CN103246476A - Method, device and terminal device for rotating screen contents - Google Patents
Method, device and terminal device for rotating screen contents Download PDFInfo
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Abstract
An embodiment of the invention provides a method, a device and a terminal device for rotating screen contents and relates to the field of electronic technology. By the method, device and the terminal device, screen contents in a screen can be rotated manually to improve user experience. The method includes: by the terminal device, acquiring feature values of at least two touch points on the screen and initial coordinates, on the screen, of the touch points; by the terminal device, acquiring current rotation coordinates, on the screen, of the touch points when feature values of the touch points meet a preset rotation condition and the touch points rotate around a reference point; and by the terminal device, rotating the screen contents in the screen to a corresponding position according to the initial coordinates and the rotation coordinates of the touch points. The method, device and terminal device are applicable to rotation of screen contents in screens of electronic devices.
Description
Technical Field
The invention relates to the technical field of electronics, in particular to a screen content rotating method and device and terminal equipment.
Background
Nowadays, human-computer interaction modes in various handheld devices are becoming more and more convenient, and a touch screen is a human-computer interaction mode, and people initiate instructions to the touch screen through various gestures to enable the touch screen to perform different operations, such as opening an application, zooming in a picture and the like. When the handheld device is used for browsing webpages, reading electronic books or browsing pictures, the handheld device can realize reading experience at different angles through the automatic screen rotation function. And this function is implemented by sensing the current handset state change using a G-sensor (Gravity-sensor).
However, when the screen automatic rotation function is turned on, the inventor finds that when the screen is required to rotate, the handheld device must be moved so that the G-sensor senses the change of the state of the handheld device to rotate, and therefore when the screen shakes, accidental and unnecessary rotation of the screen is caused, and bad user experience is brought to the user.
Disclosure of Invention
The embodiment of the invention provides a screen content rotating method and device and terminal equipment, which can realize manual rotation of screen content in a screen, and further enhance user experience.
The embodiment of the invention adopts the following technical scheme:
in a first aspect, a method for rotating screen content is provided, including:
the method comprises the steps that terminal equipment obtains characteristic values of at least two touch points on a screen and initial coordinates of the at least two touch points on the screen;
when the characteristic values of the at least two touch points meet a preset rotation condition, after the at least two touch points rotate around a reference point along the same direction, the terminal equipment acquires rotation coordinates of the at least two touch points on the screen;
and the terminal equipment rotates the screen content in the screen to a corresponding position according to the initial coordinates of the at least two touch points on the screen and the rotation coordinates of the at least two current touch points on the screen.
In a first possible implementation manner, according to the first aspect, the acquiring, by the terminal device, feature values of at least two touch points on a screen includes:
the terminal equipment acquires the touch time of the at least two touch points on the screen;
or,
and the terminal equipment acquires the number of the at least two touch points on the screen.
In a second possible implementation manner, according to the first possible implementation manner, if the rotation condition is that the touch time of the at least two touch points is greater than a preset threshold, or the number of the at least two touch points is a first preset number, or the number of the at least two touch points is within a first preset number range;
the terminal device rotates the screen content in the screen to a corresponding position according to the initial coordinates of the at least two touch points on the screen and the current rotation coordinates of the at least two touch points on the screen, and the method comprises the following steps:
the terminal equipment determines the rotation direction of the at least two touch points rotating around the reference point along the same direction according to the initial coordinates of the at least two touch points on the screen and the rotation coordinates of the at least two current touch points on the screen;
and the terminal equipment rotates the screen content in the screen to a corresponding position according to the rotating direction and a preset angle, wherein the preset angle can be any preset angle.
In a third possible implementation manner, according to the first possible implementation manner, if the rotation condition is that the touch time of the at least two touch points is less than a preset threshold, or the number of the at least two touch points is a second preset number, or the number of the at least two touch points is within a second preset number range;
before the terminal device identifies the rotation direction in which the at least two touch points rotate simultaneously, the method further includes:
the terminal equipment determines that the screen content in the screen is in a selected state, wherein the selected state is used for indicating that the screen content in the screen and the at least two touch points rotate simultaneously.
In a fourth possible implementation manner, according to the third possible implementation manner, the rotating, by the terminal device, the screen content in the screen to a corresponding position according to the initial coordinates of the at least two touch points on the screen and the rotation coordinates of the at least two current touch points on the screen includes:
the terminal equipment determines the rotation direction of the at least two touch points rotating around the reference point along the same direction according to the initial coordinates of the at least two touch points on the screen and the rotation coordinates of the at least two current touch points on the screen;
and the terminal equipment rotates the screen content in the screen to the position corresponding to the rotating coordinate of the current at least two touch points on the screen according to the rotating direction.
In a fifth possible implementation manner, according to a fourth possible implementation manner, after the terminal device rotates, according to the rotation direction, the screen content in the screen to a position corresponding to the rotation coordinates of the current at least two touch points on the screen, the method further includes:
the terminal equipment judges whether the at least two touch points exist or not;
if the at least two touch points exist, the terminal equipment continues to acquire the rotation coordinates of the at least two touch points on the screen;
and if the at least two touch points do not exist, stopping rotating the screen content in the screen.
In a second aspect, there is provided a rotation apparatus of screen contents, including:
the system comprises an acquisition unit, a display unit and a control unit, wherein the acquisition unit is used for acquiring characteristic values of at least two touch points on a screen and initial coordinates of the at least two touch points on the screen;
the acquisition unit is further configured to, when the characteristic values of the at least two touch points satisfy a predetermined rotation condition, acquire a current rotation coordinate of the at least two touch points on the screen after the at least two touch points rotate around a reference point in the same direction;
and the rotating unit is used for rotating the screen content in the screen to a corresponding position according to the initial coordinates of the at least two touch points on the screen acquired by the acquisition unit and the rotating coordinates of the at least two current touch points on the screen.
In a first possible implementation manner, according to the second aspect, the acquisition unit is specifically configured to: acquiring touch time of the at least two touch points on the screen; or acquiring the number of the at least two touch points on the screen.
In a second possible implementation manner, according to the first possible implementation manner, if the rotation condition is that the touch time of the at least two touch points is greater than a preset threshold, or the number of the at least two touch points is a first preset number, or the number of the at least two touch points is within a first preset number range;
the rotation unit is specifically configured to: determining the rotation direction of the at least two touch points rotating around the reference point along the same direction according to the initial coordinates of the at least two touch points on the screen and the rotation coordinates of the at least two current touch points on the screen, which are acquired by the acquisition unit; and rotating the screen content in the screen to a corresponding position according to the rotating direction and a preset angle, wherein the preset angle can be any preset angle.
In a third possible implementation manner, according to the first possible implementation manner, if the rotation condition is that the touch time of the at least two touch points is less than a preset threshold, or the number of the at least two touch points is a second preset number, or the number of the at least two touch points is within a second preset number range;
the rotation unit is further configured to determine that the screen content in the screen is in a selected state, where the selected state is used to indicate that the screen content in the screen and the at least two touch points rotate simultaneously.
In a fourth possible implementation manner, according to a third possible implementation manner, the rotation unit is specifically configured to: determining the rotation direction of the at least two touch points rotating around the reference point along the same direction according to the initial coordinates of the at least two touch points on the screen and the rotation coordinates of the at least two current touch points on the screen, which are acquired by the acquisition unit; and rotating the screen content in the screen to the position corresponding to the rotating coordinate of the current at least two touch points on the screen according to the rotating direction.
In a fifth possible implementation manner, according to a fourth possible implementation manner, the acquisition unit is configured to determine whether the at least two touch points exist;
the acquisition unit is further used for continuously acquiring the rotation coordinates of the at least two current touch points on the screen if the acquisition unit judges that the at least two touch points exist;
the rotation unit is further configured to stop rotating the screen content in the screen if the acquisition unit determines that the at least two touch points do not exist.
In a third aspect, a terminal device is provided, including: the device screen is respectively connected with the data receiver and the data processor, wherein:
the equipment screen is used for displaying contents to be displayed by the terminal equipment, sensing the sliding of a touch point of a touch object on the equipment screen, receiving the input of the touch object on the touch point on the equipment screen, converting the input into a response signal and sending the response signal to the data receiver;
the data receiver is used for acquiring characteristic values of at least two touch points on the equipment screen and initial coordinates of the at least two touch points on the equipment screen, and sending the characteristic values and the initial coordinates to the data receiver;
the data processor is used for judging whether the characteristic values of the at least two touch points acquired by the equipment screen meet a preset rotation condition or not;
the data processor is further configured to, if the determination result of the data processor is that the characteristic values of the at least two touch points satisfy the predetermined rotation condition, obtain, by the terminal device, rotation coordinates of the at least two touch points on the device screen after the at least two touch points rotate around a reference point in the same direction;
the data processor is further configured to rotate the screen content in the device screen to a corresponding position according to the initial coordinates of the at least two touch points on the device screen acquired by the device screen and the rotation coordinates of the at least two current touch points on the device screen, and output the screen content in the device screen to the device screen.
In a first possible implementation manner, according to the second aspect, the data receiver is specifically configured to: acquiring touch time of the at least two touch points on the screen of the equipment; or acquiring the number of the at least two touch points on the screen of the equipment.
In a second possible implementation manner, according to the first possible implementation manner, if the rotation condition is that the touch time of the at least two touch points is greater than a preset threshold, or the number of the at least two touch points is a first preset number, or the number of the at least two touch points is within a first preset number range;
the data processor is specifically configured to: determining a rotation direction of the at least two touch points rotating around the reference point along the same direction according to the initial coordinates of the at least two touch points on the device screen and the rotation coordinates of the at least two current touch points on the device screen, which are acquired by the data receiver; and rotating the screen content in the screen of the device to a corresponding position according to the rotating direction and a preset angle, wherein the preset angle can be any preset angle.
In a third possible implementation manner, according to the first possible implementation manner, if the rotation condition is that the touch time of the at least two touch points is less than a preset threshold, or the number of the at least two touch points is a second preset number, or the number of the at least two touch points is within a second preset number range;
the data processor is further configured to determine that the screen content in the device screen is in a selected state, where the selected state is used to indicate that the screen content in the device screen and the at least two touch points rotate simultaneously.
In a fourth possible implementation manner, according to the third possible implementation manner, the data processor is specifically configured to: determining a rotation direction of the at least two touch points rotating around the reference point along the same direction according to the initial coordinates of the at least two touch points on the device screen and the rotation coordinates of the at least two current touch points on the device screen, which are acquired by the data receiver; and rotating the screen content in the equipment screen to the position corresponding to the rotating coordinate of the current at least two touch points on the equipment screen according to the rotating direction.
In a fifth possible implementation manner, according to a fourth possible implementation manner, the device screen is configured to sense whether the at least two touch points exist;
the data receiver is further configured to continue to acquire the current rotation coordinates of the at least two touch points on the device screen if the determination result of the device screen indicates that the at least two touch points exist, and the data receiver is further configured to stop rotating the screen content in the screen if the determination result of the device screen indicates that the at least two touch points do not exist.
According to the screen rotating method, the screen rotating device and the terminal equipment, provided by the embodiment of the invention, the screen content in the screen of the terminal equipment can be manually rotated according to the initial coordinates of the at least two touch points on the screen before rotation and the rotation coordinates of the at least two touch points on the screen after rotation around the reference point along the same direction, so that the user experience is enhanced.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.
Fig. 1 is a schematic flowchart of a method for rotating screen content according to an embodiment of the present invention;
FIG. 2 is a flowchart illustrating another method for rotating screen content according to an embodiment of the present invention;
FIG. 3 is a flowchart illustrating a method for rotating screen content according to another embodiment of the present invention;
FIG. 4 is a diagram illustrating a rotation effect of a rotation method of screen content according to the prior art;
FIG. 5 is a diagram illustrating the rotation effect of the embodiment of the present invention in an application scenario;
FIG. 6 is a diagram illustrating the rotation effect of a fixed angle rotation in another application scenario;
FIG. 7 is a diagram illustrating the rotation effect of an arbitrary angle rotation in another application scenario;
fig. 8 is a schematic structural diagram of a device for rotating screen content according to an embodiment of the present invention;
fig. 9 is a schematic structural diagram of a terminal device according to another embodiment of the present invention;
fig. 10 is a schematic structural diagram of a terminal device according to an embodiment of the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
In the prior art, the rotation of the screen content is to sense the swing direction of the handheld device when the handheld device is used by a user through an automatic rotation screen function (such as a G-sensor gravity sensor) of the handheld device, and then to rotate the screen content according to the swing direction of the handheld device. However, in a scene of actually using the handheld device (for example, when the handheld device is lying on side or lying down, the handheld device is used to look over an electronic book, browse a web page or a picture), in most cases, the effect of rotating the screen content is not good, and the handheld device is not suitable for the reading habit when the handheld device is lying on side. In order to solve the above problem, an embodiment of the present invention provides a method for rotating screen content, as shown in fig. 1, the method for rotating screen content includes the following steps:
101. the terminal equipment acquires the characteristic values of at least two touch points on the screen and the initial coordinates of the at least two touch points on the screen.
Optionally, the characteristic values of the at least two touch points on the screen are touch time of the at least two touch points on the screen or the number of the at least two touch points on the screen. The number of the touch points is usually two, but may be more than two.
102. When the characteristic values of the at least two touch points meet a preset rotation condition, the terminal device obtains the rotation coordinates of the at least two touch points on the screen after the at least two touch points rotate around the reference point along the same direction.
The reference point may be a center point of at least two touch points, or any point on the screen content in the screen, and the rotation method includes: the rotating coordinates are coordinates of the at least two touch points on the screen after rotating around the reference point along the same direction.
103. And the terminal equipment rotates the screen content in the screen to a corresponding position according to the initial coordinates of the at least two touch points on the screen and the rotation coordinates of the at least two current touch points on the screen.
It should be noted that, before the screen rotation mode of the present invention is implemented, if the terminal device has an automatic screen rotation function (such as a G-sensor gravity sensor), the automatic screen rotation function of the terminal device needs to be turned off, so that the terminal device can manually rotate the screen.
The screen content rotation method provided by the embodiment of the present invention can implement manual rotation of screen content in a screen of a terminal device according to an initial coordinate on the screen before at least two touch points rotate and a rotation coordinate on the screen after the at least two touch points rotate around a reference point along the same direction, so as to enhance user experience, specifically, for example: for a terminal device with an automatic screen rotation function (e.g., a G-Sensor function), after the terminal device closes the automatic screen rotation function, the embodiment of the present invention can implement manual rotation on the content displayed on the screen of the terminal device, such as a user interface UI and an application, through a specific gesture, thereby enhancing user experience; aiming at the terminal equipment which does not have the function of automatically rotating the screen (such as the G-Sensor function), the embodiment of the invention can realize the manual rotation of the content displayed on the screen of the terminal equipment, such as the user interface UI and the application, through the specific gesture, thereby enhancing the user experience.
An embodiment of the present invention provides a method for rotating a screen content, and as shown in fig. 2, a rotation mode of the screen content on a screen mentioned in this embodiment is a fixed angle rotation mode, and specifically, the method for rotating the screen content based on the fixed angle rotation mode includes the following steps:
201. the terminal equipment acquires the characteristic values of at least two touch points on the screen and the initial coordinates of the at least two touch points on the screen.
Optionally, the characteristic values of the at least two touch points on the screen are touch time of the at least two touch points on the screen or the number of the at least two touch points on the screen. The number of the touch points is usually two, but may be more than two.
202. When the characteristic values of the at least two touch points meet a preset rotation condition, the terminal device obtains the rotation coordinates of the at least two touch points on the screen after the at least two touch points rotate around the reference point along the same direction.
The reference point may be a center point of at least two touch points, and each point of the screen content in the screen has a coordinate that can be found, so that the reference point may also be any point on the screen content in the screen, and the at least two touch points may rotate as long as they have a reference on the entire screen content. The above-mentioned rotating method includes: the rotating coordinate terminal device obtains the coordinates on the screen after the at least two touch points rotate around the reference point along the same direction, and the predetermined time is usually short so that the latest positions of the at least two touch points on the screen can be obtained.
Specifically, the rotation condition may be that the touch time of the at least two touch points is greater than a preset threshold, or the number of the at least two touch points is a first preset number, or the number of the at least two touch points is within a first preset number range. The preset threshold may be a value or a range of threshold values, and the threshold value may be preset according to actual application or may be an empirical value in actual application.
203. The terminal equipment determines the rotation direction of the at least two touch points rotating around the reference point along the same direction according to the initial coordinates of the at least two touch points on the screen and the rotation coordinates of the at least two touch points on the screen.
204. And the terminal equipment rotates the screen content in the screen to a corresponding position according to the rotation direction and the rotation angle.
The rotation angle may be any preset angle, and the preset rotation angle may be multiple or one. When the preset rotation angles are multiple, the terminal device may determine an approximate rotation angle of the at least two touch points according to an initial coordinate on the screen before the at least two touch points rotate, a rotation coordinate on the screen after the at least two touch points rotate around a reference point along the same direction, and the reference point, and then select a closest value from the preset rotation angles; further, the rotation angle may be further set to rotate by 90 degrees every time the screen content is rotated once based on the position of the screen content after the previous rotation.
It should be noted that, before the screen rotation mode of the present invention is implemented, if the terminal device has an automatic screen rotation function (such as a G-sensor gravity sensor), the automatic screen rotation function of the terminal device needs to be turned off, so that the terminal device can manually rotate the screen.
The rotation method of the screen content provided by the embodiment of the invention can determine the rotation direction according to the initial coordinates and the rotation coordinates of at least two touch points, so that the screen content on the screen can rotate to the corresponding position along the rotation direction and the preset angle.
An embodiment of the present invention provides a method for rotating a screen content, and as shown in fig. 3, a rotation mode of the screen content on a screen mentioned in this embodiment is an arbitrary angle rotation mode, and specifically, the method for rotating the screen content based on the arbitrary angle rotation mode includes the following steps:
301. the terminal equipment acquires the characteristic values of at least two touch points on the screen and the initial coordinates of the at least two touch points on the screen.
Optionally, the characteristic values of the at least two touch points on the screen are touch time of the at least two touch points on the screen or the number of the at least two touch points on the screen. The number of the touch points is usually two, but may be more than two.
302. When the characteristic values of the at least two touch points meet a preset rotation condition, the terminal device obtains the rotation coordinates of the at least two touch points on the screen after the at least two touch points rotate around the reference point along the same direction.
The reference point may be a center point of at least two touch points, and each point of the screen content in the screen has a coordinate that can be found, so that the reference point may also be any point on the screen content in the screen, and the at least two touch points may rotate as long as they have a reference on the entire screen content. The above-mentioned rotating method includes: the rotating coordinate terminal device obtains the coordinates on the screen after the at least two touch points rotate around the reference point along the same direction, and the predetermined time is usually short so that the latest positions of the at least two touch points on the screen can be obtained.
Specifically, the rotation condition may be that the touch time of the at least two touch points is less than a preset threshold, or the number of the at least two touch points is a second preset number, or the number of the at least two touch points is within a second preset number range. The preset threshold may be a value or a range of threshold values, and the threshold value may be preset according to actual application or may be an empirical value in actual application.
302a, when the characteristic values of at least two touch points meet a preset rotation condition, the terminal equipment determines that the screen content in the screen is in a selected state.
Specifically, the presentation form of the screen content in the selected state is that the current screen content is slightly smaller than the original screen content, that is, when the screen content is slightly reduced, the terminal device starts to enter the arbitrary angle rotation mode, and in the selected state, the screen content dynamically rotates according to a specific gesture, and simultaneously the current screen content simultaneously rotates along with the rotation of the at least two touch points, so that only when the at least two touch points disappear, that is, the specific gesture stops, and leaves the touch screen, the rotation process of the screen content is finished.
302b, after the at least two touch points rotate around the reference point along the same direction, the terminal device obtains the rotation coordinates of the current at least two touch points on the screen.
303. The terminal equipment determines the rotating direction of the at least two touch points rotating around the reference point along the same direction according to the initial coordinates of the at least two touch points on the screen and the rotating coordinates of the at least two touch points on the screen.
304. And the terminal equipment rotates the screen content in the screen to the position corresponding to the rotating coordinates of the current at least two touch points on the screen according to the rotating direction.
305. The terminal equipment judges whether at least two touch points exist or not.
If the determination result in the step 305 is that the at least two touch points exist, the process goes to the step 303, and if the determination result in the step 305 is that the at least two touch points do not exist, the screen content in the screen stops rotating.
Specifically, the time period for the terminal device to acquire the coordinates of the at least two touch points on the screen is short, which is equivalent to real-time acquisition, so that after the terminal device is in the selected state, the screen content in the screen simultaneously rotates along with the sliding gesture of the user, and only when the screen does not sense the at least two touch points and does not acquire the coordinates of the at least two touch points, the screen content changes from the selected state to the normal state, and the rotation stops, thereby completing the rotation operation.
According to the screen content rotating method provided by the embodiment of the invention, after at least two touch points rotate around the reference point along the same direction, the terminal equipment determines the rotating direction according to the initial coordinates of the at least two touch points before rotation and the rotating coordinates after rotation, so that the screen content rotates along with the at least two touch points at the same time in a selected state, and after the screen content rotates to the corresponding position, the at least two touch points leave the screen, and at the moment, the screen content in the screen is displayed in a proper size at the current position.
Specifically, the three embodiments of the present invention can be applied to the following two scenarios, specifically:
the application scene one: when a user lies on one side or lies down, such as turning over an electronic book, browsing a webpage or a picture, the rotation effect of the prior art is as shown in fig. 4, which is not in accordance with the reading habit when lying on one side, and the screen is easy to accidentally rotate due to shaking. In this scenario, the current requirement of the user is to expect that the handheld device can always lock the screen at a certain angle, that is, when the handheld device rotates, the screen content in the handheld device may not rotate along with the rotation of the handheld device, and the screen content rotating method of the present invention can implement the above scenario, specifically, the above scenario can be implemented by the screen content rotating method of the present invention
As shown in fig. 5.
Application scenario two: when a plurality of users use one handheld device at the same time, such as browsing web pages, pictures and the like, and the users at different angles need to watch or read carefully, the prior art cannot meet the use requirement of the scene and can only realize the purpose by rotating the handheld device; the embodiment can realize that the screen is rotated without rotating the whole handheld device, so that the requirement that the screen is rotated to an angle suitable for the browsing habit of a user at a certain position when multiple users browse is met. Therefore, if a plurality of users are respectively positioned in four different directions of the handheld device, and the users in all the directions need to browse the current screen content in sequence, the method can be realized through the fixed-angle rotation of the screen content provided by the invention. The specific realization effect is as follows:
a user directly underneath the handheld device may browse through the top left diagram in fig. 6;
a user right to the left of the handheld device may browse through the top right diagram in fig. 6;
a user directly above the handheld device may browse through the bottom right diagram in fig. 6;
a user right at the handheld device may browse through the bottom left diagram in fig. 6.
However, if there are more users or the users are not in each positive direction (positive up \ positive down \ positive left \ positive right) of the handheld device, the requirements of the users can be met by rotating the screen content at any angle mentioned in the present invention, and the specific implementation effect is as shown in fig. 7:
specifically, the upper left of fig. 7 is a normal mode, and when three touch points are touched or three touch points are touched for a long time, as shown in the upper right of fig. 7, the screen content is slightly reduced and is in a selected state; at this time, the user may drag the touch point to rotate the current screen content, as shown in the lower right of fig. 7; when the three touch points leave, the image is displayed in a proper size at the angle, as shown in the lower left of fig. 7.
In addition, according to the descriptions of the two application scenarios, the screen rotation method provided in the embodiment of the present invention can implement manual rotation of a screen content in a screen of a terminal device at a fixed angle and/or at an arbitrary angle, so as to enhance user experience, specifically, for example: for a terminal device with an automatic screen rotation function (e.g., a G-Sensor function), after the terminal device closes the automatic screen rotation function, the embodiment of the present invention can implement manual rotation on the content displayed on the screen of the terminal device, such as a user interface UI and an application, through a specific gesture, thereby enhancing user experience; aiming at the terminal equipment which does not have the function of automatically rotating the screen (such as the G-Sensor function), the embodiment of the invention can realize the manual rotation of the content displayed on the screen of the terminal equipment, such as the user interface UI and the application, through the specific gesture, thereby enhancing the user experience.
An embodiment of the present invention provides a device for rotating screen content, as shown in fig. 8, where the device for rotating screen content can implement the above-mentioned method for rotating screen content, and the device for rotating screen content 4 includes: an acquisition unit 41 and a rotation unit 42, wherein:
the acquiring unit 41 is configured to acquire feature values of at least two touch points on the screen and initial coordinates of the at least two touch points on the screen.
The acquiring unit 41 is further configured to, when the feature values of the at least two touch points satisfy a predetermined rotation condition, acquire rotation coordinates of the at least two touch points on the screen after the at least two touch points rotate around the reference point along the same direction.
And a rotating unit 42, configured to rotate the screen content in the screen to a corresponding position according to the initial coordinates of the at least two touch points on the screen acquired by the acquiring unit 41 and the rotating coordinates of the at least two touch points on the screen.
Optionally, the collecting unit 41 is specifically configured to: acquiring touch time of at least two touch points on a screen; or acquiring the number of at least two touch points on the screen.
Optionally, if the rotation condition is that the touch time of the at least two touch points is greater than a preset threshold, or the number of the at least two touch points is a first preset number, or the number of the at least two touch points is within a first preset number range.
The rotation unit 42 is specifically configured to: determining the rotation direction of the at least two touch points rotating around the reference point along the same direction according to the initial coordinates of the at least two touch points on the screen and the rotation coordinates of the at least two touch points on the screen, which are acquired by the acquisition unit 41; and rotating the screen content in the screen to a corresponding position according to the rotating direction and a preset angle, wherein the preset angle can be any preset angle.
Optionally, if the rotation condition is that the touch time of the at least two touch points is less than the preset threshold, or the number of the at least two touch points is a second preset number, or the number of the at least two touch points is within a second preset number range.
And the rotating unit 42 is further configured to determine the screen content in the screen to be in a selected state, where the selected state is used to indicate that the screen content in the screen rotates simultaneously with the at least two touch points.
Optionally, the rotating unit 42 is specifically configured to: determining the rotation direction of at least two touch points rotating around the reference point along the same direction according to the initial coordinates of the at least two touch points on the screen acquired by the acquisition unit 41 and the rotation coordinates of the at least two touch points on the screen; and rotating the screen content in the screen to the position corresponding to the rotating coordinates of the current at least two touch points on the screen according to the rotating direction.
Optionally, the acquisition unit 41 is configured to determine whether at least two touch points exist.
The acquiring unit 41 is further configured to, if the acquiring unit 41 determines that at least two touch points exist, continue to acquire the rotation coordinates of the current at least two touch points on the screen.
The rotating unit 42 is further configured to stop rotating the screen content in the screen if the acquiring unit 41 determines that at least two touch points do not exist.
The screen content rotating device provided by the embodiment of the invention can realize the manual rotation of the screen content in the screen of the terminal equipment according to the initial coordinates of the at least two touch points on the screen before rotation and the rotating coordinates of the at least two touch points on the screen after rotation around the reference point along the same direction, thereby enhancing the user experience.
An embodiment of the present invention provides a terminal device, as shown in fig. 9, where the terminal device may be configured to implement the above-mentioned screen content rotation method, and the terminal device 5 includes: the terminal device 5 includes a device screen 51, a data receiver 52, and a data processor 53, where the device screen 51 is connected to the data receiver 52 and the data processor 53, respectively, and the device screen may be a smart phone, a Personal Digital Assistant (PDA), a palm computer, or an electronic device with a touch input function.
The device screen 51 in the terminal device may be a combined screen including a display screen and a touch screen, or may be a multifunctional screen in which the touch function of the touch screen is integrated on the display screen. The screen 51 supports a multi-touch technology, is used for displaying contents to be displayed by the terminal device, and is also used for sensing the sliding of a touch point of a touch object on the screen of the device, receiving an input of the touch object on the touch point of the screen of the device, converting the input into a response signal, and sending the response signal to a data receiver.
The data receiver 53 in the terminal device is configured to receive a touch input of a user received by the device 51, and the data processor 52 is configured to process data received by the data receiver 53, and output and display the processed data on the device screen 51, where the data processor 52 and the data receiver 53 may be two separate modules, or may be integrated into one processing module, where:
the data receiver 52 is configured to obtain feature values of at least two touch points on the device screen 51 and initial coordinates of the at least two touch points on the device screen 51, and send the feature values to the data processor 53.
And a data processor 53, configured to determine whether the feature values of the at least two touch points acquired by the device screen 51 satisfy a predetermined rotation condition.
The data receiver 52 is further configured to, if the determination result of the data processor 53 is that the feature values of the at least two touch points satisfy the predetermined rotation condition, obtain the rotation coordinates of the at least two touch points on the device screen 51 after the at least two touch points rotate around the reference point along the same direction.
And the data processor 53 is further configured to rotate the screen content in the device screen 51 to a corresponding position according to the initial coordinates of the at least two touch points on the device screen 51 and the rotation coordinates of the at least two touch points on the device screen 51, which are acquired by the data receiver 52, and output the screen content in the device screen 51 to the device screen 51.
Optionally, the data receiver 53 is specifically configured to: acquiring touch time of at least two touch points on the device screen 51; alternatively, the number of at least two touch points on the device screen 51 is acquired.
Optionally, if the rotation condition is that the touch time of the at least two touch points is greater than a preset threshold, or the number of the at least two touch points is a first preset number, or the number of the at least two touch points is within a first preset number range.
The data processor 53 is specifically configured to: determining the rotation direction of the at least two touch points rotating around the reference point along the same direction according to the initial coordinates of the at least two touch points on the device screen 51 acquired by the data receiver 52 and the rotation coordinates of the at least two touch points on the device screen 51; the screen content in the device screen 51 is rotated to the corresponding position according to the rotation direction and a preset angle, wherein the preset angle can be any preset angle.
Optionally, if the rotation condition is that the touch time of the at least two touch points is less than the preset threshold, or the number of the at least two touch points is a second preset number, or the number of the at least two touch points is within a second preset number range.
The data processor 53 is further configured to determine the screen content in the device screen 51 to be in a selected state, wherein the selected state is used for the screen content in the device screen 51 to rotate simultaneously with the at least two touch points.
Optionally, the data processor 53 is specifically configured to: determining the rotation direction of the at least two touch points rotating around the reference point along the same direction according to the initial coordinates of the at least two touch points on the device screen 51 acquired by the data receiver 52 and the rotation coordinates of the at least two touch points on the device screen 51; and rotating the screen content in the device screen 51 to the position corresponding to the rotation coordinates of the current at least two touch points on the device screen 51 according to the rotation direction.
Optionally, the device screen 51 is configured to sense whether at least two touch points exist.
The data receiver 52 is further configured to, if the determination result of the device screen 51 indicates that at least two touch points exist, continue to acquire the rotation coordinates of the current at least two touch points on the device screen 51;
the data processor 53 is further configured to stop the rotation of the screen content in the screen if the determination result of the device screen 51 is that at least two touch points do not exist.
According to the terminal device provided by the embodiment of the invention, the screen content in the screen of the terminal device can be manually rotated according to the initial coordinates of the at least two touch points on the screen before rotation and the rotation coordinates of the at least two touch points on the screen after rotation around the reference point along the same direction, so that the user experience is enhanced.
Fig. 10 is a schematic diagram of a specific structure of the terminal device of the present invention, and as shown in fig. 10, fig. 10 shows a specific embodiment of an electronic device (i.e., the terminal device of the present invention), in which the electronic device 6 includes a transmitting circuit 62, a receiving circuit 63, a power controller 64, a processor 66, a memory 67 and an antenna 61. The processor 66 is used to control the operation of the electronic device 6. Memory 67 may include both read-only memory and random-access memory, and provides instructions and data to processor 66. A portion of the memory 67 may also include non-volatile row random access memory (NVRAM). In a particular application, the electronic device 6 may be embedded in or may itself be a wireless communication device, such as a mobile telephone, and may further include a carrier that houses the transmit circuitry 62 and receive circuitry 63 to allow data transmission and reception between the electronic device 6 and a remote location. The transmit circuitry 62 and receive circuitry 63 may be coupled to an antenna 61. The various components of the electronic device 6 are coupled together by a bus system 68, wherein the bus system 68 includes a power bus, a control bus, and a status signal bus in addition to a data bus. For clarity of illustration, however, the various buses are labeled as bus system 68 in fig. 10. The electronic device 6 may also include a decoding processor 65.
The method for rotating screen content according to the embodiment of the present invention may be applied to the processor 66, or implemented by the processor 66, and the electronic device according to the embodiment of the present invention may be specifically implemented by the electronic device shown in fig. 10, and the processing module in the electronic device may be understood as the processor 66 in the electronic device shown in fig. 10. Processor 66 may be an integrated circuit chip having instruction and data execution capabilities, as well as signal processing capabilities. In implementation, the steps of the above method may be performed by instructions in the form of hardware integrated logic circuits or software in the processor 66. The processor 66 may be a general purpose processor (CPU), a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic, discrete hardware components. The various methods, steps and logic blocks disclosed in the embodiments of the present invention may be implemented or performed. The general purpose processor 66 may be a microprocessor or the processor 66 may be any conventional processor or the like. The steps of the screen content rotation method disclosed in connection with the embodiments of the present invention may be directly implemented by a hardware processor, or may be implemented by a combination of hardware and software modules in the processor 66. The software module may be located in ram, flash memory, rom, prom, or eprom, registers, etc. storage media as is well known in the art. The storage medium is located in the memory 67, and the processor reads the information in the memory 67 and completes the steps of the method in combination with the hardware.
Those of ordinary skill in the art will understand that: all or part of the steps of implementing the method embodiments may be implemented by hardware (e.g., a processor) associated with program instructions, where the program may be stored in a computer-readable storage medium, and when executed, performs the steps including the method embodiments; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.
The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.
Claims (18)
1. A method of rotating screen content, comprising:
the method comprises the steps that terminal equipment obtains characteristic values of at least two touch points on a screen and initial coordinates of the at least two touch points on the screen;
when the characteristic values of the at least two touch points meet a preset rotation condition, after the at least two touch points rotate around a reference point along the same direction, the terminal equipment acquires rotation coordinates of the at least two touch points on the screen;
and the terminal equipment rotates the screen content in the screen to a corresponding position according to the initial coordinates of the at least two touch points on the screen and the rotation coordinates of the at least two current touch points on the screen.
2. The method according to claim 1, wherein the terminal device obtains feature values of at least two touch points on a screen, and comprises:
the terminal equipment acquires the touch time of the at least two touch points on the screen;
or,
and the terminal equipment acquires the number of the at least two touch points on the screen.
3. The method according to claim 2, wherein if the rotation condition is that the touch time of the at least two touch points is greater than a preset threshold, or the number of the at least two touch points is a first preset number, or the number of the at least two touch points is within a first preset number range;
the terminal device rotates the screen content in the screen to a corresponding position according to the initial coordinates of the at least two touch points on the screen and the current rotation coordinates of the at least two touch points on the screen, and the method comprises the following steps:
the terminal equipment determines the rotation direction of the at least two touch points rotating around the reference point along the same direction according to the initial coordinates of the at least two touch points on the screen and the rotation coordinates of the at least two current touch points on the screen;
and the terminal equipment rotates the screen content in the screen to a corresponding position according to the rotating direction and a preset angle, wherein the preset angle can be any preset angle.
4. The method according to claim 2, wherein if the rotation condition is that the touch time of the at least two touch points is less than a preset threshold, or the number of the at least two touch points is a second preset number, or the number of the at least two touch points is within a second preset number range;
before the at least two touch points rotate around the reference point along the same direction, the method further comprises:
the terminal equipment determines that the screen content in the screen is in a selected state, wherein the selected state is used for indicating that the screen content in the screen and the at least two touch points rotate simultaneously.
5. The method according to claim 4, wherein the terminal device rotates the screen content in the screen to a corresponding position according to the initial coordinates of the at least two touch points on the screen and the rotation coordinates of the current at least two touch points on the screen, and comprises:
the terminal equipment determines the rotation direction of the at least two touch points rotating around the reference point along the same direction according to the initial coordinates of the at least two touch points on the screen and the rotation coordinates of the at least two current touch points on the screen;
and the terminal equipment rotates the screen content in the screen to the position corresponding to the rotating coordinate of the current at least two touch points on the screen according to the rotating direction.
6. The method according to claim 5, wherein after the terminal device rotates the screen content in the screen to the position corresponding to the rotation coordinate of the current at least two touch points on the screen according to the rotation direction, the method further comprises:
the terminal equipment judges whether the at least two touch points exist or not;
if the at least two touch points exist, the terminal equipment continues to acquire the rotation coordinates of the at least two touch points on the screen;
and if the at least two touch points do not exist, stopping rotating the screen content in the screen.
7. A rotating apparatus for screen content, comprising:
the system comprises an acquisition unit, a display unit and a control unit, wherein the acquisition unit is used for acquiring characteristic values of at least two touch points on a screen and initial coordinates of the at least two touch points on the screen;
the acquisition unit is further configured to, when the characteristic values of the at least two touch points satisfy a predetermined rotation condition, acquire a current rotation coordinate of the at least two touch points on the screen after the at least two touch points rotate around a reference point in the same direction;
and the rotating unit is used for rotating the screen content in the screen to a corresponding position according to the initial coordinates of the at least two touch points on the screen acquired by the acquisition unit and the rotating coordinates of the at least two current touch points on the screen.
8. The device according to claim 7, wherein the acquisition unit is specifically configured to: acquiring touch time of the at least two touch points on the screen; or acquiring the number of the at least two touch points on the screen.
9. The apparatus according to claim 8, wherein if the rotation condition is that the touch time of the at least two touch points is greater than a preset threshold, or the number of the at least two touch points is a first preset number, or the number of the at least two touch points is within a first preset number range;
the rotation unit is specifically configured to: determining the rotation direction of the at least two touch points rotating around the reference point along the same direction according to the initial coordinates of the at least two touch points on the screen and the rotation coordinates of the at least two current touch points on the screen, which are acquired by the acquisition unit; and rotating the screen content in the screen to a corresponding position according to the rotating direction and a preset angle, wherein the preset angle can be any preset angle.
10. The apparatus according to claim 8, wherein if the rotation condition is that the touch time of the at least two touch points is less than a preset threshold, or the number of the at least two touch points is a second preset number, or the number of the at least two touch points is within a second preset number range;
the rotation unit is further configured to determine that the screen content in the screen is in a selected state, where the selected state is used to indicate that the screen content in the screen and the at least two touch points rotate simultaneously.
11. The apparatus of claim 10, wherein:
the rotation unit is specifically configured to: determining the rotation direction of the at least two touch points rotating around the reference point along the same direction according to the initial coordinates of the at least two touch points on the screen and the rotation coordinates of the at least two current touch points on the screen, which are acquired by the acquisition unit; and rotating the screen content in the screen to the position corresponding to the rotating coordinate of the current at least two touch points on the screen according to the rotating direction.
12. The apparatus of claim 11, wherein:
the acquisition unit is used for judging whether the at least two touch points exist or not;
the acquisition unit is further used for continuously acquiring the rotation coordinates of the at least two current touch points on the screen if the acquisition unit judges that the at least two touch points exist;
the rotation unit is further configured to stop rotating the screen content in the screen if the acquisition unit determines that the at least two touch points do not exist.
13. A terminal device, comprising: the device screen is respectively connected with the data receiver and the data processor, wherein:
the equipment screen is used for displaying contents to be displayed by the terminal equipment, sensing the sliding of a touch point of a touch object on the equipment screen, receiving the input of the touch object on the touch point on the equipment screen, converting the input into a response signal and sending the response signal to the data receiver;
the data receiver is used for acquiring characteristic values of at least two touch points on the equipment screen and initial coordinates of the at least two touch points on the equipment screen, and sending the characteristic values and the initial coordinates to the data receiver;
the data processor is used for judging whether the characteristic values of the at least two touch points acquired by the equipment screen meet a preset rotation condition or not;
the data processor is further configured to, if the determination result of the data processor is that the characteristic values of the at least two touch points satisfy the predetermined rotation condition, obtain, by the terminal device, rotation coordinates of the at least two touch points on the device screen after the at least two touch points rotate around a reference point in the same direction;
the data processor is further configured to rotate the screen content in the device screen to a corresponding position according to the initial coordinates of the at least two touch points on the device screen acquired by the device screen and the rotation coordinates of the at least two current touch points on the device screen, and output the screen content in the device screen to the device screen.
14. The terminal device of claim 13, wherein the data receiver is specifically configured to: acquiring touch time of the at least two touch points on the screen of the equipment; or acquiring the number of the at least two touch points on the screen of the equipment.
15. The terminal device according to claim 14, wherein if the rotation condition is that the touch time of the at least two touch points is greater than a preset threshold, or the number of the at least two touch points is a first preset number, or the number of the at least two touch points is within a first preset number range;
the data processor is specifically configured to: determining a rotation direction of the at least two touch points rotating around the reference point along the same direction according to the initial coordinates of the at least two touch points on the device screen and the rotation coordinates of the at least two current touch points on the device screen, which are acquired by the data receiver; and rotating the screen content in the screen of the device to a corresponding position according to the rotating direction and a preset angle, wherein the preset angle can be any preset angle.
16. The terminal device according to claim 14, wherein if the rotation condition is that the touch time of the at least two touch points is less than a preset threshold, or the number of the at least two touch points is a second preset number, or the number of the at least two touch points is within a second preset number range;
the data processor is further configured to determine that the screen content in the device screen is in a selected state, where the selected state is used to indicate that the screen content in the device screen and the at least two touch points rotate simultaneously.
17. The terminal device of claim 16, wherein:
the data processor is specifically configured to: determining a rotation direction of the at least two touch points rotating around the reference point along the same direction according to the initial coordinates of the at least two touch points on the device screen and the rotation coordinates of the at least two current touch points on the device screen, which are acquired by the data receiver; and rotating the screen content in the equipment screen to the position corresponding to the rotating coordinate of the current at least two touch points on the equipment screen according to the rotating direction.
18. The terminal device of claim 17, wherein:
the equipment screen is used for sensing whether the at least two touch points exist or not;
the data receiver is further configured to continue to acquire the rotation coordinates of the at least two current touch points on the device screen if the determination result of the device screen indicates that the at least two touch points exist;
the data processor is further configured to stop rotating the screen content in the screen if the determination result of the device screen is that the at least two touch points do not exist.
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