CN105975273A - Particle animation realization method and system as well as purification process display method and system for optimization tool - Google Patents

Abstract

The invention relates to a particle animation realization method and system. The method comprises the steps of constructing a particle track model on an interface; after particles start to move, obtaining corresponding refreshing time when each frame of interface image is refreshed, and calculating refreshing positions of the particles according to the refreshing time and the particle track model; and refreshing the interface and updating the images of the particles to the refreshing positions. According to the method and system, the particles are driven to move through continuously refreshing the interface by utilizing an interface refreshing thread to obtain an animation effect of movement of the particles along a track, so that the animation display effect is improved. In addition, the invention provides a purification process display method and system for an optimization tool to improve the purification process display effect of the optimization tool.

Description

The realization of particle animation and the purification process methods of exhibiting of optimization tool and system

Technical field

The present invention relates to computer software technical field, particularly relate to the method and system of a kind of particle animation, And the purification process methods of exhibiting of a kind of optimization tool and system.

Background technology

In interface display, when a kind of process progress of needs display, in order to reach more preferable display effect, often join The animation of a little dynamically change of unification is simple such as animations such as suspended window (in conjunction with percentage ratio), progress bars.

The animation that different scenes use needs to adapt with corresponding scene, otherwise easily brings contrary display to imitate to user Really, such as, the function of general optimization tool is cleaning garbage files etc., uses " liquid spheres ", " rotating figure " etc., it is difficult to cleaning The purification scene of rubbish adapts；Have impact on animation display effect.

Summary of the invention

Based on this, it is necessary to for above-mentioned technical problem, it is provided that the method and system of a kind of particle animation, it is achieved grain The presentation process of sub-animation, improves display effect.

The implementation method of a kind of particle animation, comprises the steps:

On interface build particle trajectory model, wherein, described particle trajectory model include described particle track and Corresponding relation with the time；

After particle setting in motion, obtain refresh time corresponding when every frame interface image refreshes, during according to described refreshing Between and described particle trajectory model calculate particle flush bit；

Refresh described interface, and by the image update of described particle to described flush bit.

A kind of particle animation realize system, including:

MBM, for building particle trajectory model on interface, wherein, described particle trajectory model includes described grain Sub track and the corresponding relation with the time thereof；

Computing module, for after particle setting in motion, obtains refresh time corresponding when every frame interface image refreshes, root The flush bit of particle is calculated according to described refresh time and described particle trajectory model；

Refresh module, is used for refreshing described interface, and by the image update of described particle to described flush bit.

The method and system of above-mentioned particle animation, first builds particle trajectory model on interface, obtains Mei Zheng circle Refresh time corresponding during the image refreshing of face, then utilizes the track of particle in particle trajectory model and pass corresponding with the time thereof System calculates the flush bit of particle, then by refreshing described interface by the image update of particle to flush bit, it is achieved particle exists Move on track；This technical scheme utilizes interface to refresh thread, drives Particles Moving by constantly refreshing interface, it is possible to obtain grain Son, along the animation effect of orbiting motion, improves animation display effect.

It addition, there is a need to for above-mentioned technical problem, it is provided that the purification process methods of exhibiting of a kind of optimization tool and be System, improves the display effect of the purification process of optimization tool.

The purification process methods of exhibiting of a kind of optimization tool, comprises the steps:

The main interface of optimization tool builds the locus model of particle rotary motion；Described locus model includes described grain Sub track and the corresponding relation with the time thereof；

After purifying unlatching, main interface shows particle picture, drive particle at main interface according to described locus model The rotary motion of enterprising line period；

When purification completes, terminate described rotary motion and stop showing described particle picture.

A kind of purification process display systems of optimization tool, including:

Track MBM, for building the locus model of particle rotary motion on the main interface of optimization tool；Described Locus model include described particle track and with the corresponding relation of time；

Particle rotary module, for, after purifying unlatching, showing particle picture, according to described locus model on main interface Drive particle in the rotary motion of the enterprising line period in main interface；

Terminating rotation module, for when purification completes, terminates described rotary motion and stops showing described particle picture.

The purification process methods of exhibiting of above-mentioned optimization tool and system, first build track on the main interface of optimization tool Model, purifies the rotary motion opening rear drive particle at the enterprising line period in main interface, has purified termination rotary motion also Stop showing described particle picture；This technical scheme utilizes locus model to drive particle in the rotation of the enterprising line period in main interface Motion, improves the purification process bandwagon effect of optimization tool.

Accompanying drawing explanation

Fig. 1 is the implementation method flow chart of the particle animation of an embodiment；

Fig. 2 is the functional image schematic diagram of the longitudinal and transverse coordinate of trigonometric function equation of an example；

Fig. 3 is the schematic diagram of a particle trajectory model；

Fig. 4 be particle add attribute schematic diagram；

Fig. 5 is the schematic diagram of life cycle of particle；

Fig. 6 be the particle animation of an embodiment realize system structure schematic diagram；

Fig. 7 is the purification process methods of exhibiting flow chart of the optimization tool of an embodiment；

Fig. 8 is the interface schematic diagram of a cleaning of tool product on mobile terminal；

Fig. 9 is that particle animation is combined schematic diagram with purifying rate；

Figure 10 is the change schematic diagram of particle animation during deep purifying；

Figure 11 is the situation of change schematic diagram having purified rear particle；

Figure 12 is the purification process display systems structural representation of the optimization tool of an embodiment.

Detailed description of the invention

The method and system of the particle animation of the present invention is illustrated below in conjunction with the accompanying drawings with embodiment.

The implementation of the particle animation of the embodiment of the present invention, realizes particle animation effect on interface, can more stick on Representing Particles Moving process with cutting, use in conjunction with software tool, can promote display effect, the program can be applied in multiple intelligence On terminal unit, including PC (Personal Computer, personal computer), smart mobile phone, panel computer, PDA (Personal Digital Assistant, personal digital assistant) etc..

With reference to shown in Fig. 1, Fig. 1 is the implementation method flow chart of the particle animation of an embodiment, comprises the steps:

Step S101, builds particle trajectory model on interface, and wherein, described particle trajectory model includes described particle Track and the corresponding relation with the time thereof；

In the present embodiment, building particle trajectory model on the interface that particle animation is shown, particle trajectory model includes The track that particle runs on interface, particle is along orbiting motion thus forms animation；Particle, in motor process, is deposited with the time At corresponding relation, i.e. particle runs to correspondence position on track at corresponding time point.

Step S102, after particle setting in motion, obtains refresh time corresponding when every frame interface image refreshes, according to institute State refresh time and the flush bit of described particle trajectory model calculating particle；

In the present embodiment, so that move on track at particle form animation, the mode refreshing interface is used Drive Particles Moving, i.e. after particle setting in motion, it is necessary first to obtain refreshing corresponding during the every frame track image refreshing of interface Time, as it was noted above, due to the corresponding track position of each time point on particle trajectory, when refreshing by constantly calculating Between, refresh time is substituted into particle trajectory model and can be calculated the flush bit of particle, by utilizing interface to refresh thread, Constantly refresh interface, thus drive particle to move on track, form particle animation.

Above-mentioned refresh time, can be calculated by predetermined certain frame per second that refreshes, refresh frame per second and refer to what each second refreshed Frame number, can be set in application according to demand, for example, it is possible to arranging refreshing frame per second is 100 frames/second, i.e. uses thread 1 Interface is refreshed 100 times in second.The time interval of every frame is 0.01 second；The time that postulated particle moves on track is 0.1 second, Then refreshing 10 times, frame number is 10, according to the 1st to the 10th frame correspondence time, substitutes into particle trajectory model, can be calculated particle Each flush bit.

Step S103, refreshes described interface, and by the image update of described particle to described flush bit.

In the present embodiment, after being calculated the flush bit of particle, call thread and refresh interface, by the image of particle Being updated to the flush bit calculated, particle creates displacement on track, it is achieved animation effect.

The technical scheme of above-described embodiment, first builds particle trajectory model on interface, obtains every frame interface image brush Refresh time corresponding time new, then utilizes the track of particle in particle trajectory model and calculates grain with the corresponding relation of time The flush bit of son, then by refreshing described interface by the image update of particle to flush bit, it is achieved particle is transported on track Dynamic；This technical scheme utilizes interface to refresh thread, drives Particles Moving by constantly refreshing interface, it is possible to obtain particle is along track The animation effect of motion, improves animation display effect.

In one embodiment, the method building particle trajectory model on interface of step S101, can include as follows Step:

Described interface builds coordinate system；By the trigonometric function equation of longitudinal and transverse coordinate, described particle is described respectively Functional image；Within a cycle of described functional image, intercept the image path in an interval, obtain particle trajectory model.

With reference to shown in Fig. 2, Fig. 2 is the functional image schematic diagram of the longitudinal and transverse coordinate of trigonometric function equation of an example, is sitting Mark is fastened, and utilizes the trigonometric function equation of longitudinal and transverse coordinate to describe the functional image of particle, and trigonometric function function is then a cycle Image, the movement locus at this particle is then the periodogram picture that make use of trigonometric function, is a particle shown in figure.

As an embodiment, trigonometric function equation can be such that

$\left\{\begin{array}{c}x=sin(t*A)*cos(t+B)*R+M\\ y=sin(t*A)*sin(t+B)*R+N\end{array}\right.$

In formula, x represents the abscissa of particle, and y represents the vertical coordinate of particle；A, B, R, M, N are constant value, and R is particle Moving radius, M, N represent the displacement central point abscissa of particle, vertical coordinate respectively, the interval of B be [0,360 °).

In above-mentioned trigonometric function equation, A determines the shape of functional image, the anglec of rotation of B determining function image, and R is The moving radius of this functional image, M, N are then determined the displacement central point of functional image, are arranged by relevant parameter, permissible Coordinate system obtains different particle trajectory models, and trigonometric function function is periodogram picture, fortune can be repeated the cycle of carrying out Dynamic, such that it is able to form colourful particle animation.

With reference to shown in Fig. 3, Fig. 3 is the schematic diagram of a particle trajectory model, it is assumed that trigonometric function image as shown in FIG., Intercept an interval (dotted portion) in the drawings, be designated as [startMove, endMove], as the movement locus of particle.

By the technical scheme of above-described embodiment, build particle trajectory model with trigonometric function image periodic characteristics, To different particle trajectories, and parameter can be set according to demand, form manifold particle animation.

In embodiment above, elaborate that particle forms the technical scheme of animation, in order to improve particle animation further Display effect, at particle along during orbiting motion, can add some attributes to particle, makes same by orbiting motion of particle Time in the suitable time, corresponding change can also occur according to the attribute added.

In one embodiment, the implementation method of the particle animation of the present invention, in step s 103, it is also possible to include as follows Step:

Particle in every frame interface image is added attribute setting property, by the image update of described particle to institute When stating flush bit, particle is performed refresh process corresponding with described property value.

The scheme of above-described embodiment, by adding attribute and property value, particle is in predetermined point of time, and particle is according to property value Perform corresponding state, form the particle animation effect of multiple change.

For described attribute, with reference to shown in Fig. 4, Fig. 4 is what particle added attribute schematic diagram, can include particle half Footpath, movement locus, current location, movement rate, transparency, acceleration, period distances etc., carried out below for part attribute in detail Thin citing.

(1) particle radii:

The particle radii i.e. size of particle, can be changed particle size during orbiting motion at particle.

As an embodiment, described attribute can be radius attribute, and described property value corresponds to radius value；By described When the image update of particle is to described flush bit, particle radii in next frame interface image are transformed to described radius value.

(2) movement locus:

By movement locus attribute change, it is possible to achieve the change of movement locus；As an embodiment, such as institute above Stating, the A value in above-mentioned trigonometric function equation determines trigonometric function image, and movement locus is then to choose one in this functional image Individual interval [startMove, endMove] is as the movement locus of particle, therefore, by change A value, can obtain Particles Moving The track of change.

(3) current location:

The current location of particle is made up of original position and change location, as an embodiment, as it was noted above, initial Position is then determined by two other value: one be the position in track it can be understood as single motion completion rate, another is Rotate initial angle, the namely B value [0,360] in trigonometric function equation, the initial angle of each particle can pass through with Machine generates.

Such as, particle is run on the interface of software cleaning of tool, multiple particle can be set around this central point Move.In order to avoid particle occur at random cause particle excessively concentration problem, random fashion with good conditionsi can be taken, The circle of Particles Moving radius is divided into n pie chart, it is possible to further arrange the population (particle that average each pie chart generates Sum/n) n is total number of particles, n ＞ 2.

Change location is then the recorded position that constantly changes, can be with polar mode record particle at this Position, it is achieved particle launches indentation animation.

(4) movement rate:

Particles Moving speed is every frame track rate of change, the distance that in i.e. every frame track image, particle is changed, Ke Yiding Justice is picTrace/ frame, and total frame per second of a Particles Moving is then (endMove-startMove)/picTrace.Actual application In, the movement rate of particle according to the actual requirements, can be controlled by arranging refreshing frame per second.

(5) transparency

Transparency is pellucidity during particle display, as an embodiment, can arrange transparency property and transparent Angle value；When by the image update of described particle to described flush bit, by particle in next frame interface image with corresponding saturating Brightness value shows.

The scheme of above-described embodiment, particle can obtain transparency change in motor process, thus form fade effect.

Concrete, minimum transparency and the high grade of transparency, a part of frame work that selected track is interval of particle can be set For transparency gradual change scope, then can calculate every frame transparency change value, obtain transparency change ratio；At particle along particle rail After mark setting in motion, according to transparency change ratio, particle is increased to the high grade of transparency frame by frame by minimum transparency；On particle edge Particle trajectory terminate motion before, particle is reduced to minimum transparency frame by frame by the high grade of transparency；Realize gradual change occur and gradually Become the effect disappeared.

Such as, in Android system terminal, the scope of system transparency be [0,256), can minimum transparent by particle Degree and the high grade of transparency are defined as minAlpha and maxAlpha, then its transparency change ratio is constant picAlpha/ frame, at grain When son occurs, transparency is increased to maxAlpha frame by frame by minAlpha.When particle annihilation, then reduced to frame by frame by maxAlpha minAlpha.The opportunity that its attribute is arranged is fadeAway=endMove-(maxAlpha-minAlpha)/picAlpha* picTrace。

(6) acceleration:

Acceleration is the velocity variations that particle runs on track, as an embodiment, can arrange acceleration attribute And speed increases multiplying power；When by the image update of described particle to described flush bit, particle in former frame interface image Movement rate be multiplied by described speed and increase after multiplying power, obtain the movement rate of particle in next frame interface image；Wherein, particle Movement rate be two frame track rates of change.

Such as: described acceleration attribute include Particles Moving speed increase multiplying power and and the time between relation, wherein, Described movement rate is every frame track rate of change；

At particle along after particle trajectory model setting in motion, multiplying power and Particles Moving speed will be increased according to refresh time It is multiplied.

(7) period distances:

The period distances of particle is between the time of once orbiting motion on particle enters after having performed an orbiting motion Every, generally, particle is set to the attribute of coherent appearance, i.e. the period distances of particle is 0.

Such as, at the interface that particle is run on software cleaning of tool, particle can be set and enter according to particle trajectory model The repeating motion in row multiple cycles.

Such as, in Android system terminal, the driving campaign of particle can realize by the following method:

Utilizing INTERVAL (interval) value to control the refreshing frame per second of view (interface view), INTERVAL should equal to 10 expressions Animation is that 100 frames are per second.By constantly calculating position and attribute, mAnimModel.ang file record refreshes frame number, phase every time When in timestamp, drive the calculating of the property values such as the position of each particle, transparency, speed, acceleration, after having calculated again Call postInvalidate and refresh interface.

In actual application, each particle can be set from occurring to disappearing as life cycle of this particle, at this Life cycle, they all the time track along oneself move, and carry out at corresponding time shaft according to the property value of oneself Change, or gradual change or accelerate.

With reference to shown in Fig. 5, Fig. 5 is the schematic diagram of life cycle of particle, including following process:

S501, after particle setting in motion, drives particle gradual change to occur,

S502, drives and presses orbiting motion；

S503, in motor process, drives particle constantly to accelerate；

S504, after particle setting in motion, drives gradual change to disappear；

S505, after particle annihilation, stop motion, complete a life cycle；

S506, after particle completes the orbiting motion of a life cycle, updates its property value so that it is once transport upper Carry out new orbiting motion according to new property value time dynamic, thus allow particle occur that there is randomness every time.

The implementation of the particle animation of the embodiment of the present invention, can apply with in the software interface of various platforms, below Illustrate its application implementation scheme as an example with a cleaning of tool product, make it should be noted that this application is only used as example With, do not constitute the restriction to scheme.

After combining this particle animation, user can not only be allowed to be apparent from the purification process of ground perception cleaning of tool, also allow use Family connects more susceptible to purifying the most possible long problem, promotes Consumer's Experience.

With reference to shown in Fig. 6, Fig. 6 be the particle animation of an embodiment realize system structure schematic diagram, including:

MBM 101, for building particle trajectory model on interface, wherein, described particle trajectory model includes institute State particle track and with the corresponding relation of time；

In the present embodiment, MBM 101 builds particle trajectory model, particle rail on the interface that particle animation is shown Mark model includes the track that particle runs on interface, and particle is along orbiting motion thus forms animation；Particle is in motor process In, there is corresponding relation with the time, i.e. particle runs to correspondence position on track at corresponding time point.

Computing module 102, is used for after particle setting in motion, when obtaining refreshing corresponding when every frame interface image refreshes Between, the flush bit of particle is calculated according to described refresh time and described particle trajectory model；

In the present embodiment, so that move on track at particle form animation, computing module 102 is used for using brush The mode at new interface drives Particles Moving, i.e. after particle setting in motion, it is necessary first to obtain interface every frame track image brush Refresh time corresponding time new, as it was noted above, due to the corresponding track position of each time point on particle trajectory, by not Disconnected calculating refresh time, substitutes into refresh time particle trajectory model and can be calculated the flush bit of particle, by utilizing Thread is refreshed at interface, constantly refreshes interface, thus drives particle to move on track, forms particle animation.

Refresh module 103, is used for refreshing described interface, and by the image update of described particle to described flush bit.

In the present embodiment, after being calculated the flush bit of particle, refresh module 103 is called thread and is refreshed interface, By the image update of particle to the flush bit calculated, particle creates displacement on track, it is achieved animation effect.

The technical scheme of above-described embodiment, first MBM 101 build particle trajectory model, computing module on interface 102 obtain corresponding refresh time when every frame interface images refresh, then utilize particle in particle trajectory model track and Corresponding relation with the time calculates the flush bit of particle, and refresh module 103 is again by refreshing described interface by the image of particle It is updated to flush bit, it is achieved particle moves on track；This technical scheme utilizes interface to refresh thread, by constantly refreshing boundary Face drives Particles Moving, it is possible to obtain particle, along the animation effect of orbiting motion, improves animation display effect.

In one embodiment, described MBM 101, can be further used on described interface building coordinate system, Trigonometric function equation by longitudinal and transverse coordinate describes the functional image of described particle respectively；From a week of described functional image Intercept the image path in an interval in phase, obtain particle trajectory model.

As an embodiment, described trigonometric function equation can be such that

$\left\{\begin{array}{c}x=sin(t*A)*cos(t+B)*R+M\\ y=sin(t*A)*sin(t+B)*R+N\end{array}\right.$

In formula, x represents the abscissa of particle, and y represents the vertical coordinate of particle；A, B, R, M, N are constant value, and R is particle Moving radius, M, N represent the displacement central point abscissa of particle, vertical coordinate respectively, the interval of B be [0,360 °).

In above-mentioned trigonometric function equation, A determines the shape of functional image, the anglec of rotation of B determining function image, and R is The moving radius of this functional image, M, N are then determined the displacement central point of functional image, are arranged by relevant parameter, permissible Coordinate system obtains different particle trajectory models, and trigonometric function function is periodogram picture, fortune can be repeated the cycle of carrying out Dynamic, such that it is able to form colourful particle animation.

By the technical scheme of above-described embodiment, build particle trajectory model with trigonometric function image periodic characteristics, To different particle trajectories, and parameter can be set according to demand, form manifold particle animation.

In one embodiment, described refresh module 103, it is also possible to belong to for the particle in every frame interface image is added Property and set property, by the image update of described particle to described flush bit time, to particle perform with described property value Corresponding refresh process.

The scheme of above-described embodiment, by adding attribute and property value, particle is in predetermined point of time, and particle is according to property value Perform corresponding state, form the particle animation effect of multiple change.

For described attribute, particle radii, movement locus, current location, movement rate, transparency, acceleration can be included Degree, period distances etc..

In one embodiment, described attribute can be transparency property, and described property value corresponds to transparence value；Described Refresh module 103, for when by the image update of described particle to described flush bit, by particle in next frame interface image Show with corresponding transparence value.

In one embodiment, described attribute can be acceleration attribute, and described property value corresponds to speed increases multiplying power； Described refresh module 103, for when by the image update of described particle to described flush bit, in former frame interface image After the movement rate of particle is multiplied by described speed increase multiplying power, obtain the movement rate of particle in next frame interface image；Wherein, The movement rate of particle is two frame track rates of change.

In one embodiment, described attribute can be radius attribute, and described property value corresponds to radius value；Described refreshing Module 103, for when by the image update of described particle to described flush bit, by particle radii in next frame interface image It is transformed to described radius value.

In one embodiment, described particle runs on the interface of software cleaning of tool.

In one embodiment, described interface includes the particle that multiple displacement central point is identical, and described particle is distributed in R In n the pie chart that corresponding circle is divided, n ＞ 2.

In one embodiment, described particle carries out the repeating motion in multiple cycle according to described particle trajectory model.

The system that realizes of the particle animation of the present invention and the implementation method one_to_one corresponding of the particle animation of the present invention, above-mentioned The technical characteristic of the embodiment elaboration of the implementation method of particle animation and beneficial effect thereof are all applicable to the realization system of particle animation In the embodiment of system, hereby give notice that.

Purification process methods of exhibiting and the system of the optimization tool of the present invention is illustrated below in conjunction with the accompanying drawings with embodiment.

With reference to shown in Fig. 7, Fig. 7 is the purification process methods of exhibiting flow chart of the optimization tool of an embodiment, including such as Lower step:

S201, builds the locus model of particle rotary motion on the main interface of optimization tool；Described locus model includes The track of described particle and the corresponding relation with the time thereof；

In this step, the main interface display of optimization tool purifies relevant information, builds particle and rotate fortune on main interface Dynamic locus model, this model is the track comprising particle and the corresponding relation with the time thereof, and particle carries out track over time Change.

In one embodiment, described locus model may include that in the coordinate system at main interface, by longitudinal and transverse coordinate Trigonometric function equation describe described particle track and with the corresponding relation of time；Employing trigonometric function is described, profit Rotary motion is realized by the periodicity of trigonometric function.

For trigonometric function equation, can be expressed as follows:

$\left\{\begin{array}{c}x=sin(t*A)*cos(t+B)*R+M\\ y=sin(t*A)*sin(t+B)*R+N\end{array}\right.$

In formula, x represents the abscissa of particle, and y represents the vertical coordinate of particle；A, B, R, M, N are constant value, and R is particle Radius of turn, M, N represent the abscissa of particle rotary middle point, vertical coordinate respectively, the interval of B be [0,360 °).

In above-described embodiment, make use of the characteristic of trigonometric function, can periodically control initial position, rotation that particle rotates Gyration, radius of turn etc..

S202, after purifying unlatching, shows particle picture on main interface, drives particle leading according to described locus model The rotary motion of the enterprising line period in interface；

In this step, main interface show particle picture and drive particle in the rotation of the enterprising line period in main interface Motion, it is achieved that animation ways of presentation, can allow the purification process that user's perception is lasting.

It addition, as an embodiment, it is also possible to after purifying unlatching, calculate the background application quantity needing cleaning, Determine a certain proportion of number of particles according to described quantity, and show on main interface；Meanwhile, in purification process, when Apply cleaned after, by corresponding proportion reduce number of particles.

Such as: the backstage of calculating needs the number of applications of cleaning to be n, then can set 3n particle, at main interface On be rotated, often cleaning one application after, reduce by 3 particles.

Further, after purifying and opening, it is also possible to calculate in real time the background application quantity of residue cleaning and current clean Rate, and show on described main interface.

In one embodiment, in purification process, the radius of turn of described particle from initial position gradual change to described Heart point, transparency is by 0 gradual change to 100%；The gradual change from large to small of described particle radii.

Above-described embodiment, by controlling the gradual change of the R value t in time of trigonometric function, it is possible to achieve the radius of turn of particle Gradual change.

Further, before purifying unlatching, it is also possible to show pie chart picture on main interface；At the beginning of described particle picture includes Multiple particles of beginning position random distribution, each particle point centered by described pie chart is as the center of circle is rotated；Currently Purifying rate can show in real time on pie chart picture.

S203, when purification completes, terminates described rotary motion and stops showing described particle picture.

In this step, when purification completes, terminate described rotary motion and stop showing described particle picture, now also Can show that cleaning completes relevant information, such as, clear up number of applications, reclaim amount of memory and pack up notice, intercept advertisement Deng.

With reference to shown in Fig. 8, Fig. 8 is the interface schematic diagram of a cleaning of tool product on mobile terminal, a purification work Tool product (as purified great master), main interface uses the implementation of animation, by the function vivid ground exhibition of cleaning of tool product Reveal to come, extremely dazzle feeling of freshness to user's one, improve Consumer's Experience simultaneously, also allow user more relevantly perceive cleaning of tool band The effect come.

In conjunction with the product attribute of cleaning of tool product, it is employed herein the particle animation ways of presentation of more jointing product, i.e. A number of particle is rotated round disk, and the motion of this particle is continual, and user's perception can be allowed to be somebody's turn to do Cleaning of tool is one is continuously the instrument that mobile terminal purifies.And each outside disk occur particle, pass through radius of turn Gradual change rotates to disc centre can start gradual change disappearance, as applying after occurring of each backstage power consumption, all can be continued As the cleaning of tool cleaning purified, in rotary course, the radius of particle is also little by being gradient to greatly.

Concrete application example can be such that

1. particle animation is combined with purifying rate:

With reference to shown in Fig. 9, Fig. 9 is that particle animation is combined schematic diagram with purifying rate, and the particle animation of cleaning of tool is The particle of disk perimeter can carry out continual moving along fixing track, and in this motor process, terminal is entered by backstage The calculating of row degree of purity, is presented to user together with particle animation in real time, when reaching the threshold values needing cleaning, permissible on interface Display " deep purifying " button, can allow user manually carry out purification run.

2. the change of particle animation during deep purifying:

With reference to shown in Figure 10, Figure 10 is the change schematic diagram of particle animation during deep purifying, shows on main interface " deep purifying " button, after user has put " deep purifying " button, hind computation needs the number of applications of cleaning.At this During, control particle and ramp up motion, and arrive a maximum, allow user's perception cleaning of tool terminal be carried out Purify.

It addition, after calculating the application number needing to purify, it is also possible on main interface, show the number of cleaning application, after Platform has often cleared up an application, can subtract one accordingly, until reducing to 0 by the application number that interface display residue purifies.

3. the situation of change of rear particle has been purified:

With reference to shown in Figure 11, Figure 11 is the situation of change schematic diagram having purified rear particle, after purification, and the motion speed of particle Degree is gradually kept to normal speed from maximum, main interface display has purified after purifying rate value, as purifying rate is higher than one Threshold values, illustrates that terminal purifying is respond well, and now " deep purifying " button disappears, and when user exits main interface, is equivalent to once Purification process completes, and terminates described rotary motion and stops showing described particle picture, restarts when purifying next time.

With reference to shown in Figure 12, Figure 12 is the purification process display systems structural representation of the optimization tool of an embodiment, bag Include:

Track MBM 201, for building the locus model of particle rotary motion on the main interface of optimization tool；Institute State locus model include described particle track and with the corresponding relation of time；

Particle rotary module 202, for, after purifying unlatching, showing particle picture, according to described track on main interface Model-driven particle is in the rotary motion of the enterprising line period in main interface；

Terminating rotation module 203, for when purification completes, terminates described rotary motion and stops showing described particle figure Picture.

In one embodiment, described particle rotary module 202, it is additionally operable to, after purifying unlatching, calculate and need cleaning Background application quantity, determines a certain proportion of number of particles according to described quantity, and shows on main interface；Cleaned Cheng Zhong, after application is cleaned, reduces number of particles by corresponding proportion.

In one embodiment, described particle rotary module 202, it is additionally operable to after purifying unlatching, calculates residue in real time clear The background application quantity of reason and current purifying rate, and show on described main interface.

In one embodiment, described locus model includes: in the coordinate system at main interface, by the three of longitudinal and transverse coordinate Angle function equation describe described particle track and with the corresponding relation of time；

Described trigonometric function equation is as follows:

$\left\{\begin{array}{c}x=sin(t*A)*cos(t+B)*R+M\\ y=sin(t*A)*sin(t+B)*R+N\end{array}\right.$

In formula, x represents the abscissa of particle, and y represents the vertical coordinate of particle；A, B, R, M, N are constant value, and R is particle Radius of turn, M, N represent the abscissa of particle rotary middle point, vertical coordinate respectively, the interval of B be [0,360 °).

In one embodiment, in purification process, the radius of turn of described particle from initial position gradual change to described Heart point, transparency is by 0 gradual change to 100%；The gradual change from large to small of described particle radii.

In one embodiment, described particle rotary module 202, it is additionally operable to, before purifying unlatching, main interface show Pie chart picture；Described particle picture includes multiple particles of initial position random distribution, and each particle is with described pie chart picture circle Centered by the heart, point is rotated.

The purification process display systems of the optimization tool of the present invention and the purification process displaying side of the optimization tool of the present invention Method one_to_one corresponding, above-mentioned optimization tool purification process methods of exhibiting embodiment illustrate technical characteristic and beneficial effect All be applicable to the embodiment of the purification process display systems of optimization tool, hereby give notice that.

One of ordinary skill in the art will appreciate that all or part of flow process realizing in above-described embodiment method, be permissible Instructing relevant hardware by computer program to complete, described program can be stored in a computer read/write memory medium In, this program is upon execution, it may include such as the flow process of the embodiment of above-mentioned each method.Wherein, described storage medium can be magnetic Dish, CD, read-only store-memory body (Read-Only Memory, ROM) or random store-memory body (Random Access Memory, RAM) etc..

Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, not to above-mentioned reality The all possible combination of each technical characteristic executed in example is all described, but, as long as the combination of these technical characteristics is not deposited In contradiction, all it is considered to be the scope that this specification is recorded.

Embodiment described above only have expressed the several embodiments of the present invention, and it describes more concrete and detailed, but also Can not therefore be construed as limiting the scope of the patent.It should be pointed out that, come for those of ordinary skill in the art Saying, without departing from the inventive concept of the premise, it is also possible to make some deformation and improvement, these broadly fall into the protection of the present invention Scope.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (26)

1. the implementation method of a particle animation, it is characterised in that comprise the steps:

On interface build particle trajectory model, wherein, described particle trajectory model include described particle track and and time Between corresponding relation；

After particle setting in motion, obtain corresponding refresh time when every frame interface image refreshes, according to described refresh time and Described particle trajectory model calculates the flush bit of particle；

Refresh described interface, and by the image update of described particle to described flush bit.

The implementation method of particle animation the most according to claim 1, it is characterised in that described structure particle rail on interface The step of mark model includes:

Described interface builds coordinate system；

Trigonometric function equation by longitudinal and transverse coordinate describes the functional image of described particle respectively；

Within a cycle of described functional image, intercept the image path in an interval, obtain particle trajectory model.

The implementation method of particle animation the most according to claim 2, it is characterised in that described trigonometric function equation is as follows:

$\left\{\begin{array}{c}x=sin(t*A)*cos(t+B)*R+M\\ y=sin(t*A)*sin(t+B)*R+N\end{array}\right.$

In formula, x represents the abscissa of particle, and y represents the vertical coordinate of particle；A, B, R, M, N are constant value, and R is the motion of particle Radius, M, N represent the displacement central point abscissa of particle, vertical coordinate respectively, the interval of B be [0,360 °).

4. according to the implementation method of the particle animation described in any one of claims 1 to 3, it is characterised in that also include:

Particle in every frame interface image is added attribute and sets property, by the image update of described particle to described brush During new position, particle is performed refresh process corresponding with described property value.

The implementation method of particle animation the most according to claim 4, it is characterised in that described attribute is transparency property, Described property value is transparence value；

When by the image update of described particle to described flush bit, by particle in next frame interface image with corresponding transparent Angle value shows.

The implementation method of particle animation the most according to claim 4, it is characterised in that described attribute is acceleration attribute, Described property value is that speed increases multiplying power；

When by the image update of described particle to described flush bit, in former frame interface image, the movement rate of particle is taken advantage of After increasing multiplying power with described speed, obtain the movement rate of particle in next frame interface image；Wherein, the movement rate of particle is Two frame track rates of change.

The implementation method of particle animation the most according to claim 4, it is characterised in that described attribute is radius attribute, institute Stating property value is radius value；

When by the image update of described particle to described flush bit, particle radii in next frame interface image are transformed to institute State radius value.

8. the purification process methods of exhibiting of an optimization tool, it is characterised in that comprise the steps:

The main interface of optimization tool builds the locus model of particle rotary motion；Described locus model includes described particle Track and the corresponding relation with the time thereof；

After purifying unlatching, main interface shows particle picture, drive particle enterprising at main interface according to described locus model The rotary motion of line period；

When purification completes, terminate described rotary motion and stop showing described particle picture.

The purification process methods of exhibiting of optimization tool the most according to claim 8, it is characterised in that after purifying unlatching, Calculate the background application quantity needing cleaning, determine a certain proportion of number of particles according to described quantity, and enterprising at main interface Row display；

In purification process, after application is cleaned, reduce number of particles by corresponding proportion.

The purification process methods of exhibiting of optimization tool the most according to claim 8, it is characterised in that also include: purifying After unlatching, calculate the background application quantity of residue cleaning and current purifying rate in real time, and show on described main interface.

11. according to Claim 8 to the implementation method of the particle animation described in 10 any one, it is characterised in that described track mould Type includes: in the coordinate system at main interface, by the trigonometric function equation of longitudinal and transverse coordinate describe described particle track and with The corresponding relation of time；

Described trigonometric function equation is as follows:

$\left\{\begin{array}{c}x=sin(t*A)*cos(t+B)*R+M\\ y=sin(t*A)*sin(t+B)*R+N\end{array}\right.$

In formula, x represents the abscissa of particle, and y represents the vertical coordinate of particle；A, B, R, M, N are constant value, and R is the rotation of particle Radius, M, N represent the abscissa of particle rotary middle point, vertical coordinate respectively, the interval of B be [0,360 °).

The purification process methods of exhibiting of 12. optimization tools according to claim 11, it is characterised in that at purification process In, the radius of turn of described particle is from initial position gradual change to described central point, and transparency is by 0 gradual change to 100%；Described particle Radius gradual change from large to small.

The purification process methods of exhibiting of 13. optimization tools according to claim 11, it is characterised in that also include: only Melt before opening, main interface shows pie chart picture；

Described particle picture includes multiple particles of initial position random distribution, during each particle with described pie chart as the center of circle is Heart point is rotated.

14. 1 kinds of particle animations realize system, it is characterised in that including:

MBM, for building particle trajectory model on interface, wherein, described particle trajectory model includes described particle Track and the corresponding relation with the time thereof；

Computing module, for after particle setting in motion, obtains refresh time corresponding when every frame interface image refreshes, according to institute State refresh time and the flush bit of described particle trajectory model calculating particle；

Refresh module, is used for refreshing described interface, and by the image update of described particle to described flush bit.

15. particle animations according to claim 14 realize system, it is characterised in that described MBM, further For building coordinate system on described interface, the trigonometric function equation by longitudinal and transverse coordinate describes the function of described particle respectively Image；Within a cycle of described functional image, intercept the image path in an interval, obtain particle trajectory model.

16. particle animations according to claim 14 realize system, it is characterised in that described trigonometric function equation is such as Under:

$\left\{\begin{array}{c}x=sin(t*A)*cos(t+B)*R+M\\ y=sin(t*A)*sin(t+B)*R+N\end{array}\right.$

In formula, x represents the abscissa of particle, and y represents the vertical coordinate of particle；A, B, R, M, N are constant value, and R is the motion of particle Radius, M, N represent the displacement central point abscissa of particle, vertical coordinate respectively, the interval of B be [0,360 °).

17. realize system according to the particle animation described in any one of claim 12 to 16, it is characterised in that described refreshing mould Block, is additionally operable to the particle in every frame interface image is added attribute and sets property, by the image update of described particle extremely During described flush bit, particle is performed refresh process corresponding with described property value.

18. particle animations according to claim 17 realize system, it is characterised in that described attribute be transparency belong to Property, described property value is transparence value；

Described refresh module, for when by the image update of described particle to described flush bit, by next frame interface image Middle particle shows with corresponding transparence value.

19. particle animations according to claim 17 realize system, it is characterised in that described attribute be acceleration belong to Property, described property value is that speed increases multiplying power；

Described refresh module, for when by the image update of described particle to described flush bit, at former frame interface image After the movement rate of middle particle is multiplied by described speed increase multiplying power, obtain the movement rate of particle in next frame interface image；Its In, the movement rate of particle is two frame track rates of change.

20. particle animations according to claim 17 realize system, it is characterised in that described attribute is radius attribute, Described property value is radius value；

Described refresh module, for when by the image update of described particle to described flush bit, by next frame interface image Middle particle radii are transformed to described radius value.

The purification process display systems of 21. 1 kinds of optimization tools, it is characterised in that including:

Track MBM, for building the locus model of particle rotary motion on the main interface of optimization tool；Described track Model include described particle track and with the corresponding relation of time；

Particle rotary module, for, after purifying unlatching, showing particle picture, drive according to described locus model on main interface Particle is in the rotary motion of the enterprising line period in main interface；

Terminating rotation module, for when purification completes, terminates described rotary motion and stops showing described particle picture.

The purification process display systems of 22. optimization tools according to claim 21, it is characterised in that described particle rotates Module, is additionally operable to, after purifying unlatching, calculate the background application quantity needing cleaning, determine a certain proportion of according to described quantity Number of particles, and show on main interface；In purification process, after application is cleaned, reduce particle by corresponding proportion Quantity.

The purification process display systems of 23. optimization tools according to claim 21, it is characterised in that described particle rotates Module, is additionally operable to after purifying unlatching, calculates the background application quantity of residue cleaning and current purifying rate in real time, and shows On described main interface.

24. realize system according to the particle animation described in any one of claim 21 to 23, it is characterised in that described track mould Type includes: in the coordinate system at main interface, by the trigonometric function equation of longitudinal and transverse coordinate describe described particle track and with The corresponding relation of time；

Described trigonometric function equation is as follows:

$\left\{\begin{array}{c}x=sin(t*A)*cos(t+B)*R+M\\ y=sin(t*A)*sin(t+B)*R+N\end{array}\right.$

In formula, x represents the abscissa of particle, and y represents the vertical coordinate of particle；A, B, R, M, N are constant value, and R is the rotation of particle Radius, M, N represent the abscissa of particle rotary middle point, vertical coordinate respectively, the interval of B be [0,360 °).

The purification process display systems of 25. optimization tools according to claim 24, it is characterised in that at purification process In, the radius of turn of described particle is from initial position gradual change to described central point, and transparency is by 0 gradual change to 100%；Described particle Radius gradual change from large to small.

The purification process display systems of 26. optimization tools according to claim 24, it is characterised in that described particle rotates Module, is additionally operable to, before purifying unlatching, show pie chart picture on main interface；Described particle picture includes that initial position divides at random Multiple particles of cloth, each particle point centered by described pie chart is as the center of circle is rotated.