CN104049832B - 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

Touch-control light target display packing

Technical field

The present invention relates to a kind of display packing, and in particular to a kind of touch-control light target display packing.

Background technology

In modern society, the electronic product with touch screen of all kinds already becomes indispensable during people live A part.Wherein, smart mobile phone, panel computer and its similar device are also because which is the convenience that people bring and diversified Occupation mode, and become one of most-often used electronic product of people.

In general, user (is such as schemed touching each object shown by touch screen by finger or pointer Mark or menu), to perform corresponding function.However, when the object is touched, often may be because object to be touched be too small So that user is difficult to be touched exactly.

The content of the invention

In view of this, the present invention provides a kind of touch-control light target display packing, and user can be allowed to grasp by the cursor of display Make electronic installation.Also, electronic installation can also accordingly rotate shown cursor according to the operation behavior of user automatically.

The present invention provides a kind of touch-control light target display packing, is suitable to the electronic installation with touch-display unit, wherein Touch-display unit has viewing area.Methods described comprises the following steps：First, the first dimension boundary line defined in viewing area And second dimension boundary line；Then, display highlighting, wherein cursor have and point to region and can touch area；When can touch area During middle generation touch event, cursor is accordingly moved according to the touch-control coordinate of touch event；Afterwards, when light target reference point passes through First dimension boundary line or second dimension boundary line when, rotate light be marked with adjustment point to region and can touch area relative position.

From for another viewpoint, the present invention provides a kind of touch-control light target display packing, is suitable to touch-display unit Electronic installation, wherein touch-display unit has viewing area.Methods described comprises the following steps：First, in viewing area Defined at least one first dimension boundary line and at least one second dimension boundary line；Then, display highlighting, wherein cursor have sensing region And can touch area；When touch event occurring in touch area, accordingly move according to the touch-control coordinate of touch event Cursor；Afterwards, when light target reference point ties up boundary line by wherein two or at least the one second of at least one first dimension boundary line Wherein two when, rotate light be marked with adjustment point to region and can touch area relative position.

Based on above-mentioned, the method that the embodiment of the present invention is proposed can allow electronic installation to be marked on the position in viewing area according to light And accordingly rotate cursor automatically.So, user can be easily using cursor come some when by cursor operations electronic installation Select each object in viewing area.

It is that the features described above and advantage of the present invention can be become apparent, special embodiment below, and it is detailed to combine accompanying drawing work Carefully it is described as follows.

Description of the drawings

Fig. 1 is the touch-control light target display packing flow chart shown in one embodiment of the invention；

Fig. 2A to Fig. 2 D is the multiple viewing area schematic diagrams for implementing to exemplify of the present invention；

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

Fig. 4 A to Fig. 4 D are the multiple viewing area figures for implementing to exemplify of the present invention.

Description of reference numerals：

BL1：First dimension boundary line；

BL2：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.

Specific embodiment

Fig. 1 is the touch-control light target display packing flow chart shown in one embodiment of the invention.With reference to Fig. 1, the present embodiment The method of proposition is applied to the electronic installation with touch-display unit, such as smart mobile phone, panel computer and individual digital The devices such as assistant (Personal Digital Assistant, PDA).The touch-display unit is, for example, that touch screen etc. is available To detect user's touch control gesture, and the element of display picture.

In general, the viewing area shown by touch-display unit may include icon miscellaneous and object.It is described Icon for example may correspond to specific application program, and user can be held in touch-display unit by way of touching icon The corresponding application program of row.However, if user's icon to be touched or other objects (such as menu or word etc.) are too small, with Cause, when user is difficult to touch its accurate location, the inconvenience in user operation will be caused.Proposed based on the embodiment of the present invention Method, should be effectively improved the touching inconvenience situation caused because icon or other objects are too small.

In the present embodiment, electronic installation can in the viewing area of its touch-display unit display highlighting, and this cursor With pointing to region (for example, arrow) and can touch area.In touch-display unit display highlighting, user can be by touching And drag can touch area mode moving light target position.Wherein, when light target sensing region is accordingly moved by user Icon into viewing area, and stop touching can touch area when, electronic installation can determine whether user now will by cursor come Click icon.Therefore, electronic installation can accordingly choose the icon, or the right side similar in appearance to conventional mouse is shown by icon The objects such as key menu, carry out subsequent operation (for example, replicate, paste, shearing the operation such as file) in order to user.

Additionally, the method that the embodiment of the present invention is proposed can also adjust light target in due course shows situation, to allow use Family will not because point to region and can be between touch area relative position limit and affect the operating experience of user.It is provided below Detailed description.

Fig. 2A to Fig. 2 D is the multiple viewing area schematic diagrams for implementing to exemplify of the present invention.Viewing area DIS be, for example, by The picture shown by touch-display unit in electronic installation.Viewing area DIS for example includes icon IC1~IC5, and its difference can Corresponding to different application programs.Referring concurrently to Fig. 1 and Fig. 2A, in step s 110, electronic installation can be in the DIS of viewing area Define first and tie up boundary line BL1 and the second dimension boundary line BL2.First dimension boundary line BL1 is, for example, x wire, and the second dimension boundary line BL2 E.g. vertical line.Those skilled in the art are it should be appreciated that boundary line BL2 is tieed up in the first dimension boundary line BL1 and second shown in Fig. 2A Only to illustrate, the embodiment of the present invention is not limited to.In other words, in other embodiments, the first Wei Jie The dimensions of line BL1 and second boundary line BL2 may also be employed other modes (for example, other angles and position) to define.

Then, in the step s 120, the touch-display unit of electronic installation can display highlighting CS1, it include point to region PA1 and can touch area TA1.Point to region PA1 for example can be presented with the mode of arrow, and can touch area TA1 for example Can design positioned at the lower right (as shown in Figure 2 A) for pointing to region PA1, but the present invention can not limited to this.Afterwards, in step S130 In, when touch event occurring in touch area TA1, electronic installation can be accordingly moved according to the touch-control coordinate of this touch event Dynamic cursor CS1.In other words, electronic installation can be detected by touch-display unit can touch area TA1 it is whether touched.If It is that then electronic installation can further read the coordinate at touched place.Also, when the coordinate changes, electronic installation can be accordingly The display location of mobile cursor CS1.Therefore, user can first with finger touching can touch area TA1, then by drag in the way of come right Answer the display location of the mobile cursor CS1 in ground.

Afterwards, in step S140, when the reference point of cursor CS1 is by the first dimension boundary line BL1 or the second dimension boundary line BL2 When, the rotatable cursor CS1 of electronic installation with adjust point to region PA1 and can touch area TA1 relative position.Wherein, institute State certain datum mark that reference point can be in cursor CS1 (for example, can touch area TA1 center, or point to region PA1's In place of arrow indication etc., but can not limited to this), for as dimension boundary lines BL1 of cursor CS1 and first and the second dimension boundary line BL2 Between relative position basis for estimation.

Specifically, in user operation electronic installation, it is possible to will for example be chosen icon by cursor CS1 The operation of IC2.Now, if maintaining cursor CS1 display modes in fig. 2, it would be possible to allow user will point to region PA1 Successfully it is moved at icon IC2.In other words, user will likely point to region PA1 and can touch area because in cursor CS1 The configuration of relative position between TA1 and icon IC2 cannot be chosen by cursor CS1.

Therefore, in order to avoid the problems referred to above, electronic installation can be according to dimension boundary lines BL1 of cursor CS1 and first and the second dimension Relative position relation between boundary line BL2, suitably adjusts the display mode of cursor CS1, so that user smoothly can click for example The users such as icon IC2~IC5 are compared with being difficult to the object clicked by cursor CS1.Hereinafter will give a few examples to illustrate.

With reference to Fig. 2A, in the first embodiment, when electronic installation judges the reference point of cursor CS1 by the first dimension boundary line During BL1, whether electronic installation can determine whether reference point less than the first dimension boundary line BL1.If electronic installation judges the reference point of cursor CS1 Less than the first dimension boundary line BL1, this represents that cursor CS1 may be moved to the first dimension boundary line BL1 area below by user, to carry out The operation of icon IC2~IC5 is clicked for example.Therefore, the rotatable cursor CS1 of electronic installation so that can touch area TA1 higher than refer to To region PA1.Postrotational cursor CS1 is, for example, the cursor CS2 shown in Fig. 2 B.In fig. 2b, cursor CS2 includes pointing to region PA2 and can touch area TA2.Point to region PA2 and can touch area TA2 be, for example, respectively by the sensing region in Fig. 2A PA1 and can touch area TA2 rotated after produce.After cursor CS1 is rotated to be cursor CS2, due to cursor CS2 Sensing region PA2 less than can touch area TA2 position, therefore user by can touch area TA2 move cursor CS2 Meanwhile, can carry out for example choosing the operation of icon IC2~IC5 by pointing to region PA2.

In a second embodiment, if electronic installation is when cursor is by the first dimension boundary line, electronic installation judges that light target is joined When examination point is higher than the first dimension boundary line, this represents that cursor may be moved to user the region in more than the first dimension boundary line.With Fig. 2 B As a example by, when cursor CS2 is moved by user upwards, so that when the reference point of cursor CS2 is higher than the first dimension boundary line BL1, electronic installation Rotatable cursor CS2 so that can touch area TA2 less than point to region PA2.Postrotational cursor CS2 is, for example, shown in Fig. 2A Cursor CS1.So, user still can for example be clicked icon IC1 by postrotational cursor CS2 (such as cursor CS1) Operation.So, user by cursor CS1 (or cursor CS2) to operate electronic installation when, due to electronic installation adaptability Ground adjustment light target display mode so that electronic installation can provide user's more intuition and operating experience different from the past.

In the third embodiment, when electronic installation judges light target reference point by the second dimension boundary line, electronic installation can Judge reference point whether positioned at the second right side for tieing up boundary line.If electronic installation judges light target reference point positioned at the second dimension boundary line Right side, this represents that cursor may be moved to user the region on the right side in the second dimension boundary line.Therefore, the rotatable cursor of electronic installation, So that can touch area be located at point to region left side.Postrotational cursor is, for example, the cursor CS3 shown in Fig. 2 C.In Fig. 2 C In, cursor CS3 includes pointing to region PA3 and can touch area TA3.Point to region PA3 and can touch area TA3 be, for example, Respectively by the sensing region PA1 in Fig. 2A and can touch area TA2 rotated after produce, or by the sensing in Fig. 2 B Region PA2 and can touch area TA2 rotated after produce.Cursor CS1 (or cursor CS2) is being rotated to be into cursor CS3 Afterwards, due to the sensing region PA3 of cursor CS3 be located at can touch area TA3 left side, therefore user is by can touch area While TA3 movement cursor CS3, the icon positioned at viewing area compared with right side area can be clicked by pointing to region PA3.

In the fourth embodiment, if electronic installation is when cursor is by the second dimension boundary line, electronic installation judges that light target is joined When examination point is on the left of the second dimension boundary line, this represents that cursor may be moved to user the region of the second dimension boundary line left.With As a example by Fig. 2 C, as user by cursor CS3 to moving to left, so that when the reference point of cursor CS3 is located at the left side in the second dimension boundary line BL2 When, the rotatable cursor CS3 of electronic installation so that can touch area TA3 be located at point to region PA2 right side.Postrotational cursor CS3 is, for example, the cursor CS1 shown in Fig. 2A.So, user still can be entered by postrotational cursor CS3 (such as cursor CS1) Row for example clicks the operation of icon IC1.

According to the teaching in first embodiment to fourth embodiment, when user is moved to cursor less than the first dimension boundary line BL1 and while when locating on the right side of the second dimension boundary line BL2, electronic installation will accordingly rotate cursor so that can touch area it is high In sensing region, and while positioned at the left side for pointing to region.By taking Fig. 2 B as an example, when cursor CS2 is moved right by user so that cursor When the reference point of CS2 is located at the right side in the second dimension boundary line BL2, electronic installation can accordingly rotate cursor CS2, to produce such as Fig. 2 D Shown cursor CS4.In figure 2d, cursor CS4 includes pointing to region PA4 and can touch area TA4.That is, as cursor CS2 Reference point by second dimension boundary line BL2 when, electronic installation can be carried out similar in appearance to the operation in 3rd embodiment so that can be touched Region TA2 can be adjusted to positioned at the position pointed on the left of the PA2 of region.

Again by taking Fig. 2 C as an example.As user by cursor CS3 to moving down so that the reference point of cursor CS3 is less than the first dimension boundary line During BL1, electronic installation also can accordingly rotate cursor CS3, to produce cursor CS4 as shown in Figure 2 D.That is, as cursor CS3 Reference point by first dimension boundary line BL1 when, electronic installation can be carried out similar in appearance to the operation in first embodiment so that can be touched Region TA3 can be adjusted to higher than the position for pointing to region PA3.

The method proposed by the embodiment of the present invention, can allow electronic installation adaptively according to the operation behavior of user adjusting Whole smooth target display mode, to allow user choose object (for example, menu and icon etc.) to be chosen more easily.This Sample, electronic installation can provide user more intuition, convenient and operating experience different from the past.

However, as the method shown in Fig. 1 is rotated cursor in the vicinity in the first dimension boundary line and the second dimension boundary line, Therefore when user to be passed through cursor chooses the object near the first dimension boundary line and the second dimension boundary line, it would be possible to because of light target Automatic rotating operation and be difficult to choose positioned at first dimension boundary line and second dimension boundary line near object.In order to improve the problems referred to above, The embodiment of the present invention separately proposes a kind of touch-control light target display packing, below will be described in more detail.

Fig. 3 is the touch-control light target display packing shown in one embodiment of the invention.The method of the present embodiment is equally applicable for Electronic installation with touch-display unit, such as smart mobile phone, panel computer and personal digital assistant etc..Fig. 4 A to Fig. 4 D It is the multiple viewing area figures for implementing to exemplify of the present invention.The detailed step of Fig. 3 methods is illustrated below with reference to Fig. 4 A to Fig. 4 D Suddenly.

Referring concurrently to Fig. 3 and Fig. 4 A, in step S310, electronic installation at least 1 defined in the DIS of viewing area One-dimensional boundary line and at least one second dimension boundary line.In the present embodiment, at least one first dimension boundary line is for example horizontal including first To line H1 and the second x wire H2, and the second x wire H2 can be less than the first x wire H1.At least one second dimension boundary line For example include first longitudinal direction line V1 and second longitudinal direction line V2, and second longitudinal direction line V2 positioned at the right side of first longitudinal direction line V1.Institute The embodiment at least one first dimension boundary line and at least one second dimension boundary line is stated only to illustrate, which can be according to design The demand of person and be voluntarily adjusted.Then, the step of content of step S320 and S330 can refer to Fig. 1 S120 and S130, Will not be described here.

Afterwards, in step S340, when cursor CS1 reference point by least one first dimension boundary line wherein two or At least one second dimension boundary line wherein two when, electronic installation rotates cursor CS1 and region PA1 and can touch area to adjust to point to The relative position of domain TA1.

Specifically, in the present embodiment, at least one first Wei Jie is located in order to allow user more easily to click Object near line and at least one second dimension boundary line, electronic installation can be in light target reference points by described at least 1 the One-dimensional boundary line (or described at least one second dimension boundary line) for the moment, judges whether the reference point then passes through other first and tie up Boundary line (or second dimension boundary line).If it is not, then electronic installation can not rotate cursor, so that user can click positioned at each the first Wei Jie Object near line and each the second dimension boundary line.Hereinafter will give a few examples to illustrate.

Reference picture 4A, in the 5th embodiment, when the reference point of cursor CS1 passes through the first x wire H1, electronic installation Can then judge whether reference point then passes through the second x wire H2.If it is not, then electronic installation can not adjust sensing region PA1 with And can touch area TA1 relative position.If the reference point of cursor CS1 is after by the first x wire H1, if then passing through Second x wire H2, the then rotatable cursor CS1 of electronic installation so that can touch area TA1 higher than pointing to region PA1.After rotation Cursor CS1 be, for example, Fig. 4 B shown in cursor CS2.Point to region PA2 and can touch area TA2 be, for example, respectively by Fig. 4 A In sensing region PA1 and can touch area TA1 rotated after produce.By cursor CS1 rotate to be cursor CS2 it Afterwards, due to cursor CS2 sensing region PA2 less than can touch area TA2 position, therefore user is by can touch area While TA2 movement cursor CS2, can carry out for example choosing the operation of icon IC2~IC5 by pointing to region PA2.

In other words, when the reference point of cursor CS1 passes through the first x wire H1, electronic installation will not be as the aforementioned first enforcement Example is the same immediately to rotate cursor CS1, but can judge whether the reference point of cursor CS1 then passes through the second x wire H2.If It is, then the operation that cursor CS1 can be rotated by electronic installation side.Therefore, as user, will to put bit selecting attached in the first x wire H1 During near object, user can be clicked with cursor CS1.

Reference picture 4B, when the reference point of cursor CS2 passes through the second x wire H2, electronic installation can then judge reference point Whether first x wire H1 is then passed through.If it is not, then electronic installation is not adjusted and points to region PA2 and can touch area TA2 Relative position.If the reference point of cursor CS2 is after by the second x wire H2, if then passing through the first x wire H1, electricity The rotatable cursor CS2 of sub-device so that can touch area TA2 less than point to region PA2.Postrotational cursor CS2 e.g. schemes Cursor CS1 shown in 4A.In Figure 4 A, point to region PA1 and can touch area TA1 be, for example, respectively by the sensing in Fig. 4 B Region PA2 and can touch area TA2 rotated after produce.After cursor CS2 is rotated to be cursor CS1, due to light Mark CS1 sensings region PA1 higher than can touch area TA1 position, therefore user by can touch area TA1 movement cursor While CS1, can carry out for example choosing the operation of icon IC1 by pointing to region PA1.

Similarly, when the reference point of cursor CS2 passes through the second x wire H2, electronic installation will not be as the aforementioned second enforcement Example is the same immediately to rotate cursor CS2, but can judge whether the reference point of cursor CS2 then passes through the first x wire H1.If It is, then the operation that cursor CS2 can be rotated by electronic installation side.Therefore, as user, will to put bit selecting attached in the second x wire H2 During near object, user successfully can be clicked with cursor CS2.

Referring again to Fig. 4 A, when cursor CS1 is moved right by user, so that the reference point of cursor CS1 passes through first longitudinal direction During line V1, electronic installation can then judge whether the reference point of cursor CS1 then passes through second longitudinal direction line V2.If it is not, then electronics Device can not adjust point to region PA1 and can touch area TA1 relative position.If the reference point of cursor CS1 is by the After one vertical line V1, if then passing through second longitudinal direction line V2, the rotatable cursor CS1 of electronic installation, so that can touch area TA1 is located at the left side for pointing to region PA1.Postrotational cursor CS1 is, for example, the cursor CS3 shown in Fig. 4 C.Point to region PA3 with And can touch area TA3 be, for example, respectively by the sensing region PA1 in Fig. 4 A and can touch area TA1 rotated after produce It is raw.After cursor CS1 is rotated to be cursor CS3, due to cursor CS3 sensing region PA3 be located at can touch area TA3 a left side Side, thus user by can touch area TA3 move cursor CS3 while, can be clicked by pointing to region PA3 be located at it is aobvious Show icon of the region compared with right side area.

In other words, when the reference point of cursor CS1 passes through first longitudinal direction line V1, electronic installation will not be as the aforementioned 3rd enforcement Example is the same immediately to rotate cursor CS1, but can judge whether the reference point of cursor CS1 then passes through second longitudinal direction line V2.If It is, then the operation that cursor CS1 can be rotated by electronic installation side.Therefore, as user, will to put bit selecting attached in first longitudinal direction line V1 During near object, user successfully can be clicked with cursor CS1.

Reference picture 4C, when cursor CS3 is moved right by user, so that the reference point of cursor CS3 passes through second longitudinal direction line V2 When, electronic installation can then judge whether the reference point of cursor CS3 then passes through first longitudinal direction line V1.If it is not, then electronic installation Can not adjust point to region PA3 and can touch area TA3 relative position.If the reference point of cursor CS3 is vertical by second To after line V2, if then passing through first longitudinal direction line V1, the rotatable cursor CS3 of electronic installation, so that can touch area TA3 positions In the left side for pointing to region PA3.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, respectively by the sensing region PA3 in Fig. 4 C and can touch area TA3 rotated after produce. After cursor CS3 is rotated to be cursor CS1, due to cursor CS1 sensing region PA1 be located at can touch area TA1 left side, Therefore user by can touch area TA1 move cursor CS1 while, such as icon can be clicked by pointing to region PA1 The object of IC1.

In other words, when the reference point of cursor CS3 passes through second longitudinal direction line V2, electronic installation will not be as the aforementioned 4th enforcement Example is the same immediately to rotate cursor CS3, but can judge whether the reference point of cursor CS3 then passes through first longitudinal direction line V1.If It is, then the operation that cursor CS3 can be rotated by electronic installation side.Therefore, as user, will to put bit selecting attached in second longitudinal direction line V2 During near object, user successfully can be clicked with cursor CS3.

Based on above-mentioned, when cursor is moved to less than the second x wire H2 and while on the right side of second longitudinal direction line V2 by user During place, electronic installation will accordingly rotate cursor so that can touch area higher than pointing to region, and while positioned at pointing to region Left side.By taking Fig. 4 B as an example, when cursor CS2 is moved right by user so that the reference point of cursor CS2 is positioned at the right side of second longitudinal direction line V2 During side, electronic installation can accordingly rotate cursor CS2, to produce cursor CS4 as shown in Figure 4 D.In fig. 4d, cursor CS4 bags Include sensing region PA4 and can touch area TA4.That is, cursor CS2 reference point in succession pass through first longitudinal direction line V1 and After second longitudinal direction line V2, electronic installation can be carried out similar in appearance to the operation in 3rd embodiment so that can touch area TA2 can quilt Adjust to positioned at the position pointed on the left of the PA2 of region.

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

In short, the method provided by Fig. 3 embodiments, electronic installation can be according to cursor and at least one first Wei Jie Line (for example, the first x wire H1 and the second x wire H2) and at least one second dimension boundary line (for example, the first longitudinal direction line V1 And second longitudinal direction line V2) between relative position adaptively rotating cursor.Also, as electronic installation is to judge light Target reference point is in succession by two (for example, the first x wire H1 and second horizontal wherein at least one first dimension boundary line To line H2) or two (for example, the first longitudinal direction line V1 and second longitudinal direction line V2) wherein at least one second dimension boundary line Afterwards, just cursor is rotated, therefore user when the object near above-mentioned each boundary line is clicked with cursor, will not be because Light target automatic rotary transfers to experience operational inconvenience.

In sum, by adjustment cursor display method provided in an embodiment of the present invention, user can be allowed aobvious using touch-control When showing the cursor operations electronic installation that unit shows, electronic installation can be adaptively rotated according to the operation behavior of user Cursor.So, user can click each object in viewing area conveniently by the cursor.

Finally it should be noted that：Various embodiments above only to illustrate technical scheme, rather than a limitation；To the greatest extent Pipe has been described in detail to the present invention with reference to foregoing embodiments, it will be understood by those within the art that：Its according to So the technical scheme described in foregoing embodiments can be modified, or which part or all technical characteristic are entered Row equivalent；And these modifications or replacement, do not make the essence of appropriate technical solution depart from various embodiments of the present invention technology The scope of scheme.

Claims (10)

1. a kind of touch-control light target display packing, is suitable to the electronic installation with a touch-display unit, and the wherein touch-control shows Show that unit has a viewing area, it is characterised in that methods described comprises the following steps：

The one first dimension boundary line defined in the viewing area and one second dimension boundary line；

A cursor is shown, wherein the cursor can touch area with a sensing region and one；

When this can occur a touch event in touch area, the light is accordingly moved according to a touch-control coordinate of the touch event Mark；And

When one reference point of light target by this first dimension boundary line or this second dimension boundary line when, rotate the light be marked with adjustment this refer to To region and this can touch area a relative position.

2. method according to claim 1, it is characterised in that the first dimension boundary line includes an x wire, and second dimension Boundary line includes a vertical line.

3. method according to claim 2, it is characterised in that when the light target reference point by the first dimension boundary line or Be this second dimension boundary line when, rotate the light be marked with adjust the sensing region and this can touch area the relative position the step of Including：

When the reference point is by the first dimension boundary line, judge the reference point whether less than the first dimension boundary line；

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

If it is not, rotate the cursor so that this can touch area be less than the sensing region.

4. method according to claim 2, it is characterised in that when the light target reference point by the first dimension boundary line or Be this second dimension boundary line when, rotate the light be marked with adjust the sensing region and this can touch area the relative position the step of Including：

When the reference point is by the second dimension boundary line, judge whether the reference point is located at the right side in the second dimension boundary line；

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

If it is not, rotate the cursor so that this can touch area be located at the sensing region right side.

5. a kind of touch-control light target display packing, is suitable to the electronic installation with a touch-display unit, and the wherein touch-control shows Show that unit has a viewing area, it is characterised in that methods described comprises the following steps：

Multiple first dimension boundary lines defined in the viewing area and multiple second dimension boundary lines；

A cursor is shown, wherein the cursor can touch area with a sensing region and one；

When this can occur a touch event in touch area, the light is accordingly moved according to a touch-control coordinate of the touch event Mark；And

When one reference point of light target by the plurality of first dimension boundary line wherein two or it is the plurality of second dimension boundary line its In two when, rotate the light be marked with adjust the sensing region and this can touch area a relative position.

6. method according to claim 5, it is characterised in that the plurality of first dimension boundary line include one first x wire and One second x wire, and second x wire is less than first x wire,

Wherein, the plurality of second dimension boundary line includes a first longitudinal direction line and a second longitudinal direction line, and the second longitudinal direction line is located at The right side of the first longitudinal direction line.

7. method according to claim 6, it is characterised in that the reference point passes through the plurality of first Wei Jie when the light target Line wherein two or it is the plurality of second dimension boundary line wherein two when, rotate the light be marked with adjustment the sensing region and should Can touch area the relative position the step of include：

When the reference point passes through first x wire, judge whether the reference point then passes through second x wire；

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

If it is not, do not adjust the sensing region and this can touch area the relative position.

8. method according to claim 6, it is characterised in that the reference point passes through the plurality of first Wei Jie when the light target Line wherein two or it is the plurality of second dimension boundary line wherein two when, rotate the light be marked with adjustment the sensing region and should Can touch area the relative position the step of include：

When the reference point passes through second x wire, judge whether the reference point then passes through first x wire；

If so, rotate the cursor so that this can touch area be less than the sensing region；And

If it is not, do not adjust the sensing region and this can touch area the relative position.

9. method according to claim 6, it is characterised in that the reference point passes through the plurality of first Wei Jie when the light target Line wherein two or it is the plurality of second dimension boundary line wherein two when, rotate the light be marked with adjustment the sensing region and should Can touch area the relative position the step of include：

When the reference point passes through the first longitudinal direction line, judge whether the reference point then passes through the second longitudinal direction line；

If so, rotate the cursor so that this can touch area be located at the sensing region left side；And if it is not, do not adjust the sensing Region and this can touch area the relative position.

10. method according to claim 6, it is characterised in that the reference point is tieed up by the plurality of first when the light target Boundary line wherein two or it is the plurality of second dimension boundary line wherein two when, rotate the light be marked with adjustment the sensing region and This can touch area the relative position the step of include：

When the reference point passes through the second longitudinal direction line, judge whether the reference point then passes through the first longitudinal direction line；

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

If it is not, do not adjust the sensing region and this can touch area the relative position.