CN1187652A - Method for determining and treating key high-spot effect by area - Google Patents

Abstract

A region judgement method for treating highlight effect of keystroke is aimed at generate highlight effect when cursor moves in any-trigger region on graphic interface with multiple trigger regions. The graphics in highlight state and position information file are stored in memory. When cursor moves on screen, the user can predicate whether the cursor is positioned in particular trigger region according to cursor position and the information in position information file. When cursor is positioned in a trigger region, a correspondent small highlight graphics is cut out from prestored highlight state graphics and displayed in the trigger region on screen, obtaining highlight effect.

Description

Utilize region decision to handle the method for key high-spot effect

The invention relates to a kind of multimedia (multi-media) interface tech that is applied in the electronic system that image shows, particularly utilize the region decision method, come processing capacity button (functionbutton) thereby the technology of prompting key high-spot (highlight) effect that the user presented.

Present most computer system mostly is to adopt Graphic Interface Control as the user interface, for example Windows 3.1/95 operating system of Microsoft (Microsoft).Its advantage is that the user can see through predefined types of functionality button, and adopts intuitive mode of operation to carry out, so the user does not need to remember various complicated instructions, just can set up good man computer interface by this.On the operation interface of this type operating system, can demonstrate various patterned buttons, respectively in order to the instruction of various operations to be described according to deviser's design or user's setting voluntarily; Corresponding to each rounding button one sightless trigger region is arranged then.When the user operates Genius mouse (or other indicator devices) and makes that cursor (cursor) on the screen moves to a certain specific trigger region, then the graph of a correspondence button can demonstrate highlighted dotted state, even cursor can change shape, uses this zone of prompting user and can trigger other incident.And when the user presses mouse button, just can trigger this area relative incident.Therefore, in the system at general figures interface, key high-spot effect is to be used for pointing out the user, present cursor position has entered in the toggle area of display high-brightness point effect, in other words, also be that location (position) goes out required function on the graphical operation interface, so this is a considerable skill in the multimedia technology.

Realize above-mentioned key high-spot effect, at first, whether the position of to judge current cursor appears in the specific toggle area, and when cursor entered in a certain toggle area, just the highlighted dot pattern with correspondence was labelled in the corresponding zone.Prior art is handled the mode of key high-spot effect, mainly is to utilize control element to be handled.Respectively two kinds of common processing modes of prior art are illustrated with next.

First kind of known processing mode, be to use two figure control elements (picture control) to handle for each toggle area, one of them figure control element is to be used for judging whether cursor enters toggle area, and another figure control element then is to be used for showing the figure with high-spot effect.The figure control element is a kind of standard control element, has the function of demonstration dot matrix image (bitmap), simultaneously can also be as the container of other control elements.When cursor enters the toggle area of appointment, first figure control element just can detect cursor and arrive, and second figure control element just can have high-spot effect graphic presentation on the position of correspondence with what deposit in advance, and changes the shape of cursor.On the other hand, when cursor was got back to the background of graphical interfaces, first figure control element just can detect the current position of this cursor, and another figure control element just can be closed high bright spot show state.By this, according to the setting of cursor position and toggle area, just can reach the purpose of display high-brightness point.

Basically, first method is comparatively simple on handling, yet shortcoming promptly is to waste very much storage space.For example on a graphical interfaces, have 8 toggle area, just must use 8 * 2 (each toggle area needs two control elements)=16 control elements.With MicrosoftWindows is example, and each control element must be applied for the storage space of 8k bit group at least, therefore the storage space of 16 just necessary application 16 * 8=128k of control element.Should be noted that, above-mentioned storage space does not still comprise the required storer of figure that is used for storing highlighted dotted state, along with the toggle area quantity on graphical interfaces is bigger, needed storage space must relatively increase fast, therefore the application program of a large amount of toggle area need be defined to some, huge storage space will be consumed.

Second kind of known processing mode then only used a highlighted point control element to each toggle area.Herein in the reason mode, can be stored within the internal storage at prior big figure a highlighted dotted state figure, comprise many little figure that can cut among this big figure, correspond respectively to all toggle area on the graphical interfaces, so when cursor enters this toggle area, can show the highlighted dotted state figure of this key area.Above-mentioned highlighted point control element itself is not stored highlighted dotted state figure.Under original state, that is cursor is not when entering toggle area as yet, and highlighted point control element is to be responsible for having judged whether that cursor enters toggle area; When cursor moves into specific toggle area, highlighted point control element can be dynamically by cutting out out the suitable little figure of highlighted dotted state among the big figure, and on the corresponding key graphics field, demonstrate highlighted dotted state figure.

Clearly, second kind of employed control element quantity of processing mode can reduce half than first kind of processing mode, this means to promote the required time of whole graphical interfaces that is written into.But this processing mode still has its restriction, and the capital is that the feature size, position of toggle area and display high-brightness dotted state is minimum the same, otherwise the speed when toggle area being carried out high bright spot demonstration can be very slow, and this is its first shortcoming.In addition, though reduced the storage space of half in this processing method, required storage space is still very huge.On the interface of 8 toggle area of needs, still need 8 control elements for example equally, that is the storage space that still needs to apply for 64k.

In view of this, fundamental purpose of the present invention is to provide a kind of method of handling key high-spot effect, and it can reduce the storage space of handling the required configuration of high-spot effect, and then reduces the needed time of whole graphical interfaces that is written into.

Another object of the present invention is to provide a kind of method of handling key high-spot effect, and it can demonstrate the figure of high-spot effect apace in real time at the position and the preset trigger zone of cursor (Genius mouse or other indicator devices produce).

According to above-mentioned purpose, the present invention proposes a kind of method of utilizing region decision to handle key high-spot effect, can be useful on the graphical interfaces with a plurality of toggle area, be used for handling the key high-spot effect that is produced when cursor moves in arbitrary toggle area.At first, a highlighted dotted state figure and a positional information file are loaded in the storer.This highlighted dotted state figure is made of the little figure of a plurality of highlighted dotted state that corresponds respectively to toggle area, and produces utilize image processing program to piece together the little figure of each highlighted dotted state in advance.The positional information file then is the relevant location information that is used for storing each toggle area and highlighted dotted state figure.

When the user utilizes cursor position on indicator device (as the Genius mouse) mobile display, just can be according to the relevant information in cursor position and the positional information file, judge that cursor is whether within a certain specific toggle area.When cursor position is in some toggle area the time, just can cut out out the little figure of highlighted dotted state, and be presented at the screen position of this toggle area by in the highlighted dotted state figure that is written in advance corresponding to this toggle area.And when toggle area has been shifted out in the position of cursor, just can remove the previous shown little figure of highlighted dotted state immediately, and, beginning is routinely carried out cursor to each toggle area and is surveyed, till it enters arbitrary toggle area again, utilize above-mentioned mode to show required key high-spot effect again.By above mode, just can move and present high-spot effect along with the cursor on the screen, do not need simultaneously each toggle area configuration control element, and then increase the speed that is written into and save internal memory space.

For above-mentioned purpose of the present invention, feature and advantage can be become apparent, a preferred embodiment cited below particularly, and conjunction with figs. are described in detail below:

The hardware structure diagram that Fig. 1 is in the embodiment of the invention to be adopted.

Fig. 2 utilizes region decision to handle the method flow diagram of key high-spot effect in the present embodiment.

Fig. 3 is the form synoptic diagram of positional information file in the present embodiment.

Fig. 4 is the detailed step process flow diagram that is written into the positional information file among Fig. 2.

Fig. 5 is a detailed step process flow diagram of handling the high bright spot display effect of key zone among Fig. 2.

Fig. 6 handles the detailed step process flow diagram of pressing mouse button among Fig. 2.

Fig. 7 is in the embodiment of the invention, in order to the synoptic diagram of the graphical interfaces homepage that adopted compared with the prior art.

Embodiment:

The disposal route of key high-spot effect proposed by the invention mainly is to utilize the region decision method to be implemented, and does not need the control element that uses prior art to adopt, therefore can reach the advantage that increases the speed that is written into and save internal memory space.Below with reference to accompanying drawing, described in detail for embodiments of the invention.

The hardware structure diagram that Fig. 1 represents in the present embodiment to be adopted, it is identical with general personal computer system basically.Comprise in this structure be used for the display 2 of display image, as handling and host computer 4, the Genius mouse 6 of indicator device and the keyboard 8 that is used for importing of control maincenter.Can carry out a certain program in the host computer 4, and on display 2, demonstrate this graphical interfaces with graphical interfaces.Having several on the graphical interfaces designs in advance or does not show toggle area and corresponding display button district by what the user set.When the user utilizes cursor on Genius mouse 6 mobile displays 2, when entering in any toggle area, toggle area (or corresponding key district) then can demonstrate the figure of high bright spot (highlighting) effect, when the user further presses button on the Genius mouse 6, just can trigger the pairing program of this toggle area.The technical purpose of desiring to reach in the present embodiment promptly is can be apace and demonstrate the high-spot effect of toggle area effectively.

Fig. 2 then represents in the present embodiment, utilizes the region decision method to handle the method flow diagram of key high-spot effect.Step S1 in Fig. 2 and step S2 are preliminary step, in order to purchasing highlighted dotted state figure and the positional information file that shows usefulness respectively, step S3 to step S6 then be the routine processes of actual treatment key high-spot effect.

In step S1, be to correspond respectively to the little figure of highlighted dotted state of each toggle area, utilize image processing software (for example PhotoShop of Adobe) to be spliced into a big highlighted dotted state figure.The little figure of each highlighted dotted state is when the cursor on the screen enters corresponding toggle area, is used for being presented on the display 2, uses the graphics fragment that presents high-spot effect.Though at present embodiment is that the little figure of each highlighted dotted state is spliced into a big figure, yet directly utilizes the little figure of each high bright spot to implement, and also can reach purpose of the present invention.But why adopt the mode of the big figure of splicing in the present embodiment, major advantage is to save the index time of reading numerous little figure, and reduce the number of times of access I/O (Input/Output), in the employed memory storage discs of multimedia theme CD (Title) (CD-ROM), the effect of improvement is obvious especially especially for this point.

In step S2, then be the positional information file of setting up middle relevant location information with each toggle area and highlighted dotted state figure.This positional information file then can utilize database (database) form to set up, or utilizes general this paper (text) document form to set up.In the present embodiment, then be to adopt this paper file that is easier to handle to set up the positional information file, therefore can utilize any ASCII text-editing device (text editor) to edit this file.Fig. 3 is the form synoptic diagram of the positional information file 30 in the present embodiment.As shown in the figure, positional information file 30 is made of number row text line.The first row text line 300 is to be recorded in the toggle area number n that is had on this graphical interfaces, below each text line 301～30n then write down the relevant position recorded information of each toggle area respectively.Comprise following three kinds of information in every group of location records: the relevant position of (1) corresponding toggle area on graphical interfaces, be that upper left frontier point (sLeft, sTop) and the wide rise that utilizes this regional extent represented from (sWidth, sHeight), when moving, judge whether to enter the information of this toggle area as the cursor position of being handled when Genius mouse 6;

(2) position of the little figure of corresponding highlighted dotted state in highlighted dotted state figure (big figure), be that upper left frontier point (hLeft, hTop) and the wide rise that utilizes the little figure of this highlighted dotted state represented from (hWidth, hHeight), needed information during as the little figure of the highlighted dotted state of cutting;

Display position when (3) little figure is attached on the graphical interfaces is to utilize the upper left some frontier point (pLeft, pTop) on the graphical interfaces to represent, when entering in this toggle area when cursor, and the position of sticking the little figure of highlighted dotted state.

In the 3rd figure, each numerical parameter in each line position record can utilize a separatrix (separator) to be separated, for example space (space), branch (; ) or other operational characters.

After finishing preliminary step S1 and S2 shown in Figure 2, just can carry out the processing when reality is carried out.Step S3 and step S4 are written into operation in the preceding initialization that begins handling procedure, in order to above-mentioned highlighted dotted state figure (big figure) and positional information file 30 are loaded in the storer in the host computer 4, use the processing speed of accelerating region decision respectively.Highlighted dotted state figure is generally the form of pattern matrix (bitmap), therefore can be loaded into easily in the good storer of planning in advance.In addition, be written into the detailed step of positional information file 30, then shown in the 4th figure.

In the step shown in the 4th figure, at first, open (open) positional information file 30, use and point to the beginning part (step S41) of archives reading file index (pointer).After the beginning, then, determine to need to judge the toggle area sum (step S42) on border by reading in the toggle area number n in first row 300.At this, parameter value n not only represents the sum that has shown toggle area, also represents the total line number of location records in the positional information file simultaneously.Therefore, utilize parameter value n, the storer of can the dynamical fashion configuration store using, the dimension of its storer is (n, 10), the parameter value number (step S43) of every location records of numerical value 10 expressions wherein.Then, then set up an execution circulation (loop) of n time, be used for reading in regular turn the numerical parameter of each row 300～30n in the file, and be written in the corresponding stored device address that is disposed (step S44).Finish above-mentioned action after, the expression file has read and has finished, last off-position message file 30 (step S45).

Finish above-mentioned initial be written into step after, just enter in the running program of this graphical interfaces.In operating process, the user can utilize Genius mouse 6 to come cursor position on the mobile display 2, and this action is known the position of current cursor on graphical interfaces according to this then corresponding to MouseMove (Genius mouse moves) incident.And in deterministic process, can produce following two variablees:

Position flag variable FLAG: in order to expression current cursor position is among a certain toggle area, or on the graphical interfaces of non-toggle area, that is, when FLAG=TRUE, the expression cursor position is on the graphical interfaces of non-toggle area, when FLAG=FALSE, the expression cursor position is in a certain toggle area;

Zone number variable BT_ID:, represent its corresponding toggle area numbering in order to when cursor is arranged in toggle area.

Fig. 5 is the detailed step process flow diagram of step S5 in the presentation graphs 2 then, and it is most important handling procedure among the present invention.At first, desired location flag variable FLAG=TRUE, that is suppose that present cursor position is on the graphical interfaces of non-toggle area (step S51).Then, according to user's rolling mouse device 6 and corresponding MouseMove incident obtains the present positional information of cursor (step S52).At this moment, when the position of position flag variable FLAG=FALSE and cursor when being toggle area (step S53) at zone number variable BT_ID indication, the judgement after then not carrying out and keep original state, rebound step S52; Otherwise, can remove the previous shown little figure of highlighted dotted state (step S54), and carry out the judgement of step S55.In step S55, then be in regular turn to the toggle area on each graphical interfaces, judge whether the current cursor position is within some toggle area, if, then setting regions is numbered a variable BT_ID toggle area for this reason, and by cutting out out the relevant little figure of highlighted dotted state in the highlighted dotted state figure (big figure), be attached to the correspondence position on the graphical interfaces, again position flag variable FLAG is made as FALSE, expression current cursor position is at a certain toggle area (step S56), and rebound step S52 continues to carry out; If not, then represent present cursor position not within any toggle area, thus desired location flag variable FLAG=TRUE (step S57), among the rebound step S52.At steps flow chart shown in Figure 5, then must by the time press after the button of Genius mouse 6, correspondence goes out the Button_Down incident, just can carry out step S6 shown in Figure 2, and this part will describe in detail in the back.

Deterministic process with step S6 shown in the next further explanatory drawings 5.One switch enters graphical interfaces when operation, is that the present cursor position system of hypothesis places on the graphical interfaces of non-toggle area (FLAG=TRUE) in the present embodiment.Then, obtain the position of current cursor according to the MouseMove incident.Show the little figure of any highlighted dotted state but there is no when being made as FALSE and beginning, judge so can directly enter step S55 owing to position flag variable FLAG.When if cursor position does not enter in any one toggle area scope yet, desired location flag variable FLAG=TRUE still then gets back to step S52 and continues as above processing.If this moment, cursor position entered in a certain toggle area, just can carry out step S56, demonstrate the high-spot effect of button, and zone number variable BT_ID is made as this toggle area numbering, and desired location flag variable FLAG is FALSE.

In case when the current cursor position has entered in a certain toggle area, just can demonstrate the effect of high bright spot in last toggle area.Then, according to the position of cursor, can be divided into the situation of three kinds of subsequent treatment.First kind of situation be cursor position still maintain original toggle area in, the processing of this moment is the show state that keeps its high-spot effect, therefore by step S53 rebound step S52.Second kind of situation then is that cursor position has shifted out original toggle area, enters the graphical interfaces (cursor position is not in the toggle area of zone number variable BT_ID indication) of non-toggle area.At this moment, just can remove the previous little figure of highlighted dotted state that shows, revert to general show state, and be TRUE at step S57 desired location flag variable FLAG at step S54.The third situation then is that the cursor displacement has gone out original toggle area, has entered interior (within the toggle area of the same sightless zone number variable BT_ID indication of cursor position this moment) of another toggle area again immediately.Same, in step S54, can remove the previous little figure of highlighted dotted state that shows, and in step S56, zone number variable BT_ID is made as new toggle area numbering.By this, each toggle area on graphical interfaces just can present the effect of key high-spot when cursor moves into.

As previously mentioned, behind the button of pressing Genius mouse 6, produce corresponding Button_Down incident, just can carry out step S6 shown in Figure 2.At this moment, position flag variable FLAG promptly represents present cursor position whether within arbitrary toggle area, and simultaneously, zone number variable BT_ID then points out the toggle area at current cursor place.Must be noted that owing to do not adopt control element in the present invention, therefore handle and to be triggered automatically, therefore must be started by program itself corresponding to the event response of each toggle area.Fig. 6 is the detailed step process flow diagram of step S6 in the presentation graphs 2.At first, judge whether to take place Button_Down incident (step S61).When the Button_Down incident takes place when, judge that then present cursor position is whether within a certain toggle area, that is whether position flag variable FLAG is FALSE (step S62), if not, the position of then representing cursor is on the background of graphical interfaces, so needn't start the handling procedure of any corresponding toggle area; Otherwise, then can be according to the indicated toggle area of zone number variable BT_ID, the routine processes of being correlated with (step S63) is finished the trigger action of program.

Therefore, in the present embodiment, just can handle key high-spot effect, not need to use traditional control element, can reduce employed storage space, and then the acceleration interface is written into the time according to above mode.

Use region decision method of the present invention, owing to only in internal memory, be written into a big figure who comprises the little figure of highlighted dotted state of each toggle area, and therefore the actual control element that all do not use when judging toggle area and display high-brightness dotted state figure can save many memory sources.With prior art for the example of 8 toggle area, only need use 8 icons, each icon then only needs to apply for 20 bit groups, therefore 8 toggle area need to apply for the internal memory of 20 * 8=160 bit group=0.16K altogether.Must be noted that prior art also needs to use this a part of internal memory, therefore, generally speaking, employed storage space in the present embodiment can be far below the control element method that prior art adopted.

On the other hand, when carrying out the interface switching (for example the homepage by main graphical interfaces is transformed in time page or leaf with thin portion function), because do not need the shared time of control element initialization, so can promote the speed that is written at interface.

In order to compare the quality of the present invention and prior art, be illustrated especially exemplified by an actual example.When Fig. 7 is the embodiment of the invention and prior art comparison, the synoptic diagram of the graphical interfaces homepage that is adopted, it is an animation index interface.In animation index interface shown in Figure 7, have 231 toggle area (as the frame of broken lines 10 in Fig. 7 sign) altogether, wherein have 24 headlines and 207 subheads, in addition, then also not shown whole toggle area in Fig. 7.If utilize the control element method of prior art, then for 231 toggle area, 462 or 231 control elements must be arranged, the memory headroom of being applied for is just up to the bit group of 3.696M or 1.848M, this storer spent for general PC is too huge really, therefore prior art control element method is not to set up all toggle area simultaneously, but 207 subheads are along with the selection of 24 headlines be activated (activate) in batches.That is after some headlines were activated, the subhead that it comprised just can start, and other subhead then becomes inefficacy at the same time.But because toggle area quantity and position that each headline comprised are all inequality, therefore when the user chooses some headlines, just storage space that can other headlines shown in Figure 7 are shared carries out initialization, with increasing ground, the graphical interfaces of being got back to headline by the graphical interfaces of subhead also must carry out initialized program.So when switching, must cause the speed that is written into to descend at the interface.

Relatively, when utilizing region decision method of the present invention to implement graphical interfaces shown in Figure 7, then do not need to take so huge memory storage space.The location records of all titles comprises headline and subhead, can once read in the internal memory fully.When headline changes, just can calculate the section of corresponding subhead and the detection judged.Therefore, not only save memory headroom and also improved the speed that load at the interface simultaneously, solved 207 controls that subhead activates in batches in preferable mode.

Therefore,, utilize traditional control element method and determining method of the present invention to implement respectively for animation index interface shown in Figure 7, and in identical system environments relatively both between performance difference.

Test environment:

Hardware: Intel 486/DX2-66,16M RAM, four times of fast CD player

Operating system: Windows95

Development tools: MS Visual Basic V4.0

Test result then as shown in Table 1.

Table one

Item compared	The control method of prior art	Region decision method of the present invention
			Control element quantity	At least 231 (or 462)	Do not have
The interface is written into the time	3 minutes 45 seconds	32 seconds
			The storage space use amount	2056K	623K
The high-spot effect reaction velocity	0.5 second	0.5 second
			The headline renewal speed	2.8 second	0.5 second

According to above test result as can be known, utilize region decision method of the present invention not need to use control element.Under the prerequisite of highlighted dotted state figure reaction velocity that do not slow down, can reach 7 times soon compared with known control element method so that the interface is written into the time, required storage space reduces 3.3 times, and the speed that headline upgrades is fast nearly 6 times.Therefore, region decision method proposed by the invention can reach purpose of the presently claimed invention really.

Though the present invention discloses as above with a preferred embodiment; but it is not in order to limit the present invention; anyly be familiar with those skilled in the art; without departing from the spirit and scope of the present invention; obviously can make various changes and modification; for example, Genius mouse can utilize trace ball, touch point, digiboard or rocking bar or the like indicator device to replace, so protection scope of the present invention should be determined by appending claims.

Claims (14)

1. a region decision is handled the method for key high-spot effect, be applicable at one on the display and have on the graphical interfaces of a plurality of toggle area, key high-spot effect when moving in arbitrary toggle area in order to handle a cursor, said method comprises the following steps:

Be written into highlighted dotted state figure, it comprises the little figure of highlighted dotted state that corresponds respectively to above-mentioned toggle area;

Be written into a positional information file, it has the relevant location information of above-mentioned toggle area and above-mentioned highlighted dotted state figure;

According to above-mentioned positional information file, judge whether the position of above-mentioned cursor falls in arbitrary toggle area;

In the time of in above-mentioned cursor position falls into arbitrary toggle area, choose in the above-mentioned highlighted dotted state figure, be shown in the pairing position of above-mentioned graphical interfaces in the aforementioned display device corresponding to the little figure of highlighted dotted state of above-mentioned toggle area; And

In the time of in above-mentioned cursor position does not fall into above-mentioned toggle area, remove the little figure of highlighted dotted state shown on above-mentioned graphical interfaces.

2. the method for claim 1 is characterized in that, wherein still comprises a step:

When above-mentioned cursor position falls into arbitrary toggle area and triggers, start the pairing handling procedure of above-mentioned toggle area that is triggered.

3. method as claimed in claim 1 or 2 is characterized in that, wherein above-mentioned highlighted dotted state figure is to utilize an image processing program, will piece together and form corresponding to the little figure of highlighted dotted state of above-mentioned toggle area respectively.

4. method as claimed in claim 1 or 2, it is characterized in that, comprise the number of above-mentioned toggle area in the wherein above-mentioned positional information file and correspond respectively to the location records of above-mentioned toggle area, each put comprise corresponding toggle area in the position on the above-mentioned graphical interfaces, the little figure of corresponding highlighted dotted state is at the position and the display position on above-mentioned graphical interfaces of above-mentioned highlighted dotted state figure.

5. method as claimed in claim 4 is characterized in that, wherein is written in the step of above-mentioned positional information file to comprise:

Open above-mentioned positional information file;

Read the number of above-mentioned toggle area;

According to the above-mentioned toggle area number that is read and the size of each put, the dynamic-configuration storer;

Read location records in regular turn, deliver in the above-mentioned storer that disposes corresponding to above-mentioned toggle area; And

Close above-mentioned positional information file.

6. method as claimed in claim 1 or 2, it is characterized in that, the step in whether the position of judging above-mentioned cursor falls into arbitrary toggle area wherein, system is corresponding to a Genius mouse moving event, and produce a position flag variable, in order to the position of representing above-mentioned cursor whether in above-mentioned toggle area, an and zone number variable, in order to when above-mentioned cursor is arranged in above-mentioned toggle area, represent the toggle area that it is relative.

7. method as claimed in claim 1 or 2 is characterized in that, wherein the step in whether the position of judging above-mentioned cursor falls into arbitrary toggle area is to judge for each toggle area in regular turn.

8. a region decision is handled the method for key high-spot effect, be applicable to and have on the graphical interfaces of a plurality of toggle area one of on the display, key high-spot effect when moving in arbitrary toggle area in order to handle a cursor, said method comprises the following steps:

Be written into highlighted dotted state figure, it comprises the little figure of highlighted dotted state that corresponds respectively to above-mentioned toggle area;

Be written into a positional information file, it has the relevant location information of above-mentioned toggle area and above-mentioned highlighted dotted state figure;

Utilize an indicator device to move the above-mentioned target position of moving;

Position according to above-mentioned positional information file and above-mentioned cursor, produce a position flag variable, in order to the position of representing above-mentioned cursor whether in above-mentioned toggle area, an and zone number variable, in order to when above-mentioned cursor is arranged in above-mentioned toggle area, represent its residing toggle area numbering;

Representing above-mentioned cursor position when above-mentioned position flag variable is when being in above-mentioned toggle area, chooses the little figure of highlighted dotted state corresponding to above-mentioned zone numbering variable, is shown in the toggle area position of corresponding above-mentioned zone numbering variable; And

Representing above-mentioned cursor position when above-mentioned position flag variable is when not being in above-mentioned toggle area, to remove the little figure of previous highlighted dotted state shown on above-mentioned graphical interfaces.

9. method as claimed in claim 8 is characterized in that, wherein still comprises a step:

When above-mentioned cursor position falls into arbitrary toggle area and utilizes above-mentioned indicator device to trigger, then start the pairing handling procedure of above-mentioned toggle area that is triggered.

10. method as claimed in claim 8 or 9 is characterized in that, wherein above-mentioned indicator device is a kind of in Genius mouse, trace ball, touch point, digiboard and the rocking bar.

11. method is characterized in that as claimed in claim 8 or 9, wherein above-mentioned highlighted dotted state figure is to be to utilize an image processing program, will piece together and form corresponding to the little figure of highlighted dotted state of above-mentioned toggle area respectively.

12. method as claimed in claim 8 or 9, it is characterized in that, comprise the number of above-mentioned toggle area in the wherein above-mentioned positional information file and correspond respectively to the location records of above-mentioned toggle area, each put comprise corresponding toggle area in the position on the above-mentioned graphical interfaces, the little figure of corresponding highlighted dotted state is at the position and the display position on above-mentioned graphical interfaces of above-mentioned highlighted dotted state figure.

13. method as claimed in claim 12 is characterized in that, wherein is written in the step of above-mentioned positional information file to comprise:

Open above-mentioned positional information file;

Read the number of above-mentioned toggle area;

According to the above-mentioned toggle area number that is read and the size of each put, the dynamic-configuration storer;

Read location records in regular turn, deliver in the above-mentioned storer that disposes corresponding to above-mentioned toggle area; And

Close above-mentioned positional information file.

14. method is characterized in that as claimed in claim 8 or 9, wherein the step in whether the position of judging above-mentioned cursor falls into arbitrary toggle area is to judge for each toggle area in regular turn.

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