CN110531862A - A kind of input exchange method and device - Google Patents
A kind of input exchange method and device Download PDFInfo
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- CN110531862A CN110531862A CN201910875183.4A CN201910875183A CN110531862A CN 110531862 A CN110531862 A CN 110531862A CN 201910875183 A CN201910875183 A CN 201910875183A CN 110531862 A CN110531862 A CN 110531862A
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Classifications
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/016—Input arrangements with force or tactile feedback as computer generated output to the user
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/02—Input arrangements using manually operated switches, e.g. using keyboards or dials
- G06F3/023—Arrangements for converting discrete items of information into a coded form, e.g. arrangements for interpreting keyboard generated codes as alphanumeric codes, operand codes or instruction codes
- G06F3/0233—Character input methods
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0484—Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
- G06F3/04847—Interaction techniques to control parameter settings, e.g. interaction with sliders or dials
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0487—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
- G06F3/0488—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
- G06F3/04883—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures for inputting data by handwriting, e.g. gesture or text
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- User Interface Of Digital Computer (AREA)
Abstract
This application discloses a kind of input exchange method and device, electronic equipment, the non-transitory computer-readable storage mediums for being stored with computer instruction, are related to electronic equipment control field.Specific implementation are as follows: show the operation interface of input method;When detecting the clicking operation of the destination virtual key in the operation interface for input method, corresponding vibration number and oscillation intensity are determined based on the target axis body type of selection;Wherein, the destination virtual key be the input method operation interface in include at least one virtual key in one;Based on the vibration number and the oscillation intensity, control generates the vibration of the clicking operation in response to the destination virtual key in the operation interface for input method.
Description
Technical field
This application involves a kind of field of information processing more particularly to a kind of electronic equipment control field, the application provides one
Kind input exchange method and device, electronic equipment, the non-transitory computer-readable storage medium for being stored with computer instruction.
Background technique
The operation interface of input method, that is, the skin of input method can be designed in the application of cellphone inputting method.Currently, in order to
User experience is promoted, the skin of the input method of the mechanical keyboard of some imitative physics can be provided in the application of some input methods.But
The skin of these input methods more focus in display effect with mechanical keyboard close to, and user actually use input method when
Still it differs greatly with physical keyboard.
Summary of the invention
This application provides a kind of input exchange method and device, electronic equipment, it is stored with the non-instantaneous of computer instruction
Computer readable storage medium.
The embodiment of the present application provides a kind of input exchange method, comprising:
Show the operation interface of input method;
When detecting the clicking operation of the destination virtual key in the operation interface for input method, the target based on selection
Axis body type determines corresponding vibration number and oscillation intensity;Wherein, the destination virtual key is the behaviour of the input method
Make one at least one virtual key for including in interface;
Based on the vibration number and the oscillation intensity, control is generated in response to operation circle for input method
The vibration of the clicking operation of destination virtual key in face.
Optionally, the method also includes:
Configure at least one axis body type, and vibration of the configuration pin to each axis body type at least one axis body type
Number and oscillation intensity.
Optionally, described to be based on the vibration number and the oscillation intensity, control is generated in response to described for defeated
Enter the vibration of the click of the destination virtual key in the operation interface of method, comprising:
When vibration number is twice, it is based on oscillation intensity, control is generated in response to operation circle for input method
The first time of pushing operation in the clicking operation of destination virtual key in face is vibrated;And it is based on oscillation intensity, control produces
Raw second of vibration for lifting operation in response in the clicking operation of the destination virtual key in the operation interface of the input method
It is dynamic.
Optionally, the method also includes:
In the destination virtual key clicking operation being not detected in the operation interface for the input method, described in control
Destination virtual key is shown with the first effect;
Wherein, first effect is to be in the visualization that the non-formal parameter for pressing state renders based on mechanical key
Effect.
Optionally, the method also includes:
When detecting the destination virtual key clicking operation in the operation interface for the input method, it is based on the point
The pushing operation for hitting operation controls the destination virtual key to press the displaying of process effect, based on pressing for the clicking operation
Operation is kept, the destination virtual key is controlled and is shown with the second effect, operation control institute is lifted based on the clicking operation
Destination virtual key is stated to lift the displaying of process effect.
Optionally, the process effect of pressing is to be changed by non-state of pressing to during pressing state based on mechanical key
Vision changes the effect of visualization that parameter renders;Also, described press in process effect further includes on destination virtual key
The effect of visualization for the first change procedure that the position of the keycap information of setting and/or size generate;
Second effect is that the visualization that formal parameter when pressing state by being in based on mechanical key renders is imitated
Fruit;It also, further include that the position for the keycap information being arranged on destination virtual key and/or size occur the in second effect
Effect of visualization after one variation;
The process effect of lifting is to be changed to the non-vision pressed during state based on mechanical key by pressing state to change
The effect of visualization that variable element renders;Also, described lift further includes being arranged in process effect on destination virtual key
The effect of visualization for the second change procedure that the position of keycap information and/or size generate.
Optionally, the method also includes:
In response to the clicking operation of the virtual key in the operation interface for input method, sound is clicked in control output
Effect;Wherein, the audio of clicking is the audio that mechanical key is issued when pressing.
The embodiment of the present application also provides a kind of input interactive devices, comprising:
Display unit, for showing the operation interface of input method;
Control unit, when for detecting the clicking operation for the destination virtual key being directed in the operation interface of input method,
Corresponding vibration number and oscillation intensity are determined based on the target axis body type of selection;Wherein, the destination virtual key is
One at least one virtual key for including in the operation interface of the input method;Based on the vibration number and described
Oscillation intensity, control generate the vibration of the clicking operation in response to the destination virtual key in the operation interface for input method
It is dynamic.
Optionally, described control unit, for being based on oscillation intensity when vibration number is twice, control generates response
The first time of pushing operation in the clicking operation of destination virtual key in the operation interface for input method is vibrated;
And it is based on oscillation intensity, control generates the clicking operation in response to the destination virtual key in the operation interface of the input method
In lift operation second vibration.
Optionally, described control unit, for empty in the target being not detected in the operation interface for the input method
When quasi- key clicking operation, controls the destination virtual key and shown with the first effect in display unit;
Wherein, first effect is to be in the visualization that the non-formal parameter for pressing state renders based on mechanical key
Effect.
Optionally, described control unit, for detecting the destination virtual in the operation interface for the input method
When key clicking operation, the pushing operation based on the clicking operation controls the destination virtual key and is existed with pressing process effect
Display unit is shown, is pressed holding operation based on the clicking operation, is controlled the destination virtual key and existed with the second effect
Display unit shows that the operation of lifting based on the clicking operation controls the destination virtual key to lift process effect aobvious
Show that unit is shown.
Optionally, described control unit, in response to the virtual key in the operation interface for input method
Audio is clicked in clicking operation, control output;Wherein, the audio of clicking is the audio that mechanical key is issued when pressing.
The embodiment of the present application also provides a kind of electronic equipment, comprising:
At least one processor;And
The memory being connect at least one described processor communication;Wherein,
The memory is stored with the instruction that can be executed by least one described processor, and described instruction is by described at least one
A processor executes, so that at least one described processor is able to carry out any one of aforementioned method.
Present invention also provides a kind of non-transitory computer-readable storage medium for being stored with computer instruction, the calculating
Machine instruction is for making the computer execute any one of aforementioned method.
One embodiment in above-mentioned application has the following advantages that or the utility model has the advantages that detecting for destination virtual key
Clicking operation when, control generates corresponding vibration;It so, it is possible the practical mechanical keyboard in physics of simulation and generate pressing operation
When stroke and paragraph sense, thus for user provide actual use physics mechanical keyboard usage experience, ensure that user
Impression is used interchangeably when using electronic equipment.
Other effects possessed by above-mentioned optional way are illustrated hereinafter in conjunction with specific embodiment.
Detailed description of the invention
Attached drawing does not constitute the restriction to the application for more fully understanding this programme.Wherein:
Fig. 1 is the schematic diagram of the input exchange method process of the application;
Fig. 2 is the operation interface schematic diagram of input method provided by the present application;
Fig. 3~Fig. 4 is pressure corresponding to two kinds of axis bodies-stroke variation correspondence diagram;
Fig. 5 is the input exchange method flow diagram when generation of the application shakes twice;
Fig. 6~Fig. 8 is the three of the non-display effect pressed state and press state of virtual key provided by the embodiments of the present application
Kind schematic diagram of a scenario;
Fig. 9 is the composed structure schematic diagram of the input interactive device of the application;
Figure 10 is the block diagram for the electronic equipment for realizing the input exchange method of the embodiment of the present application.
Specific embodiment
It explains below in conjunction with exemplary embodiment of the attached drawing to the application, including the various of the embodiment of the present application
Details should think them only exemplary to help understanding.Therefore, those of ordinary skill in the art should recognize
It arrives, it can be with various changes and modifications are made to the embodiments described herein, without departing from the scope and spirit of the present application.Together
Sample, for clarity and conciseness, descriptions of well-known functions and structures are omitted from the following description.
This application provides a kind of input exchange methods, as shown in Figure 1, comprising:
S101: the operation interface of input method is shown;
S102: when detecting the clicking operation of the destination virtual key in the operation interface for input method, based on selection
Target axis body type determine corresponding vibration number and oscillation intensity;Wherein, the destination virtual key is the input
One at least one virtual key for including in the operation interface of method;
S103: being based on the vibration number and the oscillation intensity, what control was generated in response to described for input method
The vibration of the clicking operation of destination virtual key in operation interface.
The embodiment of the present application can be used in the electronic equipment for having touching display screen, for example the electronic equipment can be intelligence
Energy mobile phone, tablet computer etc..
In the operation interface for showing input method in the present embodiment S101, the operation interface of the input method can be input
The skin of method, user can be chosen to obtain from a variety of skins according to demand input method to be used skin, also
It is the operation interface of the input method in the present embodiment.In a kind of preferred mode, the operation interface of input method is mechanical keyboard
Pattern.For example, as shown in Fig. 2, a kind of operation interface of input method, virtual key therein are the pattern of mechanical keyboard,
It should be pointed out that being only used for showing the pattern of virtual key in this programme in Fig. 2, institute in input method operation interface is not represented
The whole keys having.It will also be appreciated that Fig. 2 only illustrates the operation interface of similar 9 palace lattice patterns, actually may be used also
With there are the samples of the operation interface of 26 keys or the operation interface of the virtual key of more or fewer mechanical key patterns
Formula does not do exhaustion in the present embodiment, it is only necessary to understand the virtual key in the operation interface of input method provided in this embodiment
Pattern can be similar with mechanical key.
The method also includes: at least one axis body type is configured, and configuration pin is to each at least one axis body type
The vibration number and oscillation intensity of kind axis body type.
That is, input can be installed in the operating system of electronic equipment in advance in scheme provided in this embodiment
Method, and the skin (i.e. operation interface) of input method can be selected by user, and can also be in the function or setting of input method
In selection, the option of at least one axis body type is configured, the use feeling of the axis body to be experienced is selected by user.
Also, the vibration number of each axis body type and vibration are strong in preconfigured at least one axis body type
Degree.The corresponding oscillation intensity of different axis body types is different, and the corresponding vibration number of different axis body types may it is identical can also
It can be different.
For example, can configure the corresponding vibration number of the first axle body is that twice, and can configure difference in two-time vibration
Oscillation intensity can also configure identical oscillation intensity, for example vibrating corresponding oscillation intensity for the first time is intensity A, second
Vibrating corresponding intensity is B.The corresponding vibration number of the second axle body is primary, and configuring corresponding oscillation intensity is D.Third
The corresponding vibration number of axis body be it is primary, corresponding oscillation intensity be C.The corresponding vibration number of 4th axis body be twice, wherein
The oscillation intensity of two-time vibration is identical, is A.The corresponding vibration number of 5th axis body is that twice, wherein two-time vibration intensity is not
Together, first time oscillation intensity is A, and second of oscillation intensity is C.
Axis body type described in the present embodiment can be related to the different axis bodies of mechanical keyboard in the related technology, due to this
Embodiment simulates usage experience corresponding to different axis bodies by vibration number and oscillation intensity, especially by vibration time
Several and oscillation intensity simulates paragraph sense when use, and therefore, here first in the related art, mechanical keyboard usually makes
Paragraph sense brought by a plurality of types of axis bodies and its corresponding stroke-pressure value variation corresponding relationship is illustrated.
In the related technology, the axis body type of mechanical key may include: green axis, red axis, black axis, tea axis, it is of course possible to also
There are other axis body types, exhaustion is not done in the present embodiment.Wherein, the characteristics of various axis body types, can be with are as follows: green axis: stroke
Long, paragraph sense is strong;Red axis: feel is very light, without paragraph sense, straight up and down;Black axis: sound is the smallest in all bearings, section
It is unobvious to fall sense, straight up and down, feedback great efforts;Tea axis: paragraph sense is weaker, and feel is partially soft.
For the mechanical keyboard of physics, with the traveling for pressing stroke, pressure feedback also synchronous variation.Also, according to upper
State it is bright it can be seen that different axis bodies there may be different pressing touch.
For example, in conjunction with Fig. 3, to mechanical keyboard using being illustrated for green axis, as shown in the figure, with 0mm-
Pressure value is gradually increased to 60cN when the change of 1.8mm stroke, becomes the process of 2.2mm or so from 1.8mm then as stroke
Middle pressure value, which generates, to be fallen after rise to close to 50cN, and during the stroke change of 2.2-4mm, pressure value is gradually increased to by 50cN again
60cN.From the point of view of stroke-pressure value variation corresponding relationship, it can be seen that have apparent two paragraphs among curve, therefore use
Family can have paragraph sense twice when using.
In conjunction with Fig. 4, to mechanical keyboard using being illustrated for red axis, the pressure value of red axle key disk with stroke increasing
Add the change trend presented straight up and down, it can be seen that do not deposit in stroke-pressure value variation corresponding relationship in the use of red axis
In apparent paragraph sense.
It can be seen that based on the aforementioned stroke for two kinds of mechanical keyboard different axis bodies-pressure value variation corresponding relationship
The change of pressure value during stroke is increased of different types of axis body is different, and such user can be deposited using different axis bodies
In different usage experiences.
In electronic equipment, such as mobile phone, scheme provided in this embodiment is mainly by using vibration number, oscillation intensity
It is vibrated to control, to simulate the paragraph sense of true mechanical key.It is different for the different corresponding paragraph senses of axis body type
, therefore, there are different vibration number and/or oscillation intensity for different axis body type configurations in the present embodiment.
Yet further, it is understood that there may be two paragraph senses and be not only the aforementioned green axis shown, it is also possible to be tea axis,
But the intensity of pressure of two kinds of axis bodies is different, and therefore, the same axis body for configuring two-time vibration number, corresponding two-time vibration
Intensity also can be different respectively.Likewise, there is no the black axis that there may also be of obvious paragraph sense, but stroke-pressure value
Corresponding relationship is also different with red axis, so, in the axis body for configuring a vibration number, the corresponding vibration of different axis bodies
Intensity is also different.
Wherein, oscillation intensity may include having two parameters of vibratory output and vibration time.Oscillation intensity difference can manage
Solution is that vibratory output and/or vibration time are different.
For example,, can be moderate using vibratory output since the paragraph sense of red axis is not strong when simulating red axis,
The longer oscillation intensity of vibration time.
In the present embodiment, the device that control generates vibration can use linear motor.Compared to traditional rotor motor, line
Property motor start and stop vibration velocity all quickly, do not have the sluggish sense of rotor motor.And linear motor can pass through software
Adjusting simulates a variety of seismaesthesias, therefore for the sense of touch for simulating true mechanical keyboard, linear motor is most suitable.
When controlling linear motor generation vibrating effect, the vibratory output and vibration time of use can be based on down
Table:
Parameter | Value range |
Vibratory output (g) | 0.7~1.2 |
Vibration time (ms) | 10~22 |
That is, the vibration time between the vibratory output and 10~22ms between 0.7~1.2g, structure can be chosen
At aforementioned oscillation intensity.
For example, for a kind of axis body type, the configuration of preset oscillation intensity can be the vibratory output of 1.0g, and
The vibration time of 10ms;In the vibratory output and vibration time the present embodiment that the oscillation intensity of other kinds of axis body includes no longer
Exhaustion is carried out, the vibratory output and vibration time being arranged in a word can be in the value ranges of the parameter of upper table.Certainly, upper table is only
As an example, actually if can also be corresponded to using different types of motor corresponding to different vibratory output and vibration time
Value range, only will not enumerate in the present embodiment.
Based on aforementioned schemes, in the present embodiment, it is based on the vibration number and the oscillation intensity, control generates response
The vibration of the click of destination virtual key in the operation interface for input method, including following several specific implementations
Mode:
Mode one, when vibration number is one time, according to the vibratory output and vibration time in oscillation intensity, produced to control
The vibration of the raw clicking operation in response to the destination virtual key in the operation interface of the input method.
Wherein, control, which generates to vibrate, is specifically as follows control linear motor generation vibration.
Due to for the corresponding oscillation intensity of axis body type configuration, that is to say, that be configured with corresponding vibratory output and vibration
Dynamic duration, then when control generates vibration, it can be according to the two parameters.
Specifically,
The beginning of the vibration time and finish time, can be related to the clicking operation, for example, can be detection
Linear motor is just controlled to clicking operation to start to vibrate with vibratory output corresponding to target axis body type, and carries out timing, when reaching
When to vibration time, control terminates vibration.
It can also be to detect latter section of duration of clicking operation, then control linear motor and correspond to target axis body type
Axis body corresponding to vibratory output generate vibration, and start timing, when vibration corresponding to timing reaches target axis body type
When long, control linear motor terminates to vibrate.Wherein, one section of duration can be configured according to the actual situation, for example, can be with
For 0.01s etc..
Mode two, when vibration number is twice, be based on oscillation intensity, what control was generated in response to described for input method
The first time of pushing operation in the clicking operation of destination virtual key in operation interface is vibrated;And it is based on oscillation intensity,
Control is generated in response to lift operation the in the clicking operation of the destination virtual key in the operation interface of the input method
Secondary vibration.
It is already discussed above, in two-time vibration, not homogeneous vibrate corresponding oscillation intensity can with it is identical can be different;Tool
Body, the vibratory output and/or vibration time for being exactly not homogeneous vibration can be identical or different.
In the processing of two-time vibration, the duration vibrated every time can be different, and vibratory output can be identical;Alternatively, when vibration
Length is identical, and vibratory output is different;Or vibration time and vibratory output are all different.
At the beginning of about each vibration, it can be arranged according to the actual situation, for example, vibration for the first time can be detection
It is determined when to clicking operation and starts timing, and controlled and vibration is generated with the vibratory output of the corresponding first time vibration of target axis body type
It is dynamic, until reaching the vibration time of vibration for the first time terminates;It can be to detect clicking operation at the beginning of second of vibration
When lifting operation, and generate according to the vibratory output of second vibration the vibration of corresponding vibration time.
A kind of process flow example of secondary vibration, as shown in figure 5, detecting clicking operation in input method operation interface
Pushing operation event, trigger primary vibration;When finger frames out, clicking operation is detected at the operation interface of input method
Lift action event, second of vibration of triggering.
It, can be according to clicking operation especially in mode two, detecting the pushing operation of clicking operation and lifting operation
Pressure value determine, for example, by the pressure sensor on touching display screen, at the operation interface position of input method, or
Person at destination virtual key position, has detected pressure value in the operation interface of input method, and detects the changing value of pressure,
When the changing value of pressure is ascending, it is believed that be the pushing operation of clicking operation;Conversely, working as the variation of pressure
When value from large to small, it is believed that clicking operation lifts operation.It is of course possible to there are other implementations, as long as
Can determine clicking operation presses and lifts operation, can be adapted to carry out scheme provided in this embodiment.
It is provided above when pressing key pressing for destination virtual about the operation interface in input method, it is corresponding by providing
Vibration number and oscillation intensity carry out the implementation of the sense of touch of simulated target axis body type.
Next, for how during user's clicking operation, for the virtual key in the operation interface of input method
The visual effect for providing mechanical key is described in detail.
In the destination virtual key clicking operation being not detected in the operation interface for the input method, described in control
Destination virtual key is shown with the first effect;
Wherein, first effect is to be in the visualization that the non-formal parameter for pressing state renders based on mechanical key
Effect.
It is to be appreciated that the destination virtual key be multiple virtual keys in one, except destination virtual key it
Other outer keys may be considered destination virtual key when being clicked, therefore the present embodiment is only for one of target
Virtual key is illustrated;No matter also, one click operates while pressing next key or multiple keys, each key
It can be understood as the destination virtual key in the present embodiment.
First effect can show mesh as shown in the schematic diagram of top in Fig. 6 with the three-dimensional stereo effect of mechanical key
Virtual key is marked, can be at this time destination virtual key 21 in such as figure in the non-pattern pressing state and being shown.Likewise, this implementation
Example in provide the virtual key in schematic diagram pattern be only a kind of three-dimensional stereo effect mechanical key pattern, actual treatment
In, it is therefore possible to use other three-dimensional stereo effects are shown, and are no longer shown one by one in the present embodiment.
Further, when detecting the destination virtual key clicking operation in the operation interface for the input method,
Pushing operation based on the clicking operation controls the destination virtual key to press the displaying of process effect, is based on the click
Holding operation is pressed in operation, is controlled the destination virtual key and is shown with the second effect, based on lifting for the clicking operation
Operation controls the destination virtual key to lift the displaying of process effect.
It is described press process effect be based on mechanical key by it is non-press state and change to the vision pressed during state change
The effect of visualization that variable element renders;Also, described press further includes being arranged in process effect on destination virtual key
The effect of visualization for the first change procedure that the position of keycap information and/or size generate;
Second effect is that the visualization that formal parameter when pressing state by being in based on mechanical key renders is imitated
Fruit;It also, further include that the position for the keycap information being arranged on destination virtual key and/or size occur the in second effect
Effect of visualization after one variation;
The process effect of lifting is to be changed to the non-vision pressed during state based on mechanical key by pressing state to change
The effect of visualization that variable element renders;Also, described lift further includes being arranged in process effect on destination virtual key
The effect of visualization for the second change procedure that the position of keycap information and/or size generate.
Wherein, the keycap information can be by contents such as the letters, symbol, number that show on key, such as institute in Fig. 6
Show, keycap can be the regional scope (the white area range in figure) where " A " alphabetical in figure, and alphabetical " A " is keycap letter
One of breath example.
In pressing process effect, destination virtual key it is non-press state and change to the vision pressed during state change
Parameter, can according to pre-set mechanical key by press state when formal parameter control, for example, machinery is pressed
Key is in formal parameter when pressing state as target component, is changed by the formal parameter of the initial non-mechanical key for pressing state
It is made into the first animation effect for the process of target component, can be controlled at this time when the pushing operation for detecting clicking operation
Show first animation effect.Duration factor, such as the first animation effect are also related in first animation effect using longer
Duration plays is that shorter duration plays, and preset fixed duration can be determined according to, or can be according to clicking operation
Pushing operation rate of pressure change it is related, that is to say, that rate of pressure change is slow, can be broadcast using longer duration
It puts, otherwise the first animation effect is shown using shorter duration.
Keycap information and the transformation of the state of destination virtual key are in synchronous regime, that is to say, that the change speed of keycap information
It is identical for spending with the speed of the state transition process of destination virtual key.One kind is achieved in that for each virtual key
The first animation effect is used as in conjunction with its keycap information to realize the two while be changed;Another implementation is exactly to control
The two is realized using identical pace of change.Of course, it is also possible to no longer be carried out in the present embodiment there are more implementations
Exhaustion.
Process effect is lifted corresponding to operation about lifting for clicking operation, presses process effect process mode with aforementioned
It is identical, it only realizes on the contrary, for example, keycap information is to change from small to big, the size of final keycap information and position and initial
(namely non-to press state) size and position are identical.Correspondingly, can according to pre-set mechanical key by non-
Formal parameter when pressing state is controlled as target component, is changed by the formal parameter of the initial mechanical key for pressing state
The process of target component is made into the second animation effect, is then based on the second animation effect to show.It is directed to speed etc.
Reason as hereinbefore, is no longer repeated.
When detecting the clicking operation for destination virtual key, it not only can control and change destination virtual key
Bandwagon effect, same control changes the pattern of keycap information:
, can be constant for the position of keycap information in a kind of example, but size gradually changes, by original dimension
Becoming smaller to target size, wherein target size is to be arranged according to actual conditions, and the unit for measuring size can be font size,
For example, No. 8 can be become by No. 12;In addition, keycap information is gradually smaller in pressing process effect.
For example, referring to Fig. 6, when in figure top destination virtual key 21 it is non-press state and receive clicking operation when
It waits, the second effect finally presented can be lower section destination virtual key 22 in Fig. 6 in the effect for pressing state.It is aforementioned to press
Cheng Xiaoguo is changed into destination virtual key 22 in the mistake for pressing state by the non-state of pressing of the destination virtual key 21 in Fig. 6
Cheng Xiaoguo.And the as can be seen from the figure variation of keycap information " A ", destination virtual key is in and presses when by clicking operation
When lower state, keycap information " A " obviously becomes smaller.
It should be pointed out that while the size of keycap information changes, position can also in this example in another implementation
To change, for example, virtual key can be followed to change to pressing state, the position of keycap information moves down etc..
In another example, control keycap information changes with the change of virtual key in following state.It can keep
Its size is constant, but the change of location following virtual key and gradually change;For example, determining that virtual key is pressing state
When target position after, control virtual key (such as can be with pressure by small change with corresponding speed from the non-position for pressing state
Big speed is corresponding) change to target position;Correspondingly, determining that keycap is believed based on virtual key in the target position for pressing state
Breath follows the keycap information target location for pressing state of virtual key, control keycap information follow virtual key from it is non-press state with
Corresponding speed changes to keycap information target location.For example, virtual key changes to when pressing state, state is pressed relative to non-
Position change is generated, can be to move down first distance, which can be configured according to the actual situation;Accordingly
, keycap information also follows generation position change, can move down second distance, which can be with first distance phase
Together, it is configured also according to actual conditions.
For example, referring to Fig. 7, the top Fig. 7 illustrates that with the first effect, i.e. mechanical key is in the non-shape for pressing state
The partial virtual key that the effect of visualization that parameter renders is shown.It is " G " when user presses wherein keycap information
After virtual key, the effect of lower section in display diagram 7, keycap information is that the virtual key (hereinafter referred to virtual key " G ") of " G " is in
Second effect is shown, i.e., the effect of visualization pressing the formal parameter of state and rendering is in mechanical key, and keycap is believed
Cease " G " position also with virtual key position change and generate corresponding position change, i.e., the key being arranged on virtual key
The effect of visualization that the position of cap information occurs after the first variation is shown.It can be seen from figure 7 that virtual key " G "
Compared with virtual key " H " or virtual key " F ", the keycap information on virtual key " G " occurs relative position and changes.It needs to manage
Solution, diagram provided in this embodiment is only a kind of signal, is not intended as limiting.
It further, can also be virtual in the displaying interface of input method when virtual key is in the second effect and shows
The predetermined position of key shows the corresponding bubble information of keycap information;Wherein, predeterminated position can be the upper of virtual key
Side;The display parameters of the corresponding bubble information of the keycap information can be nontransparent, or can be it is translucent, according to
The parameter of user setting determines.As shown in figure 8, showing a kind of bubble information is nontransparent one kind on the basis of Fig. 7
Example shows the bubble information 33 for the virtual key " G " being pressed below Fig. 8, virtual key is shown in bubble information
Keycap information particular content " G ", and bubble information 33 is shown using nontransparent display parameters.
Processing based on above-mentioned vision and tactile, in scheme provided in this embodiment, further includes:
In response to the clicking operation of the virtual key in the operation interface for input method, sound is clicked in control output
Effect;Wherein, the audio of clicking is the audio that mechanical key is issued when pressing.
The output time of audio corresponding to the clicking operation can be just to control at the beginning of receiving clicking operation
Output time as audio.
Still further, can determine sound corresponding with target axis body type based on the target axis body type currently chosen
Effect, and then the click audio exported is audio corresponding to the target axis body type.
Finally it should be pointed out that the control being related in this programme generates vibration, control generates audio and control base
The destination virtual key displaying is controlled in the pushing operation of the clicking operation and presses process effect, is based on the clicking operation
Press holding operation, control the destination virtual key and shown with the second effect, operation is lifted based on the clicking operation
It controls the destination virtual key displaying and lifts process effect, these processing can be in debugging input method application program in advance
When, the relative instant of each response is set, so that the effect that these types response can be optimal.For example, detecting a little
At the time of hitting operation, if control generates vibration, and controls generation audio simultaneously, still, and when detecting clicking operation, control
System generates audio, and controls and start to execute pushing operation process effect, then controls generation vibration again;It is corresponding specific to each
The relative instant of output can be adjusted when carrying out coding debugging to input method application program.
As it can be seen that by using above scheme, by the way that when detecting the clicking operation for destination virtual key, control is produced
Raw corresponding vibration;It so, it is possible the practical stroke and paragraph sense in the mechanical keyboard generation pressing operation of physics of simulation,
To provide the usage experience for actually using the mechanical keyboard of physics for user, interaction of the user using electronic equipment when ensure that
Use feeling.
This application provides a kind of input interactive devices, as shown in Figure 9, comprising:
Display unit 71, for showing the operation interface of input method;
Control unit 72, for detecting the clicking operation for the destination virtual key being directed in the operation interface of input method
When, corresponding vibration number and oscillation intensity are determined based on the target axis body type of selection;Wherein, the destination virtual key
One at least one virtual key for including in operation interface for the input method;Based on the vibration number and institute
State oscillation intensity, control generates the clicking operation in response to the destination virtual key in the operation interface for input method
Vibration.
Input interactive device provided by the embodiments of the present application can be set in the electronic equipment for having touching display screen, institute
Stating electronic equipment can be smart phone, tablet computer etc..
In the present embodiment, the operation interface of the input method, can be input method skin, user can according to demand from
Chosen to obtain in a variety of skins input method to be used skin, that is, operation circle of the input method in the present embodiment
Face.In a kind of preferred mode, the operation interface of input method is the pattern of mechanical keyboard.
Described control unit 72, for configuring at least one axis body type, and configuration pin is at least one axis body type
The vibration number and oscillation intensity of each axis body type.
That is, input can be installed in the operating system of electronic equipment in advance in scheme provided in this embodiment
Method, and the skin (i.e. operation interface) of input method can be selected by user, and can also be in the function or setting of input method
In selection, the option of at least one axis body type is configured, the use feeling of the axis body to be experienced is selected by user.
Also, the vibration number of each axis body type and vibration are strong in preconfigured at least one axis body type
Degree.The corresponding oscillation intensity of different axis body types is different, and the corresponding vibration number of different axis body types may it is identical can also
It can be different.
In electronic equipment, such as mobile phone, scheme provided in this embodiment is mainly by using vibration number, oscillation intensity
It is vibrated to control, to simulate the paragraph sense of true mechanical key.It is different for the different corresponding paragraph senses of axis body type
, therefore, there are different vibration number and/or oscillation intensity for different axis body type configurations in the present embodiment.
Still further, the different axis body types of equally configuration two-time vibration number, corresponding two-time vibration intensity are also divided
It not can be different.In the different axis body types for configuring a vibration number, corresponding oscillation intensity is also different.
Wherein, oscillation intensity may include having two parameters of vibratory output and vibration time.Oscillation intensity difference can manage
Solution is that vibratory output and/or vibration time are different.
In the present embodiment, the device that control generates vibration can use linear motor, that is to say, that when control unit controls
When generating vibration, the main vibration for controlling linear motor and generating corresponding vibration amount and vibration time.
Based on aforementioned schemes, in the present embodiment, it is based on the vibration number and the oscillation intensity, control generates response
The vibration of the click of destination virtual key in the operation interface for input method, including following several specific implementations
Mode:
Mode one, control unit 72 be used for when vibration number be one time when, according in oscillation intensity vibratory output and vibration
Dynamic duration, to control linear motor generation in response to the clicking operation of the destination virtual key in the operation interface of the input method
Vibration.
Wherein, control, which generates to vibrate, is specifically as follows control linear motor generation vibration.
Due to for the corresponding oscillation intensity of axis body type configuration, that is to say, that be configured with corresponding vibratory output and vibration
Dynamic duration, then when control generates vibration, it can be according to the two parameters.
Mode two, control unit 72 are used to be based on oscillation intensity, control is generated in response to institute when vibration number is twice
State the first time vibration of the pushing operation in the clicking operation of the destination virtual key in the operation interface for input method;And
Based on oscillation intensity, control is generated in response in the clicking operation of the destination virtual key in the operation interface of the input method
Lift second of vibration of operation.
In two-time vibration, not homogeneous vibrate corresponding oscillation intensity can with it is identical can be different;Specifically, being exactly not homogeneous
The vibratory output and/or vibration time of vibration can be identical or different.
In the processing of two-time vibration, the duration vibrated every time can be different, and vibratory output can be identical;Alternatively, when vibration
Length is identical, and vibratory output is different;Or vibration time and vibratory output are all different.
Next, for how during user's clicking operation, for the virtual key in the operation interface of input method
The visual effect for providing mechanical key is described in detail.
Control unit 72 is used to click in the destination virtual key being not detected in the operation interface for the input method
When operation, controls the destination virtual key and shown with the first effect;
Wherein, first effect is to be in the visualization that the non-formal parameter for pressing state renders based on mechanical key
Effect.
It is to be appreciated that the destination virtual key be multiple virtual keys in one, except destination virtual key it
Other outer keys may be considered destination virtual key when being clicked, therefore the present embodiment is only for one of target
Virtual key is illustrated;No matter also, one click operates while pressing next key or multiple keys, each key
It can be understood as the destination virtual key in the present embodiment.
Control unit 72 is used to detect the destination virtual key click behaviour in the operation interface for the input method
When making, the pushing operation based on the clicking operation controls the destination virtual key to press process effect in display unit exhibition
Show, holding operation is pressed based on the clicking operation, controls the destination virtual key with the second effect in display unit exhibition
Show, the operation of lifting based on the clicking operation controls the destination virtual key to lift process effect in display unit exhibition
Show.
It is described press process effect be based on mechanical key by it is non-press state and change to the vision pressed during state change
The effect of visualization that variable element renders;Also, described press further includes being arranged in process effect on destination virtual key
The effect of visualization for the first change procedure that the position of keycap information and/or size generate;
Second effect is that the visualization that formal parameter when pressing state by being in based on mechanical key renders is imitated
Fruit;It also, further include that the position for the keycap information being arranged on destination virtual key and/or size occur the in second effect
Effect of visualization after one variation;
The process effect of lifting is to be changed to the non-vision pressed during state based on mechanical key by pressing state to change
The effect of visualization that variable element renders;Also, described lift further includes being arranged in process effect on destination virtual key
The effect of visualization for the second change procedure that the position of keycap information and/or size generate.
Processing based on above-mentioned vision and tactile, in scheme provided in this embodiment, further includes:
Control unit 72 is used for the clicking operation in response to the virtual key in the operation interface for input method, control
Audio is clicked in system output;Wherein, the audio of clicking is the audio that mechanical key is issued when pressing.
Wherein, it can be to be exported by audio output unit, such as microphone that audio is clicked in output.
As it can be seen that by using above scheme, by the way that when detecting the clicking operation for destination virtual key, control is produced
Raw corresponding vibration;It so, it is possible the practical stroke and paragraph sense in the mechanical keyboard generation pressing operation of physics of simulation,
To provide the usage experience for actually using the mechanical keyboard of physics for user, interaction of the user using electronic equipment when ensure that
Use feeling.
According to an embodiment of the present application, present invention also provides a kind of electronic equipment and a kind of readable storage medium storing program for executing.
As shown in Figure 10, be according to the embodiment of the present application input exchange method electronic equipment block diagram.Electronic equipment
It is intended to indicate that various forms of digital computers, such as, laptop computer, desktop computer, workbench, individual digital help
Reason, server, blade server, mainframe computer and other suitable computer.Electronic equipment also may indicate that various shapes
The mobile device of formula, such as, personal digital assistant, cellular phone, smart phone, wearable device and other similar calculating dresses
It sets.Component, their connection and relationship shown in this article and their function are merely exemplary, and are not intended to limit
The realization of described herein and/or requirement the application.
As shown in Figure 10, which includes: one or more processors 801, memory 802, and for connecting
The interface of each component, including high-speed interface and low-speed interface.All parts are interconnected using different bus, and can be by
It is mounted on public mainboard or installs in other ways as needed.Processor can instruction to executing in electronic equipment
Handled, including storage in memory or on memory (such as, to be coupled to interface in external input/output device
Display equipment) on show graphic user interface (Graphical User Interface, GUI) graphical information instruction.
In other embodiments, if desired, can be by multiple processors and/or multiple bus and multiple memories and multiple memories
It is used together.It is also possible to connect multiple electronic equipments, each equipment provides the necessary operation in part (for example, as server
Array, one group of blade server or multicomputer system).In Figure 10 by taking a processor 801 as an example.
Memory 802 is non-transitory computer-readable storage medium provided herein.Wherein, the memory is deposited
The instruction that can be executed by least one processor is contained, so that at least one described processor executes input provided herein
Exchange method.The non-transitory computer-readable storage medium of the application stores computer instruction, and the computer instruction is based on making
Calculation machine executes input exchange method provided herein.
Memory 802 is used as a kind of non-transitory computer-readable storage medium, can be used for storing non-instantaneous software program, non-
Instantaneous computer executable program and module, such as the corresponding program instruction/mould of input exchange method in the embodiment of the present application
Block.Non-instantaneous software program, instruction and the module that processor 801 is stored in memory 802 by operation, thereby executing clothes
The various function application and data processing of business device, i.e. input exchange method in realization above method embodiment.
Memory 802 may include storing program area and storage data area, wherein storing program area can store operation system
Application program required for system, at least one function;Storage data area can store the use of the electronic equipment according to input interaction
The data etc. created.In addition, memory 802 may include high-speed random access memory, it can also include non-instantaneous storage
Device, for example, at least a disk memory, flush memory device or other non-instantaneous solid-state memories.In some embodiments,
Optional memory 802 includes the memory remotely located relative to processor 801, these remote memories can be connected by network
It is connected to the electronic equipment of input interaction.The example of above-mentioned network includes but is not limited to internet, intranet, local area network, shifting
Dynamic communication network and combinations thereof.
The electronic equipment for inputting exchange method can also include: input unit 803 and output device 804.Processor 801,
Memory 802, input unit 803 and output device 804 can be connected by bus or other modes, by total in Fig. 7
For line connection.
Input unit 803 can receive the number or character information of input, and generate the electronic equipment interacted with input
User setting and function control related key signals input, such as touch screen, keypad, mouse, track pad, touch tablet, refer to
Show the input units such as bar, one or more mouse button, trace ball, control stick.Output device 804 may include that display is set
Standby, auxiliary lighting apparatus (for example, LED) and haptic feedback devices (for example, vibrating motor) etc..The display equipment may include but
It is not limited to, liquid crystal display (Liquid Crystal Display, LCD), light emitting diode (Light Emitting
Diode, LED) display and plasma scope.In some embodiments, display equipment can be touch screen.
The various embodiments of system and technology described herein can be in digital electronic circuitry, integrated circuit system
System, is consolidated specific integrated circuit (Application Specific Integrated Circuits, ASIC), computer hardware
It is realized in part, software, and/or their combination.These various embodiments may include: to implement in one or more calculating
In machine program, which can hold in programmable system containing at least one programmable processor
Row and/or explain, which can be dedicated or general purpose programmable processors, can from storage system, at least
One input unit and at least one output device receive data and instruction, and data and instruction is transmitted to the storage system
System, at least one input unit and at least one output device.
These calculation procedures (also referred to as program, software, software application or code) include the machine of programmable processor
Instruction, and can use programming language, and/or the compilation/machine language of level process and/or object-oriented to implement these
Calculation procedure.As used herein, term " machine readable media " and " computer-readable medium " are referred to for referring to machine
It enables and/or data is supplied to any computer program product, equipment, and/or the device of programmable processor (for example, disk, light
Disk, memory, programmable logic device (programmable logic device, PLD)), including, receiving can as machine
The machine readable media of the machine instruction of read signal.Term " machine-readable signal " is referred to for by machine instruction and/or number
According to any signal for being supplied to programmable processor.
In order to provide the interaction with user, system and technology described herein, the computer can be implemented on computers
Include for user show information display device (for example, CRT (Cathode Ray Tube, cathode-ray tube) or
LCD (liquid crystal display) monitor);And keyboard and indicator device (for example, mouse or trace ball), user can be by this
Keyboard and the indicator device provide input to computer.The device of other types can be also used for providing the friendship with user
Mutually;For example, the feedback for being supplied to user may be any type of sensory feedback (for example, visual feedback, audio feedback or
Touch feedback);And it can be received with any form (including vocal input, voice input or tactile input) from user
Input.
System described herein and technology can be implemented including the computing system of background component (for example, as data
Server) or the computing system (for example, application server) including middleware component or the calculating including front end component
System is (for example, the subscriber computer with graphic user interface or web browser, user can pass through graphical user circle
Face or the web browser to interact with the embodiment of system described herein and technology) or including this backstage portion
In any combination of computing system of part, middleware component or front end component.Any form or the number of medium can be passed through
Digital data communicates (for example, communication network) and is connected with each other the component of system.The example of communication network includes: local area network
(Local Area Network, LAN), wide area network (Wide Area Network, WAN) and internet.
Computer system may include client and server.Client and server is generally off-site from each other and usually logical
Communication network is crossed to interact.By being run on corresponding computer and each other with the meter of client-server relation
Calculation machine program generates the relationship of client and server.
According to the technical solution of the embodiment of the present application, a part of similarity biggish figure is filtered out when storing image
Picture reduces storage and transmission pressure, also saves the work of subsequent sort to just filter out redundancy picture when realizing storage
Amount.
It should be understood that various forms of processes illustrated above can be used, rearrangement increases or deletes step.Example
Such as, each step recorded in the application of this hair can be performed in parallel or be sequentially performed the order that can also be different and execute,
As long as it is desired as a result, being not limited herein to can be realized technical solution disclosed in the present application.
Above-mentioned specific embodiment does not constitute the limitation to the application protection scope.Those skilled in the art should be bright
White, according to design requirement and other factors, various modifications can be carried out, combination, sub-portfolio and substitution.It is any in the application
Spirit and principle within made modifications, equivalent substitutions and improvements etc., should be included within the application protection scope.
Claims (14)
1. a kind of input exchange method characterized by comprising
Show the operation interface of input method;
When detecting the clicking operation of the destination virtual key in the operation interface for input method, the target axis body based on selection
Type determines corresponding vibration number and oscillation intensity;Wherein, the destination virtual key is operation circle of the input method
One at least one virtual key for including in face;
Based on the vibration number and the oscillation intensity, control is generated in response in the operation interface for input method
Destination virtual key clicking operation vibration.
2. the method according to claim 1, wherein the method also includes:
At least one axis body type is configured, and configuration pin is to the vibration number of each axis body type at least one axis body type
And oscillation intensity.
3. the method according to claim 1, wherein described be based on the vibration number and the vibration by force
Degree, control generate the vibration of the click in response to the destination virtual key in the operation interface for input method, comprising:
When vibration number is twice, it is based on oscillation intensity, control is generated in response in the operation interface for input method
Destination virtual key clicking operation in pushing operation first time vibration;And it is based on oscillation intensity, control generates sound
Second of vibration for lifting operation in the clicking operation of destination virtual key in the operation interface of input method described in Ying Yu.
4. the method according to claim 1, wherein the method also includes:
In the destination virtual key clicking operation being not detected in the operation interface for the input method, the target is controlled
Virtual key is shown with the first effect;
Wherein, first effect is the visualization effect for being in the non-formal parameter for pressing state based on mechanical key and rendering
Fruit.
5. according to the method described in claim 4, it is characterized in that, the method also includes:
When detecting the destination virtual key clicking operation in the operation interface for the input method, grasped based on the click
The pushing operation of work controls the destination virtual key to press the displaying of process effect, presses holding based on the clicking operation
Operation, is controlled the destination virtual key and is shown with the second effect, and the operation of lifting based on the clicking operation controls the mesh
Mark virtual key is to lift the displaying of process effect.
6. according to the method described in claim 5, it is characterized in that,
It is described press process effect be based on mechanical key by it is non-press state and change to the vision pressed during state change ginseng
The effect of visualization that number rendering obtains;Also, described press further includes the keycap being arranged on destination virtual key in process effect
The effect of visualization for the first change procedure that the position of information and/or size generate;
Second effect is the effect of visualization that formal parameter when pressing state by being in based on mechanical key renders;And
It and further include that the position for the keycap information being arranged on destination virtual key and/or size occur first and become in second effect
Effect of visualization after change;
The process effect of lifting is to be changed to the non-vision pressed during state based on mechanical key by pressing state to change ginseng
The effect of visualization that number rendering obtains;Also, described lift further includes the keycap being arranged on destination virtual key in process effect
The effect of visualization for the second change procedure that the position of information and/or size generate.
7. method according to claim 1-6, which is characterized in that the method also includes:
In response to the clicking operation of the virtual key in the operation interface for input method, audio is clicked in control output;Its
In, the audio of clicking is the audio that mechanical key is issued when pressing.
8. a kind of input interactive device characterized by comprising
Display unit, for showing the operation interface of input method;
Control unit is based on when for detecting the clicking operation for the destination virtual key being directed in the operation interface of input method
The target axis body type of selection determines corresponding vibration number and oscillation intensity;Wherein, the destination virtual key is described
One at least one virtual key for including in the operation interface of input method;Based on the vibration number and the vibration
Intensity, control generate the vibration of the clicking operation in response to the destination virtual key in the operation interface for input method.
9. device according to claim 8, which is characterized in that described control unit is used for when vibration number is twice,
Based on oscillation intensity, control generates the clicking operation in response to the destination virtual key in the operation interface for input method
In pushing operation first time vibration;And it is based on oscillation intensity, control generates the operation interface in response to the input method
In destination virtual key clicking operation in lift operation second vibration.
10. device according to claim 8, which is characterized in that described control unit, for being not detected for described
When destination virtual key clicking operation in the operation interface of input method, the destination virtual key is controlled with the first effect aobvious
Show that unit is shown;
Wherein, first effect is the visualization effect for being in the non-formal parameter for pressing state based on mechanical key and rendering
Fruit.
11. device according to claim 10, which is characterized in that described control unit, for detecting for described
When destination virtual key clicking operation in the operation interface of input method, described in the pushing operation control based on the clicking operation
Destination virtual key is shown with pressing process effect in display unit, presses holding operation, control based on the clicking operation
The destination virtual key shows that the operation of lifting based on the clicking operation controls the mesh with the second effect in display unit
Mark virtual key is shown with lifting process effect in display unit.
12. according to the described in any item devices of claim 8-11, which is characterized in that described control unit, in response to institute
The clicking operation of the virtual key in the operation interface for input method is stated, audio is clicked in control output;Wherein, the click sound
Effect is the audio that mechanical key is issued when pressing.
13. a kind of electronic equipment characterized by comprising
At least one processor;And
The memory being connect at least one described processor communication;Wherein,
The memory is stored with the instruction that can be executed by least one described processor, and described instruction is by described at least one
It manages device to execute, so that at least one described processor is able to carry out method of any of claims 1-7.
14. a kind of non-transitory computer-readable storage medium for being stored with computer instruction, which is characterized in that the computer refers to
It enables for making the computer perform claim require method described in any one of 1-7.
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CN113778312A (en) * | 2021-08-17 | 2021-12-10 | 咪咕数字传媒有限公司 | Virtual keyboard display method, device, equipment and computer readable storage medium |
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JP2018001721A (en) * | 2016-07-08 | 2018-01-11 | 国立大学法人大阪大学 | Writing device and computer program |
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CN116166131A (en) * | 2023-02-24 | 2023-05-26 | 深圳市鸿欣宇电子科技有限公司 | Key control method of mechanical keyboard and mechanical keyboard |
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