CN104751765B - A kind of display control method and electronic equipment - Google Patents

A kind of display control method and electronic equipment Download PDF

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Publication number
CN104751765B
CN104751765B CN201510103691.2A CN201510103691A CN104751765B CN 104751765 B CN104751765 B CN 104751765B CN 201510103691 A CN201510103691 A CN 201510103691A CN 104751765 B CN104751765 B CN 104751765B
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China
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image
display
values
deformation parameter
deformation
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CN201510103691.2A
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Chinese (zh)
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CN104751765A (en
Inventor
陈臣
宋厚开
孙国勇
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联想(北京)有限公司
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Abstract

The invention discloses a kind of display control method and electronic equipment, this method is applied in an electronic equipment, which has included at least a flexible display screen, and this method includes:When Flexible Displays screen display first shows content, detect the deformation parameter of flexible display screen, according to corresponding first display parameters of deformation parameter, first display content of Flexible Displays screen display is shown that the deformation parameter characterizes deformed state of the flexible display screen by flexible display screen when outer force effect with the first display parameters.That is, in embodiments of the present invention, the content of Flexible Displays screen display can change with the deformation of flexible display screen, so that user can show content by the deformation of flexible display screen come adjustment at any time, the diversified display effect of flexible display screen is not only improved in this way, the operation of user is facilitated, and also improves the usage experience of user.

Description

A kind of display control method and electronic equipment

Technical field

This application involves electronic technology field more particularly to a kind of display control methods and electronic equipment.

Background technology

With the development of electronic technology, the application of the electronic equipment of current portable is also more and more extensive, such as flexible Display screen is gradually exploited, and is applied in portable electronic equipment, but is installed on current electronic equipment flexible aobvious Display screen is only to show, and the content of Flexible Displays screen display is relatively fixed, to cause flexible display screen Display mode it is single.

Invention content

An embodiment of the present invention provides a kind of display control method, using solving on electronic equipment current in the prior art Installation flexible display screen is only to show, and the content of Flexible Displays screen display is relatively fixed, to cause The single problem of the display mode of flexible display screen.

A kind of display control method is applied to an electronic equipment, and the electronic equipment includes a flexible display screen, including:

When the Flexible Displays screen display first shows content, the deformation parameter of the flexible display screen, institute are detected State the deformation degree of flexible display screen when deformation parameter characterizes the flexible display screen by outer force effect;

It, will be in the first display of the Flexible Displays screen display according to corresponding first display parameters of the deformation parameter Appearance is shown with first display parameters.

Optionally, the deformation parameter of the flexible display screen is detected, specially:

By the sensor in the electronic equipment, the crooked radian of the flexible display screen is obtained, and by the bending Radian is as the deformation parameter.

Optionally, according to corresponding first display parameters of the deformation parameter, by the of the Flexible Displays screen display One shows that content is shown with first display parameters, including:

Image procossing is carried out respectively to the every tomographic image being superimposed by N tomographic images in the formed first display content, obtains figure As treated N tomographic images, wherein N is the positive integer more than or equal to 2;

Obtained N tomographic images are overlapped, obtain the first display content with the first display parameters, and show have First display content of the first display parameters.

Optionally, it shows that every tomographic image in content carries out image procossing respectively to be laminated plus formed by N first, obtains Treated N tomographic images, including:

According to the first pre-set image processing mode, the first tomographic image in N tomographic images is handled;

According to the second pre-set image processing mode, the second tomographic image in N tomographic images is handled, until according to N Pre-set image processing mode handles the n-th layer image in N tomographic images, the N tomographic images that obtain that treated;

Optionally, according to the first pre-set image processing mode, image procossing is carried out to the first tomographic image in N tomographic images, Including:

According to the correspondence between deformation parameter and Gaussian Blur step values, the deformation parameter pair that confirmly detects The first adjustment step values answered;

According to the first adjustment step values, reduce stepwise in first tomographic image Gaussian Blur value of image and/or The display parameters for adjusting described image stepwise, obtain background image layer to be shown, wherein image in background image layer it is clear Clear degree is less than the clarity of the image in first tomographic image;

It is described that the second tomographic image in N tomographic images is handled according to the second pre-set image processing mode, including:

According to the correspondence between the deformation parameter to prestore and Gaussian Blur step values, the deformation that confirmly detects The corresponding second adjustment step values of parameter;

According to the second adjustment step values, promoted stepwise in second tomographic image Gaussian Blur value of image and/or The display parameters for adjusting described image stepwise, obtain icon image layer to be shown, wherein image in icon image layer it is clear Degree is more than the clarity of the image in second image layer.

Optionally, it according to the correspondence between the deformation parameter to prestore and Gaussian Blur step values, confirmly detects The corresponding the first adjustment step values of the deformation parameter, including:

When the deformation parameter, which is more than or equal to the first predetermined threshold value, is less than the second predetermined threshold value, it is determined that the deformation ginseng Corresponding first step values of number, and using first step values as the first adjustment step values;

When the deformation parameter is more than second predetermined threshold value, it is determined that corresponding second ladder of the deformation parameter Value, and using second step values as the first adjustment step values, wherein first step values are less than the second-order Ladder value.

Optionally, according to corresponding first display parameters of the deformation parameter, by the of the Flexible Displays screen display The current display parameters of one display content are adjusted to first display parameters, including:

If the first display content is the first display image, determine that the first focus is sat in the first display image Mark;

According to the deformation parameter, determine that characterizes a flexible display screen deformation position on the flexible display screen Position coordinates, and using the position coordinates as the second focal coordinates of the first display image;

Show that the focus of image is adjusted to second focal coordinates from first focal coordinates by described first.

Optionally, according to the deformation parameter, a coordinate position is determined on the flexible display screen, and will be described Second focal coordinates of the coordinate position as the first display image, including:

If it is described first display image be 3-D view, determine it is described first display image current focus coordinate and Current focus depth, wherein the depth of focus characterizes the image layer where focus;

According to detecting the deformation values for characterizing deformation degree in the deformation parameter and characterize first of deformation position Set coordinate;

According to the correspondence between the deformation values and the depth of focus, determine that corresponding first focus of the deformation values is deep Degree;

Using the first position coordinate and first depth of focus as the second focal coordinates of the first display image;

It is described to show that the focus of image is adjusted to second focal coordinates from first focal coordinates by described first, Specially:

It shows that the current focus Coordinate Adjusting of image is the first position coordinate by described first, and described first is shown The current focus depth of diagram picture is adjusted to first depth of focus.

A kind of electronic equipment, including:

Flexible display screen, for showing the first display content;

Sensor, for when the Flexible Displays screen display first shows content, detecting the flexible display screen Deformation parameter, the deformation journey of deformation parameter flexible display screen when characterizing the flexible display screen by outer force effect Degree;

Processor is used for according to corresponding first display parameters of the deformation parameter, by the Flexible Displays screen display First display content shown with first display parameters.

Optionally, the sensor, is specifically used for obtaining the crooked radian of the flexible display screen, and by the arc of curvature Degree is used as the deformation parameter.

Optionally, the processor, specifically for every layer of figure to being superimposed by N tomographic images in the formed first display content As carrying out image procossing respectively, the N tomographic images after image procossing are obtained;Obtained N tomographic images are overlapped, obtain having the One display parameters first display content, and show with the first display parameters first display content, wherein N be more than etc. In 2 positive integer.

Optionally, the processor is specifically used for according to the first pre-set image processing mode, to first in N tomographic images Tomographic image is handled;According to the second pre-set image processing mode, the second tomographic image in N tomographic images is handled, until According to N pre-set image processing modes, the n-th layer image in N tomographic images is handled, the N tomographic images that obtain that treated;Its In, it is lasting that image procossing is carried out respectively to the N tomographic images when the deformation parameter is persistently more than the first predetermined threshold value.

Optionally, the processor is specifically used for according to the correspondence between deformation parameter and Gaussian Blur step values, The corresponding the first adjustment step values of the deformation parameter confirmly detected;According to the first adjustment step values, reduce stepwise In first tomographic image Gaussian Blur value of image and/or stepwise adjust described image display parameters, obtain to be shown Background image layer, wherein the clarity of the image in background image layer is less than the clarity of the image in first tomographic image; According to the correspondence between the deformation parameter to prestore and Gaussian Blur step values, the deformation parameter confirmly detected corresponds to Second adjustment step values;According to the second adjustment step values, the Gaussian mode of image in second tomographic image is promoted stepwise Paste value and/or the display parameters for adjusting described image stepwise, obtain icon image layer to be shown, wherein in icon image layer The clarity of image is more than the clarity of the image in second image layer.

Optionally, the processor, if showing that content is the first display image specifically for described first, described first The first focal coordinates are determined in display image;According to the deformation parameter, a table is determined on the flexible display screen The position coordinates of flexible display screen deformation position are levied, and using the position coordinates as the second focus of the first display image Coordinate;Show that the focus of image is adjusted to second focal coordinates from first focal coordinates by described first.

Optionally, if the processor determines described first show that image is 3-D view specifically for described first Show the current focus coordinate and current focus depth of image, wherein the depth of focus characterizes the image where focus Layer;According to the first position seat for detecting the deformation values for characterizing deformation degree in the deformation parameter and characterizing deformation position Mark;According to the correspondence between the deformation values and the depth of focus, corresponding first depth of focus of the deformation values is determined;It will The second focal coordinates of the first position coordinate and first depth of focus as the first display image;By described first It shows that the current focus Coordinate Adjusting of image is the first position coordinate, and shows that the current focus of image is deep by described first Degree is adjusted to first depth of focus.

Present invention implementation provides a kind of display control method, and this method is applied in an electronic equipment, the electronic equipment A flexible display screen is included at least, this method includes:When Flexible Displays screen display first shows content, detect flexible aobvious The deformation parameter of display screen will be in the first display of Flexible Displays screen display according to corresponding first display parameters of deformation parameter Appearance is shown that the deformation parameter characterizes flexible display screen by flexible display screen when outer force effect with the first display parameters Deformed state.That is, in embodiments of the present invention, the content of Flexible Displays screen display can be with the shape of flexible display screen Become to change, so that user can show content by the deformation of flexible display screen come adjustment at any time, so not The diversified display effect for only improving flexible display screen, facilitates the operation of user, and also improves the use body of user It tests.

It can be by shirtsleeve operation so that flexible aobvious when flexible display screen shows 3-D view by above-mentioned method Display screen changes shape, then passes through the focus of the 3-D view of the change control Flexible Displays screen display of flexible display screen shape Position and the depth of focus not only make the focal position adjustment of 3-D view more accurate, and can make coke in this way The adjustment of point position is more efficient and convenient, display effect of the flexible display screen to 3-D view is improved, to improve electricity The practicability of sub- equipment.

Description of the drawings

Fig. 1 is a kind of flow chart of display control method in the embodiment of the present invention;

Fig. 2 is the schematic diagram of each tomographic image of the first display content in the embodiment of the present invention;

Fig. 3 is the schematic diagram for including multiple user's head portraits in picture in the embodiment of the present invention;

Fig. 4 is the structural schematic diagram of a kind of electronic equipment in the embodiment of the present invention.

Specific implementation mode

Present invention implementation provides a kind of display control method, and this method is applied in an electronic equipment, the electronic equipment A flexible display screen is included at least, this method includes:When Flexible Displays screen display first shows content, detect flexible aobvious The deformation parameter of display screen will be in the first display of Flexible Displays screen display according to corresponding first display parameters of deformation parameter Appearance is shown that the deformation parameter characterizes flexible display screen by flexible display screen when outer force effect with the first display parameters Deformed state.That is, in embodiments of the present invention, the content of Flexible Displays screen display can be with the shape of flexible display screen Become to change, so that user can show content by the deformation of flexible display screen come adjustment at any time, so not The diversified display effect for only improving flexible display screen, facilitates the operation of user, and also improves the use body of user It tests.

Technical solution of the present invention is described further below by attached drawing and specific embodiment, it should be understood that this Particular technique feature in inventive embodiments and embodiment is the explanation to technical solution of the present invention, rather than is limited, In the case of not conflicting, the particular technique feature in the embodiment of the present invention and embodiment can be combined with each other.

The display control method provided in the embodiment of the present invention is applied in an electronic equipment, which includes one soft Property display screen, be as shown in Figure 1 a kind of flow chart of display control method in the embodiment of the present invention, this method includes:

S101 detects the deformation parameter of flexible display screen when Flexible Displays screen display first shows content;

S102 shows content according to corresponding first display parameters of deformation parameter by the first of Flexible Displays screen display It is shown with the first display parameters.

For first, flexible display screen is mounted on the electronic equipment, and entire electronic equipment can deform upon.When So, can also be flexible display screen on the electronic equipment independently of the electronic equipment, that is, the flexibility on the electronic equipment Display screen can be deformed upon individually.

In embodiments of the present invention, a sensor can be set on the electronic equipment, the sensor can be gyroscope or Person is the sensor that other can detect flexible display screen deformation, and the bending of flexible display screen can be got by the sensor Radian.The crooked radian is just as the deformation parameter detected.

Certainly, in embodiments of the present invention, in addition to can be used as by the crooked radian of flexible display screen deformation parameter it Outside, it can also be the other parameters of flexible display screen, such as the pressure for drawing high degree or each position of each position Parameter etc..As long as the deformation parameter that can characterize flexible display screen all can serve as the deformation parameter of flexible display screen.

After electronic equipment detects the deformation of flexible display screen, which will determine according to deformation parameter Then corresponding first display parameters of the deformation parameter are joined the first display content of Flexible Displays screen display with the first display Number is shown.

Specifically, in embodiments of the present invention, it saves the deformation parameter of flexible display screen in the electronic equipment and shows Show the correspondence between parameter, such as the first crooked radian of flexible display screen corresponds to the first display parameters, the second bending Radian corresponds to the second display parameters, third crooked radian corresponds to third display parameters, certainly each curved in embodiments of the present invention Difference between bent radian is smaller, and when flexible display screen can thus be made smaller deformation occur, the electronic equipment is still The corresponding display parameters of the deformation parameter can be determined, to timely be adjusted to the display content on flexible display screen It is whole.If when the lasting change of the deformation parameter of the flexible display screen on certain electronic equipment, then the electronic equipment also will be right Display content on flexible display screen carries out lasting adjustment.

Further, it will be shown on flexible display screen according to corresponding first display parameters of deformation parameter in the embodiment of the present invention The the first display content shown is shown with the first display parameters, can specifically be realized in the following way:

Image procossing is carried out respectively to the every tomographic image being superimposed by N tomographic images in the formed first display content, obtains figure As treated N tomographic images, obtained N tomographic images are overlapped, obtain the first display content with the first display parameters, And show the first display content with the first display parameters.

Specifically, in embodiments of the present invention, the first display content of the Flexible Displays screen display of the electronic equipment Can be superimposed to be formed by N tomographic images, as shown in Fig. 2, in fig. 2, which can be divided into 3 images, by this A 3 images can be superimposed to form the first display content.Therefore the deformation parameter of flexible display screen is detected in electronic equipment Later, which will be handled for each tomographic image of the first display content.

That is, the electronic equipment will be according to the first pre-set image processing mode, to the first tomographic image in N tomographic images It is handled, the first pre-set image processing mode here can be the adjustment of brightness of image, or to picture contrast Adjustment, or the adjustment etc. to image definition can determine in embodiments of the present invention according to actual applicable cases Image procossing mode.

Certainly, for the second tomographic image, then the second tomographic image can be carried out according to the second pre-set image processing mode Processing, the second default processing mode here can be the adjustment of brightness of image, or the adjustment to picture contrast, or It is the adjustment etc. to image definition.

In a manner mentioned above, each tomographic image is handled according to respective pre-set image processing mode successively, until According to N pre-set image processing modes, image is carried out to the n-th layer image in N tomographic images, the N tomographic images that obtain that treated.

In other words, which can be directed to each tomographic image and use corresponding image procossing mode, in this way may be used Accurately to carry out image procossing to each layer of image, to ensure that the image being finally synthesizing can reach final needs Display effect.Certainly, in embodiments of the present invention, the either whole image procossing mode in part can be identical, Exactly in order to ensure last display effect, the image procossing mode of each tomographic image can be essentially identical.

Further, if the lasting deformation parameter detected on flexible display screen of the electronic equipment, that is, electronics are set Standby upper flexible display screen it is lasting when deforming upon, which carries out image procossing respectively by lasting to N tomographic images. Briefly, as long as flexible display screen is lasting deforms upon, then the electronic equipment will show first on flexible display screen Show that content carries out lasting adjustment.Here adjustment can be the adjustment of brightness, the adjustment of contrast, adjustment of clarity etc..

Further, in embodiments of the present invention, in order to enable the display icon on flexible display screen has the 3D of protrusion screen Effect, and but also being arrived by user's touch-control of being more prone to of the icon on flexible display screen, therefore, in the embodiment of the present invention In, it can realize that the Deep Canvas to image, concrete mode are as follows by carrying out the adjustment of Gaussian Blur to image:

According to the correspondence between deformation parameter and Gaussian Blur step values, the deformation parameter confirmly detected is corresponding The first adjustment step values, that is to say, that corresponding there are one between the bending degree of flexible display screen and Gaussian Blur step values Relationship, such as, when flexible display screen bending degree is relatively low, then Gaussian Blur step values can be 10, work as flexible display screen When bending degree is higher, then Gaussian Blur step values can be 20, herein an only citing, the bending degree of flexible display screen Correspondence between Gaussian Blur step values can be adjusted according to actual application scenarios.

Specifically, in embodiments of the present invention, the first tomographic image is carried out according to the first pre-set image processing mode Processing can be reduced the Gaussian Blur value of image in the first tomographic image stepwise according to the first adjustment step values and/or adjust stepwise The display parameters of whole image obtain background image layer to be shown;

According to the second pre-set image processing mode, carrying out processing to the second tomographic image in N tomographic images may include:According to Correspondence between the deformation parameter to prestore and Gaussian Blur step values, the deformation parameter corresponding second confirmly detected are adjusted Whole step values promote the Gaussian Blur value of image in the second tomographic image and/or adjust stepwise stepwise according to second adjustment step values The display parameters of image obtain icon image layer to be shown, wherein the clarity of the image in icon image layer is more than the second figure As the clarity of the image in layer.

Such as the content of the Flexible Displays screen display of the electronic equipment is desktop background and each application program Icon, the first tomographic image are the desktop background on flexible display screen, and the second tomographic image is the icon of application program, the Three tomographic images are partial task column.When the flexible display screen of the electronic equipment is extruded, and flexible display screen center concaves When falling into, then the electronic equipment will determine a Gaussian Blur step values according to the bending degree of flexible display screen, then stepwise The Gaussian Blur value of the second tomographic image is promoted, that is, increases the Gaussian Blur value of icon so that on the flexible display screen The icon of display is far from flexible display screen, to realize a kind of visual effect of 3D to the visual experience of user.

It certainly,, can be with when promoting the Gaussian Blur value of the second tomographic image in order to further increase 3D imaging effects It determines another Gaussian Blur step values, is then based on another Gaussian Blur step values determined, reduction by first stepwise The Gaussian Blur value of tomographic image, that is, the clarity of desktop background is promoted, it can make desktop background and function image in this way There is visual separation, so as to which the visual effect of 3D is presented to user.

Further, in embodiments of the present invention, for the separation between further enhanced feature icon and desktop background Effect, other than carrying out the adjustment of Gaussian Blur value to icon and desktop background, can also to icon and Desktop background carries out the adjustment of size dimension, such as, user is in a manner mentioned above come when squeezing flexible display screen, the electronics Equipment will stepwise reduce icon, when icon reduces, the electronic equipment also by part amplification desktop background, The local desktop background that the larger position of flexible display screen deformation can namely be amplified, can make desktop background and work(in this way Can be more obvious between icon detach, to which visual 3D effect is more apparent.

It certainly, can be with other than adjustment desktop background and the Gaussian Blur value and picture size of icon The contrast for adjusting icon and desktop background is equivalent, in this way can further enhanced feature icon and desktop background it Between visible sensation distance, to further promoted flexible display screen 3D present effect.

Further, in embodiments of the present invention, when flexible display screen is constantly in the above-mentioned state being extruded, the electronics Equipment by lasting the first tomographic image of adjustment and the second tomographic image, that is, lasting adjustment icon Gaussian Blur value And picture size, the also Gaussian Blur value and picture size of lasting adjustment desktop background certainly.

Certainly, above-mentioned situation is the case where flexible display screen center illustrated is recessed inwardly, if the flexibility When display screen center outwardly protrudes, then the processing mode of first tomographic image of electronic equipment pair and the second tomographic image with it is upper The mode stated on the contrary, such as, the first tomographic image remains as desktop background, and the second tomographic image remains as icon, if flexible When display screen center outwardly protrudes, the electronic equipment by stepwise reduction icon Gaussian Blur value so that Icon is more clear in Flexible Displays screen display.To also the Gaussian Blur value of desktop background be adjusted at this time, that is, carried The Gaussian Blur value of desktop background is risen, so that fuzzy effect occurs in desktop background, so that background desktop and function There is more apparent separating effect in icon.Briefly, the effect that flexible display screen is presented is the icon protrusion desktop back of the body Scape, so that the display effect of icon is more clear, and is checked and touch-control arrives but also user can be more convenient Icon.

Certainly, can also include that other effects of flexible display screen after is has been compressed are presented in embodiments of the present invention, Such as after the edge of flexible display screen is extruded, which will adjust the display location of icon so that function Icon is shown far from the edge being extruded;When the center of flexible display screen is extruded, icon is past far from center Edge is close to display modes such as displays.Different display effects may be implemented in this way.And different sides can be provided the user with Formula controls the display content on flexible display screen.

Further, in embodiments of the present invention, in order to ensure that different deformation parameters corresponds to out different adjustment step values, Therefore when deformation parameter is more than or equal to the first predetermined threshold value and is less than or equal to the second predetermined threshold value, which determines deformation Parameter corresponds to the first step values, and using the first step values as the first adjustment step values, that is to say, that when the shape of flexible display screen When VARIABLE PARAMETER PID CONTROL is within the scope of one, then a relatively stable adjustment step values can be determined.

Certainly, if deformation parameter is more than the second predetermined threshold value, it is determined that corresponding second step values of deformation parameter, and Using the second step values as the first adjustment step values, wherein the first step values are less than the second step values.That is, working as deformation Parameter is more than after threshold value, which will determine another step values, can make in this way electronic equipment according to Flexible display screen different deformation situation determines step values, such as, when the deformation of flexible display screen is smaller, it is determined that go out First step values are as the first adjustment step values, if the deformation of flexible display screen is larger, it is determined that go out the second step values work For the first adjustment step values.Briefly, be exactly flexible display screen deformation it is bigger, then the content of Flexible Displays screen display It is adjusted so as to faster.The deformation of flexible display screen is smaller, then the content of Flexible Displays screen display is also adjusted so as to slower.Thus give User provides diversified selection, to provide a variety of different Adjusted Options so that Flexible Displays screen display content Display effect is more diversified.

Optionally, in embodiments of the present invention, in addition to can by detect flexible display screen deformation parameter it is soft to adjust Property display screen on display content except, display content can also be adjusted by detecting the deformation parameter on flexible display screen Focus specifically includes:

If the first display content of Flexible Displays screen display is the first display image, the electronic equipment is first first The first focal coordinates are determined in display image, according to deformation parameter, determine that a characterization is flexible aobvious on flexible display screen The position coordinates of display screen deformation position, and using the position coordinates as the second focal coordinates of the first display image, first is shown The focus of diagram picture is adjusted to the second focal coordinates from the first focal coordinates.

Such as when showing the picture comprising multiple portraits on flexible display screen, as shown in figure 3, in figure 3, it should It is shown on flexible display screen comprising four first, second, third, fourth facial images, if the focal position of picture shown in Fig. 3 is in first On the face.If user squeezes the flexible display screen, which will gradually change the focus position of picture shown in Fig. 3 It sets.There are two types of modes herein to adjust the focal position of picture:

Mode one:The electronic equipment can gradual moving focal point position, the direction of moving focal point can be in picture It is determined according to the pressure size of Flexible Displays platen edge, such as, the pressure of flexible display screen left hand edge is more than right hand edge When pressure, then electronic equipment is gradual toward left side movement on picture by focus, and certainly, movement herein can be horizontally oriented On linear movement.When the flexible display screen of electronic equipment detects edge no pressure, then the electronic equipment will stop focus Movement, to which current position is determined as the second focal coordinates, to the picture focus just from the first focus left side It is adjusted to the second focal coordinates.

Optionally, during focus moves, if detect that the electronic equipment deflects, which sets The standby moving direction that will also deflect focus, such as focus is in the process of moving, which sends out to a direction When raw deflection, then the moving direction of the focus is also with change moving direction, such as one end of mobile phone upward deflects, then focus Moving direction also upward deflects, if when a little deflecting down of mobile phone, then focus moving direction also deflects down, such user The moving direction of control focus that can be at any time, to ensure that the second focal coordinates are the focal coordinates of user demand.

Mode two:The electronic equipment automatically will identify a focal coordinates, and by re-recognize out focus Coordinate as the second focal coordinates, such as, four first, second, third, fourth facial images, the coke in initial picture are contained in Fig. 3 Point position in first, if the edge of the flexible display screen of the electronic equipment deforms upon, the electronic equipment will automatically by Focal coordinates are adjusted from first in the second adjacent with first, if the flexible display screen no longer detects deformation parameter at this time, then should Electronic equipment is just using focal coordinates at this time as the second focal coordinates.Certainly, it is detected on flexible display screen if being to continue with When deformation parameter, which will continue to adjust the focal coordinates on picture, such as continue focal coordinates being adjusted to third On, and in this manner, until no longer detecting that deformation parameter, this mode can be more convenient and straight on flexible display screen What is connect determines a focal coordinates, and to facilitate the operation of user, and the focal coordinates determined are also more accurate.

Above-mentioned two ways can be as the mode of adjustment picture focal coordinates, except of course that above-mentioned two ways Except, there can also be other modes to trigger the change of focal coordinates, herein just no longer being illustrated one by one.

Further, what above-mentioned mode was directed to can be two-dimensional picture.If can show three on the flexible display screen When tieing up picture, the mode which adjusts the focal coordinates of tri-dimensional picture is as follows:

When the first display image of Flexible Displays screen display is 3-D view, the current coke of the first display image is determined Point coordinates and current focus depth, according to the deformation values and characterization deformation for characterizing deformation degree in the deformation parameter detected The first position coordinate of position determines deformation according to the correspondence between the deformation values and the depth of focus in deformation parameter It is worth corresponding first depth of focus, the second coke according to first position coordinate and first depth of focus as the first display image Point coordinates, the current focus Coordinate Adjusting by the first display image is first position coordinate, and shows the current of image by first The depth of focus is adjusted to first depth of focus.

Specifically, in 3-D view, the focus of image is other than the coordinate position in level, also depth direction On depth value, therefore, which determines the current focus coordinate of the first display image in the horizontal plane first, and Current focus depth on depth direction.When flexible display screen deforms upon, and the center of flexible display screen is recessed inwardly, Then the center of flexible display screen is determined as the first focal coordinates by the electronic equipment.And due to the flexible display screen be by Center is recessed inwardly, then the electronic equipment promotes the depth of focus, i.e., improves first depth of focus, focus by current focus depth The corresponding display effect of promotion of depth is display bottom of the focus closer to flexible display screen.

Certainly, if flexible display screen is extruded, and when center outwardly protrudes, then the electronic equipment is by flexible display screen Center be determined as the first focal coordinates.And since the flexible display screen is outwardly protruded by center, then the electronics is set It makes preparation for dropping the low depth of focus, i.e., first depth of focus, the corresponding display effect of reduction of the depth of focus is reduced to by current focus depth Fruit is display surface of the focus closer to flexible display screen.

After determining first position coordinate and first depth of focus, the electronic equipment is by first position coordinate and The focus of first display image is finally adjusted to the second coke by one depth of focus as the second focal coordinates from the first focal coordinates Point coordinates, i.e.,:Current focus Coordinate Adjusting by the first display image is first position coordinate, and working as the first display image Front focus depth adjusts first depth of focus.

It can be by shirtsleeve operation so that flexible aobvious when flexible display screen shows 3-D view by above-mentioned method Display screen changes shape, then passes through the focus of the 3-D view of the change control Flexible Displays screen display of flexible display screen shape Position and the depth of focus not only make the focal position adjustment of 3-D view more accurate, and can make coke in this way The adjustment of point position is more efficient and convenient, display effect of the flexible display screen to 3-D view is improved, to improve electricity The practicability of sub- equipment.

A kind of display control method in the corresponding embodiment of the present invention, the embodiment of the present invention additionally provide a kind of electronic equipment, It is illustrated in figure 4 the structural schematic diagram of a kind of electronic equipment in the embodiment of the present invention, which includes:

Flexible display screen 401, for showing the first display content;

Sensor 402, in the first display content of display on the flexible display screen 401, detecting described flexible aobvious The deformation parameter of display screen 401, the deformation parameter are described flexible aobvious when characterizing the flexible display screen 401 by outer force effect The deformation degree of display screen 401;

Processor 403 is used for according to corresponding first display parameters of the deformation parameter, by the flexible display screen 401 First display content of upper display is shown with first display parameters.

Optionally, sensor 402, are specifically used for obtaining the crooked radian of the flexible display screen 401, and by the bending Radian is as the deformation parameter.

Optionally, processor 403, specifically for every layer of figure to being superimposed by N tomographic images in the formed first display content As carrying out image procossing respectively, the N tomographic images after image procossing are obtained;Obtained N tomographic images are overlapped, obtain having the One display parameters first display content, and show with the first display parameters first display content, wherein N be more than etc. In 2 positive integer.

Optionally, processor 403 are specifically used for according to the first pre-set image processing mode, to the first layer in N tomographic images Image is handled;According to the second pre-set image processing mode, the second tomographic image in N tomographic images is handled, until pressing According to N pre-set image processing modes, the n-th layer image in N tomographic images is handled, the N tomographic images that obtain that treated;Its In, it is lasting that image procossing is carried out respectively to the N tomographic images when the deformation parameter is persistently more than the first predetermined threshold value.

Optionally, processor 403 are specifically used for according to the correspondence between deformation parameter and Gaussian Blur step values, The corresponding the first adjustment step values of the deformation parameter confirmly detected;According to the first adjustment step values, reduce stepwise In first tomographic image Gaussian Blur value of image and/or stepwise adjust described image display parameters, obtain to be shown Background image layer, wherein the clarity of the image in background image layer is less than the clarity of the image in first tomographic image; According to the correspondence between the deformation parameter to prestore and Gaussian Blur step values, the deformation parameter confirmly detected corresponds to Second adjustment step values;According to the second adjustment step values, the Gaussian mode of image in second tomographic image is promoted stepwise Paste value and/or the display parameters for adjusting described image stepwise, obtain icon image layer to be shown, wherein in icon image layer The clarity of image is more than the clarity of the image in second image layer.

Optionally, processor 403, if showing that content is the first display image specifically for described first, described first The first focal coordinates are determined in display image;According to the deformation parameter, one is determined on the flexible display screen 401 The position coordinates of 401 deformation position of flexible display screen are characterized, and using the position coordinates as the of the first display image Two focal coordinates;Show that the focus of image is adjusted to second focal coordinates from first focal coordinates by described first.

Optionally, if processor 403 determine described first show that image is 3-D view specifically for described first Show the current focus coordinate and current focus depth of image, wherein the depth of focus characterizes the image where focus Layer;According to the first position seat for detecting the deformation values for characterizing deformation degree in the deformation parameter and characterizing deformation position Mark;According to the correspondence between the deformation values and the depth of focus, corresponding first depth of focus of the deformation values is determined;It will The second focal coordinates of the first position coordinate and first depth of focus as the first display image;By described first It shows that the current focus Coordinate Adjusting of image is the first position coordinate, and shows that the current focus of image is deep by described first Degree is adjusted to first depth of focus.

Although the preferred embodiment of the application has been described, one of ordinary skilled in the art once knows substantially Creative concept, then additional changes and modifications may be made to these embodiments.It is wrapped so the following claims are intended to be interpreted as It includes preferred embodiment and falls into all change and modification of the application range.

Obviously, those skilled in the art can carry out the application essence of the various modification and variations without departing from the application God and range.In this way, if these modifications and variations of the application belong to the range of the application claim and its equivalent technologies Within, then the application is also intended to include these modifications and variations.

Claims (15)

1. a kind of display control method is applied to an electronic equipment, the electronic equipment includes a flexible display screen, and feature exists In, including:
When the Flexible Displays screen display first shows content, the deformation parameter of the flexible display screen, the shape are detected The deformation degree of variable element flexible display screen when characterizing the flexible display screen by outer force effect;
According to corresponding first display parameters of the deformation parameter, by the first display content of the Flexible Displays screen display with First display parameters are shown,
The every tomographic image being wherein directed in the first display content of the Flexible Displays screen display uses corresponding image Processing mode.
2. the method as described in claim 1, which is characterized in that detect the deformation parameter of the flexible display screen, specially:
By the sensor in the electronic equipment, the crooked radian of the flexible display screen is obtained, and by the crooked radian As the deformation parameter.
3. the method as described in claim 1, which is characterized in that, will according to corresponding first display parameters of the deformation parameter The first of the Flexible Displays screen display shows that content is shown with first display parameters, including:
Image procossing is carried out respectively to the every tomographic image being superimposed by N tomographic images in the formed first display content, is obtained at image N tomographic images after reason, wherein N is the positive integer more than or equal to 2;
Obtained N tomographic images are overlapped, obtain the first display content with the first display parameters, and show there is first First display content of display parameters.
4. method as claimed in claim 3, which is characterized in that show every layer in content to first for being laminated plus being formed by N Image carries out image procossing respectively, the N tomographic images that obtain that treated, including:
According to the first pre-set image processing mode, the first tomographic image in N tomographic images is handled;
According to the second pre-set image processing mode, the second tomographic image in N tomographic images is handled, until default according to N Image procossing mode handles the n-th layer image in N tomographic images, the N tomographic images that obtain that treated.
5. method as claimed in claim 4, which is characterized in that according to the first pre-set image processing mode, in N tomographic images First tomographic image carries out image procossing, including:
According to the correspondence between deformation parameter and Gaussian Blur step values, the deformation parameter confirmly detected is corresponding The first adjustment step values;
According to the first adjustment step values, the Gaussian Blur value of image and/or stepwise is reduced in first tomographic image stepwise The display parameters for adjusting described image, obtain background image layer to be shown, wherein the clarity of the image in background image layer Less than the clarity of the image in first tomographic image;
It is described that the second tomographic image in N tomographic images is handled according to the second pre-set image processing mode, including:
According to the correspondence between the deformation parameter to prestore and Gaussian Blur step values, the deformation parameter that confirmly detects Corresponding second adjustment step values;
According to the second adjustment step values, the Gaussian Blur value of image and/or stepwise is promoted in second tomographic image stepwise The display parameters for adjusting described image, obtain icon image layer to be shown, wherein the clarity of the image in icon image layer is big The clarity of image in second tomographic image.
6. method as claimed in claim 5, which is characterized in that according between the deformation parameter to prestore and Gaussian Blur step values Correspondence, the corresponding the first adjustment step values of the deformation parameter confirmly detected, including:
When the deformation parameter, which is more than or equal to the first predetermined threshold value, is less than the second predetermined threshold value, it is determined that the deformation parameter pair The first step values are answered, and using first step values as the first adjustment step values;
When the deformation parameter is more than second predetermined threshold value, it is determined that corresponding second step values of the deformation parameter, And using second step values as the first adjustment step values, wherein first step values are less than second ladder Value.
7. the method as described in claim 1, which is characterized in that, will according to corresponding first display parameters of the deformation parameter The current display parameters of first display content of the Flexible Displays screen display are adjusted to first display parameters, including:
If the first display content is the first display image, the first focal coordinates are determined in the first display image;
According to the deformation parameter, the position of a characterization flexible display screen deformation position is determined on the flexible display screen Coordinate, and using the position coordinates as the second focal coordinates of the first display image;
Show that the focus of image is adjusted to second focal coordinates from first focal coordinates by described first.
8. the method for claim 7, which is characterized in that according to the deformation parameter, on the flexible display screen really A coordinate position is made, and using the coordinate position as the second focal coordinates of the first display image, including:
If the first display image is 3-D view, the current focus coordinate of the first display image and current is determined The depth of focus, wherein the depth of focus characterizes the image layer where focus;
According to the first position seat for detecting the deformation values for characterizing deformation degree in the deformation parameter and characterizing deformation position Mark;
According to the correspondence between the deformation values and the depth of focus, corresponding first depth of focus of the deformation values is determined;
Using the first position coordinate and first depth of focus as the second focal coordinates of the first display image;
It is described to show that the focus of image is adjusted to second focal coordinates from first focal coordinates by described first, specifically For:
It shows that the current focus Coordinate Adjusting of image is the first position coordinate by described first, and first display is schemed The current focus depth of picture is adjusted to first depth of focus.
9. a kind of electronic equipment, which is characterized in that including:
Flexible display screen, for showing the first display content;
Sensor, for when the Flexible Displays screen display first shows content, detecting the deformation of the flexible display screen Parameter, the deformation degree of deformation parameter flexible display screen when characterizing the flexible display screen by outer force effect;
Processor, for according to corresponding first display parameters of the deformation parameter, by the of the Flexible Displays screen display One shows that content is shown with first display parameters,
The every tomographic image being wherein directed in the first display content of the Flexible Displays screen display uses corresponding image Processing mode.
10. electronic equipment as claimed in claim 9, which is characterized in that the sensor is specifically used for obtaining described flexible aobvious The crooked radian of display screen, and using the crooked radian as the deformation parameter.
11. electronic equipment as claimed in claim 9, which is characterized in that the processor, specifically for being folded by N tomographic images Add to be formed first to show that every tomographic image in content carries out image procossing respectively, obtains the N tomographic images after image procossing;Will To N tomographic images be overlapped, obtain with the first display parameters first display content, and show have the first display parameters The first display content, wherein N is positive integer more than or equal to 2.
12. electronic equipment as claimed in claim 11, which is characterized in that the processor is specifically used for default according to first Image procossing mode handles the first tomographic image in N tomographic images;According to the second pre-set image processing mode, N layers are schemed The second tomographic image as in is handled, until according to N pre-set image processing modes, to the n-th layer image in N tomographic images into Row processing, the N tomographic images that obtain that treated;Wherein, when the deformation parameter is persistently more than the first predetermined threshold value, lasting pair The N tomographic images carry out image procossing respectively.
13. electronic equipment as claimed in claim 12, which is characterized in that the processor is specifically used for according to deformation parameter With the correspondence between Gaussian Blur step values, the corresponding the first adjustment step values of the deformation parameter confirmly detected; According to the first adjustment step values, the Gaussian Blur value of image in first tomographic image is reduced stepwise and/or is adjusted stepwise The display parameters of described image obtain background image layer to be shown, wherein the clarity of the image in background image layer is less than The clarity of image in first tomographic image;According to the corresponding pass between the deformation parameter to prestore and Gaussian Blur step values System, the corresponding second adjustment step values of the deformation parameter confirmly detected;According to the second adjustment step values, carry stepwise It rises the Gaussian Blur value of image in second tomographic image and/or adjusts the display parameters of described image stepwise, obtain to be shown Icon image layer, wherein the clarity of the image in icon image layer is more than the clarity of the image in second tomographic image.
14. electronic equipment as claimed in claim 9, which is characterized in that the processor, if being shown specifically for described first Content is the first display image, and the first focal coordinates are determined in the first display image;According to the deformation parameter, The position coordinates of a characterization flexible display screen deformation position are determined on the flexible display screen, and the position coordinates are made For the second focal coordinates of the first display image;Show the focus of image from the first focal coordinates tune by described first Whole is second focal coordinates.
15. electronic equipment as claimed in claim 14, which is characterized in that the processor, if aobvious specifically for described first When diagram picture is 3-D view, the current focus coordinate and current focus depth of the first display image are determined, wherein institute It states the depth of focus and characterizes image layer where focus;According to the deformation values for detecting characterization deformation degree in the deformation parameter And the first position coordinate of characterization deformation position;According to the correspondence between the deformation values and the depth of focus, institute is determined State corresponding first depth of focus of deformation values;Using the first position coordinate and first depth of focus as first display Second focal coordinates of image;Show that the current focus Coordinate Adjusting of image is the first position coordinate by described first, and Show that the current focus depth of image is adjusted to first depth of focus by described first.
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