CN104156166A - Controls distribution adjustment method and device - Google Patents

Abstract

The invention discloses a controls distribution adjustment method and device and belongs to the field of soft keyboards. The method includes: receiving a command to edit controls; adjusting attributes of the controls according to attribute of a custom area to make sure that the sum of areas of the controls adjusted is equal to that of the custom area and that the shape of combination of the controls combined according to post-adjustment positions matches with that of the custom area; filling the custom area with the adjusted controls according to the post-adjustment positions. By filling the custom area with the controls, solved is the problem that after a dial pad area is narrowed and moved to the single side of a screen, far areas, which users find it difficult to touch with single hands, may still occur in the narrowed dial pad area due to the users possibly having hands of different sizes, and meanwhile inconvenience in inputting causes low inputting efficiency; inputting efficiency is improved.

Description

Operational controls layout adjustment method and device

Technical field

The disclosure relates to soft keyboard field, particularly a kind of operational controls layout adjustment method and device.

Background technology

The screen of most people custom one-handed performance electronic equipment, when the screen of electronic equipment is larger, it is just more difficult that one hand carries out dial-up operation.For the ease of carry out one hand dialing on giant-screen electronic equipment, conventionally the dialing keyboard on screen need to be adjusted.

A kind of dialing keyboard method of adjustment providing in correlation technique, can dwindle dialing keyboard region, and the dialing keyboard region after dwindling is moved to left side or the right side of screen, to facilitate user only to use left hand or only to use right-hand operated.

Inventor is in realizing process of the present disclosure, find that correlation technique at least exists following defect: dialing keyboard region is dwindled and move to screen when one-sided, because each user's hand size possibility is different, keyboard after dwindling still may exist be not easy to be touched at one-handed performance by user compared with territory, far field, now still inconvenient user's input, causes input efficiency lower.

Summary of the invention

In order to solve, in correlation technique, dialing keyboard region to be dwindled and move to screen when one-sided, because each user's hand size possibility is different, keyboard after dwindling still may exist be not easy to be touched at one-handed performance by user compared with territory, far field, now still inconvenient user's input, cause the problem that input efficiency is lower, the disclosure provides a kind of operational controls layout adjustment method and device.

Described technical scheme is as follows:

According to the first aspect of disclosure embodiment, a kind of method that provides operational controls layout to adjust, comprising:

The edit instruction that reception is edited operational controls;

According to the attribute information of self defined area, adjust the attribute information of each operational controls, wherein, described attribute information comprises position, shape and area, the area sum of each operational controls after adjustment is identical with the area of described self defined area, the shape of each operational controls after adjustment after by the position grouping after adjusting and the form fit of described self defined area;

Each operational controls after adjusting is filled in described self defined area by the position after adjusting.

Optionally, described according to the attribute information of self defined area, adjust the attribute information of each operational controls, comprising:

Determine the frequency of utilization of each operational controls;

According to the frequency of utilization of the attribute information of described self defined area and each operational controls, adjust the attribute information of each operational controls, area and its frequency of utilization relation in direct ratio of each operational controls after being adjusted.

Optionally, described according to the attribute information of self defined area, adjust the attribute information of each operational controls, comprising:

Determine frequent use region in described self defined area and the frequency of utilization of each operational controls;

According to the attribute information in described frequent use region, adjust frequency of utilization higher than the attribute information of each operational controls of setting threshold;

According to removing the attribute information in the extra-regional region of described frequent use in described self defined area, adjust frequency of utilization lower than the attribute information of each operational controls of described setting threshold.

Optionally, described method also comprises:

According to the sliding trace that carries out producing when touch screen slides, determine described self defined area on described screen.

Optionally, described basis is carried out the sliding trace producing when touch screen slides on described screen, determines described self defined area, comprising:

When described sliding trace forms closed region, described closed region is defined as to described self defined area; Or,

When described sliding trace and formation closed region, described screen display edge, a selected closed region at least two closed regions that form is defined as to described self defined area, maybe the closed region of area minimum at least two closed regions that form is defined as to described self defined area.

Optionally, described method also comprises:

Receive at least one group of move, corresponding two operational controls of move described in every group;

For every group of move, two operational controls corresponding with described move are exchanged, and exchange respectively the attribute information of described two operational controls.

Optionally, described method also comprises:

Reception is entered line-locked lock instruction to each operational controls;

By the attribute modification of each operational controls, be locking mode, it is non-editing mode that described locking mode is used to indicate each operational controls.

Optionally, described method also comprises:

The unlock command of release is carried out in reception to each operational controls;

By the attribute modification of each operational controls, be unlock mode, it is editing mode that described unlock mode is used to indicate each operational controls.

According to the second aspect of disclosure embodiment, a kind of operational controls layout adjusting gear is provided, comprising:

The first receiver module, is configured to the edit instruction of operational controls being edited for receiving;

Adjusting module, be configured to for according to the attribute information of self defined area, adjust the attribute information of each operational controls, wherein, described attribute information comprises position, shape and area, the area sum of each operational controls after adjustment is identical with the area of described self defined area, the shape of each operational controls after adjustment after by the position grouping after adjusting and the form fit of described self defined area;

Packing module, is configured to for each operational controls after adjusting is filled into described self defined area by the position after adjusting.

Optionally, described adjusting module, comprising:

First determines submodule, is configured to for determining the frequency of utilization of each operational controls;

First adjusts submodule, be configured to for according to the frequency of utilization of the attribute information of described self defined area and each operational controls, adjust the attribute information of each operational controls, area and its frequency of utilization relation in direct ratio of each operational controls after being adjusted.

Optionally, described adjusting module, also comprises:

Second determines submodule, is configured to for determining the frequent use region of described self defined area and the frequency of utilization of each operational controls;

Second adjusts submodule, is configured to, for according to the attribute information in described frequent use region, adjust frequency of utilization higher than the attribute information of each operational controls of setting threshold;

The 3rd adjusts submodule, is configured to, for the attribute information except the extra-regional region of described frequent use according to described self defined area, adjust frequency of utilization lower than the attribute information of each operational controls of described setting threshold.

Optionally, described device also comprises:

Determination module, is configured to, for according to the sliding trace that carries out producing when touch screen slides, determine described self defined area on described screen.

Optionally, described determination module, comprising:

The 3rd determines submodule, is configured to, for when described sliding trace forms closed region, described closed region is defined as to described self defined area; Or,

The 4th determines submodule, be configured to for when described sliding trace and the formation closed region, screen display edge, a selected closed region at least two closed regions that form is defined as to described self defined area, maybe the closed region of area minimum at least two closed regions that form is defined as to described self defined area.

Optionally, described device also comprises:

The second receiver module, is configured to for receiving at least one group of move, corresponding two operational controls of move described in every group;

Switching Module, is configured to, for for every group of move, two operational controls corresponding with described move be exchanged, and exchange respectively the attribute information of described two operational controls.

Optionally, described device also comprises:

The 3rd receiver module, is configured to, for receiving, each operational controls is entered to line-locked lock instruction;

The first modified module, is configured to for being locking mode by the attribute modification of each operational controls, and it is non-editing mode that described locking mode is used to indicate each operational controls.

Optionally, described device also comprises:

The 4th receiver module, is configured to the unlock command that each operational controls is carried out to release for receiving;

The second modified module, is configured to for being unlock mode by the attribute modification of each operational controls, and it is editing mode that described unlock mode is used to indicate each operational controls.

According to the third aspect of disclosure embodiment, a kind of operational controls layout adjusting gear is provided, comprising:

Processor;

For storing the storer of described processor executable;

Wherein, described processor is configured to:

The edit instruction that reception is edited operational controls;

According to the attribute information of self defined area, adjust the attribute information of each operational controls, wherein, described attribute information comprises position, shape and area, the area sum of each operational controls after adjustment is identical with the area of described self defined area, the shape of each operational controls after adjustment after by the position grouping after adjusting and the form fit of described self defined area;

Each operational controls after adjusting is filled in described self defined area by the position after adjusting.

The technical scheme that embodiment of the present disclosure provides can comprise following beneficial effect:

By determining the self defined area of self-defined one-handed performance, each operational controls is filled up to self defined area; Because self defined area is by user's setting of sliding, therefore more can adapt to user's use habit, and owing to can filling up self defined area, the area of each operational controls is maximized, be more convenient for user input, therefore solved and dialing keyboard region has been dwindled and move to screen when one-sided, because each user's hand size possibility is different, keyboard after dwindling still may exist be not easy to be touched at one-handed performance by user compared with territory, far field, now still inconvenient user's input, causes the problem that input efficiency is lower; Reached the effect that improves input efficiency.

Should be understood that, it is only exemplary that above general description and details are hereinafter described, and can not limit the disclosure.

Accompanying drawing explanation

Accompanying drawing is herein merged in instructions and forms the part of this instructions, shows and meets embodiment of the present disclosure, and be used from and explain principle of the present disclosure in instructions one.

Fig. 1 is according to the process flow diagram of a kind of operational controls layout adjustment method shown in an exemplary embodiment;

Fig. 2 A is according to the process flow diagram of a kind of operational controls layout adjustment method shown in another exemplary embodiment;

Fig. 2 B is according to the schematic diagram of a kind of open operation control edit pattern shown in an exemplary embodiment;

Fig. 2 C is according to the schematic diagram of a kind of definite self defined area shown in an exemplary embodiment;

Fig. 2 D determines the schematic diagram of self defined area according to the another kind shown in an exemplary embodiment;

Fig. 2 E is according to a kind of schematic diagram that operational controls is filled up to self defined area shown in an exemplary embodiment;

Fig. 2 F is according to the schematic diagram of two operational controls of a kind of exchange shown in an exemplary embodiment;

Fig. 2 G is according to the schematic diagram of a kind of lock operation control shown in an exemplary embodiment;

Fig. 2 H is according to the schematic diagram of a kind of open operation control unlock mode shown in an exemplary embodiment;

Fig. 3 is according to the block diagram of a kind of operational controls layout adjusting gear shown in an exemplary embodiment;

Fig. 4 is according to the block diagram of the another kind of operational controls layout adjusting gear shown in an exemplary embodiment;

Fig. 5 is according to the block diagram of a kind of device of adjusting for operational controls layout shown in an exemplary embodiment.

Embodiment

Here will at length to exemplary embodiment, describe, its example shown in the accompanying drawings.When description below relates to accompanying drawing, unless separately there is expression, the same numbers in different accompanying drawings represents same or analogous key element.Embodiment described in following exemplary embodiment does not represent all embodiments consistent with the disclosure.On the contrary, they are only the examples with apparatus and method as consistent in some aspects that described in detail in appended claims, of the present disclosure.

Fig. 1 is according to the process flow diagram of a kind of operational controls layout adjustment method shown in an exemplary embodiment, as shown in Figure 1, this operational controls layout adjustment method can be applied in electronic equipment, here the electronic equipment said can be smart mobile phone, panel computer, intelligent television, E-book reader, MP3 player (Moving Picture Experts Group Audio Layer III, dynamic image expert compression standard audio frequency aspect 3), MP4 (Moving Picture Experts Group Audio Layer IV, dynamic image expert compression standard audio frequency aspect 4) player, pocket computer on knee and desk-top computer etc.This operational controls layout adjustment method can comprise the following steps.

In step 101, receive the edit instruction that operational controls is edited.

In step 102, according to the attribute information of self defined area, adjust the attribute information of each operational controls, wherein, attribute information comprises position, shape and area, the area sum of each operational controls after adjustment is identical with the area of self defined area, the shape of each operational controls after adjustment after by the position grouping after adjusting and the form fit of self defined area.

In step 103, each operational controls after adjusting is filled in self defined area by the position after adjusting.

In sum, the operational controls layout adjustment method providing in disclosure embodiment, by determining the self defined area of self-defined one-handed performance, fills up self defined area by operational controls; Because self defined area is by user's setting of sliding, therefore more can adapt to user's use habit, and owing to can filling up self defined area, the area of each operational controls is maximized, be more convenient for user input, therefore solved and dialing keyboard region has been dwindled and move to screen when one-sided, because each user's hand size possibility is different, keyboard after dwindling still may exist be not easy to be touched at one-handed performance by user compared with territory, far field, now still inconvenient user's input, causes the problem that input efficiency is lower; Reached the effect that improves input efficiency.

Fig. 2 A is according to the process flow diagram of a kind of operational controls layout adjustment method shown in another exemplary embodiment, as shown in Figure 2 A, this operational controls layout adjustment method can be applied in electronic equipment, and the electronic equipment said here can be smart mobile phone, panel computer, intelligent television, E-book reader, MP3 player, MP4 player, pocket computer on knee and desk-top computer etc.This operational controls layout adjustment method can comprise the following steps.

In step 201, receive the edit instruction that operational controls is edited.

It should be noted that, the operational controls said here can be dialing button, input method button, " cancellation " control, " determining " control etc.

In a kind of use scenes, if user wants existing operational controls to update, user can enter according to the prompting operation control arranging the edit pattern of this operational controls.When user selects to enter the edit pattern of this operational controls, electronic equipment can receive the edit instruction that operational controls is edited.In other words, user can trigger the attribute of retouching operation control, corresponding, electronic equipment can be edit pattern by the attribute modification of these operational controls, when edit pattern, these operational controls can be updated.

By way of example, refer to Fig. 2 B, it is according to the schematic diagram of a kind of open operation control edit pattern shown in an exemplary embodiment.As shown in Figure 2 B, after user's opening operation control, click menu operation control, such as in Fig. 2 B " ... " operational controls, display menu catalogue, this menu directory can comprise and is used to indicate the adjusting operation control option that operational controls is adjusted and is used to indicate the adjusting operation control location options that operational controls position is adjusted, when user selects adjusting operation control option under menu directory, electronic equipment is the edit pattern of open operation control, now on the screen of electronic equipment, can be useful on the prompting that prompting user carries out the delimitation of operational controls viewing area, text prompt such as " please delimit self defined area " of showing in Fig. 2 B, this prompting can be edit pattern for the attribute of the current operational controls of prompting user, can edit this operational controls.

Obviously, in actual applications, the edit pattern of opening operation control in other way, such as the button that can arrange by electronic equipment coboundary, the present embodiment does not limit the opening ways of the edit pattern of user's open operation control.

In step 202, according to the sliding trace that carries out producing when touch screen slides, determine self defined area on screen.

So-called self defined area is according to the use habit of oneself by user, such as only using left hand or only using the right hand, on the screen of electronic equipment, delimit a viewing area that is applicable to own one-handed performance, the sliding trace producing when conventionally, this self defined area can be slided by user on screen is determined.This self defined area can be figure arbitrarily, such as square, fan-shaped or any irregular figure etc.

In actual applications, while determining self defined area according to sliding trace, may there are following two kinds of situations:

The first, when sliding trace forms closed region, closed region is defined as to self defined area.

When the sliding trace producing while sliding can self form a closed region, this closed region is defined as to self defined area on the screen of user at electronic equipment.

By way of example, refer to Fig. 2 C, it is according to the schematic diagram of a kind of definite self defined area shown in an exemplary embodiment.As shown in Figure 2 C, user's sliding trace producing that slides on screen has formed a closed region a00, using this closed region a00 as self defined area.

Second, when sliding trace and formation closed region, electronic equipment screen edge, a selected closed region at least two closed regions that form is defined as to self defined area, maybe the closed region of area minimum at least two closed regions that form is defined as to self defined area.

When sliding trace and screen edge intersect, while forming at least two closed regions, can be by a closed region of user oneself selection as self defined area.In a kind of possible implementation, when forming two closed regions, can on screen, distinguish or these closed regions of highlighted demonstration, so that user identifies and select one of them closed region, and the closed region that user is selected is defined as self defined area.

By way of example, refer to Fig. 2 D, it is according to the another kind shown in an exemplary embodiment, to determine the schematic diagram of self defined area.As shown in Figure 2 D, slide on the screen sliding trace and the screen edge that produce of user formed two closed regions, be respectively a01He closed region, closed region a02, now user can oneself select a closed region a01, and selected closed region a01 is as self defined area.

Optionally, when sliding trace and screen edge intersect, while forming at least two closed regions, also can automatically select the closed region of area minimum as self defined area by electronic equipment.In a kind of possible implementation, when sliding trace and two closed regions of the crossing formation of screen edge, can to the area of form two closed regions, be calculated by electronic equipment, a closed region of area minimum is defined as to self defined area.

Obviously, if sliding trace forms at least two closed regions, also a selected closed region at least two closed regions that form can be defined as to self defined area.Optionally, if sliding trace forms at least two closed regions, electronic equipment also can be using the closed region of area minimum as self defined area.Also optional, if sliding trace forms at least two closed regions, also can be defined as invalid operation, reminding user is again to the restriction of sliding of operational controls region.

In step 203, according to the attribute information of self defined area, adjust the attribute information of each operational controls, wherein, attribute information comprises position, shape and area, the area sum of each operational controls after adjustment is identical with the area of self defined area, the shape of each operational controls after adjustment after by the position grouping after adjusting and the form fit of self defined area.

In actual applications, the shape of the sliding trace producing during conventionally with user's touch screen due to self defined area is relevant, therefore the shape of self defined area may be completely different from original shape, in order to amplify each operational controls as far as possible, accuracy when operational controls is operated with raising user, operational controls can be out of shape, with guarantee distortion after each operational controls can fill up whole self defined area.

Optionally, according to the attribute information of self defined area, adjust the attribute information of each operational controls, can comprise two kinds of situations:

The first situation, determine the frequency of utilization of each operational controls, according to the frequency of utilization of the attribute information of self defined area and each operational controls, adjust the attribute information of each operational controls, area and its frequency of utilization relation in direct ratio of each operational controls after being adjusted.

In actual applications, the frequency that some operational controls is clicked use by user is higher, in order to facilitate user to click, use these operational controls, accuracy when operational controls is operated with raising user, the area of operational controls can be adjusted according to the frequency of utilization of operational controls, be about to the higher operational controls of frequency of utilization and adjust greatlyr.

It should be noted that, the area sum of each operational controls is set to identical with the area of self defined area, and the shape by each operational controls after adjusting after by the position grouping after adjusting and the form fit of self defined area, be self defined area can be filled up for operational controls when filling, do not leave region any blank, that can not click.

The second situation, determine frequent use region in self defined area and the frequency of utilization of each operational controls, according to the attribute information in frequent use region, adjust frequency of utilization higher than the attribute information of each operational controls of setting threshold, according to removing the frequent attribute information that uses extra-regional region in self defined area, adjust frequency of utilization lower than the attribute information of each operational controls of setting threshold.

In actual applications, owing to having the region that facilitates user to click when self defined area is used, frequently use region, in order to improve input efficiency, improve user and experience, the high operational controls of frequency of utilization can be filled in frequent use region.

The shape of the operational controls after change can be rectangle, square, circle, triangle, fan-shaped etc., can be also irregular figure.

In step 204, each operational controls after adjusting is filled in self defined area by the position after adjusting.

General, each operational controls can be filled up to self defined area according to predetermined arrangement order, such as can be from top to bottom, from left to right by each operational controls automatic filling in self defined area, when filling, can be to fill completely, also utilize each operational controls to fill up self defined area.

By way of example, refer to Fig. 2 E, it is according to a kind of schematic diagram that operational controls is filled up to self defined area shown in an exemplary embodiment.As shown in Figure 2 E, operational controls is according to predetermined putting in order, from top to bottom, from left to right automatic filling in self defined area, when filling self defined area, each operational controls is filled self defined area completely, and self defined area is interior without any region blank, that can not click.

Obviously, in actual applications, owing to being positioned at the shape of controlling control at self defined area edge and can being subject to the impact of self defined area edge shape, therefore the control of controlling of self defined area edge can be carried out to rule or irregular distortion according to the shape at self defined area edge, and self defined area inside control control owing to not being subject to the impact of self defined area edge shape, therefore the shape of making the case of intra-zone by oneself can be carried out to rule distortion, so that user selects to click.

In step 205, receive at least one group of move, every group of corresponding two operational controls of move, for every group of move, exchange two operational controls corresponding with move, and exchange respectively the attribute information of two operational controls.

So-called two operational controls corresponding with move are exchanged and refer to the position of two operational controls, shape and area are exchanged.Also be, when the position of two operational controls is exchanged, if the shape of the operational controls of two related exchanges and area are different, the shape of these two operational controls and area need to be modified respectively, make position institute correspondence after the shape of amended operational controls and area coinciding exchange control shape and the area of control.Such as, the shape of the first operational controls of needs exchanges and area are revised as to shape and the area of the second operational controls that needs exchange, and the shape of the second operational controls and area are revised as to shape and the area of the first operational controls.

In a kind of use scenes, if the arranging of each operational controls that electronic equipment is filled in self defined area do not meet user's routine use custom, not pointed to user, now, for the individual use habit that can meet user is to improve user friendly, the position of each operational controls in the time of can allowing user initial to filling is adjusted.

A kind of realization in scene, user, when selecting two operational controls to exchange, can select driving style.General, user can select an operational controls to drag, in dragging process, user's finger does not frame out, this operational controls moves along with dragging track, when this operational controls is dragged to another operational controls position and is unclamped, produce move, and the operational controls that drags position while stopping and the operational controls dragging while choosing are exchanged.During whole dragging, the track dragging can only limit in self defined area, also can allow outside self defined area, be the position at two different operating control places as long as drag reference position and the end position of track, these two different operating controls can be exchanged.

The operational controls of the initial selected when it should be noted that if drag when dragging while finishing that the corresponding operational controls in position is same operational controls, can assert that this drag operation is invalid, does not produce move.

It is also to be noted that, if drag position while stopping outside self defined area, also can assert that this drag operation is invalid, does not produce move.

By way of example, for wherein one group of move, refer to shown in Fig. 2 F, it is according to the schematic diagram of two operational controls of a kind of exchange shown in an exemplary embodiment.As shown in Fig. 2 F left side, user select an operational controls " ... " pinned while dragging to another operational controls " * " position, unclamp operation control " ... ", by operational controls " ... " exchange with operational controls " * ", the effect after exchange is as shown in Fig. 2 F right side.

Another kind is realized in scene, and user, when selecting two operational controls to exchange, can select click mode.General, user can two different operational controls of adopting consecutive click chemical reaction, to produce move, such as, two different operating controls of adopting consecutive click chemical reaction within a predetermined period of time, here the predetermined amount of time said can be set according to actual service condition, and such as being set as 2s, 3s etc., the present embodiment is not specifically limited this.Corresponding, electronic equipment, after receiving this move, exchanges two clicked operational controls.

Optionally, if this predetermined amount of time of surpass setting of the time interval of adopting consecutive click chemical reaction, now adopting consecutive click chemical reaction be operating as invalid.Such as, this predetermined amount of time is set to 1s, and in one-time continuous clicking operation, after the 2s rising, just clicks second operational controls in first operational controls of click, now this adopting consecutive click chemical reaction operation can be regarded as to invalid operation.Optionally, if the time interval of adopting consecutive click chemical reaction surpasses this predetermined amount of time of setting, first clicking operation can also be regarded as to invalid operation, second clicking operation regarded as to valid function, and using second clicking operation and proceed exchange judgement as first clicking operation of next adopting consecutive click chemical reaction operation.Such as, predetermined amount of time is set to 1s, and in one-time continuous clicking operation, after the 2s rising in first operational controls of click, click second operational controls, now assert the invalid operation that is operating as of clicking first operational controls, now can carry out the judgement of next predetermined amount of time to click the moment of this second operational controls, if clicked the 3rd operational controls in the 1s constantly rising in second operational controls of click, can regard as second operational controls of adopting consecutive click chemical reaction and the 3rd operational controls is valid function, now produce and second operational controls and the 3rd move that operational controls is corresponding, according to this move, second operational controls and the 3rd operational controls are exchanged.

It should be noted that also clicking operation is regarded as invalid operation for the first time if click the region of self defined area outside after clicking first operational controls, now user can click again needs the operational controls that exchanges.

In step 206, receive each operational controls is entered to line-locked lock instruction, by the attribute modification of each operational controls, be locking mode, it is non-editing mode that locking mode is used to indicate each operational controls.

It is non-editing mode that locking mode is used to indicate each operational controls, and also when locking mode, each operational controls can not be moved.

Because each operational controls is can editing mode time, be not easy to user's normal running, therefore for fear of the impact on user's normal running, can edit and adjust after each operational controls user, each operational controls is locked, also be about to each operational controls and be set as non-editing mode, each operational controls only can be clicked and choose by user when non-editing mode, and cannot be selected by user mobile.

Optionally, electronic equipment can receive the lock instruction producing when each operational controls exterior domain is triggered, and is locking mode by the attribute modification of each operational controls.Such as, user can click the optional position in each operational controls exterior domain, to produce lock instruction, corresponding, electronic equipment can receive this lock instruction, and by the attribute modification of each operational controls, is locking mode according to this lock instruction.By way of example, refer to shown in Fig. 2 G, it is according to the schematic diagram of a kind of lock operation control shown in an exemplary embodiment.As shown in Figure 2 G, user clicks the a03Nei optional position, region outside each operational controls, and to produce lock instruction, electronic equipment can lock each operational controls according to this lock instruction, afterwards, user can utilize each operational controls normally to operate.

In step 207, receive the unlock command that each operational controls is carried out to release, by the attribute modification of each operational controls, be unlock mode, it is editing mode that unlock mode is used to indicate each operational controls.

So-called unlock mode refers to carries out after the unlock command of release each operational controls receiving, and each operational controls can be moved, and be also under unlock mode, and each operational controls is all in can editing mode.

In a kind of use scenes, user is after having edited each operational controls, if in use for some time, think some conventional operational controls position still inconvenient user click, now, electronic equipment can provide the function that allows user again to adjust each operational controls position for user.Corresponding, user can select to open the unlock mode of each operational controls, and under unlock mode, readjusts the position of each operational controls.When if user need to readjust operational controls position like this, can avoid user to reopen the edit pattern of each operational controls, with the process that each operational controls is updated, thereby saved, each operational controls is edited to the time of adjusting, greatly improved user's experience.

By way of example, refer to Fig. 2 H, it is according to the schematic diagram of a kind of open operation control unlock mode shown in an exemplary embodiment.As shown in the figure, while showing each operational controls on the screen of electronic equipment, can click menu operation control " ... ", under the menu directory of opening, select adjusting operation control location options, open the unlock mode of each operational controls.Now, user can be according to the needs of oneself position of swap operation control again.

In practical application, user is after having closed the operational controls of having edited, if user wants to reuse operational controls, need opening operation control again, optionally, after opening operation control again, electronic equipment can show last editor's operational controls on screen.Also, the operational controls that user produces after editor can repeatedly be used, and is not limited to once and uses.Like this, along with user uses the operational controls after editor for a long time, user can constantly adjust according to the use habit of oneself position of each operational controls, thereby makes arranging of operational controls more and more meet user's use habit, makes the operational controls of arranging have more user's specific aim.

In sum, the operational controls layout adjustment method providing in disclosure embodiment, by determining the self defined area of self-defined one-handed performance, is filled into each operational controls in self defined area; Because self defined area is by user's setting of sliding, therefore more can adapt to user's use habit, and owing to can filling up self defined area, the area of each operational controls is maximized, be more convenient for user input, therefore solved and dialing keyboard region has been dwindled and move to screen when one-sided, because each user's hand size possibility is different, keyboard after dwindling still may exist be not easy to be touched at one-handed performance by user compared with territory, far field, now still inconvenient user's input, causes the problem that input efficiency is lower; Reached the effect that improves input efficiency.

The operational controls layout adjustment method providing in disclosure embodiment, by receiving at least one group of move, every group of corresponding two operational controls of move, for every group of move, exchange two operational controls corresponding with move; Solved the fixing problem that can not revise in operational controls position; User can be changed operational controls position according to the needs of oneself and custom, can improve efficiency and the accuracy of user's input, and improve user and experienced and user friendly.

The operational controls layout adjustment method providing in disclosure embodiment, enters line-locked lock instruction by receiving to each operational controls, by the attribute modification of each operational controls, is locking mode, and it is non-editing mode that locking mode is used to indicate each operational controls; Solve user and after editor completes, carried out at once the problem that processing ease produces maloperation; Reached and facilitated user to operate, avoided the effect of maloperation.

The operational controls layout adjustment method providing in disclosure embodiment, by receiving the unlock command that each operational controls is carried out to release, is unlock mode by the attribute modification of each operational controls, and it is editing mode that unlock mode is used to indicate each operational controls; Solved when user need to change operational controls position again, need to reopen edit pattern and edit, easily caused repetitive operation, consumed the problem of long period; Reach raising user and experienced, saved the effect of operational controls being adjusted to the time.

Following is disclosure device embodiment, can be for carrying out disclosure embodiment of the method.Details for not disclosing in disclosure device embodiment, please refer to disclosure embodiment of the method.

Fig. 3 is according to the block diagram of a kind of operational controls layout adjusting gear shown in an exemplary embodiment, as shown in Figure 3, this operational controls layout adjusting gear can be applied in electronic equipment, and the electronic equipment said here can be smart mobile phone, panel computer, intelligent television, E-book reader, MP3 player, MP4 player, pocket computer on knee and desk-top computer etc.This operational controls layout adjusting gear can include but not limited to: the first receiver module 302, adjusting module 304 and packing module 306.

This first receiver module 302 is configured to receive the edit instruction that operational controls is edited.

This adjusting module 304 is configured to the attribute information according to self defined area, adjust the attribute information of each operational controls, wherein, attribute information comprises position, shape and area, the area sum of each operational controls after adjustment is identical with the area of self defined area, the shape of each operational controls after adjustment after by the position grouping after adjusting and the form fit of self defined area.

This packing module 306 is configured to each operational controls after adjusting to be filled in self defined area by the position after adjusting.

In sum, the operational controls layout adjusting gear providing in disclosure embodiment, by determining the self defined area of self-defined one-handed performance, is filled into each operational controls in self defined area; Because self defined area is by user's setting of sliding, therefore more can adapt to user's use habit, and owing to can filling up self defined area, the area of each operational controls is maximized, be more convenient for user input, therefore solved and dialing keyboard region has been dwindled and move to screen when one-sided, because each user's hand size possibility is different, keyboard after dwindling still may exist be not easy to be touched at one-handed performance by user compared with territory, far field, now still inconvenient user's input, causes the problem that input efficiency is lower; Reached the effect that improves input efficiency.

Fig. 4 is according to the block diagram of the another kind of operational controls layout adjusting gear shown in an exemplary embodiment, as shown in Figure 4, this operational controls layout adjusting gear can be applied in electronic equipment, and the electronic equipment said here can be smart mobile phone, panel computer, intelligent television, E-book reader, MP3 player, MP4 player, pocket computer on knee and desk-top computer etc.This operational controls layout adjusting gear can include but not limited to: the first receiver module 402, adjusting module 404 and packing module 406.

This first receiver module 402 is configured to receive the edit instruction that operational controls is edited.

This adjusting module 404 is configured to the attribute information according to self defined area, adjust the attribute information of each operational controls, wherein, attribute information comprises position, shape and area, the area sum of each operational controls after adjustment is identical with the area of self defined area, the shape of each operational controls after adjustment after by the position grouping after adjusting and the form fit of self defined area.

This packing module 406 is configured to each operational controls after adjusting to be filled in self defined area by the position after adjusting.

In the possible implementation of the first in the embodiment shown in fig. 4, this adjusting module 404 can comprise: first determines that submodule 404a and first adjusts submodule 404b.

This first definite submodule 404a is configured to determine the frequency of utilization of each operational controls.

This first adjustment submodule 404b is configured to according to the frequency of utilization of the attribute information of self defined area and each operational controls, adjust the attribute information of each operational controls, area and its frequency of utilization relation in direct ratio of each operational controls after being adjusted.

In the possible implementation of the second in the embodiment shown in fig. 4, this adjusting module 404 can also comprise: second determines that submodule 404c, second adjusts submodule 404d and the 3rd and adjusts submodule 404e.

This second determines submodule 404c, is configured to determine frequent use region in self defined area and the frequency of utilization of each operational controls.

This second adjustment submodule 404d, is configured to, according to the attribute information in frequent use region, adjust frequency of utilization higher than the attribute information of each operational controls of setting threshold.

The 3rd adjusts submodule 404e, is configured to, according to removing the frequent attribute information that uses extra-regional region in self defined area, adjust frequency of utilization lower than the attribute information of each operational controls of setting threshold.

In the third possible implementation in the embodiment shown in fig. 4, this operational controls layout adjusting gear can also comprise: determination module 408.

This determination module 408, is configured to basis and on screen, carries out the sliding trace producing when touch screen slides, and determines self defined area.

In the 4th kind of possible implementation in the embodiment shown in fig. 4, this determination module 408 can comprise: the 3rd determines that submodule 408a, the 4th determines submodule 408b.

The 3rd determines that submodule 408a is configured to, when sliding trace forms closed region, closed region is defined as to self defined area.

The 4th determines that submodule 408b is configured to when sliding trace and formation closed region, screen display edge, a selected closed region at least two closed regions that form is defined as to self defined area, maybe the closed region of area minimum at least two closed regions that form is defined as to self defined area.

In the 5th kind of possible implementation in the embodiment shown in fig. 4, this operational controls layout adjusting gear can also comprise: the second receiver module 410, Switching Module 412.

This second receiver module 410 is configured to receive at least one group of move, every group of corresponding two operational controls of move.

This Switching Module 412 is configured to for every group of move, two operational controls corresponding with move is exchanged, and exchange respectively the attribute information of two operational controls.

In the 6th kind of possible implementation in the embodiment shown in fig. 4, this operational controls layout adjusting gear can also comprise: the 3rd receiver module 414, the first modified module 416.

The 3rd receiver module 414 is configured to receive each operational controls is entered to line-locked lock instruction.

It is locking mode that this first modified module 416 is configured to the attribute modification of each operational controls, and it is non-editing mode that locking mode is used to indicate each operational controls.

In the 7th kind of possible implementation in the embodiment shown in fig. 4, this operational controls layout adjusting gear can also comprise: the 4th receiver module 418, the second modified module 420.

The 4th receiver module 418 is configured to receive the unlock command that each operational controls is carried out to release.

It is unlock mode that this second modified module 420 is configured to the attribute modification of each operational controls, and it is editing mode that unlock mode is used to indicate each operational controls.

In sum, the operational controls layout adjusting gear providing in disclosure embodiment, by determining the self defined area of self-defined one-handed performance, is filled into each operational controls in self defined area; Because self defined area is by user's setting of sliding, therefore more can adapt to user's use habit, and owing to can filling up self defined area, the area of each operational controls is maximized, be more convenient for user input, therefore solved and dialing keyboard region has been dwindled and move to screen when one-sided, because each user's hand size possibility is different, keyboard after dwindling still may exist be not easy to be touched at one-handed performance by user compared with territory, far field, now still inconvenient user's input, causes the problem that input efficiency is lower; Reached the effect that improves input efficiency.

It should be noted that: the operational controls layout adjusting gear that above-described embodiment provides is when adjusting operation control, only the division with above-mentioned each functional module is illustrated, in practical application, can above-mentioned functions be distributed and by different functional modules, completed as required, the inner structure that is about to electronic equipment is divided into different functional modules, to complete all or part of function described above.In addition, the operational controls layout adjusting gear that above-described embodiment provides and operational controls layout adjustment method embodiment belong to same design, and its specific implementation process refers to embodiment of the method, repeats no more here.

The disclosure also provides a kind of operational controls layout adjusting gear, this operational controls layout adjusting gear is applied in electronic equipment, and the electronic equipment said here can be smart mobile phone, panel computer, intelligent television, E-book reader, MP3 player, MP4 player, pocket computer on knee and desk-top computer etc.This operational controls layout adjusting gear can comprise: processor; Storer for storage of processor executable instruction; Wherein, processor is configured to:

The edit instruction that reception is edited operational controls;

According to the attribute information of self defined area, adjust the attribute information of each operational controls, wherein, attribute information comprises position, shape and area, the area sum of each operational controls after adjustment is identical with the area of self defined area, the shape of each operational controls after adjustment after by the position grouping after adjusting and the form fit of self defined area;

Each operational controls after adjusting is filled in self defined area by the position after adjusting.

Fig. 5 is according to the block diagram of a kind of device of adjusting for operational controls layout shown in an exemplary embodiment.For example, device 500 can be mobile phone, computing machine, digital broadcast terminal, information receiving and transmitting equipment, game console, flat-panel devices, Medical Devices, body-building equipment, personal digital assistant etc.

With reference to Fig. 5, device 500 can comprise following one or more assembly: processing components 502, storer 504, power supply module 506, multimedia groupware 508, audio-frequency assembly 510, I/O (I/O) interface 512, sensor module 514, and communications component 516.

The integrated operation of processing components 502 common control device 500, such as with demonstration, call, data communication, the operation that camera operation and record operation are associated.Processing components 502 can comprise that one or more processors 518 carry out instruction, to complete all or part of step of above-mentioned Fig. 1 and Fig. 2 A the operation described control layout method of adjustment.In addition, processing components 502 can comprise one or more modules, is convenient to mutual between processing components 502 and other assemblies.For example, processing components 502 can comprise multi-media module, to facilitate mutual between multimedia groupware 508 and processing components 502.

Storer 504 is configured to store various types of data to be supported in the operation of device 500.The example of these data comprises for any application program of operation on device 500 or the instruction of method, contact data, telephone book data, message, picture, video etc.Storer 504 can be realized by the volatibility of any type or non-volatile memory device or their combination, as static RAM (SRAM), Electrically Erasable Read Only Memory (EEPROM), Erasable Programmable Read Only Memory EPROM (EPROM), programmable read only memory (PROM), ROM (read-only memory) (ROM), magnetic store, flash memory, disk or CD.

Power supply module 506 provides electric power for installing 500 various assemblies.Power supply module 506 can comprise power-supply management system, one or more power supplys, and other and the assembly that generates, manages and distribute electric power to be associated for device 500.

Multimedia groupware 508 is included in the screen that an output interface is provided between device 500 and user.In certain embodiments, screen can comprise liquid crystal display (LCD) and touch panel (TP).If screen comprises touch panel, screen may be implemented as touch-screen, to receive the input signal from user.Touch panel comprises that one or more touch sensors are with the gesture on sensing touch, slip and touch panel.Touch sensor is the border of sensing touch or sliding action not only, but also detection duration and the pressure relevant to touch or slide.In certain embodiments, multimedia groupware 508 comprises a front-facing camera and/or post-positioned pick-up head.When device 500 is in operator scheme, during as screening-mode or video mode, front-facing camera and/or post-positioned pick-up head can receive outside multi-medium data.Each front-facing camera and post-positioned pick-up head can be fixing optical lens systems or have focal length and optical zoom ability.

Audio-frequency assembly 510 is configured to output and/or input audio signal.For example, audio-frequency assembly 510 comprises a microphone (MIC), and when device 500 is in operator scheme, during as call model, logging mode and speech recognition mode, microphone is configured to receive external audio signal.The sound signal receiving can be further stored in storer 504 or be sent via communications component 516.In certain embodiments, audio-frequency assembly 510 also comprises a loudspeaker, for output audio signal.

I/O interface 512 is for providing interface between processing components 502 and peripheral interface module, and above-mentioned peripheral interface module can be keyboard, some striking wheel, button etc.These buttons can include but not limited to: home button, volume button, start button and locking press button.

Sensor module 514 comprises one or more sensors, is used to device 500 that the state estimation of various aspects is provided.For example, sensor module 514 can detect the opening/closing state of device 500, the relative positioning of assembly, for example assembly is display and the keypad of device 500, the position that sensor module 514 can also detect mobile terminal 500 or 500 1 assemblies of device changes, user is with device 500 existence that contact or do not have the temperature variation of device 500 orientation or acceleration/deceleration and device 500.Sensor module 514 can comprise proximity transducer, be configured to without any physical contact time detect near the existence of object.Sensor module 514 can also comprise optical sensor, as CMOS or ccd image sensor, for using in imaging applications.In certain embodiments, this sensor module 514 can also comprise acceleration transducer, gyro sensor, Magnetic Sensor, pressure transducer or temperature sensor.

Communications component 516 is configured to be convenient to the communication of wired or wireless mode between device 500 and other equipment.Device 500 wireless networks that can access based on communication standard, as WiFi, 2G or 3G, or their combination.In one exemplary embodiment, communications component 516 receives broadcast singal or the broadcast related information from external broadcasting management system via broadcast channel.In one exemplary embodiment, communications component 516 also comprises near-field communication (NFC) module, to promote junction service.For example, can be based on radio-frequency (RF) identification (RFID) technology in NFC module, Infrared Data Association (IrDA) technology, ultra broadband (UWB) technology, bluetooth (BT) technology and other technologies realize.

In the exemplary embodiment, device 500 can be realized by one or more application specific integrated circuit (ASIC), digital signal processor (DSP), digital signal processing appts (DSPD), programmable logic device (PLD) (PLD), field programmable gate array (FPGA), controller, microcontroller, microprocessor or other electronic components, the method for adjusting for carrying out above-mentioned Fig. 1 and Fig. 2 A the operation described control layout.

In the exemplary embodiment, a kind of non-provisional computer-readable recording medium that comprises instruction is also provided, the storer 504 that for example comprises instruction, above-mentioned instruction can have been carried out the operational controls layout adjustment method described in above-mentioned Fig. 1 and Fig. 2 A by device 500 processor 518.For example, non-provisional computer-readable recording medium can be ROM, random access memory (RAM), CD-ROM, tape, floppy disk and optical data storage equipment etc.

Those skilled in the art, considering instructions and putting into practice after invention disclosed herein, will easily expect other embodiment of the present disclosure.The application is intended to contain any modification of the present disclosure, purposes or adaptations, and these modification, purposes or adaptations are followed general principle of the present disclosure and comprised undocumented common practise or the conventional techniques means in the art of the disclosure.Instructions and embodiment are only regarded as exemplary, and true scope of the present disclosure and spirit are pointed out by claim below.

Should be understood that, the disclosure is not limited to precision architecture described above and illustrated in the accompanying drawings, and can carry out various modifications and change not departing from its scope.The scope of the present disclosure is only limited by appended claim.

Claims (17)

1. an operational controls layout adjustment method, is characterized in that, described method comprises:

The edit instruction that reception is edited operational controls;

According to the attribute information of self defined area, adjust the attribute information of each operational controls, wherein, described attribute information comprises position, shape and area, the area sum of each operational controls after adjustment is identical with the area of described self defined area, the shape of each operational controls after adjustment after by the position grouping after adjusting and the form fit of described self defined area;

Each operational controls after adjusting is filled in described self defined area by the position after adjusting.

2. method according to claim 1, is characterized in that, described according to the attribute information of self defined area, adjusts the attribute information of each operational controls, comprising:

Determine the frequency of utilization of each operational controls;

According to the frequency of utilization of the attribute information of described self defined area and each operational controls, adjust the attribute information of each operational controls, area and its frequency of utilization relation in direct ratio of each operational controls after being adjusted.

3. method according to claim 1, is characterized in that, described according to the attribute information of self defined area, adjusts the attribute information of each operational controls, comprising:

Determine frequent use region in described self defined area and the frequency of utilization of each operational controls;

According to the attribute information in described frequent use region, adjust frequency of utilization higher than the attribute information of each operational controls of setting threshold;

According to removing the attribute information in the extra-regional region of described frequent use in described self defined area, adjust frequency of utilization lower than the attribute information of each operational controls of described setting threshold.

4. method according to claim 1, is characterized in that, described method also comprises:

According to the sliding trace that carries out producing when touch screen slides, determine described self defined area on described screen.

5. method according to claim 4, is characterized in that, described basis is carried out the sliding trace producing when touch screen slides on described screen, determines described self defined area, comprising:

When described sliding trace forms closed region, described closed region is defined as to described self defined area; Or,

When described sliding trace and formation closed region, described screen display edge, a selected closed region at least two closed regions that form is defined as to described self defined area, maybe the closed region of area minimum at least two closed regions that form is defined as to described self defined area.

6. according to arbitrary described method in claim 1 to 5, it is characterized in that, described method also comprises:

Receive at least one group of move, corresponding two operational controls of move described in every group;

For every group of move, two operational controls corresponding with described move are exchanged, and exchange respectively the attribute information of described two operational controls.

7. method according to claim 6, is characterized in that, described method also comprises:

Reception is entered line-locked lock instruction to each operational controls;

By the attribute modification of each operational controls, be locking mode, it is non-editing mode that described locking mode is used to indicate each operational controls.

8. method according to claim 7, is characterized in that, described method also comprises:

The unlock command of release is carried out in reception to each operational controls;

By the attribute modification of each operational controls, be unlock mode, it is editing mode that described unlock mode is used to indicate each operational controls.

9. an operational controls layout adjusting gear, is characterized in that, described device comprises:

The first receiver module, is configured to the edit instruction of operational controls being edited for receiving;

Adjusting module, be configured to for according to the attribute information of self defined area, adjust the attribute information of each operational controls, wherein, described attribute information comprises position, shape and area, the area sum of each operational controls after adjustment is identical with the area of described self defined area, the shape of each operational controls after adjustment after by the position grouping after adjusting and the form fit of described self defined area;

Packing module, is configured to for each operational controls after adjusting is filled into described self defined area by the position after adjusting.

10. device according to claim 9, is characterized in that, described adjusting module, comprising:

First determines submodule, is configured to for determining the frequency of utilization of each operational controls;

First adjusts submodule, be configured to for according to the frequency of utilization of the attribute information of described self defined area and each operational controls, adjust the attribute information of each operational controls, area and its frequency of utilization relation in direct ratio of each operational controls after being adjusted.

11. devices according to claim 9, is characterized in that, described adjusting module, comprising:

Second determines submodule, is configured to for determining the frequent use region of described self defined area and the frequency of utilization of each operational controls;

Second adjusts submodule, is configured to, for according to the attribute information in described frequent use region, adjust frequency of utilization higher than the attribute information of each operational controls of setting threshold;

The 3rd adjusts submodule, is configured to, for the attribute information except the extra-regional region of described frequent use according to described self defined area, adjust frequency of utilization lower than the attribute information of each operational controls of described setting threshold.

12. devices according to claim 9, is characterized in that, described device also comprises:

Determination module, is configured to, for according to the sliding trace that carries out producing when touch screen slides, determine described self defined area on described screen.

13. devices according to claim 12, is characterized in that, described determination module, comprising:

The 3rd determines submodule, is configured to, for when described sliding trace forms closed region, described closed region is defined as to described self defined area; Or,

The 4th determines submodule, be configured to for when described sliding trace and the formation closed region, described screen display edge, a selected closed region at least two closed regions that form is defined as to described self defined area, maybe the closed region of area minimum at least two closed regions that form is defined as to described self defined area.

14. according to arbitrary described device in claim 9 to 13, it is characterized in that, described device also comprises:

The second receiver module, is configured to for receiving at least one group of move, corresponding two operational controls of move described in every group;

Switching Module, is configured to, for for every group of move, two operational controls corresponding with described move be exchanged, and exchange respectively the attribute information of described two operational controls.

15. devices according to claim 14, is characterized in that, described device also comprises:

The 3rd receiver module, is configured to, for receiving, each operational controls is entered to line-locked lock instruction;

The first modified module, is configured to for being locking mode by the attribute modification of each operational controls, and it is non-editing mode that described locking mode is used to indicate each operational controls.

Device described in 16. claims 15, is characterized in that, described device also comprises:

The 4th receiver module, is configured to the unlock command that each operational controls is carried out to release for receiving;

The second modified module, is configured to for being unlock mode by the attribute modification of each operational controls, and it is editing mode that described unlock mode is used to indicate each operational controls.

17. 1 kinds of operational controls layout adjusting gears, is characterized in that, comprising:

Processor;

For storing the storer of described processor executable;

Wherein, described processor is configured to:

The edit instruction that reception is edited operational controls;

According to the attribute information of self defined area, adjust the attribute information of each operational controls, wherein, described attribute information comprises position, shape and area, the area sum of each operational controls after adjustment is identical with the area of described self defined area, the shape of each operational controls after adjustment after by the position grouping after adjusting and the form fit of described self defined area;

Each operational controls after adjusting is filled in described self defined area by the position after adjusting.