise the flow process of the embodiment as above-mentioned each side method.Wherein, described storage medium can be magnetic disc, CD, read-only store-memory body (Read-Only Memory, ROM) or random store-memory body (Random Access Memory, RAM) etc.

Above disclosedly be only present pre-ferred embodiments, certainly can not limit the interest field of the present invention with this, therefore according to the equivalent variations that the claims in the present invention are done, still belong to the scope that the present invention is contained.

Claims (10)

1. operate an element control method, it is characterized in that, comprising:

By gravity sensor sense terminals angle of inclination;

Obtain the operation element in interfaces windows;

According to described terminal angle of inclination, the position of mobile described operation element.

2. the method for claim 1, is characterized in that, described according to described terminal angle of inclination, and the position of mobile described operation element comprises:

Obtain the directional information at described terminal angle of inclination;

According to the directional information at described terminal angle of inclination, the position of mobile described operation element.

3. method as claimed in claim 2, is characterized in that, before the operation element in described acquisition interfaces windows, also comprise:

Terminal acceleration is obtained by described gravity sensor;

Judge whether described terminal acceleration is greater than predetermined acceleration threshold value;

When described terminal acceleration is greater than described predetermined acceleration threshold value, according to the terminal acceleration preset and the corresponding relation of displacement, determine the displacement that described terminal acceleration is corresponding;

The described directional information according to described terminal angle of inclination, the position of mobile described operation element comprises:

According to directional information and the described displacement at described terminal angle of inclination, the position of mobile described operation element.

4. the method for claim 1, is characterized in that, described according to described terminal angle of inclination, and the position of mobile described operation element comprises:

According to described terminal angle of inclination, obtain the moving displacement of described operation element;

According to described moving displacement, the position of mobile described operation element.

5. the method for claim 1, is characterized in that, described according to described terminal angle of inclination, before the position of mobile described operation element, also comprises:

Obtain the target touch area of user's input;

Described according to described terminal angle of inclination, the position of mobile described operation element comprises:

According to described terminal angle of inclination, described operation element is moved to described target touch area.

6. method as claimed in claim 5, is characterized in that, the target touch area of described acquisition user input comprises:

Obtain the positional information of each touch point of user's input;

According to the positional information of touch point described in each, determine described target touch area.

7. the method for claim 1, is characterized in that, described method also comprises:

Obtain the direction key value that user inputs described operation element;

According to described direction key value, the position of mobile described operation element.

8. the method for claim 1, is characterized in that, described method also comprises:

Obtain the sliding trace that user inputs described operation element;

According to described sliding trace, the position of mobile described operation element.

9. the method for claim 1, is characterized in that, described according to described terminal angle of inclination, after the position of mobile described operation element, also comprises:

Obtain and instruction is recovered to the operation element of described interfaces windows;

Recover instruction according to described operation element, reduce the position of described operation element.

10. method as claimed in claim 9, is characterized in that, described acquisition recovers instruction to the operation element of described interfaces windows and comprises:

Judge in preset duration, whether receive the touch command to described operation element;

When not receiving described touch command in described preset duration, generating described operation element and recovering instruction.