CN104571845A - Information processing method and electronic equipment - Google Patents

Abstract

The invention discloses an information processing method, which comprises the following steps that a first operation is obtained; a first instruction is generated on the basis of the first operation; the first instruction is responded, the display state of a target object corresponding to a multi-window management application is detected, and a detection result is obtained; when the detection result shows that the target object corresponding to the multi-widow application is in the first display state, the first display state is switched into the second display state. Meanwhile, the invention also discloses electronic equipment, when the technical scheme provided by the invention is adopted, application icons corresponding to the multi-window management application can be fast and conveniently hidden and started, and the user experience is improved.

Description

A kind of information processing method and electronic equipment

Technical field

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

Background technology

In the early stage of development of mobile terminal, the screen size of mobile terminal is all smaller, the resolution of screen is also lower, the operating system of mobile terminal can only provide the application function of single window as Android (Android) system, can only show an application program in this single window; Namely operating system only allows an application program to be in foreground, and carries out alternately with user.But, along with the fast development of mobile terminal hardware, especially the raising of the resolution of screen and the increasing of size, this single window application of android system cannot meet the needs of user, and user needs the operating system of mobile terminal can provide the application function of multiwindow urgently.

Based on this, the application function of the multiwindow that the operating system of mobile terminal provides needs to be shown on the desktop of mobile terminal by an application icon, starts easily or close the application of corresponding multi-window managing to make user; Under some scene, the operation of the application drawing rotating savings interference user that multi-window managing application is corresponding, therefore hiding multi-window managing is needed to apply corresponding application icon, when user needs the application function using multiwindow, need to start multi-window managing application by the application icon that the application of touch-control multi-window managing is corresponding, therefore, the application icon how realizing hiding and start multi-window managing application easily corresponding becomes the problem needing solution badly.

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, can hide and start the application icon that multi-window managing application is corresponding easily, promote the experience of user.

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

A kind of information processing method, be applied to and have in the electronic equipment of touch-display unit, described electronic equipment can run multi-window managing application and N number of first application, described touch-display unit shows and applies corresponding destination object with described multi-window managing, described destination object can be presented multi-window managing interface by during touch-control, described multi-window managing interface comprises destination object corresponding to N number of first application, and N is positive integer; Can start described first application by the destination object that described first application is corresponding, described first application started is shown in described touch-display unit by wicket; The viewing area of described wicket is less than the viewing area of the full screen window of described first application, and described wicket carries out conversion by the first parameter to described full screen window to obtain; Described method comprises:

Obtain the first operation;

Based on described first operation generation first instruction;

Respond described first instruction, detect the display state of destination object corresponding to described multi-window managing application, obtain testing result;

When described testing result shows that the destination object of described multi-window managing application correspondence is in the first display state, described first display state is switched to the second display state.

A kind of electronic equipment, described electronic equipment can run multi-window managing application and N number of first application, and described electronic equipment comprises: touch-display unit, acquiring unit, generation unit, detecting unit and switch unit; Wherein,

Described touch-display unit, applies corresponding destination object for showing with described multi-window managing; When described destination object is shown multi-window managing interface during touch-control, described multi-window managing interface comprises destination object corresponding to N number of first application, and N is positive integer; When the destination object corresponding by described first application starts described first application, show described first application by wicket; The viewing area of described wicket is less than the viewing area of the full screen window of described first application; Described wicket carries out conversion by the first parameter to described full screen window to obtain;

Described acquiring unit, for obtaining the first operation;

Described generation unit, for operating generation first instruction based on described first;

Described detecting unit, for responding described first instruction, detecting the display state of destination object corresponding to described multi-window managing application, obtaining testing result;

Described switch unit, during for showing that when described testing result the destination object of described multi-window managing application correspondence is in the first display state, switches to the second display state by described first display state.

Electronic equipment in the embodiment of the present invention can run multi-window managing application and N number of first application, the display screen of electronic equipment shows this multi-window managing and applies corresponding destination object, also be application icon, multi-window managing application can be started by this destination object of touch-control, present multi-window managing interface; Described multi-window managing interface comprises destination object corresponding to N number of first application, can start described first application by the destination object that described first application is corresponding, and described first application started is shown on described display touch control unit by wicket; The viewing area of described wicket is less than the viewing area of the full screen window of described first application; Based on this, by obtaining the first operation and after generating the first instruction, detect the display state of destination object corresponding to described multi-window managing application, and then described destination object is carried out to the switching of display state, achieve and hide and start application icon corresponding to multi-window managing application easily, thus improve the experience of user.

Accompanying drawing explanation

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

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

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

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

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

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

Fig. 7 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention one;

Fig. 8 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention two;

Fig. 9 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention three;

Figure 10 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention four;

Figure 11 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention five;

Figure 12 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention six.

Embodiment

In order to more at large understand feature of the present invention and technology contents, below in conjunction with accompanying drawing, realization of the present invention is described in detail, the use of appended accompanying drawing explanation only for reference, is not used for limiting the present invention.

Fig. 1 is the realization flow schematic diagram of the information processing method of the embodiment of the present invention one, information processing method in the present embodiment is applied to be had in the electronic equipment of touch-display unit, described electronic equipment can run multi-window managing application and N number of first application, described touch-display unit shows and applies corresponding destination object with described multi-window managing, described destination object can be presented multi-window managing interface by during touch-control, described multi-window managing interface comprises destination object corresponding to N number of first application, and N is positive integer; Can start described first application by the destination object that described first application is corresponding, described first application started is shown in described touch-display unit by wicket; The viewing area of described wicket is less than the viewing area of the full screen window of described first application, and described wicket carries out conversion by the first parameter to described full screen window to obtain; In a preferred embodiment of the invention, information processing method comprises the following steps,

Step 101: obtain the first operation.

In the present embodiment, the first application that electronic equipment is arranged can be the application carried in electronic apparatus system, and such as, clock application, camera applications etc. also can be the third-party application arranged by user, such as, and micro-letter application, game application etc.

Generally, the first whole application is shown on the desktop of electronic equipment by the form of icon list, one the first corresponding icon of application, the first corresponding application can be started by touch-control icon, when the first application is activated by the way, described first application will be shown on the display screen of electronic equipment by the mode of full screen window.

In the embodiment of the present invention, the first application is the application supporting wicket display, and when through but not limited to first application described with under type startup, described first application will be shown on the display touch control unit of electronic equipment by the mode of wicket;

Wherein, the mode starting described first application can be: be added in multi-window managing interface by the first application in advance, supports wicket display to make described first application; Multi-window managing interface can be applied corresponding icon by startup with multi-window managing and be shown; When starting the first application by multi-window managing interface, the first application will be shown on the display touch control unit of electronic equipment by the mode of wicket.

Based on this, when starting the application of described multi-window managing by the icon that multi-window managing application is corresponding, described icon need be shown in described touch-display unit; When user does not use multi-window managing to apply, described icon need be hidden; For this reason, the icon of show or hide multi-window managing application correspondence can be realized by triggering first operation, and so, electronic equipment will obtain described first operation, and perform step 102.

In such scheme, described first parameter be at least following one of them: parameter, matrix, parameter group, parameter sets.

Such as, the first parameter can be realized by the first matrix, utilizes the full screen window of described first matrix to described first application to convert, can pass through formula (1a) and realize:

$\left(\begin{array}{c}{x}_2\\ y_2\\ z_2\end{array}\right)=\left(\begin{array}{ccc}{M}_{11}& M_{12}& M_{13}\\ M_{21}& M_{22}& M_{23}\\ M_{31}& M_{32}& M_{33}\end{array}\right)\×\left(\begin{array}{c}{x}_1\\ y_1\\ z_1\end{array}\right)---\left(1a\right)$

Wherein, $\left(\begin{array}{c}{x}_2\\ y_2\\ z_2\end{array}\right)$ Represent the coordinate vector of wicket, x ₂for the horizontal ordinate of wicket, y ₂for the ordinate of wicket, z ₂general default setting is 1;

$M=\left(\begin{array}{ccc}{M}_{11}& M_{12}& M_{13}\\ M_{21}& M_{22}& M_{23}\\ M_{31}& M_{32}& M_{33}\end{array}\right),$ M represents the first matrix, and the first matrix is the matrix of 3 × 3, M _ijrepresent the element of the i-th row jth row in the first matrix, i value is 1,2,3; J value is 1,2,3;

$\left(\begin{array}{c}{x}_1\\ y_1\\ z_1\end{array}\right)$ Represent the coordinate vector of full screen window, x ₁for the horizontal ordinate of full screen window, y ₁for the ordinate of full screen window, z ₁general default setting is 1;

When scale transformation being carried out to full screen window by formula (1a), can by M _ijin 4 elements arrange as follows: M ₁₁=α, M ₁₂=0, M ₂₁=0, M ₂₂=β, other 5 elements can be arranged arbitrarily, so, by being brought in formula (1a) by the above-mentioned parameter of setting, can draw formula (2a):

x ₂=α×x ₁（2a）

y ₂=β×y ₁

Wherein, α is horizontal ordinate zooming parameter, and β is ordinate zooming parameter.

When rotational transform being carried out to full screen window by formula (1a), can by M _ijin 4 elements arrange as follows: M ₁₁=cos θ, M ₁₂=sin θ, M ₂₁=-sin θ, M ₂₂=cos θ, other 5 elements can be arranged arbitrarily, so, by being brought in formula (1a) by the above-mentioned parameter of setting, can draw formula (3a):

x ₂=cosθ×x ₁+sinθ×y ₁（3a）

y ₂=-sinθ×x ₁+cosθ×y ₁

Wherein, θ is the anglec of rotation.

Utilize the full screen window of described first matrix to described first application to carry out translation transformation, formula (4a) can be passed through and realize:

$\left(\begin{array}{c}{x}_2\\ y_2\\ z_2\end{array}\right)=\left(\begin{array}{c}{M}_{11}\\ M_{21}\\ M_{31}\end{array}\right)+\left(\begin{array}{c}{x}_1\\ y_1\\ z_1\end{array}\right)---\left(4a\right)$

When translation transformation being carried out to full screen window by formula (4a), can by M _ijin 3 elements arrange as follows: M ₁₁=a, M ₂₁=b, M ₃₁=0, so, by being brought in formula (4a) by the above-mentioned parameter of setting, formula (5a) can be drawn:

x ₂=a+x ₁（5a）

y ₂=b+y ₁

Wherein, a is horizontal ordinate translation parameters, and b is ordinate translation parameters.

Step 102: based on described first operation generation first instruction.

Here, the first corresponding instruction is generated by according to the first operation; Wherein, described first instruction is for detecting the display state stating destination object corresponding to multi-window managing application.

Step 103: respond described first instruction, detects the display state of destination object corresponding to described multi-window managing application, obtains testing result.

Here, the display state of the destination object that described multi-window managing application is corresponding can be the first display state or the second display state; The destination object that can characterize the application of described multi-window managing corresponding by these two display states is in display state and hidden state; Such as, the first display state can characterize described destination object and be in display state or hidden state, and accordingly, the second display state can characterize described destination object and be in hidden state or display state.

In such scheme, described display state refers to described destination object, and namely application icon is shown in described touch-display unit; Described hidden state refers to that described destination object is not shown in described touch-display unit.

Step 104: when described testing result shows that the destination object of described multi-window managing application correspondence is in the first display state, described first display state is switched to the second display state.

In the present embodiment, when supposing that described first display state is display state, after described first display state is switched to the second display state, described destination object is hidden state; When supposing that described first display state is hidden state, after described first display state is switched to the second display state, described destination object is display state, so, achieve and hide and start application icon corresponding to multi-window managing application easily, thus improve the experience of user.

Fig. 2 is the realization flow schematic diagram of the information processing method of the embodiment of the present invention two, information processing method in the present embodiment is applied to be had in the electronic equipment of touch-display unit, described electronic equipment can run multi-window managing application and N number of first application, described touch-display unit shows and applies corresponding destination object with described multi-window managing, described destination object can be presented multi-window managing interface by during touch-control, described multi-window managing interface comprises destination object corresponding to N number of first application, and N is positive integer; Can start described first application by the destination object that described first application is corresponding, described first application started is shown in described touch-display unit by wicket; The viewing area of described wicket is less than the viewing area of the full screen window of described first application, and described wicket carries out conversion by the first parameter to described full screen window to obtain; In a preferred embodiment of the invention, information processing method comprises the following steps,

Step 201: detect the touch control operation whether first predetermined condition occurs; When described touch control operation meets described first predetermined condition, be defined as acquisition first and operate.

Here, described touch control operation meets described first predetermined condition, can realize through but not limited to following form:

Whether described touch control operation is for clicking touching operation; Or,

Whether described touch control operation is double-click touching operation; Or,

Whether described touch control operation is three finger touching operations; Or,

Whether described touch control operation is the five fingers touching operation.

During specific implementation, user can the arbitrary region of touch-display unit in single touching electronic equipment, triggers the first operation; Or the arbitrary region of the touch-display unit in scheduled time slot in two touching electronic equipments, triggers the first operation; Or the touch-display unit in standby by three finger touching electronics, triggers the first operation; Or the touch-display unit in standby by five finger touching electronics, triggers the first operation.

In the present embodiment, the first application that electronic equipment is arranged can be the application carried in electronic apparatus system, and such as, clock application, camera applications etc. also can be the third-party application arranged by user, such as, and micro-letter application, game application etc.

Generally, the first whole application is shown on the desktop of electronic equipment by the form of icon list, one the first corresponding icon of application, the first corresponding application can be started by touch-control icon, when the first application is activated by the way, described first application will be shown on the display screen of electronic equipment by the mode of full screen window.

In the embodiment of the present invention, the first application is the application supporting wicket display, and when through but not limited to first application described with under type startup, described first application will be shown on the display touch control unit of electronic equipment by the mode of wicket;

Wherein, the mode starting described first application can be: be added in multi-window managing interface by the first application in advance, supports wicket display to make described first application; Multi-window managing interface can be applied corresponding icon by startup with multi-window managing and be shown; When starting the first application by multi-window managing interface, the first application will be shown on the display touch control unit of electronic equipment by the mode of wicket.

Based on this, when starting the application of described multi-window managing by the icon that multi-window managing application is corresponding, described icon need be shown in described touch-display unit; When user does not use multi-window managing to apply, described icon need be hidden; For this reason, the icon of show or hide multi-window managing application correspondence can be realized by triggering first operation, and so, electronic equipment will obtain described first operation, and perform step 202.

In such scheme, described first parameter be at least following one of them: parameter, matrix, parameter group, parameter sets.

Such as, the first parameter can be realized by the first matrix, utilizes the full screen window of described first matrix to described first application to convert, can pass through formula (1b) and realize:

$\left(\begin{array}{c}{x}_2\\ y_2\\ z_2\end{array}\right)=\left(\begin{array}{ccc}{M}_{11}& M_{12}& M_{13}\\ M_{21}& M_{22}& M_{23}\\ M_{31}& M_{32}& M_{33}\end{array}\right)\×\left(\begin{array}{c}{x}_1\\ y_1\\ z_1\end{array}\right)---\left(1b\right)$

Wherein, $\left(\begin{array}{c}{x}_2\\ y_2\\ z_2\end{array}\right)$ Represent the coordinate vector of wicket, x ₂for the horizontal ordinate of wicket, y ₂for the ordinate of wicket, z ₂general default setting is 1;

$M=\left(\begin{array}{ccc}{M}_{11}& M_{12}& M_{13}\\ M_{21}& M_{22}& M_{23}\\ M_{31}& M_{32}& M_{33}\end{array}\right),$ M represents the first matrix, and the first matrix is the matrix of 3 × 3, M _ijrepresent the element of the i-th row jth row in the first matrix, i value is 1,2,3; J value is 1,2,3;

$\left(\begin{array}{c}{x}_1\\ y_1\\ z_1\end{array}\right)$ Represent the coordinate vector of full screen window, x ₁for the horizontal ordinate of full screen window, y ₁for the ordinate of full screen window, z ₁general default setting is 1;

When scale transformation being carried out to full screen window by formula (1b), can by M _ijin 4 elements arrange as follows: M ₁₁=α, M ₁₂=0, M ₂₁=0, M ₂₂=β, other 5 elements can be arranged arbitrarily, so, by being brought in formula (1b) by the above-mentioned parameter of setting, can draw formula (2b):

x ₂=α×x ₁（2b）

y ₂=β×y ₁

Wherein, α is horizontal ordinate zooming parameter, and β is ordinate zooming parameter.

When rotational transform being carried out to full screen window by formula (1b), can by M _ijin 4 elements arrange as follows: M ₁₁=cos θ, M ₁₂=sin θ, M ₂₁=-sin θ, M ₂₂=cos θ, other 5 elements can be arranged arbitrarily, so, by being brought in formula (1b) by the above-mentioned parameter of setting, can draw formula (3b):

x ₂=cosθ×x ₁+sinθ×y ₁（3b）

y ₂=-sinθ×x ₁+cosθ×y ₁

Wherein, θ is the anglec of rotation.

Utilize the full screen window of described first matrix to described first application to carry out translation transformation, formula (4b) can be passed through and realize:

$\left(\begin{array}{c}{x}_2\\ y_2\\ z_2\end{array}\right)=\left(\begin{array}{c}{M}_{11}\\ M_{21}\\ M_{31}\end{array}\right)+\left(\begin{array}{c}{x}_1\\ y_1\\ z_1\end{array}\right)---\left(4b\right)$

When translation transformation being carried out to full screen window by formula (4b), can by M _ijin 3 elements arrange as follows: M ₁₁=a, M ₂₁=b, M ₃₁=0, so, by being brought in formula (4b) by the above-mentioned parameter of setting, formula (5b) can be drawn:

x ₂=a+x ₁（5b）

y ₂=b+y ₁

Wherein, a is horizontal ordinate translation parameters, and b is ordinate translation parameters.

Step 202: based on described first operation generation first instruction.

Here, the first corresponding instruction is generated by according to the first operation; Wherein, described first instruction is for detecting the display state stating destination object corresponding to multi-window managing application.

Step 203: respond described first instruction, detects the display state of destination object corresponding to described multi-window managing application, obtains testing result.

Here, the display state of the destination object that described multi-window managing application is corresponding can be the first display state or the second display state; The destination object that can characterize the application of described multi-window managing corresponding by these two display states is in display state and hidden state; Such as, the first display state can characterize described destination object and be in display state or hidden state, and accordingly, the second display state can characterize described destination object and be in hidden state or display state.

In such scheme, described display state refers to described destination object, and namely application icon is shown in described touch-display unit; Described hidden state refers to that described destination object is not shown in described touch-display unit.

Step 204: when described testing result shows that the destination object of described multi-window managing application correspondence is in the first display state, described first display state is switched to the second display state.

In the present embodiment, when supposing that described first display state is display state, after described first display state is switched to the second display state, described destination object is hidden state; When supposing that described first display state is hidden state, after described first display state is switched to the second display state, described destination object is display state, so, achieve and hide and start application icon corresponding to multi-window managing application easily, thus improve the experience of user.

Fig. 3 is the realization flow schematic diagram of the information processing method of the embodiment of the present invention three, information processing method in the present embodiment is applied to be had in the electronic equipment of touch-display unit, described electronic equipment can run multi-window managing application and N number of first application, described touch-display unit shows and applies corresponding destination object with described multi-window managing, described destination object can be presented multi-window managing interface by during touch-control, described multi-window managing interface comprises destination object corresponding to N number of first application, and N is positive integer; Can start described first application by the destination object that described first application is corresponding, described first application started is shown in described touch-display unit by wicket; The viewing area of described wicket is less than the viewing area of the full screen window of described first application, and described wicket carries out conversion by the first parameter to described full screen window to obtain; In a preferred embodiment of the invention, information processing method comprises the following steps,

Step 301: detect the button operation whether second predetermined condition occurs; When described button operation meets described second predetermined condition, be defined as acquisition first and operate.

Here, described button operation meets described second predetermined condition, can realize through but not limited to following form:

Whether described button operation is long by a certain button, such as, press function key-HOME key more than 2 seconds; Or,

Whether described button operation is the combination of some button, such as function key---the combination of HOME key and BACK key.

During specific implementation, user can grow by a certain button, such as, press function key-HOME key more than 2 seconds, trigger the first operation; Or, press the combination of some button, such as function key---the combination of HOME key and BACK key, triggers the first operation.

In the present embodiment, the first application that electronic equipment is arranged can be the application carried in electronic apparatus system, and such as, clock application, camera applications etc. also can be the third-party application arranged by user, such as, and micro-letter application, game application etc.

Generally, the first whole application is shown on the desktop of electronic equipment by the form of icon list, one the first corresponding icon of application, the first corresponding application can be started by touch-control icon, when the first application is activated by the way, described first application will be shown on the display screen of electronic equipment by the mode of full screen window.

In the embodiment of the present invention, the first application is the application supporting wicket display, and when through but not limited to first application described with under type startup, described first application will be shown on the display touch control unit of electronic equipment by the mode of wicket;

Wherein, the mode starting described first application can be: be added in multi-window managing interface by the first application in advance, supports wicket display to make described first application; Multi-window managing interface can be applied corresponding icon by startup with multi-window managing and be shown; When starting the first application by multi-window managing interface, the first application will be shown on the display touch control unit of electronic equipment by the mode of wicket.

Based on this, when starting the application of described multi-window managing by the icon that multi-window managing application is corresponding, described icon need be shown in described touch-display unit; When user does not use multi-window managing to apply, described icon need be hidden; For this reason, the icon of show or hide multi-window managing application correspondence can be realized by triggering first operation, and so, electronic equipment will obtain described first operation, and perform step 302.

In such scheme, described first parameter be at least following one of them: parameter, matrix, parameter group, parameter sets.

Such as, the first parameter can be realized by the first matrix, utilizes the full screen window of described first matrix to described first application to convert, can pass through formula (1c) and realize:

$\left(\begin{array}{c}{x}_2\\ y_2\\ z_2\end{array}\right)=\left(\begin{array}{ccc}{M}_{11}& M_{12}& M_{13}\\ M_{21}& M_{22}& M_{23}\\ M_{31}& M_{32}& M_{33}\end{array}\right)\×\left(\begin{array}{c}{x}_1\\ y_1\\ z_1\end{array}\right)---\left(1c\right)$

Wherein, $\left(\begin{array}{c}{x}_2\\ y_2\\ z_2\end{array}\right)$ Represent the coordinate vector of wicket, x ₂for the horizontal ordinate of wicket, y ₂for the ordinate of wicket, z ₂general default setting is 1;

$M=\left(\begin{array}{ccc}{M}_{11}& M_{12}& M_{13}\\ M_{21}& M_{22}& M_{23}\\ M_{31}& M_{32}& M_{33}\end{array}\right),$ M represents the first matrix, and the first matrix is the matrix of 3 × 3, M _ijrepresent the element of the i-th row jth row in the first matrix, i value is 1,2,3; J value is 1,2,3;

$\left(\begin{array}{c}{x}_1\\ y_1\\ z_1\end{array}\right)$ Represent the coordinate vector of full screen window, x ₁for the horizontal ordinate of full screen window, y ₁for the ordinate of full screen window, z ₁general default setting is 1;

When scale transformation being carried out to full screen window by formula (1c), can by M _ijin 4 elements arrange as follows: M ₁₁=α, M ₁₂=0, M ₂₁=0, M ₂₂=β, other 5 elements can be arranged arbitrarily, so, by being brought in formula (1c) by the above-mentioned parameter of setting, can draw formula (2c):

x ₂=α×x ₁（2c）

y ₂=β×y ₁

Wherein, α is horizontal ordinate zooming parameter, and β is ordinate zooming parameter.

When rotational transform being carried out to full screen window by formula (1c), can by M _ijin 4 elements arrange as follows: M ₁₁=cos θ, M ₁₂=sin θ, M ₂₁=-sin θ, M ₂₂=cos θ, other 5 elements can be arranged arbitrarily, so, by being brought in formula (1c) by the above-mentioned parameter of setting, can draw formula (3c):

x ₂=cosθ×x ₁+sinθ×y ₁（3c）

y ₂=-sinθ×x ₁+cosθ×y ₁

Wherein, θ is the anglec of rotation.

Utilize the full screen window of described first matrix to described first application to carry out translation transformation, formula (4c) can be passed through and realize:

$\left(\begin{array}{c}{x}_2\\ y_2\\ z_2\end{array}\right)=\left(\begin{array}{c}{M}_{11}\\ M_{21}\\ M_{31}\end{array}\right)+\left(\begin{array}{c}{x}_1\\ y_1\\ z_1\end{array}\right)---\left(4c\right)$

When translation transformation being carried out to full screen window by formula (4c), can by M _ijin 3 elements arrange as follows: M ₁₁=a, M ₂₁=b, M ₃₁=0, so, by being brought in formula (4c) by the above-mentioned parameter of setting, formula (5c) can be drawn:

x ₂=a+x ₁（5c）

y ₂=b+y ₁

Wherein, a is horizontal ordinate translation parameters, and b is ordinate translation parameters.

Step 302: based on described first operation generation first instruction.

Here, the first corresponding instruction is generated by according to the first operation; Wherein, described first instruction is for detecting the display state stating destination object corresponding to multi-window managing application.

Step 303: respond described first instruction, detects the display state of destination object corresponding to described multi-window managing application, obtains testing result.

Here, the display state of the destination object that described multi-window managing application is corresponding can be the first display state or the second display state; The destination object that can characterize the application of described multi-window managing corresponding by these two display states is in display state and hidden state; Such as, the first display state can characterize described destination object and be in display state or hidden state, and accordingly, the second display state can characterize described destination object and be in hidden state or display state.

In such scheme, described display state refers to described destination object, and namely application icon is shown in described touch-display unit; Described hidden state refers to that described destination object is not shown in described touch-display unit.

Step 304: when described testing result shows that the destination object of described multi-window managing application correspondence is in the first display state, described first display state is switched to the second display state.

In the present embodiment, when supposing that described first display state is display state, after described first display state is switched to the second display state, described destination object is hidden state; When supposing that described first display state is hidden state, after described first display state is switched to the second display state, described destination object is display state, so, achieve and hide and start application icon corresponding to multi-window managing application easily, thus improve the experience of user.

Fig. 4 is the realization flow schematic diagram of the information processing method of the embodiment of the present invention four, information processing method in the present embodiment is applied to be had in the electronic equipment of touch-display unit, described electronic equipment can run multi-window managing application and N number of first application, described touch-display unit shows and applies corresponding destination object with described multi-window managing, described destination object can be presented multi-window managing interface by during touch-control, described multi-window managing interface comprises destination object corresponding to N number of first application, and N is positive integer; Can start described first application by the destination object that described first application is corresponding, described first application started is shown in described touch-display unit by wicket; The viewing area of described wicket is less than the viewing area of the full screen window of described first application, and described wicket carries out conversion by the first parameter to described full screen window to obtain; In a preferred embodiment of the invention, information processing method comprises the following steps,

Step 401: detect the attitudes vibration whether described electronic equipment satisfied 3rd predetermined condition occurs; When described electronic equipment meets the attitudes vibration of described 3rd predetermined condition, be defined as acquisition first and operate.

Here, described electronic equipment meets the attitudes vibration of described 3rd predetermined condition, can realize through but not limited to following form:

Whether the attitude detecting described electronic equipment by gravity sensor the attitudes vibration such as vacillates now to the left, now to the right; Or,

Detect described electronic equipment by acceleration transducer whether to shake.

During specific implementation, user can rock electronic equipment, makes electronic equipment that wiggly attitudes vibration occur, triggers the first operation.

In the present embodiment, the first application that electronic equipment is arranged can be the application carried in electronic apparatus system, and such as, clock application, camera applications etc. also can be the third-party application arranged by user, such as, and micro-letter application, game application etc.

Generally, the first whole application is shown on the desktop of electronic equipment by the form of icon list, one the first corresponding icon of application, the first corresponding application can be started by touch-control icon, when the first application is activated by the way, described first application will be shown on the display screen of electronic equipment by the mode of full screen window.

In the embodiment of the present invention, the first application is the application supporting wicket display, and when through but not limited to first application described with under type startup, described first application will be shown on the display touch control unit of electronic equipment by the mode of wicket;

Wherein, the mode starting described first application can be: be added in multi-window managing interface by the first application in advance, supports wicket display to make described first application; Multi-window managing interface can be applied corresponding icon by startup with multi-window managing and be shown; When starting the first application by multi-window managing interface, the first application will be shown on the display touch control unit of electronic equipment by the mode of wicket.

Based on this, when starting the application of described multi-window managing by the icon that multi-window managing application is corresponding, described icon need be shown in described touch-display unit; When user does not use multi-window managing to apply, described icon need be hidden; For this reason, the icon of show or hide multi-window managing application correspondence can be realized by triggering first operation, and so, electronic equipment will obtain described first operation, and perform step 402.

In such scheme, described first parameter be at least following one of them: parameter, matrix, parameter group, parameter sets.

Such as, the first parameter can be realized by the first matrix, utilizes the full screen window of described first matrix to described first application to convert, can pass through formula (1d) and realize:

$\left(\begin{array}{c}{x}_2\\ y_2\\ z_2\end{array}\right)=\left(\begin{array}{ccc}{M}_{11}& M_{12}& M_{13}\\ M_{21}& M_{22}& M_{23}\\ M_{31}& M_{32}& M_{33}\end{array}\right)\×\left(\begin{array}{c}{x}_1\\ y_1\\ z_1\end{array}\right)---\left(1d\right)$

Wherein, $\left(\begin{array}{c}{x}_2\\ y_2\\ z_2\end{array}\right)$ Represent the coordinate vector of wicket, x ₂for the horizontal ordinate of wicket, y ₂for the ordinate of wicket, z ₂general default setting is 1;

$M=\left(\begin{array}{ccc}{M}_{11}& M_{12}& M_{13}\\ M_{21}& M_{22}& M_{23}\\ M_{31}& M_{32}& M_{33}\end{array}\right),$ M represents the first matrix, and the first matrix is the matrix of 3 × 3, M _ijrepresent the element of the i-th row jth row in the first matrix, i value is 1,2,3; J value is 1,2,3;

$\left(\begin{array}{c}{x}_1\\ y_1\\ z_1\end{array}\right)$ Represent the coordinate vector of full screen window, x ₁for the horizontal ordinate of full screen window, y ₁for the ordinate of full screen window, z ₁general default setting is 1;

When scale transformation being carried out to full screen window by formula (1d), can by M _ijin 4 elements arrange as follows: M ₁₁=α, M ₁₂=0, M ₂₁=0, M ₂₂=β, other 5 elements can be arranged arbitrarily, so, by being brought in formula (1d) by the above-mentioned parameter of setting, can draw formula (2d):

x ₂=α×x ₁（2d）

y ₂=β×y ₁

Wherein, α is horizontal ordinate zooming parameter, and β is ordinate zooming parameter.

When rotational transform being carried out to full screen window by formula (1d), can by M _ijin 4 elements arrange as follows: M ₁₁=cos θ, M ₁₂=sin θ, M ₂₁=-sin θ, M ₂₂=cos θ, other 5 elements can be arranged arbitrarily, so, by being brought in formula (1d) by the above-mentioned parameter of setting, can draw formula (3d):

x ₂=cosθ×x ₁+sinθ×y ₁（3d）

y ₂=-sinθ×x ₁+cosθ×y ₁

Wherein, θ is the anglec of rotation.

Utilize the full screen window of described first matrix to described first application to carry out translation transformation, formula (4d) can be passed through and realize:

$\left(\begin{array}{c}{x}_2\\ y_2\\ z_2\end{array}\right)=\left(\begin{array}{c}{M}_{11}\\ M_{21}\\ M_{31}\end{array}\right)+\left(\begin{array}{c}{x}_1\\ y_1\\ z_1\end{array}\right)---\left(4d\right)$

When translation transformation being carried out to full screen window by formula (4d), can by M _ijin 3 elements arrange as follows: M ₁₁=a, M ₂₁=b, M ₃₁=0, so, by being brought in formula (4d) by the above-mentioned parameter of setting, formula (5d) can be drawn:

x ₂=a+x ₁（5d）

y ₂=b+y ₁

Wherein, a is horizontal ordinate translation parameters, and b is ordinate translation parameters.

Step 402: based on described first operation generation first instruction.

Here, the first corresponding instruction is generated by according to the first operation; Wherein, described first instruction is for detecting the display state stating destination object corresponding to multi-window managing application.

Step 403: respond described first instruction, detects the display state of destination object corresponding to described multi-window managing application, obtains testing result.

Here, the display state of the destination object that described multi-window managing application is corresponding can be the first display state or the second display state; The destination object that can characterize the application of described multi-window managing corresponding by these two display states is in display state and hidden state; Such as, the first display state can characterize described destination object and be in display state or hidden state, and accordingly, the second display state can characterize described destination object and be in hidden state or display state.

In such scheme, described display state refers to described destination object, and namely application icon is shown in described touch-display unit; Described hidden state refers to that described destination object is not shown in described touch-display unit.

Step 404: when described testing result shows that the destination object of described multi-window managing application correspondence is in the first display state, described first display state is switched to the second display state.

In the present embodiment, when supposing that described first display state is display state, after described first display state is switched to the second display state, described destination object is hidden state; When supposing that described first display state is hidden state, after described first display state is switched to the second display state, described destination object is display state, so, achieve and hide and start application icon corresponding to multi-window managing application easily, thus improve the experience of user.

Fig. 5 is the realization flow schematic diagram of the information processing method of the embodiment of the present invention five, information processing method in the present embodiment is applied to be had in the electronic equipment of touch-display unit, described electronic equipment can run multi-window managing application and N number of first application, described touch-display unit shows and applies corresponding destination object with described multi-window managing, described destination object can be presented multi-window managing interface by during touch-control, described multi-window managing interface comprises destination object corresponding to N number of first application, and N is positive integer; Can start described first application by the destination object that described first application is corresponding, described first application started is shown in described touch-display unit by wicket; The viewing area of described wicket is less than the viewing area of the full screen window of described first application, and described wicket carries out conversion by the first parameter to described full screen window to obtain; In a preferred embodiment of the invention, information processing method comprises the following steps,

Step 501: detect the gesture operation whether satisfied 4th predetermined condition occurs; When meeting the gesture operation of described 4th predetermined condition, be defined as receiving described first operation.

Here, the described gesture operation meeting described 4th predetermined condition, can realize through but not limited to following form:

Such as, by the image collecting device in electronic equipment, camera, the image of shooting gesture operation; Resolve described image, and obtain the characteristic parameter of described image; The property data base that described characteristic parameter and this locality store is mated, and determines whether described gesture is a certain shape, as the gesture of V shape.

During specific implementation, user can show the gesture with given shape at the shooting area of the camera of electronic equipment, and the such as gesture of V shape, triggers the first operation.

In the present embodiment, the first application that electronic equipment is arranged can be the application carried in electronic apparatus system, and such as, clock application, camera applications etc. also can be the third-party application arranged by user, such as, and micro-letter application, game application etc.

Generally, the first whole application is shown on the desktop of electronic equipment by the form of icon list, one the first corresponding icon of application, the first corresponding application can be started by touch-control icon, when the first application is activated by the way, described first application will be shown on the display screen of electronic equipment by the mode of full screen window.

In the embodiment of the present invention, the first application is the application supporting wicket display, and when through but not limited to first application described with under type startup, described first application will be shown on the display touch control unit of electronic equipment by the mode of wicket;

Wherein, the mode starting described first application can be: be added in multi-window managing interface by the first application in advance, supports wicket display to make described first application; Multi-window managing interface can be applied corresponding icon by startup with multi-window managing and be shown; When starting the first application by multi-window managing interface, the first application will be shown on the display touch control unit of electronic equipment by the mode of wicket.

Based on this, when starting the application of described multi-window managing by the icon that multi-window managing application is corresponding, described icon need be shown in described touch-display unit; When user does not use multi-window managing to apply, described icon need be hidden; For this reason, the icon of show or hide multi-window managing application correspondence can be realized by triggering first operation, and so, electronic equipment will obtain described first operation, and perform step 502.

In such scheme, described first parameter be at least following one of them: parameter, matrix, parameter group, parameter sets.

Such as, the first parameter can be realized by the first matrix, utilizes the full screen window of described first matrix to described first application to convert, can pass through formula (1e) and realize:

$\left(\begin{array}{c}{x}_2\\ y_2\\ z_2\end{array}\right)=\left(\begin{array}{ccc}{M}_{11}& M_{12}& M_{13}\\ M_{21}& M_{22}& M_{23}\\ M_{31}& M_{32}& M_{33}\end{array}\right)\×\left(\begin{array}{c}{x}_1\\ y_1\\ z_1\end{array}\right)---\left(1e\right)$

Wherein, $\left(\begin{array}{c}{x}_2\\ y_2\\ z_2\end{array}\right)$ Represent the coordinate vector of wicket, x ₂for the horizontal ordinate of wicket, y ₂for the ordinate of wicket, z ₂general default setting is 1;

$M=\left(\begin{array}{ccc}{M}_{11}& M_{12}& M_{13}\\ M_{21}& M_{22}& M_{23}\\ M_{31}& M_{32}& M_{33}\end{array}\right),$ M represents the first matrix, and the first matrix is the matrix of 3 × 3, M _ijrepresent the element of the i-th row jth row in the first matrix, i value is 1,2,3; J value is 1,2,3;

$\left(\begin{array}{c}{x}_1\\ y_1\\ z_1\end{array}\right)$ Represent the coordinate vector of full screen window, x ₁for the horizontal ordinate of full screen window, y ₁for the ordinate of full screen window, z ₁general default setting is 1;

When scale transformation being carried out to full screen window by formula (1e), can by M _ijin 4 elements arrange as follows: M ₁₁=α, M ₁₂=0, M ₂₁=0, M ₂₂=β, other 5 elements can be arranged arbitrarily, so, by being brought in formula (1e) by the above-mentioned parameter of setting, can draw formula (2e):

x ₂=α×x ₁（2e）

y ₂=β×y ₁

Wherein, α is horizontal ordinate zooming parameter, and β is ordinate zooming parameter.

When rotational transform being carried out to full screen window by formula (1e), can by M _ijin 4 elements arrange as follows: M ₁₁=cos θ, M ₁₂=sin θ, M ₂₁=-sin θ, M ₂₂=cos θ, other 5 elements can be arranged arbitrarily, so, by being brought in formula (1e) by the above-mentioned parameter of setting, can draw formula (3e):

x ₂=cosθ×x ₁+sinθ×y ₁（3e）

y ₂=-sinθ×x ₁+cosθ×y ₁

Wherein, θ is the anglec of rotation.

Utilize the full screen window of described first matrix to described first application to carry out translation transformation, formula (4e) can be passed through and realize:

$\left(\begin{array}{c}{x}_2\\ y_2\\ z_2\end{array}\right)=\left(\begin{array}{c}{M}_{11}\\ M_{21}\\ M_{31}\end{array}\right)+\left(\begin{array}{c}{x}_1\\ y_1\\ z_1\end{array}\right)---\left(4e\right)$

When translation transformation being carried out to full screen window by formula (4e), can by M _ijin 3 elements arrange as follows: M ₁₁=a, M ₂₁=b, M ₃₁=0, so, by being brought in formula (4e) by the above-mentioned parameter of setting, formula (5e) can be drawn:

x ₂=a+x ₁（5e）

y ₂=b+y ₁

Wherein, a is horizontal ordinate translation parameters, and b is ordinate translation parameters.

Step 502: based on described first operation generation first instruction.

Here, the first corresponding instruction is generated by according to the first operation; Wherein, described first instruction is for detecting the display state stating destination object corresponding to multi-window managing application.

Step 503: respond described first instruction, detects the display state of destination object corresponding to described multi-window managing application, obtains testing result.

Here, the display state of the destination object that described multi-window managing application is corresponding can be the first display state or the second display state; The destination object that can characterize the application of described multi-window managing corresponding by these two display states is in display state and hidden state; Such as, the first display state can characterize described destination object and be in display state or hidden state, and accordingly, the second display state can characterize described destination object and be in hidden state or display state.

In such scheme, described display state refers to described destination object, and namely application icon is shown in described touch-display unit; Described hidden state refers to that described destination object is not shown in described touch-display unit.

Step 504: when described testing result shows that the destination object of described multi-window managing application correspondence is in the first display state, described first display state is switched to the second display state.

In the present embodiment, when supposing that described first display state is display state, after described first display state is switched to the second display state, described destination object is hidden state; When supposing that described first display state is hidden state, after described first display state is switched to the second display state, described destination object is display state, so, achieve and hide and start application icon corresponding to multi-window managing application easily, thus improve the experience of user.

Fig. 6 is the realization flow schematic diagram of the information processing method of the embodiment of the present invention six, information processing method in the present embodiment is applied to be had in the electronic equipment of touch-display unit, described electronic equipment can run multi-window managing application and N number of first application, described touch-display unit shows and applies corresponding destination object with described multi-window managing, described destination object can be presented multi-window managing interface by during touch-control, described multi-window managing interface comprises destination object corresponding to N number of first application, and N is positive integer; Can start described first application by the destination object that described first application is corresponding, described first application started is shown in described touch-display unit by wicket; The viewing area of described wicket is less than the viewing area of the full screen window of described first application, and described wicket carries out conversion by the first parameter to described full screen window to obtain; In a preferred embodiment of the invention, information processing method comprises the following steps,

Step 601: detect the phonetic entry operation whether receiving satisfied 5th predetermined condition; When meeting the phonetic entry operation of described 5th predetermined condition, be defined as receiving described first operation.

Here, the described phonetic entry operation meeting described 5th predetermined condition, can realize through but not limited to following form:

Such as, by the audio collecting device in electronic equipment, Mike, the voice of user's typing are gathered; Resolve the voice collected, and obtain the characteristic parameter of described voice; The property data base that described characteristic parameter and this locality store is mated, and determine the implication that described voice characterize, such as show or hide, when the implication that described voice characterize is for display, the destination object of described multi-window managing application correspondence will be shown in described touch-display unit; When the implication that described voice characterize is for hiding, the destination object of described multi-window managing application correspondence will not be shown in described touch-display unit.

In the present embodiment, the first application that electronic equipment is arranged can be the application carried in electronic apparatus system, and such as, clock application, camera applications etc. also can be the third-party application arranged by user, such as, and micro-letter application, game application etc.

Generally, the first whole application is shown on the desktop of electronic equipment by the form of icon list, one the first corresponding icon of application, the first corresponding application can be started by touch-control icon, when the first application is activated by the way, described first application will be shown on the display screen of electronic equipment by the mode of full screen window.

In the embodiment of the present invention, the first application is the application supporting wicket display, and when through but not limited to first application described with under type startup, described first application will be shown on the display touch control unit of electronic equipment by the mode of wicket;

Wherein, the mode starting described first application can be: be added in multi-window managing interface by the first application in advance, supports wicket display to make described first application; Multi-window managing interface can be applied corresponding icon by startup with multi-window managing and be shown; When starting the first application by multi-window managing interface, the first application will be shown on the display touch control unit of electronic equipment by the mode of wicket.

Based on this, when starting the application of described multi-window managing by the icon that multi-window managing application is corresponding, described icon need be shown in described touch-display unit; When user does not use multi-window managing to apply, described icon need be hidden; For this reason, the icon of show or hide multi-window managing application correspondence can be realized by triggering first operation, and so, electronic equipment will obtain described first operation, and perform step 602.

In such scheme, described first parameter be at least following one of them: parameter, matrix, parameter group, parameter sets.

Such as, the first parameter can be realized by the first matrix, utilizes the full screen window of described first matrix to described first application to convert, can pass through formula (1f) and realize:

$\left(\begin{array}{c}{x}_2\\ y_2\\ z_2\end{array}\right)=\left(\begin{array}{ccc}{M}_{11}& M_{12}& M_{13}\\ M_{21}& M_{22}& M_{23}\\ M_{31}& M_{32}& M_{33}\end{array}\right)\×\left(\begin{array}{c}{x}_1\\ y_1\\ z_1\end{array}\right)---\left(1f\right)$

Wherein, $\left(\begin{array}{c}{x}_2\\ y_2\\ z_2\end{array}\right)$ Represent the coordinate vector of wicket, x ₂for the horizontal ordinate of wicket, y ₂for the ordinate of wicket, z ₂general default setting is 1;

$M=\left(\begin{array}{ccc}{M}_{11}& M_{12}& M_{13}\\ M_{21}& M_{22}& M_{23}\\ M_{31}& M_{32}& M_{33}\end{array}\right),$ M represents the first matrix, and the first matrix is the matrix of 3 × 3, M _ijrepresent the element of the i-th row jth row in the first matrix, i value is 1,2,3; J value is 1,2,3;

$\left(\begin{array}{c}{x}_1\\ y_1\\ z_1\end{array}\right)$ Represent the coordinate vector of full screen window, x ₁for the horizontal ordinate of full screen window, y ₁for the ordinate of full screen window, z ₁general default setting is 1;

When scale transformation being carried out to full screen window by formula (1f), can by M _ijin 4 elements arrange as follows: M ₁₁=α, M ₁₂=0, M ₂₁=0, M ₂₂=β, other 5 elements can be arranged arbitrarily, so, by being brought in formula (1f) by the above-mentioned parameter of setting, can draw formula (2f):

x ₂=α×x ₁（2f）

y ₂=β×y ₁

Wherein, α is horizontal ordinate zooming parameter, and β is ordinate zooming parameter.

When rotational transform being carried out to full screen window by formula (1f), can by M _ijin 4 elements arrange as follows: M ₁₁=cos θ, M ₁₂=sin θ, M ₂₁=-sin θ, M ₂₂=cos θ, other 5 elements can be arranged arbitrarily, so, by being brought in formula (1f) by the above-mentioned parameter of setting, can draw formula (3f):

x ₂=cosθ×x ₁+sinθ×y ₁（3f）

y ₂=-sinθ×x ₁+cosθ×y ₁

Wherein, θ is the anglec of rotation.

Utilize the full screen window of described first matrix to described first application to carry out translation transformation, formula (4f) can be passed through and realize:

$\left(\begin{array}{c}{x}_2\\ y_2\\ z_2\end{array}\right)=\left(\begin{array}{c}{M}_{11}\\ M_{21}\\ M_{31}\end{array}\right)+\left(\begin{array}{c}{x}_1\\ y_1\\ z_1\end{array}\right)---\left(4f\right)$

When translation transformation being carried out to full screen window by formula (4f), can by M _ijin 3 elements arrange as follows: M ₁₁=a, M ₂₁=b, M ₃₁=0, so, by being brought in formula (4f) by the above-mentioned parameter of setting, formula (5f) can be drawn:

x ₂=a+x ₁（5f）

y ₂=b+y ₁

Wherein, a is horizontal ordinate translation parameters, and b is ordinate translation parameters.

Step 602: based on described first operation generation first instruction.

Here, the first corresponding instruction is generated by according to the first operation; Wherein, described first instruction is for detecting the display state stating destination object corresponding to multi-window managing application.

Step 603: respond described first instruction, detects the display state of destination object corresponding to described multi-window managing application, obtains testing result.

Here, the display state of the destination object that described multi-window managing application is corresponding can be the first display state or the second display state; The destination object that can characterize the application of described multi-window managing corresponding by these two display states is in display state and hidden state; Such as, the first display state can characterize described destination object and be in display state or hidden state, and accordingly, the second display state can characterize described destination object and be in hidden state or display state.

In such scheme, described display state refers to described destination object, and namely application icon is shown in described touch-display unit; Described hidden state refers to that described destination object is not shown in described touch-display unit.

Step 604: when described testing result shows that the destination object of described multi-window managing application correspondence is in the first display state, described first display state is switched to the second display state.

In the present embodiment, when supposing that described first display state is display state, after described first display state is switched to the second display state, described destination object is hidden state; When supposing that described first display state is hidden state, after described first display state is switched to the second display state, described destination object is display state, so, achieve and hide and start application icon corresponding to multi-window managing application easily, thus improve the experience of user.

Fig. 7 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention one, electronic equipment in the present embodiment can run multi-window managing application and N number of first application, in a preferred embodiment of the invention, described electronic equipment comprises: touch-display unit 71, acquiring unit 72, generation unit 73, detecting unit 74 and switch unit 75; Wherein,

Described touch-display unit 71, applies corresponding destination object for showing with described multi-window managing; When described destination object is shown multi-window managing interface during touch-control, described multi-window managing interface comprises destination object corresponding to N number of first application, and N is positive integer; When the destination object corresponding by described first application starts described first application, show described first application by wicket; The viewing area of described wicket is less than the viewing area of the full screen window of described first application; Described wicket carries out conversion by the first parameter to described full screen window to obtain;

Described acquiring unit 72, for obtaining the first operation;

Described generation unit 73, for operating generation first instruction based on described first;

Described detecting unit 74, for responding described first instruction, detecting the display state of destination object corresponding to described multi-window managing application, obtaining testing result;

Described switch unit 75, during for showing that when described testing result the destination object of described multi-window managing application correspondence is in the first display state, switches to the second display state by described first display state.

In such scheme, described first parameter be at least following one of them: parameter, matrix, parameter group, parameter sets.

It will be appreciated by those skilled in the art that the practical function of each unit in the electronic equipment shown in Fig. 7 can refer to the associated description of aforementioned information disposal route and understands.

Fig. 8 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention two, electronic equipment in the present embodiment can run multi-window managing application and N number of first application, in a preferred embodiment of the invention, described electronic equipment comprises: touch-display unit 71, acquiring unit 72, generation unit 73, detecting unit 74 and switch unit 75; Wherein,

Described touch-display unit 71, applies corresponding destination object for showing with described multi-window managing; When described destination object is shown multi-window managing interface during touch-control, described multi-window managing interface comprises destination object corresponding to N number of first application, and N is positive integer; When the destination object corresponding by described first application starts described first application, show described first application by wicket; The viewing area of described wicket is less than the viewing area of the full screen window of described first application; Described wicket carries out conversion by the first parameter to described full screen window to obtain;

Described acquiring unit 72, for obtaining the first operation;

Described generation unit 73, for operating generation first instruction based on described first;

Described detecting unit 74, for responding described first instruction, detecting the display state of destination object corresponding to described multi-window managing application, obtaining testing result;

Described switch unit 75, during for showing that when described testing result the destination object of described multi-window managing application correspondence is in the first display state, switches to the second display state by described first display state.

Preferably, described acquiring unit 72 comprises: the first detection sub-unit 721 and first determines subelement 722; Wherein,

Described first detection sub-unit 721, for detecting the touch control operation whether first predetermined condition occurs;

Described first determines subelement 722, for when described touch control operation meets described first predetermined condition, is defined as acquisition first and operates.

In such scheme, described first parameter be at least following one of them: parameter, matrix, parameter group, parameter sets.

It will be appreciated by those skilled in the art that the practical function of each unit in the electronic equipment shown in Fig. 8 can refer to the associated description of aforementioned information disposal route and understands.

Fig. 9 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention three, electronic equipment in the present embodiment can run multi-window managing application and N number of first application, in a preferred embodiment of the invention, described electronic equipment comprises: touch-display unit 71, acquiring unit 72, generation unit 73, detecting unit 74 and switch unit 75; Wherein,

Described touch-display unit 71, applies corresponding destination object for showing with described multi-window managing; When described destination object is shown multi-window managing interface during touch-control, described multi-window managing interface comprises destination object corresponding to N number of first application, and N is positive integer; When the destination object corresponding by described first application starts described first application, show described first application by wicket; The viewing area of described wicket is less than the viewing area of the full screen window of described first application; Described wicket carries out conversion by the first parameter to described full screen window to obtain;

Described acquiring unit 72, for obtaining the first operation;

Described generation unit 73, for operating generation first instruction based on described first;

Described detecting unit 74, for responding described first instruction, detecting the display state of destination object corresponding to described multi-window managing application, obtaining testing result;

Described switch unit 75, during for showing that when described testing result the destination object of described multi-window managing application correspondence is in the first display state, switches to the second display state by described first display state.

Preferably, described acquiring unit 72 comprises: the second detection sub-unit 723 and second determines subelement 724; Wherein,

Described second detection sub-unit 723, for detecting the button operation whether second predetermined condition occurs;

Described second determines subelement 724, for when described button operation meets described second predetermined condition, is defined as acquisition first and operates.

In such scheme, described first parameter be at least following one of them: parameter, matrix, parameter group, parameter sets.

It will be appreciated by those skilled in the art that the practical function of each unit in the electronic equipment shown in Fig. 9 can refer to the associated description of aforementioned information disposal route and understands.

Figure 10 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention four, electronic equipment in the present embodiment can run multi-window managing application and N number of first application, in a preferred embodiment of the invention, described electronic equipment comprises: touch-display unit 71, acquiring unit 72, generation unit 73, detecting unit 74 and switch unit 75; Wherein,

Described touch-display unit 71, applies corresponding destination object for showing with described multi-window managing; When described destination object is shown multi-window managing interface during touch-control, described multi-window managing interface comprises destination object corresponding to N number of first application, and N is positive integer; When the destination object corresponding by described first application starts described first application, show described first application by wicket; The viewing area of described wicket is less than the viewing area of the full screen window of described first application; Described wicket carries out conversion by the first parameter to described full screen window to obtain;

Described acquiring unit 72, for obtaining the first operation;

Described generation unit 73, for operating generation first instruction based on described first;

Described detecting unit 74, for responding described first instruction, detecting the display state of destination object corresponding to described multi-window managing application, obtaining testing result;

Described switch unit 75, during for showing that when described testing result the destination object of described multi-window managing application correspondence is in the first display state, switches to the second display state by described first display state.

Preferably, described acquiring unit 72 comprises: the 3rd detection sub-unit 725 and the 3rd determines subelement 726; Wherein,

Whether described 3rd detection sub-unit 725, there is the attitudes vibration of satisfied 3rd predetermined condition for detecting described electronic equipment;

Described 3rd determines subelement 726, during for meeting the attitudes vibration of described 3rd predetermined condition when described electronic equipment, is defined as acquisition first and operates.

In such scheme, described first parameter be at least following one of them: parameter, matrix, parameter group, parameter sets.

It will be appreciated by those skilled in the art that the practical function of each unit in the electronic equipment shown in Figure 10 can refer to the associated description of aforementioned information disposal route and understands.

Figure 11 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention five, electronic equipment in the present embodiment can run multi-window managing application and N number of first application, in a preferred embodiment of the invention, described electronic equipment comprises: touch-display unit 71, acquiring unit 72, generation unit 73, detecting unit 74 and switch unit 75; Wherein,

Described touch-display unit 71, applies corresponding destination object for showing with described multi-window managing; When described destination object is shown multi-window managing interface during touch-control, described multi-window managing interface comprises destination object corresponding to N number of first application, and N is positive integer; When the destination object corresponding by described first application starts described first application, show described first application by wicket; The viewing area of described wicket is less than the viewing area of the full screen window of described first application; Described wicket carries out conversion by the first parameter to described full screen window to obtain;

Described acquiring unit 72, for obtaining the first operation;

Described generation unit 73, for operating generation first instruction based on described first;

Described detecting unit 74, for responding described first instruction, detecting the display state of destination object corresponding to described multi-window managing application, obtaining testing result;

Described switch unit 75, during for showing that when described testing result the destination object of described multi-window managing application correspondence is in the first display state, switches to the second display state by described first display state.

Preferably, described acquiring unit 72 comprises: the 4th detection sub-unit 727 and the 4th determines subelement 728; Wherein,

Described 4th detection sub-unit 727, for detecting the gesture operation whether satisfied 4th predetermined condition occurs;

Described 4th determines subelement 728, for when meeting the gesture operation of described 4th predetermined condition, is defined as receiving described first operation.

In such scheme, described first parameter be at least following one of them: parameter, matrix, parameter group, parameter sets.

It will be appreciated by those skilled in the art that the practical function of each unit in the electronic equipment shown in Figure 11 can refer to the associated description of aforementioned information disposal route and understands.

Figure 12 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention six, electronic equipment in the present embodiment can run multi-window managing application and N number of first application, in a preferred embodiment of the invention, described electronic equipment comprises: touch-display unit 71, acquiring unit 72, generation unit 73, detecting unit 74 and switch unit 75; Wherein,

Described touch-display unit 71, applies corresponding destination object for showing with described multi-window managing; When described destination object is shown multi-window managing interface during touch-control, described multi-window managing interface comprises destination object corresponding to N number of first application, and N is positive integer; When the destination object corresponding by described first application starts described first application, show described first application by wicket; The viewing area of described wicket is less than the viewing area of the full screen window of described first application; Described wicket carries out conversion by the first parameter to described full screen window to obtain;

Described acquiring unit 72, for obtaining the first operation;

Described generation unit 73, for operating generation first instruction based on described first;

Described detecting unit 74, for responding described first instruction, detecting the display state of destination object corresponding to described multi-window managing application, obtaining testing result;

Described switch unit 75, during for showing that when described testing result the destination object of described multi-window managing application correspondence is in the first display state, switches to the second display state by described first display state.

Preferably, described acquiring unit 72 comprises: the 5th detection sub-unit 729 and the 5th determines subelement 7210; Wherein,

Described 5th detection sub-unit 729, for detecting the phonetic entry operation whether receiving satisfied 5th predetermined condition;

Described 5th determines subelement 7210, for when meeting the phonetic entry operation of described 5th predetermined condition, is defined as receiving described first operation.

In such scheme, described first parameter be at least following one of them: parameter, matrix, parameter group, parameter sets.

It will be appreciated by those skilled in the art that the practical function of each unit in the electronic equipment shown in Figure 12 can refer to the associated description of aforementioned information disposal route and understands.

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 (RGM, 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 (RGM, 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.

The above, be only preferred embodiment of the present invention, be not intended to limit protection scope of the present invention.

Claims (14)

1. an information processing method, be applied to and have in the electronic equipment of touch-display unit, described electronic equipment can run multi-window managing application and N number of first application, described touch-display unit shows and applies corresponding destination object with described multi-window managing, described destination object can be presented multi-window managing interface by during touch-control, described multi-window managing interface comprises destination object corresponding to N number of first application, and N is positive integer; Can start described first application by the destination object that described first application is corresponding, described first application started is shown in described touch-display unit by wicket; The viewing area of described wicket is less than the viewing area of the full screen window of described first application, and described wicket carries out conversion by the first parameter to described full screen window to obtain; Described method comprises:

Obtain the first operation;

Based on described first operation generation first instruction;

Respond described first instruction, detect the display state of destination object corresponding to described multi-window managing application, obtain testing result;

When described testing result shows that the destination object of described multi-window managing application correspondence is in the first display state, described first display state is switched to the second display state.

2. information processing method according to claim 1, described acquisition first operates, and comprising:

Detect the touch control operation whether first predetermined condition occurs;

When described touch control operation meets described first predetermined condition, be defined as acquisition first and operate.

3. information processing method according to claim 1, described acquisition first operates, and comprising:

Detect the button operation whether second predetermined condition occurs;

When described button operation meets described second predetermined condition, be defined as acquisition first and operate.

4. information processing method according to claim 1, described acquisition first operates, and comprising:

Detect the attitudes vibration whether described electronic equipment satisfied 3rd predetermined condition occurs;

When described electronic equipment meets the attitudes vibration of described 3rd predetermined condition, be defined as acquisition first and operate.

5. information processing method according to claim 1, described acquisition first operates, and comprising:

Detect the gesture operation whether satisfied 4th predetermined condition occurs;

When meeting the gesture operation of described 4th predetermined condition, be defined as receiving described first operation.

6. the information processing method according to any one of claim 1 to 5, described acquisition first operates, and comprising:

Detect the phonetic entry operation whether receiving satisfied 5th predetermined condition;

When meeting the phonetic entry operation of described 5th predetermined condition, be defined as receiving described first operation.

7. the information processing method according to any one of claim 1 to 5, described first parameter be at least following one of them: parameter, matrix, parameter group, parameter sets.

8. an electronic equipment, described electronic equipment can run multi-window managing application and N number of first application, and described electronic equipment comprises: touch-display unit, acquiring unit, generation unit, detecting unit and switch unit; Wherein,

Described touch-display unit, applies corresponding destination object for showing with described multi-window managing; When described destination object is shown multi-window managing interface during touch-control, described multi-window managing interface comprises destination object corresponding to N number of first application, and N is positive integer; When the destination object corresponding by described first application starts described first application, show described first application by wicket; The viewing area of described wicket is less than the viewing area of the full screen window of described first application; Described wicket carries out conversion by the first parameter to described full screen window to obtain;

Described acquiring unit, for obtaining the first operation;

Described generation unit, for operating generation first instruction based on described first;

Described detecting unit, for responding described first instruction, detecting the display state of destination object corresponding to described multi-window managing application, obtaining testing result;

Described switch unit, during for showing that when described testing result the destination object of described multi-window managing application correspondence is in the first display state, switches to the second display state by described first display state.

9. electronic equipment according to claim 8, described acquiring unit comprises: the first detection sub-unit and first determines subelement; Wherein,

Described first detection sub-unit, for detecting the touch control operation whether first predetermined condition occurs;

Described first determines subelement, for when described touch control operation meets described first predetermined condition, is defined as acquisition first and operates.

10. electronic equipment according to claim 8, described acquiring unit comprises: the second detection sub-unit and second determines subelement; Wherein,

Described second detection sub-unit, for detecting the button operation whether second predetermined condition occurs;

Described second determines subelement, for when described button operation meets described second predetermined condition, is defined as acquisition first and operates.

11. electronic equipments according to claim 8, described acquiring unit comprises: the 3rd detection sub-unit and the 3rd determines subelement; Wherein,

Whether described 3rd detection sub-unit, there is the attitudes vibration of satisfied 3rd predetermined condition for detecting described electronic equipment;

Described 3rd determines subelement, during for meeting the attitudes vibration of described 3rd predetermined condition when described electronic equipment, is defined as acquisition first and operates.

12. electronic equipments according to claim 8, described acquiring unit comprises: the 4th detection sub-unit and the 4th determines subelement; Wherein,

Described 4th detection sub-unit, for detecting the gesture operation whether satisfied 4th predetermined condition occurs;

Described 4th determines subelement, for when meeting the gesture operation of described 4th predetermined condition, is defined as receiving described first operation.

Electronic equipment described in 13. any one of according to Claim 8 to 12, described acquiring unit comprises: the 5th detection sub-unit and the 5th determines subelement; Wherein,

Described 5th detection sub-unit, for detecting the phonetic entry operation whether receiving satisfied 5th predetermined condition;

Described 5th determines subelement, for when meeting the phonetic entry operation of described 5th predetermined condition, is defined as receiving described first operation.

Electronic equipment described in 14. any one of according to Claim 8 to 12, described first parameter be at least following one of them: parameter, matrix, parameter group, parameter sets.