CN104965657A - Touch control method and apparatus - Google Patents

Abstract

The invention discloses a touch control method and apparatus. The method comprises the steps of: obtaining a first track in a first display region; when the end point of the first track passes through the edge of the first display region, obtaining a second track in a second display region, wherein the start point of the second track is positioned on the edge of the second display region; calculating first motion trend of the first track and second motion trend of a second track; and determining a target instruction according to the first motion trend and the second motion trend. According to the touch control method and apparatus, the first track and the second track can be combined and the target instruction is determined according to the motion trends of the two tracks, so that identifiable slide operation types of a double-screen mobile phone are enriched, a user can realize processing of data in double screens through a continuous slide operation, and the operation efficiency is improved.

Description

Method of toch control and device

Technical field

The embodiment of the present invention relates to electronic apparatus application technology, particularly relates to a kind of method and device of touch control.

Background technology

Along with the development of smart mobile phone, the content that single screen mobile phone shows due to it is limited, cannot meet the user demand that user is more and more higher.Based on this, Dual-band Handy Phone is developed and comes across terminal market.

Dual-band Handy Phone has two display screens, as shown in Figure 1, lay respectively on two corresponding surfaces of mobile phone, in Fig. 1, a display screen (also known as main display) of Dual-band Handy Phone is arranged in a face, and another display screen (also known as auxiliary display screen) is arranged in b face.Two screens of Dual-band Handy Phone can show different contents respectively, to provide more information and service for user, user controls mobile phone by carrying out touch operation in different screens.Such as, show multiple application icon in a screen, user clicks picture and enters application.By clock display time and daily record in another screen, user's reading time also writes daily record.

Because two screens of Dual-band Handy Phone are separate, therefore the touching technique current Dual-band Handy Phone used only is directed to a touch-screen, such as, user wishes certain icon in main screen to add in auxiliary screen, now user needs to delete this icon at main screen, and this icon is added in auxiliary screen, operating efficiency is low.

Summary of the invention

The invention provides a kind of method and device of touch control, to realize the touch operation in two of Dual-band Handy Phone touch-screens to combine, improve operating efficiency.

First aspect, embodiments provides a kind of method of touch control, comprising:

The first track is obtained in the first viewing area;

When the terminal of described first track is through the edge of described first viewing area, obtain the second track in the second viewing area, the starting point of described second track is positioned at the edge of described second viewing area;

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

According to described first movement tendency and described second movement tendency determination target instruction target word.

Second aspect, the embodiment of the present invention additionally provides a kind of device of touch control, comprising:

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

Second track acquiring unit, for when the terminal of described first track is through the edge of described first viewing area, obtain the second track in the second viewing area, the starting point of described second track is positioned at the edge of described second viewing area;

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

Target instruction target word determining unit, for described first movement tendency that obtains according to described movement tendency computing unit and described second movement tendency determination target instruction target word.

The present invention can obtain the first track in the first viewing area, when the first track arrives the edge of the first viewing area, obtains the second track in the second viewing area, according to the movement tendency of the first track and the movement tendency determination target instruction target word of the second track.With the slip instruction of Dual-band Handy Phone in prior art only for a display screen, sliding trace in two display screens cannot be carried out combination to compare, first track and the second track can combine by the present invention, according to the movement tendency determination target instruction target word of twice track, enrich the discernible slide kind of Dual-band Handy Phone, the data that user can be realized in double screen by a coherent slide process, and improve operating efficiency.

Accompanying drawing explanation

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

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

Fig. 3 is the structural representation 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 process flow diagram of the method for first touch control in the embodiment of the present invention two;

Fig. 6 is that an invalid identified region in the embodiment of the present invention two divides schematic diagram;

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

Fig. 8 is the process flow diagram of the method for the 3rd touch control in the embodiment of the present invention two;

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

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

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

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

Embodiment

Below in conjunction with drawings and Examples, the present invention is described in further detail.Be understandable that, specific embodiment described herein is only for explaining the present invention, but not limitation of the invention.It also should be noted that, for convenience of description, illustrate only part related to the present invention in accompanying drawing but not entire infrastructure.

Embodiment one

The process flow diagram of the method for the touch control that Fig. 2 provides for the embodiment of the present invention one, the present embodiment is applicable to the situation that double screen terminal carries out touch control, the method can be performed by the terminal with double-display screen, double screen terminal is as Dual-band Handy Phone, double screen flat computer etc., it should be noted that, two screens of double screen terminal are except being positioned on two corresponding surfaces as shown in Figure 1, can also be as shown in Figure 3, be positioned on two adjacent c faces and d face, and two display screens all can accept the touch command of user.Shown method specifically comprises the steps:

Step 110, in the first viewing area, obtain the first track.

First viewing area can be the region that a display screen of double screen terminal is corresponding.When after double screen terminal unlocking, in the first viewing area, monitor the sliding trace whether having user to trigger.If had, then receive the sliding trace of user's input.

Step 120, when the terminal of the first track is through the edge of the first viewing area, obtain the second track in the second viewing area.

Wherein, the starting point of the second track is positioned at the edge of the second viewing area.

When the finger of user touches the first viewing area, the coordinate points that user touches is defined as the starting point of the first track by double screen terminal.The slip that first track is pointed along with user and producing, the terminal of the first track constantly changes along with the movement of user's finger in the first viewing area.When user's finger marks the first viewing area, the terminal of the first track arrives the edge of the first viewing area, now, detects the sliding trace of user from the second viewing area edge-triggered in the second viewing area.If there is this track, this track is the second track; Such as, otherwise process the data in the first viewing area according to the first track, user carries out sliding screen operation in the first viewing area.

Step 130, calculate the first movement tendency of the first track and the second movement tendency of the second track.

Movement tendency is for representing the whole slide direction of sliding trace.Movement tendency is parallel sliding, slide downward or upward sliding.As shown in Figure 4, when finger is when sliding from screen lower left the top right of screen, the tendency toward sliding of the sliding trace a of generation is upward sliding.When finger is when sliding from screen upper left screen lower right, the tendency toward sliding of the sliding trace b of generation is slide downward.When sliding trace horizontal slip, the tendency toward sliding of the sliding trace c of generation is parallel sliding.

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

Terminal can obtain target instruction target word corresponding to different tendency toward sliding combinations according to mapping table, and target instruction target word is used for performance objective program or display-object interface.Target instruction target word can be, but not limited to any one of following instruction: icon moving instruction, program enabled instruction, multimedia instruction etc.Icon moving instruction is used for corresponding for the first track starting point to move to coordinate position corresponding to the second final on trajectory with chart.Program enabled instruction is for starting the program of reservation.Multimedia instruction is for regulating multimedia progress and multimedia volume.

As a citing: when user is long by finger on certain icon in the first viewing area, then this icon presents floating effect, now user's horizontal slip in the first viewing area, by this icon drag to the first edge, viewing area.If the tendency toward sliding of the second track that user triggers in the second viewing area is upward sliding, then in the second viewing area, adds this icon, and retain this icon in the first viewing area.If the tendency toward sliding of the second track that user triggers in the second viewing area is horizontal slip, then in the second viewing area, adds this icon, and delete this icon in the first viewing area.

As another citing, when finger do not carry out growing in the first viewing area by, but when only carrying out slip generation the first track, mapping table is as shown in table 1, which includes the movement tendency of the first track and the corresponding relation of the movement tendency of the second track and the application program of startup.

Table 1

The movement tendency of the first track	The movement tendency of the second track	Application program
			Parallel	Parallel	Start unlock interface
Parallel	Upwards	Start music program
			Parallel	Downwards	Start instant chat program
Upwards	Parallel	Start multimedia playing program
			…	…	…
Downwards	Downwards	Start voice call software

The technical scheme that the present embodiment provides, the first track can be obtained in the first viewing area, when the first track arrives the edge of the first viewing area, obtain the second track in the second viewing area, according to the movement tendency of the first track and the movement tendency determination target instruction target word of the second track.With the slip instruction of Dual-band Handy Phone in prior art only for a display screen, sliding trace in two display screens cannot be carried out combination to compare, first track and the second track can combine by the present embodiment, according to the movement tendency determination target instruction target word of twice track, enrich the discernible slide kind of Dual-band Handy Phone, the data that user can be realized in double screen by a coherent slide process, and improve operating efficiency.

Embodiment two

When stating embodiment in realization, inventor finds, when two display screens of double screen terminal lay respectively on two corresponding surfaces, due to the edge of user's handheld terminal meeting false touch display screen, if now double screen terminal edge place identifies, then can produce and identify by mistake, affect touch-control effect.

Based on this, the embodiment of the present invention additionally provides a kind of method of touch control, as illustrating above-described embodiment, as shown in Figure 5, step 120, when the terminal of described first track is through the edge of described first viewing area, obtain the second track in the second viewing area, implement by following manner:

Step 120 ', when the terminal of the first track is through the identifiable design edge of the first viewing area, obtain the second track in the second viewing area, the distance at the edge of identifiable design edge and the first viewing area is predeterminable range value.

In the present embodiment, the both sides of the first viewing area and the second viewing area are provided with invalid identified region, namely use generation false touch also can not be identified in this invalid identified region.As shown in Figure 6, in the first viewing area, its both sides are respectively by being provided with an invalid identified region, and centre is provided with effective identified region.The length of invalid identified region is identical with the first viewing area, and width is predeterminable range value.Predeterminable range value can be fixed value, as 1cm; Also can be the preset multiple of the width of the first viewing area, this preset multiple be less than 1, and such as 1/10.The region of the first viewing area except invalid identified region is effective identified region, and the boundary of effective identified region and invalid identified region is identifiable design edge.

Accordingly, the both sides of the second viewing area are provided with invalid identified region equally.Now, obtain the second track in the second viewing area, be equivalent to, in the identifiable design edge of the second viewing area, obtain the second track.

The technical scheme that the present embodiment provides, can pass through invalid identified region, reduces the impact that false touch operates Double-screen touch-control, improves the accuracy identified.

Inventor also finds, after finger leaves the first viewing area, cannot move at once in the second viewing area.In addition, after the first viewing area obtains the first track, if continue the sliding trace in the second viewing area monitoring users input, easy long wait or cause erroneous judgement.

Based on this, the embodiment of the present invention additionally provides a kind of method of touch control as further illustrating above-described embodiment, as shown in Figure 7, step 120, when the terminal of described first track is through the edge of described first viewing area, obtain the second track in the second viewing area, also implement by following manner:

Step 121, when the terminal of the first track is through the edge of the first viewing area, start timing.

This edge can be the actual edge of the first viewing area, also can be the identifiable design edge of the first viewing area.

Step 122a, when timing result is less than predetermined threshold value, obtain the second track in the second viewing area.

Predetermined threshold value, for after representing that user points and leaves from first area, moves to the time of second area.Predetermined threshold value can be 1/3 second, 0.5 second etc.

Step 122b, when timing result is more than or equal to predetermined threshold value, according to the first track, the data in the first viewing area to be processed.

If exceed predetermined threshold value, be then equivalent to the touch control of single screen terminal, determine the operational order of its correspondence according to the first track, and perform this operational order.

The technical scheme that the present embodiment provides, when the terminal of the first track arrives the first edge, viewing area, can obtain the second track by the second viewing area in predetermined threshold value, avoids identifying by mistake, improves touch-control efficiency further.

When the movement tendency of calculating first track and the second track, judge that the mode of movement tendency is identical.For the first track, can generating the first track respective function, obtaining the movement tendency of the first track by analyzing this function according to the coordinate points of the first track process, this Method compare is complicated, and the system resource taken is more.

In order to the system resource taken when reducing and analyze movement tendency, the embodiment of the present invention additionally provides a kind of method of touch control, as further illustrating above-described embodiment, as shown in Figure 8, calculate the first movement tendency of described first track in step 130, implement by following manner:

Step 131, the starting point obtaining the first track and terminal.

When finger contacts the first viewing area, obtain the starting point (x of the first track ₁, y ₁).When the first track is when the first viewing area edge (or identifiable design edge), the intersection point at the edge (or identifiable design edge) of the first track and the first viewing area is defined as the terminal (x of the first track ₂, y ₂).

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

First slope wherein, α is angle of inclination, and k is the first slope.

Step 133, determine the first movement tendency according to the first slope.

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

Accordingly, calculate in step 130 second track and movement tendency, implement by following manner:

Step 134, the starting point obtaining the second track and terminal.

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

Step 136, determine the second movement tendency according to the second slope.

The determination of the second movement tendency of the second track can refer to the first movement tendency and determines, does not repeat herein.

It should be noted that, when the second movement tendency of the first movement tendency of judgement first track and the second track, one can be selected by starting point and terminal determination movement tendency, also can use aforesaid way determination movement tendency simultaneously.

The technical scheme that the present embodiment provides, according to the movement tendency of the starting point of track and terminal determination track, can simplify the decision process of movement tendency, save system resource.

For user when touching, timely user wishes to slide and touches parallel track, but may occur action error, makes the starting point of sliding trace and terminal not in the same horizontal line, makes the slope calculated not be 0, and then cause identification to make mistakes.

Based on this, the embodiment of the present invention additionally provides a kind of method of touch control, as further illustrating above-described embodiment, as shown in Figure 9, step 133, determines the first movement tendency according to described first slope, implements by following manner:

Step 133a, when the first slope is when the first slope is interval, determine that the first movement tendency is slide downward, two end points in the first slope interval are all less than zero.

The interval corresponding slide downward of first slope, namely downward-sloping.As one citing, the interval corresponding angle of inclination of the first slope is-10 degree extremely-90 degree, and its value is-0.64 (tan-10) ~-∞.

Step 133b, when the first slope is when the second slope is interval, determine that the first movement tendency is parallel sliding, an end points in the second slope interval is less than zero, and another end points is greater than zero.

Second slope interval corresponding parallel sliding, i.e. level.As one citing, the interval corresponding angle of inclination of the first slope is-10 degree extremely+10 degree, and its value is-0.64 (tan-10) ~+0.64 (tan10).

Step 133c, when the first slope is when the 3rd slope is interval, determine that the first movement tendency is upward sliding, two end points in the 3rd slope interval are all greater than zero.

The interval corresponding upward sliding of 3rd slope, is namely inclined upwardly.As one citing, the interval corresponding angle of inclination of the first slope is 10 degree and spends to+90, and its value is+0.64 (tan10) ~+∞.

Accordingly, as shown in Figure 10, step 136, determine the second movement tendency according to described second slope, implement by following manner:

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

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

Step 136c, when the second slope is when the 3rd slope is interval, determine that the second movement tendency is upward sliding.

The technical scheme that the present embodiment provides, can provide certain error space for user, be user when carrying out parallel sliding, can have a small amount of cheap, while reduction wrong identification, improve Consumer's Experience.

Embodiment three

The embodiment of the present invention additionally provides a kind of device of touch control, and for realizing the method that above-described embodiment provides, described device is arranged in the terminal with two viewing areas, as shown in figure 11, comprising:

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

Second track acquiring unit 12, for when the terminal of described first track is through the edge of described first viewing area, obtain the second track in the second viewing area, the starting point of described second track is positioned at the edge of described second viewing area;

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

Target instruction target word determining unit 14, for described first movement tendency that obtains according to described movement tendency computing unit 13 and described second movement tendency determination target instruction target word.

Further; described second track acquiring unit 12 for; when the terminal of described first track is through the identifiable design edge of described first viewing area, obtain the second track in the second viewing area, the distance at the edge of described identifiable design edge and described first viewing area is predeterminable range value.

Further, described second track acquiring unit 12 also for:

When the terminal of described first track is through the edge of described first viewing area, start timing;

When timing result is less than predetermined threshold value, obtain described second track in described second viewing area.

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

First obtains subelement 131, for obtaining starting point and the terminal of described first track;

First slope determination subelement 132, for according to described first obtain subelement 131 obtain the starting point of described first track and the terminal of described first track determine described first slope;

First trend determination subelement 133, determines described first movement tendency for described first slope determined according to described first slope determination subelement 132;

Second obtains subelement 134, for obtaining starting point and the terminal of described second track;

Second slope determination subelement 135, for according to described second obtain subelement 134 obtain the starting point of described second track and the terminal of described second track determine described second slope;

Second trend determination subelement 136, determines described second movement tendency for described second slope determined according to described second slope determination subelement 135.

Further, described movement tendency comprises: parallel sliding, slide downward and upward sliding;

Described first trend determination subelement 133, for:

When described first slope is when the first slope is interval, determine that described first movement tendency is slide downward, two end points in described first slope interval are all less than zero;

When described first slope is when the second slope is interval, determine that described first movement tendency is parallel sliding, an end points in described second slope interval is less than zero, and another end points is greater than zero;

When described first slope is when the 3rd slope is interval, determine that described first movement tendency is upward sliding, two end points in described 3rd slope interval are all greater than zero;

Described second trend determination subelement 136, for:

When described second slope is when described first slope is interval, determine that described second movement tendency is slide downward;

When described second slope is when described second slope is interval, determine that described second movement tendency is parallel sliding;

When described second slope is when described 3rd slope is interval, determine that described second movement tendency is upward sliding.

Note, above are only preferred embodiment of the present invention and institute's application technology principle.Skilled person in the art will appreciate that and the invention is not restricted to specific embodiment described here, various obvious change can be carried out for a person skilled in the art, readjust and substitute and can not protection scope of the present invention be departed from.Therefore, although be described in further detail invention has been by above embodiment, the present invention is not limited only to above embodiment, when not departing from the present invention's design, can also comprise other Equivalent embodiments more, and scope of the present invention is determined by appended right.

Claims (10)

1. a method for touch control, is characterized in that, comprising:

The first track is obtained in the first viewing area;

When the terminal of described first track is through the edge of described first viewing area, obtain the second track in the second viewing area, the starting point of described second track is positioned at the edge of described second viewing area;

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

According to described first movement tendency and described second movement tendency determination target instruction target word.

2. the method for touch control according to claim 1, is characterized in that, the described terminal when described first track, through the edge of described first viewing area, obtains the second track in the second viewing area, comprising:

When the terminal of described first track is through the identifiable design edge of described first viewing area, obtain the second track in the second viewing area, the distance at the edge of described identifiable design edge and described first viewing area is predeterminable range value.

3. the method for touch control according to claim 1, is characterized in that, the described terminal when described first track, through the edge of described first viewing area, obtains the second track in the second viewing area, comprising:

When the terminal of described first track is through the edge of described first viewing area, start timing;

When timing result is less than predetermined threshold value, obtain described second track in described second viewing area.

4. the method for touch control according to any one of claim 1 to 3, is characterized in that, the first movement tendency of described first track of described calculating, comprising:

Obtain starting point and the terminal of described first track;

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

Described first movement tendency is determined according to described first slope; And/or,

Described second track of described calculating and movement tendency, comprising:

Obtain starting point and the terminal of described second track;

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

Described second movement tendency is determined according to described second slope.

5. the method for touch control according to claim 4, is characterized in that, describedly determines the first movement tendency according to described first slope, comprising:

When described first slope is when the first slope is interval, determine that described first movement tendency is slide downward, two end points in described first slope interval are all less than zero;

When described first slope is when the second slope is interval, determine that described first movement tendency is parallel sliding, an end points in described second slope interval is less than zero, and another end points is greater than zero;

When described first slope is when the 3rd slope is interval, determine that described first movement tendency is upward sliding, two end points in described 3rd slope interval are all greater than zero;

And/or,

Describedly determine the second movement tendency according to described second slope, comprising:

When described second slope is when described first slope is interval, determine that described second movement tendency is slide downward;

When described second slope is when described second slope is interval, determine that described second movement tendency is parallel sliding;

When described second slope is when described 3rd slope is interval, determine that described second movement tendency is upward sliding.

6. a device for touch control, is characterized in that, comprising:

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

Second track acquiring unit, for when the terminal of described first track is through the edge of described first viewing area, obtain the second track in the second viewing area, the starting point of described second track is positioned at the edge of described second viewing area;

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

Target instruction target word determining unit, for described first movement tendency that obtains according to described movement tendency computing unit and described second movement tendency determination target instruction target word.

7. the device of touch control according to claim 6; it is characterized in that; described second track acquiring unit is used for; when the terminal of described first track is through the identifiable design edge of described first viewing area; obtain the second track in the second viewing area, the distance at the edge of described identifiable design edge and described first viewing area is predeterminable range value.

8. the device of touch control according to claim 6, is characterized in that, described second track acquiring unit also for:

When the terminal of described first track is through the edge of described first viewing area, start timing;

When timing result is less than predetermined threshold value, obtain described second track in described second viewing area.

9. the device of the touch control according to any one of claim 6 to 8, is characterized in that, described movement tendency computing unit, comprising:

First obtains subelement, for obtaining starting point and the terminal of described first track;

First slope determination subelement, for according to described first obtain subelement obtain the starting point of described first track and the terminal of described first track determine described first slope;

First trend determination subelement, determines described first movement tendency for described first slope determined according to described first slope determination subelement;

Second obtains subelement, for obtaining starting point and the terminal of described second track;

Second slope determination subelement, for according to described second obtain subelement obtain the starting point of described second track and the terminal of described second track determine described second slope;

Second trend determination subelement, determines described second movement tendency for described second slope determined according to described second slope determination subelement.

10. the device of touch control according to claim 9, is characterized in that, described first trend determination subelement, for:

When described first slope is when the first slope is interval, determine that described first movement tendency is slide downward, two end points in described first slope interval are all less than zero;

When described first slope is when the second slope is interval, determine that described first movement tendency is parallel sliding, an end points in described second slope interval is less than zero, and another end points is greater than zero;

When described first slope is when the 3rd slope is interval, determine that described first movement tendency is upward sliding, two end points in described 3rd slope interval are all greater than zero;

Described second trend determination subelement, for:

When described second slope is when described first slope is interval, determine that described second movement tendency is slide downward;

When described second slope is when described second slope is interval, determine that described second movement tendency is parallel sliding;

When described second slope is when described 3rd slope is interval, determine that described second movement tendency is upward sliding.