CN104965657B - Method of toch control and device - Google Patents

Abstract

The invention discloses a kind of method and devices of touch control.The described method includes: obtaining the first track in the first display area；When the terminal of first track passes through the edge of first display area, the second track is obtained in the second display area, the starting point of second track is located at the edge of second display area；Calculate the first movement tendency of first track and the second movement tendency of second track；Target instruction target word is determined according to first movement tendency and second movement tendency.First track and the second track can be combined by the present invention, target instruction target word is determined according to the movement tendency of twice track, the identifiable slide type of abundant Dual-band Handy Phone, make user that the data in double screen can be realized by a coherent slide to handle, improves operating efficiency.

Description

Method of toch control and device

Technical field

The present embodiments relate to electronic apparatus application technology more particularly to a kind of method and devices of touch control.

Background technique

With the continuous development of smart phone, it is more next to be unable to satisfy user since the content of its display is limited for single screen mobile phone Higher use demand.Based on this, Dual-band Handy Phone is developed and comes across terminal market.

There are two display screens for Dual-band Handy Phone tool, as shown in Figure 1, be located on two corresponding surfaces of mobile phone, it is double in Fig. 1 One display screen (also known as main display) of screen mobile phone is located in the face a, another display screen (also known as auxiliary display screen) is located at the face b In.Two screens of Dual-band Handy Phone can show different contents respectively, to provide more information and service, user for user Mobile phone is controlled by carrying out touch operation in different screens.For example, multiple application icons are shown in a screen, User clicks picture and enters application.Pass through clock display time and log, user's reading time and the day of writing in another screen Will.

Since two screens of Dual-band Handy Phone are independent from each other, the touching technique used on current Dual-band Handy Phone is only It is directed to a touch screen, for example, user wishes for some icon in main screen to be added in auxiliary screen, user needs at this time The icon is deleted in main screen, and adds the icon in auxiliary screen, operating efficiency is low.

Summary of the invention

The present invention provides a kind of method and device of touch control, to realize the touching in two touch screens of Dual-band Handy Phone It touches operation to be combined, improves operating efficiency.

In a first aspect, the embodiment of the invention provides a kind of methods of touch control, comprising:

The first track is obtained in the first display area；

When the terminal of first track passes through the edge of first display area, the is obtained in the second display area Two tracks, the starting point of second track are located at the edge of second display area；

Calculate the first movement tendency of first track and the second movement tendency of second track；

Target instruction target word is determined according to first movement tendency and second movement tendency.

Second aspect, the embodiment of the invention also provides a kind of devices of touch control, comprising:

First track acquiring unit, for obtaining the first track in the first display area；

Second track acquiring unit passes through the edge of first display area for the terminal when first track When, the second track is obtained in the second display area, the starting point of second track is located at the edge of second display area；

Movement tendency computing unit, first of first track for calculating the acquisition of first track acquiring unit Second movement tendency of second track that movement tendency and second track acquiring unit obtain；

Target instruction target word determination unit, first movement tendency for being obtained according to the movement tendency computing unit and Second movement tendency determines target instruction target word.

The present invention can obtain the first track in the first display area, when the first track reaches the side of the first display area When edge, the second track is obtained in the second display area, the movement tendency according to the movement tendency of the first track and the second track is true Set the goal instruction.It, can not will be in two display screens with the slip instruction of Dual-band Handy Phone in the prior art just for a display screen Sliding trace be combined and compare, the first track and the second track can be combined by the present invention, according to twice track Movement tendency determines target instruction target word, enriches the identifiable slide type of Dual-band Handy Phone, keeps user coherent by one Slide can be realized the data in double screen and be handled, and improve operating efficiency.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of prior art Dual-band Handy Phone；

Fig. 2 is the flow chart of the method for a touch control in the embodiment of the present invention one；

Fig. 3 is the structural schematic diagram of a Dual-band Handy Phone in the embodiment of the present invention one；

Fig. 4 is a movement tendency schematic diagram in the embodiment of the present invention one；

Fig. 5 is the flow chart of the method for first touch control in the embodiment of the present invention two；

Fig. 6 is an invalid identification region division schematic diagram in the embodiment of the present invention two；

Fig. 7 is the flow chart of the method for second touch control in the embodiment of the present invention two；

Fig. 8 is the flow chart of the method for the third touch control in the embodiment of the present invention two；

Fig. 9 is the flow chart of the method for the 4th touch control in the embodiment of the present invention two；

Figure 10 is the flow chart of the method for the 5th touch control in the embodiment of the present invention two；

Figure 11 is the structural schematic diagram of the device of a touch control in the embodiment of the present invention three；

Figure 12 is the structural schematic diagram of the device of another touch control in the embodiment of the present invention three.

Specific embodiment

The present invention is described in further detail with reference to the accompanying drawings and examples.It is understood that this place is retouched The specific embodiment stated is used only for explaining the present invention rather than limiting the invention.It also should be noted that in order to just Only the parts related to the present invention are shown in description, attached drawing rather than entire infrastructure.

Embodiment one

Fig. 2 is the flow chart of the method for the touch control that the embodiment of the present invention one provides, and the present embodiment is applicable to double screen Terminal carries out the case where touch control, and this method can be executed by the terminal with double-display screen, double screen terminal such as double screen hand Machine, double screen flat computer etc., it should be noted that two screens of double screen terminal are in addition to that can be located at as shown in Figure 1 two It, can be as shown in figure 3, being located on two adjacent faces c and the face d, and two display screens can receive user on corresponding surface Touch command.Shown method specifically comprises the following steps:

Step 110 obtains the first track in the first display area.

First display area can be the corresponding region of a display screen of double screen terminal.After double screen terminal unlocking, The sliding trace for whether having user to trigger is monitored in first display area.If so, then receiving the sliding trace of user's input.

Step 120, when the terminal of the first track passes through the edge of the first display area, obtain the in the second display area Two tracks.

Wherein, the starting point of the second track is located at the edge of the second display area.

When the finger of user touches the first display area, the coordinate points that user touches are determined as first by double screen terminal The starting point of track.First track is generated with the sliding of user's finger, and the terminal of the first track is as user's finger is first Movement in display area constantly changes.When user's finger marks the first display area, the terminal of the first track reaches first The edge of display area, at this point, detecting sliding trace of the user from the second display area edge-triggered in the second display area. If there is the track, then the track is the second track；Otherwise at according to the first track to the data in the first display area Reason, such as user carry out screen sliding operation in the first display area.

Second movement tendency of step 130, the first movement tendency for calculating the first track and the second track.

Movement tendency is used to indicate the whole slide direction of sliding trace.Movement tendency be parallel sliding, slide downward or Upward sliding.As shown in figure 4, when finger from screen lower left the top right of screen when sliding, the cunning of the sliding trace a of generation Dynamic trend is upward sliding.When finger from screen upper left screen lower right slide when, the sliding of the sliding trace b of generation Trend is slide downward.When the sliding of sliding trace level, the tendency toward sliding of the sliding trace c of generation is parallel sliding.

Step 140 determines target instruction target word according to the first movement tendency and the second movement tendency.

Terminal can obtain the different corresponding different target instruction target words of tendency toward sliding combination according to mapping table, and target refers to It enables and is used for performance objective program or displaying target interface.Target instruction target word can be, but not limited to any one of following instructions: icon Move, program enabled instruction, multimedia instruction etc..Icon move be used for by the first track starting point it is corresponding with Chart is moved to the corresponding coordinate position of the second final on trajectory.Program enabled instruction is used to start the program subscribed.Multimedia is broadcast Instruction is put for adjusting multimedia progress and multimedia volume.

It illustrates as one: when user in the first display area float on some icon by long-pressing finger, then icon presentation Dynamic effect, user's horizontal sliding in the first display area at this time, by the icon drag to the first display area edge.If with The tendency toward sliding for the second track that family is triggered in the second display area is upward sliding, then addition should in the second display area Icon, and retain the icon in the first display area.If the cunning for the second track that user triggers in the second display area Dynamic trend is horizontal sliding, then the icon is added in the second display area, and the icon is deleted in the first display area.

As another citing, when finger does not carry out long-pressing in the first display area, but only carries out sliding and generate the When one track, mapping table is as shown in table 1, and which includes the movement tendencies of the movement tendency of the first track and the second track With the corresponding relationship of the application program of starting.

Table 1

The movement tendency of first track	The movement tendency of second track	Application program
			In parallel	In parallel	Start unlock interface
In parallel	Upwards	Start music playing process
			In parallel	Downwards	Start instant chat program
Upwards	In parallel	Start multimedia playing program
			…	…	…
Downwards	Downwards	Start voice communication software

Technical solution provided in this embodiment can obtain the first track in the first display area, when the first track is arrived Up to the first display area edge when, the second track is obtained in the second display area, according to the movement tendency of the first track and the The movement tendency of two tracks determines target instruction target word.With the slip instruction of Dual-band Handy Phone in the prior art just for a display screen, Sliding trace in two display screens can not be combined and be compared, the present embodiment can carry out the first track and the second track In conjunction with, target instruction target word is determined according to the movement tendency of twice track, enrich Dual-band Handy Phone identifiable slide type, make User can be realized the data in double screen by a coherent slide and handle, and improve operating efficiency.

Embodiment two

Inventors have found that two display screens when double screen terminal are located at two corresponding surfaces when stating embodiment in realization When upper, since the edge that user's handheld terminal can accidentally touch display screen can at this time if double screen terminal identifies edge Misrecognition is generated, touch-control effect is influenced.

Based on this, the embodiment of the invention also provides a kind of methods of touch control, as to the specific of above-described embodiment Illustrate, as shown in figure 5, step 120, when the terminal of first track passes through the edge of first display area, the Two display areas obtain the second track, can be implemented by following manner:

Step 120 ', when the terminal of the first track pass through the first display area recognizable edge when, in the second viewing area Domain obtains the second track, can recognize that edge is pre-determined distance value at a distance from the edge of the first display area.

In the present embodiment, the two sides of the first display area and the second display area are provided with invalid identification region, I.e. using generation, accidentally touching will not be identified in the invalid identification region.As shown in fig. 6, in the first display area, two sides Respectively by being equipped with an invalid identification region, centre is equipped with effective identification region.The length in invalid identification region and the first display Region is identical, and width is pre-determined distance value.Pre-determined distance value can be fixed value, such as 1cm；It is also possible to the first display area The presupposition multiple of width, the presupposition multiple is less than 1, such as 1/10.Region of first display area in addition to invalid identification region For effective identification region, the boundary in effective identification region and invalid identification region is that can recognize edge.

Correspondingly, the two sides of the second display area are again provided with invalid identification region.At this point, being obtained in the second display area The second track is taken, is equivalent to, obtains the second track in the recognizable edge of the second display area.

Technical solution provided in this embodiment can reduce what accidentally touching operated Double-screen touch-control by invalid identification region It influences, improves the accuracy of identification.

Inventor also found, after finger leaves the first display area, can not be moved at once in the second display area.Separately Outside, after the first display area obtains the first track, if continuing the sliding trace inputted in the second display area monitoring users, It is easy to wait or cause to judge by accident for a long time.

Based on this, the embodiment of the invention also provides a kind of methods of touch control as to the further of above-described embodiment Illustrate, as shown in fig. 7, step 120, when the terminal of first track passes through the edge of first display area, the Two display areas obtain the second track, can also be implemented by following manner:

Step 121, when the terminal of the first track pass through the first display area edge when, start timing.

The edge can be the actual edge of the first display area, be also possible to the recognizable edge of the first display area.

Step 122a, when timing result is less than preset threshold, the second track is obtained in the second display area.

Preset threshold is for being moved to the time of second area after indicating that user's finger is left from first area.Default threshold Value can be 1/3 second, 0.5 second etc..

Step 122b, when timing result is more than or equal to preset threshold, according to the first track in the first display area Data are handled.

If exceeding preset threshold, it is equivalent to the touch control of single screen terminal, determines that its is corresponding according to the first track Operational order, and execute the operational order.

Technical solution provided in this embodiment, can the terminal of the first track reach the first display area edge when, The second track is obtained by the second display area in preset threshold, avoids misidentifying, further increases touch-control efficiency.

When calculating the movement tendency of the first track and the second track, judge that the mode of movement tendency is identical.With the first rail For mark, the coordinate points that can be passed through according to the first track generate the first track respective function, obtain the by analyzing the function The movement tendency of one track, this mode is more complicated, and the system resource of occupancy is more.

In order to reduce the system resource occupied when analysis movement tendency, the embodiment of the invention also provides a kind of touch controls Method, as the further explanation to above-described embodiment, as shown in figure 8, calculating the first of first track in step 130 Movement tendency can be implemented by following manner:

Step 131, the beginning and end for obtaining the first track.

When finger contacts the first display area, the starting point (x of the first track is obtained₁, y₁).When the first track passes through first When edge (or recognizable edge) of display area, by the edge (or recognizable edge) of the first track and the first display area Intersection point is determined as the terminal (x of the first track₂, y₂)。

Step 132 determines first slope according to the starting point of the first track and the terminal of the first track.

First slopeWherein, α is tilt angle, and k is first slope.

Step 133 determines the first movement tendency according to first slope.

When first slope is positive number, the movement tendency of the first track is upward sliding.When first slope is 0, first The movement tendency of track is parallel sliding.When first slope is negative, the movement tendency of the first track is slide downward.

Correspondingly, calculating the of the second track in step 130 and movement tendency, can be implemented by following manner:

Step 134, the beginning and end for obtaining the second track.

Step 135 determines the second slope according to the starting point of the second track and the terminal of the second track.

Step 136 determines the second movement tendency according to the second slope.

The determination of second movement tendency of the second track can refer to the first movement tendency and be determined, and be not repeated herein.

It should be noted that in the second movement tendency of the first movement tendency and the second track that judge the first track, One can be selected, movement tendency is determined by beginning and end, also can be used simultaneously aforesaid way and determine movement tendency.

Technical solution provided in this embodiment can determine the movement tendency of track according to the beginning and end of track, letter Change the decision process of movement tendency, saves system resource.

For user when touching, timely user wishes that parallel track is touched in sliding, but it is possible that movement misses Difference, so that the beginning and end of sliding trace not in the same horizontal line, so that calculated slope is not 0, and then causes to know It does not malfunction.

Based on this, the embodiment of the invention also provides a kind of method of touch control, as to above-described embodiment into one Step explanation can be carried out as shown in figure 9, step 133, according to the first slope determining the first movement tendency by following manner Implement:

Step 133a, when first slope is at first slope section, determine that the first movement tendency is slide downward, first tiltedly Two endpoints in rate section are respectively less than zero.

First slope section corresponds to slide downward, that is, tilts down.As an example, first slope section is corresponding inclines Rake angle is -10 degree to -90 degree, and value is -0.64 (tan-10)~- ∞.

Step 133b, when first slope is at the second slope section, determine that the first movement tendency is parallel sliding, second tiltedly For one endpoint in rate section less than zero, another endpoint is greater than zero.

Second slope section corresponds to parallel sliding, i.e., horizontal.As an example, the corresponding inclination angle in first slope section Degree is -10 degree to+10 degree, and value is -0.64 (tan-10)~+0.64 (tan10).

Step 133c, when first slope is at third slope section, determine that the first movement tendency is upward sliding, third is oblique Two endpoints in rate section are all larger than zero.

Third slope section corresponds to upward sliding, i.e. inclination upwards.As an example, first slope section is corresponding inclines Rake angle is 10 degree to+90 degree, and value is+0.64 (tan10)~+∞.

Correspondingly, as shown in Figure 10, step 136 determines the second movement tendency according to second slope, can be by following Mode is implemented:

Step 136a, when the second slope is at first slope section, determine that the second movement tendency is slide downward.

Step 136b, when the second slope is at the second slope section, determine that the second movement tendency is parallel sliding.

Step 136c, when the second slope is at third slope section, determine that the second movement tendency is upward sliding.

Technical solution provided in this embodiment can provide certain error space for user, be that user is carrying out in parallel When sliding, can have on a small quantity cheaply, improve user experience while reducing wrong identification.

Embodiment three

The embodiment of the invention also provides a kind of devices of touch control, for realizing side provided by above-described embodiment Method, described device, which is located at, to be had in the terminal there are two display area, as shown in figure 11, comprising:

First track acquiring unit 11, for obtaining the first track in the first display area；

Second track acquiring unit 12 passes through the edge of first display area for the terminal when first track When, the second track is obtained in the second display area, the starting point of second track is located at the edge of second display area；

Movement tendency computing unit 13, for calculating first track of the acquisition of first track acquiring unit 11 Second movement tendency of second track that the first movement tendency and second track acquiring unit 12 obtain；

Target instruction target word determination unit 14, first movement for being obtained according to the movement tendency computing unit 13 become Gesture and second movement tendency determine target instruction target word.

Further, second track acquiring unit 12 is used for, when the terminal of first track passes through described first When the recognizable edge of display area, the second track is obtained in the second display area, the recognizable edge is aobvious with described first The distance for showing the edge in region is pre-determined distance value.

Further, second track acquiring unit 12 is also used to:

When the terminal of first track passes through the edge of first display area, start timing；

When timing result is less than preset threshold, second track is obtained in second display area.

Further, as shown in figure 12, the movement tendency computing unit 13, comprising:

First obtains subelement 131, for obtaining the beginning and end of first track；

First slope determines subelement 132, for obtaining first track that subelement 131 obtains according to described first Starting point and the terminal of first track determine the first slope；

First trend determines subelement 133, for determining determining described first of subelement 132 according to the first slope Slope determines first movement tendency；

Second obtains subelement 134, for obtaining the beginning and end of second track；

Second slope determines subelement 135, for obtaining second track that subelement 134 obtains according to described second Starting point and the terminal of second track determine second slope；

Second trend determines subelement 136, for determining determining described second of subelement 135 according to second slope Slope determines second movement tendency.

Further, the movement tendency includes: parallel sliding, slide downward and upward sliding；

The first trend determines subelement 133, is used for:

When the first slope is at first slope section, determine that first movement tendency is slide downward, described the Two endpoints in one slope section are respectively less than zero；

When the first slope is at the second slope section, determine that first movement tendency is parallel sliding, described the For one endpoint in two slope sections less than zero, another endpoint is greater than zero；

When the first slope is at third slope section, determine that first movement tendency is upward sliding, described the Two endpoints in three slope sections are all larger than zero；

The second trend determines subelement 136, is used for:

When second slope is at the first slope section, determine that second movement tendency is slide downward；

When second slope is at the second slope section, determine that second movement tendency is parallel sliding；

When second slope is at the third slope section, determine that second movement tendency is upward sliding.

Note that the above is only a better embodiment of the present invention and the applied technical principle.It will be appreciated by those skilled in the art that The invention is not limited to the specific embodiments described herein, be able to carry out for a person skilled in the art it is various it is apparent variation, It readjusts and substitutes without departing from protection scope of the present invention.Therefore, although being carried out by above embodiments to the present invention It is described in further detail, but the present invention is not limited to the above embodiments only, without departing from the inventive concept, also It may include more other equivalent embodiments, and the scope of the invention is determined by the scope of the appended claims.

Claims (14)

1. a kind of method of touch control characterized by comprising

The first track is obtained in the first display area；

When the terminal of first track pass through first display area recognizable edge when, in the second display area can It identifies and obtains the second track in edge；Wherein, the two sides of first display area and the second display area are provided in vain Identification region, the region in addition to invalid identification region are effective identification region；Effective identification region and invalid identification region Have a common boundary to can recognize edge；The recognizable edge of first display area is at a distance from the edge of first display area Pre-determined distance value；The starting point of second track is located at the recognizable edge of second display area；

Calculate the first movement tendency of first track and the second movement tendency of second track；

Target instruction target word is determined according to first movement tendency and second movement tendency.

2. the method for touch control according to claim 1, which is characterized in that described when the terminal of first track passes through When crossing the edge of first display area, the second track is obtained in the second display area, comprising:

When the terminal of first track passes through the edge of first display area, start timing；

When timing result is less than preset threshold, second track is obtained in second display area.

3. the method for touch control according to claim 1 or 2, which is characterized in that calculating first track First movement tendency, comprising:

Obtain the beginning and end of first track；

First slope is determined according to the terminal of the starting point of first track and first track；

First movement tendency is determined according to the first slope.

4. the method for touch control according to claim 3, which is characterized in that described to determine according to the first slope One movement tendency, comprising:

When the first slope is at first slope section, determine that first movement tendency is slide downward, described first tiltedly Two endpoints in rate section are respectively less than zero；

When the first slope is at the second slope section, determine that first movement tendency is parallel sliding, described second tiltedly For one endpoint in rate section less than zero, another endpoint is greater than zero；

When the first slope is at third slope section, determine that first movement tendency is upward sliding, the third is oblique Two endpoints in rate section are all larger than zero.

5. the method for touch control according to claim 1 or 2, which is characterized in that calculating second track Second movement tendency, comprising:

Obtain the beginning and end of second track；

The second slope is determined according to the terminal of the starting point of second track and second track；

Second movement tendency is determined according to second slope.

6. the method for touch control according to claim 5, which is characterized in that described to determine according to second slope Two movement tendencies, comprising:

When second slope is at first slope section, determine that second movement tendency is slide downward, described first tiltedly Two endpoints in rate section are respectively less than zero；

When second slope is at the second slope section, determine that second movement tendency is parallel sliding, described second tiltedly For one endpoint in rate section less than zero, another endpoint is greater than zero；

When second slope is at third slope section, determine that second movement tendency is upward sliding, the third is oblique Two endpoints in rate section are all larger than zero.

7. the method for touch control according to claim 1 or 2, which is characterized in that calculating first track First movement tendency, comprising:

Obtain the beginning and end of first track；

First slope is determined according to the terminal of the starting point of first track and first track；

First movement tendency is determined according to the first slope；

Second movement tendency for calculating second track, comprising:

Obtain the beginning and end of second track；

The second slope is determined according to the terminal of the starting point of second track and second track；

Second movement tendency is determined according to second slope.

8. the method for touch control according to claim 7, which is characterized in that described to determine according to the first slope One movement tendency, comprising:

When the first slope is at first slope section, determine that first movement tendency is slide downward, described first tiltedly Two endpoints in rate section are respectively less than zero；

When the first slope is at the second slope section, determine that first movement tendency is parallel sliding, described second tiltedly For one endpoint in rate section less than zero, another endpoint is greater than zero；

When the first slope is at third slope section, determine that first movement tendency is upward sliding, the third is oblique Two endpoints in rate section are all larger than zero.

9. the method for touch control according to claim 7, which is characterized in that described to determine according to second slope Two movement tendencies, comprising:

When second slope is at first slope section, determine that second movement tendency is slide downward, described first tiltedly Two endpoints in rate section are respectively less than zero；

When second slope is at the second slope section, determine that second movement tendency is parallel sliding, described second tiltedly For one endpoint in rate section less than zero, another endpoint is greater than zero；

When second slope is at third slope section, determine that second movement tendency is upward sliding, the third is oblique Two endpoints in rate section are all larger than zero.

10. the method for touch control according to claim 7, which is characterized in that described to be determined according to the first slope First movement tendency, comprising:

When the first slope is at first slope section, determine that first movement tendency is slide downward, described first tiltedly Two endpoints in rate section are respectively less than zero；

When the first slope is at the second slope section, determine that first movement tendency is parallel sliding, described second tiltedly For one endpoint in rate section less than zero, another endpoint is greater than zero；

When the first slope is at third slope section, determine that first movement tendency is upward sliding, the third is oblique Two endpoints in rate section are all larger than zero；

It is described that second movement tendency is determined according to second slope, comprising:

When second slope is at the first slope section, determine that second movement tendency is slide downward；

When second slope is at the second slope section, determine that second movement tendency is parallel sliding；

When second slope is at the third slope section, determine that second movement tendency is upward sliding.

11. a kind of device of touch control characterized by comprising

First track acquiring unit, for obtaining the first track in the first display area；

Second track acquiring unit passes through the recognizable edge of first display area for the terminal when first track When, the second track is obtained in the recognizable edge of the second display area；Wherein, first display area and the second viewing area The two sides in domain are provided with invalid identification region, and the region in addition to invalid identification region is effective identification region；Effectively identification The boundary in region and invalid identification region is that can recognize edge；The recognizable edge of first display area is aobvious with described first The distance for showing the edge in region is pre-determined distance value；The starting point of second track is located at can recognize for second display area Edge；

Movement tendency computing unit, the first movement of first track for calculating the acquisition of first track acquiring unit Second movement tendency of second track that trend and second track acquiring unit obtain；

Target instruction target word determination unit, first movement tendency for being obtained according to the movement tendency computing unit and described Second movement tendency determines target instruction target word.

12. the device of touch control according to claim 11, which is characterized in that second track acquiring unit is also used In:

When the terminal of first track passes through the edge of first display area, start timing；

When timing result is less than preset threshold, second track is obtained in second display area.

13. the device of touch control according to claim 11 or 12, which is characterized in that the movement tendency calculates single Member, comprising:

First obtains subelement, for obtaining the beginning and end of first track；

First slope determines subelement, for obtaining starting point and the institute of first track that subelement obtains according to described first The terminal for stating the first track determines the first slope；

First trend determines subelement, and the first slope for determining that subelement determines according to the first slope determines institute State the first movement tendency；

Second obtains subelement, for obtaining the beginning and end of second track；

Second slope determines subelement, for obtaining starting point and the institute of second track that subelement obtains according to described second The terminal for stating the second track determines second slope；

Second trend determines subelement, and second slope for determining that subelement determines according to second slope determines institute State the second movement tendency.

14. the device of touch control according to claim 13, which is characterized in that the first trend determines subelement, For:

When the first slope is at first slope section, determine that first movement tendency is slide downward, described first tiltedly Two endpoints in rate section are respectively less than zero；

When the first slope is at the second slope section, determine that first movement tendency is parallel sliding, described second tiltedly For one endpoint in rate section less than zero, another endpoint is greater than zero；

When the first slope is at third slope section, determine that first movement tendency is upward sliding, the third is oblique Two endpoints in rate section are all larger than zero；

The second trend determines subelement, is used for:

When second slope is at the first slope section, determine that second movement tendency is slide downward；

When second slope is at the second slope section, determine that second movement tendency is parallel sliding；

When second slope is at the third slope section, determine that second movement tendency is upward sliding.