CN108537220A - A kind of device making primary plane design automatic adaptation under new size - Google Patents

Abstract

The present invention relates to a kind of picture and text planar design technology fields, provide a kind of device making primary plane design automatic adaptation under new size；For similarly designing basic element, in different display scene applications, primary plane design device of automatic adaptation under new size can be made to carry out poster design size change automatically by described, enable poster in the case where not changing original visual effect, the design result of adaptation is quickly generated according to size, to adapt to the terminal of various different display sizes, the effective poster size that improves changes design efficiency.

Description

A kind of device making primary plane design automatic adaptation under new size

Technical field

The present invention relates to picture and text planar design technology field, more particularly to one kind keeps primary plane design automatic under new size The device of adaptation.

Background technology

In the field of poster design, poster size is one of key factor needed to be considered in poster design.Traditional In poster design, designer is laid out design generally according to the size of poster and the content element of its suitable size, by setting Final poster is generated after meter.But With the fast development of internet, the appearance of multiple terminals phenomenon, such as (mobile phone, tablet, PC), the screen size, screen resolution of different terminals are different, that is, have different display sizes.In such cases In order to preferably show poster, a poster is frequently necessary to adjust by craft or designer, to be adapted to the end of various sizes Hold display demand.At present other than manually adjusting, without a kind of suitable tool, simple and quick production can be used for and be adapted to Design result.

Invention content

Therefore, for above-mentioned problem, the present invention proposes a kind of dress making primary plane design automatic adaptation under new size It sets；For similarly designing basic element, in different display scenes in application, primary plane design can be made new by described The device of automatic adaptation carries out poster design size change automatically under size so that poster can not change original visual effect In the case of, the design result of adaptation is quickly generated according to size, to adapt to the terminal of various different display sizes.

To realize above-mentioned technical problem, the solution that the present invention takes is：One kind makes primary plane design under new size The device of automatic adaptation, including following processing step：

Step (1), the width amplification coefficient W for determining poster_ampWith highly enlarged coefficient H_amp：

W_newIt is new poster height, W_oldIt is former poster height；

H_newIt is new poster height, H_oldIt is former poster height；

Step (2) compares width amplification coefficient and highly enlarged coefficient to determine the scaling strategy of poster：

Work as W_amp≠H_ampWhen, non-equal proportion scaling processing is carried out to show to each design element of poster：

1., determine the scaled size of each design element

Assuming that there is the active force relationship of balance in former poster between each design element, using mixed Gauss model to each in poster Active force between design element is modeled, and the directed force F Gaussian distributed between design element, each design element exists Shape under the active force that other design elements generate becomes stability force deformation S, is linear between stability force deformation S and directed force F Relationship：

F=α * N (0,1),

α is the experimental conditions according to Gaussian Profile, the anti-scale factor tabled look-up；

The high deformation amount S of design element_H=K_H* F=K_H*α*N(0,1),

The width deformation quantity S of design element_W=K_W* F=K_W*α*N(0,1),

Wherein, K_H, K_wAdjustable value K highly, in width direction is indicated respectively, and adjustable value K is respectively according in height, width direction Design element number do different parameter settings；

The new high degree H of design element_k-new=H_amp*H_k-old+S_H, wherein H_k-newIndicate the new high degree of k-th design element, H_k-oldIt is the former height of k-th design element；

The new width W of design element_k-new=W_amp*W_k-old+S_W, wherein W_k-newIndicate the new width of k-th design element, W_k-oldIt is the former width of k-th design element；

2., determine element scaling strategy

Each design element forms new image areas according to predetermined scaled size, first passes through visual attention model and determines newly The salient region of image of image-region, and salient region of image is marked；Then, after poster size variation, it is located at poster On image displayable range can also change therewith, at this point, the size that the image displayable range of poster after scaling is occupied is made For display window size, sliding display window is to traverse new image areas, when display window includes most salient region of image When label, the new image areas that frame corresponding to display window selects, as final scaled results.

Further, working as W_amp=H_ampWhen, the zoom factor A=W of poster_amp=H_amp, to each design element of poster Equal proportion scaling processing is carried out to show：

The new high degree H of design element_k-new=H_amp*H_k-old, wherein H_k-newIndicate the new high degree of k-th design element, H_k-old It is the former height of k-th design element；

The new width W of design element_k-new=W_amp*W_k-old, wherein W_k-newIndicate the new width of k-th design element, W_k-old It is the former width of k-th design element.

By using preceding solution, the beneficial effects of the invention are as follows：That designs as described above makes primary plane design exist The device of automatic adaptation under new size provides the size of required new poster when user needs to change poster size, and device is based on The size of new poster and former poster size carry out the calculating of transverse and longitudinal ratio and compare, when the transverse and longitudinal of new poster size is than the transverse and longitudinal with old size Than equal (A=W_amp=H_amp), device directly carries out equal proportion scaling processing to former poster design element；And work as new poster ruler When very little transverse and longitudinal is more unequal than the transverse and longitudinal ratio with old size, it will produce if directly being scaled using existing linear equal proportion apparent Visual distortion problem, generate serious metamorphopsic distortion, therefore, the present apparatus uses non-equal proportion to poster design element and contracts It puts, the size after element scaling is first determined according to the position of design element, size, relativeness, then be directed to each element, for Its new size determines its scaling strategy, chooses optimal region and is used as scaled results, effective solution poster is in non-grade ratios The visual perception distortion situation generated in the case of example scaling；It is described before comprehensive, for similarly designing basic element, shown in different Show scene in application, primary plane design device of automatic adaptation under new size can be made to carry out poster design automatically by described Size changes so that poster can quickly generate the design of adaptation in the case where not changing original visual effect according to size As a result, to adapt to the terminal of various different display sizes.

Specific implementation mode

In conjunction with specific embodiment, the present invention is further described.

The embodiment of the present invention discloses, a kind of device making primary plane design automatic adaptation under new size, including such as Lower processing step：

Step (1), the width amplification coefficient W for determining poster_ampWith highly enlarged coefficient H_amp：

W_newIt is new poster height, W_oldIt is former poster height；

H_newIt is new poster height, H_oldIt is former poster height；

Step (2) compares width amplification coefficient and highly enlarged coefficient to determine the scaling strategy of poster：

Work as W_amp=H_ampWhen, the zoom factor A=W of poster_amp=H_amp, each design element of poster is carried out at equal proportion scaling Reason is to show：

The new high degree H of design element_k-new=H_amp*H_k-old, wherein H_k-newIndicate the new high degree of k-th design element, H_k-old It is the former height of k-th design element；

The new width W of design element_k-new=W_amp*W_k-old, wherein W_k-newIndicate the new width of k-th design element, W_k-old It is the former width of k-th design element.

Work as W_amp≠H_ampWhen, non-equal proportion scaling processing is carried out to show to each design element of poster：

1., determine the scaled size of each design element

Assuming that there is the active force relationship of balance in former poster between each design element, using mixed Gauss model to each in poster Active force between design element is modeled, and the directed force F Gaussian distributed between design element, each design element exists Shape under the active force that other design elements generate becomes stability force deformation S, is linear between stability force deformation S and directed force F Relationship：

F=α * N (0,1),

α is the experimental conditions according to Gaussian Profile, the anti-scale factor tabled look-up；

The high deformation amount S of design element_H=K_H* F=K_H*α*N(0,1),

The width deformation quantity S of design element_W=K_W* F=K_W*α*N(0,1),

Wherein, K_H, K_wAdjustable value K highly, in width direction is indicated respectively, and adjustable value K is respectively according in height, width direction Design element number do different parameter settings；

The new high degree H of design element_k-new=H_amp*H_k-old+S_H, wherein H_k-newIndicate the new high degree of k-th design element, H_k-oldIt is the former height of k-th design element；

The new width W of design element_k-new=W_amp*W_k-old+S_W, wherein W_k-newIndicate the new width of k-th design element, W_k-oldIt is the former width of k-th design element；

2., determine element scaling strategy

Each design element forms new image areas according to predetermined scaled size, first passes through visual attention model and determines newly The salient region of image of image-region, and salient region of image is marked；Then, after poster size variation, it is located at poster On image displayable range can also change therewith, at this point, the size that the image displayable range of poster after scaling is occupied is made For display window size, sliding display window is to traverse new image areas, when display window includes most salient region of image When label, the new image areas that frame corresponding to display window selects, as final scaled results.

In conclusion for similarly designing basic element, in different display scenes in application, can be made by described Primary plane design device of automatic adaptation under new size carries out poster design size change automatically so that poster can not change In the case of becoming original visual effect, the design result of adaptation is quickly generated according to size, and ruler is shown to adapt to various differences Very little terminal.

The foregoing descriptions are merely the embodiment using this origination techniques content, any those skilled in the art use this wound Make done modifications and changes, all belong to the scope of the claims of this creation opinion, and is not limited to those disclosed embodiments.

Claims (2)

1. a kind of device making primary plane design automatic adaptation under new size, it is characterised in that：Including following processing step：

Step (1), the width amplification coefficient W for determining poster_ampWith highly enlarged coefficient H_amp：

W_newIt is new poster height, W_oldIt is former poster height；

H_newIt is new poster height, H_oldIt is former poster height；

Step (2) compares width amplification coefficient and highly enlarged coefficient to determine the scaling strategy of poster：

Work as W_amp≠H_ampWhen, non-equal proportion scaling processing is carried out to show to each design element of poster：

1., determine the scaled size of each design element

Assuming that there is the active force relationship of balance in former poster between each design element, using mixed Gauss model to each in poster Active force between design element is modeled, and the directed force F Gaussian distributed between design element, each design element exists Shape under the active force that other design elements generate becomes stability force deformation S, is linear between stability force deformation S and directed force F Relationship：

F=α * N (0,1),

α is the experimental conditions according to Gaussian Profile, the anti-scale factor tabled look-up；

The high deformation amount S of design element_H=K_H* F=K_H*α*N(0,1),

The width deformation quantity S of design element_W=K_W* F=K_W*α*N(0,1),

Wherein, K_H,K_wAdjustable value K highly, in width direction is indicated respectively, and adjustable value K is respectively according in height, width direction Design element number do different parameter settings；

The new high degree H of design element_k-new=H_amp*H_k-old+S_H, wherein H_k-newIndicate the new high degree of k-th design element, H_k-oldIt is the former height of k-th design element；

The new width W of design element_k-new=W_amp*W_k-old+S_W, wherein W_k-newIndicate the new width of k-th design element, W_k-oldIt is the former width of k-th design element；

2., determine element scaling strategy

Each design element forms new image areas according to predetermined scaled size, first passes through visual attention model and determines newly The salient region of image of image-region, and salient region of image is marked；Then, after poster size variation, it is located at poster On image displayable range can also change therewith, at this point, the size that the image displayable range of poster after scaling is occupied is made For display window size, sliding display window is to traverse new image areas, when display window includes most salient region of image When label, the new image areas that frame corresponding to display window selects, as final scaled results.

2. the device according to claim 1 for making primary plane design automatic adaptation under new size, it is characterised in that：When W_amp=H_ampWhen, the zoom factor A=W of poster_amp=H_amp, equal proportion scaling processing is carried out with aobvious to each design element of poster Show：

The new high degree H of design element_k-new=H_amp*H_k-old, wherein H_k-newIndicate the new high degree of k-th design element, H_k-oldIt is The former height of k-th design element；

The new width W of design element_k-new=W_amp*W_k-old, wherein W_k-newIndicate the new width of k-th design element, W_k-oldIt is The former width of k-th design element.