CN104571798A - Information processing method and electronic equipment - Google Patents

Abstract

The invention discloses an information processing method and electronic equipment, wherein the method comprises the following steps that when one application in M applications is started by a non-full-screen window, a first parameter is obtained, the first parameter is used for converting the first window of the application by the first parameter, the first window is a full-screen window, a second window of the application is determined, the display region of the second window is smaller than the full-screen window display region of the application; the display region displays a second window of the application; a first event is obtained, and the first event is used for expressing the target window closing; a target window is determined again from the rest (M-1) windows according to a reset rule. When the method and the electronic equipment are adopted, the effect of re-selecting a new target window after the target window is closed is at least achieved.

Description

A kind of information processing method and electronic equipment

Technical field

The present invention relates to communication technical field, particularly relate to a kind of information processing method and electronic equipment.

Background technology

The portable electric appts possessing various function is more and more accepted by users, has enriched Consumer's Experience, this portable electronic equipment that user uses in regular job, considers portable needs, and the screen of design is not usually very large.Such as, when portable electronic equipment is mobile phone, the screen of mobile phone is all designed to 3.5 cun usually, carries to facilitate user.

Present inventor, in the process realizing the embodiment of the present application technical scheme, at least finds to there is following technical matters in prior art:

Electronic equipment is for mobile phone, existing information processing method is, when mobile phone being opened multiple application program, operating system only allows an application program to be in foreground, an application program can only be shown in single window, namely operating system such as Android (Android) operating system of mobile phone itself only provides the function of single window, along with the rise of smart mobile phone, the trend of mobile phone screen design is increasing, so just possesses the possibility supporting windows display, here, described window refers to the window at the application program place of opening on mobile phone, does not repeat.

User may open simultaneously, use multiple application, the corresponding window of each application, thus show multiple window in viewing area, the window of the current application correspondence used is target window, in such a scenario, if user initiatively closes the current application used, or the current application used is because collapse or system resource deficiency are by system closing, then can cause the problem occurring that target window is closed, therefore, what need system intelligence reselects a new target window, in correlation technique, for this problem, there is no effective solution.

Summary of the invention

In view of this, fundamental purpose of the present invention is to provide a kind of information processing method and electronic equipment, at least achieves after target window is closed and reselects a new target window.

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

Embodiments provide a kind of information processing method, the method is applied in electronic equipment, described electronic equipment comprises a touch-display unit, described touch-display unit comprises a viewing area, a corresponding M window is applied with M in the display of described viewing area, M is positive integer, and in a described M window, at least one is non-full screen window, and described method comprises:

When starting the application in M application with non-full screen window, obtain the first parameter, the first window of described first parameter to described application is utilized to convert, described first window is full screen window, determine the Second Window of described application, the viewing area of described Second Window is less than the full screen window viewing area of described application;

The Second Window of described application is presented in described viewing area;

Obtain the first event, described first event is for characterizing closedown target window;

From a remaining M-1 window, a target window is redefined out according to a preset rules.

Preferably, described method also comprises: respond described first event, detect user and M interactive operation of applying, the window corresponding to application carrying out last interactive operation in applying described M with user is defined as described target window, closes described target window.

Preferably, the described target window of described closedown comprises: user closes described target window or described target window by system closing.

Preferably, described detection user and M interactive operation of applying, the window corresponding to application carrying out last interactive operation in applying described M with user is defined as described target window, comprising:

Detect user and M interactive operation of applying, set up window queue according to described interactive operation order, and real-time update;

To last window of described window queue be arranged in as described target window.

Preferably, describedly from a remaining M-1 window, redefine out a target window according to a preset rules, comprising:

From described window queue, remove closed described target window, the window number upgraded in described window queue is M-1;

It is a target window that last window in the described series of windows obtain renewal redefines.

Preferably, detect user and M interactive operation of applying, set up window queue according to described interactive operation order, and real-time update, comprising:

According to when user and described application interactive operation in the position, touch point that the window area applied detects, detect user and M interactive operation of applying;

When detecting that described touch point first time is positioned at the window area of current interactive operation, described current window is added described window queue;

When detecting that the position of described touch point is still in the window area of current interactive operation, do not upgrade described window queue;

Detect that the position of described touch point is when the window area of current interactive operation is outer, obtains the position of described touch point, the window at the place, position of described touch point is added described window queue, upgrade described window queue.

Preferably, described first parameter be at least following wherein one of: parameter value, matrix, parameter group, parameter sets.

The embodiment of the present invention also provides a kind of electronic equipment, described electronic equipment comprises a touch-display unit, described touch-display unit comprises a viewing area, a corresponding M window is applied with M in the display of described viewing area, M is positive integer, in a described M window, at least one is non-full screen window, and described electronic equipment also comprises:

First processing unit, during for starting the application in M application with non-full screen window, obtain the first parameter, the first window of described first parameter to described application is utilized to convert, described first window is full screen window, determine the Second Window of described application, the viewing area of described Second Window is less than the full screen window viewing area of described application;

Touch-display unit, for presenting the Second Window of described application in described viewing area;

First acquiring unit, for obtaining the first event, described first event is for characterizing closedown target window;

Window determining unit, for redefining out a target window according to a preset rules from a remaining M-1 window.

Preferably, described electronic equipment also comprises: the first response unit, for responding described first event, detect user and M interactive operation of applying, the window corresponding to application carrying out last interactive operation in applying described M with user is defined as described target window and notifies described window determining unit, closes described target window.

Preferably, described first response unit, is further used for detecting user and M interactive operation of applying, and sets up window queue according to described interactive operation order, and real-time update; To last window of described window queue be arranged in as described target window.

Preferably, described window determining unit, be further used for removing closed described target window from described window queue, the window number upgraded in described window queue is M-1; It is a target window that last window in the described series of windows obtain renewal redefines.

Preferably, described first response unit, be further used for according to when user and described application interactive operation in the position, touch point that the window area applied detects, detect user and M interactive operation of applying; When detecting that described touch point first time is positioned at the window area of current interactive operation, described current window is added described window queue; When detecting that the position of described touch point is still in the window area of current interactive operation, do not upgrade described window queue; Detect that the position of described touch point is when the window area of current interactive operation is outer, obtains the position of described touch point, the window at the place, position of described touch point is added described window queue, upgrade described window queue.

The method of the embodiment of the present invention comprises: when starting the application in M application with non-full screen window, obtain the first parameter, the first window of described first parameter to described application is utilized to convert, described first window is full screen window, determine the Second Window of described application, the viewing area of described Second Window is less than the full screen window viewing area of described application; The Second Window of described application is presented in described viewing area; Obtain the first event, described first event is for characterizing closedown target window; From a remaining M-1 window, a target window is redefined out according to a preset rules.Adopt the embodiment of the present invention, at least achieve after target window is closed and reselect a new target window.

Accompanying drawing explanation

Fig. 1 is a realization flow schematic diagram of the inventive method embodiment;

Fig. 2 is the schematic diagram of the inventive method embodiment windows display;

Fig. 3 is a realization flow schematic diagram of the inventive method embodiment;

Fig. 4 is a realization flow schematic diagram of the inventive method embodiment;

Fig. 5 is a realization flow schematic diagram of the inventive method embodiment;

Fig. 6 is a composition structural representation of electronic equipment embodiment of the present invention;

Fig. 7 is a composition structural representation of electronic equipment embodiment of the present invention.

Embodiment

Be described in further detail below in conjunction with the enforcement of accompanying drawing to technical scheme.

Embodiment of the method one:

The information processing method of the embodiment of the present invention, the method is applied in electronic equipment, described electronic equipment comprises a touch-display unit, described touch-display unit comprises a viewing area, apply a corresponding M window in the display of described viewing area with M, M is positive integer, and in a described M window, at least one is non-full screen window, as shown in Figure 1, said method comprising the steps of:

Step 101, to start one in M application with non-full screen window when applying, obtain the first parameter, the first window of described first parameter to described application is utilized to convert, described first window is full screen window, determine the Second Window of described application, the viewing area of described Second Window is less than the full screen window viewing area of described application.

Here it is pointed out that described first parameter is the conversion parameter for window transform, be at least following wherein one of:

Parameter value, matrix, parameter group, parameter sets.

When described first parameter is matrix, can be called the first transition matrix, in order to simplified characterization, the present embodiment is follow-up is called the first matrix by this first transition matrix.

Step 102, present the Second Window of described application in described viewing area.

Step 103, obtain the first event, described first event is for characterizing closedown target window.

Step 104, from a remaining M-1 window, redefine out a target window according to a preset rules.

Adopt the embodiment of the present invention, there is following beneficial effect:

Described first parameter is utilized to convert first window by step 101, object is to determine a Second Window, described first window is substituted with this Second Window, be applied in described in making in described Second Window and show, the viewing area of Second Window is less than the full screen window viewing area of described application, is non-full screen window (or being called wicket).When first parameter is matrix, obtains non-full screen window by matrix conversion, thus better support windows display.

Compared with prior art, electronic equipment for mobile phone, along with the rise of smart mobile phone, the trend of mobile phone screen design is increasing, has so just possessed the possibility supporting windows display, here, described window refers to the window at the application program place of opening on mobile phone, does not repeat.

But, prior art is when mobile phone being opened multiple application program, the current application program operated is positioned at foreground, namely on mobile phone screen, only have an application window to be positioned at foreground, and other application programs are all positioned at backstage, namely other application windows are all positioned at backstage, if need to use them, carry out switching just passable with regard to the application window needed and be currently located at foreground.That is, adopt prior art, although synchronization has multiple application program in operation, but an application window can only be had on mobile phone screen to be in state of activation, user can only see the content information of an application shown by application window, cause Consumer's Experience bad, be unfavorable for user operation, and application window AM/BAM switches also a large amount of occupying system resources frequently, and the embodiment of the present invention can adopt non-full screen window to start the first application, be presented in described viewing area to make described first application with the form of window, that is, the embodiment of the present invention can support windows display, thus support that multiple application is presented in multiple window, all be in foreground, switch without the need to AM/BAM, be beneficial to user operation, and avoid window AM/BAM frequently to switch a large amount of system resources caused taking.Here, adopt non-full screen window to start the first application also can become with wicket pattern startup first application.

Due to when supporting windows display, the embodiment of the present invention obtains the first event by step 103-104, described first event is for characterizing closedown target window, it is responded, target window can be closed, after target window is closed, system can intelligence reselect a new target window, thus application occur normal/abnormal, active/passive closedown or under the various scene such as exiting, system can be reasonable, intelligent the new target window of determination, need not user initiatively select, to improve the interactive experience of user.Reselecting a new target window, so that subsequent detection is to a key-press event, key-press event is distributed to the target window that this is new, and then, also solve at least the problem that clearly user key-press operation cannot be distributed to which window treatments.

Here, in the present invention one preferred embodiment, when the first parameter in step 101 is matrix, also comprise:

Read the graphics cache data of described application;

Utilize the first matrix, the graphics cache data of read corresponding first window 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, as by as described in two methods to carry out non-full screen display be that example is described the content that above-mentioned steps 101 also comprises.

Step 101a, reads the graphics cache data of the first window of application.

The data write graphics cache of full screen display that what self drew by described two methods be used for, described graphics cache data comprise two coordinate informations of each pixel and RGB (RGB, Red Green Blue) the three look information of each pixel.

Step 101b, utilize described first matrix, the graphics cache data of read corresponding first window 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 there is overlapping region between Second Window, as shown in Figure 2, there is overlapping region in Second Window 1 and Second Window 2; Correspondingly, in the present embodiment, by the two-dimensional coordinate (x of the mark pixel in the graphics cache data of first window _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, different Second Windows can be distinguished with different third dimension coordinates, and determine the covering relation of the overlapping region of different Second Window viewing areas, such as, when there is overlapping region in Second Window 1 and Second Window 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 the application of Second Window 2 correspondence.

In correlation technique, the graphics cache data read in step 101a, data cached with conventional display application (such as status bar) graph of a correspondence in described electronic equipment, 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 matrix 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 respective pixel point.

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 each 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 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 each 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 matrix is $\left(\begin{array}{ccc}\cos \mathrm{\θ}/2& 0& 0\\ 0& \cos \mathrm{\θ}/2& 0\\ 0& 0& \cos \mathrm{\θ}/2\end{array}\right);$ 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),

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

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; When after display Second Window, receive for Second Window carry out convergent-divergent, movement or rotation touch control operation time, then resolve touch control operation, carried out the parameter of convergent-divergent, movement or rotation accordingly, perform step 101c.

Step 101c, utilizes described frame buffer data to show the Second Window of described application in described touch-display unit, and described Second Window, for replacing described first window, shows to be applied in described in making in corresponding Second Window.

In each embodiment of the method follow-up, support windows display, and window at least comprises the situation of a non-full screen window, when first parameter is matrix, also can relate to the above-mentioned content obtaining non-full screen window through matrix conversion, that is: utilize described first matrix to convert first window, determine Second Window, to substitute described first window, be applied in described in making in described Second Window and show, follow-uply not repeat.

Embodiment of the method two:

The information processing method of the embodiment of the present invention, the method is applied in electronic equipment, described electronic equipment comprises a touch-display unit, described touch-display unit comprises a viewing area, apply a corresponding M window in the display of described viewing area with M, M is positive integer, and in a described M window, at least one is non-full screen window, as shown in Figure 3, said method comprising the steps of:

Step 201, to start one in M application with non-full screen window when applying, obtain the first parameter, the first window of described first parameter to described application is utilized to convert, described first window is full screen window, determine the Second Window of described application, the viewing area of described Second Window is less than the full screen window viewing area of described application.

Here it is pointed out that described first parameter is the conversion parameter for window transform, be at least following wherein one of:

Parameter value, matrix, parameter group, parameter sets.

When described first parameter is matrix, can be called the first transition matrix, in order to simplified characterization, the present embodiment is follow-up is called the first matrix by this first transition matrix.

Step 202, present the Second Window of described application in described viewing area.

Step 203, obtain the first event, described first event is for characterizing closedown target window.

Step 204, respond described first event, detect user and M interactive operation of applying, the window corresponding to the application carrying out last interactive operation is defined as described target window, closes described target window in described M application with user.

Step 205, from a remaining M-1 window, redefine out a target window according to a preset rules.

Adopt the embodiment of the present invention, there is following beneficial effect:

Described first parameter is utilized to convert first window by step 201, object is to determine a Second Window, described first window is substituted with this Second Window, be applied in described in making in described Second Window and show, the viewing area of Second Window is less than the full screen window viewing area of described application, is non-full screen window (or being called wicket).When first parameter is matrix, obtains non-full screen window by matrix conversion, thus better support windows display.

Compared with prior art, electronic equipment for mobile phone, along with the rise of smart mobile phone, the trend of mobile phone screen design is increasing, has so just possessed the possibility supporting windows display, here, described window refers to the window at the application program place of opening on mobile phone, does not repeat.

But, prior art is when mobile phone being opened multiple application program, the current application program operated is positioned at foreground, namely on mobile phone screen, only have an application window to be positioned at foreground, and other application programs are all positioned at backstage, namely other application windows are all positioned at backstage, if need to use them, carry out switching just passable with regard to the application window needed and be currently located at foreground.That is, adopt prior art, although synchronization has multiple application program in operation, but an application window can only be had on mobile phone screen to be in state of activation, user can only see the content information of an application shown by application window, cause Consumer's Experience bad, be unfavorable for user operation, and application window AM/BAM switches also a large amount of occupying system resources frequently, and the embodiment of the present invention can adopt non-full screen window to start the first application, be presented in described viewing area to make described first application with the form of window, that is, the embodiment of the present invention can support windows display, thus support that multiple application is presented in multiple window, all be in foreground, switch without the need to AM/BAM, be beneficial to user operation, and avoid window AM/BAM frequently to switch a large amount of system resources caused taking.Here, adopt non-full screen window to start the first application also can become with wicket pattern startup first application.

Due to when supporting windows display, the embodiment of the present invention obtains the first event by step 203-204, described first event is for characterizing closedown target window, respond described first event, detect user and M interactive operation of applying, the window corresponding to application carrying out last interactive operation in applying described M with user is defined as described target window, closes described target window.According to the above-mentioned detection to user and M interactive operation of applying, just can prepare the window that acquisition active user is using, i.e. target window.After target window is closed, system can intelligence reselect a new target window, thus application occur normal/abnormal, active/passive closedown or under the various scene such as exiting, system can be reasonable, intelligent the new target window of determination, need not user initiatively select, to improve the interactive experience of user.Reselecting a new target window, so that subsequent detection is to a key-press event, key-press event is distributed to the target window that this is new, and then, also solve at least the problem that clearly user key-press operation cannot be distributed to which window treatments.

In the present invention one preferred implementation, the described target window of described closedown comprises: user closes described target window or described target window by system closing.

Embodiment of the method three:

The information processing method of the embodiment of the present invention, the method is applied in electronic equipment, described electronic equipment comprises a touch-display unit, described touch-display unit comprises a viewing area, apply a corresponding M window in the display of described viewing area with M, M is positive integer, and in a described M window, at least one is non-full screen window, as shown in Figure 4, said method comprising the steps of:

Step 301, to start one in M application with non-full screen window when applying, obtain the first parameter, the first window of described first parameter to described application is utilized to convert, described first window is full screen window, determine the Second Window of described application, the viewing area of described Second Window is less than the full screen window viewing area of described application.

Here it is pointed out that described first parameter is the conversion parameter for window transform, be at least following wherein one of:

Parameter value, matrix, parameter group, parameter sets.

When described first parameter is matrix, can be called the first transition matrix, in order to simplified characterization, the present embodiment is follow-up is called the first matrix by this first transition matrix.

Step 302, present the Second Window of described application in described viewing area.

Step 303, obtain the first event, described first event is for characterizing closedown target window.

Step 304, detection user and M interactive operation of applying, set up window queue according to described interactive operation order, and real-time update.

Step 305, will last window of described window queue be arranged in as described target window.

Here, last window being arranged in described window queue refers to: the window information being positioned at window queue end.

Step 306, from a remaining M-1 window, redefine out a target window according to a preset rules.

Adopt the embodiment of the present invention, there is following beneficial effect:

Described first parameter is utilized to convert first window by step 301, object is to determine a Second Window, described first window is substituted with this Second Window, be applied in described in making in described Second Window and show, the viewing area of Second Window is less than the full screen window viewing area of described application, is non-full screen window (or being called wicket).When first parameter is matrix, obtains non-full screen window by matrix conversion, thus better support windows display.

Compared with prior art, electronic equipment for mobile phone, along with the rise of smart mobile phone, the trend of mobile phone screen design is increasing, has so just possessed the possibility supporting windows display, here, described window refers to the window at the application program place of opening on mobile phone, does not repeat.

But, prior art is when mobile phone being opened multiple application program, the current application program operated is positioned at foreground, namely on mobile phone screen, only have an application window to be positioned at foreground, and other application programs are all positioned at backstage, namely other application windows are all positioned at backstage, if need to use them, carry out switching just passable with regard to the application window needed and be currently located at foreground.That is, adopt prior art, although synchronization has multiple application program in operation, but an application window can only be had on mobile phone screen to be in state of activation, user can only see the content information of an application shown by application window, cause Consumer's Experience bad, be unfavorable for user operation, and application window AM/BAM switches also a large amount of occupying system resources frequently, and the embodiment of the present invention can adopt non-full screen window to start the first application, be presented in described viewing area to make described first application with the form of window, that is, the embodiment of the present invention can support windows display, thus support that multiple application is presented in multiple window, all be in foreground, switch without the need to AM/BAM, be beneficial to user operation, and avoid window AM/BAM frequently to switch a large amount of system resources caused taking.Here, adopt non-full screen window to start the first application also can become with wicket pattern startup first application.

Due to when supporting windows display, the embodiment of the present invention obtains the first event by step 303-305, described first event is for characterizing closedown target window, respond described first event, detect user and M interactive operation of applying, the window corresponding to application carrying out last interactive operation in applying described M with user is defined as described target window, closes described target window.According to the above-mentioned detection to user and M interactive operation of applying, just can prepare the window that acquisition active user is using, i.e. target window.After target window is closed, system can intelligence reselect a new target window, thus application occur normal/abnormal, active/passive closedown or under the various scene such as exiting, system can be reasonable, intelligent the new target window of determination, need not user initiatively select, to improve the interactive experience of user.A new target window is reselected by step 306, so that subsequent detection is to a key-press event, key-press event is distributed to the target window that this is new, and then, also solve at least the problem that clearly user key-press operation cannot be distributed to which window treatments.

In the present invention one preferred implementation, detect user and M interactive operation of applying, window queue is set up according to described interactive operation order, and real-time update, comprise: according to when user and described application interactive operation in the position, touch point that the window area applied detects, detect user and M interactive operation of applying; When detecting that described touch point first time is positioned at the window area of current interactive operation, described current window is added described window queue; When detecting that the position of described touch point is still in the window area of current interactive operation, do not upgrade described window queue; Detect that the position of described touch point is when the window area of current interactive operation is outer, obtains the position of described touch point, the window at the place, position of described touch point is added described window queue, upgrade described window queue.Here it is to be noted: be non-full frame window area at the window area of current interactive operation, the position of detected touch point in such cases, be different from conventional realization, also matrix conversion is related to, being specially the inverse transformation of matrix conversion, being: due to the current application will shown by full screen window when starting current application before, obtaining showing with non-full screen window through matrix conversion, this non-full screen window is the window area of current interactive operation, and this is first time matrix conversion.The position coordinate parameters of touch point is got in this non-full frame window area, need the position coordinate parameters position coordinate parameters of this touch point being converted to the touch point in corresponding full screen window region, this is second time matrix conversion, is actually and converts the matrix inversion of described matrix conversion.

Embodiment of the method four:

The information processing method of the embodiment of the present invention, the method is applied in electronic equipment, described electronic equipment comprises a touch-display unit, described touch-display unit comprises a viewing area, apply a corresponding M window in the display of described viewing area with M, M is positive integer, and in a described M window, at least one is non-full screen window, as shown in Figure 5, said method comprising the steps of:

Step 401, to start one in M application with non-full screen window when applying, obtain the first parameter, the first window of described first parameter to described application is utilized to convert, described first window is full screen window, determine the Second Window of described application, the viewing area of described Second Window is less than the full screen window viewing area of described application.

Here it is pointed out that described first parameter is the conversion parameter for window transform, be at least following wherein one of:

Parameter value, matrix, parameter group, parameter sets.

When described first parameter is matrix, can be called the first transition matrix, in order to simplified characterization, the present embodiment is follow-up is called the first matrix by this first transition matrix.

Step 402, present the Second Window of described application in described viewing area.

Step 403, obtain the first event, described first event is for characterizing closedown target window.

Step 404, detection user and M interactive operation of applying, set up window queue according to described interactive operation order, and real-time update.

Step 405, will last window of described window queue be arranged in as described target window.

Step 406, from described window queue, remove closed described target window, the window number upgraded in described window queue is M-1.

Step 407, to be redefined by last window upgraded in the described series of windows that obtains be a target window.

Adopt the embodiment of the present invention, there is following beneficial effect:

Described first parameter is utilized to convert first window by step 401, object is to determine a Second Window, described first window is substituted with this Second Window, be applied in described in making in described Second Window and show, the viewing area of Second Window is less than the full screen window viewing area of described application, is non-full screen window (or being called wicket).When first parameter is matrix, obtains non-full screen window by matrix conversion, thus better support windows display.

Compared with prior art, electronic equipment for mobile phone, along with the rise of smart mobile phone, the trend of mobile phone screen design is increasing, has so just possessed the possibility supporting windows display, here, described window refers to the window at the application program place of opening on mobile phone, does not repeat.

But, prior art is when mobile phone being opened multiple application program, the current application program operated is positioned at foreground, namely on mobile phone screen, only have an application window to be positioned at foreground, and other application programs are all positioned at backstage, namely other application windows are all positioned at backstage, if need to use them, carry out switching just passable with regard to the application window needed and be currently located at foreground.That is, adopt prior art, although synchronization has multiple application program in operation, but an application window can only be had on mobile phone screen to be in state of activation, user can only see the content information of an application shown by application window, cause Consumer's Experience bad, be unfavorable for user operation, and application window AM/BAM switches also a large amount of occupying system resources frequently, and the embodiment of the present invention can adopt non-full screen window to start the first application, be presented in described viewing area to make described first application with the form of window, that is, the embodiment of the present invention can support windows display, thus support that multiple application is presented in multiple window, all be in foreground, switch without the need to AM/BAM, be beneficial to user operation, and avoid window AM/BAM frequently to switch a large amount of system resources caused taking.Here, adopt non-full screen window to start the first application also can become with wicket pattern startup first application.

Due to when supporting windows display, the embodiment of the present invention obtains the first event by step 403-405, described first event is for characterizing closedown target window, respond described first event, detect user and M interactive operation of applying, the window corresponding to application carrying out last interactive operation in applying described M with user is defined as described target window, closes described target window.According to the above-mentioned detection to user and M interactive operation of applying, just can prepare the window that acquisition active user is using, i.e. target window.After target window is closed, system can intelligence reselect a new target window, thus application occur normal/abnormal, active/passive closedown or under the various scene such as exiting, system can be reasonable, intelligent the new target window of determination, need not user initiatively select, to improve the interactive experience of user.A new target window is reselected by step 406-407, so that subsequent detection is to a key-press event, key-press event is distributed to the target window that this is new, and then, also solve at least the problem that clearly user key-press operation cannot be distributed to which window treatments.

Be exemplified below with concrete application scenarios:

User opens multiple application on an electronic device, such as open three application successively, be respectively web browser, QQ, text editor, these three application can all adopt non-full screen window to show, current user operation carries out schedule record for utilizing text editing machine, now, display text editing machine is to carry out the non-full screen window of schedule record for current goal window, a kind of situation is that user has edited schedule record, initiatively close this current target window, another kind of situation is that system resource is not enough, and this current target window occurs collapse and automatically exits.In a word, no matter be which kind of situation, after closing this current target window, what need system intelligence reselects a new target window, for this problem, adopt the embodiment of the present invention, redefine out a target window from remaining window, as new target window, for convenience of description, the non-full screen window of this web browser of display is designated as window 1, the non-full screen window of this QQ of display is designated as window 2, the non-full screen window of display text editing machine is designated as window 3, and user and each apply (web browser, QQ, text editor) open these three windows successively alternately, interactive operation order is: user is first mutual with web browser, mutual with QQ again, last and text editor is mutual, according in the window queue that this interactive operation order is set up, window information put in order as window 1, window 2, window 3, then after window 3 is closed as current goal window, the target window made new advances is redefined from 2 remaining windows, after the queue of real-time update window, this window information put in order as window 1, window 2, and will last window of renewal rear hatch queue be arranged in as new target window, by window 2 as new target window.

Here it is to be noted: the description of following electronic equipment item, 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.

Electronic equipment embodiment one:

The electronic equipment of the embodiment of the present invention, as shown in Figure 6, described electronic equipment comprises a touch-display unit 602, described touch-display unit comprises a viewing area, a corresponding M window is applied with M in the display of described viewing area, M is positive integer, and in a described M window, at least one is non-full screen window, and described electronic equipment also comprises:

First processing unit 601, during for starting the application in M application with non-full screen window, obtain the first parameter, the first window of described first parameter to described application is utilized to convert, described first window is full screen window, determine the Second Window of described application, the viewing area of described Second Window is less than the full screen window viewing area of described application; Touch-display unit 602, for presenting the Second Window of described application in described viewing area;

First acquiring unit 603, for obtaining the first event, described first event is for characterizing closedown target window;

Window determining unit 604, for redefining out a target window according to a preset rules from a remaining M-1 window.

Here it is pointed out that described first parameter of the present embodiment is the conversion parameter for window transform, be at least following wherein one of:

Parameter value, matrix, parameter group, parameter sets.

When the first parameter is matrix, also relates in said method embodiment the concrete content how obtaining non-full screen window through matrix conversion set forth, not repeat here.

Electronic equipment embodiment two:

The electronic equipment of the embodiment of the present invention, as shown in Figure 7, described electronic equipment comprises a touch-display unit 602, described touch-display unit comprises a viewing area, a corresponding M window is applied with M in the display of described viewing area, M is positive integer, and in a described M window, at least one is non-full screen window, and described electronic equipment also comprises:

First processing unit 601, during for starting the application in M application with non-full screen window, obtain the first parameter, the first window of described first parameter to described application is utilized to convert, described first window is full screen window, determine the Second Window of described application, the viewing area of described Second Window is less than the full screen window viewing area of described application; Touch-display unit 602, for presenting the Second Window of described application in described viewing area;

First acquiring unit 603, for obtaining the first event, described first event is for characterizing closedown target window;

First response unit 605, for responding described first event, detect user and M interactive operation of applying, the window corresponding to application carrying out last interactive operation in applying described M with user is defined as described target window and notification window determining unit 604, closes described target window.

Window determining unit 604, for redefining out a target window according to a preset rules from a remaining M-1 window.

Here it is pointed out that described first parameter of the present embodiment is the conversion parameter for window transform, be at least following wherein one of:

Parameter value, matrix, parameter group, parameter sets.

When the first parameter is matrix, also relates in said method embodiment the concrete content how obtaining non-full screen window through matrix conversion set forth, not repeat here.

Electronic equipment embodiment three:

The electronic equipment of the embodiment of the present invention, as shown in Figure 7, described electronic equipment comprises a touch-display unit 602, described touch-display unit comprises a viewing area, a corresponding M window is applied with M in the display of described viewing area, M is positive integer, and in a described M window, at least one is non-full screen window, and described electronic equipment also comprises:

First processing unit 601, during for starting the application in M application with non-full screen window, obtain the first parameter, the first window of described first parameter to described application is utilized to convert, described first window is full screen window, determine the Second Window of described application, the viewing area of described Second Window is less than the full screen window viewing area of described application; Touch-display unit 602, for presenting the Second Window of described application in described viewing area;

First acquiring unit 603, for obtaining the first event, described first event is for characterizing closedown target window;

First response unit 605, for detecting user and M interactive operation of applying, sets up window queue according to described interactive operation order, and real-time update; To last window of described window queue be arranged in as described target window;

Window determining unit 604, for redefining out a target window according to a preset rules from a remaining M-1 window.

Here it is pointed out that described first parameter of the present embodiment is the conversion parameter for window transform, be at least following wherein one of:

Parameter value, matrix, parameter group, parameter sets.

When the first parameter is matrix, also relates in said method embodiment the concrete content how obtaining non-full screen window through matrix conversion set forth, not repeat here.

In a preferred embodiment of the invention, the first response unit 605, for according to when user and described application interactive operation in the position, touch point that the window area applied detects, detect user and M interactive operation of applying; When detecting that described touch point first time is positioned at the window area of current interactive operation, described current window is added described window queue; When detecting that the position of described touch point is still in the window area of current interactive operation, do not upgrade described window queue; Detect that the position of described touch point is when the window area of current interactive operation is outer, obtains the position of described touch point, the window at the place, position of described touch point is added described window queue, upgrade described window queue.

Electronic equipment embodiment four:

The electronic equipment of the embodiment of the present invention, as shown in Figure 7, described electronic equipment comprises a touch-display unit 602, described touch-display unit comprises a viewing area, a corresponding M window is applied with M in the display of described viewing area, M is positive integer, and in a described M window, at least one is non-full screen window, and described electronic equipment also comprises:

First processing unit 601, during for starting the application in M application with non-full screen window, obtain the first parameter, the first window of described first parameter to described application is utilized to convert, described first window is full screen window, determine the Second Window of described application, the viewing area of described Second Window is less than the full screen window viewing area of described application; Touch-display unit 602, for presenting the Second Window of described application in described viewing area;

First acquiring unit 603, for obtaining the first event, described first event is for characterizing closedown target window;

First response unit 605, for detecting user and M interactive operation of applying, sets up window queue according to described interactive operation order, and real-time update; To last window of described window queue be arranged in as described target window;

Window determining unit 604, for for removing closed described target window from described window queue, the window number upgraded in described window queue is M-1; It is a target window that last window in the described series of windows obtain renewal redefines.

Here it is pointed out that described first parameter of the present embodiment is the conversion parameter for window transform, be at least following wherein one of:

Parameter value, matrix, parameter group, parameter sets.

When the first parameter is matrix, also relates in said method embodiment the concrete content how obtaining non-full screen window through matrix conversion set forth, not repeat here.

In several embodiments that the application provides, 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 (13)

1. an information processing method, the method is applied in electronic equipment, described electronic equipment comprises a touch-display unit, described touch-display unit comprises a viewing area, a corresponding M window is applied with M in the display of described viewing area, M is positive integer, and in a described M window, at least one is non-full screen window, and described method comprises:

When starting the application in M application with non-full screen window, obtain the first parameter, the first window of described first parameter to described application is utilized to convert, described first window is full screen window, determine the Second Window of described application, the viewing area of described Second Window is less than the full screen window viewing area of described application;

The Second Window of described application is presented in described viewing area;

Obtain the first event, described first event is for characterizing closedown target window;

From a remaining M-1 window, a target window is redefined out according to a preset rules.

2. method according to claim 1, described method also comprises: respond described first event, detect user and M interactive operation of applying, the window corresponding to application carrying out last interactive operation in applying described M with user is defined as described target window, closes described target window.

3. method according to claim 2, the described target window of described closedown comprises: user closes described target window or described target window by system closing.

4. method according to claim 2, described detection user and M interactive operation of applying, the window corresponding to application carrying out last interactive operation in applying described M with user is defined as described target window, comprising:

Detect user and M interactive operation of applying, set up window queue according to described interactive operation order, and real-time update;

To last window of described window queue be arranged in as described target window.

5. method according to claim 4, describedly redefines out a target window according to a preset rules from a remaining M-1 window, comprising:

From described window queue, remove closed described target window, the window number upgraded in described window queue is M-1;

It is a target window that last window in the described series of windows obtain renewal redefines.

6. method according to claim 4, detects user and M interactive operation of applying, and sets up window queue according to described interactive operation order, and real-time update, comprising:

According to when user and described application interactive operation in the position, touch point that the window area applied detects, detect user and M interactive operation of applying;

When detecting that described touch point first time is positioned at the window area of current interactive operation, described current window is added described window queue;

When detecting that the position of described touch point is still in the window area of current interactive operation, do not upgrade described window queue;

Detect that the position of described touch point is when the window area of current interactive operation is outer, obtains the position of described touch point, the window at the place, position of described touch point is added described window queue, upgrade described window queue.

7. method according to claim 1, described first parameter be at least following wherein one of:

Parameter value, matrix, parameter group, parameter sets.

8. an electronic equipment, described electronic equipment comprises a touch-display unit, described touch-display unit comprises a viewing area, a corresponding M window is applied with M in the display of described viewing area, M is positive integer, in a described M window, at least one is non-full screen window, and described electronic equipment also comprises:

First processing unit, during for starting the application in M application with non-full screen window, obtain the first parameter, the first window of described first parameter to described application is utilized to convert, described first window is full screen window, determine the Second Window of described application, the viewing area of described Second Window is less than the full screen window viewing area of described application;

Touch-display unit, for presenting the Second Window of described application in described viewing area;

First acquiring unit, for obtaining the first event, described first event is for characterizing closedown target window;

Window determining unit, for redefining out a target window according to a preset rules from a remaining M-1 window.

9. electronic equipment according to claim 8, described electronic equipment also comprises:

First response unit, for responding described first event, detect user and M interactive operation of applying, the window corresponding to application carrying out last interactive operation in applying described M with user is defined as described target window and notifies described window determining unit, closes described target window.

10. electronic equipment according to claim 9, described first response unit, is further used for detecting user and M interactive operation of applying, and sets up window queue according to described interactive operation order, and real-time update; To last window of described window queue be arranged in as described target window.

11. electronic equipments according to claim 10, described window determining unit, be further used for removing closed described target window from described window queue, the window number upgraded in described window queue is M-1; It is a target window that last window in the described series of windows obtain renewal redefines.

12. electronic equipments according to claim 10, described first response unit, be further used for according to when user and described application interactive operation in the position, touch point that the window area applied detects, detect user and M interactive operation of applying; When detecting that described touch point first time is positioned at the window area of current interactive operation, described current window is added described window queue; When detecting that the position of described touch point is still in the window area of current interactive operation, do not upgrade described window queue; Detect that the position of described touch point is when the window area of current interactive operation is outer, obtains the position of described touch point, the window at the place, position of described touch point is added described window queue, upgrade described window queue.

13. electronic equipments according to claim 8, described first parameter be at least following wherein one of:

Parameter value, matrix, parameter group, parameter sets.