CN104751765A - Display control method and electronic device - Google Patents
Display control method and electronic device Download PDFInfo
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Abstract
The invention discloses a display control method and an electronic device. The method is applied to the electronic device. The electronic device at least comprises a flexible display screen. The method includes the steps of detecting the deformation parameter of the flexible display screen when first display content is displayed on the flexible display screen, and displaying the first display content, displayed on the flexible display screen, in the form of a first display parameter according to the first display parameter corresponding to the deformation parameter, wherein the deformation parameter represents the deformation state of the flexible display screen when external force is exerted on the flexible display screen. In other words, in the display control method and the electronic device, the content displayed on the flexible display screen can be changed according to the deformation of the flexible display screen, and therefore a user can regulate the displayed content at any time according to the deformation of the flexible display screen, the diversified display effect of the flexible display screen is improved, operation of the user is facilitated, and the use experience of the user is improved as well.
Description
Technical field
The application relates to electronic technology field, particularly relates to a kind of display control method and electronic equipment.
Background technology
Along 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 excavated gradually, and be applied in portable electronic equipment, but current electronic equipment being installed flexible display screen is only in order to display, and the content of Flexible Displays screen display is comparatively fixed, thus cause the display mode of flexible display screen single.
Summary of the invention
Embodiments provide a kind of display control method, application solves and flexible display screen installed by electronic equipment current in prior art is only in order to display, and the content of Flexible Displays screen display is comparatively fixed, thus cause the problem that the display mode of flexible display screen is single.
A kind of display control method, be applied to an electronic equipment, described electronic equipment comprises a flexible display screen, comprising:
When described Flexible Displays screen display the first displaying contents, detect the deformation parameter of described flexible display screen, described deformation parameter characterizes the deformation degree of described flexible display screen when described flexible display screen is subject to External Force Acting;
First display parameter corresponding according to described deformation parameter, show the first displaying contents of described Flexible Displays screen display with described first display parameter.
Optionally, detect the deformation parameter of described flexible display screen, be specially:
By the sensor in described electronic equipment, obtain the crooked radian of described flexible display screen, and using described crooked radian as described deformation parameter.
Optionally, first display parameter corresponding according to described deformation parameter, show the first displaying contents of described Flexible Displays screen display with described first display parameter, comprising:
Respectively image procossing is carried out to the every tomographic image superposed by N tomographic image in the first displaying contents of being formed, obtains the N tomographic image after image procossing, wherein, N be more than or equal to 2 positive integer;
The N tomographic image obtained is superposed, obtains first displaying contents with the first display parameter, and display has the first displaying contents of the first display parameter.
Optionally, carry out image procossing respectively to by the stacked every tomographic image added in the first displaying contents formed of N, obtain the N tomographic image after processing, comprising:
According to the first pre-set image processing mode, the ground floor image in N tomographic image is processed;
According to the second pre-set image processing mode, the second layer image in N tomographic image is processed, until according to N pre-set image processing mode, the n-th layer image in N tomographic image is processed, obtain the N tomographic image after processing;
Optionally, according to the first pre-set image processing mode, image procossing is carried out to the ground floor image in N tomographic image, comprising:
According to the corresponding relation between deformation parameter and Gaussian Blur step values, determine the described first adjustment step values that the described deformation parameter that detects is corresponding;
According to described first adjustment step values, the Gaussian Blur value of image in described ground floor image and/or the display parameter by the whole described image of contrast are reduced by rank, obtain background image layer to be shown, wherein, the sharpness of the image in background image layer is less than the sharpness of the image in described ground floor image;
Described according to the second pre-set image processing mode, the second layer image in N tomographic image is processed, comprising:
According to the corresponding relation between the deformation parameter prestored and Gaussian Blur step values, determine the described second adjustment step values that the described deformation parameter that detects is corresponding;
According to described second adjustment step values, the Gaussian Blur value of image in described second layer image and/or the display parameter by the whole described image of contrast are promoted by rank, obtain icon image layer to be shown, wherein, the sharpness of the image in icon image layer is greater than the sharpness of the image in described second image layer.
Optionally, according to the corresponding relation between the deformation parameter prestored and Gaussian Blur step values, determine to comprise the described first adjustment step values that the described deformation parameter that detects is corresponding:
When described deformation parameter be more than or equal to described first predetermined threshold value be less than the second predetermined threshold value time, then determine corresponding first step values of described deformation parameter, and described first step values adjusted step values as described first;
When described deformation parameter is greater than described second predetermined threshold value, then determine the second step values that described deformation parameter is corresponding, and using described second step values as described first adjustment step values, wherein, described first step values is less than described second step values.
Optionally, the current display parameter of the first displaying contents of described Flexible Displays screen display are adjusted to described first display parameter, comprise by first display parameter corresponding according to described deformation parameter:
If described first displaying contents is the first display image, in described first display image, determine the first focal coordinates;
According to described deformation parameter, described flexible display screen is determined a position coordinates characterizing flexible display screen deformation position, and using second focal coordinates of described position coordinates as described first display image;
The focus of described first display image is adjusted to described second focal coordinates from described first focal coordinates.
Optionally, according to described deformation parameter, described flexible display screen is determined a coordinate position, and using second focal coordinates of described coordinate position as described first display image, comprising:
If when described first display image is 3-D view, determine current focus coordinate and the current focus degree of depth of described first display image, wherein, described first depth of focus characterizes the image layer at focus place;
According to the deformation values characterizing deformation degree in described deformation parameter and the primary importance coordinate characterizing deformation position being detected;
According to the corresponding relation between described deformation values and the depth of focus, determine first depth of focus that described deformation values is corresponding;
Described primary importance coordinate and first depth of focus are shown the second focal coordinates of image as described first;
The described focus by described first display image is adjusted to described second focal coordinates from described first focal coordinates, is specially:
By described first display image current focus Coordinate Adjusting be described primary importance coordinate, and by described first display image the current focus degree of depth be adjusted to described first depth of focus.
A kind of electronic equipment, comprising:
Flexible display screen, for showing the first displaying contents;
Sensor, for when described Flexible Displays screen display the first displaying contents, detects the deformation parameter of described flexible display screen, and described deformation parameter characterizes the deformation degree of described flexible display screen when described flexible display screen is subject to External Force Acting;
Processor, for first display parameter corresponding according to described deformation parameter, shows the first displaying contents of described Flexible Displays screen display with described first display parameter.
Optionally, described sensor, specifically for obtaining the crooked radian of described flexible display screen, and using described crooked radian as described deformation parameter.
Optionally, described processor, specifically for carrying out image procossing respectively to the every tomographic image superposed by N tomographic image in the first displaying contents of being formed, obtains the N tomographic image after image procossing; The N tomographic image obtained is superposed, obtains first displaying contents with the first display parameter, and display has the first displaying contents of the first display parameter, wherein, N be more than or equal to 2 positive integer.
Optionally, described processor, specifically for according to the first pre-set image processing mode, processes the ground floor image in N tomographic image; According to the second pre-set image processing mode, the second layer image in N tomographic image is processed, until according to N pre-set image processing mode, the n-th layer image in N tomographic image is processed, obtain the N tomographic image after processing; Wherein, when described deformation parameter continues to be greater than described first predetermined threshold value, lasting carries out image procossing respectively to described N tomographic image.
Optionally, described processor, specifically for according to the corresponding relation between deformation parameter and Gaussian Blur step values, determines the described first adjustment step values that the described deformation parameter that detects is corresponding; According to described first adjustment step values, the Gaussian Blur value of image in described ground floor image and/or the display parameter by the whole described image of contrast are reduced by rank, obtain background image layer to be shown, wherein, the sharpness of the image in background image layer is less than the sharpness of the image in described ground floor image; According to the corresponding relation between the deformation parameter prestored and Gaussian Blur step values, determine the described second adjustment step values that the described deformation parameter that detects is corresponding; According to described second adjustment step values, the Gaussian Blur value of image in described second layer image and/or the display parameter by the whole described image of contrast are promoted by rank, obtain icon image layer to be shown, wherein, the sharpness of the image in icon image layer is greater than the sharpness of the image in described second image layer.
Optionally, described processor, if be the first display image specifically for described first displaying contents, determines the first focal coordinates in described first display image; According to described deformation parameter, described flexible display screen is determined a position coordinates characterizing flexible display screen deformation position, and using second focal coordinates of described position coordinates as described first display image; The focus of described first display image is adjusted to described second focal coordinates from described first focal coordinates.
Optionally, described processor, if when being 3-D view specifically for described first display image, determine current focus coordinate and the current focus degree of depth of described first display image, wherein, described first depth of focus characterizes the image layer at focus place; According to the deformation values characterizing deformation degree in described deformation parameter and the primary importance coordinate characterizing deformation position being detected; According to the corresponding relation between described deformation values and the depth of focus, determine first depth of focus that described deformation values is corresponding; Described primary importance coordinate and first depth of focus are shown the second focal coordinates of image as described first; By described first display image current focus Coordinate Adjusting be described primary importance coordinate, and by described first display image the current focus degree of depth be adjusted to described first depth of focus.
The invention process provides a kind of display control method, the method is applied in an electronic equipment, this electronic equipment at least contains a flexible display screen, the method comprises: when Flexible Displays screen display the first displaying contents, detect the deformation parameter of flexible display screen, first display parameter corresponding according to deformation parameter, shown with the first display parameter by first displaying contents of Flexible Displays screen display, this deformation parameter characterizes the deformed state of flexible display screen when flexible display screen is subject to External Force Acting.That is, in embodiments of the present invention, the content of Flexible Displays screen display can change along with the deformation of flexible display screen, thus make the adjustment displaying contents that user can come at any time by the deformation of flexible display screen, so not only improve the diversified display effect of flexible display screen, facilitate the operation of user, and also improve the experience of user.
Can when flexible display screen shows 3-D view by above-mentioned method, flexible display screen is made to change shape by shirtsleeve operation, then focal position and the depth of focus of the 3-D view of Flexible Displays screen display is controlled by the change of flexible display screen shape, the focal position of 3-D view is so not only made to adjust more accurate, and the adjustment of focal position can be made more efficient and convenient, improve the display effect of flexible display screen to 3-D view, thus improve the practicality of electronic equipment.
Accompanying drawing explanation
Fig. 1 is the process flow diagram of a kind of display control method in the embodiment of the present invention;
Fig. 2 is the schematic diagram of each tomographic image of the first displaying contents in the embodiment of the present invention;
Fig. 3 is the schematic diagram comprising multiple user's head portrait in the embodiment of the present invention in picture;
Fig. 4 is the structural representation of a kind of electronic equipment in the embodiment of the present invention.
Embodiment
The invention process provides a kind of display control method, the method is applied in an electronic equipment, this electronic equipment at least contains a flexible display screen, the method comprises: when Flexible Displays screen display the first displaying contents, detect the deformation parameter of flexible display screen, first display parameter corresponding according to deformation parameter, shown with the first display parameter by first displaying contents of Flexible Displays screen display, this deformation parameter characterizes the deformed state of flexible display screen when flexible display screen is subject to External Force Acting.That is, in embodiments of the present invention, the content of Flexible Displays screen display can change along with the deformation of flexible display screen, thus make the adjustment displaying contents that user can come at any time by the deformation of flexible display screen, so not only improve the diversified display effect of flexible display screen, facilitate the operation of user, and also improve the experience of user.
Below by accompanying drawing and specific embodiment, technical solution of the present invention is described further, be to be understood that, the explanation of concrete technical characteristic in the embodiment of the present invention and embodiment just to technical solution of the present invention, instead of limit, when not conflicting, the concrete technical characteristic in the embodiment of the present invention and embodiment can combine mutually.
The display control method provided in the embodiment of the present invention is applied in an electronic equipment, and this electronic equipment comprises a flexible display screen, and be illustrated in figure 1 the process flow diagram of a kind of display control method in the embodiment of the present invention, the method comprises:
S101, when Flexible Displays screen display the first displaying contents, detects the deformation parameter of flexible display screen;
S102, first display parameter corresponding according to deformation parameter, show the first displaying contents of Flexible Displays screen display with the first display parameter.
First, flexible display screen installed by this electronic equipment, and deformation can be there is in whole electronic equipment.Certainly, also can be flexible display screen on this electronic equipment independent of this electronic equipment, the generation deformation that the flexible display screen namely on this electronic equipment can be independent.
In embodiments of the present invention, this electronic equipment can arrange a sensor, this sensor can be gyroscope or other can detect the sensor of flexible display screen deformation, the crooked radian of flexible display screen can be got by this sensor.This crooked radian is just as the deformation parameter detected.
Certainly, in embodiments of the present invention, except can, by the crooked radian of flexible display screen as except deformation parameter, can also be other parameters of flexible display screen, for example, each position draw high degree, or the pressure parameter etc. of each position.As long as the deformation parameter that can characterize flexible display screen can as the deformation parameter of flexible display screen.
After electronic equipment detects the deformation of flexible display screen, this electronic equipment according to deformation parameter, will be determined and then show the first display parameter that this deformation parameter is corresponding the first displaying contents of Flexible Displays screen display with the first display parameter.
Specifically, in embodiments of the present invention, the corresponding relation between the deformation parameter of flexible display screen and display parameter is saved at this electronic equipment, such as corresponding first display parameter of the first crooked radian of flexible display screen, corresponding second display parameter of second crooked radian, corresponding 3rd display parameter of 3rd crooked radian, certainly the difference in embodiments of the present invention between each crooked radian is less, when flexible display screen so just can be made to occur less deformation, this electronic equipment still can determine the display parameter that this deformation parameter is corresponding, thus timely the displaying contents on flexible display screen is adjusted.If the deformation parameter of the flexible display screen certainly on this electronic equipment continue change time, then the adjustment that also will the displaying contents on flexible display screen be continued of this electronic equipment.
Further, in the embodiment of the present invention, first display parameter corresponding according to deformation parameter, show the first displaying contents of Flexible Displays screen display with the first display parameter, specifically realize by such as under type:
Respectively image procossing is carried out to the every tomographic image superposed by N tomographic image in the first displaying contents of being formed, obtain the N tomographic image after image procossing, the N tomographic image obtained is superposed, obtain first displaying contents with the first display parameter, and display has the first displaying contents of the first display parameter.
Specifically, in embodiments of the present invention, first displaying contents of the Flexible Displays screen display of this electronic equipment can be superposed by N tomographic image to be formed, as shown in Figure 2, in fig. 2, this first displaying contents can be divided into 3 images, just can be superposed form the first displaying contents by these 3 images.Therefore, after electronic equipment detects the deformation parameter of flexible display screen, each tomographic image for this first displaying contents processes by this electronic equipment.
That is, this electronic equipment will according to the first pre-set image processing mode, ground floor image in N tomographic image is processed, here the first pre-set image processing mode can be the adjustment of brightness of image, or the adjustment to picture contrast, or the adjustment etc. to image definition, in embodiments of the present invention, image procossing mode can be determined according to the applicable cases of reality.
Certainly, for second layer image, then can process second layer image according to the second pre-set image processing mode, here second presets the adjustment that processing mode can be brightness of image, or the adjustment to picture contrast, or the adjustment etc. to image definition.
In a manner mentioned above, according to respective pre-set image processing mode, each tomographic image is processed successively, until according to N pre-set image processing mode, image is carried out to the n-th layer image in N tomographic image, obtain the N tomographic image after processing.
In other words, this electronic equipment can use each self-corresponding image procossing mode for each tomographic image, can carry out image procossing comparatively accurately like this to the image of every one deck, thus ensures that the image of last synthesis can reach the final display effect needed.Certainly, in embodiments of the present invention, part or whole image procossing modes can be identical, and namely in order to ensure last display effect, the image procossing mode of each tomographic image can be substantially identical.
Further, if the deformation parameter detected on flexible display screen that this electronic equipment continues, during the generation deformation that the flexible display screen namely on electronic equipment continues, this electronic equipment carries out image procossing by what continue respectively to N tomographic image.Briefly, as long as the generation deformation that flexible display screen continues, then the adjustment that will the first displaying contents on flexible display screen be continued of this electronic equipment.Here adjustment can be the adjustment of brightness, the adjustment of contrast, the adjustment etc. of sharpness.
Further, in embodiments of the present invention, the 3D effect protruding screen is had in order to make the display icon on flexible display screen, and what also make the icon on flexible display screen be more prone to is arrived by user's touch-control, therefore, in embodiments of the present invention, can be realized the Deep Canvas to image by adjustment image being carried out to Gaussian Blur, concrete mode is as follows:
According to the corresponding relation between deformation parameter and Gaussian Blur step values, determine the first adjustment step values that the deformation parameter that detects is corresponding, that is, a corresponding relation is there is between the degree of crook of flexible display screen and Gaussian Blur step values, such as, when flexible display screen degree of crook is lower, then Gaussian Blur step values can be 10, when flexible display screen degree of crook is higher, then Gaussian Blur step values can be 20, a just citing herein, corresponding relation between the degree of crook of flexible display screen and Gaussian Blur step values can adjust according to the application scenarios of reality.
Specifically, in embodiments of the present invention, carrying out process according to the first pre-set image processing mode to ground floor image can be according to the first adjustment step values, reduce the Gaussian Blur value of image and/or the display parameter by the whole image of contrast in ground floor image by rank, obtain background image layer to be shown;
According to the second pre-set image processing mode, carry out process to the second layer image in N tomographic image can comprise: according to the corresponding relation between the deformation parameter prestored and Gaussian Blur step values, determine the second adjustment step values that the deformation parameter that detects is corresponding, according to the second adjustment step values, the Gaussian Blur value of image and/or the display parameter by the whole image of contrast in second layer image are promoted by rank, obtain icon image layer to be shown, wherein, the sharpness of the image in icon image layer is greater than the sharpness of the image in the second image layer.
Such as, the content of the Flexible Displays screen display of this electronic equipment is the icon of desktop background and each application program, ground floor image is the desktop background on flexible display screen, and second layer image is the icon of application program, and third layer image is partial task hurdle.When the flexible display screen of this electronic equipment is extruded, and when flexible display screen center caves inward, then this electronic equipment determines a Gaussian Blur step values by according to the degree of crook of flexible display screen, then the Gaussian Blur value of second layer image is promoted by rank, namely increase the Gaussian Blur value of icon, make the icon of this Flexible Displays screen display be away from flexible display screen to the visual experience of user, thus achieve the visual effect of a kind of 3D.
Certainly, in order to further increase 3D imaging effect, when promoting the Gaussian Blur value of second layer image, another Gaussian Blur step values can also be determined, then based on another Gaussian Blur step values determined, by the Gaussian Blur value of the reduction ground floor image on rank, the sharpness of desktop background is namely promoted, desktop background can be made like this to occur visual separation with function image, thus the visual effect of 3D can be presented to user.
Further, in embodiments of the present invention, in order to the separating effect between further enhanced feature icon and desktop background, except carrying out except the adjustment of Gaussian Blur value to icon and desktop background, the adjustment of size dimension can also be carried out to icon and desktop background, such as, when user extrudes flexible display screen in a manner mentioned above, this electronic equipment is by reducing icon by rank, when icon reduces, this electronic equipment is also by the amplification desktop background of local, namely can amplify the local desktop background of the larger position of flexible display screen deformation, can make like this can more significantly occur being separated between desktop background with icon, thus visual 3D effect is more obvious.
Certainly, except adjustment desktop background and the Gaussian Blur value of icon and picture size, the contrast that can also adjust icon and desktop background is equivalent, like this can visible sensation distance further between enhanced feature icon and desktop background, thus the 3D further promoting flexible display screen presents effect.
Further, in embodiments of the present invention, when flexible display screen is in the above-mentioned state be extruded always, this electronic equipment is by lasting adjustment ground floor image and second layer image, the Gaussian Blur value of the adjustment icon namely continued and picture size, the Gaussian Blur value of the adjustment desktop background certainly also continued and picture size.
Certainly, above-mentioned situation is the situation that this flexible display screen center illustrated caves inward, if when this flexible display screen center is outwardly, then the processing mode of this electronic equipment to ground floor image and second layer image is contrary with above-mentioned mode, such as, ground floor image is still desktop background, second layer image is still icon, if when flexible display screen center is outwardly, this electronic equipment by the Gaussian Blur value of the reduction icon by rank, thus makes icon more clear in Flexible Displays screen display.Now also by the Gaussian Blur value of adjustment desktop background, namely promote the Gaussian Blur value of desktop background, thus make desktop background occur fuzzy effect, and then make background desktop and icon occur comparatively significantly separating effect.Briefly, the effect that flexible display screen presents is that icon protrudes desktop background, makes the display effect of icon more clear like this, also make that user can be convenient check and touch-control to icon.
Certainly, flexible display screen other effects after is has been compressed can also be comprised in embodiments of the present invention present, such as after the edge of flexible display screen is extruded, this electronic equipment, by the display position of adjustment icon, makes icon show away from the edge be extruded; When the center of flexible display screen is extruded, icon is away from center, and past edge is near display modes such as displays.Different display effects can be realized like this.And different mode can be provided to control the displaying contents on flexible display screen to user.
Further, in embodiments of the present invention, in order to ensure that different deformation parameter correspondences goes 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, corresponding first step values of this electronic equipment determination deformation parameter, and using the first step values as the first adjustment step values, that is, when the deformation parameter of flexible display screen controls within the scope of one, then can determine a comparatively stable adjustment step values.
Certainly, if when deformation parameter is greater than the second predetermined threshold value, then determine the second step values that deformation parameter is corresponding, and using the second step values as the first adjustment step values, wherein, the first step values is less than the second step values.That is, after deformation parameter is greater than a threshold value, this electronic equipment will determine another step values, the deformation situation that electronic equipment can be made so different according to flexible display screen determines step values, such as, when the deformation of flexible display screen is less, then determine that the first step values is as the first adjustment step values, if when the deformation of flexible display screen is larger, then determine that the second step values is as the first adjustment step values.Briefly, the deformation being exactly flexible display screen is larger, then the content of Flexible Displays screen display also adjusts faster.The deformation of flexible display screen is less, then the content of Flexible Displays screen display also adjusts slower.So just provide the user diversified selection, thus multiple different Adjusted Option is provided, make the display effect of displaying contents on flexible display screen more diversified.
Optionally, in embodiments of the present invention, except adjusting except the displaying contents on flexible display screen by the deformation parameter detecting flexible display screen, the focus of displaying contents can also be adjusted by the deformation parameter detected on flexible display screen, specifically comprise:
If when the first displaying contents of Flexible Displays screen display is the first display image, first this electronic equipment determines the first focal coordinates in the first display image, according to deformation parameter, flexible display screen is determined a position coordinates characterizing flexible display screen deformation position, and using second focal coordinates of this position coordinates as the first display image, the focus of the first display image is adjusted to the second focal coordinates from the first focal coordinates.
Such as, when flexible display screen shows the picture comprising multiple portrait, as shown in Figure 3, in figure 3, this flexible display screen shows comprise first, second, third, fourth four facial images, if the focal position of the picture shown in Fig. 3 is in first on the face.If when user extrudes this flexible display screen, this electronic equipment is by the focal position of the picture shown in change Fig. 3 gradually.There are two kinds of modes herein to adjust the focal position of picture:
Mode one: this electronic equipment can in picture moving focal point position gradually, the direction of moving focal point can be determine according to the pressure size of Flexible Displays platen edge, such as, when the pressure of flexible display screen left hand edge is greater than the pressure of right hand edge, then focus past left side gradually on picture is moved by electronic equipment, certainly, movement herein can be the rectilinear movement in horizontal direction.When the flexible display screen of electronic equipment detects edge without pressure, then this electronic equipment will stop the movement of focus, thus current position is just defined as the second focal coordinates, thus the focus of this picture is just adjusted to the second focal coordinates from the first focus left side.
Optionally, in the process that focus is moved, if when detecting that this electronic equipment deflects, this electronic equipment is also by the moving direction of deflection focus, such as focus is in the process of movement, when this electronic equipment one end deflects to a direction, then the moving direction of this focus is also along with change moving direction, such as one end of mobile phone upward deflects, then Focal Point Shift direction also upward deflects, if during a bit the deflecting down of mobile phone, then Focal Point Shift direction also deflects down, such user can the moving direction of control focus at any time, thus ensure that the second focal coordinates are the focal coordinates of user's request.
Mode two: this electronic equipment will identify focal coordinates automatically, and using focal coordinates again identifying as the second focal coordinates, such as, first is contained in Fig. 3, second, third, fourth four facial images, focal position in initial picture is in first, if during the edge generation deformation of the flexible display screen of this electronic equipment, focal coordinates adjust in the second adjacent with first from first by automatic by this electronic equipment, if now this flexible display screen no longer detects deformation parameter, then this electronic equipment just using focal coordinates now as the second focal coordinates.Certainly, if when continuing the deformation parameter detected on flexible display screen, the focal coordinates that this electronic equipment will continue on adjustment picture, such as continue focal coordinates to adjust on third, and in this manner, until flexible display screen no longer detects deformation parameter, this mode can be more convenient and directly determine focal coordinates, thus user friendly operation, and the focal coordinates determined are also more accurate.
Two kinds of above-mentioned modes as the mode of adjustment picture focal coordinates, certainly except above-mentioned two kinds of modes, can also have other mode to trigger the change of focal coordinates, this just being illustrated no longer one by one.
Further, above-mentioned mode for can be two dimension picture.If when this flexible display screen can show tri-dimensional picture, the mode of the focal coordinates of this electronic equipment adjustment tri-dimensional picture is as follows:
When the first display image of Flexible Displays screen display is 3-D view, determine current focus coordinate and the current focus degree of depth of the first display image, according to characterizing the deformation values of deformation degree in the deformation parameter detected and characterizing the primary importance coordinate of deformation position, according to the corresponding relation between the deformation values in deformation parameter and the depth of focus, determine first depth of focus that deformation values is corresponding, the second focal coordinates of image are shown as first according to primary importance coordinate and first depth of focus, by first display image current focus Coordinate Adjusting be primary importance coordinate, and the current focus degree of depth of the first display image is adjusted to first depth of focus.
Specifically, in 3-D view, the focus of image is except the coordinate position in level, also has the depth value on depth direction, therefore, first this electronic equipment determines the first display image current focus coordinate in the horizontal plane, and the current focus degree of depth on depth direction.When flexible display screen generation deformation, and when the center of flexible display screen caves inward, then the center of flexible display screen is defined as the first focal coordinates by this electronic equipment.And because this flexible display screen Shi You center caves inward, then this electronic equipment promotes the depth of focus, namely improve first depth of focus by the current focus degree of depth, the display effect of the lifting correspondence of the depth of focus is that focus is more bottom the display of flexible display screen.
Certainly, if flexible display screen is extruded, and when center is outwardly, then the center of flexible display screen is defined as the first focal coordinates by this electronic equipment.And because this flexible display screen Shi You center is outwardly, then this electronic equipment reduces the depth of focus, namely be reduced to first depth of focus by the current focus degree of depth, the display effect of the reduction correspondence of the depth of focus is that focus is more near the display surface of flexible display screen.
After determining primary importance coordinate and first depth of focus, this electronic equipment using primary importance coordinate and first depth of focus as the second focal coordinates, finally the focus of the first display image is adjusted to the second focal coordinates from the first focal coordinates, that is: the current focus Coordinate Adjusting showing image by first is primary importance coordinate, and the current focus degree of depth of the first display image is adjusted first depth of focus.
Can when flexible display screen shows 3-D view by above-mentioned method, flexible display screen is made to change shape by shirtsleeve operation, then focal position and the depth of focus of the 3-D view of Flexible Displays screen display is controlled by the change of flexible display screen shape, the focal position of 3-D view is so not only made to adjust more accurate, and the adjustment of focal position can be made more efficient and convenient, improve the display effect of flexible display screen to 3-D view, thus improve the practicality of electronic equipment.
A kind of display control method in the corresponding embodiment of the present invention, the embodiment of the present invention additionally provides a kind of electronic equipment, is illustrated in figure 4 the structural representation of a kind of electronic equipment in the embodiment of the present invention, and this electronic equipment comprises:
Flexible display screen 401, for showing the first displaying contents;
Sensor 402, during for showing the first displaying contents on described flexible display screen 401, detect the deformation parameter of described flexible display screen 401, described deformation parameter characterizes the deformation degree of described flexible display screen 401 when described flexible display screen 401 is subject to External Force Acting;
Processor 403, for first display parameter corresponding according to described deformation parameter, shows the first displaying contents of display on described flexible display screen 401 with described first display parameter.
Optionally, sensor 402, specifically for obtaining the crooked radian of described flexible display screen 401, and using described crooked radian as described deformation parameter.
Optionally, processor 403, specifically for carrying out image procossing respectively to the every tomographic image superposed by N tomographic image in the first displaying contents of being formed, obtains the N tomographic image after image procossing; The N tomographic image obtained is superposed, obtains first displaying contents with the first display parameter, and display has the first displaying contents of the first display parameter, wherein, N be more than or equal to 2 positive integer.
Optionally, processor 403, specifically for according to the first pre-set image processing mode, processes the ground floor image in N tomographic image; According to the second pre-set image processing mode, the second layer image in N tomographic image is processed, until according to N pre-set image processing mode, the n-th layer image in N tomographic image is processed, obtain the N tomographic image after processing; Wherein, when described deformation parameter continues to be greater than described first predetermined threshold value, lasting carries out image procossing respectively to described N tomographic image.
Optionally, processor 403, specifically for according to the corresponding relation between deformation parameter and Gaussian Blur step values, determines the described first adjustment step values that the described deformation parameter that detects is corresponding; According to described first adjustment step values, the Gaussian Blur value of image in described ground floor image and/or the display parameter by the whole described image of contrast are reduced by rank, obtain background image layer to be shown, wherein, the sharpness of the image in background image layer is less than the sharpness of the image in described ground floor image; According to the corresponding relation between the deformation parameter prestored and Gaussian Blur step values, determine the described second adjustment step values that the described deformation parameter that detects is corresponding; According to described second adjustment step values, the Gaussian Blur value of image in described second layer image and/or the display parameter by the whole described image of contrast are promoted by rank, obtain icon image layer to be shown, wherein, the sharpness of the image in icon image layer is greater than the sharpness of the image in described second image layer.
Optionally, processor 403, if be the first display image specifically for described first displaying contents, determines the first focal coordinates in described first display image; According to described deformation parameter, described flexible display screen 401 is determined a position coordinates characterizing flexible display screen 401 deformation position, and using second focal coordinates of described position coordinates as described first display image; The focus of described first display image is adjusted to described second focal coordinates from described first focal coordinates.
Optionally, processor 403, if when being 3-D view specifically for described first display image, determine current focus coordinate and the current focus degree of depth of described first display image, wherein, described first depth of focus characterizes the image layer at focus place; According to the deformation values characterizing deformation degree in described deformation parameter and the primary importance coordinate characterizing deformation position being detected; According to the corresponding relation between described deformation values and the depth of focus, determine first depth of focus that described deformation values is corresponding; Described primary importance coordinate and first depth of focus are shown the second focal coordinates of image as described first; By described first display image current focus Coordinate Adjusting be described primary importance coordinate, and by described first display image the current focus degree of depth be adjusted to described first depth of focus.
Although described the preferred embodiment of the application, one of ordinary skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the application's scope.
Obviously, those skilled in the art can carry out various change and modification to the application and not depart from the spirit and scope of the application.Like this, if these amendments of the application and modification belong within the scope of the application's claim and equivalent technologies thereof, then the application is also intended to comprise these change and modification.
Claims (15)
1. a display control method, is applied to an electronic equipment, and described electronic equipment comprises a flexible display screen, it is characterized in that, comprising:
When described Flexible Displays screen display the first displaying contents, detect the deformation parameter of described flexible display screen, described deformation parameter characterizes the deformation degree of described flexible display screen when described flexible display screen is subject to External Force Acting;
First display parameter corresponding according to described deformation parameter, show the first displaying contents of described Flexible Displays screen display with described first display parameter.
2. the method for claim 1, is characterized in that, detects the deformation parameter of described flexible display screen, is specially:
By the sensor in described electronic equipment, obtain the crooked radian of described flexible display screen, and using described crooked radian as described deformation parameter.
3. the method for claim 1, is characterized in that, first display parameter corresponding according to described deformation parameter, show the first displaying contents of described Flexible Displays screen display with described first display parameter, comprising:
Respectively image procossing is carried out to the every tomographic image superposed by N tomographic image in the first displaying contents of being formed, obtains the N tomographic image after image procossing, wherein, N be more than or equal to 2 positive integer;
The N tomographic image obtained is superposed, obtains first displaying contents with the first display parameter, and display has the first displaying contents of the first display parameter.
4. method as claimed in claim 3, is characterized in that, carry out image procossing respectively to by the stacked every tomographic image added in the first displaying contents formed of N, obtains the N tomographic image after processing, comprising:
According to the first pre-set image processing mode, the ground floor image in N tomographic image is processed;
According to the second pre-set image processing mode, the second layer image in N tomographic image is processed, until according to N pre-set image processing mode, the n-th layer image in N tomographic image is processed, obtain the N tomographic image after processing.
5. method as claimed in claim 4, is characterized in that, according to the first pre-set image processing mode, carry out image procossing, comprising the ground floor image in N tomographic image:
According to the corresponding relation between deformation parameter and Gaussian Blur step values, determine the described first adjustment step values that the described deformation parameter that detects is corresponding;
According to described first adjustment step values, the Gaussian Blur value of image in described ground floor image and/or the display parameter by the whole described image of contrast are reduced by rank, obtain background image layer to be shown, wherein, the sharpness of the image in background image layer is less than the sharpness of the image in described ground floor image;
Described according to the second pre-set image processing mode, the second layer image in N tomographic image is processed, comprising:
According to the corresponding relation between the deformation parameter prestored and Gaussian Blur step values, determine the described second adjustment step values that the described deformation parameter that detects is corresponding;
According to described second adjustment step values, the Gaussian Blur value of image in described second layer image and/or the display parameter by the whole described image of contrast are promoted by rank, obtain icon image layer to be shown, wherein, the sharpness of the image in icon image layer is greater than the sharpness of the image in described second image layer.
6. method as claimed in claim 5, is characterized in that, according to the corresponding relation between the deformation parameter prestored and Gaussian Blur step values, determines to comprise the described first adjustment step values that the described deformation parameter that detects is corresponding:
When described deformation parameter be more than or equal to described first predetermined threshold value be less than the second predetermined threshold value time, then determine corresponding first step values of described deformation parameter, and described first step values adjusted step values as described first;
When described deformation parameter is greater than described second predetermined threshold value, then determine the second step values that described deformation parameter is corresponding, and using described second step values as described first adjustment step values, wherein, described first step values is less than described second step values.
7. the method for claim 1, is characterized in that, the current display parameter of the first displaying contents of described Flexible Displays screen display are adjusted to described first display parameter, comprise by first display parameter corresponding according to described deformation parameter:
If described first displaying contents is the first display image, in described first display image, determine the first focal coordinates;
According to described deformation parameter, described flexible display screen is determined a position coordinates characterizing flexible display screen deformation position, and using second focal coordinates of described position coordinates as described first display image;
The focus of described first display image is adjusted to described second focal coordinates from described first focal coordinates.
8. method as claimed in claim 7, is characterized in that, according to described deformation parameter, described flexible display screen is determined a coordinate position, and using second focal coordinates of described coordinate position as described first display image, comprising:
If when described first display image is 3-D view, determine current focus coordinate and the current focus degree of depth of described first display image, wherein, described first depth of focus characterizes the image layer at focus place;
According to the deformation values characterizing deformation degree in described deformation parameter and the primary importance coordinate characterizing deformation position being detected;
According to the corresponding relation between described deformation values and the depth of focus, determine first depth of focus that described deformation values is corresponding;
Described primary importance coordinate and first depth of focus are shown the second focal coordinates of image as described first;
The described focus by described first display image is adjusted to described second focal coordinates from described first focal coordinates, is specially:
By described first display image current focus Coordinate Adjusting be described primary importance coordinate, and by described first display image the current focus degree of depth be adjusted to described first depth of focus.
9. an electronic equipment, is characterized in that, comprising:
Flexible display screen, for showing the first displaying contents;
Sensor, for when described Flexible Displays screen display the first displaying contents, detects the deformation parameter of described flexible display screen, and described deformation parameter characterizes the deformation degree of described flexible display screen when described flexible display screen is subject to External Force Acting;
Processor, for first display parameter corresponding according to described deformation parameter, shows the first displaying contents of described Flexible Displays screen display with described first display parameter.
10. electronic equipment as claimed in claim 9, is characterized in that, described sensor, specifically for obtaining the crooked radian of described flexible display screen, and using described crooked radian as described deformation parameter.
11. electronic equipments as claimed in claim 9, is characterized in that, described processor, specifically for carrying out image procossing respectively to the every tomographic image superposed by N tomographic image in the first displaying contents of being formed, obtain the N tomographic image after image procossing; The N tomographic image obtained is superposed, obtains first displaying contents with the first display parameter, and display has the first displaying contents of the first display parameter, wherein, N be more than or equal to 2 positive integer.
12. electronic equipments as claimed in claim 11, is characterized in that, described processor, specifically for according to the first pre-set image processing mode, process the ground floor image in N tomographic image; According to the second pre-set image processing mode, the second layer image in N tomographic image is processed, until according to N pre-set image processing mode, the n-th layer image in N tomographic image is processed, obtain the N tomographic image after processing; Wherein, when described deformation parameter continues to be greater than described first predetermined threshold value, lasting carries out image procossing respectively to described N tomographic image.
13. electronic equipments as claimed in claim 12, is characterized in that, described processor, specifically for according to the corresponding relation between deformation parameter and Gaussian Blur step values, determine the described first adjustment step values that the described deformation parameter that detects is corresponding; According to described first adjustment step values, the Gaussian Blur value of image in described ground floor image and/or the display parameter by the whole described image of contrast are reduced by rank, obtain background image layer to be shown, wherein, the sharpness of the image in background image layer is less than the sharpness of the image in described ground floor image; According to the corresponding relation between the deformation parameter prestored and Gaussian Blur step values, determine the described second adjustment step values that the described deformation parameter that detects is corresponding; According to described second adjustment step values, the Gaussian Blur value of image in described second layer image and/or the display parameter by the whole described image of contrast are promoted by rank, obtain icon image layer to be shown, wherein, the sharpness of the image in icon image layer is greater than the sharpness of the image in described second image layer.
14. electronic equipments as claimed in claim 9, is characterized in that, described processor, if be the first display image specifically for described first displaying contents, in described first display image, determine the first focal coordinates; According to described deformation parameter, described flexible display screen is determined a position coordinates characterizing flexible display screen deformation position, and using second focal coordinates of described position coordinates as described first display image; The focus of described first display image is adjusted to described second focal coordinates from described first focal coordinates.
15. electronic equipments as claimed in claim 14, it is characterized in that, described processor, if when being 3-D view specifically for described first display image, determine current focus coordinate and the current focus degree of depth of described first display image, wherein, described first depth of focus characterizes the image layer at focus place; According to the deformation values characterizing deformation degree in described deformation parameter and the primary importance coordinate characterizing deformation position being detected; According to the corresponding relation between described deformation values and the depth of focus, determine first depth of focus that described deformation values is corresponding; Described primary importance coordinate and first depth of focus are shown the second focal coordinates of image as described first; By described first display image current focus Coordinate Adjusting be described primary importance coordinate, and by described first display image the current focus degree of depth be adjusted to described first depth of focus.
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