CN104219445A - Method and device for adjusting shooting modes - Google Patents

Abstract

The invention discloses a method and a device for adjusting shooting modes, and belongs to the field of image shooting. The method for adjusting the shooting modes includes starting virtualization modes in the shooting modes of cameras; determining focusing regions; setting non-virtualization regions in the virtualization modes according to the focusing regions; determining regions outside of the non-virtualization regions on screens as virtualization regions in the virtualization modes and acquiring adjusted virtualization modes with the non-virtualization regions and the virtualization regions. The virtualization modes include the virtualization regions and the non-virtualization regions, the non-virtualization regions have clear display properties, and the virtualization regions have virtualization display properties. The method and the device have the advantages that the non-virtualization regions are set according to the focusing regions, and the regions outside the non-virtualization regions are set as the virtualization regions, accordingly, the problem of tediousness in operation due to the fact that shooting requirements of users only can be met by virtualization regions after the users repeatedly manually adjust the virtualization regions can be solved, and effects of simplifying virtualization mode adjusting steps and improving adjustment efficiency and adjustment precision can be realized.

Description

Screening-mode method of adjustment and device

Technical field

The disclosure relates to image taking field, particularly a kind of screening-mode method of adjustment and device.

Background technology

In order to meet consumers' demand, more smart mobile phone provides multiple screening-mode in the time carrying out image taking, and in screening-mode, the utilization rate of virtualization pattern is conventionally higher, and the image that shooting obtains under virtualization pattern has the effect of background virtualization.

In the time using virtualization pattern to take, user can be according to shooting demand, manually adjusts the virtualization region under virtualization pattern, and the display effect of the pixel wherein capturing in virtualization region is that virtualization shows.Such as user can click screen and move under virtualization pattern, along with the movement of touch point, also move thereupon in virtualization region.

Inventor, realizing in process of the present disclosure, finds that correlation technique at least exists following defect: user, in the time manually adjusting virtualization region, conventionally need to repeatedly adjust and just can make virtualization region compared with the shooting demand close to user, complex operation.

Summary of the invention

In the time manually adjusting virtualization region, can make virtualization region compared with shooting demand close to user just conventionally need to repeatedly adjust in order to solve user in correlation technique, the problem of complex operation, the disclosure provides a kind of screening-mode method of adjustment and device.Described technical scheme is as follows:

According to the first aspect of disclosure embodiment, a kind of screening-mode method of adjustment is provided, described method comprises:

Open the virtualization pattern in camera screening-mode, described virtualization pattern comprises virtualization region and non-virtualization region, and the display properties in described non-virtualization region is clear demonstration, and the display properties in described virtualization region is that virtualization shows;

Determine focusing area;

Set the non-virtualization region of described virtualization pattern according to described focusing area;

Region beyond the above non-virtualization region of screen is defined as to the virtualization region under described virtualization pattern, and the virtualization pattern with described non-virtualization region and described virtualization region after being adjusted, utilizes described virtualization pattern to carry out image taking.

Optionally, described definite focusing area, comprising:

The central area of finding a view of described camera is defined as to described focusing area;

Or,

The region producing when touching on described screen is defined as described focusing area.

Optionally, the described non-virtualization region of setting described virtualization pattern according to described focusing area, comprising:

Described focusing area is set as to described non-virtualization region;

Or,

Described focusing area is carried out to convergent-divergent according to preset proportion, the region obtaining after convergent-divergent is set as to described non-virtualization region.

Optionally, described method also comprises:

Receive adjustment instruction that described non-virtualization region is adjusted, described adjustment instruction is user's generation when operation is adjusted in described non-virtualization region;

According to described adjustment instruction, adjust described non-virtualization region.

Optionally, described method also comprises:

Centered by described non-virtualization region to surrounding radiation extension virtualization effect, described to surrounding radiation extension virtualization effect refer to pixel by the degree of virtualization and described pixel the distance correlation apart from described center.

Optionally, described method also comprises:

A part that the region that touches formation in described virtualization region is defined as to described non-virtualization region, changes to clear demonstration by the display properties in described region.

Optionally, described method also comprises:

Receive exchange instruction, described exchange instruction is for exchanging the display properties in the display properties in described virtualization region and described non-virtualization region;

The display properties in described virtualization region is changed to clear demonstration, and the display properties in described non-virtualization region is changed to virtualization demonstration.

According to the second aspect of disclosure embodiment, a kind of screening-mode adjusting device is provided, described device comprises:

Opening module, is configured to open the virtualization pattern in camera screening-mode, and described virtualization pattern comprises virtualization region and non-virtualization region, and the display properties in described non-virtualization region is clear demonstration, and the display properties in described virtualization region is that virtualization shows;

The first determination module, is configured to determine focusing area;

Setting module, the described focusing area that is configured to determine according to described the first determination module is set the non-virtualization region of described virtualization pattern;

The second determination module, be configured to the region beyond the above non-virtualization region of screen to be defined as the virtualization region under described virtualization pattern, the virtualization pattern with described non-virtualization region and described virtualization region after being adjusted, utilizes described virtualization pattern to carry out image taking.

Optionally, described the first determination module, comprising:

First determines submodule, is configured to the central area of finding a view of described camera to be defined as described focusing area;

Or,

Second determines submodule, and the region that is configured to produce when touching on described screen is defined as described focusing area.

Optionally, described setting module, comprising:

First sets submodule, is configured to described focusing area to be set as described non-virtualization region;

Or,

Second sets submodule, is configured to described focusing area to carry out convergent-divergent according to preset proportion, and the region obtaining after convergent-divergent is set as to described non-virtualization region.

Optionally, described device also comprises:

The first receiver module, is configured to receive adjustment instruction that described non-virtualization region is adjusted, and described adjustment instruction is user's generation when operation is adjusted in described non-virtualization region;

Adjusting module, is configured to according to described adjustment instruction, adjusts described non-virtualization region.

Optionally, described device also comprises:

Extension module, is configured to centered by described non-virtualization region to surrounding radiation extension virtualization effect, described to surrounding radiation extension virtualization effect refer to pixel by the degree of virtualization and described pixel the distance correlation apart from described center.

Optionally, described device also comprises:

The 3rd determination module, is configured to be defined as the part in described non-virtualization region by touch the region forming in described virtualization region, and the display properties in described region is changed to clear demonstration.

Optionally, described device also comprises:

The second receiver module, is configured to receive exchange instruction, and described exchange instruction is for exchanging the display properties in the display properties in described virtualization region and described non-virtualization region;

Change module, is configured to the display properties in described virtualization region to change to clear demonstration, and the display properties in described non-virtualization region is changed to virtualization demonstration.

According to the third aspect of disclosure embodiment, a kind of screening-mode adjusting device is provided, comprising:

Processor;

For storing the memory of described processor executable;

Wherein, described processor is configured to:

Open the virtualization pattern in camera screening-mode, described virtualization pattern comprises virtualization region and non-virtualization region, and the display properties in described non-virtualization region is clear demonstration, and the display properties in described virtualization region is that virtualization shows;

Determine focusing area;

Set the non-virtualization region of described virtualization pattern according to described focusing area;

Region beyond the above non-virtualization region of screen is defined as to the virtualization region under described virtualization pattern, and the virtualization pattern with described non-virtualization region and described virtualization region after being adjusted, utilizes described virtualization pattern to carry out image taking.

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

By determining focusing area, set non-virtualization region according to focusing area, the region beyond non-virtualization region is set as to virtualization region, and shows virtualization effect in virtualization region; Owing to can automatically determining non-virtualization region and virtualization region according to focusing area, therefore solve user in the time manually adjusting virtualization region, conventionally need to repeatedly adjust and just can make virtualization region compared with the shooting demand close to user, the problem of complex operation; Reach the effect of simplifying Virtualization Mode set-up procedure, improving regulated efficiency and adjustment precision.

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

Brief description of the drawings

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

Fig. 1 is according to the flow chart of a kind of screening-mode method of adjustment shown in an exemplary embodiment;

Fig. 2 A is according to the flow chart of a kind of screening-mode method of adjustment shown in another exemplary embodiment;

Fig. 2 B is according to a kind of schematic diagram of opening virtualization pattern shown in an exemplary embodiment;

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

Fig. 2 D is the schematic diagram of determining focusing area according to the another kind shown in an exemplary embodiment;

Fig. 2 E is according to a kind of schematic diagram of setting non-virtualization region shown in an exemplary embodiment;

Fig. 2 F is according to a kind of schematic diagram of adjusting non-virtualization region shown in an exemplary embodiment;

Fig. 2 G is the schematic diagram of adjusting non-virtualization region according to the another kind shown in an exemplary embodiment;

Fig. 2 H is according to a kind of definite virtualization region shown in an exemplary embodiment and shows the schematic diagram of virtualization effect;

Fig. 2 I is according to a kind of schematic diagram of changing the subregional display properties of virtualization intra-zone shown in an exemplary embodiment;

Fig. 2 J is according to the schematic diagram of a kind of display properties that exchanges virtualization region and non-virtualization region shown in an exemplary embodiment;

Fig. 3 is according to the block diagram of a kind of screening-mode adjusting device shown in an exemplary embodiment;

Fig. 4 is according to the block diagram of a kind of screening-mode adjusting device shown in another exemplary embodiment;

Fig. 5 is a kind of for adjusting the block diagram of device of screening-mode according to shown in an exemplary embodiment.

Embodiment

Here will at length describe exemplary embodiment, its sample table shows 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.Execution mode described in following exemplary embodiment does not represent all execution modes consistent with the disclosure.On the contrary, they are only and the example of 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 flow chart of a kind of screening-mode method of adjustment shown in an exemplary embodiment, and as shown in Figure 1, this screening-mode method of adjustment can comprise the following steps.

In step 101, open the virtualization pattern in camera screening-mode, virtualization pattern comprises virtualization region and non-virtualization region, and the display properties in non-virtualization region is clear demonstration, and the display properties in virtualization region is that virtualization shows.

In step 102, determine focusing area.

In step 103, set the non-virtualization region of virtualization pattern according to focusing area.

In step 104, the region beyond non-virtualization region on screen is defined as to the virtualization region under virtualization pattern, the virtualization pattern with non-virtualization region and virtualization region after being adjusted, utilizes virtualization pattern to carry out image taking.

In sum, the screening-mode method of adjustment providing in disclosure embodiment, by determining focusing area, sets non-virtualization region according to focusing area, the region beyond non-virtualization region is set as to virtualization region, and shows virtualization effect in virtualization region; Owing to can automatically determining non-virtualization region and virtualization region according to focusing area, therefore solve user in the time manually adjusting virtualization region, conventionally need to repeatedly adjust and just can make virtualization region compared with the shooting demand close to user, the problem of complex operation; Reach the effect of simplifying Virtualization Mode set-up procedure, improving regulated efficiency and adjustment precision.

Fig. 2 A is according to the flow chart of a kind of screening-mode method of adjustment shown in another exemplary embodiment, and as shown in Figure 2 A, this screening-mode method of adjustment comprises the following steps.

In step 201, open the virtualization pattern in camera screening-mode.

The camera here can be for being arranged on the camera in electronic equipment, and the electronic equipment said here can be smart mobile phone, panel computer, palmtop PC, camera, intelligent television, electronic reader etc.

Generally, camera is in the time taking, in order to meet user's various demands, electronic equipment provides multiple screening-mode for camera, such as automatic mode, U.S. flesh pattern, facial preference pattern, motor pattern, around screening-mode and virtualization pattern etc.

Wherein, virtualization pattern refers to opening after this virtualization pattern, takes on interface and show virtualization region and non-virtualization region.The display properties in non-virtualization region is wherein clear demonstration, and the display properties in virtualization region is that virtualization shows.That is to say, in non-virtualization region, the display properties of each pixel is clear demonstration, and in virtualization region, the display properties of each pixel is that virtualization shows.

In a kind of use scenes, user, opening after the shoot function of camera, can select the virtualization pattern in camera screening-mode as required, opens virtualization pattern.

By way of example, refer to Fig. 2 B, it is according to a kind of schematic diagram of opening virtualization pattern shown in an exemplary embodiment.As shown in Figure 2 B, user is opening after the shoot function of camera, click after " pattern " option of taking on interface, the option of screening-mode and the preview graph of these screening-mode effects are ejected in screen left side, user can slide up and down screen in the screening-mode options display area in screen left side, selects with this screening-mode needing.Now, user can open virtualization pattern by clicking " virtualization " option, under virtualization pattern, takes.

In step 202, determine focusing area.

Conventionally, in focusing area, the display properties of each pixel is clear demonstration.

The shape of focusing area and size can preset in the time that the function of camera is developed, and also can in the parameters of camera, be set by user.The shape of focusing area can be rectangle, circle, ellipse, cloud form shape etc., and shape and the size of disclosure embodiment to focusing area do not limit.

In actual applications, can realize determining focusing area by following two kinds of modes:

First kind of way, can be defined as focusing area by the central area of finding a view of camera.

After the shoot function of camera is opened, camera will be found a view to the image before camera lens, now, the central area of finding a view of camera can be defined as to focusing area.

By way of example, refer to Fig. 2 C, it is according to the schematic diagram of a kind of definite focusing area shown in an exemplary embodiment.As shown in Figure 2 C, after user is chosen in and takes under virtualization pattern, electronic equipment is defined as focusing area by the central area 01 of finding a view of camera automatically.

The second way, determining when focusing area, the region that can produce when touching on screen is defined as focusing area.

User can touch as required on screen, and is defined as focusing area by touching the region producing.In actual applications, user's certain camera object or person face in finding a view etc. of wanting to focus, what user can show on screen find a view touches or clicks, and now generates and touches the region producing according to the position of user's touch or click, and this region is defined as to focusing area.

By way of example, refer to Fig. 2 D, it is the schematic diagram of determining focusing area according to the another kind shown in an exemplary embodiment.As shown in Figure 2 D, user has touched region, screen lower right after being chosen in and taking under virtualization pattern, and the area 02 that electronic equipment touches lower right user is defined as focusing area.

In step 203, set the non-virtualization region of virtualization pattern according to focusing area.

In a kind of use scenes, because the object that user can mainly take need is conventionally focused, the focusing area forming with this normally user does not want to carry out virtualization, therefore can set according to this focusing area the non-virtualization region of virtualization pattern.

In actual applications, can set non-virtualization region according to focusing area by following two kinds of modes:

First kind of way, when set non-virtualization region according to focusing area, can be set as focusing area non-virtualization region.Now, definite focusing area is directly set as non-virtualization region by electronic equipment.

The second way, when set non-virtualization region according to focusing area, can carry out convergent-divergent according to preset proportion by focusing area, and the region obtaining after convergent-divergent is set as to non-virtualization region.Now, electronic equipment carries out convergent-divergent according to default preset proportion to focusing area, and the region obtaining after convergent-divergent is set as to non-virtualization region.The preset proportion here can be set as required by user, such as this scaling being set as to 0.5,1,1.5 or 2 etc.

In the time that preset proportion is greater than 1, show focusing area to be amplified according to this preset proportion, the region after amplifying is set as to non-virtualization region; In the time that preset proportion is less than 1, show focusing area to be dwindled according to this preset proportion, the region after dwindling is set as to non-virtualization region.

It should be noted that, can before taking, be set by user the setting of preset proportion, also can in shooting process, be reset by user.

Optionally, in the time focusing area being carried out to convergent-divergent according to preset proportion, can centered by the center of focusing area, carry out convergent-divergent.

By way of example, refer to Fig. 2 E, it is according to a kind of schematic diagram of setting non-virtualization region shown in an exemplary embodiment.As shown in Figure 2 E, user is set as 1.5 by scaling, after definite focusing area 03, electronic equipment obtains non-virtualization area 04 after this focusing area 03 being amplified to 1.5 times according to the scaling of setting, and non-virtualization area 04 is consistent with the center of focusing area 03.

Obviously, in practical application, in the time focusing area being carried out to convergent-divergent according to preset proportion, also can centered by the center of focusing area, not carry out convergent-divergent, such as in the time that focusing area is rectangle frame, can centered by the left upper apex of rectangle frame, carries out convergent-divergent or carry out convergent-divergent etc. centered by the summit, bottom right of rectangle frame.The mode that disclosure embodiment adopts when focusing area being carried out to convergent-divergent according to preset proportion does not limit.

In step 204, receive adjustment instruction that non-virtualization region is adjusted, generation when adjusting instruction and be user operation being adjusted in non-virtualization region.

User can choose and move non-virtualization region, also can drag non-virtualization edges of regions to change the size and shape in non-virtualization region, in the time that user operates non-virtualization region, can produce the adjustment instruction that non-virtualization region is adjusted.

In step 205, according to adjusting instruction, adjust non-virtualization region.

In the time adjusting non-virtualization region, can operate according to user the adjustment instruction of generation, this non-virtualization region is out of shape or carries out convergent-divergent etc.

In the time carrying out convergent-divergent, refer to Fig. 2 F, it is according to a kind of schematic diagram of adjusting non-virtualization region shown in an exemplary embodiment.As shown in Figure 2 F, user pins the adjustment point a1 in the upper right corner of non-virtualization area 05, drags to upper right side, and non-virtualization area 05 equal proportions have been zoomed into non-virtualization area 06.

Optionally, in the time that deformation operation is carried out in non-virtualization region, for the ease of user, operation is adjusted in non-virtualization region, adjustment point can be set on the edge line in non-virtualization region, such as adjusting point according to several are set on edge line in non-virtualization region equably, wherein " several " can be one, two or more, the concrete value of " several " can rationally be set according to shape and the size of the edge line in non-virtualization region, and user adjusts some adjustment non-virtualization region according to arranging on the edge line in non-virtualization region.

By way of example, refer to Fig. 2 G, it is the schematic diagram of adjusting non-virtualization region according to the another kind shown in an exemplary embodiment.As shown in Figure 2 G, user pins the adjustment point a2 of the upper sideline of non-virtualization area 07, drags upward, and non-virtualization area 07 has been deformed into non-virtualization area 08.

It should be noted that, when non-virtualization region is adjusted, can only carry out convergent-divergent to non-virtualization region, also can only be out of shape non-virtualization region, or can carry out convergent-divergent and distortion to non-virtualization region simultaneously.

In step 206, the region beyond non-virtualization region on screen is defined as to the virtualization region under virtualization pattern.

In step 207, centered by non-virtualization region to surrounding radiation extension virtualization effect.

Here to surrounding radiation extension virtualization effect refer to pixel by the degree of virtualization and pixel the distance correlation apart from center.Also, the pixel from non-virtualization region close to is more lower by the degree of virtualization, and the pixel from virtualization region away from is more higher by the degree of virtualization.

On screen, determine behind virtualization region, virtualization demonstration is carried out in virtualization region, to facilitate user to carry out preview and to revise virtualization effect.

By way of example, refer to Fig. 2 H, it is according to a kind of definite virtualization region shown in an exemplary embodiment and shows the schematic diagram of virtualization effect.As shown in Fig. 2 H, determining after non-virtualization area 09, the region beyond non-virtualization area 09 on screen is defined as virtualization region 10 by electronic equipment, and centered by non-virtualization area 09 to virtualization region 10 interior radiation extension virtualization effect, strengthen gradually virtualization effect according to the direction of arrow shown in Fig. 2 H.

In step 208, the region that touches formation in virtualization region is defined as to the part in non-virtualization region, the display properties in this region is changed to clear demonstration.

In a kind of use scenes, user is after preview virtualization effect, want certain partial content in virtualization region to carry out clear demonstration if found, now can also be used in the region at selected this content place in virtualization region, and the display properties in this region is changed to clear demonstration, be also defined as the part in non-virtualization region by this region.

In actual applications, user can touch and form the region that display properties need to be changed in virtualization region.By way of example, refer to Fig. 2 I, it is according to a kind of schematic diagram of changing the subregional display properties of virtualization intra-zone shown in an exemplary embodiment, as shown in Fig. 2 I, in definite virtualization region 11 and show after virtualization effect, user wants to be carried out clear demonstration by taking upper left side, interface by " sun " of virtualization, slides and has produced a region that comprises " sun " 12 on screen upper left side, and the display properties in this region 12 is changed to clear demonstration by electronic equipment.

It should be noted that, also the region that touches formation in non-virtualization region can be defined as to the part in virtualization region, the display properties in this region is changed to virtualization and show; Or the region that also can be touched in non-virtualization region and virtualization region to formation the while be defined as the part in non-virtualization region, and the display properties that is positioned at the pixel in virtualization region in this region is originally changed to clear demonstration; Or the region that also can be touched in non-virtualization region and virtualization region to formation the while be defined as the part in virtualization region, the display properties that is positioned at the pixel in non-virtualization region is originally changed to virtualization show in this region.

In step 209, receive exchange instruction, the display properties in virtualization region is changed to clear demonstration, and the display properties in non-virtualization region is changed to virtualization demonstration.

The exchange instruction here, for the display properties in the display properties in virtualization region and non-virtualization region is exchanged, also changes to clear demonstration by the display properties in virtualization region, and the display properties in non-virtualization region is changed to virtualization demonstration.

By way of example, refer to Fig. 2 J, it is according to the schematic diagram of a kind of display properties that exchanges virtualization region and non-virtualization region shown in an exemplary embodiment.As shown in Fig. 2 J, user is behind definite virtualization region 13 and non-virtualization region 14, user can click and take " exchange " button a3 showing on interface, the display properties in the display properties in virtualization region 13 and non-virtualization region 14 is exchanged, also become clear by the interior script in virtualization region 13 by the pixel of virtualization (such as the tree that in Fig. 2 J, pixel formed), non-virtualization region 14 interior scripts clearly pixel (such as the people that in Fig. 2 J, pixel forms) become virtualization.

In step 210, utilize the virtualization pattern with non-virtualization region and virtualization region after adjusting to carry out image taking.

In sum, the screening-mode method of adjustment providing in disclosure embodiment, by determining focusing area, sets non-virtualization region according to focusing area, the region beyond non-virtualization region is set as to virtualization region, and shows virtualization effect in virtualization region; Owing to can automatically determining non-virtualization region and virtualization region according to focusing area, therefore solve user in the time manually adjusting virtualization region, conventionally need to repeatedly adjust and just can make virtualization region compared with the shooting demand close to user, the problem of complex operation; Reach the effect of simplifying Virtualization Mode set-up procedure, improving regulated efficiency and adjustment precision.

The screening-mode method of adjustment providing in disclosure embodiment, by receiving the adjustment instruction that non-virtualization region is adjusted, according to adjusting instruction, adjusts non-virtualization region; Because user can adjust non-virtualization region as required, therefore solve non-virtualization region and immobilized, make photographic quality poor and can not meet the problem of user's needs; Reach the effect that improves photographic quality and user's experience.

The screening-mode method of adjustment providing in disclosure embodiment, by receiving exchange instruction, changes to clear demonstration by the display properties in virtualization region, and the display properties in non-virtualization region is changed to virtualization demonstration; Owing to can exchanging the display properties in virtualization region and non-virtualization region, therefore solve user behind definite virtualization region and non-virtualization region, want again to change the problem that virtualization effect need to be taken again; Reach and improved the effect that user experiences.

The screening-mode method of adjustment providing in disclosure embodiment, by the region that touches formation in virtualization region being defined as to the part in non-virtualization region, changes to clear demonstration by the display properties in this region; Owing to the subregion in virtualization region can be reset to non-virtualization region behind definite virtualization region, therefore solve user and can only determine a non-virtualization region, place, can not meet shooting needs, the problem of poor user experience; Reach and improved the effect that user experiences.

It should be noted that, above-mentioned steps 207, to not sequencing of step 210, can sort to form different embodiment to step 207 and step 210 arbitrarily; In addition, above-mentioned steps 201 can implement separately to become the embodiment of a screening-mode method of adjustment to step 206, step 207 all can become with above-mentioned steps 201 embodiment of a screening-mode method of adjustment in conjunction with enforcement to step 206 to any one or more steps in step 210.

Following is disclosure device embodiment, can be for carrying out disclosure embodiment of the method.For the details 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 screening-mode adjusting device shown in an exemplary embodiment, and as shown in Figure 3, this screening-mode adjusting device includes but not limited to: opening module 302, the first determination module 304, setting module 306, the second determination module 308.

This opening module 302, is configured to open the virtualization pattern in camera screening-mode, and virtualization pattern comprises virtualization region and non-virtualization region, and the display properties in non-virtualization region is clear demonstration, and the display properties in virtualization region is that virtualization shows;

This first determination module 304, is configured to determine focusing area;

This setting module 306, is configured to set according to the definite focusing area of the first determination module 304 the non-virtualization region of virtualization pattern;

This second determination module 308, is configured to the region beyond non-virtualization region on screen to be defined as the virtualization region under virtualization pattern, and the virtualization pattern with non-virtualization region and virtualization region after being adjusted, utilizes virtualization pattern to carry out image taking.

In sum, the screening-mode adjusting device providing in disclosure embodiment, by determining focusing area, sets non-virtualization region according to focusing area, the region beyond non-virtualization region is set as to virtualization region, and shows virtualization effect in virtualization region; Owing to can automatically determining non-virtualization region and virtualization region according to focusing area, therefore solve user in the time manually adjusting virtualization region, conventionally need to repeatedly adjust and just can make virtualization region compared with the shooting demand close to user, the problem of complex operation; Reach the effect of simplifying Virtualization Mode set-up procedure, improving regulated efficiency and adjustment precision.

Fig. 4 is according to the block diagram of a kind of screening-mode adjusting device shown in another exemplary embodiment, as shown in Figure 4, this screening-mode adjusting device can include but not limited to: opening module 402, the first determination module 404, setting module 406 and the second determination module 408.

This opening module 402, is configured to open the virtualization pattern in camera screening-mode, and virtualization pattern comprises virtualization region and non-virtualization region, and the display properties in non-virtualization region is clear demonstration, and the display properties in virtualization region is that virtualization shows;

This first determination module 404, is configured to determine focusing area;

This setting module 406, is configured to set according to the definite focusing area of the first determination module 404 the non-virtualization region of virtualization pattern;

This second determination module 408, is configured to the region beyond non-virtualization region on screen to be defined as the virtualization region under virtualization pattern, and the virtualization pattern with non-virtualization region and virtualization region after being adjusted, utilizes virtualization pattern to carry out image taking.

In a kind of possible embodiment, this first determination module 404 can comprise: first determines that submodule 404a or second determines submodule 404b.

This first definite submodule 404a, is configured to the central area of finding a view of camera to be defined as focusing area.

Or,

This second determines submodule 404b, and the region that is configured to produce when touching on screen is defined as focusing area.

In a kind of possible embodiment, this setting module 406 can comprise: first sets submodule 406a or second sets submodule 406b.

This first setting submodule 406a, is configured to focusing area to be set as non-virtualization region.

Or,

This second setting submodule 406b, is configured to focusing area to carry out convergent-divergent according to preset proportion, and the region obtaining after convergent-divergent is set as to non-virtualization region.

In a kind of possible embodiment, this device also comprises: the first receiver module 410 and adjusting module 412.

This first receiver module 410, is configured to receive adjustment instruction that non-virtualization region is adjusted, generation when adjusting instruction and be user operation being adjusted in non-virtualization region.

This adjusting module 412, is configured to, according to adjusting instruction, adjust non-virtualization region.

In a kind of possible embodiment, this device also comprises: extension module 414.

This extension module 414, is configured to centered by non-virtualization region to surrounding radiation extension virtualization effect, to surrounding radiation extension virtualization effect refer to pixel by the degree of virtualization and pixel the distance correlation apart from center.

In a kind of possible embodiment, this device also comprises: the 3rd determination module 416.

The 3rd determination module 416, is configured to be defined as the part in non-virtualization region by touch the region forming in virtualization region, and the display properties in region is changed to clear demonstration.

In a kind of possible embodiment, this device also comprises: the second receiver module 418 and change module 420.

This second receiver module 418, is configured to receive exchange instruction, and exchange instruction is for exchanging the display properties in the display properties in virtualization region and non-virtualization region.

This change module 420, is configured to the display properties in virtualization region to change to clear demonstration, and the display properties in non-virtualization region is changed to virtualization demonstration.

In sum, the screening-mode adjusting device providing in disclosure embodiment, by determining focusing area, sets non-virtualization region according to focusing area, the region beyond non-virtualization region is set as to virtualization region, and shows virtualization effect in virtualization region; Owing to can automatically determining non-virtualization region and virtualization region according to focusing area, therefore solve user in the time manually adjusting virtualization region, conventionally need to repeatedly adjust and just can make virtualization region compared with the shooting demand close to user, the problem of complex operation; Reach the effect of simplifying Virtualization Mode set-up procedure, improving regulated efficiency and adjustment precision.

The screening-mode adjusting device providing in disclosure embodiment, by receiving the adjustment instruction that non-virtualization region is adjusted, according to adjusting instruction, adjusts non-virtualization region; Because user can adjust non-virtualization region as required, therefore solve non-virtualization region and immobilized, make photographic quality poor and can not meet the problem of user's needs; Reach the effect that improves photographic quality and user's experience.

The screening-mode adjusting device providing in disclosure embodiment, by receiving exchange instruction, changes to clear demonstration by the display properties in virtualization region, and the display properties in non-virtualization region is changed to virtualization demonstration; Owing to can exchanging the display properties in virtualization region and non-virtualization region, therefore solve user behind definite virtualization region and non-virtualization region, want again to change the problem that virtualization effect need to be taken again; Reach and improved the effect that user experiences.

The screening-mode adjusting device providing in disclosure embodiment, by the region that touches formation in virtualization region being defined as to the part in non-virtualization region, changes to clear demonstration by the display properties in this region; Owing to the subregion in virtualization region can be reset to non-virtualization region behind definite virtualization region, therefore solve user and can only determine a non-virtualization region, place, can not meet shooting needs, the problem of poor user experience; Reach and improved the effect that user experiences.

About the device in above-described embodiment, wherein the concrete mode of modules executable operations have been described in detail in the embodiment about the method, will not elaborate explanation herein.

The disclosure one exemplary embodiment provides a kind of screening-mode adjusting device, can realize the screening-mode method of adjustment that the disclosure provides, and this screening-mode adjusting device comprises: processor, for the memory of storage of processor executable instruction;

Wherein, processor is configured to:

Open the virtualization pattern in camera screening-mode, virtualization pattern comprises virtualization region and non-virtualization region, and the display properties in non-virtualization region is clear demonstration, and the display properties in virtualization region is that virtualization shows;

Determine focusing area;

Set the non-virtualization region of virtualization pattern according to focusing area;

Region beyond non-virtualization region on screen is defined as to the virtualization region under virtualization pattern, and the virtualization pattern with non-virtualization region and virtualization region after being adjusted, utilizes virtualization pattern to carry out image taking.

Fig. 5 is a kind of for adjusting the block diagram of device of screening-mode according to shown in an exemplary embodiment.For example, device 500 can be mobile phone, computer, 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, memory 504, power supply module 506, multimedia groupware 508, audio-frequency assembly 510, I/O (I/O) interface 512, sensor cluster 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 method.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.

Memory 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.Memory 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), read-only memory (ROM), magnetic memory, 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 audio signal receiving can be further stored in memory 504 or be sent via communications component 516.In certain embodiments, audio-frequency assembly 510 also comprises a loud speaker, 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 cluster 514 comprises one or more transducers, is used to device 500 that the state estimation of various aspects is provided.For example, sensor cluster 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 of all right checkout gear 500 of sensor cluster 514 or 500 1 assemblies of device changes, user is with device 500 existence that contact or do not have the variations in temperature of device 500 orientation or acceleration/deceleration and device 500.Sensor cluster 514 can comprise proximity transducer, be configured to without any physical contact time detect near the existence of object.Sensor cluster 514 can also comprise optical sensor, as CMOS or ccd image sensor, for using in imaging applications.In certain embodiments, this sensor cluster 514 can also comprise acceleration transducer, gyro sensor, Magnetic Sensor, pressure sensor 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 Wi-Fi, 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 circuits (ASIC), digital signal processor (DSP), digital signal processing appts (DSPD), programmable logic device (PLD), field programmable gate array (FPGA), controller, microcontroller, microprocessor or other electronic components, for carrying out screening-mode method of adjustment.

In the exemplary embodiment, also provide a kind of non-provisional computer-readable recording medium that comprises instruction, for example, comprised the memory 504 of instruction, above-mentioned instruction can have been carried out screening-mode method of adjustment by the processor 518 of device 500.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 specification 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.Specification 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 amendments and change not departing from its scope.The scope of the present disclosure is only limited by appended claim.

Claims (15)

1. a screening-mode method of adjustment, is characterized in that, described method comprises:

Open the virtualization pattern in camera screening-mode, described virtualization pattern comprises virtualization region and non-virtualization region, and the display properties in described non-virtualization region is clear demonstration, and the display properties in described virtualization region is that virtualization shows;

Determine focusing area;

Set the non-virtualization region of described virtualization pattern according to described focusing area;

Region beyond the above non-virtualization region of screen is defined as to the virtualization region under described virtualization pattern, and the virtualization pattern with described non-virtualization region and described virtualization region after being adjusted, utilizes described virtualization pattern to carry out image taking.

2. method according to claim 1, is characterized in that, described definite focusing area, comprising:

The central area of finding a view of described camera is defined as to described focusing area;

Or,

The region producing when touching on described screen is defined as described focusing area.

3. method according to claim 1, is characterized in that, the described non-virtualization region of setting described virtualization pattern according to described focusing area, comprising:

Described focusing area is set as to described non-virtualization region;

Or,

Described focusing area is carried out to convergent-divergent according to preset proportion, the region obtaining after convergent-divergent is set as to described non-virtualization region.

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

Receive adjustment instruction that described non-virtualization region is adjusted, described adjustment instruction is user's generation when operation is adjusted in described non-virtualization region;

According to described adjustment instruction, adjust described non-virtualization region.

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

Centered by described non-virtualization region to surrounding radiation extension virtualization effect, described to surrounding radiation extension virtualization effect refer to pixel by the degree of virtualization and described pixel the distance correlation apart from described center.

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

A part that the region that touches formation in described virtualization region is defined as to described non-virtualization region, changes to clear demonstration by the display properties in described region.

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

Receive exchange instruction, described exchange instruction is for exchanging the display properties in the display properties in described virtualization region and described non-virtualization region;

The display properties in described virtualization region is changed to clear demonstration, and the display properties in described non-virtualization region is changed to virtualization demonstration.

8. a screening-mode adjusting device, is characterized in that, described device comprises:

Opening module, is configured to open the virtualization pattern in camera screening-mode, and described virtualization pattern comprises virtualization region and non-virtualization region, and the display properties in described non-virtualization region is clear demonstration, and the display properties in described virtualization region is that virtualization shows;

The first determination module, is configured to determine focusing area;

Setting module, the described focusing area that is configured to determine according to described the first determination module is set the non-virtualization region of described virtualization pattern;

The second determination module, be configured to the region beyond the above non-virtualization region of screen to be defined as the virtualization region under described virtualization pattern, the virtualization pattern with described non-virtualization region and described virtualization region after being adjusted, utilizes described virtualization pattern to carry out image taking.

9. device according to claim 8, is characterized in that, described the first determination module, comprising:

First determines submodule, is configured to the central area of finding a view of described camera to be defined as described focusing area;

Or,

Second determines submodule, and the region that is configured to produce when touching on described screen is defined as described focusing area.

10. device according to claim 8, is characterized in that, described setting module, comprising:

First sets submodule, is configured to described focusing area to be set as described non-virtualization region;

Or,

Second sets submodule, is configured to described focusing area to carry out convergent-divergent according to preset proportion, and the region obtaining after convergent-divergent is set as to described non-virtualization region.

11. devices according to claim 8, is characterized in that, described device also comprises:

The first receiver module, is configured to receive adjustment instruction that described non-virtualization region is adjusted, and described adjustment instruction is user's generation when operation is adjusted in described non-virtualization region;

Adjusting module, is configured to according to described adjustment instruction, adjusts described non-virtualization region.

12. devices according to claim 8, is characterized in that, described device also comprises:

Extension module, is configured to centered by described non-virtualization region to surrounding radiation extension virtualization effect, described to surrounding radiation extension virtualization effect refer to pixel by the degree of virtualization and described pixel the distance correlation apart from described center.

13. devices according to claim 8, is characterized in that, described device also comprises:

The 3rd determination module, is configured to be defined as the part in described non-virtualization region by touch the region forming in described virtualization region, and the display properties in described region is changed to clear demonstration.

In 14. according to Claim 8 to 13, arbitrary described device, is characterized in that, described device also comprises:

The second receiver module, is configured to receive exchange instruction, and described exchange instruction is for exchanging the display properties in the display properties in described virtualization region and described non-virtualization region;

Change module, is configured to the display properties in described virtualization region to change to clear demonstration, and the display properties in described non-virtualization region is changed to virtualization demonstration.

15. 1 kinds of screening-mode adjusting devices, is characterized in that, comprising:

Processor;

For storing the memory of described processor executable;

Wherein, described processor is configured to:

Open the virtualization pattern in camera screening-mode, described virtualization pattern comprises virtualization region and non-virtualization region, and the display properties in described non-virtualization region is clear demonstration, and the display properties in described virtualization region is that virtualization shows;

Determine focusing area;

Set the non-virtualization region of described virtualization pattern according to described focusing area;

Region beyond the above non-virtualization region of screen is defined as to the virtualization region under described virtualization pattern, and the virtualization pattern with described non-virtualization region and described virtualization region after being adjusted, utilizes described virtualization pattern to carry out image taking.