CN102368796B - Mobile phone unlocking interface switch control method - Google Patents

Abstract

The invention relates to a mobile phone unlocking interface switch control method which comprises the following steps: an unlocking interface and a screen locking interface are set as two sides of a rotation plate whose plane size is consistent with the size of a mobile phone touch screen, a mobile phone touch screen vertical central axis is taken as a rotating axis of the rotation plate, and themobile phone touch screen displays a view of the rotation plate in a direction of facing the touch screen; when locking the screen, the screen locking interface is a right side of the rotation plate,the unlocking interface is a back side of the rotation plate, and a user sliding gesture and horizontal coordinates of an initial sliding point, a present sliding point and a final sliding point are identified through the mobile phone touch screen; in a user sliding gesture process, according to a sliding direction, a horizontal coordinate xTouch of the present sliding point, and a mobile phone touch screen horizontal width mWidth, a corresponding rotation angle Phi is calculated, and an overturned rotation plate is displayed according to the angle Phi; an angle Phi corresponding to the finalsliding point larger than 90 degrees is determined, after unlocking is successful, the turned back side is displayed, otherwise, after unlocking is failed, a composite right side is finally displayed.

Description

A kind of mobile phone unlocking interface switch control method

Technical field

The present invention relates to mobile phone, be specifically related to a kind of mobile phone unlocking interface switch control method, especially can be applicable in the smart mobile phone.

Background technology

The wireless communication technology development particularly develops into present a networked society, and mobile phone has become people's life, the requisite instrument of work.At present, the mobile phone release of touch-screen is to adopt slide block and slide rail thereof, by sliding slider, triggers unlock events, and its interface switching is: locking screen interface disappears, the release interface display.Screen directly becomes the release interface from locking screen interface, does not have the continually varying dynamic process, and switch at simultaneously this interface also only is sea level changes, does not have stereoeffect.

Summary of the invention

The technical issues that need to address of the present invention are, how a kind of mobile phone unlocking interface switch control method is provided, and the release interface is switched possess continuous three-dimensional dynamic changing process.

Technical problem of the present invention solves like this: make up a kind of mobile phone unlocking interface switch control method, may further comprise the steps:

Release interface and locking screen interface are set to the two sides of the plane sizes flap consistent with handset touch panel, and described flap is take handset touch panel longitudinal central axis line as rotating shaft, and handset touch panel shows the view of facing the handset touch panel direction of described flap:

During screen locking, described locking screen interface is the front of described flap, and described release interface is the back side of described flap, again by the slide lateral coordinates of gesture and initial sliding point, current sliding point and final sliding point of handset touch panel identification user;

In described slip gesture process, according to the lateral coordinates xTouch of glide direction and described current sliding point and the angle Φ of handset touch panel transverse width mWidth calculating corresponding rotation, show the described flap that is reversed according to described angle Φ again;

Judge angle Φ corresponding to described final sliding point greater than 90 degree, the release success also finally shows by the described back side of turn-off, otherwise the release failure also finally shows by compound described front.

According to control method provided by the invention, described slip gesture is from left to right, outwards overturn in the left side of described flap, described angle Φ is (the xTouch)/mWidth*180 of Φ=(float), and lateral coordinates xTouch is take the touch-screen left margin as the origin of coordinates.

According to control method provided by the invention, described slip gesture is from right to left, outwards overturn in the right side of described flap, described angle Φ is (the mWidth-xTouch)/mWidth*180 of Φ=(float), and lateral coordinates xTouch is take the touch-screen left margin as the origin of coordinates.

According to control method provided by the invention, the angle Φ of corresponding described final sliding point was greater than 90 degree when described final sliding point and initial sliding point laid respectively at described longitudinal central axis line both sides.

According to control method provided by the invention, described release unsuccessfully comprises: gradually reduce angle Φ corresponding to described final sliding point until 0 show described flap in corresponding limiting time.

According to control method provided by the invention, described release successfully comprises: progressively increase angle Φ corresponding to described final sliding point until 180 show described flap in another corresponding limiting time.

According to control method provided by the invention, also comprise: the horizontal and vertical coordinate that switches touch-screen by gravity sensor.

According to control method provided by the invention, also comprise: judge that described initial sliding point in the invalid release zone of touch-screen, shields described user and slides gesture, release unsuccessfully.

According to control method provided by the invention, described invalid release zone is that the lateral coordinates of described initial sliding point is positioned at the horizontal zone line of handset touch panel.

According to control method provided by the invention, may further comprise the steps:

Release interface and locking screen interface are set to the two sides of the plane sizes flap consistent with handset touch panel, and described flap is take handset touch panel longitudinal central axis line as rotating shaft, and handset touch panel shows the view of facing the handset touch panel direction of described flap;

During screen locking, described locking screen interface is the front of described flap, and described release interface is the back side of described flap, again by the slide lateral coordinates of gesture and initial sliding point, current sliding point and final sliding point of handset touch panel identification user;

Judge described initial sliding point in the horizontal centre of handset touch panel invalid release zone, skip following steps release failure;

In described slip gesture process, according to the lateral coordinates xTouch of described current sliding point and the angle Φ of handset touch panel transverse width mWidth calculating corresponding rotation, show the described flap that is reversed by the gesture glide direction according to described angle Φ again; Described gesture glide direction is from left to right, outwards overturns in the left side of described flap, and described angle Φ is (the xTouch)/mWidth*180 of Φ=(float); Described gesture glide direction is from right to left, outwards overturns in the right side of described flap, and described angle Φ is (the mWidth-xTouch)/mWidth*180 of Φ=(float), and lateral coordinates xTouch is take the touch-screen left margin as the origin of coordinates;

Judge that described final sliding point and initial sliding point lay respectively at described longitudinal central axis line both sides or angle Φ corresponding to described final sliding point spends greater than 90, the release success also finally shows by the described back side of turn-off, otherwise the release failure also finally shows by compound described front.

Mobile phone unlocking interface switch control method provided by the invention, the dynamic rotary according to release interface and locking screen interface in sliding distance and the direction adjustment flap anglec of rotation formation releasing process has the following advantages than prior art:

1, continuous dynamic mapping;

2, the solid of nature impression;

3, flap entity simulation effect is true to nature.

Description of drawings

Further the present invention is described in detail below in conjunction with the drawings and specific embodiments:

Fig. 1 is specific embodiment of the invention interface rotary work principle schematic;

Fig. 2 touches release control flow schematic diagram in the specific embodiment of the invention mobile phone;

Fig. 3 is specific embodiment of the invention mobile phone interface corresponding to the release rotation schematic diagram that slides from left to right;

Fig. 4 is specific embodiment of the invention mobile phone interface corresponding to the release rotation schematic diagram that slides from right to left;

Fig. 5 is rotation unlocking subprogram schematic flow sheet among Fig. 2;

Fig. 6 is that specific embodiment of the invention image is processed example schematic diagram.

Embodiment

At first, operation principle of the present invention is described:

As shown in Figure 1, the flap upset is around axis y rotation all the time.Regional 1 and regional 2 all is release zone (the slip initial point must just respond release regional 1 or regional 2), if the slip initial point does not just respond outside 1,2.

(1) release of sliding from left to right:

The slip initial point must be in zone 1, the slip end point surpasses axis y (end point of namely sliding is on axis y right side) even if release success (at this moment flip angle Φ has surpassed 90 degree), otherwise release failure;

Flip angle Φ calculates Φ=180* (current sliding point abscissa)/screen width.

(2) release of sliding from right to left:

The slip initial point must be in zone 2, the slip end point surpasses axis y (end point of namely sliding is in axis y left side) even if release success (at this moment flip angle Φ has surpassed 90 degree), otherwise release failure;

Flip angle Φ calculates Φ=180* (screen width-current sliding point abscissa)/screen width.

The second, the release control program based on above-mentioned operation principle is described:

As shown in Figure 2, the slip rotation release control program in the touch-screen mobile phone of the specific embodiment of the invention specifically may further comprise the steps:

201) common, the demonstration locking screen interface is reset condition;

202) do you judge that the touch point is in the release zone? be, enter next step, recover locking screen interface and return step 201 otherwise shake);

203) call rotation release sub-process, step 201 is unsuccessfully returned in release), otherwise the release success;

204) finish.

The interface rotation flap that specific embodiment of the invention release is corresponding, its two sides is respectively locking screen interface and release interface, the interface handoff procedure is as this flap that promotes around middle shaft rotation, specifically shown in Fig. 3 and 4, comprise from left to right mode shown in Figure 3 and right-to-left manner shown in Figure 4, corresponding separately different direction of rotation respectively, the lateral coordinates size of the corresponding sliding point of anglec of rotation Φ size.During this flap screen locking, described locking screen interface is the front of described flap, and described release interface is the back side of described flap.After the release, described release interface is the front of described flap.When the flap release was rotated, touch-screen showed described flap in the face of the orthographic projection of touch-screen, and less than the locking screen interface that 90 ° of demonstrations are laterally dwindled, greater than the release interface that 90 ° of demonstrations are laterally dwindled, 0 ° shows locking screen interface, and 180 ° show the release interface.

Step 203 in Fig. 2) the rotation release sub-process in as shown in Figure 5, specifically may further comprise the steps:

501) try to achieve the angle Φ that needs rotate according to the distance of sliding and direction; The slip of gesture can sideslip, tiltedly sliding or the from left to right slip of (perhaps from right to left) of certain radian arranged;

502) press Φ rotation flap, corresponding locking screen interface or the release interface of drafting;

503) do you judge that the touch of sliding finishes? do not finish to return step 501), otherwise enter next step;

Whether angle Φ corresponding when 504) judge to slide finishing greater than 90 °, are to increase gradually Φ to 180 ° of release success, finish release success animation, otherwise reduce Φ to 0 °, the release failure, finish the animation of release failure.

The 3rd, the specific embodiment of the invention adopts renderscript realization in the android operating system, and its key component is described as follows:

Renderscript is a new application programming interface (api), and target is that high performance solid (3D) is played up and calculated.The purpose of renderscript provides the low level more to one of android developer, and more high performance api, target audience are that those application of wishing them have optimal performance, and are easy to realize.It provides 3 primary tool: 1, play up api based on hardware-accelerated simple 3D, and 2, the close friend's of similar calculate platform cuda calculating api, 3, be similar to the language of computer language C99.

The lifting of renderscript performance comes from the execution local code, yet, being different from existing ndk, this method is cross-platform.The renderscript development language is based on the expansion of C99, and it is compiled as the intermediate form of platform the unknown in the development process stage, and is put in the application bag, and when using operation, script is compiled as machine code, and is optimized.This has eliminated the problem that needs to specify concrete machine architecture in development process.

Use renderscript to need the mutual of java layer and c layer.This realizes by an Allocation class.All variablees of java layer can define a variable of the same type by Allocation, and this variable can directly be quoted at the c layer, does not need to have defined again.Change this variable at the java layer, can call the data function this variate-value is delivered to the c layer.And if the java layer wants to obtain the value of this variable of c layer, can by calling the read function, so just realize the mutual of java layer and c layer.If never call this two functions, two variablees of this of java layer and c layer are nonsynchronous.The c layer needs to call this information of sendToClient function passes to the java layer after knowing release success, and calls run () function among the RenderScript.RSMessage of java the inside at once and obtain this information and finish release.

Because it is efficient that the c layer compares, translation, rotation, the mapping operation of the complexity such as convergent-divergent all is to carry out at the c layer.The Java layer need to define has some attributes when some objects make drawing.Such as the ProgramFragment attribute, ProgramStore attribute, ProgramVertex attribute etc.The ProgramFragment attribute mainly is some picture formats of definition, the attributes such as transparency.The ProgramStore attribute mainly is to have defined some depth, dither, blend, the attributes such as mask.And the ProgramVertex attribute is used in the drafting 3 D effect, can not have 3D effect otherwise call some functions at the c layer, ripples, and the 3D effect of the complexity such as galaxy is all realized by the ProgramVertex attribute.Renderscript must bind these attributes when drawing.

The C layer uses some complicated functions to carry out computing to matrix, then reaches translation to rendered images by matrix operation, rotation, the 3D special efficacys such as convergent-divergent.The below is some functions that use matrix operation: matrixTranslate (rsc_Matrix*mat, float x, float y, float z) carries out the translation of 3D, matrixRotate (rsc_Matrix*mat, float rot, float x, float y, float z) carries out at any angle rotary manipulation, matrixScale (rsc_Matrix*mat, float x, float y, float z) be used for the zooming effect to the 3D picture, vpLoadModelMatrix (matrix) can apply to these above-mentioned matrixes in the mapping operation.DrawRect (float x1, float y1, float x2, float y2, the float z) rendered images that can stretch also determines the coordinate of picture drafting and the transparency of picture.This function ratio of drawQuadTexCoords complexity, it can determine the coordinate of rendered images, the wide height of stretching, and which part of drawing a pictures can also overturn and mirror image.Function prototype is as follows:

void?drawQuadTexCoords(float?x1，float?y1，float?z1，float?u1，float?v1，

float?x2，float?y2，float?z2，float?u2，float?v2，

float?x3，float?y3，float?z3，float?u3，float?v3，

float?x4，float?y4，float?z4，float?u4，float?v4)

// (x1, y1, z1) upper left corner coordinate

// (x2, y2, z2) upper right corner coordinate

// (x3, y3, z3) lower right corner coordinate

// (x4, y4, z4) lower left corner coordinate

Above 4 pairs of coordinates determined that picture has been drawn in the particular location on the screen, 4 coordinates of summit on screen namely

// (u1, v1), (u2, v2), (u3, v3), (u4, v4) these 4 pairs of values have been determined a pictures, and you need that fritter of picture, be this fritter relatively the relative coordinate on whole pictures (namely will divided by wide or the height).

As shown in Figure 6, this pictures is 1024*128 pixel (every leaf all is 128*128), all stretches one times if only think leftmost that sheet leaf of picture to initial point and wide height, can so call this function drawQuadTexCoords (0,0,0,0,0,128*2,0,0,0.125,0,128*2,128*2,0,0.125,1,0,128*2,0,0,1); 0.125=1/8 wherein is because laterally only draw 1/8th.And vertically all draw, so be 1.Turn 90 degrees if think in the above under this condition drawn picture turned over counterclockwise, can so call drawQuadTexCoords (0,0,0,0.125,0,128*2,0,0,0.125,1,128*2,128*2,0,0,1,0,128*2,0,0,0).

At last, the above only is preferred embodiment of the present invention, and all equalizations of doing according to claim scope of the present invention change and modify, and all should belong to the covering scope of claim of the present invention.

Claims (8)

1. a mobile phone unlocking interface switch control method is characterized in that, may further comprise the steps:

Release interface and locking screen interface are set to the two sides of the plane sizes flap consistent with handset touch panel, and described flap is take handset touch panel longitudinal central axis line as rotating shaft, and handset touch panel shows the view of facing the handset touch panel direction of described flap:

During screen locking, described locking screen interface is the front of described flap, and described release interface is the back side of described flap, again by the slide lateral coordinates of gesture and initial sliding point, current sliding point and final sliding point of handset touch panel identification user;

In described slip gesture process, according to the lateral coordinates xTouch of glide direction and described current sliding point and the angle Φ of handset touch panel transverse width mWidth calculating corresponding rotation, show the described flap that is reversed according to described angle Φ again;

Judge angle Φ corresponding to described final sliding point greater than 90 degree, the release success also finally shows by the described back side of turn-off, otherwise the release failure also finally shows by compound described front.

2. described control method according to claim 1 is characterized in that, the angle Φ of corresponding described final sliding point was greater than 90 degree when described final sliding point and initial sliding point laid respectively at described longitudinal central axis line both sides.

3. described control method according to claim 1 is characterized in that described release unsuccessfully comprises: gradually reduce angle Φ corresponding to described final sliding point until 0 show described flap in corresponding limiting time.

4. described control method according to claim 1 is characterized in that described release successfully comprises: progressively increase angle Φ corresponding to described final sliding point until 180 show described flap in another corresponding limiting time.

5. described control method according to claim 1 is characterized in that, also comprises: the horizontal and vertical coordinate that switches touch-screen by gravity sensor.

6. described control method according to claim 1 is characterized in that, also comprises: judge described initial sliding point in the invalid release zone of touch-screen, shield described user slide gesture, release failure.

7. described control method according to claim 6 is characterized in that described invalid release zone is that the lateral coordinates of described initial sliding point is positioned at the horizontal zone line of handset touch panel.

8. described control method according to claim 1 is characterized in that, may further comprise the steps:

Release interface and locking screen interface are set to the two sides of the plane sizes flap consistent with handset touch panel, and described flap is take handset touch panel longitudinal central axis line as rotating shaft, and handset touch panel shows the view of facing the handset touch panel direction of described flap:

During screen locking, described locking screen interface is the front of described flap, and described release interface is the back side of described flap, again by the slide lateral coordinates of gesture and initial sliding point, current sliding point and final sliding point of handset touch panel identification user;

Judge described initial sliding point in the horizontal centre of handset touch panel invalid release zone, skip following steps release failure;

In described slip gesture process, according to the lateral coordinates xTouch of described current sliding point and the angle Φ of handset touch panel transverse width mWdth calculating corresponding rotation, show the described flap that is reversed by the gesture glide direction according to described angle Φ again;

Judge that described final sliding point and initial sliding point lay respectively at described longitudinal central axis line both sides or angle Φ corresponding to described final sliding point spends greater than 90, the release success also finally shows by the described back side of turn-off, otherwise the release failure also finally shows by compound described front.

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