CN104049832A - Display method of touch control cursor - Google Patents

Abstract

The invention provides a display method of a touch control cursor. The display method is applicable to an electronic device provided with a touch control display unit, wherein the touch control display unit comprises a display region. The method comprises the following steps that at least one first dimension boundary line and at least one second dimension boundary line are determined in the display region; the cursor is displayed, wherein the cursor is provided with an pointing region and a touchable region; when a touch control event occurs in the touchable region, the cursor is correspondingly moved according to touch control coordinates of the touch control event; when a reference point of the curser passes through two first dimension boundary lines in the at least one first dimension boundary line or passes through two second dimension boundary lines in the at least one second dimension boundary line, the cursor is rotated for regulating the relative positions of the indicating region and the touchable region.

Description

The display packing of touch-control cursor

Technical field

The present invention relates to a kind of display packing, and relate to especially a kind of display packing of touch-control cursor.

Background technology

In modern society, the electronic product with touch screen of all kinds becomes an indispensable part in people's life already.Wherein, smart mobile phone, panel computer taking and similar device also because it is as convenience and diversified use-pattern that people bring, form one of electronic product the most often using into people.

Generally speaking, user touches each shown object of touch screen (for example icon or menu) by finger or pointer, to carry out corresponding function.But, in the time of the described object of touching, often may the too small user of making be difficult to touch exactly because of the object that will touch.

Summary of the invention

In view of this, the invention provides a kind of display packing of touch-control cursor, can allow user carry out operating electronic devices by the cursor showing.And electronic installation can also rotate shown cursor automatically accordingly according to user's operation behavior.

The invention provides a kind of display packing of touch-control cursor, be suitable for having the electronic installation of touch-display unit, wherein touch-display unit has viewing area.First described method comprises the following steps:, defines the first dimension boundary line and the second dimension boundary line in viewing area; Then, display highlighting, wherein cursor has the region of sensing and can touch area; While there is touch-control event in can touch area, according to the touch-control coordinate mobile cursor accordingly of touch-control event; Afterwards, when the reference point of cursor is during by the first dimension boundary line or the second dimension boundary line, rotating light is marked with to adjust and points to region and relative position that can touch area.

From another viewpoint, the invention provides a kind of display packing of touch-control cursor, be suitable for having the electronic installation of touch-display unit, wherein touch-display unit has viewing area.First described method comprises the following steps:, defines at least one the first dimension boundary line and at least one the second dimension boundary line in viewing area; Then, display highlighting, wherein cursor has the region of sensing and can touch area; While there is touch-control event in can touch area, according to the touch-control coordinate mobile cursor accordingly of touch-control event; Afterwards, when the reference point of cursor two or at least one the second dimension boundary line wherein by least one the first dimension boundary line wherein two time, rotating light is marked with to adjust and points to region and relative position that can touch area.

Based on above-mentioned, the method that the embodiment of the present invention proposes can allow electronic installation according to cursor the position in viewing area and automatically rotate accordingly cursor.Like this, user can utilize easily cursor to click each object in viewing area when by cursor operations electronic installation.

For above-mentioned feature and advantage of the present invention can be become apparent, special embodiment below, and be described in detail below by reference to the accompanying drawings.

Brief description of the drawings

Fig. 1 is the display packing process flow diagram of the touch-control cursor shown in one embodiment of the invention;

Fig. 2 A to Fig. 2 D is the viewing area schematic diagram shown in the multiple embodiment of the present invention;

Fig. 3 is the display packing of the touch-control cursor shown in one embodiment of the invention;

Fig. 4 A to Fig. 4 D is the viewing area figure shown in the multiple embodiment of the present invention.

Description of reference numerals:

BL1: the first dimension boundary line;

BL2: the second dimension boundary line;

CS1～CS4: cursor;

DIS: viewing area;

H1～H2: x wire;

IC1～IC5: icon;

PA1～PA4: point to region;

S110～S140, S310～S340: step;

TA1～TA4: can touch area;

V1～V2: vertical line.

Embodiment

Fig. 1 is the display packing process flow diagram of the touch-control cursor shown in one embodiment of the invention.With reference to Fig. 1, the method that the present embodiment proposes is applicable to have the electronic installation of touch-display unit, the devices such as for example smart mobile phone, panel computer and personal digital assistant (Personal Digital Assistant, PDA).Described touch-display unit is for example that touch screen etc. can be in order to detect user's touch-control gesture, and the element of display frame.

Generally speaking, the shown viewing area of touch-display unit can comprise icon miscellaneous and object.Described icon for example can be corresponding to specific application program, and user can carry out corresponding application program by the mode of touching icon in touch-display unit.But, such as, if the icon that user will touch or other objects (menu or word etc.) are too small, so that user while being difficult to touch its accurate location, will cause the operational inconvenience of user.The method proposing based on the embodiment of the present invention, should effectively improve because of icon or the too small touching inconvenience situation causing of other objects.

In the present embodiment, electronic installation can be in the viewing area of its touch-display unit display highlighting, and this cursor has sensing region (for example, arrow) and can touch area.In the time of touch-display unit display highlighting, user can by touch and drag can touch area the mode position of moving cursor.Wherein, when the sensing region of cursor is moved to accordingly the icon in viewing area by user, and stop touching can touch area time, electronic installation can judge that user now will click icon by cursor.Therefore, electronic installation can be chosen described icon accordingly, or shows similar in appearance to objects such as the right-click menus of conventional mouse, for example, so that user carries out subsequent operation (, copying, paste, shear the operations such as file) icon is other.

In addition, the method that the embodiment of the present invention proposes can also be adjusted the demonstration situation of cursor in due course, to allow user can not limit with the relative position between can touch area the operating experience that affects user because pointing to region.Detailed explanation will be provided below.

Fig. 2 A to Fig. 2 D is the viewing area schematic diagram shown in the multiple embodiment of the present invention.Viewing area DIS is for example the picture shown by the touch-display unit in electronic installation.Viewing area DIS for example comprises icon IC1～IC5, and it respectively can be corresponding to different application programs.With reference to Fig. 1 and Fig. 2 A, in step S110, electronic installation can define the first dimension boundary line BL1 and the second dimension boundary line BL2 in the DIS of viewing area simultaneously.The first dimension boundary line BL1 is for example x wire, and the second dimension boundary line BL2 is for example vertical line.Those skilled in the art should understand, and the dimension boundary line BL1 of first shown in Fig. 2 A and the second dimension boundary line BL2 are only in order to illustrate, not in order to limit embodiment of the present invention.In other words, in other embodiments, the first dimension boundary line BL1 and the second dimension boundary line BL2 also can adopt other mode (for example, other angles and position) to define.

Then, in step S120, the touch-display unit of electronic installation can display highlighting CS1, and it comprises and points to region PA1 and can touch area TA1.Point to region PA1 and for example can present by the mode of arrow, and can for example can design the lower right (as shown in Figure 2 A) that is positioned at sensing region PA1 by touch area TA1, but the present invention can be not limited to this.Afterwards, in step S130, while there is touch-control event in can touch area TA1, electronic installation can be according to the touch-control coordinate of this touch-control event mobile cursor CS1 accordingly.In other words, whether electronic installation can detect by touch-display unit can touch area TA1 touched.If so, electronic installation can and then read the coordinate at touched place.And, in the time that described coordinate changes, the electronic installation display position of mobile cursor CS1 accordingly.Therefore, user can be first can touch area TA1 by finger touches, then carry out the display position of mobile cursor CS1 accordingly in the mode dragging.

Afterwards, in step S140, when the reference point of cursor CS1 is during by the first dimension boundary line BL1 or the second dimension boundary line BL2, the rotatable cursor CS1 of electronic installation points to region PA1 and relative position that can touch area TA1 to adjust.Wherein, but certain reference point in described reference point cursor CS1 (for example, can touch area TA1 center, or the arrow indication part of sensing region PA1 etc., but can be not limited to this), for the basis for estimation as relative position between cursor CS1 and the first dimension boundary line BL1 and the second dimension boundary line BL2.

Specifically,, in the time of user's operating electronic devices, for example choose possibly the operation of icon IC2 by cursor CS1.Now, if maintain the display mode of cursor CS1 in Fig. 2 A, may allow user successfully move to icon IC2 place by pointing to region PA1.In other words, user may be because of in cursor CS1, point to region PA1 and can touch area TA1 between relative position configuration and cannot choose icon IC2 by cursor CS1.

Therefore, for fear of the problems referred to above, electronic installation can be according to the relative position relation between cursor CS1 and the first dimension boundary line BL1 and the second dimension boundary line BL2, suitably adjust the display mode of cursor CS1, be difficult to allow user can click smoothly the users such as such as icon IC2～IC5 the object that cursor CS1 clicks.Below will give a few examples to describe.

With reference to Fig. 2 A, in the first embodiment, in the time that electronic installation judges that the reference point of cursor CS1 is tieed up boundary line BL1 by first, electronic installation can judge that whether reference point is lower than the first dimension boundary line BL1.If electronic installation judges that the reference point of cursor CS1 is lower than the first dimension boundary line BL1, this represents that user moves to cursor CS1 the region below the first dimension boundary line BL1 possibly, for example to click the operation of icon IC2～IC5.Therefore, the rotatable cursor CS1 of electronic installation so that can touch area TA1 higher than pointing to region PA1.Postrotational cursor CS1 is for example the cursor CS2 shown in Fig. 2 B.In Fig. 2 B, cursor CS2 comprises and points to region PA2 and can touch area TA2.Point to region PA2 and can touch area TA2 be for example to produce by the sensing region PA1 in Fig. 2 A and after can touch area TA2 being rotated respectively.After cursor CS1 is rotated to be to cursor CS2, because the sensing region PA2 of cursor CS2 is lower than position that can touch area TA2, therefore user, by can touch area TA2 moving cursor CS2, can for example choose by pointing to region PA2 the operation of icon IC2～IC5.

In a second embodiment, if electronic installation at cursor by the first dimension when boundary line, the reference point that electronic installation judge cursor is when higher than the first dimension boundary line, this expression user moves to cursor region more than the first dimension boundary line possibly.Taking Fig. 2 B as example, when user upwards moves cursor CS2 so that the reference point of cursor CS2 is during higher than the first dimension boundary line BL1, the rotatable cursor CS2 of electronic installation so that can touch area TA2 lower than pointing to region PA2.Postrotational cursor CS2 is for example the cursor CS1 shown in Fig. 2 A.Like this, user still can for example, for example click the operation of icon IC1 by postrotational cursor CS2 (cursor CS1).Like this, user in the time carrying out operating electronic devices by cursor CS1 (or cursor CS2), due to electronic installation adaptability adjust the display mode of cursor, make electronic installation that user can be provided more intuition and operating experience different from the past.

In the 3rd embodiment, in the time that electronic installation judges that the reference point of cursor is tieed up boundary line by second, electronic installation can judge whether reference point is positioned at the right side in the second dimension boundary line.If electronic installation judges the reference point of cursor and be positioned at the right side in the second dimension boundary line, this represents that user moves to cursor the right region in the second dimension boundary line possibly.Therefore, the rotatable cursor of electronic installation, so that can be positioned at the left side of pointing to region by touch area.Postrotational cursor is for example the cursor CS3 shown in Fig. 2 C.In Fig. 2 C, cursor CS3 comprises and points to region PA3 and can touch area TA3.Point to region PA3 and can touch area TA3 be for example to produce by the sensing region PA1 in Fig. 2 A and after can touch area TA2 being rotated respectively, or produce by the sensing region PA2 in Fig. 2 B and after can touch area TA2 being rotated.After cursor CS1 (or cursor CS2) is rotated to be to cursor CS3, due to the sensing region PA3 of cursor CS3 be positioned at can touch area TA3 left side, therefore user is by can touch area TA3 moving cursor CS3, can by point to region PA3 give me a little bit selecting in viewing area compared with the icon of right side area.

In the 4th embodiment, if electronic installation at cursor by the second dimension when boundary line, the reference point that electronic installation judge cursor is when being positioned on the left of the second dimension boundary line, this expression user moves to cursor the region of the second dimension boundary line left possibly.Taking Fig. 2 C as example, as user by cursor CS3 to moving to left so that the left side that the reference point of cursor CS3 is positioned at the second dimension boundary line BL2 is constantly, the rotatable cursor CS3 of electronic installation, so that can be positioned at the right side of pointing to region PA2 by touch area TA3.Postrotational cursor CS3 is for example the cursor CS1 shown in Fig. 2 A.Like this, user still can for example, for example click the operation of icon IC1 by postrotational cursor CS3 (cursor CS1).

According to the teaching in the first embodiment to the four embodiment, when user by cursor movement to lower than the first dimension boundary line BL1 and while being positioned at the second BL2 right side, dimension boundary line place simultaneously, electronic installation will rotate cursor accordingly, so that can touch area higher than pointing to region, and be positioned at the left side of pointing to region simultaneously.Taking Fig. 2 B as example, when user moves right cursor CS2, while making the reference point of cursor CS2 be positioned at the right side of the second dimension boundary line BL2, electronic installation can rotate cursor CS2 accordingly, to produce cursor CS4 as shown in Figure 2 D.In Fig. 2 D, cursor CS4 comprises and points to region PA4 and can touch area TA4.That is when the reference point of cursor CS2 is during by the second dimension boundary line BL2, electronic installation can carry out similar in appearance to the operation in the 3rd embodiment, make can touch area TA2 can be adjusted to and be positioned at the position of pointing to region PA2 left side.

Again taking Fig. 2 C as example.As user by cursor CS3 to moving down, the reference point that makes cursor CS3 is during lower than the first dimension boundary line BL1, electronic installation also can rotate cursor CS3 accordingly, to produce cursor CS4 as shown in Figure 2 D.That is when the reference point of cursor CS3 is during by the first dimension boundary line BL1, electronic installation can carry out, similar in appearance to the operation in the first embodiment, making can be adjusted to higher than the position of pointing to region PA3 by touch area TA3.

The method proposing by the embodiment of the present invention, can allow electronic installation adjust adaptively the display mode of cursor, the object (for example, menu and icon etc.) that will choose so that user can be chosen more easily according to user's operation behavior.Like this, electronic installation can provide user more intuition, convenience and operating experience different from the past.

But, due to the method shown in Fig. 1 be in the first dimension boundary line and second dimension boundary line near cursor is rotated, therefore when user will choose by cursor while being positioned near object boundary line of the first dimension boundary line and the second dimension, may be difficult to choose near the object being positioned at the first dimension boundary line and the second dimension boundary line because of the automatic rotating operation of cursor.In order to improve the problems referred to above, the embodiment of the present invention separately proposes a kind of display packing of touch-control cursor, below will be elaborated.

Fig. 3 is the display packing of the touch-control cursor shown in one embodiment of the invention.The method of the present embodiment is suitable for having the electronic installation of touch-display unit equally, such as smart mobile phone, panel computer and personal digital assistant etc.Fig. 4 A to Fig. 4 D is the viewing area figure shown in the multiple embodiment of the present invention.The detailed step of Fig. 3 method is described below with reference to Fig. 4 A to Fig. 4 D.

With reference to Fig. 3 and Fig. 4 A, in step S310, electronic installation can define at least one the first dimension boundary line and at least one the second dimension boundary line in the DIS of viewing area simultaneously.In the present embodiment, described at least one the first dimension boundary line for example comprises the first x wire H1 and the second x wire H2, and the second x wire H2 can be lower than the first x wire H1.Described at least one the second dimension boundary line for example comprises the first vertical line V1 and the second vertical line V2, and the second vertical line V2 is positioned at the right side of the first vertical line V1.The embodiment in described at least one the first dimension boundary line and described at least one the second dimension boundary line is only in order to illustrate, and it can be adjusted voluntarily according to deviser's demand.Then, the content of step S320 and S330 can, with reference to the step S120 of Fig. 1 and S130, not repeat them here.

Afterwards, in step S340, when the reference point of cursor CS1 two or at least one the second dimension boundary line wherein by least one the first dimension boundary line wherein two time, electronic installation rotation cursor CS1 points to region PA1 and relative position that can touch area TA1 to adjust.

Specifically, in the present embodiment, be positioned near the object described at least one the first dimension boundary line and described at least one the second dimension boundary line in order to allow user more easily click, electronic installation can during by one of described at least one first dimension boundary line (or described at least one second dimension boundary line), judge that described reference point is whether then by other the first dimension boundary line (or second dimension boundary line) in the reference point of cursor.If not, electronic installation can not rotate cursor, is positioned near the object each first dimension boundary line and each the second dimension boundary line so that user can be clicked.Below will give a few examples to describe.

With reference to Fig. 4 A, in the 5th embodiment, in the time that the reference point of cursor CS1 is passed through the first x wire H1, electronic installation can then judge that whether reference point is then by the second x wire H2.If not, electronic installation can not adjusted and point to region PA1 and relative position that can touch area TA1.If the reference point of cursor CS1 by after the first x wire H1, if then by the second x wire H2, the rotatable cursor CS1 of electronic installation so that can touch area TA1 higher than pointing to region PA1.Postrotational cursor CS1 is for example the cursor CS2 shown in Fig. 4 B.Point to region PA2 and can touch area TA2 be for example to produce by the sensing region PA1 in Fig. 4 A and after can touch area TA1 being rotated respectively.After cursor CS1 is rotated to be to cursor CS2, because the sensing region PA2 of cursor CS2 is lower than position that can touch area TA2, therefore user, by can touch area TA2 moving cursor CS2, can for example choose by pointing to region PA2 the operation of icon IC2～IC5.

In other words, in the time that the reference point of cursor CS1 is passed through the first x wire H1, electronic installation can not rotate outright cursor CS1 as aforementioned the first embodiment, but whether the reference point that can judge cursor CS1 is then by the second x wire H2.If so, the operation that electronic installation side can be rotated cursor CS1.Therefore,, in the time that user will put near the object of bit selecting the first x wire H1, user can click by cursor CS1.

With reference to Fig. 4 B, in the time that the reference point of cursor CS2 is passed through the second x wire H2, electronic installation can then judge that whether reference point is then by the first x wire H1.If not, electronic installation is not adjusted and is pointed to region PA2 and relative position that can touch area TA2.If the reference point of cursor CS2 by after the second x wire H2, if then by the first x wire H1, the rotatable cursor CS2 of electronic installation so that can touch area TA2 lower than pointing to region PA2.Postrotational cursor CS2 is for example the cursor CS1 shown in Fig. 4 A.In Fig. 4 A, point to region PA1 and can touch area TA1 be for example to produce by the sensing region PA2 in Fig. 4 B and after can touch area TA2 being rotated respectively.After cursor CS2 is rotated to be to cursor CS1, because the sensing region PA1 of cursor CS1 is higher than position that can touch area TA1, therefore user, by can touch area TA1 moving cursor CS1, can for example choose by pointing to region PA1 the operation of icon IC1.

Similarly, in the time that the reference point of cursor CS2 is passed through the second x wire H2, electronic installation can not rotate outright cursor CS2 as aforementioned the second embodiment, but whether the reference point that can judge cursor CS2 is then by the first x wire H1.If so, the operation that electronic installation side can be rotated cursor CS2.Therefore,, in the time that user will put near the object of bit selecting the second x wire H2, user can successfully click with cursor CS2.

Referring again to Fig. 4 A, when user moves right cursor CS1, so that the reference point of cursor CS1 is when the first vertical line V1, electronic installation can then judge that whether the reference point of cursor CS1 is then by the second vertical line V2.If not, electronic installation can not adjusted and point to region PA1 and relative position that can touch area TA1.If the reference point of cursor CS1 is by after the first vertical line V1, if then by the second vertical line V2, the rotatable cursor CS1 of electronic installation, so that can be positioned at the left side of pointing to region PA1 by touch area TA1.Postrotational cursor CS1 is for example the cursor CS3 shown in Fig. 4 C.Point to region PA3 and can touch area TA3 be for example to produce by the sensing region PA1 in Fig. 4 A and after can touch area TA1 being rotated respectively.After cursor CS1 is rotated to be to cursor CS3, due to the sensing region PA3 of cursor CS3 be positioned at can touch area TA3 left side, therefore user is by can touch area TA3 moving cursor CS3, can by point to region PA3 give me a little bit selecting in viewing area compared with the icon of right side area.

In other words, in the time that the reference point of cursor CS1 is passed through the first vertical line V1, electronic installation can not rotate outright cursor CS1 as aforementioned the 3rd embodiment, but whether the reference point that can judge cursor CS1 is then by the second vertical line V2.If so, the operation that electronic installation side can be rotated cursor CS1.Therefore,, in the time that user will put near the object of bit selecting the first vertical line V1, user can successfully click with cursor CS1.

With reference to Fig. 4 C, when user moves right cursor CS3, so that the reference point of cursor CS3 is when the second vertical line V2, electronic installation can then judge that whether the reference point of cursor CS3 is then by the first vertical line V1.If not, electronic installation can not adjusted and point to region PA3 and relative position that can touch area TA3.If the reference point of cursor CS3 is by after the second vertical line V2, if then by the first vertical line V1, the rotatable cursor CS3 of electronic installation, so that can be positioned at the left side of pointing to region PA3 by touch area TA3.Postrotational cursor CS3 is for example the cursor CS1 shown in Fig. 4 A.Point to region PA1 and can touch area TA1 be for example to produce by the sensing region PA3 in Fig. 4 C and after can touch area TA3 being rotated respectively.After cursor CS3 is rotated to be to cursor CS1, due to the sensing region PA1 of cursor CS1 be positioned at can touch area TA1 left side, therefore user, by can touch area TA1 moving cursor CS1, can click for example object of icon IC1 by pointing to region PA1.

In other words, in the time that the reference point of cursor CS3 is passed through the second vertical line V2, electronic installation can not rotate outright cursor CS3 as aforementioned the 4th embodiment, but whether the reference point that can judge cursor CS3 is then by the first vertical line V1.If so, the operation that electronic installation side can be rotated cursor CS3.Therefore,, in the time that user will put near the object of bit selecting the second vertical line V2, user can successfully click with cursor CS3.

Based on above-mentioned, when user by cursor movement to lower than the second x wire H2 and while being positioned at the second vertical line V2 right side place simultaneously, electronic installation will rotate cursor accordingly so that can touch area higher than pointing to region, and be positioned at the left side of pointing to region simultaneously.Taking Fig. 4 B as example, when user moves right cursor CS2, while making the reference point of cursor CS2 be positioned at the right side of the second vertical line V2, electronic installation can rotate cursor CS2 accordingly, to produce cursor CS4 as shown in Figure 4 D.In Fig. 4 D, cursor CS4 comprises and points to region PA4 and can touch area TA4.That is after the reference point of cursor CS2 is in succession by the first vertical line V1 and the second vertical line V2, electronic installation can carry out similar in appearance to the operation in the 3rd embodiment, make can touch area TA2 can be adjusted to and be positioned at the position of pointing to region PA2 left side.

Again taking Fig. 4 C as example.As user by cursor CS3 to moving down, the reference point that makes cursor CS3 is during lower than the second x wire H2, electronic installation also can rotate cursor CS3 accordingly, to produce cursor CS4 as shown in Figure 4 D.That is after the reference point of cursor CS3 is in succession by the first x wire H1 and the second x wire H2, electronic installation can carry out, similar in appearance to the operation in the first embodiment, making can be adjusted to higher than the position of pointing to region PA3 by touch area TA3.

In brief, the method providing by Fig. 3 embodiment, electronic installation can (for example be tieed up boundary line according to cursor and described at least one first, the first x wire H1 and the second x wire H2) and described at least one the second dimension boundary line (for example, the first vertical line V1 and the second vertical line V2) between relative position rotate adaptively cursor.And, due to electronic installation be the reference point that judges cursor in succession by described at least one the first dimension boundary line wherein two (for example, the first x wire H1 and the second x wire H2) or described at least one the second dimension boundary line wherein two (for example, the first vertical line V1 and the second vertical line V2) afterwards, just cursor is rotated, therefore user is with cursor point bit selecting when near the object above-mentioned each boundary line, by can not be because of the automatic rotary of cursor then experience operational inconvenience.

In sum, the adjustment cursor display method providing by the embodiment of the present invention, can allow user in the time of the cursor operations electronic installation that uses touch-display unit to show, electronic installation can adaptively rotate according to user's operation behavior cursor.Like this, user can give me a little bit selecting each object in viewing area by described cursor easily.

Finally it should be noted that: above each embodiment, only in order to technical scheme of the present invention to be described, is not intended to limit; Although the present invention is had been described in detail with reference to aforementioned each embodiment, those of ordinary skill in the art is to be understood that: its technical scheme that still can record aforementioned each embodiment is modified, or some or all of technical characterictic is wherein equal to replacement; And these amendments or replacement do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (10)

1. a display packing for touch-control cursor, is suitable for having an electronic installation of a touch-display unit, and wherein this touch-display unit has a viewing area, it is characterized in that, described method comprises the following steps:

In this viewing area, define one first dimension boundary line and one second dimension boundary line;

Show a cursor, wherein this cursor there is a sensing region and can touch area;

There is a touch-control event in this can touch area time, according to a touch-control coordinate mobile this cursor accordingly of this touch-control event; And

When a reference point of this cursor is during by this first dimension boundary line or this second dimension boundary line, rotate this cursor to adjust the relative position that this sensing region and this can touch areas.

2. method according to claim 1, is characterized in that, this first dimension boundary line comprises an x wire, and this second dimension boundary line comprises a vertical line.

3. method according to claim 2, is characterized in that, when this reference point of this cursor is during by this first dimension boundary line or this second dimension boundary line, rotates this cursor and comprises with the step of adjusting this relative position that this sensing region and this can touch area:

In the time that this reference point is passed through this first dimension boundary line, judge that whether this reference point is lower than this first dimension boundary line;

If so, rotate this cursor so that this can touch area higher than this sensing region; And

If not, rotate this cursor so that this can touch area lower than this sensing region.

4. method according to claim 2, is characterized in that, when this reference point of this cursor is during by this first dimension boundary line or this second dimension boundary line, rotates this cursor and comprises with the step of adjusting this relative position that this sensing region and this can touch area:

In the time that this reference point is passed through this second dimension boundary line, judge whether this reference point is positioned at the right side in this second dimension boundary line;

If so, rotate this cursor so that this can touch area be positioned at the left side in this sensing region; And

If not, rotate this cursor so that this can touch area be positioned at the right side in this sensing region.

5. a display packing for touch-control cursor, is suitable for having an electronic installation of a touch-display unit, and wherein this touch-display unit has a viewing area, it is characterized in that, described method comprises the following steps:

In this viewing area, define at least one the first dimension boundary line and at least one the second dimension boundary line;

Show a cursor, wherein this cursor there is a sensing region and can touch area;

There is a touch-control event in this can touch area time, according to a touch-control coordinate mobile this cursor accordingly of this touch-control event; And

When a reference point of this cursor two or this at least one the second dimension boundary line wherein by this at least one the first dimension boundary line wherein two time, rotate this cursor to adjust the relative position that this sensing region and this can touch areas.

6. method according to claim 5, is characterized in that, this at least one first dimension boundary line comprises one first x wire and one second x wire, and this second x wire is lower than this first x wire,

Wherein, this at least one second dimension boundary line comprises one first vertical line and one second vertical line, and this second vertical line is positioned at the right side of this first vertical line.

7. method according to claim 6, it is characterized in that, when this reference point of this cursor two or this at least one the second dimension boundary line wherein by this at least one the first dimension boundary line wherein two time, rotate this cursor and comprise with the step of adjusting this relative position that this sensing region and this can touch area:

In the time that this reference point is passed through this first x wire, judge that whether this reference point is then by this second x wire;

If so, rotate this cursor so that this can touch area higher than this sensing region; And

If not, do not adjust this relative position that this sensing region and this can touch areas.

8. method according to claim 6, it is characterized in that, when this reference point of this cursor two or this at least one the second dimension boundary line wherein by this at least one the first dimension boundary line wherein two time, rotate this cursor and comprise with the step of adjusting this relative position that this sensing region and this can touch area:

In the time that this reference point is passed through this second x wire, judge that whether this reference point is then by this first x wire;

If so, rotate this cursor so that this can touch area lower than this sensing region; And

If not, do not adjust this relative position that this sensing region and this can touch areas.

9. method according to claim 6, it is characterized in that, when this reference point of this cursor two or this at least one the second dimension boundary line wherein by this at least one the first dimension boundary line wherein two time, rotate this cursor and comprise with the step of adjusting this relative position that this sensing region and this can touch area:

In the time that this reference point is passed through this first vertical line, judge that whether this reference point is then by this second vertical line;

If so, rotate this cursor so that this can touch area be positioned at the left side in this sensing region; And

If not, do not adjust this relative position that this sensing region and this can touch areas.

10. method according to claim 6, it is characterized in that, when this reference point of this cursor two or this at least one the second dimension boundary line wherein by this at least one the first dimension boundary line wherein two time, rotate this cursor and comprise with the step of adjusting this relative position that this sensing region and this can touch area:

In the time that this reference point is passed through this second vertical line, judge that whether this reference point is then by this first vertical line;

If so, rotate this cursor so that this can touch area be positioned at the right side in this sensing region; And

If not, do not adjust this relative position that this sensing region and this can touch areas.