CN103076945B - Touch screen type interface of electronic equipment edit methods and device - Google Patents

Abstract

The invention discloses a kind of interface editing method, be applied to touch-screen equipment, comprise the following steps: S1) touch-screen of electronic equipment is touched, and judge in the induction range of touch point whether on the touchscreen a certain icon, and time in the induction range that this touch point is in any icon, long by this icon; S2) icon that mark is long pressed is destination object, detects this by the destination object number indicated, when being 2 by the destination object that indicates, opens quick interface editting function; S3) after quick interface editting function is unlocked, detect the slide carried out on the touchscreen, detect sliding speed and sliding distance; S4) when sliding speed be greater than a predetermined effective slip velocity or sliding distance be greater than a predetermined effective sliding distance time, exchanged by two target object position indicated.Invention achieves the object only needing a step just to exchange two picture mark positions.

Description

Touch screen type interface of electronic equipment edit methods and device

Technical field

The present invention relates to touch screen type electronic equipment, be specifically related to interface editing method and the device of touch screen type electronic equipment.

Background technology

Along with the development that science and technology is maked rapid progress, touch screen type electronic equipment is widely used in daily life application, obtains the favor of numerous users, and is instantly budding out into popularity.

Along with the raising that man-machine interaction requires, multi-point touch function is arisen at the historic moment, and much all achieves multi-point touch function in present touch screen type electronic equipment, is so just very easy to us and carries out editor and self-defined to interface.

But multipoint-touch-technology common at present still has its limitation, be difficult to be suitable in a lot of operation.With smart mobile phone, when we need the position of certain icon on mobile desktop or in file, by growing by this icon and dragging to the position of specifying, after loosing one's grip, can namely achieve the renewal of picture mark position.But just use the function of single-point touch here, when the position of two icons touching screen display needs mutually to exchange, needed repeatedly to carry out above-mentioned single-point touch operation, use and comparatively bother.

Summary of the invention

The technical problem to be solved in the present invention realizes multi-point touch function being applied in the operation of icon transposition, and icon ex-situ operations is simplified.

The invention provides a kind of interface editing method, be applied to touch screen type electronic equipment, comprise the following steps:

S1) touch-screen of electronic equipment is touched, and judge in the induction range of touch point whether on the touchscreen a certain icon, and time in the induction range that this touch point is in any icon, long by this icon;

S2) icon that mark is long pressed is destination object, detects this by the destination object number indicated, when being 2 by the destination object that indicates, opens quick interface editting function;

S3) after quick interface editting function is unlocked, detect the slide carried out on the touchscreen, detect sliding speed and sliding distance;

S4) when sliding speed be greater than a predetermined effective slip velocity or sliding distance be greater than a predetermined effective sliding distance time, exchanged above-mentioned by two target object position indicated.

In said method of the present invention, described step S2 also comprises:

S21) detect by the destination object number indicated;

S22) if when destination object number is 2, quick interface editting function is opened; If when destination object number is not 2, open icon editor.

In said method of the present invention, described step S3 comprises: detect slide initial point coordinate, slide terminating point coordinate, calculate sliding vector size.

In said method of the present invention, described step S4 comprises:

S41) effective slide number of times current on touch-screen is added up;

S42) detect the target vector that in each effectively slide, sliding vector is corresponding, and calculate each effectively sliding vector of slide and the inner product of target vector, and the summation of each effectively sliding vector target vector inner product corresponding to it of slide;

S43) according to the summation of sliding vector corresponding target vector inner product with it of each effectively sliding vector of slide and the inner product of target vector or each effective slide, respective operations is carried out by the destination object indicated: if when the summation of sliding vector corresponding target vector inner product with it of each effectively sliding vector of slide and the inner product of target vector or each effective slide is greater than 0 to above-mentioned, the above-mentioned position by two destination objects indicated is exchanged, above-mentioned by indicate two target object position exchange after, exit the module of quick interface editting function, if when the summation of sliding vector corresponding target vector inner product with it of each effectively sliding vector of slide and the inner product of target vector or each effective slide is less than or equal to 0, open above-mentioned by the icon editor of two destination objects indicated.

Present invention also offers a kind of interface editing device, be applied to touch screen type electronic equipment, comprise with lower module:

For touching the touch-screen of electronic equipment, and judge in the induction range of touch point whether on the touchscreen a certain icon, and time in the induction range that this touch point is in any icon, the long module by this icon;

The icon be long pressed for mark is destination object, detects this by the destination object number indicated, when being 2 by the destination object that indicates, opens the module of quick interface editting function;

After being unlocked for quick interface editting function, detect the slide carried out on the touchscreen, detect the module of sliding speed and sliding distance;

For be greater than when sliding speed a predetermined effective slip velocity or sliding distance be greater than a predetermined effective sliding distance time, by above-mentioned module of being undertaken exchanging by two target object position indicated.

In said apparatus of the present invention, the described icon be long pressed for mark is destination object, detects this by the destination object number indicated, when being 2 by the destination object that indicates, the module of opening quick interface editting function also comprises:

For detecting by the submodule of destination object number indicated;

If when being 2 for destination object number, open quick interface editting function; If when destination object number is not 2, open the submodule of icon editor.

In said apparatus of the present invention, described be unlocked for quick interface editting function after, detect the slide carried out on the touchscreen, the module detecting sliding speed and sliding distance comprises: for detecting the submodule of slide initial point coordinate, slide terminating point coordinate, calculating sliding vector size.

In said apparatus of the present invention, described for be greater than when sliding speed a predetermined effective slip velocity or sliding distance be greater than a predetermined effective sliding distance time, comprised above-mentioned by the module that two target object position indicated carry out exchanging:

For adding up the submodule of effective slide number of times current on touch-screen;

For detecting the target vector that in each effectively slide, sliding vector is corresponding, and calculate each effectively sliding vector of slide and the inner product of target vector, and the submodule of each effectively summation of the sliding vector target vector inner product corresponding to it of slide;

For the summation of the sliding vector corresponding target vector inner product with it according to each effectively sliding vector of slide and the inner product of target vector or each effective slide, respective operations is carried out by the destination object indicated: if when the summation of sliding vector corresponding target vector inner product with it of each effectively sliding vector of slide and the inner product of target vector or each effective slide is greater than 0 to above-mentioned, the above-mentioned position by two destination objects indicated is exchanged, above-mentioned by indicate two target object position exchange after, exit the module of quick interface editting function, if when the summation of sliding vector corresponding target vector inner product with it of each effectively sliding vector of slide and the inner product of target vector or each effective slide is less than or equal to 0, open above-mentioned by the submodule of the icon editor of two destination objects indicated.

The invention has the beneficial effects as follows to achieve and multi-point touch function be applied in icon ex-situ operations, making originally to use repeatedly single-point touch to operate the effect that can reach only needs a step just can reach.

Accompanying drawing explanation

Fig. 1 is the structural representation of apparatus of the present invention embodiment;

Fig. 2 is the process flow diagram of the inventive method first embodiment;

Fig. 3 is the original pattern interface schematic diagram of apparatus of the present invention embodiment;

Fig. 4 is the schematic diagram of the first mode of operation of the screen interface of apparatus of the present invention embodiment;

Fig. 5 is the schematic diagram of the second mode of operation of the screen interface of apparatus of the present invention embodiment;

Fig. 6 is the slide mode schematic diagram of the screen interface of apparatus of the present invention first embodiment;

Fig. 7 is the schematic diagram of the third mode of operation of the screen interface of apparatus of the present invention embodiment;

Fig. 8 is the schematic diagram of the 4th kind of mode of operation of the screen interface of apparatus of the present invention embodiment;

Fig. 9 is the process flow diagram of the inventive method second embodiment;

Figure 10 is the slide mode schematic diagram of the screen interface of apparatus of the present invention second embodiment;

Figure 11 is the schematic diagram defining sliding vector and target vector in apparatus of the present invention embodiment in a first scenario;

Figure 12 is the schematic diagram defining sliding vector and target vector in apparatus of the present invention embodiment in the latter case;

Figure 13 is the schematic diagram defining sliding vector and target vector in apparatus of the present invention embodiment in a third case;

Figure 14 is the schematic diagram of the 5th kind of mode of operation of the screen interface of apparatus of the present invention embodiment;

Figure 15 is the schematic diagram defining sliding vector and target vector in apparatus of the present invention embodiment in the fourth case.

Embodiment

Fig. 1 shows a kind of logical organization of device embodiment of the present invention, comprises processor 20, and the detection module 10, memory module 40 and the screen display module 50 that are connected with processor 20, and processor 20 also runs computing module 30.When touching the touch-screen of electronic equipment, touch point testing result is also sent to processor 20 by detection module 10 detected touch point, and whether on the touchscreen processor 20 judges in the induction range of touch point a certain icon.If when processor 20 judges in the induction range that this touch point is in any icon, detection module 10 detects the icon be long pressed, and this testing result being long pressed icon is sent to processor 20.Processor 20 responds the above-mentioned testing result being long pressed icon, and the icon that mark is long pressed is destination object, the concurrent detection signal that send is to detection module 10, detection module 10 responds this signal to be continued to detect this by the destination object number indicated: when to detect by the destination object that indicates be 2, the quick interface editting function be pre-stored in memory module 40 opened by processor 20.After quick interface editting function is unlocked, detection module 10 detects the slide carried out on the touchscreen, detects sliding speed and sliding distance, and slide testing result is sent to processor 20.Processor 20 is carried out computing by computing module 30 pairs of slide correlation parameters and is carried out alignment processing to operation result, when sliding speed be greater than a predetermined effective slip velocity or sliding distance be greater than a predetermined effective sliding distance time, processor 20 sends display to screen display module 50, and screen display module 50 is exchanged above-mentioned by the two destination objects position on the display screen indicated.

First embodiment of the method

For the ease of the present invention of those of ordinary skill in the art's Comprehension and Implementation, 2 enforcement the inventive method first embodiment is described with reference to the accompanying drawings.

In frame 201, to touch-screen equipment as mobile phone, panel computer, carry out contact action, enter in frame 202.

In frame 202, detection module 10 detects touch-screen, and processor 20 judges touch point whether in icon induction range, there will be 2 kinds of possible outcomes:

As a result 1: when there is no touch point in icon induction range, then do not have icon selected, enter in frame 203, do not carry out any operation;

As a result 2: have in icon induction range in touch point, enter in frame 204.

In frame 204, detection module 10 detects the icon be long pressed, and there will be 3 kinds of possible results:

As a result 3: do not have icon to be long pressed, and when the icon touched at first is more than 2 (comprising 2), enters in frame 203, do not carry out any operation;

As a result 4: do not have icon to be long pressed, and when the icon touched at first is only 1, enter in frame 205, the application corresponding to icon touched at first opened by processor 20, and screen display module 50 demonstrates application interface corresponding to this icon;

As a result 5: when having icon to be long pressed, the icon that mark is long pressed is destination object, enters in frame 206.

In block 206, detected target object number, if when destination object number is not 2, enter in frame 209, screen display module 50 recalls corresponding icon editor, and wherein, original pattern interface as shown in Figure 3, when destination object number is 1, the corresponding icon editor recalled as shown in Figure 4; When destination object number is more than 3 (comprising 3), the corresponding icon editor recalled as shown in Figure 5;

If when destination object number is 2, enter in frame 207.

In frame 207, open quick interface editting function, detect the number of effectively sliding.In the present embodiment, the slide that definition is greater than when effective sliding distance or sliding speed are greater than effective slip velocity when sliding distance is effectively slip, as shown in Figure 6, icon A and icon G is selected destination object, and the solid line 1,2,3 and 4 of band arrow is 4 kinds of sliding types.Wherein solid line is sliding path, and arrow is slide direction.As seen from the figure, sliding type 2,3,4 have all slided certain distance, and exceeded effective sliding distance, sliding type 1 sliding distance is shorter, but its sliding speed v is greater than default effective slip velocity v ₀, thus 4 kinds of sliding types are all effective sliding type.

When not detecting effective slip (as loosing one's grip), enter in frame 209, screen display module 50 illustrates icon editor, as shown in Figure 7.

When detect effectively slide time, enter in frame 208, exchange target object position, and exit quick interface editting function, as shown in Figure 8, destination object A and G have exchanged position.

Second embodiment of the method

In first embodiment of the method, effective sliding type can also segment according to sliding vector type, so there is the second embodiment of the method, for the ease of the present invention of those of ordinary skill in the art's Comprehension and Implementation, 9 enforcement the inventive method second embodiment is described with reference to the accompanying drawings.

In block 301, to touch-screen equipment as mobile phone, panel computer, carry out contact action, enter in frame 302.

In block 302, detection module 10 detects touch-screen, and processor 20 judges touch point whether in icon induction range, there will be 2 kinds of results:

As a result 1: when there is no touch point in icon induction range, then do not have icon selected, enter in frame 303, do not carry out any operation;

As a result 2: have in icon induction range in touch point, enter in frame 304.

In block 304, detect the icon be long pressed, there will be 3 results:

As a result 3: when not having icon to be long pressed, when the icon touched at first is more than 2 (comprising 2), enters in frame 303, do not carry out any operation;

As a result 4: when not having icon to be long pressed, when the icon touched at first is only 1, enter in frame 305, the application corresponding to icon touched at first opened by processor 20, screen display module 50 demonstrates corresponding application interface;

As a result 5: when having icon to be long pressed, the icon that mark is long pressed is destination object, enters in frame 306.

In frame 306, detected target object number, if when destination object number is not 2, enter in frame 316, screen display module 50 recalls corresponding icon editor, and wherein, original pattern interface as shown in Figure 3, when destination object number is 1, recall corresponding icon editor as shown in Figure 4; When destination object number is more than 3 (comprising 3), recall icon editor as shown in Figure 5;

If when destination object number is 2, enter in frame 307.

In block 307, open quick interface editting function, detect the number of effectively sliding.In the present embodiment, when sliding vector size is greater than effective sliding distance, or the slide of sliding speed when being greater than effective slip velocity is for effectively sliding, as shown in Figure 10, icon A and icon G is selected destination object, with the solid line 1 ' of arrow, 2 ', 3 ' and 4 ' is 4 kinds of sliding types, solid line is sliding path, arrow is slide direction, wherein, the sliding speed of sliding type 1 ' is greater than effective slip velocity, the sliding vector size of sliding type 2 ' and sliding type 3 ' is greater than effective sliding distance, thus sliding type 1 ', 2 ' and 3 ' is all effective slip.As can be seen from the concrete track of 4 ', although sliding type 4 ' sliding stroke is comparatively large, sliding vector size is less than effective sliding distance, is invalid slip.

When effective slip number is more than 0 or 3 (comprising 3), enter in frame 316, screen display module 50 illustrates icon editor, as shown in Figure 7.

If when effectively slip number is 1, enter in frame 308, computing module 30 is with slip initial point for starting point, and slip terminating point is terminal, sets up sliding vector, and as shown in figure 11, icon A and icon G is destination object.Solid line 1 with arrow is slide, and wherein solid line represents sliding path, and the direction of arrow represents glide direction, and some a is slip starting point, and coordinate is designated as (x1, y1), and some b is slip terminating point, and coordinate is designated as (x2, y2), sets up the sliding vector of slide 1 enter again in frame 310.

In a block 310, with from the nearest destination object respective coordinates point of slip initial point for initial point, another destination object respective coordinates point is terminal, set up target vector (distinguishingly, if slip initial point and 2 destination object respective coordinates points are apart from time identical, with from the nearest destination object corresponding point coordinate of slip terminating point for terminal, another destination object respective coordinates point is starting point, sets up target vector; If when slip initial point is all identical with 2 destination object respective coordinates points with slip terminating point, with arbitrary target object respective coordinates point for initial point, another destination object respective coordinates point is terminal, sets up target vector).As shown in figure 11, be icon A from the destination object that slide 1 initial point is nearest, icon A respective coordinates point is a c(x3, y3), another destination object is then icon G, icon G respective coordinates point is a d (x4, y4), with a c for starting point, some d is that terminal sets up target vector then enter in frame 312.

In frame 312, computing module 30 calculates sliding vector and target vector inner product S:

$S=\stackrel{\→}{A}\·\stackrel{\→}{B}=\left|\stackrel{\→}{A}\right|\left|\stackrel{\→}{B}\right|\cos \mathrm{\θ}=(x2-x1)\×(x4-x3)+(y2-y1)\×(y4-y3),$

Wherein, θ is sliding vector and target vector angle, then to enter in frame 314.

If effectively sliding is 2, enter in frame 309, respectively with each slip initial point for starting point, corresponding slip terminating point is terminal, set up corresponding sliding vector, as shown in figure 12, icon A and icon G is destination object, slide 1 and slide 2 two is had effectively to slide, wherein solid line represents sliding path, and the direction of arrow represents glide direction, and some a is the starting point of slide 1, coordinate is designated as (x1, y1), some b is the terminating point of slide 1, coordinate is designated as (x2, y2), the sliding vector of slide 1 is set up for:

$\stackrel{\→}{A}=(x2-x1,y2-y1);$

Point c is the starting point of slide 2, and coordinate is designated as (x3, y3), and some d is the terminating point of slide 2, and coordinate is designated as (x4, y4), sets up the sliding vector of slide 2 for:

$\stackrel{\→}{B}=(x4-x3,y4-y3),$ Enter again in frame 311.

In frame 311, computing module 30 sets up the target vector corresponding with sliding vector respectively.As shown in figure 12, the destination object nearest from slide 1 initial point a is icon A, and icon A respective coordinates point is an e(x5, y5), another destination object is then icon G, icon G respective coordinates point is a f(x6, y6), with an e for starting point, some f is that terminal is set up and sliding vector corresponding target vector

$\stackrel{\→}{C}=(x6-x5,y6-y5);$

Be icon G from the destination object that slide 2 initial point is nearest, icon G respective coordinates point is some f(x6, a y6), another destination object be then icon A, and icon A respective coordinates point is some e(x5, a y5), with a f for starting point, some e is terminal foundation and sliding vector corresponding target vector

$\stackrel{\→}{D}=(x5-x6,y5-y6);$ And then enter in frame 313.

In frame 313, computing module 30 calculates sliding vector respectively with corresponding target vector inner product S1, sliding vector with corresponding target vector inner product S2:

$S1=\stackrel{\→}{A}\·\stackrel{\→}{C}=\left|\stackrel{\→}{A}\right|\left|\stackrel{\→}{C}\right|\cos {\mathrm{\θ}}_1=(x2-x1)\×(x6-x5)+(y2-y1)\×(y6-y5),$

$S2=\stackrel{\→}{B}\·\stackrel{\→}{D}=\left|\stackrel{\→}{B}\right|\left|\stackrel{\→}{D}\right|\cos {\mathrm{\θ}}_2=(x4-x3)\×(x5-x6)+(y4-y3)\×(y5-y6),$

Wherein, θ ₁for sliding vector with corresponding target vector angle, θ ₂for sliding vector with corresponding target vector angle.

Again S1 and S2 is added up, obtains S:

S=S1+S2, then enter in frame 314.

In block 314, according to the inner product obtained in frame 312 or the inner product that obtains in frame 313 and carry out respective operations, there will be 4 kinds of possible outcomes:

1), if when obtaining inner product S > 0, such as, shown in Figure 11, icon A and icon G is destination object, for sliding vector, then for with sliding vector corresponding target vector, θ is with angle, wherein, $S=\stackrel{\&RightArrow;}{A}\&CenterDot;\stackrel{\&RightArrow;}{B}=\left|\stackrel{\&RightArrow;}{A}\right|\left|\stackrel{\&RightArrow;}{B}\right|\cos \mathrm{\&theta;},$ $0<\mathrm{\&theta;}<\frac{\mathrm{\&pi;}}{2},$ Thus S > 0.

Enter in frame 315, exchange target object position, and exit quick interface editting function, result as shown in Figure 8, the location swap of icon A and icon G.

2) if the summation of inner product and S > 0 time, such as, shown in Figure 12, wherein, icon A and icon G is destination object, for sliding vector, for with sliding vector corresponding target vector, θ ₁for with angle, with inner product $S1=\stackrel{\&RightArrow;}{A}\&CenterDot;\stackrel{\&RightArrow;}{C}=\left|\stackrel{\&RightArrow;}{A}\right|\left|\stackrel{\&RightArrow;}{C}\right|\cos {\mathrm{\&theta;}}_1,$ $0<{\mathrm{\&theta;}}_1<\frac{\mathrm{\&pi;}}{2},$ Thus S1 > 0;

for sliding vector, for with sliding vector corresponding target vector, θ 2 is with angle, with inner product $S2=\stackrel{\&RightArrow;}{B}\&CenterDot;\stackrel{\&RightArrow;}{D}=\left|\stackrel{\&RightArrow;}{B}\right|\left|\stackrel{\&RightArrow;}{D}\right|\cos {\mathrm{\&theta;}}_2,$ $0<{\mathrm{\&theta;}}_2<\frac{\mathrm{\&pi;}}{2},$ Thus S2 > 0;

S=S1+S2＞0。

Enter in frame 315, exchange target object position, and exit quick interface editting function, result as shown in Figure 8, the location swap of icon A and icon G;

3) if obtain inner product S≤0 time, as shown in figure 13, wherein, icon A and icon G is destination object, for sliding vector, then for with sliding vector corresponding target vector, then thus S < 0, enters in frame 316, and result as shown in figure 14, has recalled icon editor.

4) if summation S≤0 of the inner product obtained time, as shown in figure 15, wherein, icon A and icon G is destination object, for sliding vector, for with sliding vector corresponding target vector, a is with angle, then with inner product $S1=\stackrel{\&RightArrow;}{A}\&CenterDot;\stackrel{\&RightArrow;}{C}=\left|\stackrel{\&RightArrow;}{A}\right|\left|\stackrel{\&RightArrow;}{C}\right|\cos {\mathrm{\&theta;}}_1,$ $\frac{\mathrm{\&pi;}}{2}<{\mathrm{\&theta;}}_1<\mathrm{\&pi;},$ Thus S1 < 0;

for sliding vector, for with sliding vector corresponding target vector, θ 2 is with angle, then with inner product $S2=\stackrel{\&RightArrow;}{A}\&CenterDot;\stackrel{\&RightArrow;}{C}=\left|\stackrel{\&RightArrow;}{A}\right|\left|\stackrel{\&RightArrow;}{C}\right|\cos {\mathrm{\&theta;}}_2,$ $\frac{\mathrm{\&pi;}}{2}<{\mathrm{\&theta;}}_2<\mathrm{\&pi;},$ Thus S2 < 0;

S=S1+S2 < 0, enters in frame 316, and result as shown in figure 14, has recalled icon editor.

The foregoing is only the preferred embodiment of invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within right of the present invention.

Claims (4)

1. an interface editing method, is applied to touch screen type electronic equipment, it is characterized in that, comprise the following steps:

S1) touch-screen of electronic equipment is touched, and judge in the induction range of touch point whether on the touchscreen a certain icon, and time in the induction range that this touch point is in any icon, long by this icon;

S2) icon that mark is long pressed is destination object, detects this by the destination object number indicated, when being 2 by the destination object that indicates, opens quick interface editting function;

S3) after quick interface editting function is unlocked, detect the slide carried out on the touchscreen, detect sliding speed and sliding distance; Described step S3 comprises: detect slide initial point coordinate, slide terminating point coordinate, calculate sliding vector size;

S4) when sliding speed be greater than a predetermined effective slip velocity or sliding distance be greater than a predetermined effective sliding distance time, exchanged above-mentioned by two target object position indicated; Described step S4 comprises:

S41) effective slide number of times current on touch-screen is added up;

S42) target vector that in each effectively slide, sliding vector is corresponding is detected, and calculate each effectively sliding vector of slide and the inner product of target vector, and the summation of each effectively sliding vector target vector inner product corresponding to it of slide;

S43) according to the summation of sliding vector corresponding target vector inner product with it of each effectively sliding vector of slide and the inner product of target vector or each effective slide, respective operations is carried out by the destination object indicated: if when the summation of sliding vector corresponding target vector inner product with it of each effectively sliding vector of slide and the inner product of target vector or each effective slide is greater than 0 to above-mentioned, the above-mentioned position by two destination objects indicated is exchanged, above-mentioned by indicate two target object position exchange after, exit the module of quick interface editting function, if when the summation of sliding vector corresponding target vector inner product with it of each effectively sliding vector of slide and the inner product of target vector or each effective slide is less than or equal to 0, open above-mentioned by the icon editor of two destination objects indicated.

2. method according to claim 1, it is characterized in that, described step S2 also comprises:

S21) detect by the destination object number indicated;

S22) if when destination object number is 2, quick interface editting function is opened; If when destination object number is not 2, open icon editor.

3. an interface editing device, is applied to touch screen type electronic equipment, it is characterized in that, comprises with lower module:

For touching the touch-screen of electronic equipment, and judge in the induction range of touch point whether on the touchscreen a certain icon, and time in the induction range that this touch point is in any icon, the long module by this icon;

The icon be long pressed for mark is destination object, detects this by the destination object number indicated, when being 2 by the destination object that indicates, opens the module of quick interface editting function;

After being unlocked for quick interface editting function, detect the slide carried out on the touchscreen, detect the module of sliding speed and sliding distance, this module comprises the submodule for detecting slide initial point coordinate, slide terminating point coordinate, calculating sliding vector size;

For be greater than when sliding speed a predetermined effective slip velocity or sliding distance be greater than a predetermined effective sliding distance time, by above-mentioned module of being undertaken exchanging by two target object position indicated, this module comprises: for adding up the submodule of effective slide number of times current on touch-screen, for detecting the target vector that in each effectively slide, sliding vector is corresponding, and calculate each effectively sliding vector of slide and the inner product of target vector, and the submodule of each effectively summation of the sliding vector target vector inner product corresponding to it of slide, for the summation of the sliding vector corresponding target vector inner product with it according to each effectively sliding vector of slide and the inner product of target vector or each effective slide, respective operations is carried out by the destination object indicated: if when the summation of sliding vector corresponding target vector inner product with it of each effectively sliding vector of slide and the inner product of target vector or each effective slide is greater than 0 to above-mentioned, the above-mentioned position by two destination objects indicated is exchanged, above-mentioned by indicate two target object position exchange after, exit the module of quick interface editting function, if when the summation of sliding vector corresponding target vector inner product with it of each effectively sliding vector of slide and the inner product of target vector or each effective slide is less than or equal to 0, open above-mentioned by the submodule of the icon editor of two destination objects indicated.

4. device according to claim 3, is characterized in that, the described icon be long pressed for mark is destination object, detects this by the destination object number indicated, when being 2 by the destination object that indicates, the module of opening quick interface editting function also comprises:

For detecting by the submodule of destination object number indicated;

If when being 2 for destination object number, open quick interface editting function; If when destination object number is not 2, open the submodule of icon editor.