CN104375770B - A kind of display methods and electronic equipment - Google Patents
A kind of display methods and electronic equipment Download PDFInfo
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- CN104375770B CN104375770B CN201310353833.1A CN201310353833A CN104375770B CN 104375770 B CN104375770 B CN 104375770B CN 201310353833 A CN201310353833 A CN 201310353833A CN 104375770 B CN104375770 B CN 104375770B
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0487—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
- G06F3/0488—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
- G06F3/04886—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures by partitioning the display area of the touch-screen or the surface of the digitising tablet into independently controllable areas, e.g. virtual keyboards or menus
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0484—Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
- G06F3/0485—Scrolling or panning
- G06F3/04855—Interaction with scrollbars
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Theoretical Computer Science (AREA)
- Human Computer Interaction (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- User Interface Of Digital Computer (AREA)
Abstract
The embodiment of the present invention provides a kind of display methods and electronic equipment, electronic equipment has display unit, the display area of display unit has first size in a first direction, when display unit shows first content, receive the operation of operating body, first content has the second size in a first direction, and the second size is greater than first size, the first part of first content is shown in display area;Judge whether operation meets predetermined condition;When operation meets the second predetermined condition, the second corresponding relationship is obtained, the second corresponding relationship is the corresponding relationship of operating parameter and adjustment parameter;According to the operating parameter and the second corresponding relationship of operation, the second adjustment parameter is determined;Respond the second adjustment parameter, so that the Part III of first content is shown in display area, first part and Part III difference, second part and Part III difference, first predetermined condition and the second predetermined condition difference, the first adjustment parameter and the second adjustment parameter difference.Improve the usage experience of user.
Description
Technical field
The present invention relates to electronic display technology, a kind of display methods and electronic equipment are particularly related to.
Background technique
Electronic equipment is the computer equipment that can be used on the move, including mobile phone, notebook, POS machine even include
Vehicle-mounted computer refers to mobile phone or the smart phone with a variety of application functions in most cases.
On the display unit of electronic equipment show an application interface during, the application interface have one it is right therewith
There is on slider bar the slider bar answered a control strip to identify the relative position between application interface and display unit, also,
By changing the position of control strip on the slider bar, to change the display position of application interface on the display unit.
The prior art has the following problems: since slider bar can not occupy area excessive on display unit, and its
With some intrinsic defects, cause to affect the behaviour of user during controlling the position of application interface by slider bar
It experiences.
Summary of the invention
The technical problem to be solved in the present invention is to provide a kind of display methods and electronic equipment, solve in the prior art,
During controlling the position of the content of display on the display unit by slider bar, user flexible and convenient can not be slided
The defect of operation.
In order to solve the above technical problems, the embodiment of the present invention provides a kind of display methods, it is applied to electronic equipment, it is described
Electronic equipment has display unit, and the display area of the display unit has first size, the method in a first direction
It include: to receive the operation of operating body, wherein the first content is in the first party when display unit shows first content
There is the second size upwards, second size is greater than the first size, shows the first content in the display area
First part;Judge whether the operation meets predetermined condition;When the operation meets the first predetermined condition, first is obtained
Corresponding relationship, first corresponding relationship are the corresponding relationship of operating parameter and adjustment parameter;Operation according to the operation is joined
Several and first corresponding relationship, determines the first adjustment parameter;First adjustment parameter is responded, so that in the display area
The second part of the middle display first content, the first part are different with the second part;When the operation meets the
When two predetermined conditions, the second corresponding relationship is obtained, second corresponding relationship is the corresponding relationship of operating parameter and adjustment parameter;
According to the operating parameter and second corresponding relationship of the operation, the second adjustment parameter is determined;It responds described second and adjusts ginseng
Number, so that the Part III of the first content is shown in the display area, the first part and the Part III
Difference, the second part is different with the Part III, and first predetermined condition is different with second predetermined condition, institute
It is different with second adjustment parameter to state the first adjustment parameter.
In the method, the electronic equipment has the touch sensing unit overlapped with display unit;The behaviour
Make the sliding for the operating body for referring to that the touch sensing unit detects;The operating parameter includes: initial contact point, end
Only contact point, glide direction and sliding distance;Sliding distance be between the initial contact point and the termination contact point away from
From;Wherein, initial contact point and termination contact point are respectively positioned in touch sensing unit;The adjustment parameter includes: to adjust direction
And adjustable range, the direction that adjusts is the mobile direction of first content, and the adjustable range is first content in the adjusting
The distance moved on direction.
In the method, the operation for receiving operating body is specifically included: receiving the operation in the display unit
Initial contact point, glide direction, sliding distance and the termination contact point of upper formation;The termination contact point include: operating body from
Open the location point of the touch sensing unit, operating body point the location of when stopping mobile in the touch sensing unit,
Alternatively, location point of the operating body that detects of touch sensing unit timing in the touch sensing unit.
In the method, first adjustment parameter is responded, so that being shown in described first in the display area
The second part of appearance includes: the linear ratio between the sliding distance and adjustable range in first corresponding relationship, should
The size of linear scale is determined by linear scale factor.
In the method, second adjustment parameter is responded, so that being shown in described first in the display area
The Part III of appearance includes: in second corresponding relationship, and the initial contact point determines the benchmark position of the first content
Set, the termination contact point determines the target position of the first content, the adjustable range be the base position with it is described
The first content is moved through the adjustable range by the distance between target position on the display unit, current to show
Part in the display area is as the Part III.
In the method, in second corresponding relationship, using the first one-way operation by the first content in institute
It states and is moved through the adjustable range on display unit;First one-way operation includes: extended line and the institute of the glide direction
The boundary for stating touch sensing unit intersects at a boundary subpoint, and the initial contact point and the boundary subpoint, which are formed, to be grasped
Make virtual route;Determine that the base position is the first boundary of the first content, the boundary subpoint, which corresponds to, to be located at
The second boundary of first border peer;Content mobile virtual road is formed between the base position and the second boundary
Diameter;Movement of the target position on content mobile virtual path follows the termination contact point virtual in the operation
Sliding on path, and the ratio of two line segments that the target position divides content mobile virtual path, and it is described
The ratio for two line segments that termination contact point divides the operation virtual route is identical.
It is described in the second corresponding relationship: between the initial contact point and the termination contact point in the method
It further include an intermediate turning point, the initial contact point is directed toward the direction of the intermediate turning point, with the intermediate turning point
It is directed toward the contrary of termination contact point;When the distance between the initial contact point that is currently formed and intermediate turning point, it is equal to
Between the distance between turning point and termination contact point when, should show the first of the first content again in the display area
Part;When the distance between the initial contact point currently formed and intermediate turning point, it is greater than intermediate turning point and termination contact point
The distance between when, be switched to first corresponding relationship from second corresponding relationship.
It is described in the second corresponding relationship in the method, using the second one-way operation by the first content in institute
State and be moved through the adjustable range on display unit, second one-way operation comprising steps of the glide direction extended line
A boundary subpoint is intersected at the boundary of the touch sensing unit, the initial contact point and the boundary project dot
At an operation virtual route;The base position is the initial contact point in the first part of the first content
The position being currently pointed at;The boundary subpoint is corresponded to positioned at the third boundary of first border peer;The benchmark
A content mobile virtual path is formed between position and the third boundary;The target position is in the content mobile virtual
Movement on path follows sliding of the termination contact point on the operation virtual route, and the target position will be described
The ratio for two line segments that content mobile virtual path divides divides the operation virtual route with the termination contact point
The ratio of two line segments is identical.
It is described in the second corresponding relationship: between the initial contact point and the termination contact point in the method
It further include an intermediate turning point, the initial contact point is directed toward the direction of the intermediate turning point, with the intermediate turning point
It is directed toward the contrary of termination contact point;When the distance between the initial contact point that is currently formed and intermediate turning point, etc.
When the distance between intermediate turning point and termination contact point, the first content should be shown in the display area again
First part;When the distance between the initial contact point currently formed and intermediate turning point, connect greater than intermediate turning point with termination
When the distance between contact, using the initial contact point as new initial contact point, the position that operating body reaches connects as new termination
Contact executes second one-way operation again.
In the method, the first corresponding relationship has recorded the mapping of the linear scale between sliding distance and adjustable range,
Linear scale mapping is stored in the electronic device, when the operation meets the first predetermined condition for calling;Second corresponding pass
System is a dynamic realtime mapping, wherein the initial contact point, termination contact point, sliding distance are input quantity, adjustable range
It is then the output quantity of the dynamic realtime mapping.
In the method, the operating parameter further include the operating body formed in the touch sensing unit by
Force, stress size and/or forced area;It includes: the operating body in the touch that the operation, which meets the first predetermined condition,
Single stress point is formed on sensing unit;Alternatively, the stress size of the touch sensing unit meets first pressure threshold value;Or
Person, the forced area of the touch sensing unit meet the first area threshold;It includes: institute that the operation, which meets the second predetermined condition,
It states operating body and forms double stress points in the touch sensing unit;Alternatively, the stress size of the touch sensing unit meets
Second pressure threshold value;Alternatively, the forced area of the touch sensing unit meets second area threshold value.
In the method, when electronic equipment is currently operating under first corresponding relationship, if detecting operating body
Operation meet second predetermined condition, then be switched to second corresponding relationship;Described in being currently operating at when electronic equipment
When under the second corresponding relationship, if detecting, the operation of operating body meets first predetermined condition, is switched to described first pair
It should be related to.
In the method, when stress point of the operating body in touch sensing unit is two, and two stress points
Between stress point distance when being less than stress point synthesis threshold value, synthesize an equivalent stress point for two stress points are equivalent.
A kind of electronic equipment, comprising: the display area of display unit, the display unit has first in a first direction
Size, which comprises touch sensing unit, for receiving the operation of operating body when display unit shows first content,
Wherein, the first content has the second size in said first direction, and second size is greater than the first size, institute
State the first part that the first content is shown in display area;Judging unit, for judging it is predetermined whether the operation meets
Condition;First operating unit is used for when the operation meets the first predetermined condition, the first corresponding relationship of acquisition, described first
Corresponding relationship is the corresponding relationship of operating parameter and adjustment parameter;Operating parameter and the first corresponding pass according to the operation
System, determines the first adjustment parameter;First adjustment parameter is responded, so that showing the first content in the display area
Second part, the first part and the second part are different;Second operating unit, for meeting second when the operation
When predetermined condition, the second corresponding relationship is obtained, second corresponding relationship is the corresponding relationship of operating parameter and adjustment parameter;According to
According to the operating parameter and second corresponding relationship of the operation, the second adjustment parameter is determined;Second adjustment parameter is responded,
So that showing the Part III of the first content in the display area, the first part and the Part III are not
Together, the second part is different with the Part III, and first predetermined condition is different with second predetermined condition, described
First adjustment parameter is different with second adjustment parameter.
The advantageous effects of the above technical solutions of the present invention are as follows: when first content shown in display area only its
A part and it is not all when, being no longer dependent on the included slider bar of first content realizes, but according to operating body in display unit
On slide change shown part, during this, operating body both can be after implementing operation, according to first
Corresponding relationship adjustment first content shows second part, can also be adjusted after implementing operation according to the second corresponding relationship
First content shows Part III, so then improves the usage experience of user, has tangible display any kind of
It is applicable on the electronic equipment of unit.
Detailed description of the invention
Fig. 1 shows the appearance diagrams of electronic equipment;
Fig. 2 indicates a kind of flow diagram of display methods;
Fig. 3 indicates the schematic diagram one that the Part III of first content is shown in display area;
Fig. 4 indicates the schematic diagram two that the Part III of first content is shown in display area;
Fig. 5 indicates the schematic diagram three that the Part III of first content is shown in display area;
Fig. 6 indicates the schematic diagram four that the Part III of first content is shown in display area;
Fig. 7 indicates that operating body controls the schematic diagram of the display of first content by slider bar;
Fig. 8 shows the structural schematic diagrams of electronic equipment.
Specific embodiment
To keep the technical problem to be solved in the present invention, technical solution and advantage clearer, below in conjunction with attached drawing and tool
Body embodiment is described in detail.
The embodiment of the present invention provides a kind of display methods, is applied to electronic equipment, as shown in Figure 1, the electronic equipment has
There is display unit, the display area of the display unit has first size in a first direction, which comprises
As shown in Fig. 2, method includes:
Step 201, when display unit shows first content, the operation of operating body is received, wherein the first content exists
There is the second size, second size is greater than the first size, shows institute in the display area on the first direction
State the first part of first content;
Step 202, judge whether the operation meets predetermined condition;
Step 203, when the operation meets the first predetermined condition, the first corresponding relationship, the described first corresponding pass are obtained
System is the corresponding relationship of operating parameter and adjustment parameter;According to the operating parameter and first corresponding relationship of the operation, really
Fixed first adjustment parameter;First adjustment parameter is responded, so that showing the of the first content in the display area
Two parts, the first part are different with the second part;
Step 204, when the operation meets the second predetermined condition, the second corresponding relationship, the described second corresponding pass are obtained
System is the corresponding relationship of operating parameter and adjustment parameter;According to the operating parameter and second corresponding relationship of the operation, really
Fixed second adjustment parameter;Second adjustment parameter is responded, so that showing the of the first content in the display area
Three parts, the first part is different with the Part III, and the second part is different with the Part III, and described first
Predetermined condition is different with second predetermined condition, and first adjustment parameter is different with second adjustment parameter.
Using provided technical solution, when the Just One Of Those Things part that first content is shown in display area is not all
When, it is no longer dependent on the included slider bar (List View) of first content and realizes, but on the display unit according to operating body
Slide changes shown part, and during this, operating body both can be corresponding according to first after implementing operation
Relationship adjustment first content shows second part, can also be after implementing operation, according to the second corresponding relationship adjustment first
Content shows Part III, so then improves the usage experience of user, has tangible display unit any kind of
Electronic equipment on be applicable in.
In a preferred embodiment, as shown in figure 3, the electronic equipment has the touch overlapped with display unit
Sensing unit;
The operation refers to the sliding of the operating body of the touch sensing unit detection;
The operating parameter includes: initial contact point, termination contact point, glide direction and sliding distance;Sliding distance is
The distance between the initial contact point and the termination contact point;Wherein, initial contact point and termination contact point are respectively positioned on touching
It touches on sensing unit;
The adjustment parameter includes: to adjust direction and adjustable range, and the direction that adjusts is the mobile direction of first content,
The adjustable range is the distance that first content moves in the adjustment directions.
Among these, initial contact point, termination contact point, glide direction and sliding distance are collectively referred to as sliding trace, in other words, sliding
Dynamic rail mark is a vector, and termination contact point is directed toward from initial contact point in direction, and the dotted line with arrow in figure connects from starting
Base position is directed toward in contact, and is directed toward the second boundary from boundary subpoint, illustrates correspondence (relationship) between the two.
In a preferred embodiment, as shown in figure 3, the operation for receiving operating body specifically includes:
Receive initial contact point, glide direction, sliding distance and the termination for operating and being formed on the display unit
Contact point;
The termination contact point includes: the location point that operating body leaves the touch sensing unit, and operating body is in the touching
Point the location of is touched when stopping mobile on sensing unit, alternatively, the operation that touch sensing unit timing detects
Location point of the body in the touch sensing unit.
In a preferred embodiment, first adjustment parameter is responded, so that in the display area described in display
The second part of first content includes:
In first corresponding relationship, linear ratio between sliding distance and adjustable range, the linear scale it is big
It is small to be determined by linear scale factor.
Linear scale factor is usually 1, that is, is the relationship of 1:1 between sliding distance and adjustable range, if sliding distance is
1cm, then adjustable range should also be as being 1cm, this more meets the use habit and feel of user.
In a preferred embodiment, second adjustment parameter is responded, so that in the display area described in display
The Part III of first content includes:
In second corresponding relationship, the initial contact point determines the base position of the first content, the end
Only contact point determines the target position of the first content, the adjustable range be the base position and the target position it
Between distance, the first content is moved through the adjustable range on the display unit, is currently displayed at the display
Part in region is as the Part III.
First content is a virtual two-dimensional surface, during specifically adjusting the different piece of first content, is
Description and convenience of calculation, are subject to the geometric center of various pieces-first part, second part and Part III, calculate it
Adjustable range.Therefore, adjustable range is actually in first content, in the geometric center of first part and the geometry of Part III
The distance of the heart, among these, base position are the geometric centers of first part, and target position is then the geometric center of Part III.
It in a preferred embodiment, will using the first one-way operation as shown in figure 3, in second corresponding relationship
The first content is moved through the adjustable range on the display unit;First one-way operation includes:
The boundary of the extended line of the glide direction and the touch sensing unit intersects at a boundary subpoint, described
Initial contact point and the boundary subpoint form an operation virtual route;
Determine that the base position is the first boundary of the first content, the boundary subpoint is corresponded to positioned at described
The second boundary of first border peer;A content mobile virtual road is formed between the base position and the second boundary
Diameter;
Movement of the target position on content mobile virtual path follows the termination contact point in the behaviour
Make the sliding on virtual route, and the target position two line segments S1 and S2 dividing content mobile virtual path
Ratio is identical as the ratio of two line segments L1 and L2 that the termination contact point divides the operation virtual route.
Wherein, the first boundary or the second boundary can be the top margin of first content, bottom end boundary, left border,
Right side boundary or each apex angle.Correspondence marked in figure refers to;Initial contact point correspond to base position (first content
First boundary), boundary subpoint corresponds to the second boundary positioned at the first border peer.Here ratio is identical refer to L1:L2=
S1:S2.In Fig. 3, target position and termination contact point are necessarily located in same horizontal line.
In embodiment, movement of the target position on content mobile virtual path follows termination contact point operating virtual road
Sliding on diameter, during this, it is clear that the length in content mobile virtual path is different from the length of operation virtual route
, in general, the length in content mobile virtual path is greater than the length of operation virtual route, for this purpose, being moved through in target position
Cheng Zhong may exist a proportionality coefficient k:
K=content mobile virtual path length/operation virtual route length;
When termination contact point slided distance m on operating virtual route, target position is in content mobile virtual path
Distance n=k*m of upper movement.
Again since the two is to start simultaneously at movement, and move simultaneously in place, therefore, and available conclusion: target position
The movement speed v2 set is k times of the movement speed v1 of termination contact point, that is, v2=k*v1.
In a preferred embodiment, as shown in figure 4, it is described in the second corresponding relationship:
It further include an intermediate turning point, the initial contact point between the initial contact point and the termination contact point
It is directed toward the direction of intermediate turning point, is directed toward the contrary of termination contact point with the intermediate turning point;
When the distance between the initial contact point currently formed and intermediate turning point, contacted equal to intermediate turning point with termination
When the distance between point, the first part of the first content should be shown in the display area again;
When the distance between the initial contact point currently formed and intermediate turning point, contacted greater than intermediate turning point with termination
When the distance between point, first corresponding relationship is switched to from second corresponding relationship.
In a preferred embodiment, as shown in figure 5, it is described in the second corresponding relationship, it will using the second one-way operation
The first content is moved through the adjustable range on the display unit, second one-way operation comprising steps of
The boundary of the extended line of the glide direction and the touch sensing unit intersects at a boundary subpoint, described
Initial contact point and the boundary subpoint form an operation virtual route;
The base position is in the first part of the first content, what the initial contact point was currently pointed at
Position;The boundary subpoint is corresponded to positioned at the third boundary of first border peer;The base position and described the
A content mobile virtual path is formed between three boundaries;
Movement of the target position on content mobile virtual path follows the termination contact point in the behaviour
Make the sliding on virtual route, and the target position two line segments S1 and S2 dividing content mobile virtual path
Ratio is identical as the ratio of two line segments L1 and L2 that the termination contact point divides the operation virtual route.
Wherein, the first boundary or third boundary can be the top margin of first content, bottom end boundary, left border,
Right side boundary or each apex angle.In Fig. 5, initial contact point and base position are located on identical horizontal line.Here ratio
It is identical to refer to L1:L2=S1:S2.
For convenience it will be appreciated by those skilled in the art that in an application scenarios, for operating address list, existing communication
Record is that user is assisted to find current desired contact method by Reference character A-Z, is provided using the embodiment of the present invention
Technical solution after, during searching contact method:
Operating body contacts touch sensing unit;When initial contact, operating body formed in the touch sensing unit it is double by
Force;, alternatively, the stress size of the touch sensing unit meets second pressure threshold value, alternatively, the touch sensing unit
Forced area meets second area threshold value;Form initial contact point;
In the second corresponding relationship, initial contact point determines the base position of first content, since first content is communication
Record, therefore, base position actually refers to the initial position of contact method corresponding to the alphabetical A of address list;
Operating body is slided in touch sensing unit, forms termination contact point in real time;During this, operation
Body can by any one of address list letter, for example, if it is slide downward, then successively have passed through letter b, C and
Other subsequent letters.It in a preferred embodiment, can be by constantly amplifying corresponding each word in display A-Z letter
Female mode assists user to find the contact method under current desired letter.
Termination contact point determines first content-address list target position, and without loss of generality, user finds under L letter
Contact method, then the target position that termination contact point is determined be address list L letter, the target position can be L letter
The enlightenment position of lower contact method, some specific position being also possible under L letter.
In this way, formed adjustable range be the distance between base position and target position, i.e., on address list, adjusting away from
From being the distance between alphabetical A and letter L;
First content is moved through the adjustable range on the display unit, is currently displayed in the display area
Part as the Part III, herein, Part III specifically refers to the contact method under alphabetical L, can be under alphabetical L
First contact method is also possible under alphabetical L several contact methods since first, in a preferred embodiment,
It can also be one under alphabetical L since some specific position or several contact methods.
Further, since the number of the lower documented contact method of each letter of A-Z in address list is not identical,
Each letter length occupied in address list is different, and by taking alphabetical O as an example, surname first letter is the more rare of O,
Therefore the length that the contact method under letter O occupies is very short, and similarly, zed, W or L etc. can occupy longer length.
For this purpose, in one embodiment, in the second corresponding relationship, each letter of setting A-Z is occupied in address list
Length be it is identical, simplify mapping relations from sliding distance to adjustable range.
Alternatively, contact method all under alphabetical A-Z is unfolded, the total length of each letter is calculated and cumulative as logical
Believe the length of record.In this way, also having no effect between initial contact point and base position and termination contact point and target position
Mapping relations.
In a preferred embodiment, as shown in fig. 6, further including between the initial contact point and the termination contact point
One intermediate turning point, the initial contact point are directed toward the direction of the intermediate turning point, are directed toward eventually with the intermediate turning point
Only contact point is contrary;
When the distance between the initial contact point currently formed and intermediate turning point, it is equal to intermediate turning point and terminates
When the distance between contact point, the first part of the first content should be shown in the display area again;
When the distance between the initial contact point currently formed and intermediate turning point, contacted greater than intermediate turning point with termination
When the distance between point, using the initial contact point as new initial contact point, the position that operating body reaches terminates contact as new
Point executes second one-way operation again.
In embodiment, new initial contact point and new termination contact point constitute operation virtual route, new initial contact point with
Base position should be located in same horizontal line.
In a preferred embodiment, the first corresponding relationship has recorded the linear scale between sliding distance and adjustable range
Mapping, linear scale mapping is stored in the electronic device, when the operation meets the first predetermined condition for calling;
Second corresponding relationship is the mapping of dynamic realtime, wherein the initial contact point, termination contact point, sliding away from
From being input quantity, adjustable range is then the output quantity of the dynamic realtime mapping.
Among these, the second corresponding relationship also follows a principle, that is, the glide direction of glide direction decision first content.
In display unit, when glide direction is towards the bottom end of display unit, emerging second content or third content are logical
It is often to be gradually appeared from the top of display unit.
It can be distinguished by different modes between first predetermined condition and the second predetermined condition.
In a preferred embodiment, the operating parameter further includes operating body shape in the touch sensing unit
At stress point, stress size and/or forced area;
The operation meets the first predetermined condition
The operating body forms single stress point in the touch sensing unit;
Alternatively, the stress size of the touch sensing unit meets first pressure threshold value;
Alternatively, the forced area of the touch sensing unit meets the first area threshold;
The operation meets the second predetermined condition
The operating body forms double stress points in the touch sensing unit;
Alternatively, the stress size of the touch sensing unit meets second pressure threshold value;
Alternatively, the forced area of the touch sensing unit meets second area threshold value.
Among these, the use habit that the user of the prior art was used for adaptation, usually limits in the first predetermined condition
The stress of touch sensing unit is determined from a finger, it is not intended that not allowing to limit touch sensible in the second predetermined condition
The stress of unit comes from a finger, in fact, using a finger as behaviour for the user that this technology is used for a long time
As body be completely can with, and the seamless connection between the prior art can be realized in use habit.
When stress point of the operating body in touch sensing unit is more than one, between the first stress point and the second stress point
Stress point distance should less than one stress point synthesize threshold value, in this way, on the limited display unit of size for first in
The operation of appearance is just of practical meaning.
In a preferred embodiment, the stress point when the operating body in touch sensing unit is two, and two
When stress point distance between stress point is less than stress point synthesis threshold value, an equivalent stress is synthesized by two stress points are equivalent
Point.
Based on difference existing between the first predetermined condition and the second predetermined condition, can see that
In a preferred embodiment, when electronic equipment is currently operating under the first corresponding relationship, if detecting operation
The operation of body meets the second predetermined condition, then is switched to the second corresponding relationship;
When electronic equipment is currently operating under the second corresponding relationship, if it is predetermined to detect that the operation of operating body meets first
Condition is then switched to the first corresponding relationship.
In a preferred embodiment, the position according to glide direction and sliding distance adjustment first content on the display unit
After setting further include: home position of the display first content on the display unit;And display restores first content to institute
State the recovery key in home position.
Different users is during using electronic equipment, due to the limitation of use habit either objective environment,
Mode of operation is also different, although should also be as allowing for example, some users habit by slide forms sliding trace
The diversification of mode of operation, in other words, user is also capable of forming sliding trace only by clicking operation, and the sliding trace is corresponding
Content mobile virtual path.
The sliding trace for obtaining operation includes: first for detecting the slide and pressing on the display unit
Point, using first point as initial contact point, using the point that the operation finish time presses on the display unit as
The termination contact point, the initial contact point and the termination contact point form sliding trace.
When pressing first point (initial contact point), corresponding progress sliding just will do it, and with sliding animation.Screen
On can show sliding before initial position, current operation body position and its between relationship.There can be one and be restored to sliding
The recovery key-of initial position before such as floating Button restores key and shows the several seconds after two fingers slide
Clock is simultaneously died away.
Following embodiment still embodies invention thought of the invention.
In a preferred embodiment, determine that (glide direction determines first content in glide direction according to sliding distance
Adjust direction) on adjustable range, specifically include: calculate between the boundary be directed toward to glide direction of initial contact point first away from
From,
According to the first ratio between the sliding distance and the first distance, determine the first content in the cunning
Adjustable range on dynamic direction.
In an application scenarios, as shown in fig. 7, the total length of slider bar is set as 100%, the cunning of upward boundary direction
Dynamic to be set as positive slide, slide downward again is set as reversible sliding action;Positive slide and again anti-
Realization mechanism to slide is different, comprising:
In positive slide, initial contact point is calculated to the first distance between coboundary, without loss of generality, is set
First distance corresponds to the 50% of slider bar,
According to the first ratio between sliding distance and first distance, for example, sliding distance is entire display unit top
Boundary to the 60% of lower boundary total length, first ratio=60%/50%=1.2 is greater than 1, then at this time should slide up first content
It moves until the position of its limit.
In an application scenarios, for convenience of it will be appreciated by those skilled in the art that as shown in fig. 7, introducing slider bar and control
The concept of item processed, first content are in a home position, and first content has a slider bar, without loss of generality, slider bar energy
The sliding of enough marks and control first content in the up and down direction of display unit, the total length of slider bar are set as 100%,
There are a control strips (Item) on slider bar, and the appearance of control strip is similar to a sliding fritter, and control strip is in slider bar
Specific location is determined by the relative position between first content and display unit.
It is operated using two fingers as operating body;Initial contact point corresponds to the position of slider bar the top 0%, starting
The boundary of straight line and touch sensing unit where contact point and termination contact point is met on the subpoint of boundary, in this way, starting connects
Contact and boundary subpoint constitute an operation virtual route, but the operation virtual route is not direct with first content generation pair
It should be related to, but there is corresponding relationship directly between slider bar, also, with direct right between slider bar and first content
It should be related to.
Two fingers slide the percentage that passed through sliding distance corresponds to slider bar, which is a percentage
Position, identifies the position of control strip on the slider bar, and percentage minimum 0% is up to 100%, wherein when control strip is in
When slider bar the top, 0% is corresponded to, when control strip is in slider bar the lowermost, corresponds to 100%.
If operating body slides into 60% position of operation virtual route, which is that termination contact point is being grasped
Make the position on virtual route, then control strip should also be as reaching 60% position of slider bar;Again since control strip identifies and controls
The position of first content on the display unit is made, therefore, first content will do it corresponding adjustment at this time, that is, first content
Position on the display unit is slided from home position, slides into 60% position that control strip is in slider bar always
It sets.
Further, it is contemplated that when user carries out slide on the display unit, if excessive touches display unit
Frame will cause it is inconvenient, it is therefore desirable on the display unit at the position of frame reserve blank area, the blank area
It does not support to carry out slide, i.e. in the corresponding percentage of the total length of display unit, close to 10% length of upper side frame, and
10% length close to lower frame is blank area, in this way, then in the corresponding percentage of the total length of display unit, 10%-90% pairs
Answer the 100% of slider bar.
In a preferred embodiment, determine the first content in glide direction (the sliding side according to sliding distance
To determine adjust direction) on adjustable range, specifically include:
It calculates in glide direction, the difference between the boundary of the first content and the boundary of the display unit, according to
The second ratio between the sliding distance and the difference, determine adjusting of the first content in the glide direction away from
From.
In an application scenarios, in reversible sliding action, between the boundary of first content and the boundary of display unit
Difference be 50%, that is, first content has half to be not explicitly shown in display unit.
Sliding distance is display unit coboundary to the 30% of lower boundary total length, second ratio=30%/50%=0.6, then
At this time should be by first content slide downward, 0.6 display of the first content that original is not shown is in display unit.
In a preferred embodiment, when the error between sliding trace and preset standard trajectory is less than a threshold value
When, it specifically includes: calculating the angle between sliding trace and the standard trajectory, which should less than one angle threshold
Value, the angle threshold value are preset.
In a preferred embodiment, the sliding trace of operation is obtained, further includes: obtain the operation corresponding first and slide
Dynamic speed, calculates the second sliding speed when the first content is slided according to first sliding speed.
In a preferred embodiment, the sliding trace of the operation is obtained further include: when detecting two fingers sliding, point
The initial contact point and termination contact point of the operation on the screen are not obtained, also, are separately connected the first contact
Point and termination contact point form the first sliding trace and the second sliding trace;
First sliding trace and the second sliding trace are subjected to vector superposed one synthesis sliding trace of formation, the conjunction
It is the sliding trace at sliding trace.
The embodiment of the present invention provides a kind of electronic equipment, as shown in Figure 8, comprising:
Display unit 801, the display area of the display unit have first size, the method packet in a first direction
It includes:
Touch sensing unit 802, for receiving the operation of operating body, wherein institute when display unit shows first content
Stating first content in said first direction has the second size, and second size is greater than the first size, the display
The first part of the first content is shown in region;
Judging unit 803, for judging whether the operation meets predetermined condition;
First operating unit 804, for obtaining the first corresponding relationship, institute when the operation meets the first predetermined condition
State the corresponding relationship that the first corresponding relationship is operating parameter and adjustment parameter;According to the operating parameter of the operation and described first
Corresponding relationship determines the first adjustment parameter;First adjustment parameter is responded, so that showing described in the display area
The second part of one content, the first part are different with the second part;
Second operating unit 805, for obtaining the second corresponding relationship, institute when the operation meets the second predetermined condition
State the corresponding relationship that the second corresponding relationship is operating parameter and adjustment parameter;According to the operating parameter of the operation and described second
Corresponding relationship determines the second adjustment parameter;Second adjustment parameter is responded, so that showing described in the display area
The Part III of one content, the first part is different with the Part III, and the second part and the Part III are not
Together, first predetermined condition is different with second predetermined condition, first adjustment parameter and second adjustment parameter
It is different.
In a preferred embodiment, as shown in figure 3, electronic equipment has the touch overlapped with display unit 801
Sensing unit 802;
The operation refers to the sliding for the operating body that the touch sensing unit 802 detects;
The operating parameter includes: initial contact point, termination contact point, glide direction and sliding distance;Sliding distance is
The distance between the initial contact point and the termination contact point;Wherein, initial contact point and termination contact point are respectively positioned on touching
It touches on sensing unit 802;
The adjustment parameter includes: to adjust direction and adjustable range, and the direction that adjusts is the mobile direction of first content,
The adjustable range is the distance that first content moves in the adjustment directions.
Among these, initial contact point, termination contact point, glide direction and sliding distance are collectively referred to as sliding trace, in other words, sliding
Dynamic rail mark is a vector, and termination contact point is directed toward from initial contact point in direction.
In a preferred embodiment, as shown in figure 3, the operation for receiving operating body specifically includes:
Receive initial contact point, glide direction, sliding distance and the end for operating and being formed on the display unit 801
Only contact point;
The termination contact point includes: the location point that operating body leaves touch sensing unit 802, and operating body is in the touch
Point the location of when stopping mobile on sensing unit 802, alternatively, the operation that 802 timing of touch sensing unit detects
Location point of the body in the touch sensing unit 802.
It is using the advantage after this programme: in the mistake for changing first content shown different piece on the display unit
Cheng Zhong is no longer dependent on the included slider bar of existing technology-such as first content to realize, but is being shown according to operating body
Operation on unit changes, and improves the usage experience of user, any kind of (tangible aobvious with touch sensing unit
Show unit) electronic equipment on be applicable in.
The above is a preferred embodiment of the present invention, it is noted that for those skilled in the art
For, without departing from the principles of the present invention, it can also make several improvements and retouch, these improvements and modifications
It should be regarded as protection scope of the present invention.
Claims (11)
1. a kind of display methods is applied to electronic equipment, which is characterized in that the electronic equipment has display unit, the electricity
Sub- equipment has the touch sensing unit overlapped with display unit, and the display area of the display unit is in a first direction
With first size, which comprises
When display unit shows first content, the operation of operating body is received, wherein the first content is in the first direction
Upper to have the second size, second size is greater than the first size, shows the first content in the display area
First part;
Judge whether the operation meets predetermined condition;
When the operation meets the first predetermined condition, the first corresponding relationship is obtained, first corresponding relationship is operating parameter
With the corresponding relationship of adjustment parameter;According to the operating parameter and first corresponding relationship of the operation, determine that the first adjusting is joined
Number;First adjustment parameter is responded, so that the second part of the first content is shown in the display area, described
It is a part of different with the second part;The operating parameter includes: initial contact point, termination contact point, glide direction and cunning
Dynamic distance;First one-way operation includes: the base position that the initial contact point determines the first content, the termination contact
Point determines the target position of the first content;
When the operation meets the second predetermined condition, the second corresponding relationship is obtained, second corresponding relationship is operating parameter
With the corresponding relationship of adjustment parameter;According to the operating parameter and second corresponding relationship of the operation, determine that the second adjusting is joined
Number;Second adjustment parameter is responded, so that the Part III of the first content is shown in the display area, described
A part of different with the Part III, the second part is different with the Part III, first predetermined condition and institute
The second predetermined condition difference is stated, first adjustment parameter is different with second adjustment parameter;
First corresponding relationship has recorded the mapping of the linear scale between sliding distance and adjustable range, linear scale mapping storage
In the electronic device, when the operation meets the first predetermined condition for calling;
Second corresponding relationship is a dynamic realtime mapping, wherein initial contact point, termination contact point, sliding distance are inputs
Amount, adjustable range are then the output quantities of the dynamic realtime mapping,
In the second corresponding relationship, the first content is moved through on the display unit using the first one-way operation described
The boundary of adjustable range, the extended line of the glide direction and the touch sensing unit intersects at a boundary subpoint, institute
State initial contact point and the boundary subpoint formation operation virtual route;Determine that the base position is the first content
First boundary, the boundary subpoint correspond to the second boundary positioned at first border peer;The base position and institute
State formation content mobile virtual path between the second boundary;Alternatively, using the second one-way operation by the first content described
The adjustable range is moved through on display unit, second one-way operation comprising steps of the extended line of the glide direction with
The boundary of the touch sensing unit intersects at a boundary subpoint, and the initial contact point is formed with the boundary subpoint
One operation virtual route;The base position is in the first part of the first content, and the initial contact point is worked as
Preceding pointed position;The boundary subpoint is corresponded to positioned at the third boundary of the first border peer;The base position with
A content mobile virtual path is formed between the third boundary;
Movement of the target position on content mobile virtual path follows the termination contact point empty in the operation
Sliding on quasi- path, and the ratio of two line segments that the target position divides content mobile virtual path, with institute
The ratio for stating two line segments that termination contact point divides the operation virtual route is identical.
2. overlapping the method according to claim 1, wherein the electronic equipment has with display unit
Touch sensing unit;
The operation refers to the sliding for the operating body that the touch sensing unit detects;
Sliding distance is the distance between the initial contact point and the termination contact point;Wherein, initial contact point and termination
Contact point is respectively positioned in touch sensing unit;
The adjustment parameter includes: to adjust direction and adjustable range, and the direction that adjusts is the mobile direction of first content, described
Adjustable range is the distance that first content moves on the adjusting direction.
3. method according to claim 1 or 2, which is characterized in that the operation for receiving operating body specifically includes:
Receive initial contact point, glide direction, sliding distance and termination contact that the operation is formed on the display unit
Point;
The termination contact point includes: the location point that operating body leaves touch sensing unit, and operating body is in the touch sensible list
Point the location of when stopping mobile in member, alternatively, the operating body that touch sensing unit timing detects is described
Location point in touch sensing unit.
4. according to the method described in claim 2, it is characterized in that, first adjustment parameter is responded, so that in the display
The second part for showing the first content in region includes:
In first corresponding relationship, linear ratio between the sliding distance and adjustable range, the linear scale it is big
It is small to be determined by linear scale factor.
5. according to the method described in claim 2, it is characterized in that, second adjustment parameter is responded, so that in the display
The Part III for showing the first content in region includes:
In second corresponding relationship, the initial contact point determines the base position of the first content, and the termination connects
Contact determines the target position of the first content, and the adjustable range is between the base position and the target position
The first content is moved through on the display unit adjustable range, is currently displayed at the display area by distance
In part as the Part III.
6. the method according to claim 1, wherein described in the second corresponding relationship:
It further include an intermediate turning point between the initial contact point and the termination contact point, the initial contact point is directed toward
The contrary of termination contact point is directed toward with the intermediate turning point in the direction of the intermediate turning point;
When the distance between the initial contact point that is currently formed and intermediate turning point, be equal to intermediate turning point and termination contact point it
Between apart from when, the first part of the first content should be shown in the display area again;
When the distance between the initial contact point that is currently formed and intermediate turning point, be greater than intermediate turning point and termination contact point it
Between apart from when, be switched to first corresponding relationship from second corresponding relationship.
7. the method according to claim 1, wherein described in the second corresponding relationship:
It further include an intermediate turning point between the initial contact point and the termination contact point, the initial contact point is directed toward
The contrary of termination contact point is directed toward with the intermediate turning point in the direction of the intermediate turning point;
When the distance between the initial contact point currently formed and intermediate turning point, contacted equal to intermediate turning point with termination
When the distance between point, the first part of the first content should be shown in the display area again;
When the distance between the initial contact point that is currently formed and intermediate turning point, be greater than intermediate turning point and termination contact point it
Between apart from when, using the initial contact point as new initial contact point, operating body reach position as new termination contact point, then
It is secondary to execute second one-way operation.
8. the method according to claim 1, wherein the operating parameter further includes that the operating body is touching sense
Answer the stress point formed on unit, stress size and/or forced area;
The operation meets the first predetermined condition
The operating body forms single stress point in the touch sensing unit;
Alternatively, the stress size of the touch sensing unit meets first pressure threshold value;
Alternatively, the forced area of the touch sensing unit meets the first area threshold;
The operation meets the second predetermined condition
The operating body forms double stress points in the touch sensing unit;
Alternatively, the stress size of the touch sensing unit meets second pressure threshold value;
Alternatively, the forced area of the touch sensing unit meets second area threshold value.
9. according to claim 1 or method described in 8, which is characterized in that
When electronic equipment is currently operating under first corresponding relationship, if detecting, the operation of operating body meets described second
Predetermined condition is then switched to second corresponding relationship;
When electronic equipment is currently operating under second corresponding relationship, if detecting, the operation of operating body meets described first
Predetermined condition is then switched to first corresponding relationship.
10. according to the method described in claim 8, it is characterized in that,
When stress point of the operating body in touch sensing unit is two, and the stress point between two stress points is apart from small
When stress point synthesizes threshold value, an equivalent stress point is synthesized by two stress points are equivalent.
11. a kind of electronic equipment characterized by comprising
The display area of display unit, the display unit has first size in a first direction;
Touch sensing unit, for receiving the operation of operating body, wherein described first when display unit shows first content
Content has the second size in said first direction, and second size is greater than the first size, in the display area
Show the first part of the first content;
Judging unit, for judging whether the operation meets predetermined condition;
First operating unit is used for when the operation meets the first predetermined condition, the first corresponding relationship of acquisition, described first pair
It should be related to the corresponding relationship for operating parameter and adjustment parameter;Operating parameter and the first corresponding pass according to the operation
System, determines the first adjustment parameter;First adjustment parameter is responded, so that showing the first content in the display area
Second part, the first part and the second part are different;The operating parameter include: initial contact point, terminate connect
Contact, glide direction and sliding distance;First one-way operation includes: the benchmark that the initial contact point determines the first content
Position, the termination contact point determine the target position of the first content;
Second operating unit is used for when the operation meets the second predetermined condition, the second corresponding relationship of acquisition, described second pair
It should be related to the corresponding relationship for operating parameter and adjustment parameter;Operating parameter and the second corresponding pass according to the operation
System, determines the second adjustment parameter;Second adjustment parameter is responded, so that showing the first content in the display area
Part III, the first part and the Part III are different, and the second part and the Part III are different, described
First predetermined condition is different with second predetermined condition, and first adjustment parameter is different with second adjustment parameter;
First corresponding relationship has recorded the mapping of the linear scale between sliding distance and adjustable range, linear scale mapping storage
In the electronic device, when the operation meets the first predetermined condition for calling;
Second corresponding relationship is a dynamic realtime mapping, wherein initial contact point, termination contact point, sliding distance are inputs
Amount, adjustable range are then the output quantities of the dynamic realtime mapping,
In the second corresponding relationship, the first content is moved through on the display unit using the first one-way operation described
The boundary of adjustable range, the extended line of the glide direction and the touch sensing unit intersects at a boundary subpoint, institute
State initial contact point and the boundary subpoint formation operation virtual route;Determine that the base position is the first content
First boundary, the boundary subpoint correspond to the second boundary positioned at first border peer;The base position and institute
State formation content mobile virtual path between the second boundary;Alternatively, using the second one-way operation by the first content described
The adjustable range is moved through on display unit, second one-way operation comprising steps of the extended line of the glide direction with
The boundary of the touch sensing unit intersects at a boundary subpoint, and the initial contact point is formed with the boundary subpoint
One operation virtual route;The base position is in the first part of the first content, and the initial contact point is worked as
Preceding pointed position;The boundary subpoint is corresponded to positioned at the third boundary of the first border peer;The base position with
A content mobile virtual path is formed between the third boundary;
Movement of the target position on content mobile virtual path follows the termination contact point empty in the operation
Sliding on quasi- path, and the ratio of two line segments that the target position divides content mobile virtual path, with institute
The ratio for stating two line segments that termination contact point divides the operation virtual route is identical.
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CN108491143B (en) * | 2018-03-23 | 2020-06-30 | 维沃移动通信有限公司 | Object movement control method and mobile terminal |
CN111381746B (en) * | 2018-12-27 | 2021-07-23 | 北京小米移动软件有限公司 | Parameter adjusting method, device and storage medium |
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