CN104571790A - Information processing method and electronic equipment - Google Patents

Abstract

The invention discloses an information processing method, which is applicable to electronic equipment provided with a touch display unit. A first application can be installed in the electronic equipment; the electronic equipment can execute a first instruction to obtain a first conversion parameter; the first conversion parameter is used for converting a first window and determining a second window provided with a first display area to replace the first window for display of the first application in the first display area; the first window is used for realizing full screen display of the first application in the touch display unit; the second window is smaller than a display area of the touch display unit. The information processing method comprises the steps of obtaining a first operation, analyzing the first operation to generate the first instruction, and executing the first instruction to close the second window which is displayed on the touch display unit. According to the invention, a number of non-full screen windows can be closed quickly and conveniently when being opened at the same time, and therefore 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 provide non-full screen window to show support for applying, simultaneously when the display unit of electronic equipment shows, there is following problem with non-full screen window in the whole application namely in permission electronic equipment:

Open non-full screen window more time, how to close the non-full screen window of single or multiple current unlatching efficiently and easily, to save the running time, promote Consumer's Experience, correlation technique there is no effective solution.

In correlation technique, the graphics cache data read in step 201, data cached with the routine in described electronic equipment, application (such as status bar) graph of a correspondence, merge into frame buffer data, namely obtain content when carrying out full screen display with described electronic equipment; Therefore, in the present embodiment, utilize the first conversion parameter to the three-dimensional coordinate (x expanded in described graphics cache data _o, y _o, z _o) change, the full screen display window of described application and first window can be transformed to Second Window and non-full screen window, change after graphics cache data comprise the (x after conversion _o, y _o, z _o), and the RGB information of pixel.

So that first window Scaling 1/2 is transformed to Second Window, when described first conversion parameter adopts the form of matrix, the first corresponding conversion parameter 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):

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

With 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 conversion 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 (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 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 conversion parameter 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 pixel in the frame buffer data that Second Window is corresponding _t, y _t, z _t) as the formula (3),

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

In practical application, first window also non-geometric ratio can be transformed to Second Window, and the first conversion parameter that described non-geometric ratio transfer pair is answered, according to the ratio-dependent of Second Window, repeats no more here.

In practical application, when first window being transformed to first Second Window, the initial position of described Second Window in described touch-display unit can be preset, also the information of electronic device user in the region that electronic equipment touch-display unit is specified can be obtained by the form of interactive operation, and using the viewing area of described region of specifying as Second Window.

In the present embodiment, utilize the first conversion parameter to convert first window, achieve correspondence and show in order to Second Window and non-full screen window; Further, when acquisition first operates, the analysis result according to described first operation generates the first instruction, can close the described Second Window being presented in described touch-display unit efficiently and easily, save the running time, promote Consumer's Experience.

In correlation technique, the graphics cache data read in step 201, data cached with the routine in described electronic equipment, application (such as status bar) graph of a correspondence, merge into frame buffer data, namely obtain content when carrying out full screen display with described electronic equipment; Therefore, in the present embodiment, utilize the first conversion parameter to the three-dimensional coordinate (x expanded in described graphics cache data _o, y _o, z _o) change, the full screen display window of described application and first window can be transformed to Second Window and non-full screen window, change after graphics cache data comprise the (x after conversion _o, y _o, z _o), and the RGB information of pixel.

So that first window Scaling 1/2 is transformed to Second Window, when described first conversion parameter adopts the form of matrix, the first corresponding conversion parameter 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):

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

With 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 conversion 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 (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 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 conversion parameter 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 pixel in the frame buffer data that Second Window is corresponding _t, y _t, z _t) as the formula (3),

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

In practical application, first window also non-geometric ratio can be transformed to Second Window, and the first conversion parameter that described non-geometric ratio transfer pair is answered, according to the ratio-dependent of Second Window, repeats no more here.

In practical application, when first window being transformed to first Second Window, the initial position of described Second Window in described touch-display unit can be preset, also the information of electronic device user in the region that electronic equipment touch-display unit is specified can be obtained by the form of interactive operation, and using the viewing area of described region of specifying as Second Window.

In the present embodiment, utilize the first conversion parameter to convert first window, achieve correspondence and show in order to Second Window and non-full screen window; And, by presenting the second functional area at Second Window, to receive the operation to characterizing the virtual functional key of closing Second Window in described second functional area, so, the described Second Window being presented in described touch-display unit can be closed efficiently and easily, save the running time, promote Consumer's Experience.

In correlation technique, the graphics cache data read in step 201, data cached with the routine in described electronic equipment, application (such as status bar) graph of a correspondence, merge into frame buffer data, namely obtain content when carrying out full screen display with described electronic equipment; Therefore, in the present embodiment, utilize the first conversion parameter to the three-dimensional coordinate (x expanded in described graphics cache data _o, y _o, z _o) change, the full screen display window of described application and first window can be transformed to Second Window and non-full screen window, change after graphics cache data comprise the (x after conversion _o, y _o, z _o), and the RGB information of pixel.

So that first window Scaling 1/2 is transformed to Second Window, when described first conversion parameter adopts the form of matrix, the first corresponding conversion parameter 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):

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

With 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 conversion 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 (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 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 conversion parameter 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 pixel in the frame buffer data that Second Window is corresponding _t, y _t, z _t) as the formula (3),

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

In practical application, first window also non-geometric ratio can be transformed to Second Window, and the first conversion parameter that described non-geometric ratio transfer pair is answered, according to the ratio-dependent of Second Window, repeats no more here.

In practical application, when first window being transformed to first Second Window, the initial position of described Second Window in described touch-display unit can be preset, also the information of electronic device user in the region that electronic equipment touch-display unit is specified can be obtained by the form of interactive operation, and using the viewing area of described region of specifying as Second Window.

In the present embodiment, utilize the first conversion parameter to convert first window, achieve correspondence and show in order to Second Window and non-full screen window; And, electronic device user can operate to choose one or more Second Window by enforcement first, the Second Window chosen is moved to touch-display unit fringe region, to reach the effect of closing multiple Second Window simultaneously, obviously can save the time of closing Second Window, promote Consumer's Experience.

In correlation technique, the graphics cache data read in step 201, data cached with the routine in described electronic equipment, application (such as status bar) graph of a correspondence, merge into frame buffer data, namely obtain content when carrying out full screen display with described electronic equipment; Therefore, in the present embodiment, utilize the first conversion parameter to the three-dimensional coordinate (x expanded in described graphics cache data _o, y _o, z _o) change, the full screen display window of described application and first window can be transformed to Second Window and non-full screen window, change after graphics cache data comprise the (x after conversion _o, y _o, z _o), and the RGB information of pixel.

So that first window Scaling 1/2 is transformed to Second Window, when described first conversion parameter adopts the form of matrix, the first corresponding conversion parameter 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):

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

With 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 conversion 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 (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 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 conversion parameter 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 pixel in the frame buffer data that Second Window is corresponding _t, y _t, z _t) as the formula (3),

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

In practical application, first window also non-geometric ratio can be transformed to Second Window, and the first conversion parameter that described non-geometric ratio transfer pair is answered, according to the ratio-dependent of Second Window, repeats no more here.

In practical application, when first window being transformed to first Second Window, the initial position of described Second Window in described touch-display unit can be preset, also the information of electronic device user in the region that electronic equipment touch-display unit is specified can be obtained by the form of interactive operation, and using the viewing area of described region of specifying as Second Window.

In the present embodiment, utilize the first conversion parameter to convert first window, achieve correspondence and show in order to Second Window and non-full screen window; And, electronic device user can be operated by enforcement first, namely pressing operation is carried out to the virtual functional key in the second functional area, to choose at least one Second Window, so, the effect of simultaneously closing multiple Second Window can be reached, save the time of closing multiple Second Window, promote Consumer's Experience.

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 close the non-full screen window of single or multiple current unlatching efficiently and easily, 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 and have in the electronic equipment of touch-display unit, described electronic equipment can run the first application, and perform the first instruction, obtain the first conversion parameter, described first conversion parameter is utilized to convert first window, determine the Second Window with the first viewing area, to substitute described first window, show for the described first the first viewing area being applied in described Second Window, described first window is be applied in for described first the window that described touch-display unit carries out full screen display, described Second Window is less than the viewing area of described touch-display unit,

Described method comprises:

Obtain the first operation;

Resolve described first operation, generate the first instruction;

Perform described first instruction, to close the described Second Window being presented in described touch-display unit.

The embodiment of the present invention also provides a kind of electronic equipment can installing the first application, and described electronic equipment comprises touch-display unit and the first processing unit: wherein,

Described first processing unit, for performing the first instruction, obtain the first conversion parameter, described first conversion parameter is utilized to convert first window, determine the Second Window with the first viewing area, to substitute described first window, show for the described first the first viewing area being applied in described Second Window, described first window is be applied in for described first the window that described touch-display unit carries out full screen display, and described Second Window is less than the viewing area of described touch-display unit;

Described electronic equipment also comprises:

Acquiring unit, for obtaining the first operation;

Second processing unit, for resolving described first operation, generates the first instruction;

3rd processing unit, for performing described first instruction, to close the described Second Window being presented in described touch-display unit.

In the embodiment of the present invention, utilize the first conversion parameter to convert first window, achieve correspondence and show in order to Second Window and non-full screen window; Further, when acquisition first operates, the analysis result according to described first operation generates the first instruction, can close the described Second Window being presented in described touch-display unit efficiently and easily, save the running time, promote Consumer's Experience.

Accompanying drawing explanation

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

Fig. 2 a applies in the embodiment of the present invention to carry out with Second Window the schematic flow sheet that shows;

Fig. 2 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. 3 a is the realization flow schematic diagram two of information processing method in the embodiment of the present invention;

Fig. 3 b is the first viewing area of Second Window in the present embodiment and the schematic diagram of the second functional area;

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

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

Fig. 6 is the realization flow schematic diagram five 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 and have in the electronic equipment of touch-display unit, described electronic equipment can install the first application, described electronic equipment can perform the first instruction, obtain the first conversion parameter, described first conversion parameter is utilized to convert first window, determine the Second Window with the first viewing area, to substitute described first window, show for the described first the first viewing area being applied in described Second Window, described first window is be applied in for described first the window that described touch-display unit carries out full screen display, described Second Window is less than the viewing area of described touch-display unit, Fig. 1 is the realization flow schematic diagram one of information processing method in the embodiment of the present invention, as shown in Figure 1, comprises the following steps:

Step 101, obtains the first operation.

The form of described first operation comprises: the touch control operation to described touch-display unit, the voice operating to described electronic equipment or rock operation to described electronic equipment.

Step 102, resolves described first operation, generates the first instruction.

Step 103, performs described first instruction, to close the described Second Window being presented in described touch-display unit.

Wherein, describedly described first conversion parameter is utilized to convert first window, determine the Second Window of the first viewing area, described first window can be substituted, be applied in described in making in described Second Window and show, the form that described first conversion parameter adopts comprises: parameter value, matrix, parameter group and parameter sets; One of aforesaid operations preferred embodiment in,

Read the graphics cache data of described application;

Utilize described first conversion 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.

Below so that two methods is shown at Second Window, carrying out non-full screen display by described two methods is that example is described, and be applied in for single application or two or more the scene that corresponding Second Window carries out showing, following examples stand good, as shown in Figure 2 a, comprise the following steps:

Step 201, reads the graphics cache data of application 1 and application 2.

The graphics cache data being used for full screen display that self draws by application 1 and application 2 write graphics cache and are namely stored as graphics cache data, described graphics cache data comprise the two-dimensional coordinate information of pixel and RGB (RGB, Red Green Blue) the three look information of pixel.

Step 202, utilize described first conversion parameter, the graphics cache data of described for read correspondence application 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.

Consider the situation that may there is overlapping region between application 1 and the Second Window applying 2, as shown in Figure 2 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.

Embodiment two

The embodiment of the present invention records a kind of information processing method, be applied to and have in the electronic equipment of touch-display unit, described electronic equipment can install the first application, described electronic equipment can perform the first instruction, obtain the first conversion parameter, described first conversion parameter is utilized to convert first window, determine the Second Window with the first viewing area, be applied in described first viewing area with alternative described first window for described first to show, described Second Window also comprises the second functional area, described second functional area comprises the virtual functional key that mark closes described Second Window,

Described first window is be applied in for described first the window that described touch-display unit carries out full screen display, and described Second Window is less than the viewing area of described touch-display unit;

Fig. 3 a is the realization flow schematic diagram two 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.

The form of described first operation comprises: the touch control operation to described touch-display unit, the voice operating to described electronic equipment or rock operation to described electronic equipment; The form that described first conversion parameter adopts comprises: parameter value, matrix, parameter group and parameter sets.

Step 302, resolves the operand of described first operation, generates the first analysis result.

Step 303, when the operand that described first analysis result characterizes described first operation is described virtual functional key, performs step 304; Otherwise, proceed to step 305, stop process.

Fig. 3 b is the first viewing area of Second Window in the present embodiment and the schematic diagram of the second functional area, and as shown in Figure 2, described second functional area comprises the virtual functional key that mark closes described Second Window.

Step 304, performs described first instruction, to close the described Second Window being presented in described touch-display unit.

Wherein, describedly utilize described first conversion parameter to convert first window, determine the Second Window of the first viewing area, described first window can be substituted, be applied in described in making in described Second Window and show; Utilizing described first conversion parameter to convert first window, determine the Second Window of the first viewing area, to substitute described first window, be applied in described in making in described Second Window carry out showing one preferred embodiment in,

Read the graphics cache data of described application;

Utilize described first conversion 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.

Below so that two methods is shown at Second Window, carrying out non-full screen display by described two methods is that example is described, and be applied in for single application or two or more the scene that corresponding Second Window carries out showing, following examples stand good, as shown in Figure 2 a, comprise the following steps:

Step 201, reads the graphics cache data of application 1 and application 2.

The graphics cache data being used for full screen display that self draws by application 1 and application 2 write graphics cache and are namely stored as graphics cache data, described graphics cache data comprise the two-dimensional coordinate information of pixel and RGB (RGB, Red Green Blue) the three look information of pixel.

Step 202, utilize described first conversion parameter, the graphics cache data of described for read correspondence application 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.

Consider the situation that may there is overlapping region between application 1 and the Second Window applying 2, as shown in Figure 2 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.

Embodiment three

The embodiment of the present invention records a kind of information processing method, be applied to and have in the electronic equipment of touch-display unit, described electronic equipment can install the first application, described electronic equipment can perform the first instruction, obtain the first conversion parameter, described first conversion parameter is utilized to convert first window, determine the Second Window with the first viewing area, be applied in described first viewing area with alternative described first window for described first to show, described first window is be applied in for described first the window that described touch-display unit carries out full screen display, described Second Window is less than the viewing area of described touch-display unit, Fig. 4 is the realization flow schematic diagram three of information processing method in the embodiment of the present invention, as shown in Figure 4, comprises the following steps:

Step 401, obtains the first operation.

The form of described first operation comprises: the touch control operation to described touch-display unit, the voice operating to described electronic equipment or rock operation to described electronic equipment; The form that described first conversion parameter adopts comprises: parameter value, matrix, parameter group and parameter sets.

Step 402, resolves operand and the final position of described first operation, generates the second analysis result.

Step 403, the operand characterizing described first operation when described second analysis result is described Second Window, and when the final position of described first operation is positioned at described touch-display unit fringe region, performs step 404; Otherwise, perform step 406, stop process.

Wherein, described fringe region is the region being less than predetermined threshold value apart from the edge of described touch-display unit.

It should be noted that, the operand of described first operation can be one or more Second Window, that is, in the present embodiment, support that electronic device user is operated by enforcement first, to choose multiple first window and chosen multiple Second Windows are moved to touch-display unit fringe region, reach the effect of multiple Second Windows that closedown is chosen.

Step 404, generates the first instruction.

Described first instruction is for closing the instruction of Second Window described in step 402.

Step 405, performs described first instruction, to close the described Second Window being presented in described touch-display unit.

Wherein, describedly utilize described first conversion parameter to convert first window, determine the Second Window of the first viewing area, described first window can be substituted, be applied in described in making in described Second Window and show, one of aforesaid operations preferred embodiment in

Read the graphics cache data of described application;

Utilize described first conversion 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.

Below so that two methods is shown at Second Window, carrying out non-full screen display by described two methods is that example is described, and be applied in for two or more the scene that corresponding Second Window carries out showing, following examples stand good, as shown in Figure 2 a, comprise the following steps:

Step 201, reads the graphics cache data of application 1 and application 2.

The graphics cache data being used for full screen display that self draws by application 1 and application 2 write graphics cache and are namely stored as graphics cache data, described graphics cache data comprise the two-dimensional coordinate information of pixel and RGB (RGB, Red Green Blue) the three look information of pixel.

Step 202, utilize described first conversion parameter, the graphics cache data of described for read correspondence application 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.

Consider the situation that may there is overlapping region between application 1 and the Second Window applying 2, as shown in Figure 2 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.

Embodiment four

The embodiment of the present invention records a kind of information processing method, be applied to and have in the electronic equipment of touch-display unit, described electronic equipment can install the first application, described electronic equipment can perform the first instruction, obtain the first conversion parameter, described first conversion parameter is utilized to convert first window, determine the Second Window with the first viewing area, be applied in described first viewing area with alternative described first window for described first to show, described Second Window also comprises the second functional area, described second functional area comprises the virtual functional key that mark closes described Second Window,

Described first window is be applied in for described first the window that described touch-display unit carries out full screen display, and described Second Window is less than the viewing area of described touch-display unit; Fig. 5 is the realization flow schematic diagram four of information processing method in the embodiment of the present invention, as shown in Figure 5, comprises the following steps:

Step 501, obtains the first operation.

The form of described first operation comprises: the touch control operation to described touch-display unit, the voice operating to described electronic equipment or rock operation to described electronic equipment; Described first conversion parameter adopts the form of multiple parameter, or adopts the form of matrix.

Step 502, parses operand and the running time of described first operation.

Step 503, judges whether the operand of described first operation is described virtual functional key and whether exceedes predetermined threshold value to the running time of described virtual functional key, generates the second judged result.

Step 504, when the operand that described second judged result characterizes described first operation is described virtual functional key and exceedes predetermined threshold value to the running time of described virtual functional key, performs step 505; Otherwise, perform step 507, stop process.

Step 505, generates first instruction of closing Second Window described at least one.

Wherein, the application identities of the application of corresponding Second Window can be presented by the form of final election window, to receive the selection operation of electronic device user, generate the first instruction of the Second Window of closing the application identities correspondence application being in selected state; Or, generate first instruction of closing current all Second Windows.

Step 506, performs described first instruction, to close the described Second Window being presented in described touch-display unit.

Such as, when first is operating as touch control operation, electronics sets user by pinning the default virtual functional key at least described predetermined threshold value time, to make electronic equipment generate first instruction of closing Second Window described at least one, can reach the effect of closing at least one Second Window.

Wherein, describedly utilize described first conversion parameter to convert first window, determine the Second Window of the first viewing area, described first window can be substituted, be applied in described in making in described Second Window and show, one of aforesaid operations preferred embodiment in

Read the graphics cache data of described application;

Utilize described first conversion 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.

Below so that two methods is shown at Second Window, carrying out non-full screen display by described two methods is that example is described, and be applied in for two or more the scene that corresponding Second Window carries out showing, following examples stand good, as shown in Figure 2 a, comprise the following steps:

Step 201, reads the graphics cache data of application 1 and application 2.

The graphics cache data being used for full screen display that self draws by application 1 and application 2 write graphics cache and are namely stored as graphics cache data, described graphics cache data comprise the two-dimensional coordinate information of pixel and RGB (RGB, Red Green Blue) the three look information of pixel.

Step 202, utilize described first conversion parameter, the graphics cache data of described for read correspondence application 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.

Consider the situation that may there is overlapping region between application 1 and the Second Window applying 2, as shown in Figure 2 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.

Embodiment five

The embodiment of the present invention records a kind of information processing method, be applied to and have in the electronic equipment of touch-display unit, described electronic equipment can install the first application, described electronic equipment can perform the first instruction, obtain the first conversion parameter, described first conversion parameter is utilized to convert first window, determine the Second Window with the first viewing area, be applied in described first viewing area with alternative described first window for described first to show, described Second Window also comprises the second functional area, described second functional area comprises the virtual functional key that mark closes described Second Window,

Described first window is be applied in for described first the window that described touch-display unit carries out full screen display, and described Second Window is less than the viewing area of described touch-display unit; Fig. 6 is the realization flow schematic diagram five 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.

The form of described first operation comprises: the touch control operation to described touch-display unit, the voice operating to described electronic equipment or rock operation to described electronic equipment; The form that described first conversion parameter adopts comprises: parameter value, matrix, parameter group and parameter sets.

Step 602, parses the operand of described first operation, and the described first number of times operated that the operand of described first operation is received in Preset Time.

Step 603, judge that the operand of described first operation is described virtual functional key or as described first instance button, and the number of times of described virtual functional key or described first instance button described first operation received by Preset Time meets first condition, generates the 3rd judged result.

Such as, when electronic device user is desirably in double first operation described to described virtual functional key enforcement in Preset Time, close described Second Window, correspondingly, described first condition is: the number of times of described first operation is 2.

Step 604, the operand characterizing described first operation when described 3rd judged result is described virtual functional key or is described first instance button, and the number of times of described virtual functional key or described first instance button described first operation received in Preset Time is when meeting first condition, perform step 605; Otherwise, perform step 607, stop process.

Step 605, generates first instruction of closing Second Window described at least one.

Wherein, described first instruction can for closing the current instruction being in the Second Window of state of activation of described electronic equipment; Or, presented the application identities of the application of corresponding Second Window by the form of final election window, to receive the selection operation of electronic device user, generate the first instruction of the Second Window of closing the application identities correspondence application being in selected state; Or, generate first instruction of closing current all Second Windows.

Step 606, performs described first instruction, to close the described Second Window being presented in described touch-display unit.

Wherein, describedly described first conversion parameter is utilized to convert first window, determine the Second Window of the first viewing area, described first window can be substituted, be applied in when showing in described Second Window described in making, concrete embodiment is identical with described in above embodiment, repeats no more here.

In the present embodiment, utilize the first conversion parameter to convert first window, achieve correspondence and show in order to Second Window and non-full screen window; And, electronic device user can be operated by enforcement first, namely to the virtual functional key in the second functional area or the first operation (such as touch-control) physical button of electronic equipment being carried out to preset times (corresponding first condition), the effect of quick closedown Second Window can be reached, promote Consumer's Experience.

Embodiment six

Based on any embodiment in embodiment one to embodiment five, when described closedown is presented in the described Second Window of described touch-display unit, following operation can be performed one of any:

Close described Second Window and terminate the first process applied corresponding to described Second Window, namely closing the resource of the shared electronic equipment of Second Window correspondence application completely;

The viewing area of described Second Window is adjusted to the viewing area of described touch-display unit, by the application of Second Window correspondence with full screen display.

More than operation can be preset, and also can present information when acquisition first operates to electronic device user, operate accordingly with the instruction according to electronic device user.

In the present embodiment, when closedown is presented in the described Second Window of described touch-display unit, can Second Window be closed and discharge corresponding resource; Also described Second Window can be adjusted to full screen window, meet the demand of electronic device user under different scene, improve Consumer's Experience further.

Embodiment seven

Based on embodiment six, before acquisition first operates, also perform following operation:

Obtain the second operation;

Respond described second operation, the 3rd window is presented in described touch-display unit, described 3rd window comprises the application identities of the first application corresponding to described Second Window, and the station location marker of Second Window of the first application corresponding to described application identities, the corresponding described Second Window of described station location marker positional information in described touch-display unit, described station location marker supports selected operation;

Correspondingly, resolve described first operation, generate the first instruction, comprising:

Parse described first and operate the station location marker chosen;

The first instruction of the positional information corresponding to station location marker of selected state is in described in generation deletion is in.

Described Second Window corresponding to described station location marker positional information in described touch-display unit is positional information corresponding when described Second Window the last time shows in described touch-display unit; So, by implementing the operation of closing Second Window, station location marker corresponding when Second Window can be shown in described touch-display unit is removed, thus, follow-up Second Window is when described touch-display unit display, can the position display in described touch-display unit defaulted in, meet user in different scene and check the needs of Second Window, improve Consumer's Experience further.

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 eight

The embodiment of the present invention records a kind of electronic equipment can installing the first application, and Fig. 7 is the composition structural representation one of electronic equipment in the embodiment of the present invention, and as shown in Figure 7, described electronic equipment comprises touch-display unit 71 and the first processing unit 72: wherein,

Described first processing unit 72, for performing the first instruction, obtain the first conversion parameter, described first conversion parameter is utilized to convert first window, determine the Second Window with the first viewing area, be applied in described first viewing area with alternative described first window for described first to show, described first window is be applied in for described first the window that described touch-display unit 71 carries out full screen display, and described Second Window is less than the viewing area of described touch-display unit 71;

Described electronic equipment also comprises:

Acquiring unit 73, for obtaining the first operation;

Second processing unit 74, for resolving described first operation, generates the first instruction;

3rd processing unit 75, for performing described first instruction, to close the described Second Window being presented in described touch-display unit 71.

In practical application, described touch-display unit 71 can be realized by the touching display screen in described electronic equipment and related functional circuits; Described first processing unit 72, acquiring unit 73, second processing unit 74, the 3rd processing unit 75 all can by the CPU in described electronic equipment, digital signal processor (DSP, DigitalSignal Processor) or field programmable gate array (FPGA, Field Programmable Gate Array) realization.

Embodiment nine

The embodiment of the present invention records a kind of electronic equipment can installing the first application, and Fig. 8 is the composition structural representation two of electronic equipment in the embodiment of the present invention, and as shown in Figure 8, described electronic equipment comprises touch-display unit 81 and the first processing unit 82: wherein,

Described first processing unit 82, for performing the first instruction, obtain the first conversion parameter, described first conversion parameter is utilized to convert first window, determine the Second Window with the first viewing area, be applied in described first viewing area with alternative described first window for described first to show, described first window is be applied in for described first the window that described touch-display unit 81 carries out full screen display, and described Second Window is less than the viewing area of described touch-display unit 81;

Described electronic equipment also comprises:

Acquiring unit 83, for obtaining the first operation;

Second processing unit 84, for resolving described first operation, generates the first instruction;

3rd processing unit 85, for performing described first instruction, to close the described Second Window being presented in described touch-display unit 81.

Wherein, the Second Window shown by described touch-display unit 81 also comprises the second functional area, and described second functional area comprises the virtual functional key that mark closes described Second Window;

Described second processing unit 84, also for resolving the operand of described first operation, generates the first analysis result; When the operand that described first analysis result characterizes described first operation is described virtual functional key, generate the first instruction.

Wherein, described second processing unit 84, also for resolving operand and the final position of described first operation, generates the second analysis result;

The operand characterizing described first operation when described second analysis result is described Second Window, and when the final position of described first operation is positioned at described touch-display unit 81 fringe region, generates the first instruction; Wherein, described fringe region is the region being less than predetermined threshold value apart from the edge of described touch-display unit.

Wherein, the Second Window shown by described touch-display unit 81 also comprises the second functional area, and described second functional area comprises the virtual functional key that mark closes described Second Window;

Described second processing unit 84, also for parsing operand and the running time of described first operation;

Judge whether the operand of described first operation is described virtual functional key and whether exceedes predetermined threshold value to the running time of described virtual functional key, generates the second judged result;

When the operand that described second judged result characterizes described first operation is described virtual functional key and exceedes predetermined threshold value to the running time of described virtual functional key, generate first instruction of closing Second Window described at least one.

Wherein, the Second Window shown by described touch-display unit 81 also comprises the second functional area, and described second functional area comprises the virtual functional key that mark closes described Second Window;

Described second processing unit 84, also for judging whether the operand of described first operation is described virtual functional key or first instance button, and the described first number of times operated that the operand of described first operation is received in Preset Time, whether meet first condition, generate the second judged result, described first instance button is the physical button with the described Second Window pre-association of closedown in described electronic equipment;

The operand characterizing described first operation when described second judged result is described virtual functional key or is described first instance button, and the number of times of described virtual functional key or described first instance button described first operation received in Preset Time is when meeting described first condition, generate first instruction of closing Second Window described at least one.

Wherein, described 3rd processing unit 85, also for closing described Second Window and terminating the first process applied corresponding to described Second Window; Or,

The viewing area of described Second Window is adjusted to the viewing area of described touch-display unit 81.

Wherein, described acquiring unit 83, also for before acquisition first operation, obtains the second operation;

Described electronic equipment also comprises fourth processing unit, for responding described second operation, the 3rd window is presented in described touch-display unit 81, described 3rd window comprises the application identities of the first application corresponding to described Second Window, and the station location marker of Second Window of the first application corresponding to described application identities, the positional information of the corresponding described Second Window of described station location marker in described touch-display unit 81, described station location marker supports selected operation;

Described second processing unit 84, also operates for parsing described first the station location marker chosen; The first instruction of the positional information corresponding to station location marker of selected state is in described in generation deletion is in.

Wherein, the form that described first conversion parameter that described first processing unit 82 utilizes adopts comprises: parameter value, matrix, parameter group and parameter sets.

In practical application, described touch-display unit 81 can be realized by the touching display screen in described electronic equipment and related functional circuits; Described first processing unit 82, acquiring unit 83, second processing unit 84, the 3rd processing unit 85 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 (16)

1. an information processing method, be applied to and have in the electronic equipment of touch-display unit, described electronic equipment can run the first application, and perform the first instruction, obtain the first conversion parameter, described first conversion parameter is utilized to convert first window, determine the Second Window with the first viewing area, to substitute described first window, show for the described first the first viewing area being applied in described Second Window, described first window is be applied in for described first the window that described touch-display unit carries out full screen display, described Second Window is less than the viewing area of described touch-display unit,

Described method comprises:

Obtain the first operation;

Resolve described first operation, generate the first instruction;

Perform described first instruction, to close the described Second Window being presented in described touch-display unit.

2. method according to claim 1, is characterized in that, described Second Window also comprises the second functional area, and described second functional area comprises the virtual functional key that mark closes described Second Window;

Correspondingly, described first operation of described parsing, generates the first instruction, comprising:

Resolve the operand of described first operation, generate the first analysis result;

When the operand that described first analysis result characterizes described first operation is described virtual functional key, perform the operation of described generation first instruction.

3. method according to claim 1, is characterized in that, described first operation of described parsing, generates the first instruction, comprising:

Resolve operand and the final position of described first operation, generate the second analysis result;

The operand characterizing described first operation when described second analysis result is described Second Window, and when the final position of described first operation is positioned at described touch-display unit fringe region, performs the operation of described generation first instruction; Wherein, described fringe region is the region being less than predetermined threshold value apart from the edge of described touch-display unit.

4. method according to claim 1, is characterized in that, described Second Window also comprises the second functional area, and described second functional area comprises the virtual functional key that mark closes described Second Window;

Correspondingly, described first operation of described parsing, generates the first instruction, comprising:

Parse operand and the running time of described first operation;

Judge whether the operand of described first operation is described virtual functional key and whether exceedes predetermined threshold value to the running time of described virtual functional key, generates the second judged result;

When the operand that described second judged result characterizes described first operation is described virtual functional key and exceedes predetermined threshold value to the running time of described virtual functional key, generate first instruction of closing Second Window described at least one.

5. method according to claim 1, is characterized in that, described Second Window also comprises the second functional area, and described second functional area comprises the virtual functional key that mark closes described Second Window;

Correspondingly, described first operation of described parsing, generates the first instruction, comprising:

Judge whether the described first operand operated is described virtual functional key or first instance button, and the described first number of times operated that the operand of described first operation is received in Preset Time, whether meet first condition, generate the 3rd judged result, described first instance button is the physical button with the described Second Window pre-association of closedown in described electronic equipment;

The operand characterizing described first operation when described 3rd judged result is described virtual functional key or is described first instance button, and the number of times of described virtual functional key or described first instance button described first operation received in Preset Time is when meeting described first condition, generate first instruction of closing Second Window described at least one.

6. method according to claim 1, is characterized in that, described closedown is presented in the described Second Window of described touch-display unit, comprising:

Close described Second Window and terminate the first process applied corresponding to described Second Window; Or,

The viewing area of described Second Window is adjusted to the viewing area of described touch-display unit.

7. method according to claim 6, is characterized in that, before described acquisition first operates, described method also comprises:

Obtain the second operation;

Respond described second operation, the 3rd window is presented in described touch-display unit, described 3rd window comprises the application identities of the first application corresponding to described Second Window, and the station location marker of Second Window of the first application corresponding to described application identities, the positional information of the corresponding described Second Window of described station location marker in described touch-display unit, described station location marker supports selected operation;

Correspondingly, resolve described first operation, generate the first instruction, comprising:

Parse described first and operate the station location marker chosen;

The first instruction of the positional information corresponding to station location marker of selected state is in described in generation deletion is in.

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

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

9. can install an electronic equipment for the first application, described electronic equipment comprises touch-display unit and the first processing unit: wherein,

Described first processing unit, for performing the first instruction, obtain the first conversion parameter, described first conversion parameter is utilized to convert first window, determine the Second Window with the first viewing area, to substitute described first window, show for the described first the first viewing area being applied in described Second Window, described first window is be applied in for described first the window that described touch-display unit carries out full screen display, and described Second Window is less than the viewing area of described touch-display unit;

Described electronic equipment also comprises:

Acquiring unit, for obtaining the first operation;

Second processing unit, for resolving described first operation, generates the first instruction;

3rd processing unit, for performing described first instruction, to close the described Second Window being presented in described touch-display unit.

10. electronic equipment according to claim 9, is characterized in that, the Second Window shown by described touch-display unit also comprises the second functional area, and described second functional area comprises the virtual functional key that mark closes described Second Window;

Described second processing unit, also for resolving the operand of described first operation, generates the first analysis result; When the operand that described first analysis result characterizes described first operation is described virtual functional key, generate the first instruction.

11. electronic equipments according to claim 9, is characterized in that,

Described second processing unit, also for resolving operand and the final position of described first operation, generates the second analysis result;

The operand characterizing described first operation when described second analysis result is described Second Window, and when the final position of described first operation is positioned at described touch-display unit fringe region, generates the first instruction; Wherein, described fringe region is the region being less than predetermined threshold value apart from the edge of described touch-display unit.

12. electronic equipments according to claim 9, is characterized in that, the Second Window shown by described touch-display unit also comprises the second functional area, and described second functional area comprises the virtual functional key that mark closes described Second Window;

Described second processing unit, also for parsing operand and the running time of described first operation;

Judge whether the operand of described first operation is described virtual functional key and whether exceedes predetermined threshold value to the running time of described virtual functional key, generates the second judged result;

When the operand that described second judged result characterizes described first operation is described virtual functional key and exceedes predetermined threshold value to the running time of described virtual functional key, generate first instruction of closing Second Window described at least one.

13. electronic equipments according to claim 9, is characterized in that,

Second Window shown by described touch-display unit also comprises the second functional area, and described second functional area comprises the virtual functional key that mark closes described Second Window;

Described second processing unit, also for judging whether the operand of described first operation is described virtual functional key or first instance button, and the described first number of times operated that the operand of described first operation is received in Preset Time, whether meet first condition, generate the second judged result, described first instance button is the physical button with the described Second Window pre-association of closedown in described electronic equipment;

The operand characterizing described first operation when described second judged result is described virtual functional key or is described first instance button, and the number of times of described virtual functional key or described first instance button described first operation received in Preset Time is when meeting described first condition, generate first instruction of closing Second Window described at least one.

14. electronic equipments according to claim 9, is characterized in that,

Described 3rd processing unit, also for closing described Second Window and terminating the first process applied corresponding to described Second Window; Or,

The viewing area of described Second Window is adjusted to the viewing area of described touch-display unit.

15. electronic equipments according to claim 14, is characterized in that,

Described acquiring unit, also for before acquisition first operation, obtains the second operation;

Described electronic equipment also comprises fourth processing unit, for responding described second operation, the 3rd window is presented in described touch-display unit, described 3rd window comprises the application identities of the first application corresponding to described Second Window, and the station location marker of Second Window of the first application corresponding to described application identities, the positional information of the corresponding described Second Window of described station location marker in described touch-display unit, described station location marker supports selected operation;

Described second processing unit, also operates for parsing described first the station location marker chosen;

The first instruction of the positional information corresponding to station location marker of selected state is in described in generation deletion is in.

16. electronic equipments according to any one of claim 9 to 15, is characterized in that,

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