CN105528098A - Method for controlling electronic device, and electronic device - Google Patents

Abstract

The invention discloses a method for controlling an electronic device, and the electronic device, and aims to solve a problem in the prior that a man-machine interactive mode is lacked for a deformable display screen. The method for controlling the electronic device is used for the electronic device provided with a deformable display unit. The method comprises following steps: detecting press operation in a preset zone of the display unit; acquiring deformation parameters of the display unit under the effect of the press operation; when the deformation parameters meet preset conditions, determining a first zone, corresponding to the deformation parameters, on the display unit; and converting a current first state of the first zone into a second state different from the first state.

Description

A kind of method and electronic equipment controlling electronic equipment

Technical field

The present invention relates to electronic technology field, particularly a kind of method and electronic equipment controlling electronic equipment.

Background technology

Along with the development of technology, the kind of electronic equipment gets more and more, and function from strength to strength, brings great convenience to the daily productive life of people.

At present, a lot of electronic equipment is provided with can the display screen of deformation, can deformation display screen after deformation, the display effect of displaying contents will change, and such as, will have more spatial impression when planimetric map shows on bending display surface.But, can not change from working mechanism before and after deformation by deformation display screen, can not offering convenience alternately for user and electronic equipment.

Summary of the invention

The application provides a kind of method and the electronic equipment that control electronic equipment, lacks for can the problem of man-machine interaction mode of deformation display screen for solving in prior art.

The application on the one hand provides a kind of method controlling electronic equipment, is applied to that have can the electronic equipment of deformation display unit, and described method comprises: detect and press operation in described display unit presumptive area; Obtain described display unit at the described deformation parameter pressed under operation effect; When described deformation parameter meet impose a condition time, the first area corresponding with described deformation parameter determined by described display unit; By described first area from the first current state transfer to second state different from described first state.

Optionally, described when described deformation parameter meet impose a condition time, the first area corresponding with described deformation parameter determined by described display unit, comprising: the deformation degree determining described display unit according to described deformation parameter; When described deformation degree reaches setting threshold value, described first area determined by described display unit.

Optionally, describedly on described display unit, determine the first area corresponding with described deformation parameter, comprise: when the described operating point position pressing operation is in the first responsive state not responding touch control operation, determine that the region centered by described operating point is described first area.

Optionally, describedly on described display unit, determine the first area corresponding with described deformation parameter, comprise: when the described operating point position pressing operation is in second responsive state that can respond touch control operation, according to described deformation parameter determination deformation direction; Determine that region corresponding with described deformation direction on described display unit is described first area.

Optionally, when determining described first area, the size of described first area determined by the deformation quantity of the described display unit determined according to described deformation parameter.

Optionally, described by described first area from the first current state transfer to second state different from described first state, comprising: described first area is converted to second responsive state that can respond touch control operation by the first responsive state not responding touch control operation.

Optionally, described by described first area from the first current state transfer to second state different from described first state, comprising: by described first area from current first display state transfer be the second display state different from described first display state.

Optionally, described by described first area from current first display state transfer be the second display state different from described first display state, comprise: change the transparency of described first area into second transparency different from described first transparency from the first current transparency, wherein, the size of described second transparency determined according to described deformation parameter.

The embodiment of the present application provides a kind of electronic equipment on the other hand, comprising: storage unit, for storing instruction; Can the display unit of deformation; Processor, for performing described instruction, detecting and pressing operation in described display unit presumptive area; Obtain described display unit at the described deformation parameter pressed under operation effect; When described deformation parameter meet impose a condition time, the first area corresponding with described deformation parameter determined by described display unit; By described first area from the first current state transfer to second state different from described first state.

Optionally, when described processor imposing a condition for meeting when described deformation parameter, the first area corresponding with described deformation parameter being determined by described display unit, is specially: the deformation degree determining described display unit according to described deformation parameter; And when described deformation degree reaches setting threshold value, described first area determined by described display unit.

Optionally, described processor for determining the first area corresponding with described deformation parameter on described display unit, be specially: when the described operating point position pressing operation is in the first responsive state not responding touch control operation, determine that the region centered by described operating point is described first area.

Optionally, described processor for determining the first area corresponding with described deformation parameter on described display unit, be specially: when the described operating point position pressing operation is in second responsive state that can respond touch control operation, according to described deformation parameter determination deformation direction; And determine that region corresponding with described deformation direction on described display unit is described first area.

Optionally, described processor is when determining described first area, and the size of described first area determined by the deformation quantity of the described display unit determined according to described deformation parameter.

Optionally, described processor be used for by described first area from the first current state transfer to second state different from described first state, be specially: described first area is converted to second responsive state that can respond touch control operation by the first responsive state not responding touch control operation.

Optionally, described processor be used for by described first area from the first current state transfer to second state different from described first state, be specially: by described first area from current first display state transfer be the second display state different from described first display state.

Optionally, it is the second display state different from described first display state that described processor is used for described first area to show state transfer from current first, be specially: change the transparency of described first area into second transparency different from described first transparency from the first current transparency, wherein, the size of described second transparency determined according to described deformation parameter.

The one or more technical schemes provided in the embodiment of the present application, at least have following technique effect or advantage:

Due to electronic equipment can detect user for can deformation display unit press operation, and determine that user's presses the threshold condition whether operation meets a regional work state on change display unit, and when pressing operation and satisfying condition, determining a region according to pressing operation, changing the duty in this region.Therefore, user can, by pressing display unit, make display unit be out of shape, and changes the duty in a region on display unit with this, provides user and electronic equipment carries out mutual convenient form of clamp, improves the experience of user.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the embodiment of the present application, below the accompanying drawing used required in describing embodiment is briefly introduced, apparently, accompanying drawing in the following describes is only some embodiments of the application, 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 the schematic flow sheet of the method controlling electronic equipment in the embodiment of the present application;

Fig. 2 is the schematic diagram determining first area in the embodiment of the present application according to user operation;

Fig. 3 is the structural schematic block diagram of electronic equipment in the embodiment of the present application.

Embodiment

The application provides a kind of method and the electronic equipment that control electronic equipment, lacks for can the problem of man-machine interaction mode of deformation display screen for solving in prior art.

Below by accompanying drawing and specific embodiment, technical scheme is described in detail, the specific features being to be understood that in the embodiment of the present application and embodiment is the detailed description to technical scheme, instead of the restriction to technical scheme, when not conflicting, the technical characteristic in the embodiment of the present application and embodiment can combine mutually.

See Fig. 1, the schematic flow sheet of the method for the control electronic equipment provided for the embodiment of the present application, this flow process comprises the steps:

Step 101: detect and press operation in display unit presumptive area;

Step 102: obtain display unit and pressing the deformation parameter under operation effect;

Step 103: when deformation parameter meet impose a condition time, determine the first area corresponding with deformation parameter on the display unit;

Step 104: by first area from the first current state transfer to second state different from the first state.

Concrete, the electronic equipment in the embodiment of the present application is that have can the equipment of display unit of deformation, is specifically as follows smart mobile phone, panel computer, intelligent watch, etc.Can the display unit of deformation can be touch-screen, also can be non-touch screen; Can the display unit of deformation be touch-screen time, can be electric resistance touch screen, also can be capacitance touch screen, also can be surface wave touch-screens, etc.

In step 101, presumptive area is the region that on display unit, duty can change, and in actual conditions, presumptive area can be whole viewing areas of display unit, also can be a partial display area on display unit.Wherein, duty can change to comprise and at least comprises following situation: the mode of viewing area response user operation can change, or the mode of viewing area display image can change, etc.

When display unit is touch-screen, can detect that user's presses operation by the resistance sensing unit of touch-screen or capacitive sensing cells or surface acoustic wave sensing unit.And when display unit is non-touch screen, the pressure sensitive unit that can be arranged by non-touch screen surface detects that user's presses operation.

In step 102, detect user press operation after, detection acquisition display device is pressed the deformation parameter under operation effect by electronic equipment user, deformation parameter includes but not limited to: the deformation amplitude of deformation position, deformation position, the size of the acting force that deformation position is subject to, direction, etc.

Wherein, deformation position can pass through sensing device integrated in display unit, or the sensing device detection arranged on the display unit obtains.

And the deformation amplitude of deformation position can be determined according to the detected value of sensing device equally.Enumerate two kinds of implementations wherein below, but when specifically implementing, be not limited to following two kinds of embodiments:

One, the surface of display screen is provided with the strain gauge resistance sensor with flexible member, this flexible member can be resistance strain gage, resistance strain gage is fitted in display unit surface or display surface lower floor, wherein, resistance strain gage with display unit deformation with width deformation, change in resistance during resistance strain gage deformation, the change of the electrical parameter that strain gauge resistance sensor can detect.

Due to along with display unit deformation amplitude different, the electrical parameter parameter detected is different, and therefore, based on certain mathematical model, the electrical parameter parameter that can detect according to electric resistance sensor determines the deformation amplitude of deformation position.

They are two years old, the surface of display screen is provided with surface acoustic wave sensor, surface acoustic wave sensor with piezoelectric substrate (as quartz substrate) for pressure vibration film, this pressure vibration film can produce deformation along with display unit with width, piezoelectric substrate after deformation is due to the changes in distribution of stress/strain, surface acoustic wave velocity of propagation is thereon caused to change, by adopting with SAW (Surface Acoustic Wave) device as feeding back the resonator mode of unit, namely its frequency output signal presents good linear relationship with applied acting force, the size of added acting force and the deformation amplitude of deformation position is detected with this.

And sensor can be adopted equally to detect for the detection in amount of force suffered by deformation position and direction to obtain, a kind of mode is directly obtained by pressure transducer, and another kind of mode is size and the direction that the deformation amplitude analog computation detecting electrical parameter or the display unit obtained according to sensor goes out acting force.For other obtain manner of deformation parameter, those skilled in the art can with reference to relevant technical scheme of the prior art.

In step 103, satisfied the imposing a condition of deformation parameter includes but not limited to following situation:

(1), when the deformation amplitude of deformation position reaches predetermined amplitude threshold value, determine that deformation parameter meets and impose a condition.In actual conditions, deformation amplitude can characterize with the radius-of-curvature at deformation position place, angle of bend etc.

(2) acting force suffered by deformation position reaches default acting force threshold value, determines that deformation parameter meets and imposes a condition.

(3) the deformation degree of display unit is determined according to deformation parameter, deformation degree can for any one in the deformation parameters such as acting force suffered by the radius-of-curvature of deformation position, display unit angle of bend, deformation position, or the weighted sum value of wherein more than two or two, when deformation degree reaches setting threshold value, determine that deformation parameter meets and impose a condition.

(4), in the position-scheduled region of deformation position, determine that deformation parameter meets and impose a condition.

In concrete enforcement, can be that one of above-mentioned condition meets, then determine that deformation parameter meets and impose a condition; In addition, when not conflicting, also can be that two or more in above-mentioned condition are just determined that deformation parameter meets when meeting and imposed a condition, the embodiment of the present application will not limit.

Determine deformation parameter meet impose a condition after, electronic equipment will determine a region according to deformation parameter, be called first area in the embodiment of the present application, change to make the duty of first area.Concrete, first area can be determined in the following manner:

Mode 1, the region centered by determination operation point is first area.

Concrete, centered by the operating point of user, determine that a region is as first area, the shape in this region can be preset shape, as circular, oval or square; The shape in this region also can be consistent with the deformed shape of display unit, and such as, when deformation region is an elliptical region, first area can for comprising the region consistent with deformation region shape of oval deformation region.

Mode 2, according to deformation parameter determination deformation direction, determines that region corresponding with deformation direction on display unit is first area.

Concrete, first, determine the deformation direction of display unit, deformation direction can directly be determined according to the direction of the user applied force detected, also can carry out analog computation according to the radius-of-curvature distribution detecting the deformation region that obtain and go out deformation direction, the electrical parameter of the inspection positions that the deformation region that can also directly detect according to sensing device is corresponding is simulated and is determined deformation direction.For determining the nyctitropic embodiment of shape, those skilled in the art can with reference to prior art.

Then, the position of first area is determined according to deformation direction.Such as, the angle in the undeformed region (or display surface during undeformed) of deformation direction and display surface be less than one preset smaller angle time, as 8 °, now, can determine that first area is and the region on touch point homonymy display surface, in conjunction with the projection of deformation direction in the undeformed region of display surface, can determine that the center of first area is on this projecting direction.And the distance of the centre distance operating point of first area can be determined according to the deformation degree of display unit, deformation degree is larger, then the distance of the centre distance operating point of first area is far away.

Again such as, see Fig. 2, when display surface is double-sided display face, if the angle of the undeformed region of deformation direction and display surface (or display surface during undeformed) is greater than predetermined angle, then can determine that first area is the region on the display surface of side relative to touch point, the center of first area can be the intersection point of deformation direction and operating point offside display surface.

Identical with mode 1, the shape of the first area determined in mode 2 can be preset shape, as circular, oval or square; The shape of first area also can be consistent with the deformed shape of display unit.

Mode 3, be in when not responding the first responsive state pressing operation in the operating point position pressing operation, the region centered by determination operation point is first area; And/or

When the operating point position pressing operation is in second responsive state that can respond touch control operation, according to deformation parameter determination deformation direction, determine that region corresponding with deformation direction on display unit is first area.

Concrete, display unit is touch-screen, in order to avoid several user carries out the touch control operation that contradicts each other, ensure that electronic equipment correctly can respond the operation of user, on display unit viewing area can be made to be in second responsive state that can respond user's input operation, all the other regions are in do not respond the first responsive state of user's input operation, the user be positioned at like this before the viewing area of the second responsive state can lock the control of display unit.

During concrete enforcement, when mode 3 is implemented, specifically comprise following situation:

Situation 1, the user being positioned at the viewing area place of the first responsive state initiatively can change the duty of current display area, that is: when the operating point position pressing operation is in the first responsive state, a region centered by determination operation point is first area, so that by the active state of first area.

Situation 2, the user being only positioned at the viewing area place of the second responsive state can change the duty of viewing area, that is: when the operating point position pressing operation is in the second responsive state, according to deformation parameter determination deformation direction, determine that region corresponding with deformation direction on display unit is first area, so that by the active state of first area.

Situation 3, the use at the user being positioned at the viewing area place of the first responsive state and the viewing area place being positioned at the second responsive state can make display unit generation deformation determine first area per family, the first area that the user being wherein positioned at the viewing area place of the first responsive state determines is centered by operating point, and the user being positioned at the viewing area place of the second responsive state then determines first area according to deformation direction.

In mode 3, the embodiment of different situations can with reference to the embodiment of mode 1 and mode 2, and the embodiment of the present application will not describe in detail.

Optionally, in step 103 when determining first area, the size of first area determined by the deformation quantity of the display unit determined according to deformation parameter.The deformation quantity of display unit is larger, and the size of the first area determined is larger.Optionally, when deformation quantity reaches a threshold value, the size of first area reaches maximal value, and afterwards, if deformation quantity is greater than this threshold value, it is constant that the large young pathbreaker of first area remains on maximal value.

In step 104, electronic equipment will change the duty of the first area determined, specifically comprises following two kinds of implementations:

Implementation 1, is converted to second responsive state that can respond touch control operation by the first responsive state not responding touch control operation by first area.

Concrete, be in the first responsive state according to the first area determined in mode in step 103 3, being positioned at the user before the first responsive state can not by touch-control first area operating electronic equipment.In step 104, first area is changed into second responsive state that can respond touch control operation, the user before being in first area is possessed of control power.If be that the mode of the situation 1 in pass-through mode 3 determines first area in step 103, then can be understood as first area place user and initiatively asked for the control of electronic equipment.And if be that the mode of the situation 2 in pass-through mode 3 determines first area in step 103, then the control of electronic equipment is initiatively gone to the user being positioned at first area place by the user that can be understood as current operation.

Implementation 2, it is the second display state different from the first display state that first area is shown state transfer from current first.

Concrete, the transformation of first area display state comprises following situation:

One, if determine in step 103 that region centered by user operation point is for first area, then first area and deformation region overlap, and now can change first area into Special display state after deformation from normal display state during undeformed.The display position of displaying contents specific on display surface (file that such as recycle bin, user choose, the file of preset format) can be transferred to the first area after deformation under Special display state, or the display position of the displaying contents near first area is transferred to the first area after deformation, makes these displaying contents present the display effect of " falling to " first area.

Its two, make first area show the displaying contents preset, or make first area become non-display area, present the effect of local blank screen.

Its three, when display unit is transparent display screen, the transparency of first area can be changed, change the transparency of first area into second transparency different from the first transparency from the first current transparency.Second transparency can be higher than the first transparency, even if first area is more transparent; Second transparency can be lower than the first transparency, even if first area becomes opaquer.Wherein, the difference of the first transparency and the second transparency can be determined according to deformation parameter, and such as, deformation amplitude is larger, and the change of transparency is larger.

When step 104 performs, can be that implementation 1 occurs with in implementation 2, also can be two and occur simultaneously.

Optionally, if step 104 performs according to above-mentioned implementation 1, then after step 104, active user touch area can also be changed into do not respond user's input operation the first responsive state, to ensure that first area place user can monopolize the touch-control control of display unit from second responsive state that can respond user's input operation.

In the application's technique scheme, can detect user for can deformation display unit press operation, and determine that user's presses the threshold condition whether operation meets a regional work state on change display unit, and when pressing operation and satisfying condition, a region is determined according to pressing operation, change the duty in this region, make user can by pressing display unit, display unit is out of shape, and the duty in a region on display unit is changed with this, provide user and electronic equipment carries out mutual convenient form of clamp, improve the experience of user.

Based on identical technical conceive, the embodiment of the present application additionally provides a kind of electronic equipment, and see Fig. 3, electronic equipment comprises: bus 200 and be connected to processor 201, storage unit 202, the display unit 203 of bus 200.

Wherein, display unit 203 can deformation;

Storage unit 202, for storing instruction;

Processor 201, for performing the instruction in storage unit 202, detecting and pressing operation in display unit 203 presumptive area; Obtain display unit 203 and press the deformation parameter under operation effect; When deformation parameter meet impose a condition time, the first area corresponding with deformation parameter determined by display unit 203; By first area from the first current state transfer to second state different from the first state.

Optionally, when processor 201 imposing a condition for meeting when deformation parameter, the first area corresponding with deformation parameter being determined by display unit 203, is specially: the deformation degree determining display unit 203 according to deformation parameter; And when deformation degree reaches setting threshold value, first area determined by display unit 203.

Optionally, processor 201 for determining the first area corresponding with deformation parameter on display unit 203, be specially: when the operating point position pressing operation is in the first responsive state not responding touch control operation, the region centered by determination operation point is first area.

Optionally, processor 201 for determining the first area corresponding with deformation parameter on display unit 203, be specially: when the operating point position pressing operation is in second responsive state that can respond touch control operation, according to deformation parameter determination deformation direction; And determine that region corresponding with deformation direction on display unit 203 is first area.

Optionally, processor 201 is when determining first area, and the size of first area determined by the deformation quantity of the display unit 203 determined according to deformation parameter.

Optionally, processor 201 for by first area from the first current state transfer to second state different from the first state, be specially: first area is converted to second responsive state that can respond touch control operation by the first responsive state not responding touch control operation.

Optionally, processor 201 for by first area from the first current state transfer to second state different from the first state, be specially: by first area from current first display state transfer be the second display state different from the first display state.

Optionally, processor 201 is the second display state different from the first display state for first area is shown state transfer from current first, be specially: change the transparency of first area into second transparency different from the first transparency from the first current transparency, wherein, the size of the second transparency determined according to deformation parameter.

Preferably, electronic equipment also comprises: the ROM (read-only memory) being connected to bus 200, when needs run electronic equipment, is started by the Basic Input or Output System (BIOS) guidance system be solidificated in ROM (read-only memory), guides electronic equipment to enter normal operating condition.And after electronic equipment enters normal operating condition, run application and operating system in storage unit 202.

The mode of the various control electronic equipments in the method for the control electronic equipment in previous embodiment and instantiation are equally applicable to the electronic equipment of the present embodiment, by in previous embodiment to the detailed description of method controlling electronic equipment, those skilled in the art clearly can know the implementation method of electronic equipment in the present embodiment, so succinct in order to instructions, be not described in detail in this.

The one or more technical schemes provided in the embodiment of the present application, at least have following technique effect or advantage:

1, in the application's technique scheme, can detect user for can deformation display unit press operation, and determine that user's presses the threshold condition whether operation meets a regional work state on change display unit, and when pressing operation and satisfying condition, a region is determined according to pressing operation, change the duty in this region, make user can by pressing display unit, display unit is out of shape, and the duty in a region on display unit is changed with this, provide user and electronic equipment carries out mutual convenient form of clamp, improve the experience of user.

2, in the embodiment of the present application, current be in the user before the viewing area not responding user's input operation can by pressing current display area, viewing area is out of shape, carry out the touch-control control of active obtaining display unit with this, viewing area is in front become the viewing area that can respond user's input operation.

3, in the embodiment of the present application, current be in the user before the viewing area that can respond user's input operation can by pressing current display area, viewing area is out of shape, with this, active is by the touch-control control right transfer of display unit to other users, makes the viewing area corresponding with display unit deformation direction become the viewing area that can respond user's input operation.

4, in the embodiment of the present application, user can be changed by the display state making display unit generation deformation change viewing area corresponding with the deformation of display unit on display unit, has enriched the interactive mode of user and electronic equipment.

Those skilled in the art should understand, the embodiment of the application can be provided as method, system or computer program.Therefore, the application can adopt the form of complete hardware embodiment, completely software implementation or the embodiment in conjunction with software and hardware aspect.And the application can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disk memory, CD-ROM, optical memory etc.) of computer usable program code.

The application describes with reference to according to the process flow diagram of the method for the embodiment of the present application, equipment (system) and computer program and/or block scheme.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block scheme and/or square frame and process flow diagram and/or block scheme and/or square frame.These computer program instructions can being provided to the processor of multi-purpose computer, special purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computing machine or other programmable data processing device produce device for realizing the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

Specifically, the computer program instructions that the method for the control electronic equipment in the embodiment of the present application is corresponding can be stored in CD, hard disk, on the storage mediums such as USB flash disk, when the computer program instructions corresponding with the method controlling electronic equipment in storage medium is read by an electronic equipment or be performed, comprise the steps:

Detect and press operation in described display unit presumptive area;

Obtain described display unit at the described deformation parameter pressed under operation effect;

When described deformation parameter meet impose a condition time, the first area corresponding with described deformation parameter determined by described display unit;

By described first area from the first current state transfer to second state different from described first state.

Optionally, that store in storage medium and step: when described deformation parameter meet impose a condition time, the first area corresponding with described deformation parameter determined by described display unit, and corresponding computer instruction, being specifically performed in process, specifically comprises the steps:

The deformation degree of described display unit is determined according to described deformation parameter;

When described deformation degree reaches setting threshold value, described first area determined by described display unit.

Optionally, store in storage medium with step: on described display unit, determine the first area corresponding with described deformation parameter, corresponding computer instruction, being specifically performed in process, specifically comprises the steps:

When the described operating point position pressing operation is in the first responsive state not responding touch control operation, determine that the region centered by described operating point is described first area.

Optionally, store in storage medium with step: on described display unit, determine the first area corresponding with described deformation parameter, corresponding computer instruction, being specifically performed in process, specifically comprises the steps:

When the described operating point position pressing operation is in second responsive state that can respond touch control operation, according to described deformation parameter determination deformation direction;

Determine that region corresponding with described deformation direction on described display unit is described first area.

Optionally, store in storage medium from step: by described first area from the first current state transfer to second state different with described first state, corresponding computer instruction, being specifically performed in process, specifically comprises the steps:

Described first area is converted to second responsive state that can respond touch control operation by the first responsive state not responding touch control operation.

Optionally, store in storage medium from step: by described first area from the first current state transfer to second state different with described first state, corresponding computer instruction, being specifically performed in process, specifically comprises the steps:

It is the second display state different from described first display state that described first area is shown state transfer from current first.

Optionally, store in storage medium from step: it is the second display state different with described first display state that described first area is shown state transfer from current first, corresponding computer instruction, being specifically performed in process, specifically comprises the steps:

Change the transparency of described first area into second transparency different from described first transparency from the first current transparency, wherein, the size of described second transparency determined according to described deformation parameter.

Although described the preferred embodiment of the application, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the application's scope.

Obviously, those skilled in the art can carry out various change and modification to the application and not depart from the spirit and scope of the application.Like this, if these amendments of the application and modification belong within the scope of the application's claim and equivalent technologies thereof, then the application is also intended to comprise these change and modification.

Claims (16)

1. control a method for electronic equipment, be applied to that have can the electronic equipment of deformation display unit, described method comprises:

Detect and press operation in described display unit presumptive area;

Obtain described display unit at the described deformation parameter pressed under operation effect;

When described deformation parameter meet impose a condition time, the first area corresponding with described deformation parameter determined by described display unit;

By described first area from the first current state transfer to second state different from described first state.

2. the method for claim 1, is characterized in that, described when described deformation parameter meet impose a condition time, the first area corresponding with described deformation parameter determined by described display unit, comprising:

The deformation degree of described display unit is determined according to described deformation parameter;

When described deformation degree reaches setting threshold value, described first area determined by described display unit.

3. the method for claim 1, is characterized in that, describedly on described display unit, determines the first area corresponding with described deformation parameter, comprising:

When the described operating point position pressing operation is in the first responsive state not responding touch control operation, determine that the region centered by described operating point is described first area.

4. the method for claim 1, is characterized in that, describedly on described display unit, determines the first area corresponding with described deformation parameter, comprising:

When the described operating point position pressing operation is in second responsive state that can respond touch control operation, according to described deformation parameter determination deformation direction;

Determine that region corresponding with described deformation direction on described display unit is described first area.

5. the method as described in claim 3 or 4, is characterized in that, when determining described first area, the size of described first area determined by the deformation quantity of the described display unit determined according to described deformation parameter.

6. the method for claim 1, is characterized in that, described by described first area from the first current state transfer to second state different from described first state, comprising:

Described first area is converted to second responsive state that can respond touch control operation by the first responsive state not responding touch control operation.

7. the method for claim 1, is characterized in that, described by described first area from the first current state transfer to second state different from described first state, comprising:

It is the second display state different from described first display state that described first area is shown state transfer from current first.

8. method as claimed in claim 7, is characterized in that, described is the second display state different from described first display state by described first area from the current first display state transfer, comprising:

Change the transparency of described first area into second transparency different from described first transparency from the first current transparency, wherein, the size of described second transparency determined according to described deformation parameter.

9. an electronic equipment, comprising:

Storage unit, for storing instruction;

Can the display unit of deformation;

Processor, for performing described instruction, detecting and pressing operation in described display unit presumptive area; Obtain described display unit at the described deformation parameter pressed under operation effect; When described deformation parameter meet impose a condition time, the first area corresponding with described deformation parameter determined by described display unit; By described first area from the first current state transfer to second state different from described first state.

10. electronic equipment as claimed in claim 9, it is characterized in that, when described processor imposes a condition for meeting when described deformation parameter, the first area corresponding with described deformation parameter determined by described display unit, is specially: the deformation degree determining described display unit according to described deformation parameter; And when described deformation degree reaches setting threshold value, described first area determined by described display unit.

11. electronic equipments as claimed in claim 9, it is characterized in that, described processor for determining the first area corresponding with described deformation parameter on described display unit, be specially: when the described operating point position pressing operation is in the first responsive state not responding touch control operation, determine that the region centered by described operating point is described first area.

12. electronic equipments as claimed in claim 9, it is characterized in that, described processor for determining the first area corresponding with described deformation parameter on described display unit, be specially: when the described operating point position pressing operation is in second responsive state that can respond touch control operation, according to described deformation parameter determination deformation direction; And determine that region corresponding with described deformation direction on described display unit is described first area.

13. electronic equipments as described in claim 11 or 12, it is characterized in that, described processor is when determining described first area, and the size of described first area determined by the deformation quantity of the described display unit determined according to described deformation parameter.

14. electronic equipments as claimed in claim 9, it is characterized in that, described processor be used for by described first area from the first current state transfer to second state different from described first state, be specially: described first area is converted to second responsive state that can respond touch control operation by the first responsive state not responding touch control operation.

15. electronic equipments as claimed in claim 9, it is characterized in that, described processor be used for by described first area from the first current state transfer to second state different from described first state, be specially: by described first area from current first display state transfer be the second display state different from described first display state.

16. electronic equipments as claimed in claim 15, it is characterized in that, it is the second display state different from described first display state that described processor is used for described first area to show state transfer from current first, be specially: change the transparency of described first area into second transparency different from described first transparency from the first current transparency, wherein, the size of described second transparency determined according to described deformation parameter.