CN104375770A - Display method and electronic equipment - Google Patents

Abstract

An embodiment of the invention provides a display method and electronic equipment. The electronic equipment is provided with a display unit; the size of a display area of the display unit is a first size in the first direction; when the display unit displays a first content, operation of an operating body is received; the size of the first content is a second size in the first direction; the second size is greater than the first size; and a first portion of the first content is displayed in the display area. The display method comprises the following steps of judging whether the operation meets a predetermined condition; acquiring a second corresponding relation which is a corresponding relation between an operation parameter and an adjusting parameter when the operation meets a second predetermined condition; determining a second adjusting parameter according to the operation parameter and the second corresponding relation of the operation; and responding a second adjusting parameter so that a third portion of the first content is displayed in the display area. The first portion is different from the third portion, the second portion is also different from the third portion, the first predetermined condition is different from the second predetermined condition, and the first adjusting parameter is different from the second adjusting parameter. The using experience of a user is improved.

Description

A kind of display packing and electronic equipment

Technical field

The present invention relates to electronic display technology, refer to a kind of display packing and electronic equipment especially.

Background technology

Electronic equipment is the computer equipment that can use in movement, comprises mobile phone, notebook, POS even comprise vehicle-mounted computer, refers to mobile phone in most cases or has the smart mobile phone of multiple application function.

The display unit of electronic equipment shows in the process of an application interface, this application interface has a slider bar corresponding with it, slider bar has a control strip to identify the relative position between application interface and display unit, and, by changing control strip position on the slider bar, change application interface display position on the display unit.

There are the following problems for prior art: because slider bar can not occupy area too much on display unit, and it has some intrinsic defects, causes, in the process of the position being controlled application interface by slider bar, have impact on the operating experience of user.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of display packing and electronic equipment, solves in prior art, in the process of content position on the display unit being controlled display by slider bar, and the defect of carrying out slide that user cannot be flexible.

For solving the problems of the technologies described above, embodiments of the invention provide a kind of display packing, be applied to electronic equipment, described electronic equipment has display unit, the viewing area of described display unit has first size in a first direction, described method comprises: when display unit display first content, receive the operation of operating body, wherein, described first content has the second size in said first direction, described second size is greater than described first size, shows the Part I of described first content in described viewing area; Judge whether described operation meets predetermined condition; When described operation first predetermined condition, obtain the first corresponding relation, described first corresponding relation is the corresponding relation of operating parameter and regulating parameter; According to operating parameter and described first corresponding relation of described operation, determine the first regulating parameter; Respond described first regulating parameter, make the Part II showing described first content in described viewing area, described Part I is different with described Part II; When described operation second predetermined condition, obtain the second corresponding relation, described second corresponding relation is the corresponding relation of operating parameter and regulating parameter; According to operating parameter and described second corresponding relation of described operation, determine the second regulating parameter; Respond described second regulating parameter, make the Part III showing described first content in described viewing area, described Part I is different with described Part III, described Part II is different with described Part III, described first predetermined condition is different with described second predetermined condition, and described first regulating parameter is different with described second regulating parameter.

In described method, described electronic equipment has the touch sensing unit overlapped with display unit; Described operation refers to the slip of the described operating body that described touch sensing unit detects; Described operating parameter comprises: first contact point, termination contact point, glide direction and sliding distance; Sliding distance is the distance between described first contact point and described termination contact point; Wherein, first contact point and termination contact point are all positioned in touch sensing unit; Described regulating parameter comprises: regulate direction and adjustable range, described adjustment direction is the direction of first content movement, and described adjustable range is the distance that first content moves up in described adjustment side.

In described method, the operation of described reception operating body specifically comprises: operate in first contact point, glide direction, sliding distance and termination contact point that described display unit is formed described in reception; Described termination contact point comprises: operating body leaves the location point of described touch sensing unit, location point residing when operating body stops mobile in described touch sensing unit, or, the location point of described operating body in described touch sensing unit that described touch sensing unit timing detects.

In described method, respond described first regulating parameter, the Part II showing described first content in described viewing area is comprised: in described first corresponding relation, linearly ratio between described sliding distance and adjustable range, the size of this linear scaling is determined by linear scale factor.

In described method, respond described second regulating parameter, the Part III showing described first content in described viewing area is comprised: in described second corresponding relation, described first contact point determines the reference position of described first content, described termination contact point determines the target location of described first content, described adjustable range is the distance between described reference position and described target location, described first content is moved described adjustable range on described display unit, is currently presented at part in described viewing area as described Part III.

In described method, in described second corresponding relation, adopt the first one-way only operation that described first content was moved described adjustable range on described display unit; Described first one-way only operation comprises: the extended line of described glide direction and the border of described touch sensing unit intersect at a border subpoint, and described first contact point and described border subpoint are formed and operate virtual route; Determine that described reference position is the first border of described first content, described border subpoint correspond to the second boundary being positioned at described first border peer; Content mobile virtual path is formed between described reference position and described the second boundary; The slip of described termination contact point on described operation virtual route is followed in the movement of described target location on described content mobile virtual path, and the ratio of two line segments that described content mobile virtual path divides by described target location, identical with the ratio of two line segments that described operation virtual route divides by described termination contact point.

In described method, described in the second corresponding relation: turning point in the middle of also comprising between described first contact point and described termination contact point, described first contact point points to the direction of described middle turning point, and to point to the direction stopping contact point contrary with described middle turning point; Distance between the first contact point and middle turning point of current formation, when equaling middle turning point and stop the distance between contact point, should show the Part I of described first content again in described viewing area; Distance between the first contact point and middle turning point of current formation, when being greater than middle turning point and stopping the distance between contact point, is switched to described first corresponding relation from described second corresponding relation.

In described method, described in the second corresponding relation, adopt the second one-way only operation that described first content was moved described adjustable range on described display unit, described second one-way only operation comprises step: the extended line of described glide direction and the border of described touch sensing unit intersect at a border subpoint, and described first contact point and described border subpoint form one and operate virtual route; Described reference position is in the described Part I of described first content, the current pointed position of described first contact point; Described border subpoint correspond to the 3rd border being positioned at described first border peer; A content mobile virtual path is formed between described reference position and described 3rd border; The slip of described termination contact point on described operation virtual route is followed in the movement of described target location on described content mobile virtual path, and the ratio of two line segments that described content mobile virtual path divides by described target location, identical with the ratio of two line segments that described operation virtual route divides by described termination contact point.

In described method, described in the second corresponding relation: turning point in the middle of also comprising between described first contact point and described termination contact point, described first contact point points to the direction of described middle turning point, and to point to the direction stopping contact point contrary with described middle turning point; Distance between the described first contact point and middle turning point of current formation, when equaling middle turning point and stop the distance between contact point, should show the Part I of described first content again in described viewing area; Distance between the first contact point and middle turning point of current formation, when being greater than middle turning point and stopping the distance between contact point, using this first contact point as new first contact point, the position that operating body arrives, as newly stopping contact point, performs described second one-way only operation again.

In described method, the linear scaling that the first corresponding relation have recorded between sliding distance and adjustable range maps, and this linear scaling maps to be deposited in the electronic device, when described operation first predetermined condition for calling; Second corresponding relation is that a dynamic realtime maps, and wherein, described first contact point, termination contact point, sliding distance are input quantities, and adjustable range is then the output quantity that described dynamic realtime maps.

In described method, described operating parameter also comprises stress point, stressed size and/or the lifting surface area that described operating body is formed in described touch sensing unit; Described operation first predetermined condition comprises: described operating body forms single stress point in described touch sensing unit; Or the stressed size of described touch sensing unit meets the first pressure threshold; Or the lifting surface area of described touch sensing unit meets the first area threshold; Described operation second predetermined condition comprises: described operating body forms two stress point in described touch sensing unit; Or the stressed size of described touch sensing unit meets the second pressure threshold; Or the lifting surface area of described touch sensing unit meets second area threshold value.

In described method, when electronic equipment is currently operating under described first corresponding relation, if detect, the operation of operating body meets described second predetermined condition, be then switched to described second corresponding relation; When electronic equipment is currently operating under described second corresponding relation, if detect, the operation of operating body meets described first predetermined condition, be then switched to described first corresponding relation.

In described method, when the stress point of described operating body in touch sensing unit is two, and when the stress point distance between two stress points is less than stress point synthesis threshold value, two stress point equivalences are synthesized an equivalent stress point.

A kind of electronic equipment, comprise: display unit, the viewing area of described display unit has first size in a first direction, described method comprises: touch sensing unit, for when display unit shows first content, receives the operation of operating body, wherein, described first content has the second size in said first direction, and described second size is greater than described first size, shows the Part I of described first content in described viewing area; Judging unit, for judging whether described operation meets predetermined condition; First operating unit, for when described operation first predetermined condition, obtain the first corresponding relation, described first corresponding relation is the corresponding relation of operating parameter and regulating parameter; According to operating parameter and described first corresponding relation of described operation, determine the first regulating parameter; Respond described first regulating parameter, make the Part II showing described first content in described viewing area, described Part I is different with described Part II; Second operating unit, for when described operation second predetermined condition, obtain the second corresponding relation, described second corresponding relation is the corresponding relation of operating parameter and regulating parameter; According to operating parameter and described second corresponding relation of described operation, determine the second regulating parameter; Respond described second regulating parameter, make the Part III showing described first content in described viewing area, described Part I is different with described Part III, described Part II is different with described Part III, described first predetermined condition is different with described second predetermined condition, and described first regulating parameter is different with described second regulating parameter.

The beneficial effect of technique scheme of the present invention is as follows: when the Just One Of Those Things part that first content shows in viewing area during not all, be no longer dependent on the slider bar realization that first content carries, but change shown part according to operating body slide on the display unit, in this process, operating body both can after implementation and operation, Part II is demonstrated according to the first corresponding relation adjustment first content, also can after implementation and operation, Part III is demonstrated according to the second corresponding relation adjustment first content, like this then improve the experience of user, in any type with all applicable on the electronic equipment of tangible display unit.

Accompanying drawing explanation

Fig. 1 represents the schematic appearance of electronic equipment;

Fig. 2 represents a kind of schematic flow sheet of display packing;

Fig. 3 represents the schematic diagram one of the Part III showing first content in viewing area;

Fig. 4 represents the schematic diagram two of the Part III showing first content in viewing area;

Fig. 5 represents the schematic diagram three of the Part III showing first content in viewing area;

Fig. 6 represents the schematic diagram four of the Part III showing first content in viewing area;

Fig. 7 represents that operating body controls the schematic diagram of the display of first content by slider bar;

Fig. 8 represents the structural representation of electronic equipment.

Embodiment

For making the technical problem to be solved in the present invention, technical scheme and advantage clearly, be described in detail below in conjunction with the accompanying drawings and the specific embodiments.

The embodiment of the present invention provides a kind of display packing, is applied to electronic equipment, and as shown in Figure 1, described electronic equipment has display unit, and the viewing area of described display unit has first size in a first direction, and described method comprises:

As shown in Figure 2, method comprises:

Step 201, when display unit display first content, receives the operation of operating body, wherein, described first content has the second size in said first direction, and described second size is greater than described first size, shows the Part I of described first content in described viewing area;

Step 202, judges whether described operation meets predetermined condition;

Step 203, when described operation first predetermined condition, obtains the first corresponding relation, and described first corresponding relation is the corresponding relation of operating parameter and regulating parameter; According to operating parameter and described first corresponding relation of described operation, determine the first regulating parameter; Respond described first regulating parameter, make the Part II showing described first content in described viewing area, described Part I is different with described Part II;

Step 204, when described operation second predetermined condition, obtains the second corresponding relation, and described second corresponding relation is the corresponding relation of operating parameter and regulating parameter; According to operating parameter and described second corresponding relation of described operation, determine the second regulating parameter; Respond described second regulating parameter, make the Part III showing described first content in described viewing area, described Part I is different with described Part III, described Part II is different with described Part III, described first predetermined condition is different with described second predetermined condition, and described first regulating parameter is different with described second regulating parameter.

The technical scheme provided is provided, when the Just One Of Those Things part that first content shows in viewing area during not all, be no longer dependent on slider bar (List View) realization that first content carries, but change shown part according to operating body slide on the display unit, in this process, operating body both can after implementation and operation, Part II is demonstrated according to the first corresponding relation adjustment first content, also can after implementation and operation, Part III is demonstrated according to the second corresponding relation adjustment first content, like this then improve the experience of user, in any type with all applicable on the electronic equipment of tangible display unit.

In a preferred embodiment, as shown in Figure 3, described electronic equipment has the touch sensing unit overlapped with display unit;

Described operation refers to the slip of the described operating body that described touch sensing unit detects;

Described operating parameter comprises: first contact point, termination contact point, glide direction and sliding distance; Sliding distance is the distance between described first contact point and described termination contact point; Wherein, first contact point and termination contact point are all positioned in touch sensing unit;

Described regulating parameter comprises: regulate direction and adjustable range, described adjustment direction is the direction of first content movement, and described adjustable range is the distance of first content movement in the adjustment directions.

This wherein, first contact point, termination contact point, glide direction and sliding distance are collectively referred to as sliding trace, in other words, sliding trace is a vector, direction is pointed to from first contact point and is stopped contact point, the dotted line with arrow in figure, points to reference position from first contact point, and point to the second boundary from border subpoint, illustrate correspondence (relation) between the two.

In a preferred embodiment, as shown in Figure 3, the operation of described reception operating body specifically comprises:

First contact point, glide direction, sliding distance and termination contact point that described display unit is formed is operated in described in reception;

Described termination contact point comprises: operating body leaves the location point of described touch sensing unit, location point residing when operating body stops mobile in described touch sensing unit, or, the location point of described operating body in described touch sensing unit that described touch sensing unit timing detects.

In a preferred embodiment, respond described first regulating parameter, the Part II showing described first content in described viewing area comprised:

In described first corresponding relation, linearly ratio between sliding distance and adjustable range, the size of this linear scaling is determined by linear scale factor.

Linear scale factor normally 1, that is, between sliding distance and adjustable range be the relation of 1:1, if sliding distance is 1cm, so adjustable range also should be 1cm, and this comparatively meets use habit and the feel of user.

In a preferred embodiment, respond described second regulating parameter, the Part III showing described first content in described viewing area comprised:

In described second corresponding relation, described first contact point determines the reference position of described first content, described termination contact point determines the target location of described first content, described adjustable range is the distance between described reference position and described target location, described first content is moved described adjustable range on described display unit, is currently presented at part in described viewing area as described Part III.

First content is a virtual two dimensional surface, regulates in the process of the different piece of first content, for describing and convenience of calculation, being as the criterion, calculating its adjustable range with the geometric center of various piece-Part I, Part II and Part III concrete.Therefore, adjustable range is actually in first content, the distance of the geometric center of Part I and the geometric center of Part III, this wherein, reference position is the geometric center of Part I, and target location is then the geometric center of Part III.

In a preferred embodiment, as shown in Figure 3, in described second corresponding relation, adopt the first one-way only operation that described first content was moved described adjustable range on described display unit; Described first one-way only operation comprises:

The extended line of described glide direction and the border of described touch sensing unit intersect at a border subpoint, and described first contact point and described border subpoint form one and operate virtual route;

Determine that described reference position is the first border of described first content, described border subpoint correspond to the second boundary being positioned at described first border peer; A content mobile virtual path is formed between described reference position and described the second boundary;

The slip of described termination contact point on described operation virtual route is followed in the movement of described target location on described content mobile virtual path, and the ratio of two line segment S1 and S2 that described content mobile virtual path divides by described target location, identical with the ratio of two line segment L1 with L2 that described operation virtual route divides by described termination contact point.

Wherein, the first border or the second boundary can be the top margin of first content, border, bottom, left border, right side boundary or each drift angle.The correspondence indicated in figure refers to; First contact point correspond to reference position (the first border of first content), and border subpoint correspond to the second boundary being positioned at the first border peer.Here ratio is identical refers to L1:L2=S1:S2.In Fig. 3, target location is not must be positioned on same level line with stopping contact point.

In embodiment, the movement of target location on content mobile virtual path is followed and is stopped the slip of contact point on operation virtual route, in this process, obviously, the length in content mobile virtual path is different from the length of operation virtual route, usually, the length in content mobile virtual path is greater than the length of operation virtual route, for this reason, in the moving process of target location, a scale-up factor k can be there is:

The length of the length/operation virtual route in k=content mobile virtual path;

When stopping contact point and slide over distance m on operation virtual route, the distance n=k*m of target location movement on content mobile virtual path.

Again because both are simultaneously setting in motions, and motion simultaneously puts in place, therefore, can obtain conclusion again: the movement speed v 2 of target location be the k of the movement speed v 1 stopping contact point doubly, that is, v2=k*v1.

In a preferred embodiment, as shown in Figure 4, described in the second corresponding relation:

Also comprise turning point in the middle of between described first contact point and described termination contact point, the direction of turning point in the middle of described first contact point points to, to point to the direction stopping contact point contrary with described middle turning point;

Distance between the first contact point and middle turning point of current formation, when equaling middle turning point and stop the distance between contact point, should show the Part I of described first content again in described viewing area;

Distance between the first contact point and middle turning point of current formation, when being greater than middle turning point and stopping the distance between contact point, is switched to described first corresponding relation from described second corresponding relation.

In a preferred embodiment, as shown in Figure 5, described in the second corresponding relation, adopt the second one-way only operation that described first content was moved described adjustable range on described display unit, described second one-way only operation comprises step:

The extended line of described glide direction and the border of described touch sensing unit intersect at a border subpoint, and described first contact point and described border subpoint form one and operate virtual route;

Described reference position is in the described Part I of described first content, the current pointed position of described first contact point; Described border subpoint correspond to the 3rd border being positioned at described first border peer; A content mobile virtual path is formed between described reference position and described 3rd border;

The slip of described termination contact point on described operation virtual route is followed in the movement of described target location on described content mobile virtual path, and the ratio of two line segment S1 and S2 that described content mobile virtual path divides by described target location, identical with the ratio of two line segment L1 with L2 that described operation virtual route divides by described termination contact point.

Wherein, the first border or the 3rd border can be the top margin of first content, border, bottom, left border, right side boundary or each drift angle.In Fig. 5, first contact point is positioned on identical horizontal line with reference position.Here ratio is identical refers to L1:L2=S1:S2.

Understand for convenience of those skilled in the art, in an application scenarios, to operate address list, existing address list carrys out auxiliary user by Reference character A-Z to find current required contact method, after the technical scheme adopting the embodiment of the present invention to provide, in the process of searching contact method:

Operating body contact touch sensing unit; When contacting first, operating body forms two stress point in described touch sensing unit; , the stressed size of described touch sensing unit meets the second pressure threshold, or the lifting surface area of described touch sensing unit meets second area threshold value; Define first contact point;

In the second corresponding relation, first contact point determines the reference position of first content, and because first content is address list, therefore, in fact reference position refers to the reference position of the contact method corresponding to alphabetical A of address list;

Operating body, in the enterprising line slip of touch sensing unit, defines termination contact point in real time; In this process, operating body can any one letter in address list, such as, if slide downward, then have passed through letter b, C and other letters follow-up successively.In a preferred embodiment, the contact method under can user being assisted to find current required letter by the mode of constantly amplifying each letter showing correspondence in A-Z letter.

Stop the target location that contact point determines first content-address list, without loss of generality, user finds the contact method under L letter, the target location that then termination contact point determines is the L letter of address list, this target location can be the enlightenment position of contact method under L letter, also can be the some ad-hoc locations under L letter.

So, the adjustable range of formation is the distance between reference position and target location, and namely on address list, adjustable range is the distance between alphabetical A and alphabetical L;

First content was moved described adjustable range on described display unit, currently be presented at part in described viewing area as described Part III, herein, Part III specifically refers to the contact method under alphabetical L, it can be the Article 1 contact method under alphabetical L, also can be several contact methods under alphabetical L from Article 1, in a preferred embodiment, can also be under alphabetical L from some ad-hoc locations or several contact methods.

Further, because the number of the lower described contact method of each letter of A-Z in address list is not identical, therefore the length that each letter is occupied in address list is different, for alphabetical O, surname first letter is the comparatively rare of O, therefore the length that the contact method under alphabetical O occupies is very short, and in like manner, zed, W or L etc. can occupy longer length.

For this reason, in one embodiment, in the second corresponding relation, the length of each letter of setting A-Z occupied by address list is identical, simplifies the mapping relations from sliding distance to adjustable range.

Or, contact methods all under alphabetical A-Z is all launched, calculates the total length of each letter and add up as the length of address list.So, do not affect initial contact point and reference position yet, and stop the mapping relations between contact point and target location.

In a preferred embodiment, as shown in Figure 6, also comprise turning point in the middle of between described first contact point and described termination contact point, described first contact point points to the direction of described middle turning point, and to point to the direction stopping contact point contrary with described middle turning point;

Distance between the described first contact point and middle turning point of current formation, when equaling middle turning point and stop the distance between contact point, should show the Part I of described first content again in described viewing area;

Distance between the first contact point and middle turning point of current formation, when being greater than middle turning point and stopping the distance between contact point, using this first contact point as new first contact point, the position that operating body arrives, as newly stopping contact point, performs described second one-way only operation again.

In embodiment, new first contact point is with newly stopping contact point constitutes operation virtual route, and new first contact point and reference position should be positioned on same level line.

In a preferred embodiment, the linear scaling that the first corresponding relation have recorded between sliding distance and adjustable range maps, and this linear scaling maps to be deposited in the electronic device, when described operation first predetermined condition for calling;

Second corresponding relation is that a dynamic realtime maps, and wherein, described first contact point, termination contact point, sliding distance are input quantities, and adjustable range is then the output quantity that described dynamic realtime maps.

This wherein, the second corresponding relation also follows a principle, that is, glide direction determines the glide direction of first content.In display unit, when glide direction is the bottom towards display unit, emerging second content or the 3rd content normally engender from the top of display unit.

Can be distinguished by different modes between first predetermined condition and the second predetermined condition.

In a preferred embodiment, described operating parameter also comprises stress point, stressed size and/or the lifting surface area that described operating body is formed in described touch sensing unit;

Described operation first predetermined condition comprises:

Described operating body forms single stress point in described touch sensing unit;

Or the stressed size of described touch sensing unit meets the first pressure threshold;

Or the lifting surface area of described touch sensing unit meets the first area threshold;

Described operation second predetermined condition comprises:

Described operating body forms two stress point in described touch sensing unit;

Or the stressed size of described touch sensing unit meets the second pressure threshold;

Or the lifting surface area of described touch sensing unit meets second area threshold value.

This wherein, for adapting to the use habit using the user of prior art, usually in the first predetermined condition, limit the stressed from a finger of touch sensing unit, but do not represent and do not allow in the second predetermined condition, limit the stressed from a finger of touch sensing unit, in fact, for the user of this technology of Long-Time Service, it is completely passable for using one to point as operating body, and can realize the seamless connection between prior art in use habit.

When the stress point of operating body in touch sensing unit is more than one, stress point distance between first stress point and the second stress point should be less than a stress point and synthesize threshold value, so, the operation for first content on the limited display unit of size just has Practical significance.

In a preferred embodiment, when the stress point of described operating body in touch sensing unit is two, and when the stress point distance between two stress points is less than stress point synthesis threshold value, two stress point equivalences are synthesized an equivalent stress point.

Based on the difference existed between the first predetermined condition and the second predetermined condition, can know:

In a preferred embodiment, when electronic equipment is currently operating under the first corresponding relation, if detect, the operation of operating body meets the second predetermined condition, be then switched to the second corresponding relation;

When electronic equipment is currently operating under the second corresponding relation, if detect, the operation of operating body meets the first predetermined condition, be then switched to the first corresponding relation.

In a preferred embodiment, also comprise according to after glide direction and sliding distance adjustment first content position on the display unit: the display original position of first content on described display unit; And display recovers the recovery button of first content to described original position.

Different users is in the process using electronic equipment, due to the restriction of use habit or objective environment, its mode of operation is also different, such as, although some user habits form sliding trace by slide, the variation of mode of operation also should be allowed, in other words, user also can form sliding trace only by clicking operation, and this sliding trace correspond to content mobile virtual path.

The sliding trace obtaining operation comprises: first point that described slide is pressed on described display unit detected, using this first point as first contact point, using the described operation point pressed on described display unit of finish time as described termination contact point, described first contact point and described termination contact point define sliding trace.

When pressing first point (first contact point), corresponding progress will be carried out and slide, and with slip animation.Screen can show the initial position before slip, current operation body position and between relation.Can exist one return to slip before the recovery button-such as of initial position to float Button, recover button display second dying away after two finger slide terminates.

Following examples still embody invention thought of the present invention.

In a preferred embodiment, according to the adjustable range of sliding distance determination first content in glide direction (glide direction determines and regulates direction), specifically comprise: calculate the first distance between first contact point to the border that glide direction is pointed to,

According to the first ratio between described sliding distance and described first distance, determine the adjustable range of described first content in described glide direction.

In an application scenarios, as shown in Figure 7, the total length of slider bar is set as 100%, and upwards the slip of boundary direction is set as forward slide, and slide downward is again set as reversible sliding action; Forward slide is different with the realization mechanism of reversible sliding action again, comprising:

In forward slide, calculate the first distance between first contact point to coboundary, without loss of generality, set that the first distance correspond to slider bar 50%,

According to the first ratio between sliding distance and the first distance, such as, sliding distance is 60%, the first ratio=60%/50%=1.2 of whole display unit coboundary to lower boundary total length, be greater than 1, then now should by first content upward sliding to the position of its limit.

In an application scenarios, understand for convenience of those skilled in the art, as shown in Figure 7, introduce the concept of slider bar and control strip, first content is in an original position, first content has a slider bar, without loss of generality, slider bar can identify and control the slip of first content on the above-below direction of display unit, the total length of slider bar is set as 100%, there is a control strip (Item) in slider bar, the outer appearnce of control strip is like a slip fritter, the particular location of control strip in slider bar is determined by the relative position between first content and display unit.

Employing is two to be referred to as operating body operates; First contact point correspond to the position of slider bar the top 0%, the border of first contact point and termination contact point place straight line and touch sensing unit meets on the subpoint of border, so, first contact point and border subpoint constitute one and operate virtual route, but this operation virtual route is not direct and first content produces corresponding relation, but directly and between slider bar there is corresponding relation, and, there is between slider bar and first content direct corresponding relation.

Two refer to slide the sliding distance of process correspond to a number percent of slider bar, this number percent is a percent position, identify control strip position on the slider bar, number percent is minimum is 0%, is 100% to the maximum, wherein, when control strip is in slider bar the top time, correspond to 0%, when control strip be in slider bar bottom time, correspond to 100%.

If operating body slides into the position of 60% of operation virtual route, this position of 60% stops the position of contact point on operation virtual route, and so control strip also should arrive 60% position of slider bar; Identify due to control strip again and control first content position on the display unit, therefore, first content now can adjust accordingly, namely, slide from original position in first content position on the display unit, slide into the position that control strip is in 60% of slider bar always.

Further, when considering that user carries out slide on the display unit, if the too much frame touching display unit can cause operation inconvenience, therefore need to reserve clear area near the position of frame on the display unit, this clear area is not supported to carry out slide, namely in the number percent that the total length of display unit is corresponding, near 10% length of upper side frame, and 10% length of close lower frame is clear area, so, in the number percent that then total length of display unit is corresponding, 10%-90% correspond to 100% of slider bar.

In a preferred embodiment, determine the adjustable range of described first content in described glide direction (glide direction determines and regulates direction) according to sliding distance, specifically comprise:

Calculate in glide direction, the difference between the border of described first content and the border of described display unit, according to the second ratio between described sliding distance and described difference, determines the adjustable range of described first content in described glide direction.

In an application scenarios, in reversible sliding action, the difference between the border of first content and the border of display unit is 50%, that is, first content has half not to be presented in display unit.

Sliding distance is 30%, the second ratio=30%/50%=0.6 of display unit coboundary to lower boundary total length, then now should, by first content slide downward, not have 0.6 of the first content shown to be presented in display unit by former.

In a preferred embodiment, when error between sliding trace and the standard trajectory preset is less than a threshold value, specifically comprise: calculate the angle between sliding trace and described standard trajectory, this angle should be less than an angle threshold value, and described angle threshold value presets.

In a preferred embodiment, obtain the sliding trace of operation, also comprise: obtain the first sliding speed that described operation is corresponding, calculate the second sliding speed when described first content slides according to described first sliding speed.

In a preferred embodiment, the sliding trace obtaining described operation also comprises: when detecting that two finger slides, obtain described operation first contact point on the screen respectively and stop contact point, further, connect described first contact point respectively and stop contact point and form the first sliding trace and the second sliding trace;

Described first sliding trace and the second sliding trace are carried out vector superposed formation one and synthesizes sliding trace, described synthesis sliding trace is described sliding trace.

The embodiment of the present invention provides a kind of electronic equipment, as shown in Figure 8, comprising:

Display unit 801, the viewing area of described display unit has first size in a first direction, and described method comprises:

Touch sensing unit 802, for when display unit shows first content, receives the operation of operating body, wherein, described first content has the second size in said first direction, and described second size is greater than described first size, shows the Part I of described first content in described viewing area;

Judging unit 803, for judging whether described operation meets predetermined condition;

First operating unit 804, for when described operation first predetermined condition, obtain the first corresponding relation, described first corresponding relation is the corresponding relation of operating parameter and regulating parameter; According to operating parameter and described first corresponding relation of described operation, determine the first regulating parameter; Respond described first regulating parameter, make the Part II showing described first content in described viewing area, described Part I is different with described Part II;

Second operating unit 805, for when described operation second predetermined condition, obtain the second corresponding relation, described second corresponding relation is the corresponding relation of operating parameter and regulating parameter; According to operating parameter and described second corresponding relation of described operation, determine the second regulating parameter; Respond described second regulating parameter, make the Part III showing described first content in described viewing area, described Part I is different with described Part III, described Part II is different with described Part III, described first predetermined condition is different with described second predetermined condition, and described first regulating parameter is different with described second regulating parameter.

In a preferred embodiment, as shown in Figure 3, electronic equipment has the touch sensing unit 802 overlapped with display unit 801;

Described operation refers to the slip of the described operating body that described touch sensing unit 802 detects;

Described operating parameter comprises: first contact point, termination contact point, glide direction and sliding distance; Sliding distance is the distance between described first contact point and described termination contact point; Wherein, first contact point and termination contact point are all positioned in touch sensing unit 802;

Described regulating parameter comprises: regulate direction and adjustable range, described adjustment direction is the direction of first content movement, and described adjustable range is the distance of first content movement in the adjustment directions.

This wherein, first contact point, stop contact point, glide direction and sliding distance be collectively referred to as sliding trace, in other words, sliding trace is a vector, direction from first contact point point to stop contact point.

In a preferred embodiment, as shown in Figure 3, the operation receiving operating body specifically comprises:

First contact point, glide direction, sliding distance and termination contact point that described display unit 801 is formed is operated in described in reception;

Described termination contact point comprises: operating body leaves the location point of touch sensing unit 802, location point residing when operating body stops mobile in described touch sensing unit 802, or, the location point of described operating body in described touch sensing unit 802 that touch sensing unit 802 timing detects.

Advantage after employing this programme is: in the process changing first content different piece shown on the display unit, be no longer dependent on the slider bar that existing technology-such as first content carries to realize, but change according to operating body operation on the display unit, improve the experience of user, all applicable on the electronic equipment with touch sensing unit (tangible display unit) of any type.

The above is the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the prerequisite not departing from principle of the present invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (14)

1. a display packing, is applied to electronic equipment, it is characterized in that, described electronic equipment has display unit, and the viewing area of described display unit has first size in a first direction, and described method comprises:

When display unit display first content, receive the operation of operating body, wherein, described first content has the second size in said first direction, and described second size is greater than described first size, shows the Part I of described first content in described viewing area;

Judge whether described operation meets predetermined condition;

When described operation first predetermined condition, obtain the first corresponding relation, described first corresponding relation is the corresponding relation of operating parameter and regulating parameter; According to operating parameter and described first corresponding relation of described operation, determine the first regulating parameter; Respond described first regulating parameter, make the Part II showing described first content in described viewing area, described Part I is different with described Part II;

When described operation second predetermined condition, obtain the second corresponding relation, described second corresponding relation is the corresponding relation of operating parameter and regulating parameter; According to operating parameter and described second corresponding relation of described operation, determine the second regulating parameter; Respond described second regulating parameter, make the Part III showing described first content in described viewing area, described Part I is different with described Part III, described Part II is different with described Part III, described first predetermined condition is different with described second predetermined condition, and described first regulating parameter is different with described second regulating parameter.

2. method according to claim 1, is characterized in that, described electronic equipment has the touch sensing unit overlapped with display unit;

Described operation refers to the slip of the described operating body that described touch sensing unit detects;

Described operating parameter comprises: first contact point, termination contact point, glide direction and sliding distance; Sliding distance is the distance between described first contact point and described termination contact point; Wherein, first contact point and termination contact point are all positioned in touch sensing unit;

Described regulating parameter comprises: regulate direction and adjustable range, described adjustment direction is the direction of first content movement, and described adjustable range is the distance that first content moves up in described adjustment side.

3. method according to claim 1 and 2, is characterized in that, the operation of described reception operating body specifically comprises:

First contact point, glide direction, sliding distance and termination contact point that described display unit is formed is operated in described in reception;

Described termination contact point comprises: operating body leaves the location point of described touch sensing unit, location point residing when operating body stops mobile in described touch sensing unit, or, the location point of described operating body in described touch sensing unit that described touch sensing unit timing detects.

4. method according to claim 2, is characterized in that, responds described first regulating parameter, and the Part II showing described first content in described viewing area is comprised:

In described first corresponding relation, linearly ratio between described sliding distance and adjustable range, the size of this linear scaling is determined by linear scale factor.

5. method according to claim 2, is characterized in that, responds described second regulating parameter, and the Part III showing described first content in described viewing area is comprised:

In described second corresponding relation, described first contact point determines the reference position of described first content, described termination contact point determines the target location of described first content, described adjustable range is the distance between described reference position and described target location, described first content is moved described adjustable range on described display unit, is currently presented at part in described viewing area as described Part III.

6. method according to claim 5, is characterized in that, in described second corresponding relation, adopts the first one-way only operation that described first content was moved described adjustable range on described display unit; Described first one-way only operation comprises:

The extended line of described glide direction and the border of described touch sensing unit intersect at a border subpoint, and described first contact point and described border subpoint are formed and operate virtual route;

Determine that described reference position is the first border of described first content, described border subpoint correspond to the second boundary being positioned at described first border peer; Content mobile virtual path is formed between described reference position and described the second boundary;

The slip of described termination contact point on described operation virtual route is followed in the movement of described target location on described content mobile virtual path, and the ratio of two line segments that described content mobile virtual path divides by described target location, identical with the ratio of two line segments that described operation virtual route divides by described termination contact point.

7. method according to claim 6, is characterized in that, described in the second corresponding relation:

Also comprise turning point in the middle of between described first contact point and described termination contact point, described first contact point points to the direction of described middle turning point, and to point to the direction stopping contact point contrary with described middle turning point;

Distance between the first contact point and middle turning point of current formation, when equaling middle turning point and stop the distance between contact point, should show the Part I of described first content again in described viewing area;

Distance between the first contact point and middle turning point of current formation, when being greater than middle turning point and stopping the distance between contact point, is switched to described first corresponding relation from described second corresponding relation.

8. method according to claim 5, is characterized in that, described in the second corresponding relation, adopts the second one-way only operation that described first content was moved described adjustable range on described display unit, and described second one-way only operation comprises step:

The extended line of described glide direction and the border of described touch sensing unit intersect at a border subpoint, and described first contact point and described border subpoint form one and operate virtual route;

Described reference position is in the described Part I of described first content, the current pointed position of described first contact point; Described border subpoint correspond to the 3rd border being positioned at described first border peer; A content mobile virtual path is formed between described reference position and described 3rd border;

The slip of described termination contact point on described operation virtual route is followed in the movement of described target location on described content mobile virtual path, and the ratio of two line segments that described content mobile virtual path divides by described target location, identical with the ratio of two line segments that described operation virtual route divides by described termination contact point.

9. method according to claim 8, is characterized in that, described in the second corresponding relation:

Also comprise turning point in the middle of between described first contact point and described termination contact point, described first contact point points to the direction of described middle turning point, and to point to the direction stopping contact point contrary with described middle turning point;

Distance between the described first contact point and middle turning point of current formation, when equaling middle turning point and stop the distance between contact point, should show the Part I of described first content again in described viewing area;

Distance between the first contact point and middle turning point of current formation, when being greater than middle turning point and stopping the distance between contact point, using this first contact point as new first contact point, the position that operating body arrives, as newly stopping contact point, performs described second one-way only operation again.

10. method according to claim 1, is characterized in that,

The linear scaling that first corresponding relation have recorded between sliding distance and adjustable range maps, and this linear scaling maps to be deposited in the electronic device, when described operation first predetermined condition for calling;

Second corresponding relation is that a dynamic realtime maps, and wherein, described first contact point, termination contact point, sliding distance are input quantities, and adjustable range is then the output quantity that described dynamic realtime maps.

11. methods according to claim 1, is characterized in that, described operating parameter also comprises stress point, stressed size and/or the lifting surface area that described operating body is formed in described touch sensing unit;

Described operation first predetermined condition comprises:

Described operating body forms single stress point in described touch sensing unit;

Or the stressed size of described touch sensing unit meets the first pressure threshold;

Or the lifting surface area of described touch sensing unit meets the first area threshold;

Described operation second predetermined condition comprises:

Described operating body forms two stress point in described touch sensing unit;

Or the stressed size of described touch sensing unit meets the second pressure threshold;

Or the lifting surface area of described touch sensing unit meets second area threshold value.

12. methods according to claim 1 or 11, is characterized in that,

When electronic equipment is currently operating under described first corresponding relation, if detect, the operation of operating body meets described second predetermined condition, be then switched to described second corresponding relation;

When electronic equipment is currently operating under described second corresponding relation, if detect, the operation of operating body meets described first predetermined condition, be then switched to described first corresponding relation.

13. methods according to claim 11, is characterized in that,

When the stress point of described operating body in touch sensing unit is two, and when the stress point distance between two stress points is less than stress point synthesis threshold value, two stress point equivalences are synthesized an equivalent stress point.

14. 1 kinds of electronic equipments, is characterized in that, comprising:

Display unit, the viewing area of described display unit has first size in a first direction, and described method comprises:

Touch sensing unit, for when display unit shows first content, receives the operation of operating body, wherein, described first content has the second size in said first direction, and described second size is greater than described first size, shows the Part I of described first content in described viewing area;

Judging unit, for judging whether described operation meets predetermined condition;

First operating unit, for when described operation first predetermined condition, obtain the first corresponding relation, described first corresponding relation is the corresponding relation of operating parameter and regulating parameter; According to operating parameter and described first corresponding relation of described operation, determine the first regulating parameter; Respond described first regulating parameter, make the Part II showing described first content in described viewing area, described Part I is different with described Part II;

Second operating unit, for when described operation second predetermined condition, obtain the second corresponding relation, described second corresponding relation is the corresponding relation of operating parameter and regulating parameter; According to operating parameter and described second corresponding relation of described operation, determine the second regulating parameter; Respond described second regulating parameter, make the Part III showing described first content in described viewing area, described Part I is different with described Part III, described Part II is different with described Part III, described first predetermined condition is different with described second predetermined condition, and described first regulating parameter is different with described second regulating parameter.