CN101686326B - Compiling processing method for image - Google Patents

Abstract

The invention relates to a compiling processing method for an image, which is applied to a digital shooting device to provide an image compiling effect. The method comprises the following steps: dividing a selected original image into a plurality of first subimages extending along the first axial direction and dividing the selected original image into a plurality of second subimages extending along the second axial direction by an internal program of the digital shooting device; then moving the first subimages along the first axial direction and moving the second subimages along the second axial direction; and after the moving action is finished, alternately overlapping the first subimages and the second subimages so as to be capable of displaying a complied image generated after alternate overlapping on a screen of the digital shooting device. The compiling processing method for the image is applied to the digital shooting device, and the special compiling effect can be indiscriminately used for the shot image directly on the digital shooting device. Accordingly, a user can immediately browse achievement on the digital shooting device. The compiling processing method for the image is simple and easy without additional hardware.

Description

Compiling processing method for image

Technical field

The present invention relates to a kind of digital image processing method, relate in particular to a kind of compiling processing method for image.

Background technology

Along with the arriving of optics science and technology with the digitalization epoch, digital product miscellaneous is all constantly weeded out the old and bring forth the new, and uses digital product miscellaneous also to become a kind of habits and customs of modern.

With digital camera, since digital camera was released, it extensively had been present in existing market, and replaces the traditional camera of taking with film base gradually.

Very similar mostly with the camera function that present digital camera has, for example: aperture size, optical zoom, Digital Zoom, start speed, memory card capacity support, and anti-hand function such as shake.

Yet at present digital camera only can provide simple image editing function, allows the user image that photographs can be put special housing, or adds special marking or symbol in image.

Processing for changing image display effect then needs digital image is transferred on the computer, and could realize by the image processing software on the object computer.The user not only will install this image processing software on computers, and the function of image processing software is also comparatively complicated.A lot of users do not have knowledge and ability in this respect.

In addition, one of digital camera main feature just after photographing image, can be browsed the image that photographs immediately.Yet the user just must handle on computers if will add special display effect on the image that photographs, and so just can not browse immediately.And this point is just disagreed with the character of browsing immediately of digital camera.

Summary of the invention

In view of this, the object of the present invention is to provide a kind of compiling processing method for image, prior art is existing can't to change image display effect on digital camera so as to solving, and the conventional images processing mode is comparatively complicated and difficult problem.

Compiling processing method for image disclosed in this invention is applied to digital camera.Digital camera stores some original images that extract via taking.

At first, obtain one of them original image of original image that digital camera is stored.

The original image of obtaining is divided into a plurality of first subimages, and the original image of obtaining is divided into a plurality of second subimages.

Wherein, cut apart first subimage be to extend axially along first.And cut apart second subimage be to extend axially along second.Wherein, first axially be different from second axial.Preferably, first axially can be axial perpendicular to second.

Then, move axially first subimage along first, make each first subimage and its first adjacent subimage misplace each other.

And, move axially second subimage along second, make each second subimage and its second adjacent subimage misplace each other.

Secondly, second subimage after first subimage after the overlapping dislocation of layout formula and the dislocation is to form a layout image.

The layout image that output at last forms.

Wherein, the step of output layout image can comprise, dwindles the layout size of images to meet the display size of camera head, then shows the layout image after dwindling again.

Wherein, the step of overlapping first subimage of layout formula and second subimage can comprise, first subimage after the dislocation that is overlapping in regular turn and second subimage after the dislocation.

Wherein, the step of overlapping first subimage of layout formula and second subimage can comprise, comes overlapping first subimage of layout formula and second subimage with a drift angle of the original image obtained as datum mark.

Wherein, the step that moves first subimage can comprise, to move first subimage along the first axial displacement.Wherein, along the first axial displacement less than the axial Breadth Maximum of second subimage vertical second.

Wherein, the step that moves second subimage can comprise, to move second subimage along the second axial displacement.Wherein, along the second axial displacement less than the axial Breadth Maximum of first subimage vertical first.

Wherein, the step that is divided into a plurality of first subimages can comprise, the equidistant original image of obtaining of cutting apart.

Wherein, the step that is divided into a plurality of second subimages can comprise, the equidistant original image of obtaining of cutting apart.

According to compiling processing method for image of the present invention, be applied on the digital camera, can directly apply mechanically special layout effect on the digital camera on the image that photographs.Thereby the user can browse achievement immediately on digital camera.According to compiling processing method for image of the present invention, simple, and do not need additional hardware.

About feature of the present invention, practical operation and effect, be described in detail as follows as most preferred embodiment in conjunction with the accompanying drawings now.

Description of drawings

Fig. 1 is at the flow chart according to the compiling processing method for image of first embodiment of the invention;

Fig. 2 is in compiling processing method for image according to the present invention, and the original image of an embodiment is obtained the schematic diagram of step;

Fig. 3 and Fig. 4 are in compiling processing method for image according to the present invention, the schematic diagram of the segmentation procedure of an embodiment;

Fig. 5 and Fig. 6 are in compiling processing method for image according to the present invention, the schematic diagram of the mobile step of an embodiment;

Fig. 7 is in compiling processing method for image according to the present invention, the schematic diagram of the overlapping step of an embodiment;

Fig. 8 is in compiling processing method for image according to the present invention, the schematic diagram of the output step of an embodiment;

Fig. 9 is in compiling processing method for image according to the present invention, the schematic diagram of the output step of another embodiment;

Figure 10 is at the flow chart according to the compiling processing method for image of second embodiment of the invention;

Figure 11 is in compiling processing method for image according to the present invention, the schematic diagram of the original image of an embodiment;

Figure 12 and Figure 13 are in compiling processing method for image according to the present invention, the schematic diagram of the segmentation procedure of another embodiment;

Figure 14 and Figure 15 are in compiling processing method for image according to the present invention, the schematic diagram of the mobile step of another embodiment;

Figure 16 is in compiling processing method for image according to the present invention, the schematic diagram of the overlapping step of another embodiment;

Figure 17 is in compiling processing method for image according to the present invention, the schematic diagram of the corresponding function menu that digital camera is shown; And

Figure 18 is in compiling processing method for image according to the present invention, and the shown correspondence of digital camera is set the schematic diagram of menu.

Wherein, description of reference numerals is as follows:

200 digital cameras

202 screens

204 function buttons

210 original images

220 first images

222 first subimages

230 second images

232 second subimages

240 layout images

250 function menus

252 options

260 set menu

262 from ordering parameter options

262a parameter setting field

262b parameter setting field

264 parameter preset options

266 virtual keys

D1 first is axial

D2 second is axial

The L cut-off rule

The O datum mark

S1 displacement

S2 displacement

The W1 Breadth Maximum

The W2 Breadth Maximum

Embodiment

Below in execution mode, be described in detail detailed features of the present invention and advantage; its content is enough to make any those of ordinary skills to understand technology contents of the present invention and implements according to this; and according to the protection range and the accompanying drawing of the disclosed content of this specification, claim, any those of ordinary skills can understand purpose and the advantage that the present invention is correlated with easily.Following embodiment further describes viewpoint of the present invention, but is not to limit category of the present invention anyways.

Fig. 1 is the flow chart of compiling processing method for image according to an embodiment of the invention.

See figures.1.and.2, this compiling processing method for image is applied to digital camera 200.Can store a plurality of original images in the digital camera 200, and these original images are taken institute via digital camera 200 and are extracted.

From the original image of storage, obtain an original image 210 earlier, as step 110.Wherein, the original image of obtaining 210 can be presented at earlier on the screen 202 of digital camera 200, as shown in Figure 2.

Then, the original image of obtaining 210 is cut apart with two kinds of different modes respectively, to form first image 220 and second image 230 respectively, as step 120, as shown in Figure 3 and Figure 4.

In this, with reference to Fig. 3, cut apart the original image of obtaining 210, to form first image of forming by a plurality of first subimages 222 220.Just, the original image of obtaining 210 is divided into a plurality of first subimages 222.Wherein, each first subimage 222 extends along the first axial D1.In this, the original image of obtaining 210 is carried out cutting apart to form a plurality of first subimages 222 of equidirectional, promptly the cut-off rule L with many equidirectionals is divided into a plurality of first subimages 222 with the original image of obtaining 210.

And, with reference to Fig. 4, cut apart the original image of obtaining 210, to form second image of forming by a plurality of second subimages 232 230.Just, the original image of obtaining 210 is divided into a plurality of second subimages 232.Wherein, each second subimage extends along the second axial D2.The second axial D2 is different from the first axial D1.Preferably, the second axial D2 can be haply perpendicular to the first axial D1.In this, the original image of obtaining 210 is carried out cutting apart to form a plurality of second subimages 232 of equidirectional, promptly the cut-off rule L with many equidirectionals is divided into a plurality of second subimages 232 with the original image of obtaining 210.

Wherein, can equidistantly cut apart original image 210 (be between the adjacent two cut-off rule L beeline all consistent).With first subimage 222, just the Breadth Maximum of each first subimage, 222 vertical first axial D1 is identical.With second subimage 232, just the Breadth Maximum of each second subimage, 232 vertical second axial D2 is identical.

Or, can be not with the equidistant original image 210 (be between the adjacent two cut-off rule L beeline can be inconsistent) of cutting apart.With first subimage 222, just the Breadth Maximum of each first subimage, 222 vertical first axial D1 is all inequality.With second subimage 232, just the Breadth Maximum of each second subimage, 232 vertical second axial D2 is all inequality.

Or it is identical that the beeline between the adjacent two cut-off rule L has, and have plenty of difference.With first subimage 222, just the Breadth Maximum of some first subimage, 222 vertical first axial D1 is identical, and the Breadth Maximum of some first subimage, 222 vertical first axial D1 is then inequality.With second subimage 232, just the Breadth Maximum of some second subimage, 232 vertical second axial D2 is identical, and the Breadth Maximum of some second subimage, 232 vertical second axial D2 is then inequality.

Then, first subimage 222 in mobile first image 220 and second subimage 232 in second image 230 are as step 130, as shown in Figure 5 and Figure 6.In this, in order clearly to show, in Fig. 5, Fig. 6 and 7 figure only with the pattern in the hacures presentation video.

In this, with reference to Fig. 5, move at least one first subimage 222 along the first axial D1, cause the first adjacent subimage 222 to misplace each other.

And, with reference to Fig. 6, move at least one second subimage 232 along the second axial D2, cause the second adjacent subimage 232 to misplace each other.

First image 220 after will misplacing then and second image 230 merge to form a layout image 240, as step 140, as shown in Figure 7.In this, be with overlapping first subimage 222 of layout formula and second subimage 232, to form layout image 240.Wherein, first subimage 222 and second subimage 232 can be overlapping in regular turn, to form layout image 240.

At last, digital camera 200 is again with layout image 240 outputs that form, on the screen 202 that is presented at digital camera 200, as step 150, as shown in Figure 8.

In addition, with reference to Figure 10, can be earlier with layout image 240 minifications that form, as step 152, to meet the display size of digital camera 200.And then the layout image 240 after will dwindling is shown on the screen 202, as step 154, as shown in Figure 9.

Wherein, a drift angle of the original image 210 that can obtain is as datum mark O, as shown in figure 11.Then, carry out follow-up cutting apart, move (promptly moving) and merge action with datum mark O again with respect to datum mark O, extremely shown in Figure 7 as Fig. 3.Just, the datum mark O of second subimage 232 after the datum mark O of first image 220 after the overlapping dislocation and the dislocation, and first subimage 222 and second subimage 232 be overlapping in regular turn.

Moreover, the collocation mode of the first axial D1 and the second axial D2, except the first axial D1 as shown in Figure 3 and Figure 4 is vertically, and the second axial D2 be horizontal outside, can be left to bottom right oblique also as Figure 12 and the shown in Figure 13 first axial D1, and the second axial D2 is the lower-left arrive upper right oblique.

When the first axial D1 and the second axial D2 are different two when oblique, after cutting apart first subimage 222 be to move equally along the first axial D1, after cutting apart must second subimage 232 then be to move equally along the second axial D2, as Figure 14 and shown in Figure 15.After moving, first subimage 222 after will misplacing again and second subimage 232 after the dislocation are overlapping in regular turn, to form layout image 240, as shown in figure 16.In Figure 14, Figure 15 and Figure 16, similarly the pattern in the image is represented with hacures, show with convenient.

Yet the first axial D1 and the second axial D2 also can be vertical and oblique collocation, or horizontal and oblique collocation.

In this, can realize according to compiling processing method for image of the present invention by the execution of digital camera 200 built-in software or firmware program again by being built in software or the firmware program in the memory of digital camera 200.

For instance, with reference to Fig. 2, the user can select digital camera 200 photos to play (playbackor review) function, cause digital camera 200 to enter photo and play (playback or review) pattern, be stored in the photo (being above-mentioned original image) of digital camera 200 so as to preview.Then, the selected again original image 210 wherein of user.Then, the user is by pressing on the digital camera 200 function button 204 that is provided with, to access 250 (as shown in figure 17) of function menu (playback menu).And, in the screen 202 of digital camera 200, demonstrate function menu 250 (accompanying drawing does not show).With reference to Figure 17, the user can handle so that selected original image is carried out image arrangement by the option 252 of " putting the layout effect " in the selection function menu 250.

In this, after the option 252 of selecting " putting the layout effect ", digital camera 200 can show the setting menu 260 of " putting the layout effect " earlier in screen 202, carry out parameter setting and/or selection for the user, as shown in figure 18.

With reference to Figure 18, in setting menu 260, can provide from ordering parameter options 262 and parameter preset option 264.Handle from the image arrangement of ordering the original image 210 that adjustment parameter that parameter options 262 just sets with the user selectes.Parameter preset option 264 then is that the image arrangement of the original image 210 selected with the adjustment parameter that defaults in the digital camera 200 is handled.

Selecting when ordering parameter options 262, the user can adjust parameter setting by setting parameter setting field 262a, the 262b that orders certainly in the menu 260 in the parameter options 262.

With reference to Fig. 3, Fig. 4, Figure 12, Figure 13 and Figure 18, when the user selects when ordering parameter options 262, the user can specify the Breadth Maximum W1 of first subimage, 222 vertical first axial D1 in indicating wide parameter setting field 262a, and the Breadth Maximum W2 that specifies second subimage, 232 vertical second axial D2 at the high parameter setting field 262b of sign.

In this, can provide the user directly to set the numerical value of the Breadth Maximum W2 of the Breadth Maximum W1 of first subimage, the 222 vertical first axial D1 that will be divided into and second subimage, 232 vertical second axial D2, also set first subimage 222 that is divided into and the quantity of second subimage 232 by parameter setting field 262a, 262b.

Just set the quantity of cutting apart, indicating wide parameter setting field 262a can cut apart the quantity of back first subimage 222 in order to specify original image 210, indicates high parameter setting field 262b and then can cut apart the quantity of back second subimage 232 in order to specify original image 210.

For instance, with shown in Figure 3 vertically cutting apart, the Breadth Maximum W1 of each first subimage, the 222 vertical first axial D1 after cutting apart can equal the 1/N of the width of original image 210.Wherein, N is a quantity of cutting apart back first subimage 222, and the N value can be defaulted in the digital camera 200 or by the user by the producer and decides in its sole discretion.Moreover with horizontal partition shown in Figure 4, the Breadth Maximum W2 of each second subimage, the 232 vertical second axial D2 after cutting apart can equal the 1/M of the height of original image 210.Wherein, M is a quantity of cutting apart back first subimage 222, and the M value can be defaulted in the digital camera 200 or by the user by the producer and decides in its sole discretion.In addition, N can be identical numerical value with M, or different numerical value.

Referring again to Figure 18, after the user determines relevant parameter or adopts adjustment automatically, press the affirmation button on the digital camera 200 then.This confirms that button can be the physical button that is provided with on the digital camera 200, also can be the virtual key 266 (as shown in figure 18) on the touch control screen 202 that is shown in digital camera 200.

Then, promptly selected original image 210 can be cut and mobile step (being step 120 and step 130) as the aforementioned.In this, first subimage 222 can be less than the Breadth Maximum W2 of second subimage, 232 vertical second axial D2 along the displacement S1 of the first axial D1.And second subimage 232 can be less than the Breadth Maximum W1 of first subimage, 222 vertical first axial D1 along the displacement S2 of the second axial D2.

After moving, first subimage 222 and second subimage 232 after will misplacing are overlapping in regular turn again, to form layout image 240, as step 140.

Then, the layout image 240 that forms is shown on the screen 202 of digital camera 200, as step 150, as Fig. 8 and shown in Figure 9.

According to compiling processing method for image of the present invention, be applied on the digital camera, can be directly applying mechanically on the digital camera on the image that special layout effect photographing.Thereby the user can browse achievement immediately on digital camera.According to compiling processing method for image of the present invention, simple, and do not need additional hardware.

Claims (9)

1. a compiling processing method for image is applied to a digital camera, and this digital camera stores a plurality of original images that extract via taking, and comprising:

Obtain the original image in described a plurality of original image;

This original image of obtaining is divided into a plurality of first subimages, and wherein said a plurality of first subimages extend axially along one first;

This original image of obtaining is divided into a plurality of second subimages, and wherein said a plurality of second subimages extend axially along one second, and this second is different from axially that this is first axial;

Along this first at least one first subimage that moves axially in described a plurality of first subimage, cause two first adjacent in described a plurality of first subimage subimages to misplace each other;

Along this second at least one second subimage that moves axially in described a plurality of second subimage, cause two second adjacent in described a plurality of second subimage subimages to misplace each other;

Behind mobile this at least one first subimage and this at least one second subimage, overlapping described a plurality of first subimages of layout formula and described a plurality of second subimage are to form a layout image; And

Export this layout image.

2. compiling processing method for image as claimed in claim 1 wherein is somebody's turn to do the step of exporting this layout image, comprising:

Dwindle this layout size of images to meet the display size of this digital camera; And

Show the layout image after dwindling.

3. compiling processing method for image as claimed in claim 1, the step of overlapping described a plurality of first subimages of this layout formula and described a plurality of second subimages wherein, comprising: described a plurality of first subimage and described a plurality of second subimage in regular turn are overlapping.

4. compiling processing method for image as claimed in claim 1, the step of overlapping described a plurality of first subimages of this layout formula and described a plurality of second subimages wherein comprises: described a plurality of first subimages after coming that the layout formula is overlapping and move as datum mark with a drift angle of this original image of obtaining and move after described a plurality of second subimages.

5. compiling processing method for image as claimed in claim 1, wherein should move the step of at least one first subimage in described a plurality of first subimages, comprise: to move this at least one first subimage in described a plurality of first subimages respectively along this first axial at least one displacement, wherein this at least one displacement is less than vertical this second axial Breadth Maximum in described a plurality of second subimages.

6. compiling processing method for image as claimed in claim 1, wherein should move the step of at least one second subimage in described a plurality of second subimages, comprise: to move this at least one second subimage in described a plurality of second subimages respectively along this second axial at least one displacement, wherein this at least one displacement is less than vertical this first axial Breadth Maximum in described a plurality of first subimages.

7. compiling processing method for image as claimed in claim 1, wherein this this original image that will obtain is divided into the step of a plurality of first subimages, comprising: equidistant this original image obtained of cutting apart.

8. compiling processing method for image as claimed in claim 1, wherein this this original image that will obtain is divided into the step of a plurality of second subimages, comprising: equidistant this original image obtained of cutting apart.

9. compiling processing method for image as claimed in claim 1, wherein this first is axially perpendicular to that this is second axial.

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