CN105243684A - Method of displaying image in game interface and device - Google Patents

Abstract

The invention discloses a method of displaying an image in a game interface and a device. The displaying method comprises the following steps: 1) fuzzy processing is carried out on a to-be-displayed image, and a fuzzy image is obtained; 2) point product computation is carried out on a pixel value of each pixel point in the fuzzy image obtained in the first step and a pixel value corresponding to a target color, a value obtained after point product computation is carried out on each pixel point is subjected to normalized operation to a range of 0 to 255, and a coloring effect diagram is obtained; and 3) overlapping and displaying are carried out, the coloring effect diagram is overlapped at the bottom part of the original image of the to-be-displayed image for overlapping displaying, and an image with rendering effects is displayed. According to the display method and the device, when different grade states of contents in the image are displayed, consumed resources are few, the processing efficiency is low, and the applicability is wide.

Description

The display packing of image and device in a kind of interface

[technical field]

The present invention relates to display packing and the device of image in a kind of interface.

[background technology]

Along with the widespread use of mobile terminal, the demand of game development is also increasing on mobile terminals.At present, in the game at mobile platform, player user along with to game deeply and player levels promote, the head portrait of player, the article equipment, technical ability etc. that have all can be upgraded.In existing game, the general grade using image icon outside to add form performance head portrait, equipment, the technical ability etc. of quality frame, the quality frame of different colours, such as grey, green, blue, purple, orange, represent the height of different stage respectively.Generate the method for effect image, as shown in Figure 1, superpose second layer images of items resource 200 mainly with ground floor quality frame image resource 100 to superpose background color image resource 300 bottom third layer again and realize, the dress ornament image of such as red block blue background represents relatively high-grade equipment, and the dress ornament image of blue frame blue background represents relatively low-grade equipment.Like this, during the display of image at design games interface, at least need following 3 picture elements: 1, quality frame, 2, item pictures, 3, bottom background.When program realizes, need the combination display effect of each article being write to above-mentioned 3 picture elements.There is following shortcoming in this display packing:

1, resource cost is large: the Individual Items of a large amount of quality frames, different brackets performance occupy a large amount of development of games resources, once abandon, there will be the wasting of resources.

2, Graphics Processing efficiency is low: the display of image is a process reading and export, and for the icon seeming an image, needs to read to export at least 3 picture resources, be unfavorable for quick performance during display.Especially the mobile terminal such as mobile phone, graphics capability is weaker than computer end, needs the strict Graphics Processing cost controlling image.

3, limitation is large: the repeating to call of quality frame is only limited to the image icon that profile outward appearance is comparatively regular, facilitate display, head portrait, clothes, technical ability image icon such as in game, cannot show its grade by the mode of adding quality frame for the image (scene in interface, house, trees, river etc.) being not easy to display.For this type of image, then need the image resource same images of items being generated to multiple different brackets state, workload is very big.The great amount of images resource generated imports in games, and the scale of construction of whole games also can be made therefore to increase.

4, visual effect is poor: during for virtual objects display different brackets such as equipment, technical ability, the different brackets of virtual objects can only be judged by quality frame in parcel or equipment hurdle, when images of items depart from quality frame be directly installed to game role with it time, the grade of the article that role equips can not be judged very intuitively.

[summary of the invention]

Technical matters to be solved by this invention is: make up above-mentioned the deficiencies in the prior art, proposes display packing and the device of image in a kind of interface, and when display has the image of different brackets state content, the resource expended is few, treatment effeciency is low and applicability is wide.

Technical matters of the present invention is solved by following technical scheme:

A display packing for image in interface, comprises the following steps: 1) image to be shown is carried out Fuzzy processing, and obtain blurred picture; 2) by step 1) pixel value that the pixel value of each pixel of blurred picture that obtains is corresponding with color of object carries out dot-product operation, the value normalization obtained after the dot-product operation of each pixel is operated to the scope of 0 ~ 255, obtain coloring effect figure; 3) Overlapping display step: be superimposed with described coloring effect figure and carry out Overlapping display bottom the former figure of image to be shown, demonstrate the image of rendering effect.

A display device for image in interface, comprises Fuzzy Processing module, staining module and Overlapping display module, and described Fuzzy Processing module is used for image to be shown to carry out Fuzzy processing, and obtains blurred picture; Described staining module is used for pixel value corresponding with color of object for the pixel value of each pixel of described blurred picture to carry out dot-product operation, the value normalization obtained is operated to the scope of 0 ~ 255 after the dot-product operation of each pixel, exports coloring effect figure; Described Overlapping display module is used for bottom the former figure of image to be shown, be superimposed with described coloring effect figure and carries out Overlapping display, demonstrates the virtual objects image of rendering effect.

The beneficial effect that the present invention is compared with the prior art is:

The display packing of image and device in interface of the present invention, after image blurringization to be shown is processed, on painted on blurred picture, target color information obtains coloring effect figure, then carrying out Overlapping display by superposing this coloring effect figure bottom former figure, namely obtaining the image with color of object rendering effect.Like this, the different color by image is played up can define the different level status of performance.No longer distinguished by quality frame as prior art and realize, thus the picture resource eliminating quality frame uses, and reduces resource cost, and only need during Graphics Processing to read output two picture resources, improve treatment effeciency.Moreover, grade classification is realized by rendered color, thus being no longer confined to the grade classification of the article that can exhibit, in interface, any image all can render different colors by said method thus demonstrate different grade effects, and the applicable object of method is very wide.Display packing of the present invention can directly utilize code to transfer graphic process unit (GPU) to carry out playing up of image and present, fully can call the dirigibility of GPU, read more efficiently and show image, thus the image of mobile terminal game is presented advantageously.Carry out playing up of image due to code transfer GPU directly can be utilized to present, eliminate the making of part png source resource, reduce resource cost, and greatly can reduce the processing pressure of mobile terminal CPU by transferring GPU auxiliary process, be more conducive to quick, smooth the presenting of figure.

[accompanying drawing explanation]

Combination of resources view when Fig. 1 is the grade effect showing image in prior art;

Fig. 2 is the process flow diagram of the display packing of image in the interface of the specific embodiment of the invention;

Fig. 3 is the schematic diagram that in the method for displaying image of the specific embodiment of the invention, two width figure superpose;

Fig. 4 is the design sketch of the image that the method for displaying image of the specific embodiment of the invention demonstrates;

Fig. 5 is the effect contrast figure after the method for displaying image of the specific embodiment of the invention arranges preferred steps;

Fig. 6 is the structural representation of the image display device of the specific embodiment of the invention;

Fig. 7 is the preferred structure schematic diagram of the image display device of the specific embodiment of the invention.

[embodiment]

Contrast accompanying drawing below in conjunction with embodiment the present invention is described in further details.

Design of the present invention is the mode combined with resource, background color by breaking through traditional quality frame, adopt dye technology to realize quality and the grade performance of different picture, resource cost is few, and which does not limit by the profile outward appearance of image content, only relate to the superposition of two pictures, Graphics Processing efficiency is high.

As shown in Figure 2, be the display packing of image in the interface of this embodiment.Interface can be the interface on computer or mobile terminal, preferably, at mobile terminal, as applied in the interface on mobile phone, handheld device or panel computer.Method for displaying image comprises the following steps:

1) image to be shown is carried out Fuzzy processing, and obtain blurred picture.

Image blurring process is comparatively proven technique.In this step, when carrying out Fuzzy processing, blur radius is arranged in the scope of 1 pixel to 5 pixel.According to the observation to follow-up rendering effect, blur radius the rendered color size that can affect and play up rear images of items periphery is set, when radius being arranged on 1 ~ 5 pixel scope, the color and dimensions effect that periphery renders is suitable for, both be unlikely to too little, cause the color effects that cannot occur playing up, be also unlikely to cause too greatly that rendering effect is excessive affects visual appearance.

Preferably, Gaussian Blur technology is selected to realize above-mentioned Fuzzy Processing.The ultimate principle of Gaussian Blur is exactly preimage vegetarian refreshments mixing surrounding pixel dot generation objective fuzzy pixel.The mode of mixing has multiple, and conventional has four point samplings, seven point samplings and nine point samplings, arranges sample offset and weight respectively.Effect preferably nine point samplings are adopted in this embodiment.Further preferably, during Gaussian Blur process, horizontal, longitudinal Fuzzy Processing is carried out to image, obtains blurred picture.On horizontal and vertical, all carry out Fuzzy Processing, make blur effect more even, follow-up rendering effect is also better.

2) by step 1) pixel value that the pixel value of each pixel of blurred picture that obtains is corresponding with color of object carries out dot-product operation, the value normalization obtained after the dot-product operation of each pixel is operated to the scope of 0 ~ 255, obtain coloring effect figure.

The display packing of this embodiment, target plays up different colors to the superposition of image to be displayed periphery, presents different colours " luminescence " effect, thus the level status that differentiate between images is different.Therefore, in this step, give rose effect as hope is superimposed with, then the pixel value (r1=222, g1=88, b1=199) that the pixel value (r, g, b) of each pixel of blurred picture is corresponding with rose carries out dot-product operation.After dot-product operation, obtain the value that each pixel is corresponding after r × r1+g × g1+b × b1 computing, then value normalization corresponding after each pixel computing is adjusted to the scope of 0 ~ 255, as the gray-scale value of each pixel, and then obtains coloring effect figure.Similarly, as hope is superimposed with blue color effect, then the pixel value that pixel value (r, g, the b) value of each pixel of blurred picture is corresponding with blueness carries out dot-product operation, and then normalization is adjusted to the scope of 0 ~ 255.Regulated by dot-product operation and normalization, make blurred picture be painted to corresponding color of object.As shown in Figure 3, the blurred picture below left side is the blurred picture after attachment grey.

3) Overlapping display step: be superimposed with described coloring effect figure and carry out Overlapping display bottom the former figure of image to be shown, demonstrate the image of rendering effect.

As shown in Figure 3, be view during superposition.The former figure of image is superimposed with the blurred picture of gray colored, and double-deck Overlapping display obtains the display image of peripheral band grey rendering effect.

The method for displaying image of this embodiment, by Fuzzy Processing, retains the overall dimensions peripheral shape of former figure, after painted upper color of object, using blurred picture as background color imaging importing on former figure image, forms the effect of peripheral rendered color.Owing to being carry out getting point fuzziness based on each image resource itself to play up, rendering effect can extremely be fitted picture material profile, has very natural display effect.Regulating step 2) in color of object, playing up of different colours can be realized easily.By playing up upper different color, presenting of the different brackets state of content in image can be realized.And as shown in Figure 4, observe from interface, after this virtual objects of the staff of authority plays up blue color effect, the periphery blueness played up makes the staff of authority produce the effect of a kind of peripheral " luminescence ", presents effect and more has interest.Representing different brackets state by playing up the different color of superposition, no longer relying on the grade of the quality frame reflection picture material of showing in list, without the need to relating to quality frame, thus saving a large amount of quality frames, background color picture resource, reducing resource cost.Carry out reading carelessness for two width pictures during Graphics Processing, can more efficiently present rapidly.And owing to no longer relying on quality frame display level, thus be no longer confined to the grade classification of the article that can exhibit, in interface, any picture material all can render different colors by said method thus demonstrate different grade effects, and the applicable object of method is very wide.

Preferably, this method applicable object is very wide, and when showing for the picture material image that is virtual objects, effect is better, shows that visual effect is better.Virtual objects can be head portrait, the equipment or technical ability etc. of game player.When the image of virtual objects distinguishes different brackets by playing up peripheral different colours, not only showing the level status that list can be observed virtual objects, when virtual objects be installed to game role with it after, images of items is carried together play up for the graduate colouring information in district, also namely article be installed to game role with it after, the colour recognition also can played up from article to class information, as shown in Figure 4, the staff of authority has played up blueness, the known staff of authority representing a certain grade.Like this, the virtual objects that player can be equipped with it from game role recognizes class information intuitively, and solve the problem that in the past directly cannot judge class information from the interface after role's arrangement of objects, visual effect is good, improves the interest of game.

Further preferably, by above-mentioned painted after design sketch be superimposed to bottom former figure again through amplifying after migration processing, design sketch can be made to present more highlighted effect, better fit with former figure, thus overall rendering effect is more evenly full, be unlikely to occur that some position is played up not in place or plays up rear situation bright not.Particularly, method for displaying image is in described step 2) after also comprise step 2 ') (process flow diagram does not illustrate), comprise the following steps:

A) pixel value of each pixel after amplification migration processing in coloring effect figure is obtained according to following formula: Ai=(Bi+offset) × scale, wherein, Ai represents the pixel value of pixel i after amplifying migration processing, Bi represents the pixel value of pixel i in chromatic effect figure, offset is default side-play amount, and scale is default enlargement factor.In this step, the value of side-play amount and enlargement factor can first be arranged, and then constantly repeatedly regulates value according to the feedback of the design sketch presented, thus is suitable value according to effect design target adjustment.

B) operation is normalized to the pixel value of each pixel that step a) obtains after the scope of 0 ~ 255, obtains the coloring effect figure after amplification migration processing.After the skew of the pixel value of pixel in image is amplified by previous step, its normalization is adjusted to the scope of 0 ~ 255 by this step, thus is convenient to form piece image.

Image obtained above is and amplifies the coloring effect figure after migration processing, correspondingly, step 3) in superposition time, the former figure coloring effect figure be superimposed with after amplifying migration processing obtains having the image of rendering effect.The rendering effect obtained has more evenly full feature.Particularly, as shown in Figure 5, c figure is the design sketch of colored blue, d figure is painted piece of red design sketch, d figure also comprises above-mentioned amplification migration processing step in Graphics Processing process simultaneously, then the rendered color that obtains of d figure is fuller bright, " luminescence " effect more strongly, i.e. rendering effect lifelike image more.

The display device of image in a kind of interface is also provided in this embodiment, as shown in Figure 6, is the structural representation of device, comprises Fuzzy Processing module 400, staining module 500 and Overlapping display module 600.Fuzzy Processing module 400 for image to be shown is carried out Fuzzy processing, and exports blurred picture.Staining module 500 carries out dot-product operation for the pixel value that the pixel value of each pixel by blurred picture is corresponding with color of object, the value normalization obtained is operated to the scope of 0 ~ 255 after the dot-product operation of each pixel, exports coloring effect figure.Overlapping display module 600 carries out Overlapping display for being superimposed with coloring effect figure bottom the former figure of image to be shown, demonstrates the virtual objects image of rendering effect.

By this display device, playing up the different color of superposition and represent different brackets state, no longer relying on the grade of the quality frame reflection picture material of showing in list, without the need to relating to quality frame, thus reduce resource cost, also can more efficiently present rapidly during Graphics Processing.And owing to no longer relying on quality frame display level, thus be no longer confined to the grade classification of the article that can exhibit, in interface, any picture material all can render different colors by said method thus demonstrate different grade effects, and the applicable object of method is very wide.

Preferably, as shown in Figure 7, display device also comprises amplifies offset module 700 and normalized module 800, amplify offset module 700 for obtaining each pixel according to following formula through amplifying the pixel value after migration processing: Ai=(Bi+offset) × scale, wherein, Ai represents the pixel value of pixel i after amplifying migration processing, and Bi represents the pixel value of pixel i in chromatic effect figure, offset is default side-play amount, and scale is default enlargement factor.Normalized module 800 is normalized for the pixel value of each pixel obtained described amplification offset module the coloring effect figure operating and obtain after the scope of 0 ~ 255 through amplifying after migration processing.Overlapping display module 600 is for being superimposed with the coloring effect figure through amplifying after migration processing when Overlapping display.Amplify offset module and normalized module by setting up, thus make rendering effect more evenly full, " luminescence " effect lifelike image more.

Above content is in conjunction with concrete preferred implementation further description made for the present invention, can not assert that specific embodiment of the invention is confined to these explanations.For general technical staff of the technical field of the invention, make some substituting or obvious modification without departing from the inventive concept of the premise, and performance or purposes identical, all should be considered as belonging to protection scope of the present invention.

Claims (11)

1. the display packing of image in interface, is characterized in that: comprise the following steps:

1) image to be shown is carried out Fuzzy processing, and obtain blurred picture;

2) by step 1) pixel value that the pixel value of each pixel of blurred picture that obtains is corresponding with color of object carries out dot-product operation, the value normalization obtained after the dot-product operation of each pixel is operated to the scope of 0 ~ 255, obtain coloring effect figure;

3) Overlapping display step: be superimposed with described coloring effect figure and carry out Overlapping display bottom the former figure of image to be shown, demonstrate the image of rendering effect.

2. the display packing of image according to claim 1, it is characterized in that: in described step 2) after also comprise step 2 '), amplification migration processing is carried out to described coloring effect figure, comprise: a) obtain the pixel value of each pixel after amplification migration processing in coloring effect figure according to following formula: Ai=(Bi+offset) × scale, wherein, Ai represents the pixel value of pixel i after amplifying migration processing, Bi represents the pixel value of pixel i in chromatic effect figure, offset is default side-play amount, and scale is default enlargement factor; B) operation is normalized to the pixel value of each pixel that step a) obtains after the scope of 0 ~ 255, obtains the coloring effect figure after amplification migration processing; Described step 3) in be superimposed with through amplifying the coloring effect figure after migration processing.

3. the display packing of image according to claim 1, is characterized in that: described step 1) in, during described Fuzzy processing, blur radius is in the scope of 1 pixel to 5 pixel.

4. the display packing of image according to claim 1, is characterized in that: described step 1) in, adopt Gaussian Blur disposal route to carry out Fuzzy Processing.

5. the display packing of image according to claim 4, is characterized in that: during Gaussian Blur process, carries out horizontal, longitudinal Fuzzy Processing, obtain blurred picture to image.

6., according to the display packing of described image arbitrary in claim 1 to 5, it is characterized in that: described image to be shown is the image of virtual objects in interface.

7. the display packing of image according to claim 6, is characterized in that: described virtual objects is the head portrait of game player, equipment or technical ability.

8. the display packing of image according to claim 1, is characterized in that: described interface is the interface on mobile terminal.

9. the display packing of image according to claim 8, is characterized in that: described mobile terminal is mobile phone, handheld device or panel computer.

10. the display device of image in interface, is characterized in that: comprise Fuzzy Processing module, staining module and Overlapping display module, and described Fuzzy Processing module is used for image to be shown to carry out Fuzzy processing, and exports blurred picture; Described staining module is used for pixel value corresponding with color of object for the pixel value of each pixel of described blurred picture to carry out dot-product operation, the value normalization obtained is operated to the scope of 0 ~ 255 after the dot-product operation of each pixel, exports coloring effect figure; Described Overlapping display module is used for bottom the former figure of image to be shown, be superimposed with described coloring effect figure and carries out Overlapping display, demonstrates the virtual objects image of rendering effect.

The display device of 11. images according to claim 10, it is characterized in that: also comprise and amplify offset module and normalized module, described amplification offset module is used for obtaining each pixel according to following formula through amplifying the pixel value after migration processing: Ai=(Bi+offset) × scale, wherein, Ai represents the pixel value of pixel i after amplifying migration processing, Bi represents the pixel value of pixel i in chromatic effect figure, offset is default side-play amount, and scale is default enlargement factor; Described normalized module is used for being normalized operation to the pixel value of each pixel that described amplification offset module obtains after the scope of 0 ~ 255, obtains the coloring effect figure after amplification migration processing; Described Overlapping display module is used for being superimposed with the coloring effect figure after amplifying migration processing when Overlapping display.