CN104063191A - Method and electronic equipment for information processing - Google Patents

Abstract

The invention discloses a method and electronic equipment for information processing, which can be applied in first electronic equipment including a first display unit, wherein the first electronic equipment can exchange data mutually and work coordinately with second electronic equipment; the method comprises the following steps: obtaining the positional relation of the second electronic equipment and the first electronic equipment; judging whether the positional relation can meet a preset condition or not and obtaining a first judgment result; generating an adjustment command when the positional relation indicated by the first judgment result can meet the preset condition; adjusting a second lattice numerical value on a second display unit of the second electronic equipment and obtaining a third lattice numerical value on the basis of the adjustment command to form a fourth lattice numerical value formed by the third lattice numerical value and the first lattice numerical value on the first display unit.

Description

A kind of method of information processing and electronic equipment

Technical field

The present invention relates to electronic technology field, relate in particular to a kind of method and electronic equipment of information processing.

Background technology

Along with scientific and technical development, electronic equipment has also obtained development at full speed, and the kind of electronic product is also more and more, and people have also enjoyed the various facilities that scientific development brings, people can pass through various types of electronic equipments now, enjoy the comfortable life bringing along with development in science and technology.Such as, user is by mobile phone, and the electronic equipment of the playing video files such as panel computer is watched film, picture etc.

In prior art, user can be stitched together a plurality of electronic equipments, so that after the splicing of a plurality of electronic equipment, show larger screen, thereby obtain better visual effect.After a plurality of electronic equipments are stitched together, the image before showing by an electronic equipment, now just can show by a plurality of electronic equipments.

But in the process of inventor's invention technical scheme in realizing the embodiment of the present invention, find that above-mentioned technology at least exists following technical matters:

1, because the first electronic equipment and the second electronic equipment are stitched together common while showing an image, while doing the operation of touch-control on the display screen at the first electronic equipment, on the display screen of the second electronic equipment, can not correspondingly respond this touch control operation, due in the prior art, although two electronic equipments are stitched together, a part that shows separately view picture picture, but, dot matrix on the touch-screen of these two electronic equipments distributes and does not change, so, in prior art when two electronic equipments are stitched together and have touch control operation on the touch-screen of an electronic equipment therein, the dot matrix of existence on two touch-screens of these two electronic equipments distributes and can not keep the technical matters of corresponding relation.

2, due in prior art only electronic equipment is spliced from a direction, after the direction of one of them electronic equipment of transposing, just exist a part of picture that shows view picture picture on this electronic equipment will form with another part picture of the view picture picture that shows on another electronic equipment the technical matters of dislocation.

Summary of the invention

The embodiment of the present application is by providing a kind of method and a kind of electronic equipment of information processing, solved in prior art after two electronic equipment splicings, the dot matrix of existence on these two touch-screens distributes and can not keep the technical matters of corresponding relation, realized dot matrix on the display screen of spliced two electronic equipments technique effect of coupling mutually that distributes.

On the one hand, the present invention is by the application's a embodiment, a kind of method of information processing is provided, in the first electronic equipment that is applied to comprise the first display unit, described the first electronic equipment can splice to carry out data interaction and collaborative work with second electronic equipment with the second display unit, the first viewing area of described the first display unit and the second viewing area of described the second display unit are due to described the 3rd viewing area that is spliced to form, described method comprises: when described the first electronic equipment and described the second electronic equipment splice to carry out data interaction and collaborative work, detect and whether on the first display unit, touch control operation detected, obtain the first testing result, when described the first testing result shows touch control operation to be detected on the first display unit, obtain the touch-control origination point of described touch control operation with respect to first relative Ge information of described the first viewing area, attitude parameter information while obtaining described the first electronic equipment and described the second electronic equipment splicing, based on described first relative Ge information and described attitude parameter information, determine that described touch-control origination point is with respect to second relative Ge information of described the 3rd viewing area.

Further, at described the first electronic equipment and described the second electronic equipment, splice to carry out in data interaction and collaborative work the size of described the first display unit and described the second display unit measure-alike.

Further, attitude parameter information when described the first electronic equipment of described acquisition and described the second electronic equipment splicing, is specially: the first magnetometric sensor by She Ge on the conflict limit of described the first electronic equipment obtains the conflict limit Wei Ge information of described the first electronic equipment and described the second electric room; Or the gyroscope in described the first electronic equipment obtains described the first electronic equipment and described the second electronic equipment when splicing by She Ge, the angular velocity component information in space three-dimensional direction.

Further, attitude parameter information when described the first electronic equipment of described acquisition and described the second electronic equipment splicing, be specially: according to institute's rheme Ge information or described angular velocity component information, determine the attitude parameter information of described the first electronic equipment and described the second electronic equipment.

Further, after the attitude parameter information of described the first electronic equipment of described acquisition and described the second electronic equipment, described method also comprises: judge that whether described attitude parameter information meet one pre-conditioned, obtain the first judged result; When described the first judged result, to show that described attitude parameter information meets described when pre-conditioned, generates first and adjust instruction.

Further, describedly based on described first relative Ge information and described attitude parameter information, determine that described touch-control origination point is with respect to second relative Ge information of described the 3rd viewing area, be specially: when described adjustment instruction is the instruction of adjusting in the first default adjustment mode, carry out described adjustment instruction, based on the described second default adjustment mode, described first relative Ge adjusted, determine that described touch-control origination point is with respect to second relative Ge information of described the 3rd viewing area; Or when described adjustment instruction is the instruction of adjusting in the second default adjustment mode, carry out described adjustment instruction, based on the described second default adjustment mode, described first relative Ge adjusted, determine that described touch-control origination point is with respect to second relative Ge information of described the 3rd viewing area.

On the other hand, the present invention provides a kind of electronic equipment by another embodiment of the application, described electronic equipment can be identical with described electronic equipment with another electronic equipment carry out data interaction and collaborative work, the first viewing area of described the first display unit and the second viewing area of described the second display unit are due to described the 3rd viewing area that is spliced to form, described electronic equipment comprises: the first detecting unit, for when described electronic equipment and described the second electronic equipment splice to carry out data interaction and collaborative work, detect and whether on the first display unit, touch control operation detected, obtain the first testing result, the first acquiring unit, for when described the first testing result shows touch control operation to be detected on the first display unit, obtains the touch-control origination point of described touch control operation with respect to first relative Ge information of described the first viewing area, second acquisition unit, the attitude parameter information while splicing for obtaining described the first electronic equipment and described the second electronic equipment, the first determining unit, for determining that based on described first relative Ge information and described attitude parameter information described touch-control origination point is with respect to second relative Ge information of described the 3rd viewing area.

Further, at described electronic equipment and described the second electronic equipment, splice to carry out in data interaction and collaborative work the size of described the first display unit and described the second display unit measure-alike.

Further, described second acquisition unit is specially: the first magnetometric sensor by She Ge on the conflict limit of described the first electronic equipment obtains the conflict limit Wei Ge information of described the first electronic equipment and described the second electric room; Or the gyroscope in described the first electronic equipment obtains described the first electronic equipment and described the second electronic equipment when splicing by She Ge, the angular velocity component information in space three-dimensional direction.

Further, described second acquisition unit is specially: according to institute's rheme Ge information or described angular velocity component information, determine the attitude parameter information of described the first electronic equipment and described the second electronic equipment.

Further, described electronic equipment specifically also comprises: judging unit, and one pre-conditioned for judging that whether described attitude parameter information meet, obtain the first judged result; Generation unit, described when pre-conditioned for showing that when described the first judged result described attitude parameter information meets, generate first and adjust instruction.

Further, described the first determining unit is specially: when described adjustment instruction is the instruction of adjusting in the first default adjustment mode, carry out described adjustment instruction, based on the described second default adjustment mode, described first relative Ge adjusted, determine that described touch-control origination point is with respect to second relative Ge information of described the 3rd viewing area; Or when described adjustment instruction is the instruction of adjusting in the second default adjustment mode, carry out described adjustment instruction, based on the described second default adjustment mode, described first relative Ge adjusted, determine that described touch-control origination point is with respect to second relative Ge information of described the 3rd viewing area.

The one or more technical schemes that provide in the embodiment of the present application, at least have following technique effect or advantage:

1, because adopting, this programme determines that based on first relative Ge information and attitude parameter information touch-control origination point is with respect to the technical scheme of second relative Ge information of the 3rd viewing area, so efficiently solving in prior art the first electronic equipment and the second electronic equipment is stitched together common while showing an image, while doing the operation of touch-control on the display screen at the first electronic equipment, on the display screen of the second electronic equipment, can not correspondingly respond this touch control operation, although two electronic equipments are stitched together, a part that shows separately view picture picture, but, dot array data on the touch-screen of these two electronic equipments does not change, so, in prior art when two electronic equipments are stitched together and have touch control operation on the touch-screen of an electronic equipment therein, the demonstration data of existence on two touch-screens of these two electronic equipments can not keep the technical matters of corresponding relation.And then the dot matrix of having realized the display screen of spliced two electronic equipments technique effect of coupling mutually that distributes.

2, because this programme adopts based on the first default adjustment mode or the second default adjustment mode, first relative Ge adjusted, determine that touch-control origination point is with respect to the technical scheme of second relative Ge information of the 3rd viewing area, efficiently solve in prior art only electronic equipment is spliced from a direction, after having changed the direction of one of them electronic equipment, just exist a part of picture of the view picture picture showing on this electronic equipment will form with another part picture of the view picture picture that shows on another electronic equipment the technical matters of dislocation, and then realized the technique effect that can splice electronic equipment by multiple angles orientation.

Accompanying drawing explanation

Fig. 1 is the process flow diagram of a kind of method of information processing in the embodiment of the present application;

Fig. 2 is the schematic diagram of numbering on the conflict limit of a kind of electronic equipment in the embodiment of the present application;

Fig. 3 adjusts the schematic diagram of dot array data when two electronic equipment property unanimous between the higher and lower levels are spliced in the embodiment of the present application;

Fig. 4 adjusts the schematic diagram of dot array data when two electronic equipment left and right consistance are spliced in the embodiment of the present application;

Fig. 5 is that in the embodiment of the present application, two electronic equipments are adjusted the schematic diagram of dot array data when rotation is spliced afterwards up and down relatively;

Fig. 6 adjusts the schematic diagram of dot array data when two electronic equipments splice about rotation afterwards relatively in the embodiment of the present application;

Fig. 7 is the module map of a kind of electronic equipment in the embodiment of the present application.

Embodiment

The embodiment of the present application by a kind of method and a kind of electronic equipment of information processing are provided, have solved in prior art, exist after the splicing of two electronic equipments, the dot matrix on these two touch-screens distributes and can not keep the technical matters of corresponding relation.

Technical scheme in the embodiment of the present application is for solving the technical matters of above-mentioned existence, and general thought is as follows:

First, when user is in order to make the area of display screen of pad or mobile phone enough large, can make to watch effect better, just can be by after two or more pad be spliced, thus show larger effect.

For example, two pad are spliced, while showing respectively display interface a part of on these two pad, if there is a touch control operation the first viewing area therein on a pad, just first obtain the Xiang Dui Wei Ge coordinate information of this touch control operation first viewing area on this pad; Then, detect again the attitude parameter of these two electronic equipments when splicing, namely these two pad are respectively that splice on which bar limit, after obtaining these attitude parameters, based on these attitude parameter information, first relative Ge coordinate information to the touch point obtaining on pad adjusted, the position Ge information that makes the touch point after adjusting be with respect to the 3rd viewing area forming after splicing to position Ge information.

In order better to understand technique scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme is described in detail.

On the one hand, the present invention is by the application's a embodiment, a kind of method of information processing is provided, in the first electronic equipment that is applied to comprise the first display unit, described the first electronic equipment can splice to carry out data interaction and collaborative work with second electronic equipment with the second display unit, the first viewing area of described the first display unit and the second viewing area of described the second display unit are due to described the 3rd viewing area that is spliced to form, as shown in Figure 1, described method comprises:

S10, when described the first electronic equipment and described the second electronic equipment splice to carry out data interaction and collaborative work, detects whether on the first display unit, touch control operation detected, obtains the first testing result;

S20, when described the first testing result shows touch control operation to be detected on the first display unit, obtains the touch-control origination point of described touch control operation with respect to first relative Ge information of described the first viewing area;

S30, the attitude parameter information while obtaining described the first electronic equipment and described the second electronic equipment splicing;

S40, determines that based on described first relative Ge information and described attitude parameter information described touch-control origination point is with respect to second relative Ge information of described the 3rd viewing area.

First, take that to splice two pad be example, in S10, by on the 3rd viewing area forming after two pad splicings, detect the operation that whether has a touch-control, wherein, this touch point can be the touch point on first pad, can be also the touch point on second pad.

In S20, when this touch point is, while dropping on first pad, to detect this touch point with respect to the Xiang Dui Wei Ge information of this first pad; When this touch point is, while dropping on second pad, to detect this touch point with respect to the Xiang Dui Wei Ge information of this second pad.Such as, on first pad, there is touch point, the touch point Wei Ge information of acquisition is that horizontal ordinate is X:26, ordinate is Y:78, and this point coordinate is A(26,78); If have touch point on second pad, the touch point Wei Ge information of acquisition is horizontal ordinate X:56, ordinate Y:89, and this point coordinate is B(56,89), therefore, in this step, first relative Ge information of acquisition is exactly with respect to the coordinate information of electronic equipment separately.

Certainly, being not limited only to above-mentioned two electronic equipments mentioning, can also be plural electronic equipment, does not just enumerate here.

Simultaneously, the display unit of the electronic equipment splicing need to be by identical size, that is to say, when in above-mentioned, first electronic equipment and second electronic equipment splice to carry out data interaction and collaborative work, the size of first display unit and second display unit measure-alike.If the display unit of first pad is of a size of 241.2*185.7, the display unit of second pad is of a size of 200*134.7, and so, two such pad cannot realize splicing, at least will make the size of display unit of these two pad basic identical.

After executing S20, then carry out S30, the attitude parameter information while obtaining the first electronic equipment and the splicing of the second electronic equipment, wherein, is specially:

The first magnetometric sensor by She Ge on the conflict limit of described the first electronic equipment obtains the conflict limit Wei Ge information of described the first electronic equipment and described the second electric room; Or

Gyroscope by She Ge in described the first electronic equipment obtains described the first electronic equipment and described the second electronic equipment when splicing, the angular velocity component information in space three-dimensional direction.

In concrete embodiment, take and splice two pad and be described as example, after two pad are spliced, on the edge splicing at pad, magnetometric sensor by She Ge on edge, detects the edge Wei Ge of splicing, for example, take one of them pad as example, as shown in Figure 2, it is article one limit that regulation be take the left side of this pad, is encoded to limit 1, the right of this pad is second limit, is encoded to limit 2.Limit 1 splicing that magnetometric sensor as She Ge on limit 2 detects another pad on the limit 2 of this first pad time, has just obtained the limit 2 of first pad and has spliced Wei Ge information with the limit of second pad 1; Magnetometric sensor on the limit 1 that is positioned at first pad detects limit 1 splicing of second pad on the limit 1 of this first pad, has so just obtained the limit 1 of first pad and the limit of second pad, 1 splicing Wei Ge information.

When obtaining attitude parameter information, also need the angular velocity component information of electron gain equipment in space three-dimensional direction, according to angular velocity component information, can obtain these two electronic equipments is horizontal screen display splicing or perpendicular screen display splicing.

Position Ge information and angular velocity component information according to above-mentioned acquisition, can access definite attitude parameter information, namely according to position Ge information or angular velocity component information, determines the attitude parameter information of the first electronic equipment and the second electronic equipment.

In concrete embodiment, for example, when detecting, be perpendicular screen display while showing, detecting is again the limit 2 of first pad and the limit 1 of second pad while splicing, acquisition the first attitude parameter; When detecting, be perpendicular screen display while showing, detecting is again the limit 2 of first pad and the limit 2 of second pad while splicing, acquisition the second attitude parameter information; When detecting, be horizontal screen display while showing, detecting is the limit 2 of first pad while splicing with the limit 1 of pad, obtains the third attitude parameter information; When detecting, be horizontal screen display while showing, when the limit 2 of first pad and the limit 2 of second pad being detected again and splicing, obtain the 4th kind of attitude parameter information

After executing S30, step also comprises: judge that whether described attitude parameter information meet one pre-conditioned, obtain the first judged result; When described the first judged result, to show that described attitude parameter information meets described when pre-conditioned, generates first and adjust instruction.

In concrete embodiment, after the attitude parameter information obtaining, whether the attitude parameter that needs judgement to obtain can meet a default condition, for example, although two pad detected, be all that perpendicular screen display is shown, and, on the limit 2 of first pad and the limit 1 of second pad, splice, but, these two pad towards being but contrary, such as, the display surface of first pad is towards user, the display surface of second pad is user dorsad but, so, so just can not meet default condition, namely do not meet any one in four kinds of attitude parameter information in above-mentioned, only have and meet any one in above-mentioned four kinds of attitude parameter information, just can meet default condition, the attitude parameter information obtaining met pre-conditioned after, for different attitude parameter information, generate different adjustment instructions.

Therefore,, for the first attitude parameter information, just there is the first to adjust instruction; For the second attitude parameter information, just there is the second to adjust instruction; For the third attitude parameter information, just have the 3rd to adjust instruction; For the 4th kind of attitude parameter information, just there is the 4th kind to adjust instruction.

For different adjustment instructions, also want first relative the Ge information of combination of touch control point on electronic equipment, thereby adjust this on spliced display screen to position Ge.

In S40, based on described first relative Ge information and described attitude parameter information, determine that described touch-control origination point, with respect to second relative Ge information of described the 3rd viewing area, is specially:

When described adjustment instruction is the instruction of adjusting in the first default adjustment mode, carry out described adjustment instruction, based on the described first default adjustment mode, described first relative Ge adjusted, determine that described touch-control origination point is with respect to second relative Ge information of described the 3rd viewing area; Or

When described adjustment instruction is the instruction of adjusting in the second default adjustment mode, carry out described adjustment instruction, based on the described second default adjustment mode, described first relative Ge adjusted, determine that described touch-control origination point is with respect to second relative Ge information of described the 3rd viewing area.

In concrete embodiment, by above-mentioned analysis, can incorporate into is the adjustment of three kinds of modes.

Mode one, adjusts the Y value in the dot matrix of display screen.

In concrete embodiment, can mutually judge that what kind of generates adjusts instruction in close position according to two pad.For example, when two horizontal screen displays of pad, show and carry out splicing unanimous between the higher and lower levels, namely splice on the limit 1 of first pad and the limit 2 of second pad, as shown in Figure 3, can generate an adjustment instruction that the dot array data of pad is above adjusted.Owing to being positioned at the dot matrix of display screen of the pad of below, be distributed as 1024 * 1024, the display screen that is positioned at the pad of top is that specification is consistent with the display screen that is positioned at the pad of below, when two pad splice by property unanimous between the higher and lower levels, owing to being positioned at the X value of the pad of top, be mutually to mate with the X value that is positioned at below, so only need to adjust being positioned at the Y value of the pad of top, such as, the Y value of below is from 0 to 1024 scope, and the Y value of top just need to be adjusted into from 1024 to 2048 value range.It is exactly 1024 * 2048 that the dot matrix of the whole screen after adjusting distributes, and for the touch point on pad up, if before adjusting the data of dot matrix distribution, the coordinate of this C is C(100, and 200), after having adjusted the distribution of dot array data.The left side of this C just becomes (100,1224).

Mode two, adjusts the X value in the dot matrix of display screen.

In concrete embodiment, when two pad are the consistent splicing in left and right, namely these two pad are that perpendicular screen display is when show, splice on the limit 2 of first pad and the limit 1 of second pad, as shown in Figure 4, can generate an adjustment instruction that the dot array data of the pad on the right is adjusted, owing to being positioned at the dot matrix of display screen of the pad on the left side, be distributed as 1024 * 1024, the display screen that is positioned at the pad on the right is that specification is consistent with the display screen that is positioned at the pad on the left side, when these two pad splice by left and right consistance, owing to being positioned at the Y value of the pad on the right, be mutually to mate with the Y value that is positioned at the left side, so only need to adjust being positioned at the X value of the pad on the right, such as, the X value on the left side is from 0 to 1024 scope, so, the X value of the pad on the right just need to be adjusted into from 1024 to 2048 value range, after adjustment, it is exactly 2048 * 1024 that the dot matrix of whole screen distributes, for example, on the display screen of second pad, before adjusting dot matrix distribution, there is the operation of a touch point, and, the coordinate of this D is D(600, 200), difficult, after adjusting through the dot matrix of this second pad is distributed, the coordinate information of this point just becomes D(1624, 200).

Mode three, to the X value in the dot matrix of display screen, Y value is all adjusted.

In concrete embodiment, after second pad is with respect to first pad Rotate 180 degree, splicing is on first pad time, namely, these two pad are that horizontal screen display is when show, splice with the limit 1 of first pad on the limit 1 of second pad, as shown in Figure 5, can generate the X value that a dot matrix to second pad distributes, the adjustment instruction that Y value is adjusted, owing to splicing the dot matrix of the display screen of first pad below, be distributed as 1024 * 1024, the pad of top is after Rotate 180 degree, first, the X value that the dot matrix of pad above adjusting distributes, because screen is put upside down, so, the distribution of X value now should be proofreaied and correct as 1024-X, then, adjust the Y value of the dot matrix distribution of this display screen, because Y value is also put upside down, so, the distribution of Y value now should be 2048-Y.Before adjusting dot matrix distribution, on second pad above the Ge of position, having the coordinate of 1 E is E(300,400), so, after adjusting dot matrix distribution, the coordinate of this point is adjusted to E(724, and 1648).

After second pad is with respect to first pad Rotate 180 degree, splicing is when first pad the right, that is to say that these two pad are that perpendicular screen display is shown, splice on the limit 2 of first pad and the limit 2 of second pad, as shown in Figure 6, also can generate the X value that a dot matrix to second of the right pad distributes, the adjustment instruction that Y value is adjusted, owing to splicing the dot matrix distribution of the display screen of second pad on the right, be similarly 1024 * 1024, second pad on the right is after first pad Rotate 180 degree with respect to the left side, first, the Y value that the dot matrix of pad on the right of adjusting distributes, because screen is to have put upside down, so, the distribution of Y value now should be proofreaied and correct as 1024-Y, then, adjust the X value of the dot matrix distribution of this display screen, because X value is also put upside down, so, the distribution of X value now should be proofreaied and correct as 2048-X.For example, the coordinate information of the coordinate of the touch point on second pad on the right before adjusting dot matrix distribution is F(500,400), after adjusting dot matrix distribution, the coordinate of this point is adjusted to F(524, and 1624).

By the dot matrix of the pad of splicing is distributed and to be proofreaied and correct, while having touch control operation on a pad therein, having on the display screen of other pad of splicing relation with this pad, corresponding also can respond this touch control operation.

Based on same inventive concept, the present invention provides a kind of electronic equipment by another embodiment of the application, this electronic equipment can be panel computer, smart mobile phone etc., as shown in Figure 7, this electronic equipment can splice to carry out data interaction and collaborative work with second electronic equipment with the second display unit, the first viewing area of described the first display unit and the second viewing area of described the second display unit are due to described the 3rd viewing area that is spliced to form, described electronic equipment comprises: the first detecting unit 10, for when described electronic equipment and described the second electronic equipment splice to carry out data interaction and collaborative work, detect and whether on the first display unit, touch control operation detected, obtain the first testing result, the first acquiring unit 20, for when described the first testing result shows touch control operation to be detected on the first display unit, obtains the touch-control origination point of described touch control operation with respect to first relative Ge information of described the first viewing area, second acquisition unit 30, the attitude parameter information while splicing for obtaining described the first electronic equipment and described the second electronic equipment, the first determining unit 40, for determining that based on described first relative Ge information and described attitude parameter information described touch-control origination point is with respect to second relative Ge information of described the 3rd viewing area.

Further, at described electronic equipment and described the second electronic equipment, splice to carry out in data interaction and collaborative work the size of described the first display unit and described the second display unit measure-alike.

Further, described second acquisition unit 30 is specially: the first magnetometric sensor by She Ge on the conflict limit of described the first electronic equipment obtains the conflict limit Wei Ge information of described the first electronic equipment and described the second electric room; Or the gyroscope in described the first electronic equipment obtains described the first electronic equipment and described the second electronic equipment when splicing by She Ge, the angular velocity component information in space three-dimensional direction.

Further, described second acquisition unit 30 is specially: according to institute's rheme Ge information or described angular velocity component information, determine the attitude parameter information of described the first electronic equipment and described the second electronic equipment.

Further, described electronic equipment specifically also comprises: judging unit, and one pre-conditioned for judging that whether described attitude parameter information meet, obtain the first judged result; Generation unit, described when pre-conditioned for showing that when described the first judged result described attitude parameter information meets, generate first and adjust instruction.

Further, described the first determining unit 40 is specially: when described adjustment instruction is the instruction of adjusting in the first default adjustment mode, carry out described adjustment instruction, based on the described second default adjustment mode, described first relative Ge adjusted, determine that described touch-control origination point is with respect to second relative Ge information of described the 3rd viewing area; Or when described adjustment instruction is the instruction of adjusting in the second default adjustment mode, carry out described adjustment instruction, based on the described second default adjustment mode, described first relative Ge adjusted, determine that described touch-control origination point is with respect to second relative Ge information of described the 3rd viewing area.

According to above-mentioned description, above-mentioned electronic equipment is adjusted display screen dot matrix for realizing above-mentioned splicing distributes, so the course of work of this electronic equipment is consistent with one or more embodiment of said method, at this, has not just repeated one by one.

Technical scheme in above-mentioned the embodiment of the present application, at least has following technique effect or advantage:

1, because adopting, this programme determines that based on first relative Ge information and attitude parameter information touch-control origination point is with respect to the technical scheme of second relative Ge information of the 3rd viewing area, so efficiently solving in prior art the first electronic equipment and the second electronic equipment is stitched together common while showing an image, while doing the operation of touch-control on the display screen at the first electronic equipment, on the display screen of the second electronic equipment, can not correspondingly respond this touch control operation, although two electronic equipments are stitched together, a part that shows separately view picture picture, but, dot array data on the touch-screen of these two electronic equipments does not change, so, in prior art when two electronic equipments are stitched together and have touch control operation on the touch-screen of an electronic equipment therein, the demonstration data of existence on two touch-screens of these two electronic equipments can not keep the technical matters of corresponding relation.And then the dot matrix of having realized the display screen of spliced two electronic equipments technique effect of coupling mutually that distributes.

2, because this programme adopts based on the first default adjustment mode or the second default adjustment mode, first relative Ge adjusted, determine that touch-control origination point is with respect to the technical scheme of second relative Ge information of the 3rd viewing area, efficiently solve in prior art only electronic equipment is spliced from a direction, after having changed the direction of one of them electronic equipment, just exist a part of picture of the view picture picture showing on this electronic equipment will form with another part picture of the view picture picture that shows on another electronic equipment the technical matters of dislocation, and then realized the technique effect that can splice electronic equipment by multiple angles orientation.

Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt complete hardware implementation example, implement software example or in conjunction with the form of the embodiment of software and hardware aspect completely.And the present invention can adopt the form that wherein includes the upper computer program of implementing of computer-usable storage medium (including but not limited to magnetic disk memory, CD-ROM, optical memory etc.) of computer usable program code one or more.

The present invention is with reference to describing according to process flow diagram and/or the block scheme of the method for the embodiment of the present invention, equipment (system) and computer program.Should understand can be in computer program instructions realization flow figure and/or block scheme each flow process and/or the flow process in square frame and process flow diagram and/or block scheme and/or the combination of square frame.Can provide these computer program instructions to the processor of multi-purpose computer, special purpose computer, Embedded Processor or other programmable data processing device to produce a machine, the instruction of carrying out by the processor of computing machine or other programmable data processing device is produced for realizing the dress Ge in the function of flow process of process flow diagram or a plurality of flow process and/or square frame of block scheme or a plurality of square frame appointments.

These computer program instructions also can be stored in energy vectoring computer or the computer-readable memory of other programmable data processing device with ad hoc fashion work, the instruction that makes to be stored in this computer-readable memory produces the manufacture that comprises finger order dress Ge, and this refers to the function of order dress Ge realization appointment in flow process of process flow diagram or a plurality of flow process and/or square frame of block scheme or a plurality of square frame.

These computer program instructions also can be loaded in computing machine or other programmable data processing device, make to carry out sequence of operations step to produce computer implemented processing on computing machine or other programmable devices, thereby the instruction of carrying out is provided for realizing the step of the function of appointment in flow process of process flow diagram or a plurality of flow process and/or square frame of block scheme or a plurality of square frame on computing machine or other programmable devices.

Although described the preferred embodiments of the present invention, once those skilled in the art obtain the basic creative concept of cicada, can make other change and modification to these embodiment.So claims are intended to all changes and the modification that are interpreted as comprising preferred embodiment and fall into the scope of the invention.

Obviously, those skilled in the art can carry out various changes and modification and not depart from the spirit and scope of the present invention the present invention.Like this, if within of the present invention these are revised and modification belongs to the scope of the claims in the present invention and equivalent technologies thereof, the present invention is also intended to comprise these changes and modification interior.

Claims (12)

1. the method for an information processing, in the first electronic equipment that is applied to comprise the first display unit, described the first electronic equipment can splice to carry out data interaction and collaborative work with second electronic equipment with the second display unit, the first viewing area of described the first display unit and the second viewing area of described the second display unit are due to described the 3rd viewing area that is spliced to form, it is characterized in that, described method comprises:

When described the first electronic equipment and described the second electronic equipment splice to carry out data interaction and collaborative work, detect whether on the first display unit, touch control operation detected, obtain the first testing result;

When described the first testing result shows touch control operation to be detected on the first display unit, obtain the touch-control origination point of described touch control operation with respect to the first-phase location information of described the first viewing area;

Attitude parameter information while obtaining described the first electronic equipment and described the second electronic equipment splicing;

Based on described first-phase location information and described attitude parameter information, determine that described touch-control origination point is with respect to the second-phase location information of described the 3rd viewing area.

2. the method for claim 1, is characterized in that, splices to carry out in data interaction and collaborative work described the first display unit size and described the second display unit measure-alike at described the first electronic equipment and described the second electronic equipment.

3. the method for claim 1, is characterized in that, attitude parameter information when described the first electronic equipment of described acquisition and described the second electronic equipment splicing, is specially:

By being arranged on first magnetometric sensor on the conflict limit of described the first electronic equipment, obtain the positional information on the conflict limit of described the first electronic equipment and described the second electric room; Or

By being arranged on gyroscope in described the first electronic equipment, obtain described the first electronic equipment and described the second electronic equipment when the splicing, the angular velocity component information in space three-dimensional direction.

4. method as claimed in claim 3, is characterized in that, attitude parameter information when described the first electronic equipment of described acquisition and described the second electronic equipment splicing, is specially:

According to described positional information or described angular velocity component information, determine the attitude parameter information of described the first electronic equipment and described the second electronic equipment.

5. the method for claim 1, is characterized in that, after the attitude parameter information of described the first electronic equipment of described acquisition and described the second electronic equipment, described method also comprises:

Judge that whether described attitude parameter information meet one pre-conditioned, obtain the first judged result;

When described the first judged result, to show that described attitude parameter information meets described when pre-conditioned, generates first and adjust instruction.

6. method as claimed in claim 5, is characterized in that, describedly based on described first-phase location information and described attitude parameter information, determines that described touch-control origination point, with respect to the second-phase location information of described the 3rd viewing area, is specially:

When described adjustment instruction is the instruction of adjusting in the first default adjustment mode, carry out described adjustment instruction, based on the described first default adjustment mode, described the first relative position is adjusted, determined that described touch-control origination point is with respect to the second-phase location information of described the 3rd viewing area; Or

When described adjustment instruction is the instruction of adjusting in the second default adjustment mode, carry out described adjustment instruction, based on the described second default adjustment mode, described the first relative position is adjusted, determined that described touch-control origination point is with respect to the second-phase location information of described the 3rd viewing area.

7. an electronic equipment, described electronic equipment comprises the first display unit, described electronic equipment can splice to carry out data interaction and collaborative work with second electronic equipment with the second display unit, the first viewing area of described the first display unit and the second viewing area of described the second display unit are due to described the 3rd viewing area that is spliced to form, it is characterized in that, described electronic equipment comprises:

The first detecting unit, for when described electronic equipment and described the second electronic equipment splice to carry out data interaction and collaborative work, detects whether on the first display unit, touch control operation detected, obtains the first testing result;

The first acquiring unit, for when described the first testing result shows touch control operation to be detected on the first display unit, obtains the touch-control origination point of described touch control operation with respect to the first-phase location information of described the first viewing area;

Second acquisition unit, the attitude parameter information while splicing for obtaining described the first electronic equipment and described the second electronic equipment;

The first determining unit, for determining that based on described first-phase location information and described attitude parameter information described touch-control origination point is with respect to the second-phase location information of described the 3rd viewing area.

8. electronic equipment as claimed in claim 7, is characterized in that, splices to carry out in data interaction and collaborative work the size of described the first display unit and described the second display unit measure-alike at described electronic equipment and described the second electronic equipment.

9. electronic equipment as claimed in claim 7, is characterized in that, described second acquisition unit is specially:

By being arranged on first magnetometric sensor on the conflict limit of described the first electronic equipment, obtain the positional information on the conflict limit of described the first electronic equipment and described the second electric room; Or

By being arranged on gyroscope in described the first electronic equipment, obtain described the first electronic equipment and described the second electronic equipment when the splicing, the angular velocity component information in space three-dimensional direction.

10. electronic equipment as claimed in claim 9, is characterized in that, described second acquisition unit is specially:

According to described positional information or described angular velocity component information, determine the attitude parameter information of described the first electronic equipment and described the second electronic equipment.

11. electronic equipments as claimed in claim 7, is characterized in that, described electronic equipment specifically also comprises:

Judging unit, one pre-conditioned for judging that whether described attitude parameter information meet, obtain the first judged result;

Generation unit, described when pre-conditioned for showing that when described the first judged result described attitude parameter information meets, generate first and adjust instruction.

12. electronic equipments as claimed in claim 7, is characterized in that, described the first determining unit is specially:

When described adjustment instruction is the instruction of adjusting in the first default adjustment mode, carry out described adjustment instruction, based on the described second default adjustment mode, described the first relative position is adjusted, determined that described touch-control origination point is with respect to the second-phase location information of described the 3rd viewing area; Or

When described adjustment instruction is the instruction of adjusting in the second default adjustment mode, carry out described adjustment instruction, based on the described second default adjustment mode, described the first relative position is adjusted, determined that described touch-control origination point is with respect to the second-phase location information of described the 3rd viewing area.