CN104571905A - Information processing method and electronic equipment - Google Patents

Abstract

The invention discloses an information processing method and electronic equipment. The electronic equipment comprises a touch control display unit, wherein a first window is displayed at the touch control display unit, the first window comprises a first display region and a second function region, the second function region comprises at least one virtual function press key, and the first window is smaller than a display region of the touch control display unit; the first operation for aiming at the virtual function press key of the second function region is resolved, and a first resolving result is obtained; first parameters are determined according to the first resolving result; the first window is converted by utilizing the first parameters, and a second window is determined for replacing the first window, so that the application is displayed in the second window. Through the information processing method and the electronic equipment, a non-full-screen window can be fast and conveniently subjected to operations such as moving, zooming and closing, the operation efficiency is high, and the user experience is improved.

Description

Information processing method and electronic equipment

Technical field

The present invention relates to the information processing technology, particularly relate to a kind of information processing method and electronic equipment.

Background technology

Early stage electronic equipment screen size is all smaller, the resolution of screen is also lower, by corresponding operating system as Android (Android) operating system shows with full screen window for being responsible for application; Consider following scene:

When electronic equipment screen size increases, if supported for application provides non-full screen window to show, namely the whole application in electronic equipment are allowed with non-full screen window simultaneously when the display unit display of electronic equipment, how efficiently and easily the non-full screen window of opening moved, close, the bookkeeping such as convergent-divergent, to save the running time, promote Consumer's Experience, correlation technique there is no effective solution.

Summary of the invention

In view of this, the fundamental purpose of the embodiment of the present invention is to provide a kind of information processing method and electronic equipment, to move the non-full screen window of opening, close efficiently and easily, the bookkeeping such as convergent-divergent, saves the running time, promotes Consumer's Experience.

For achieving the above object, the technical scheme of the embodiment of the present invention is achieved in that

The embodiment of the present invention provides a kind of information processing method, be applied to an electronic equipment, described electronic equipment comprises a touch-display unit, described touch-display unit shows and applies M application identities and first window one to one with M, described first window comprises the first viewing area and the second functional area, and M is positive integer; Described first viewing area is used for showing for described application, and described second functional area comprises at least one virtual functional key, and described first window is less than the viewing area of described touch-display unit; Described method comprises:

Obtain the first operation of the virtual functional key for described second functional area;

Resolve described first operation, obtain the first analysis result, described first analysis result characterizes the information of described first window being carried out to adjustment operation;

According to described first analysis result, determine the first parameter;

Utilize described first parameter to convert described first window, determine Second Window, to substitute described first window, be applied in described in making in described Second Window and show.

The embodiment of the present invention provides a kind of electronic equipment, described electronic equipment comprises a touch-display unit, described touch-display unit is used for display and applies M application identities and first window one to one with M, described first window comprises the first viewing area and the second functional area, and M is positive integer; Described first viewing area is used for showing for described application, and described second functional area comprises at least one virtual functional key, and described first window is less than the viewing area of described touch-display unit; Described electronic equipment also comprises:

Acquiring unit, for obtaining the first operation of the virtual functional key for described second functional area;

Resolution unit, for resolving described first operation, obtain the first analysis result, described first analysis result characterizes the information of described first window being carried out to adjustment operation;

First determining unit, for according to described first analysis result, determines the first parameter;

Second determining unit, for utilizing described first parameter to convert described first window, determines Second Window, to substitute described first window, is applied in described Second Window and shows described in making.

In the embodiment of the present invention, utilize the first parameter to convert first window, achieve correspondence and show in order to the second functional area and non-full screen window; Further, receive bookkeeping to described second functional area by virtual functional key, efficiently and easily the second functional area moved, close, the bookkeeping such as convergent-divergent, to save the running time, promote Consumer's Experience.

Accompanying drawing explanation

Fig. 1 a is the realization flow schematic diagram one of information processing method in the embodiment of the present invention;

Fig. 1 b is the schematic diagram that in the embodiment of the present invention, application 1 and the Second Window of application 2 exist overlapping region;

Fig. 2 a is the realization flow schematic diagram two of information processing method in the embodiment of the present invention;

Fig. 2 b is the first viewing area of first window in the embodiment of the present invention and the schematic diagram one of the second functional area;

Fig. 3 a is the realization flow schematic diagram three of information processing method in the embodiment of the present invention;

Fig. 3 b is the first viewing area of first window in the embodiment of the present invention and the schematic diagram two of the second functional area;

Fig. 4 a is the realization flow schematic diagram four of information processing method in the embodiment of the present invention;

Fig. 4 b is the first viewing area of first window in the embodiment of the present invention and the schematic diagram three of the second functional area;

Fig. 5 a is the realization flow schematic diagram five of information processing method in the embodiment of the present invention;

Fig. 5 b is the first viewing area of first window in the embodiment of the present invention and the schematic diagram four of the second functional area;

Fig. 6 is the realization flow schematic diagram six of information processing method in the embodiment of the present invention;

Fig. 7 is the composition structural representation one of electronic equipment in the embodiment of the present invention;

Fig. 8 is the composition structural representation two of electronic equipment in the embodiment of the present invention.

Embodiment

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.

Embodiment one

The embodiment of the present invention records a kind of information processing method, be applied to an electronic equipment, described electronic equipment comprises a touch-display unit, described touch-display unit shows and applies M application identities and first window one to one with M, described first window comprises the first viewing area and the second functional area, and M is positive integer; Described first viewing area is used for showing for described application, and described second functional area comprises at least one virtual functional key, and described first window is less than the viewing area of described touch-display unit; Fig. 1 a is the realization flow schematic diagram one of information processing method in the embodiment of the present invention, as shown in Figure 1a, comprises the following steps:

Step 101, obtains the first operation of the virtual functional key for described second functional area.

Such as, described second functional area comprises and operates corresponding virtual functional key with movement, convergent-divergent, closedown etc.

Described first window is less than the viewing area of described touch-display unit, achieves described application and shows in described touch-display unit with non-full screen window, follow-uply the realization shown non-full screen window is described in detail.

Step 102, resolve described first operation, obtain the first analysis result, described first analysis result characterizes the information of described first window being carried out to adjustment operation.

Described first analysis result characterizes convergent-divergent is carried out in described first operation amplitude and direction to described first window, and/or the Distance geometry direction to described first window movement; Or characterize described first and be operating as the operation of closing described first window.

Step 103, according to described first analysis result, determines the first parameter.

The form that described first parameter adopts comprises: parameter value, matrix, parameter group and parameter sets; When described first parameter adopts the form of matrix, for the first parameter identification, first window Scaling 1/2 is transformed to Second Window, the first corresponding matrix is $\left(\begin{array}{ccc}1/2& 0& 0\\ 0& 1/2& 0\\ 0& 0& 1/2\end{array}\right),$ Three-dimensional coordinate (the x of pixel in the frame buffer data that Second Window is corresponding _t, y _t, z _t) as the formula (1):

$(x_t,y_t,z_t)=\left(\begin{array}{ccc}1/2& 0& 0\\ 0& 1/2& 0\\ 0& 0& 1/2\end{array}\right)\×\left(\begin{array}{c}{x}_o\\ y_o\\ z_o\end{array}\right)---\left(1\right)$

So that the first window of application 1 and application 2 is transformed to Second Window, wherein, (x _o, y _o, z _o) be application 1 and the two-dimensional coordinate (x of the mark pixel in the graphics cache data of the first window of application 2 _o, y _o) three-dimensional coordinate after expansion, described graphics cache data comprise the two-dimensional coordinate information of pixel and the RGB (RGB of pixel, Red Green Blue) three look information, consider the situation that may there is overlapping region between application 1 and the Second Window applying 2, as shown in Figure 1 b, there is overlapping region in Second Window 1 and Second Window 2; Correspondingly, in the present embodiment, by the two-dimensional coordinate (x of application 1 with the mark pixel in the graphics cache data of the first window of application 2 _o, y _o) be extended for three-dimensional coordinate (x _o, y _o, z _o), wherein, different Second Windows has different third dimension coordinate z _othus, the Second Window of application 1 and application 2 can be distinguished with different third dimension coordinates, to determine the covering relation of the overlapping region of the Second Window viewing area of application 1 and application 2, such as, when there is overlapping region in the Second Window 1 of application 1 and the Second Window 2 of application 2, if the third dimension coordinate of the relative Second Window 1 of the third dimension coordinate of Second Window 2 is away from true origin, the part viewing area of mark Second Window 1 is that Second Window 2 covers, then the overlapping region of Second Window 1 and Second Window 2 is used for showing for application 2.

With the first parameter identification by first window Scaling 1/2 to be transformed to Second Window, and Second Window is carried out horizontal Δ x, the displacement of longitudinal Δ y is example, and corresponding first matrix is $\left(\begin{array}{ccc}1/2& 0& \mathrm{\Δx}\\ 0& 1/2& \mathrm{\Δy}\\ 0& 0& 1/2\end{array}\right),$ Three-dimensional coordinate (the x of pixel in the frame buffer data that Second Window is corresponding _t, y _t, z _t) as the formula (2),

$(x_t,y_t,z_t)=\left(\begin{array}{ccc}1/2& 0& \mathrm{\Δx}\\ 0& 1/2& \mathrm{\Δy}\\ 0& 0& 1/2\end{array}\right)\×\left(\begin{array}{c}{x}_o\\ y_o\\ z_o\end{array}\right)---\left(2\right)$

With the first parameter identification by first window Scaling 1/2 to be converted to Second Window, and Second Window to be carried out dextrorotation gyration θ be example, and corresponding first matrix is $\left(\begin{array}{ccc}\cos \mathrm{\θ}/2& \sin \mathrm{\θ}/2& 0\\ -\sin \mathrm{\θ}/2& \cos \mathrm{\θ}/2& 0\\ 0& 0& 1/2\end{array}\right);$ Three-dimensional coordinate (the x of each pixel in the frame buffer data that Second Window is corresponding _t, y _t, z _t) as the formula (3),

$(x_t,y_t,z_t)=\left(\begin{array}{ccc}\cos \mathrm{\θ}/2& \sin \mathrm{\θ}/2& 0\\ -\sin \mathrm{\θ}/2& \cos \mathrm{\θ}/2& 0\\ 0& 0& 1/2\end{array}\right)\×\begin{array}{}\end{array}\left(\begin{array}{c}{x}_o\\ y_o\\ z_o\end{array}\right)---\left(3\right)$

Step 104, utilizes described first parameter to convert described first window, determines Second Window, to substitute described first window, is applied in described Second Window and shows described in making.

Step 104 one preferred embodiment in, read the graphics cache data of described application;

Utilize described first parameter, read graphics cache data are converted to the graphics cache data of corresponding Second Window, and the graphics cache data of described Second Window are merged into the frame buffer data of corresponding described touch-display unit;

Utilize described frame buffer data to show the Second Window of described application in described touch-display unit, described Second Window, for replacing described first window, shows to be applied in described in making in corresponding Second Window.

It should be noted that, when application shows with first window first, the determination mode of described first window is identical with the determination mode of above-mentioned Second Window, repeats no more here.

In the present embodiment, when application shows with first window and non-full screen window, the virtual functional key in the second functional area is utilized to receive the bookkeeping to first window of user, and determine the first parameter according to the first analysis result parsed, thus can move first window, the conversion such as convergent-divergent, realize the management to non-full screen window efficiently and easily, swift and convenient to operate, improve Consumer's Experience.

Embodiment two

The embodiment of the present invention records a kind of information processing method, be applied to an electronic equipment, described electronic equipment comprises a touch-display unit, described touch-display unit shows and applies M application identities and first window one to one with M, described first window comprises the first viewing area and the second functional area, and M is positive integer; Described first viewing area is used for showing for described application, and described second functional area comprises at least one virtual functional key, and described first window is less than the viewing area of described touch-display unit; Fig. 2 a is the realization flow schematic diagram two of information processing method in the embodiment of the present invention, as shown in Figure 2 a, comprises the following steps:

Step 201, obtains the first operation of the virtual functional key for described second functional area.

Described first window is less than the viewing area of described touch-display unit, achieves described application and shows in described touch-display unit with non-full screen window, follow-uply the realization shown non-full screen window is described in detail.

Step 202, resolve described first operation, obtain the first analysis result, described first analysis result characterizes amplitude and the direction of described first window being carried out to zoom operations.

Described first analysis result is with described first window to be carried out to zoom operations corresponding, the described virtual functional key corresponding with convergent-divergent as shown in Figure 2 b, by carrying out drag operation to the described virtual functional key corresponding with convergent-divergent, the convergent-divergent to first window can be realized, correspondingly, by resolving the first operation of corresponding described convergent-divergent virtual functional key, obtain range parameter and the direction parameter information of convergent-divergent.

Step 203, according to described first analysis result, determines the first parameter.

The form that described first parameter adopts comprises: parameter value, matrix, parameter group and parameter sets; When described first parameter adopts the form of matrix, so that first window Scaling 1/2 is transformed to Second Window, the first corresponding matrix is $\left(\begin{array}{ccc}1/2& 0& 0\\ 0& 1/2& 0\\ 0& 0& 1/2\end{array}\right),$ Three-dimensional coordinate (the x of pixel in the frame buffer data that Second Window is corresponding _t, y _t, z _t) as the formula (4):

$(x_t,y_t,z_t)=\left(\begin{array}{ccc}1/2& 0& 0\\ 0& 1/2& 0\\ 0& 0& 1/2\end{array}\right)\×\left(\begin{array}{c}{x}_o\\ y_o\\ z_o\end{array}\right)---\left(4\right)$

So that the first window of application 1 and application 2 is transformed to Second Window, carry out being shown as example with non-full screen window by application 1 and application 2, wherein, (x _o, y _o, z _o) be application 1 and the two-dimensional coordinate (x of the mark pixel in the graphics cache data of the first window of application 2 _o, y _o) three-dimensional coordinate after expansion, described graphics cache data comprise the two-dimensional coordinate information of pixel and the RGB information of pixel, consider the situation that may there is overlapping region between application 1 and the Second Window applying 2, as shown in Figure 1 b, there is overlapping region in Second Window 1 and Second Window 2; Correspondingly, in the present embodiment, by the two-dimensional coordinate (x of application 1 with the mark pixel in the graphics cache data of the first window of application 2 _o, y _o) be extended for three-dimensional coordinate (x _o, y _o, z _o), wherein, different Second Windows has different third dimension coordinate z _othus, the Second Window of application 1 and application 2 can be distinguished with different third dimension coordinates, to determine the covering relation of the overlapping region of the Second Window viewing area of application 1 and application 2, such as, when there is overlapping region in the Second Window 1 of application 1 and the Second Window 2 of application 2, if the third dimension coordinate of the relative Second Window 1 of the third dimension coordinate of Second Window 2 is away from true origin, the part viewing area of mark Second Window 1 is that Second Window 2 covers, then the overlapping region of Second Window 1 and Second Window 2 is used for showing for application 2.

So that Second Window geometric ratio is amplified 3/2 to be transformed to new Second Window, corresponding first matrix is $\left(\begin{array}{ccc}3/2& 0& 0\\ 0& 3/2& 0\\ 0& 0& 3/2\end{array}\right),$ Three-dimensional coordinate (the x of pixel in the frame buffer data that Second Window is corresponding _t, y _t, z _t) as the formula (5),

$(x_t,y_t,z_t)=\left(\begin{array}{ccc}3/2& 0& 0\\ 0& 3/2& 0\\ 0& 0& 3/2\end{array}\right)\×\left(\begin{array}{c}{x}_o\\ y_o\\ z_o\end{array}\right)---\left(5\right)$

Step 204, utilizes described first parameter to convert described first window, determines Second Window, to substitute described first window, is applied in described Second Window and shows described in making.

Step 204 one preferred embodiment in, read the graphics cache data of described application;

Utilize described first parameter, read graphics cache data are converted to the graphics cache data of corresponding Second Window, and the graphics cache data of described Second Window are merged into the frame buffer data of corresponding described touch-display unit;

Utilize described frame buffer data to show the Second Window of described application in described touch-display unit, described Second Window, for replacing described first window, shows to be applied in described in making in corresponding Second Window.

It should be noted that, when described first window is non-full screen window, the determination mode of described first window is identical with the determination mode of above-mentioned Second Window, repeats no more here.

In the present embodiment, when application shows with first window and non-full screen window, the virtual functional key in the second functional area is utilized to receive the zoom operations to first window of user, and determine the first parameter according to the first analysis result parsed, thus scale transformation can be carried out to first window, realize efficiently and easily, to the management of non-full screen window, saving the running time, improving Consumer's Experience.

Embodiment three

The embodiment of the present invention records a kind of information processing method, be applied to an electronic equipment, described electronic equipment comprises a touch-display unit, described touch-display unit shows and applies M application identities and first window one to one with M, described first window comprises the first viewing area and the second functional area, and M is positive integer; Described first viewing area is used for showing for described application, and described second functional area comprises at least one virtual functional key, and described first window is less than the viewing area of described touch-display unit; Fig. 3 a is the realization flow schematic diagram three of information processing method in the embodiment of the present invention, as shown in Figure 3 a, comprises the following steps:

Step 301, obtains the first operation of the virtual functional key for described second functional area.

Described first window is less than the viewing area of described touch-display unit, achieves described application and shows in described touch-display unit with non-full screen window, follow-uply the realization shown non-full screen window is described in detail.

Step 302, resolve described first operation, obtain the first analysis result, described first analysis result characterizes amplitude and the direction of described first window being moved to operation.

Described first analysis result operates corresponding with moving described first window, and described and mobile corresponding virtual functional key as shown in Figure 3 b, by first operating of resolving corresponding described mobile virtual function button, obtains amplitude and the directional information of movement.

Step 303, according to described first analysis result, determines the first parameter.

The form that described first parameter adopts comprises: parameter value, matrix, parameter group and parameter sets; When described first parameter adopts the form of matrix, so that first window is carried out horizontal Δ x, the displacement of longitudinal Δ y is example, and corresponding first matrix is $\left(\begin{array}{ccc}1& 0& \mathrm{\Δx}\\ 0& 1& \mathrm{\Δy}\\ 0& 0& 1\end{array}\right),$ Three-dimensional coordinate (the x of pixel in the frame buffer data that Second Window is corresponding _t, y _t, z _t) as the formula (6),

$(x_t,y_t,z_t)=\left(\begin{array}{ccc}1& 0& \mathrm{\Δx}\\ 0& 1& \mathrm{\Δy}\\ 0& 0& 1\end{array}\right)\×\left(\begin{array}{c}{x}_o\\ y_o\\ z_o\end{array}\right)---\left(6\right)$

So that the first window of application 1 and application 2 is transformed to Second Window, wherein, (x _o, y _o, z _o) be application 1 and the two-dimensional coordinate (x of the mark pixel in the graphics cache data of the first window of application 2 _o, y _o) three-dimensional coordinate after expansion, described graphics cache data comprise the two-dimensional coordinate information of pixel and the RGB tri-look information of pixel, consider the situation that may there is overlapping region between application 1 and the Second Window applying 2, as shown in Figure 1 b, there is overlapping region in Second Window 1 and Second Window 2; Correspondingly, in the present embodiment, by the two-dimensional coordinate (x of application 1 with the mark pixel in the graphics cache data of the first window of application 2 _o, y _o) be extended for three-dimensional coordinate (x _o, y _o, z _o), wherein, different Second Windows has different third dimension coordinate z _othus, the Second Window of application 1 and application 2 can be distinguished with different third dimension coordinates, to determine the covering relation of the overlapping region of the Second Window viewing area of application 1 and application 2, such as, when there is overlapping region in the Second Window 1 of application 1 and the Second Window 2 of application 2, if the third dimension coordinate of the relative Second Window 1 of the third dimension coordinate of Second Window 2 is away from true origin, the part viewing area of mark Second Window 1 is that Second Window 2 covers, then the overlapping region of Second Window 1 and Second Window 2 is used for showing for application 2.

Step 304, utilizes described first parameter to convert described first window, determines Second Window, to substitute described first window, is applied in described Second Window and shows described in making.

Step 304 one preferred embodiment in, read the graphics cache data of described application;

Utilize described first parameter, read graphics cache data are converted to the graphics cache data of corresponding Second Window, and the graphics cache data of described Second Window are merged into the frame buffer data of corresponding described touch-display unit;

Utilize described frame buffer data to show the Second Window of described application in described touch-display unit, described Second Window, for replacing described first window, shows to be applied in described in making in corresponding Second Window.

It should be noted that, when application shows with first window first, the determination mode of described first window is identical with the determination mode of above-mentioned Second Window, repeats no more here.

In the present embodiment, when application shows with first window and non-full screen window, the virtual functional key in the second functional area is utilized to receive the mobile operation to first window of user, and determine the first parameter according to the first analysis result parsed, thus can move first window, realize the management to non-full screen window efficiently and easily, swift and convenient to operate, improve Consumer's Experience.

Embodiment four

The embodiment of the present invention records a kind of information processing method, be applied to an electronic equipment, described electronic equipment comprises a touch-display unit, described touch-display unit shows and applies M application identities and first window one to one with M, described first window comprises the first viewing area and the second functional area, and M is positive integer; Described first viewing area is used for showing for described application, and described second functional area comprises at least one virtual functional key, and described first window is less than the viewing area of described touch-display unit; Fig. 4 a is the realization flow schematic diagram four of information processing method in the embodiment of the present invention, as shown in fig. 4 a, comprises the following steps:

Step 401, obtains the first operation of the virtual functional key for described second functional area.

Described first window is less than the viewing area of described touch-display unit, achieves described application and shows in described touch-display unit with non-full screen window, follow-uply the realization shown non-full screen window is described in detail.

Step 402, resolve described first operation, obtain the first analysis result, described first analysis result characterize to described first window move operation Distance geometry direction and/or, the amplitude of zoom operations and direction.

Described first analysis result with described first window is moved, the operation of convergent-divergent is corresponding, specifically as shown in Figure 4 b, by resolving the first operation of corresponding described virtual functional key, obtain the amplitude of corresponding movement and directional information, the amplitude of convergent-divergent and directional information.

Step 403, according to described first analysis result, determines the first parameter.

The form that described first parameter adopts comprises: parameter value, matrix, parameter group and parameter sets; When described first parameter adopts the form of matrix, described first analysis result characterize to first window movement Distance geometry direction and/or, the amplitude of zoom operations and direction; Below by first window Scaling 1/2 to be transformed to the second functional area, and the second functional area is carried out horizontal Δ x, the displacement of longitudinal Δ y is example, and corresponding first matrix is $\left(\begin{array}{ccc}1/2& 0& \mathrm{\Δx}\\ 0& 1/2& \mathrm{\Δy}\\ 0& 0& 1/2\end{array}\right),$ Three-dimensional coordinate (the x of pixel in the frame buffer data that Second Window is corresponding _t, y _t, z _t) as the formula (7),

$(x_t,y_t,z_t)=\left(\begin{array}{ccc}1/2& 0& \mathrm{\Δx}\\ 0& 1/2& \mathrm{\Δy}\\ 0& 0& 1/2\end{array}\right)\×\left(\begin{array}{c}{x}_o\\ y_o\\ z_o\end{array}\right)---\left(7\right)$

So that the first window of application 1 and application 2 is transformed to Second Window, wherein, (x _o, y _o, z _o) be application 1 and the two-dimensional coordinate (x of the mark pixel in the graphics cache data of the first window of application 2 _o, y _o) three-dimensional coordinate after expansion, described graphics cache data comprise the two-dimensional coordinate information of pixel and the RGB tri-look information of pixel, consider the situation that may there is overlapping region between application 1 and the Second Window applying 2, as shown in Figure 1 b, there is overlapping region in Second Window 1 and Second Window 2; Correspondingly, in the present embodiment, by the two-dimensional coordinate (x of application 1 with the mark pixel in the graphics cache data of the first window of application 2 _o, y _o) be extended for three-dimensional coordinate (x _o, y _o, z _o), wherein, different Second Windows has different third dimension coordinate z _othus, the Second Window of application 1 and application 2 can be distinguished with different third dimension coordinates, to determine the covering relation of the overlapping region of the Second Window viewing area of application 1 and application 2, such as, when there is overlapping region in the Second Window 1 of application 1 and the Second Window 2 of application 2, if the third dimension coordinate of the relative Second Window 1 of the third dimension coordinate of Second Window 2 is away from true origin, the part viewing area of mark Second Window 1 is that Second Window 2 covers, then the overlapping region of Second Window 1 and Second Window 2 is used for showing for application 2.

Step 404, utilizes described first parameter to convert described first window, determines Second Window, to substitute described first window, is applied in described Second Window and shows described in making.

Step 404 one preferred embodiment in, read the graphics cache data of described application;

Utilize described first parameter, read graphics cache data are converted to the graphics cache data of corresponding Second Window, and the graphics cache data of described Second Window are merged into the frame buffer data of corresponding described touch-display unit;

Utilize described frame buffer data to show the Second Window of described application in described touch-display unit, described Second Window, for replacing described first window, shows to be applied in described in making in corresponding Second Window.

It should be noted that, when application shows with first window first, the determination mode of described first window is identical with the determination mode of above-mentioned Second Window, repeats no more here.

In the present embodiment, when application shows with first window and non-full screen window, the virtual functional key in the second functional area is utilized to receive the bookkeeping to first window of user, and determine the first parameter according to the first analysis result parsed, thus can move first window and/or the operation of convergent-divergent, swift and convenient to operate, improve Consumer's Experience.

Embodiment five

The embodiment of the present invention records a kind of information processing method, be applied to an electronic equipment, described electronic equipment comprises a touch-display unit, described touch-display unit shows and applies M application identities and first window one to one with M, described first window comprises the first viewing area and the second functional area, and M is positive integer; Described first viewing area is used for showing for described application, and described second functional area comprises at least one virtual functional key, and described first window is less than the viewing area of described touch-display unit; Fig. 5 a is the realization flow schematic diagram four of information processing method in the embodiment of the present invention, as shown in Figure 5 a, comprises the following steps:

Step 501, obtains the first operation of the virtual functional key for described second functional area.

Described first window is less than the viewing area of described touch-display unit, achieves described application and shows in described touch-display unit with non-full screen window, follow-uply the realization shown non-full screen window is described in detail.

Step 502, resolve described first operation, obtain the first analysis result, described first analysis result characterize to first window movement Distance geometry direction and/or, the amplitude of zoom operations and direction; Or characterize the described first window of closedown.

As shown in Figure 5 b, by resolving the first operation of corresponding described virtual functional key, obtain the Distance geometry directional information of corresponding movement, and/or, the amplitude of convergent-divergent and directional information; Or obtain the information of closing described first window.

Step 503, according to described first analysis result, determines the first parameter.

Described first analysis result characterize to first window movement Distance geometry direction and/or, the amplitude of zoom operations and direction; Or characterize the described first window of closedown, correspondingly, when obtaining in step 502 characterizing the information of closing described first window, then closing described first window, stopping process.

Below respectively to described first analysis result characterize to first window movement Distance geometry direction and, amplitude and the direction of zoom operations are described, described first analysis result characterizes first window Scaling 1/2 to be transformed to the second functional area, and the second functional area is carried out horizontal Δ x, the displacement of longitudinal Δ y is example, and corresponding first parameter is $\left(\begin{array}{ccc}1/2& 0& \mathrm{\Δx}\\ 0& 1/2& \mathrm{\Δy}\\ 0& 0& 1/2\end{array}\right),$ Three-dimensional coordinate (the x of pixel in the frame buffer data that Second Window is corresponding _t, y _t, z _t) as the formula (8),

$(x_t,y_t,z_t)=\left(\begin{array}{ccc}1/2& 0& \mathrm{\Δx}\\ 0& 1/2& \mathrm{\Δy}\\ 0& 0& 1/2\end{array}\right)\×\left(\begin{array}{c}{x}_o\\ y_o\\ z_o\end{array}\right)---\left(8\right)$

So that the first window of application 1 and application 2 is transformed to Second Window, wherein, (x _o, y _o, z _o) be application 1 and the two-dimensional coordinate (x of the mark pixel in the graphics cache data of the first window of application 2 _o, y _o) three-dimensional coordinate after expansion, described graphics cache data comprise the two-dimensional coordinate information of pixel and the RGB tri-look information of pixel, consider the situation that may there is overlapping region between application 1 and the Second Window applying 2, as shown in Figure 1 b, there is overlapping region in Second Window 1 and Second Window 2; Correspondingly, in the present embodiment, by the two-dimensional coordinate (x of application 1 with the mark pixel in the graphics cache data of the first window of application 2 _o, y _o) be extended for three-dimensional coordinate (x _o, y _o, z _o), wherein, different Second Windows has different third dimension coordinate z _othus, the Second Window of application 1 and application 2 can be distinguished with different third dimension coordinates, to determine the covering relation of the overlapping region of the Second Window viewing area of application 1 and application 2, such as, when there is overlapping region in the Second Window 1 of application 1 and the Second Window 2 of application 2, if the third dimension coordinate of the relative Second Window 1 of the third dimension coordinate of Second Window 2 is away from true origin, the part viewing area of mark Second Window 1 is that Second Window 2 covers, then the overlapping region of Second Window 1 and Second Window 2 is used for showing for application 2.

Step 504, utilizes described first parameter to convert described first window, determines Second Window, to substitute described first window, is applied in described Second Window and shows described in making.

Step 504 one preferred embodiment in, read the graphics cache data of described application;

Utilize described first parameter, read graphics cache data are converted to the graphics cache data of corresponding Second Window, and the graphics cache data of described Second Window are merged into the frame buffer data of corresponding described touch-display unit;

Utilize described frame buffer data to show the Second Window of described application in described touch-display unit, described Second Window, for replacing described first window, shows to be applied in described in making in corresponding Second Window.

It should be noted that, when application shows with first window first, the determination mode of described first window is identical with the determination mode of above-mentioned Second Window, repeats no more here.

In the present embodiment, when application shows with first window and non-full screen window, the virtual functional key in the second functional area is utilized to receive the bookkeeping to first window of user, and determine the first parameter according to the first analysis result parsed, thus can move first window and/or the operation of convergent-divergent; Or carry out the operation of closing; Swift and convenient to operate, improve Consumer's Experience.

Embodiment six

The embodiment of the present invention records a kind of information processing method, be applied to an electronic equipment, described electronic equipment comprises a touch-display unit, described touch-display unit shows and applies M application identities and first window one to one with M, described first window comprises the first viewing area and the second functional area, and M is positive integer; Described first viewing area is used for showing for described application, and described second functional area comprises at least one virtual functional key, and described first window is less than the viewing area of described touch-display unit; Fig. 6 is the realization flow schematic diagram six of information processing method in the embodiment of the present invention, as shown in Figure 6, comprises the following steps:

Step 601, obtains the first operation of the virtual functional key for described second functional area.

Step 602, resolve described first operation, obtain the first analysis result, described first analysis result characterizes described first window full screen display.

Step 603, responds described first operation, by described first window full screen display.

It should be noted that, when application shows with first window first, the determination mode of described first window is identical with the determination mode of above-mentioned Second Window, repeats no more here.

In the present embodiment, when application shows with first window and non-full screen window by electronic equipment, if receive the first operation of the full frame first window of the sign of electronic device user to the second functional area, then first window is carried out full screen display, thus, non-full frame windows exchange can be full screen window by electronic device user efficiently and easily, swift and convenient to operate, improves Consumer's Experience.

It should be noted that, the virtual functional key that virtual functional key described in the present embodiment and the sign described in embodiment five close described first window can be same button, specifically, associate corresponding for the operation of the operation of multi-form first operation implemented described virtual functional key and closedown first window, full screen display first window; Wherein, the first multi-form operation that described virtual functional key is implemented is comprised: the first operation implementing different contact; To the first operation of described virtual functional key different time length.

Thus, can realize by same virtual functional key operation first window being carried out to full screen display or closedown, the area taking touch-display unit can be saved, and facilitate the operation of electronic device user.

Here it is to be noted: the description in following electronic equipment embodiment, it is similar for describing with said method, and the beneficial effect with method describes, and does not repeat.For the ins and outs do not disclosed in electronic equipment embodiment of the present invention, please refer to the description of the inventive method embodiment.

Embodiment seven

The embodiment of the present invention records a kind of electronic equipment, as shown in Figure 7, described electronic equipment comprises touch-display unit 710, M application identities and first window is one to one applied for display and M in described touch-display unit 710, described first window comprises the first viewing area and the second functional area, and M is positive integer; Described first viewing area is used for showing for described application, and described second functional area comprises at least one virtual functional key, and described first window is less than the viewing area of described touch-display unit 610; Described electronic equipment also comprises:

Acquiring unit 720, for obtaining the first operation of the virtual functional key for described second functional area;

Resolution unit 730, for resolving described first operation, obtain the first analysis result, described first analysis result characterizes the information of described first window being carried out to adjustment operation;

First determining unit 740, for according to described first analysis result, determines the first parameter;

Second determining unit 750, for utilizing described first parameter to convert described first window, determines Second Window, to substitute described first window, is applied in described Second Window and shows described in making.

Wherein, the form that determined first parameter of described first determining unit 740 adopts comprises: parameter value, matrix, parameter group and parameter sets.

In practical application, described touch-display unit 710 can be realized by the touching display screen in described electronic equipment and related functional circuits; Described acquiring unit 720, resolution unit 730, first determining unit 740, second determining unit 750 all can by the CPU in described electronic equipment, digital signal processor (DSP, Digital Signal Processor) or field programmable gate array (FPGA, Field Programmable Gate Array) realization; Described touch-display unit 710 can be realized by the touch control display in described electronic equipment.

Embodiment eight

The embodiment of the present invention records a kind of electronic equipment, as shown in Figure 8, described electronic equipment comprises touch-display unit 810, described touch-display unit 810 applies M application identities and first window one to one for display and M, described first window comprises the first viewing area and the second functional area, and M is positive integer; Described first viewing area is used for showing for described application, and described second functional area comprises at least one virtual functional key, and described first window is less than the viewing area of described touch-display unit 810; Described electronic equipment also comprises:

Acquiring unit 820, for obtaining the first operation of the virtual functional key for described second functional area;

Resolution unit 830, for resolving described first operation, obtain the first analysis result, described first analysis result characterizes the information of described first window being carried out to adjustment operation;

First determining unit 840, for according to described first analysis result, determines the first parameter;

Second determining unit 850, for utilizing described first parameter to convert described first window, determines Second Window, to substitute described first window, is applied in described Second Window and shows described in making.

Wherein, described touch-display unit 810, also for characterizing the first virtual functional key of described first window movement in described second functional area display and/or characterize second virtual functional key of described first window being carried out to convergent-divergent.

Wherein, described first determining unit 840, also for when the operand of described first operation is described first virtual functional key, according to the Distance geometry direction of the described first window movement that described first analysis result characterizes, and/or, according to amplitude and the direction of the described first window convergent-divergent of described first analysis result sign, determine described first parameter.

Wherein, described touch-display unit 810, also for characterizing the 3rd virtual functional key of described first window being carried out to shutoff operation in described second functional area display;

Described acquiring unit 820, also for obtaining the first operation of the 3rd virtual functional key for described second functional area;

Described touch-display unit 810, also for responding described the first operation for described 3rd virtual functional key, is closed in shown described first window.

Wherein, described first determining unit 840, also for reading the graphics cache data of described application;

Utilize described first parameter, read graphics cache data are converted to the graphics cache data of corresponding Second Window, and the graphics cache data of described Second Window are merged into the frame buffer data of corresponding described touch-display unit 810;

Utilize described frame buffer data to show the Second Window of described application in described touch-display unit 810, described Second Window, for replacing described first window, shows to be applied in described in making in corresponding Second Window.

Wherein, the form that determined first parameter of described first determining unit 840 adopts comprises: parameter value, matrix, parameter group and parameter sets.

In practical application, described touch-display unit 810 can be realized by the touching display screen in described electronic equipment and related functional circuits; Described acquiring unit 820, resolution unit 830, first determining unit 840, second determining unit 850 all can be realized by CPU, DSP or the FPGA in described electronic equipment.

In several embodiment provided by the present invention, should be understood that, disclosed equipment and method, can realize by another way.Apparatus embodiments described above is only schematic, such as, the division of described unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, and as: multiple unit or assembly can be in conjunction with, maybe can be integrated into another system, or some features can be ignored, or do not perform.In addition, the coupling each other of shown or discussed each ingredient or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of equipment or unit or communication connection can be electrical, machinery or other form.

The above-mentioned unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, namely can be positioned at a place, also can be distributed in multiple network element; Part or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.

In addition, each functional unit in various embodiments of the present invention can all be integrated in a processing unit, also can be each unit individually as a unit, also can two or more unit in a unit integrated; Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form that hardware also can be adopted to add SFU software functional unit realizes.

One of ordinary skill in the art will appreciate that: all or part of step realizing said method embodiment can have been come by the hardware that programmed instruction is relevant, aforesaid program can be stored in a computer read/write memory medium, this program, when performing, performs the step comprising said method embodiment; And aforesaid storage medium comprises: movable storage device, ROM (read-only memory) (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disc or CD etc. various can be program code stored medium.

Or, if the above-mentioned integrated unit of the present invention using the form of software function module realize and as independently production marketing or use time, also can be stored in a computer read/write memory medium.Based on such understanding, the technical scheme of the embodiment of the present invention can embody with the form of software product the part that prior art contributes in essence in other words, this computer software product is stored in a storage medium, comprises some instructions and performs all or part of of method described in each embodiment of the present invention in order to make a computer equipment (can be personal computer, server or the network equipment etc.).And aforesaid storage medium comprises: movable storage device, ROM (read-only memory) (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disc or CD etc. various can be program code stored medium.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of described claim.

Claims (14)

1. an information processing method, be applied to an electronic equipment, described electronic equipment comprises a touch-display unit, described touch-display unit shows and applies M application identities and first window one to one with M, described first window comprises the first viewing area and the second functional area, and M is positive integer; Described first viewing area is used for showing for described application, and described second functional area comprises at least one virtual functional key, and described first window is less than the viewing area of described touch-display unit; Described method comprises:

Obtain the first operation of the virtual functional key for described second functional area;

Resolve described first operation, obtain the first analysis result, described first analysis result characterizes the information of described first window being carried out to adjustment operation;

According to described first analysis result, determine the first parameter;

Utilize described first parameter to convert described first window, determine Second Window, to substitute described first window, be applied in described in making in described Second Window and show.

2. method according to claim 1, is characterized in that, described second functional area comprises and characterizes the first virtual functional key of described first window movement and/or characterize second virtual functional key of described first window being carried out to convergent-divergent.

3. method according to claim 2, is characterized in that, described according to described first analysis result, determines the first parameter, comprising:

When the operand of described first operation is described first virtual functional key, according to the Distance geometry direction of the described first window movement that described first analysis result characterizes, and/or, carry out amplitude and the direction of convergent-divergent according to the described first window of described first analysis result sign, determine described first parameter;

Utilize described first parameter to convert described first window, determine Second Window.

4. method according to claim 1, is characterized in that, described second functional area also comprises the 3rd virtual functional key characterizing and described first window is carried out to shutoff operation;

Correspondingly, described method also comprises:

Obtain the first operation of the 3rd virtual functional key for described second functional area;

Described the first operation for described 3rd virtual functional key of response, is closed in the described first window of described touch-display unit display.

5. method according to claim 1, is characterized in that, described second functional area also comprises the 4th virtual functional key characterizing and described first window is carried out to full frame operation;

Correspondingly, described method also comprises:

Obtain the first operation of the 4th virtual functional key for described second functional area;

Described the first operation for described 4th virtual functional key of response, by described first window full screen display.

6. the method according to any one of claim 1 to 5, is characterized in that, describedly utilizes described first parameter to convert described first window, determines Second Window, comprising:

Read the graphics cache data of described application;

Utilize described first parameter, read graphics cache data are converted to the graphics cache data of corresponding Second Window, and the graphics cache data of described Second Window are merged into the frame buffer data of corresponding described touch-display unit;

Utilize described frame buffer data to show the Second Window of described application in described touch-display unit, described Second Window, for replacing described first window, shows to be applied in described in making in corresponding Second Window.

7. the method according to any one of claim 1 to 5, is characterized in that,

The form that described first parameter adopts comprises: parameter value, matrix, parameter group and parameter sets.

8. an electronic equipment, described electronic equipment comprises a touch-display unit, described touch-display unit is used for showing applies M application identities and first window one to one with M, and described first window comprises the first viewing area and the second functional area, and M is positive integer; Described first viewing area is used for showing for described application, and described second functional area comprises at least one virtual functional key, and described first window is less than the viewing area of described touch-display unit; Described electronic equipment also comprises:

Acquiring unit, for obtaining the first operation of the virtual functional key for described second functional area;

Resolution unit, for resolving described first operation, obtain the first analysis result, described first analysis result characterizes the information of described first window being carried out to adjustment operation;

First determining unit, for according to described first analysis result, determines the first parameter;

Second determining unit, for utilizing described first parameter to convert described first window, determines Second Window, to substitute described first window, is applied in described Second Window and shows described in making.

9. electronic equipment according to claim 8, is characterized in that,

Described touch-display unit, also for characterizing the first virtual functional key of described first window movement in described second functional area display and/or characterize second virtual functional key of described first window being carried out to convergent-divergent.

10. electronic equipment according to claim 9, is characterized in that,

Described first determining unit, also for when the operand of described first operation is described first virtual functional key, according to the Distance geometry direction of the described first window movement that described first analysis result characterizes, and/or, carry out amplitude and the direction of convergent-divergent according to the described first window of described first analysis result sign, determine described first parameter.

11. electronic equipments according to claim 8, is characterized in that,

Described touch-display unit, also for characterizing the 3rd virtual functional key of described first window being carried out to shutoff operation in described second functional area display;

Described acquiring unit, also for obtaining the first operation of the 3rd virtual functional key for described second functional area;

Described touch-display unit, also for responding described the first operation for described 3rd virtual functional key, is closed in shown described first window.

12. electronic equipments according to claim 8, is characterized in that,

Described touch-display unit, also for characterizing the 4th virtual functional key of described first window being carried out to full frame operation in described second functional area display;

Described acquiring unit, also for obtaining the first operation of the 4th virtual functional key for described second functional area;

Described touch-display unit, also for responding described the first operation for described 4th virtual functional key, by described first window full screen display.

Electronic equipment described in 13. any one of according to Claim 8 to 12, is characterized in that,

Described first determining unit, also for reading the graphics cache data of described application;

Utilize described first parameter, read graphics cache data are converted to the graphics cache data of corresponding Second Window, and the graphics cache data of described Second Window are merged into the frame buffer data of corresponding described touch-display unit;

Utilize described frame buffer data to show the Second Window of described application in described touch-display unit, described Second Window, for replacing described first window, shows to be applied in described in making in corresponding Second Window.

Electronic equipment described in 14. any one of according to Claim 8 to 12, is characterized in that,

The form that determined first parameter of described first determining unit adopts comprises: parameter value, matrix, parameter group and parameter sets.