CN105528098B - A kind of method and electronic equipment of controlling electronic devices - Google Patents

Abstract

The invention discloses a kind of method of controlling electronic devices and electronic equipment, for solve the problems, such as to lack in the prior art for can deformation display screen man-machine interaction mode.The method of the controlling electronic devices be applied to can deformation display unit electronic equipment, which comprises detection press operation in the display unit presumptive area；The display unit is obtained in the deformation parameter pressed under operation effect；When the deformation parameter, which meets, to impose a condition, first area corresponding with the deformation parameter is determined on the display unit；The first area is converted to second state different from the first state from current first state.

Description

A kind of method and electronic equipment of controlling electronic devices

Technical field

The present invention relates to electronic technology field, in particular to the method and electronic equipment of a kind of controlling electronic devices.

Background technique

With the continuous development of technology, the type of electronic equipment is more and more, and function is stronger and stronger, to the daily of people Production and living bring great convenience.

Currently, many electronic equipments are provided with deformable display screen, can deformation display screen after deformation, show content Display effect will generate variation, for example, plan view will have more spatial impression when showing on curved display surface.But it can shape Becoming display screen, there is no variations from the working mechanism before and after deformation, cannot come just for the interacting strip of user and electronic equipment Benefit.

Summary of the invention

The application provides the method and electronic equipment of a kind of controlling electronic devices, is directed to for solving to lack in the prior art Can deformation display screen man-machine interaction mode the problem of.

The application on the one hand provide a kind of method of controlling electronic devices, applied to have can deformation display unit electricity Sub- equipment, which comprises detection presses operation in the display unit presumptive area；The display unit is obtained to exist The deformation parameter pressed under operation effect；When the deformation parameter, which meets, to impose a condition, on the display unit really Make first area corresponding with the deformation parameter；The first area is converted to and described from current first state The second different state of one state.

Optionally, it is described when the deformation parameter meet impose a condition when, determined on the display unit with it is described The corresponding first area of deformation parameter, comprising: the deformation degree of the display unit is determined according to the deformation parameter；Work as institute When stating deformation degree and reaching given threshold, the first area is determined on the display unit.

Optionally, described that first area corresponding with the deformation parameter is determined on the display unit, comprising: When the operating point position for pressing operation is in the first responsive state for being not responding to touch control operation, the operating point is determined Centered on a region be the first area.

Optionally, described that first area corresponding with the deformation parameter is determined on the display unit, comprising: When the operating point position for pressing operation is in the second responsive state for being able to respond touch control operation, according to the deformation Parameter determines deformation direction；Determine that region corresponding with the deformation direction is the first area on the display unit.

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

Optionally, described that the first area is converted to different from the first state from current first state Two-state, comprising: the first area is converted to by the first responsive state for being not responding to touch control operation and is able to respond touch-control behaviour The second responsive state made.

Optionally, described that the first area is converted to different from the first state from current first state Two-state, comprising: be changed into from the first current display state the first area different from the first display state Second display state.

Optionally, described to be changed into the first area and the first display state from the first current display state Different second display states, comprising: by the transparency of the first area from the first current transparency be changed into it is described The second different transparency of first transparency, wherein the size of second transparency is determined according to the deformation parameter.

On the other hand the embodiment of the present application provides a kind of electronic equipment, comprising: storage unit, for storing instruction；It can shape The display unit of change；Processor, for executing described instruction, detection presses operation in the display unit presumptive area； The display unit is obtained in the deformation parameter pressed under operation effect；When the deformation parameter, which meets, to impose a condition, First area corresponding with the deformation parameter is determined on the display unit；By the first area from current first State is converted to second state different from the first state.

Optionally, the processor is used for when the deformation parameter meets and imposes a condition, on the display unit really First area corresponding with the deformation parameter is made, specifically: the display unit is determined according to the deformation parameter Deformation degree；And when the deformation degree reaches given threshold, the first area is determined on the display unit.

Optionally, the processor on the display unit for determining the firstth area corresponding with the deformation parameter Domain, specifically: when the operating point position for pressing operation is in the first responsive state for being not responding to touch control operation, really A region centered on the fixed operating point is the first area.

Optionally, the processor on the display unit for determining the firstth area corresponding with the deformation parameter Domain, specifically: when the operating point position for pressing operation is in the second responsive state for being able to respond touch control operation, Deformation direction is determined according to the deformation parameter；And determine that region corresponding with the deformation direction is institute on the display unit State first area.

Optionally, for the processor when determining the first area, the size of the first area is by according to the shape The deformation quantity for the display unit that variable element is determined is determined.

Optionally, the processor is for the first area to be converted to and first shape from current first state The second different state of state, specifically: the first area is converted to energy by the first responsive state for being not responding to touch control operation Enough respond the second responsive state of touch control operation.

Optionally, the processor is for the first area to be converted to and first shape from current first state The second different state of state, specifically: the first area is changed into from the first current display state and is shown with described first Show the second different display state of state.

Optionally, the processor is used to for being changed into and described the from the first current display state the first area The second different display state of one display state, specifically: by the transparency of the first area from the first current transparency It is changed into second transparency different from first transparency, wherein the size of second transparency is according to the deformation Parameter is determined.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

Due to electronic equipment be able to detect that user for can deformation display unit press operation, and the touching of determination user Whether press operation meets the threshold condition for changing a regional work state on display unit, and when pressing operation and meeting condition, A region is determined according to operation is pressed, and changes the working condition in the region.Therefore, user can by pressing display unit, Display unit is deformed, changes the working condition in a region on display unit with this, user is provided and electronic equipment carries out Interactive convenient form of clamp improves the usage experience of user.

Detailed description of the invention

In order to more clearly explain the technical solutions in the embodiments of the present application, make required in being described below to embodiment Attached drawing is briefly introduced, it should be apparent that, the drawings in the following description are only some examples of the present application, for this For the those of ordinary skill in field, without any creative labor, it can also be obtained according to these attached drawings His attached drawing.

Fig. 1 is the flow diagram of the method for controlling electronic devices in the embodiment of the present application；

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

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

Specific embodiment

The application provides the method and electronic equipment of a kind of controlling electronic devices, is directed to for solving to lack in the prior art Can deformation display screen man-machine interaction mode the problem of.

Technical scheme is described in detail below by attached drawing and specific embodiment, it should be understood that the application Specific features in embodiment and embodiment are the detailed description to technical scheme, rather than to present techniques The restriction of scheme, in the absence of conflict, the technical characteristic in the embodiment of the present application and embodiment can be combined with each other.

It is the flow diagram of the method for controlling electronic devices provided by the embodiments of the present application referring to Fig. 1, which includes Following steps:

Step 101: detection presses operation in display unit presumptive area；

Step 102: obtaining deformation parameter of the display unit in the case where pressing operation effect；

Step 103: when deformation parameter, which meets, to impose a condition, determining corresponding with deformation parameter the on the display unit One region；

Step 104: first area is converted to second state different from first state from current first state.

It, specifically can be with specifically, electronic equipment in the embodiment of the present application is the equipment with deformable display unit For smart phone, tablet computer, smartwatch, etc..Deformable display unit can be touch screen, or non-tactile Screen；It can be electric resistance touch screen, or capacitance touch screen when deformable display unit is touch screen, or Surface wave touch-screens, etc..

In step 101, presumptive area is the region that can change of working condition on display unit, in actual conditions, is made a reservation for Region can be whole display areas of display unit, or a partial display area on display unit.Wherein, work Making state can change including including at least following situations: the mode of display area response user's operation can change, Huo Zhexian Show that region shows that the mode of image can change.

When display unit is touch screen, can by the resistance sensing unit or capacitive sensing cells of touch screen or Surface acoustic wave sensing unit detects that user's presses operation.And when display unit is non-touch screen, it can be by non-touch The pressure sensitive unit for touching screen surfaces setting detects that user's presses operation.

In step 102, detect user press operation after, electronic equipment will test acquisition display equipment in user The deformation parameter under operation effect is pressed, deformation parameter includes but is not limited to: the deformation amplitude of deformation position, deformation position, shape Size, direction of the active force being subject to, etc. are set in displacement.

Wherein, deformation position can be by sensing device integrated in display unit, or is arranged on the display unit Sensing device detects to obtain.

And the deformation amplitude of deformation position can equally be determined according to the detected value of sensing device.It is set forth below therein two Kind implementation, but when it is implemented, being not limited to following two embodiment:

First, the surface of display screen is provided with the strain gauge resistance sensor with elastic element, which can be with For resistance strain gage, resistance strain gage is fitted in display unit surface or display surface lower layer, wherein resistance strain gage is single with display First deformation and with width deformation, change in resistance when resistance strain gage deformation, the electricity ginseng that strain gauge resistance sensor is able to detect that Several variations.

Since with display unit deformation amplitude difference, the electrical parameter parameter detected is different, therefore, based on certain Mathematical model can determine the deformation amplitude of deformation position according to the electrical parameter parameter that electric resistance sensor detects.

Second, the surface of display screen is provided with surface acoustic wave sensor, surface acoustic wave sensor is with piezoelectric substrate (such as quartz Substrate) be pressure vibration film, which with width can generate deformation with display unit, piezoelectric substrate after deformation by In the changes in distribution of stress/strain, the spread speed of surface acoustic wave on it is caused to change, by using with SAW device For the resonator mode of feedback member, frequency output signal is that good linear relationship is presented with the active force applied, with this Detect the added size of active force and the deformation amplitude of deformation position.

And the detection of amount of force suffered by deformation position and direction can equally be obtained using sensor detection, one Kind mode is directly to be obtained by pressure sensor, and another way is the electrical parameter detected according to sensor or shows Show that the deformation amplitude simulation of unit calculates size and the direction of active force.For other acquisition modes of deformation parameter, ability Domain those of skill in the art can refer to relevant technical solution in the prior art.

In step 103, deformation parameter meets the including but not limited to following scenario described that imposes a condition:

(1) it when the deformation amplitude of deformation position reaches predetermined amplitude threshold value, determines that deformation parameter meets and imposes a condition.It is practical In situation, deformation amplitude can be characterized with radius of curvature, bending angle at deformation position etc..

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

(3) determine that the deformation degree of display unit, deformation degree can be the curvature of deformation position according to deformation parameter Any one or two therein in the deformation parameters such as radius, display unit bending angle, active force suffered by deformation position Or two or more weighted sum values determine that deformation parameter meets and impose a condition when deformation degree reaches given threshold.

(4) it in the position-scheduled region of deformation position, determines that deformation parameter meets and imposes a condition.

In specific implementation, one of above-mentioned condition satisfaction can be, it is determined that deformation parameter, which meets, to impose a condition；In addition, In the case where not conflicting, two or more for being also possible in above-mentioned condition just determine that deformation parameter meets setting when meeting Condition, the embodiment of the present application not limit.

After determining that deformation parameter meets setting condition, electronic equipment will determine a region according to deformation parameter, It is known as first area in the embodiment of the present application, so that the working condition of first area changes.Specifically, can be by following Mode determines first area:

Mode 1 determines that the region centered on operating point is first area.

Specifically, determining a region using centered on the operating point of user as first area, the shape in the region can Think preset shape, such as round, ellipse or rectangular；The shape in the region can also be with the deformed shape one of display unit Cause, for example, when deformation region is an elliptical region, first area can for comprising oval deformation region with deformation area The consistent region of domain shape.

Mode 2 determines deformation direction according to deformation parameter, determines on display unit that region corresponding with deformation direction is the One region.

Specifically, deformation direction can be directly according to the user detected firstly, determining the deformation direction of display unit Determine that the radius of curvature for the deformation region that can also be obtained according to detection, which is distributed, calculates shape to simulate in the direction of active force It changes direction, the electrical parameters of the corresponding inspection positions of deformation region that can also be directly detected according to sensing device is simulated Determine deformation direction.For determining the nyctitropic specific embodiment of shape, those skilled in the art can refer to existing Technology.

Then, the position of first area is determined according to deformation direction.For example, the undeformed in deformation direction and display surface When the angle in region (or display surface when undeformed) is less than a default smaller angle, such as 8 °, at this point it is possible to determine the firstth area Domain is can in conjunction with projection of the deformation direction in the undeformed region of display surface with the region on the ipsilateral display surface of touch point To determine the center of first area on the projecting direction.And the distance of the centre distance operating point of first area can be according to aobvious Show the deformation degree of unit to determine, deformation degree is bigger, then the distance of the centre distance operating point of first area is remoter.

In another example referring to fig. 2, when display surface is double-sided display face, if the undeformed area in deformation direction and display surface The angle in domain (or display surface when undeformed) is greater than predetermined angle, then can determine that first area is opposite with touch point one A region on the display surface of side, the center of first area can be the intersection point in deformation direction and operating point opposite side display surface.

Identical as mode 1, the shape for the first area determined in mode 2 can be preset shape, such as round, ellipse Or it is rectangular；The shape of first area can also be consistent with the deformed shape of display unit.

Mode 3, the operating point position for pressing operation be in be not responding to press the first responsive state of operation when, really Determining the region centered on operating point is first area；And/or

When the operating point position for pressing operation is in the second responsive state for being able to respond touch control operation, according to shape Variable element determines deformation direction, determines that region corresponding with deformation direction is first area on display unit.

Specifically, display unit is touch screen, in order to avoid the touch control operation that several users are contradicted each other, electricity is ensured Sub- equipment can correctly respond the operation of user, and on display unit display area can be made defeated in user is able to respond The second responsive state for entering operation is in remaining region and is not responding to the first responsive state that user inputs operation, is located in this way User before the display area of second responsive state can lock the control of display unit.

When it is implemented, mode 3 specifically includes following scenario described when implementing:

Situation 1, the user at the display area of the first responsive state can actively change the work of current display area Make state, it may be assumed that when the operating point position for pressing operation is in the first responsive state, determine the area centered on operating point Domain is first area, so as to by the active state of first area.

The work shape that situation 2, the only user at the display area of the second responsive state can change display area State, it may be assumed that when the operating point position for pressing operation is in the second responsive state, deformation direction is determined according to deformation parameter, Determine on display unit that region corresponding with deformation direction is first area, so as to by the active state of first area.

Situation 3, user at the display area of the first responsive state and positioned at the display area of the second responsive state Place with can make per family display unit generate deformation determine first area, wherein be located at the first responsive state display area at The first area that determines of user centered on operating point, and be located at user's then basis at the display area of the second responsive state Determine first area in deformation direction.

In mode 3 embodiment of different situations can in way of reference 1 and mode 2 embodiment, the embodiment of the present application Not it is described in detail.

Optionally, in step 103 when determining first area, the size of first area according to deformation parameter by determining The deformation quantity of display unit is determined.The deformation quantity of display unit is bigger, and the size for the first area determined is bigger.It is optional , when deformation quantity reaches a threshold value, the size of first area reaches maximum value, later, if deformation quantity be greater than the threshold value, first It is constant that the size in region will remain in maximum value.

In step 104, electronic equipment will change the working condition for the first area determined, specifically include following two reality Existing mode:

First area is converted to by the first responsive state for being not responding to touch control operation and is able to respond touch-control by implementation 1 Second responsive state of operation.

Specifically, being in the first responsive state according to the first area determined in mode 3 in step 103, it is located at first User before responsive state can not operate electronic equipment by touch-control first area.In step 104, first area is changed into It is able to respond the second responsive state of touch control operation, so that the user before first area is possessed of control power.If step 103 In be that the mode of situation 1 in pass-through mode 3 determines first area, then can be understood as user at first area and actively ask for The control of electronic equipment.It, can be with and if being that the mode of the situation 2 in pass-through mode 3 determines first area in step 103 The control of electronic equipment is actively gone to user at first area by the user for being interpreted as current operation.

First area is changed into different from the first display state from the first current display state by implementation 2 Two display states.

Specifically, first area shows that the transformation of state includes following situations:

First, if determining that region centered on user's operation point is first area in step 103, first area with Deformation region overlaps, at this time can by first area from undeformed when normal display state be changed into it is special aobvious after deformation Show state.Under Special display state can by specifically shown on display surface content (such as recycle bin, user choose file, The file of preset format) display position be transferred to the first area after deformation, or by the display content near first area Display position be transferred to the first area after deformation, make these display contents present " falling to " first areas display effect Fruit.

Second, first area is made to show preset display content, or first area is made to become non-display area, is in current situation The effect of portion's blank screen.

Third, when display unit is transparent display screen, thus it is possible to vary the transparency of first area, by the saturating of first area Lightness is changed into second transparency different from the first transparency from the first current transparency.Second transparency can be than first Transparency is higher, even if first area is more transparent；Second transparency can be lower than the first transparency, even if first area becomes It is opaquer.Wherein, the difference of the first transparency and the second transparency can be determined according to deformation parameter, for example, deformation width Degree is bigger, and the variation of transparency is bigger.

When step 104 executes, it can be the Xiang Fasheng in implementation 1 and implementation 2, be also possible to two simultaneously Occur.

It optionally, after step 104, can also will be current if step 104 is executed according to above-mentioned implementation 1 User touch area is changed into from the second responsive state for being able to respond user and inputting operation is not responding to user inputs operation the One responsive state, to guarantee that user can monopolize the touch-control control of display unit at first area.

In the application above-mentioned technical proposal, be able to detect that user for can deformation display unit press operation, and it is true That determines user presses whether operation meets the threshold condition for changing a regional work state on display unit, and full pressing operation When sufficient condition, a region is determined according to operation is pressed, changes the working condition in the region, is allowed users to aobvious by pressing Show unit, deform display unit, and change the working condition in a region on display unit with this, provides user and electronics The convenient form of clamp that equipment interacts improves the usage experience of user.

Based on the same technical idea, the embodiment of the present application also provides a kind of electronic equipment, referring to Fig. 3, electronic equipment It include: bus 200 and processor 201, storage unit 202, the display unit 203 for being connected to bus 200.

Wherein, display unit 203 can be with deformation；

Storage unit 202, for storing instruction；

Processor 201 detects the touching in 203 presumptive area of display unit for executing the instruction in storage unit 202 Press operation；Obtain deformation parameter of the display unit 203 in the case where pressing operation effect；When deformation parameter, which meets, to impose a condition, First area corresponding with deformation parameter is determined on display unit 203；First area is converted to from current first state Second state different from first state.

Optionally, processor 201 be used for when deformation parameter meet impose a condition when, determined on display unit 203 with The corresponding first area of deformation parameter, specifically: the deformation degree of display unit 203 is determined according to deformation parameter；And work as When deformation degree reaches given threshold, first area is determined on display unit 203.

Optionally, processor 201 has for determining first area corresponding with deformation parameter on display unit 203 Body are as follows: when the operating point position for pressing operation is in the first responsive state for being not responding to touch control operation, determine operating point Centered on a region be first area.

Optionally, processor 201 has for determining first area corresponding with deformation parameter on display unit 203 Body are as follows: when the operating point position for pressing operation is in the second responsive state for being able to respond touch control operation, according to deformation Parameter determines deformation direction；And determine that region corresponding with deformation direction is first area on display unit 203.

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

Optionally, processor 201 is used to for being converted to from current first state first area different from first state Second state, specifically: first area is converted to by the first responsive state for being not responding to touch control operation and is able to respond touch-control behaviour The second responsive state made.

Optionally, processor 201 is used to for being converted to from current first state first area different from first state Second state, specifically: first area is changed into second different from the first display state from the first current display state Display state.

Optionally, processor 201 is used to for being changed into and the first display shape from the first current display state first area The second different display state of state, specifically: the transparency of first area is changed into and first from the first current transparency The second different transparency of transparency, wherein the size of the second transparency is determined according to deformation parameter.

Preferably, electronic equipment further include: it is connected to the read-only memory of bus 200, when needing to run electronic equipment, System is guided to be started by the basic input output system being solidificated in read-only memory, guidance electronic equipment enters normal Operating status.And after electronic equipment enters normal operating condition, application program and operation system are run in storage unit 202 System.

The mode and specific example of various controlling electronic devicess in the method for controlling electronic devices in previous embodiment Be equally applicable to the electronic equipment of the present embodiment, by previous embodiment to the detailed description of the method for controlling electronic devices, Those skilled in the art are clear that the implementation method of electronic equipment in the present embodiment, so in order to illustrate the letter of book Clean, this will not be detailed here.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

1, in the application above-mentioned technical proposal, be able to detect that user for can deformation display unit press operation, and It determines that user's presses whether operation meets the threshold condition for changing a regional work state on display unit, and is pressing operation When meeting condition, a region is determined according to operation is pressed, changes the working condition in the region, allows users to by pressing Display unit deforms display unit, and changes the working condition in a region on display unit with this, provides user and electricity The convenient form of clamp that sub- equipment interacts improves the usage experience of user.

2, in the embodiment of the present application, being currently at the user before being not responding to the display area that user's input operates can pass through Current display area is pressed, display area is deformed, the touch-control control of display unit is actively obtained with this, by showing in front Show that region becomes being able to respond the display area that user inputs operation.

3, in the embodiment of the present application, being currently at the user before being able to respond the display area that user's input operates can lead to Cross pressing current display area, deform display area, with this come actively by the touch-control control right transfer of display unit to other User makes display area corresponding with display unit deformation direction become being able to respond the display area that user inputs operation.

4, in the embodiment of the present application, user can by make display unit generate deformation come change on display unit with display The display state of the corresponding display area of the deformation of unit changes, and enriches the interactive mode of user and electronic equipment.

It should be understood by those skilled in the art that, embodiments herein can provide as method, system or computer program Product.Therefore, complete hardware embodiment, complete software embodiment or reality combining software and hardware aspects can be used in the application Apply the form of example.Moreover, it wherein includes the computer of computer usable program code that the application, which can be used in one or more, The computer program implemented in usable storage medium (including but not limited to magnetic disk storage, CD-ROM, optical memory etc.) produces The form of product.

The application is referring to method, the process of equipment (system) and computer program product according to the embodiment of the present application Figure and/or block diagram describe.It should be understood that every one stream in flowchart and/or the block diagram can be realized by computer program instructions The combination of process and/or box in journey and/or box and flowchart and/or the block diagram.It can provide these computer programs Instruct the processor of general purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices to produce A raw machine, so that being generated by the instruction that computer or the processor of other programmable data processing devices execute for real The device for the function of being specified in present one or more flows of the flowchart and/or one or more blocks of the block diagram.

These computer program instructions, which may also be stored in, is able to guide computer or other programmable data processing devices with spy Determine in the computer-readable memory that mode works, so that it includes referring to that instruction stored in the computer readable memory, which generates, Enable the manufacture of device, the command device realize in one box of one or more flows of the flowchart and/or block diagram or The function of being specified in multiple boxes.

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

Detection presses operation in the display unit presumptive area；

The display unit is obtained in the deformation parameter pressed under operation effect；

When the deformation parameter, which meets, to impose a condition, determined on the display unit corresponding with the deformation parameter First area；

The first area is converted to second state different from the first state from current first state.

Optionally, stored in storage medium and step: when the deformation parameter, which meets, to impose a condition, in the display Determine first area corresponding with the deformation parameter on unit, corresponding computer instruction during being specifically performed, Specifically comprise the following steps:

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

When the deformation degree reaches given threshold, the first area is determined on the display unit.

Optionally, it stored in storage medium and step: is determined on the display unit and the deformation parameter pair The first area answered, corresponding computer instruction specifically comprise the following steps: during being specifically performed

When the operating point position for pressing operation is in the first responsive state for being not responding to touch control operation, determine A region centered on the operating point is the first area.

Optionally, it stored in storage medium and step: is determined on the display unit and the deformation parameter pair The first area answered, corresponding computer instruction specifically comprise the following steps: during being specifically performed

When the operating point position for pressing operation is in the second responsive state for being able to respond touch control operation, root Deformation direction is determined according to the deformation parameter；

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

Optionally, stored in storage medium and step: by the first area from current first state be converted to The second different state of the first state, corresponding computer instruction specifically include following step during being specifically performed It is rapid:

The first area is converted to by the first responsive state for being not responding to touch control operation and is able to respond touch control operation Second responsive state.

Optionally, stored in storage medium and step: by the first area from current first state be converted to The second different state of the first state, corresponding computer instruction specifically include following step during being specifically performed It is rapid:

The first area is changed into second different from the first display state from the first current display state Display state.

Optionally, stored in storage medium and step: the first area is changed from the first current display state For the second display state different from the first display state, corresponding computer instruction is during being specifically performed, tool Body includes the following steps:

The transparency of the first area is changed into from the first current transparency different from first transparency Second transparency, wherein the size of second transparency is determined according to the deformation parameter.

Although the preferred embodiment of the application has been described, it is created once a person skilled in the art knows basic Property concept, then additional changes and modifications may be made to these embodiments.So it includes excellent that the following claims are intended to be interpreted as It selects embodiment and falls into all change and modification of the application range.

Obviously, those skilled in the art can carry out various modification and variations without departing from the essence of the application to the application Mind and range.In this way, if these modifications and variations of the application belong to the range of the claim of this application and its equivalent technologies Within, then the application is also intended to include these modifications and variations.

Claims (10)

1. a kind of method of controlling electronic devices, applied to have can deformation display unit electronic equipment, which comprises

Detection presses operation in the display unit presumptive area；

The display unit is obtained in the deformation parameter pressed under operation effect；

When the deformation parameter, which meets, to impose a condition, corresponding with the deformation parameter the is determined on the display unit One region, wherein the operating point position for pressing operation be in be not responding to press the first responsive state of operation when, It determines that the region centered on operating point is first area, and/or is in and can ring in the operating point position for pressing operation When answering the second responsive state of touch control operation, deformation direction is determined according to deformation parameter, determine on display unit with deformation direction Corresponding region is first area, wherein the first area is in the first responsive state；

The first area is converted to second state different from the first state from current first state.

It is described that the first area is converted to second state different from the first state from current first state, packet It includes:

The first area is converted to by the first responsive state for being not responding to touch control operation and is able to respond the second of touch control operation Responsive state.

2. the method as described in claim 1, which is characterized in that it is described when the deformation parameter meets and imposes a condition, in institute It states and determines first area corresponding with the deformation parameter on display unit, comprising:

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

When the deformation degree reaches given threshold, the first area is determined on the display unit.

3. the method as described in claim 1, which is characterized in that when determining the first area, the first area it is big The small deformation quantity by the display unit determined according to the deformation parameter is determined.

4. the method as described in claim 1, which is characterized in that described to change the first area from current first state To second state different from the first state, comprising:

The first area is changed into second display different from the first display state from the first current display state State.

5. method as claimed in claim 4, which is characterized in that described that the first area is shown state from current first It is changed into the second display state different from the first display state, comprising:

The transparency of the first area is changed into second different from first transparency from the first current transparency Transparency, wherein the size of second transparency is determined according to the deformation parameter.

6. a kind of electronic equipment, comprising:

Storage unit, for storing instruction；

Deformable display unit；

Processor, for executing described instruction, detection presses operation in the display unit presumptive area；It obtains described aobvious Show unit in the deformation parameter pressed under operation effect；When the deformation parameter, which meets, to impose a condition, in the display First area corresponding with the deformation parameter is determined on unit, wherein set place where the operating point of operation in described press When being not responding to press the first responsive state of operation, determine that the region centered on operating point is first area, and/or touching When the operating point position of press operation is in the second responsive state for being able to respond touch control operation, shape is determined according to deformation parameter It changes direction, determines that region corresponding with deformation direction is first area on display unit；By the first area from current One state is converted to second state different from the first state, wherein the first area is in the first responsive state；

The processor is used to the first area being converted to different from the first state the from current first state Two-state, specifically: the first area is converted to by the first responsive state for being not responding to touch control operation and is able to respond touch-control Second responsive state of operation.

7. electronic equipment as claimed in claim 6, which is characterized in that the processor is used to set when deformation parameter satisfaction When fixed condition, first area corresponding with the deformation parameter is determined on the display unit, specifically: according to the shape Variable element determines the deformation degree of the display unit；And when the deformation degree reaches given threshold, described aobvious Show and determines the first area on unit.

8. electronic equipment as claimed in claim 6, which is characterized in that the processor is when determining the first area, institute The size for stating first area is determined by the deformation quantity for the display unit determined according to the deformation parameter.

9. electronic equipment as claimed in claim 6, which is characterized in that the processor is used for the first area from current First state be converted to second state different from the first state, specifically: by the first area from current One display state is changed into the second display state different from the first display state.

10. electronic equipment as claimed in claim 9, which is characterized in that the processor is used for the first area from working as The first preceding display state is changed into the second display state different from the first display state, specifically: by described first The transparency in region is changed into second transparency different from first transparency from the first current transparency, wherein institute The size for stating the second transparency is determined according to the deformation parameter.