CN107436714B - Method for acquiring screen capture of mobile phone - Google Patents

Abstract

The method is a method for obtaining the screenshot of the mobile phone, including screenshot and window screenshot two kinds of screenshot modes, it divides the interface of the mobile phone screen into two layers of upper frame and lower loose leaf from the space, after users send out the screenshot request order through shaking one way of the mobile phone, the screenshot program makes a response and presents the user operation interface on the mobile phone screen, let users choose the concrete screenshot mode, after users confirm the concrete screenshot mode order, the screenshot program regards affiliated framing interface as the bottom layer according to the corresponding screenshot order, produce the frame finding square on its upper strata, users choose the frame finding content through position and size of adjusting the frame finding square, produce the screenshot and keep the screenshot after confirming the frame finding content. Because the method adopts the direction keys to drive the screen to roll, not only can the full screen capture be realized, but also the super screen capture can be realized.

Description

Method for acquiring screen capture of mobile phone

Technical Field

The invention relates to the technical field of image processing, in particular to a method for screenshot of a mobile phone, which is also suitable for other electronic products such as a desktop computer, a notebook computer, a tablet computer and the like.

Background

The screenshot can intuitively transmit the information content to be expressed and has the function of storing image evidence, so that more and more people enjoy the screenshot, and people like sending the screenshot to transmit related information no matter chat is carried out on QQ or Wechat. However, the existing screenshot tool has the following defects: 1. the method comprises the steps that only full-screen display content on a mobile phone screen can be intercepted, only scrolling display content on the mobile phone screen can be intercepted, a screenshot technology 2 and a scrolling screenshot which can control operation to intercept full-screen content and operation to intercept scrolling content do not exist, a split-screen and split-screen intercepting mode is adopted for all scrolling content, the boundary (namely the position of a starting point and the position of an end point) of each picture is marked during scrolling and is automatically intercepted, and then the picture is spliced into a complete picture. 3. The operation mode is not convenient enough, the power key and the volume key are required to be pressed for combined interception, and sometimes, the combined keys cannot be synchronized due to the insensitivity of the keys, so that the operation experience of a user is influenced.

Three computers recognize: recognizing that when a plurality of application programs are opened in a restored state on a computer desktop, it is found that interfaces of the application programs are actually stacked (see fig. 1); and cognition II, when a program interface of Word is opened, the program interface is found to be composed of a frame and a page, the frame and the Word page are also stacked, and in the stereoscopic space vision, the frame is positioned at the top layer, and the Word page is positioned at the bottom layer (see figure 2), so that the content of the Word page can be displayed and hidden along with the scrolling of the scroll bar. Carefully observing that the mobile phone application capable of screen scrolling to present content is also stacked by a frame and a loose leaf (see fig. 3); and recognizing the third, in Word, a scroll bar exists on an interface frame, up-down direction keys are arranged at two ends of the scroll bar, and a mouse is used for pressing the direction keys at the upper end and the lower end of the scroll bar to drive a page to move in the opposite direction to scroll, screen and page.

Three life common senses: the general knowledge I includes absolute movement and relative movement, when an automobile runs forwards, a telegraph pole is taken as a reference object, the automobile is far away from the telegraph pole, the automobile is taken as a reference object, a road rolls backwards, the telegraph pole is far away from the automobile, when the automobile runs backwards, the telegraph pole is taken as a reference object, the automobile is reversed to the telegraph pole, the automobile is taken as a reference object, and the telegraph pole is reversed to the automobile; the second common sense, there is a picture on the desk, and the frame is used to fix the range to get the screenshot, and there are two ways to expand the range: firstly, the relative rest position of the B side line of the frame is maintained, the A side line is pulled to expand the range (see figure 4), and secondly, the relative rest position of the A side line of the frame is maintained, and the picture and the B side line are synchronously pulled to expand the range (see figure 5). And in the third general knowledge, when a train is in a sitting state, the scenery outside the window needs to be photographed, only the scenery flashing at a certain moment in the window can be photographed in the carriage, and the head can only be extended out of the window when the scenery flashing or about to flash outside the window needs to be photographed.

Based on the knowledge, a set of screenshot technical scheme is formed: if the frame of the viewfinder is layered on the upper layer of the frame, the viewfinder is a screenshot of the viewfinder of the screen interface (see fig. 6), namely the interface content of the shell part of the mobile phone; if the frame for viewing is stacked on the lower layer of the frame and the upper layer of the loose leaf, the frame is used for viewing and screenshot of a window interface (see fig. 7), namely the loose leaf content which is seen through the hollow part of the frame), if a virtual direction key is generated on the screen, the direction key is pressed to drive the screen to roll in the opposite direction, and one end edge line of the frame for viewing is synchronously pulled to move together to realize the screenshot of the super screen (see fig. 14 and 15). The technical invention and the understanding of people are separated by a layer of window paper, so people can not see the window paper, once the layer of window paper is poked, the window paper is broken, the mind is open, and the problem is solved easily.

Disclosure of Invention

A method for obtaining screen capture of mobile phone includes two capture modes of screen capture and window capture, the part of program interface with characters and images/pictures capable of being browsed by rolling is called loose-leaf, the rest part is frame (in computer program, the rolling bar and scale belong to the structural part of frame), the hollow part of frame is called window, it is characterized by that: when a user sends a screenshot requesting instruction in a request mode agreed with a screenshot program in advance, the screenshot program makes a response and presents a user operation interface on a mobile phone screen to enable the user to select a specific screenshot mode, when the user confirms the screenshot mode and sends a specific screenshot instruction, the screenshot program generates a framing frame on the upper layer according to the initial size agreed in advance by taking the corresponding framing interface as the bottom layer according to the corresponding screenshot instruction, the user selects framing content by adjusting the position and the size of the framing frame, and after confirming the framing content, the screenshot is determined to be generated and stored.

The method has two appointed request modes: when the user shakes and circles (see fig. 8), the screenshot program responds to any one of the two request commands, a user operation interface (see fig. 9) is presented, the loose-leaf is locked, and the user cannot scroll by sliding the screen with the finger.

The program of the method generates the initial size of the framing box in two ways: full size, which is the maximum size of the view finder in the screen/window viewing scene, i.e. the size of the screen/window, and small size (see fig. 8), which is a moderate numerical size default to the system and not the minimum size that the view finder can shrink.

The user operation interface is positioned on a top layer interface in a mobile phone screen interface, the interface can be randomly dragged to any position of a screen by pressing the interface with fingers, and two buttons for selecting a view scene are arranged on the interface when the screen capture is carried out: screens and windows (see fig. 9).

The screen shot is performed when the selected view scene is the screen (fig. 10B), and the screen shot is performed when the selected view scene is the window (fig. 11B).

The screenshot instructions of the method are two: screenshot instructions and window screenshot instructions. The corresponding screenshot modes include two types: screenshots and window screenshots.

Screenshot: the method is characterized in that the contents of a screen interface are taken as a view scene according to a screenshot command, all or part of the contents displayed on the screen interface are subjected to view screenshot, and the contents of the screen interface comprise the contents of a frame and a loose leaf.

Screenshot in a window: the method is characterized in that the content of a window interface is taken as a view-finding scene according to a window screenshot instruction, all or part of the content presented on the window interface is subjected to view-finding screenshot, and the content of the window interface comprises the content at the current moment and the content at the historical/future moment.

If the content displayed in the window interface before the screen is scrolled is the content at the current moment, the content which is not displayed at present in the window interface and needs to be displayed at the later stage is the content at the future moment.

And if the content displayed on the window interface after the screen is rolled is the content at the current moment, the content which is hidden currently in the window interface and is displayed earlier is the content at the historical moment.

After the screenshot program obtains the screenshot command, according to the corresponding screenshot command, the corresponding viewing interface is taken as the bottom layer, a viewing frame is generated on the bottom layer according to the initial dimension layer appointed in advance, the viewing frame of the screenshot is stacked above the frame layer, the viewing frame of the screenshot is stacked above the loose leaf below the frame, and the selected viewing range of the frame is the content of the screenshot.

When the selected screenshot instruction is a window screenshot and no loose-leaf content exists on the screen interface, the screenshot program takes the content of the screen interface as a viewing object.

The function of the view finding frame is to function as a view finding lens of a camera, eight contact points are arranged on the view finding frame, the contact points are respectively the top points of four corners of the frame and the middle points of four side lines, when a finger is just placed on the eight contact points, the contact points can display two dragging arrows in opposite directions, the size of the frame can be adjusted by dragging the contact points, and the area of the frame is enlarged or reduced to obtain corresponding view finding contents (see fig. 12 and 13).

Under the screen view interface, when the size of the view frame is smaller than that of the view interface screen, the position of the view frame in the screen can be moved by pressing the frame with fingers and sliding.

Under the window viewing interface, when the size of the viewing frame is smaller than that of the viewing interface window and the eight contacts are in a dominant state, the frame is pressed by fingers to slide, and the position of the viewing frame in the window can be moved; the viewfinder cannot be moved when the three contacts on the upper/lower lines are in a hidden state.

Under the window viewing interface, when the upper/lower lines of the viewing frame are hidden outside the window boundary, the three contacts on the upper/lower lines are in a hidden state, and the positions of the left and right line contacts are located at the middle points of the distances between the lower/upper lines of the frame and the upper/lower boundary of the window instead of the upper/lower lines of the frame (see fig. 14B).

In the window framing scene, two arrows (see fig. 13 and 14) in an upward direction and a downward direction are presented on the user operation interface, and the actions of the two arrows are as follows: the framing square frame edge line is driven to move up and down, and the loose-leaf hinge is driven to roll across the screen in the opposite direction, so that super-screen framing is realized (see fig. 14 and 15). In practical application, the method defines that the direction key of the scroll driving can be replaced by pressing an up volume key and a down volume key of the mobile phone (see fig. 8), wherein the up volume key represents an upward direction arrow, and the down volume key represents a downward direction arrow.

When the upper edge line of the framing frame is driven by the upward direction arrow to move upwards from the relative position of the initial value of the window to be close to the upper boundary of the window, the loose-leaf is driven to roll downwards and reversely, the lower edge line is synchronously pulled to stretch the length of the frame, and the hidden contents above the frame are displayed.

When the lower edge line of the viewing frame is hidden outside the lower boundary of the window, the upper edge line of the viewing frame is driven to move downwards from the upper boundary position of the window to return to the relative position of the initial value of the window according to a downward arrow, the loose-leaf is driven to roll upwards and reversely, the lower edge line is synchronously pulled to return to the relative position of the initial value of the window and retract the length of the frame, and the hidden content below the frame is displayed.

When the downward arrow drives the lower edge line of the framing box to move downwards from the relative position of the initial value of the window to the position adjacent to the lower edge of the window, the loose-leaf is driven to roll upwards and reversely, the upper edge line is synchronously pulled to stretch the length of the box, and the hidden contents below the frame are displayed.

When the upper edge line of the viewing frame is hidden outside the upper boundary of the window, the lower edge line of the viewing frame is driven to move upwards from the lower boundary position of the window to return to the relative position of the initial value of the window according to an upward arrow, the loose-leaf is driven to roll downwards in the opposite direction, the upper edge line is synchronously pulled to return to the relative position of the initial value of the window and retract the length of the frame, and the hidden contents above the frame are displayed.

And (5) carrying out basic operation steps of screenshot of the mobile phone.

The first step is as follows: in the current scene, a screenshot request instruction is sent out by convention.

After the request instruction is sent out, the screenshot program makes a response and presents a user operation interface on a mobile phone screen, so that the user can select a specific screenshot mode (see fig. 9).

The second step is that: and selecting a specific screenshot mode and sending a specific screenshot instruction according to the information prompt of the user operation interface (see fig. 10B and 11B).

The third step: the size of the framing box is adjusted to frame the screenshot (see fig. 12B, 13B).

If the content presented at the current time on the window interface is to be filmed with the content presented at the historical/future time, the direction arrow on the user operation interface can be pressed to drive the screen to scroll (see fig. 14B).

When the screenshot content is determined, the determination key is clicked, and the screenshot content is saved in a picture format (see fig. 15).

The technology of the invention can also be applied to a computer, and the operation method on the computer is that the screenshot tool on the computer desktop is clicked to run the icon to start the screenshot program, the screenshot tool icon is loaded in the time display area on the desktop taskbar after the program is started, the icon is clicked, the user operation interface appears on the screen, and the operation method is consistent with the application on the mobile phone.

When the invention is applied to a computer, two left and right direction arrows are additionally arranged on a user operation interface because the screen has a transverse scroll bar.

When the invention is applied to a computer, if a screen of a certain current application program has multi-layer loose-leaf windows, the screenshot program only regards the first loose-leaf window (namely the largest loose-leaf window) as the loose-leaf window, and other loose-leaf windows as loose-leaf contents in the first loose-leaf window.

The invention is applied to a computer, and the contacts of the four side lines of the view finding frame are defined as the following shortcut keys for pulling in order to facilitate the quick operation.

Ctrl + arrow key, pull the contact outward to enlarge the box area: ctrl + ← to pull the left edge outwards; ctrl + →, pulling the right edge outward; ctrl + ×, pulling the upper edge line outwards; ctrl + ↓, pulling the lower edge line outward.

Alt + arrow key, pull contact inward to reduce box area: alt + →, pulling the left edge inward; alt + ← pulling the right line inwards; ctrl + ↓, pulling the upper edge line inwards; ctrl + ° pulls the lower edge inwards.

The invention is applied to a computer, and in order to facilitate quick operation, Alt + direction keys are defined to drive a screen to scroll in the opposite direction: alt + ↓, vertical downward direction keys, Alt + ← horizontal leftward direction keys, Alt + → horizontal rightward direction keys.

Drawings

FIG. 1: the computer desktop is provided with a plurality of application programs which are opened in a recovery state, and interfaces of the application programs are stacked.

FIG. 2: the Word program interface schematic diagram is characterized in that a screen interface consists of a frame (scroll bars and scales belong to structural parts of the frame) and a loose-leaf page, the scroll bars and the scales are stacked together in a three-dimensional space, the frame is positioned at an upper layer, and the page is positioned at a lower layer.

FIG. 3: the frame of the mobile phone application program and the loose-leaf are stacked and placed schematically.

FIG. 4: one way to expand the frame view is to show that the frame does not move and only the edge of the frame is stretched.

FIG. 5: another way for expanding the frame view is schematically shown, and the frame edge line is stretched while the frame is pulled to move.

FIG. 6: and (5) under the instruction of screenshot, stacking and placing schematic diagrams of all interfaces. As can be seen from the figure, the framing box is layered on top of the frame layer, and the entire screen range can be captured.

FIG. 7: and under the instruction of the screenshot of the window, stacking and placing schematic diagrams of all interfaces. As can be seen from the figure, the framing boxes are stacked below the frame layer, above the leaflet, and therefore all or part of the content of the leaflet can be captured, but not the content of the frame. Under the instruction, the screenshot program can drive the loose-leaf to roll and capture the super-screen picture.

FIG. 8: and (4) setting an interface schematic diagram by the mobile phone screenshot tool. To use the screenshot tool, the program needs to be started, and the screenshot request and the initial size of the view box are agreed in advance, and the method requests commands including 'pan-pan' and 'circle-turn' but not limited to the two commands.

FIG. 9: and the user operates the interface schematic diagram. After the screenshot request instruction is sent out, the program presents a user operation interface on the screen. If the user operates on the computer, the screenshot tool icon of the time area on the task bar is clicked, and the program can present a user operation interface on the screen. And according to the information prompt, the user selects to screen capture or window capture.

FIG. 10: view range diagram under screen capture mode. A is a mobile phone screen, and B is a view range of the screenshot.

FIG. 11: and viewing range schematic diagram in a window screenshot mode. A is a mobile phone screen, and B is a view range of the screenshot.

FIG. 12: the initial value is a screenshot view operation at full size. If it is the whole screen shot, click to confirm (A). If a picture is taken of a certain area of the screen, the contact point can be pulled to change the size (B) of the viewfinder frame.

FIG. 13: the initial value is a view operation diagram of the screenshot of the window under the full size. And if the screenshot is the screenshot of the whole window, clicking to determine (A). If a picture is shot on a certain area of the window, the contact point can be pulled to change the size (B) of the viewfinder frame.

FIG. 14: and (5) a screenshot schematic diagram of window super-screen view. If the user wants to view the super screen, the user only needs to press the direction arrow to roll the screen. A is the initial value viewing range after the initial value is adjusted, and B is the final value viewing range after the screen is scrolled upwards according to the left down arrow.

FIG. 15: FIG. 12 is a screenshot image after the result of the operation. As can be seen from the figure, the program captures the information super-screen view that Shanghai (1) -Kunming (28) needs to cross the window to be completely displayed.

Detailed Description

To capture a screen, firstly, a program icon of a desktop of the mobile phone is clicked, and a screen capture program switch is turned on and related settings are carried out (see fig. 8). If the method is applied to a computer, the operating program of the desktop needs to be clicked, and the program loads the icon into the time area in the taskbar.

The first step is as follows: and sending a screenshot request instruction in an appointed mode in the current scene. The method is characterized in that the request mode on the mobile phone is to shake or circle, but the method is not limited to the two modes, and on the computer, a screenshot request instruction is sent out by clicking a program icon in a time area of a task bar.

The second step is that: and selecting a specific screenshot mode and sending a specific screenshot instruction according to the information prompt of the user operation interface (see fig. 9).

The third step: and adjusting the size of a viewing box to view and capture the screenshot.

Eight contacts are arranged on the view finding frame, the size of the view finding frame can be changed by pulling the contacts (see fig. 12-13), and the arrow can be held to stretch the frame line to drive the screen to roll to enlarge the view finding range so as to realize the super-screen view finding screenshot (see fig. 14-15). In practical applications, the operation of the scroll driver belongs to multiple options, and a direction key of a screen interface can be pressed, or a volume key of a mobile phone can be pressed selectively (see fig. 8).

Claims (1)

1. A method for obtaining screen capture of mobile phone includes two capture modes of screen capture and window capture, dividing interface of mobile phone screen from three-dimensional space into two laminated layers of upper layer frame and lower layer loose leaf, the part of program interface with text and image/picture capable of rolling browsing is called loose leaf, the rest part is frame, hollow part of frame is called window, its characteristic is: when a user sends a screenshot request instruction in a request mode agreed with a screenshot program in advance, the screenshot program makes a response and presents a user operation interface on a mobile phone screen to enable the user to select a specific screenshot mode, when the user confirms the screenshot mode and sends a specific screenshot instruction, the screenshot program generates a viewing frame on the upper layer according to the corresponding screenshot instruction and the affiliated viewing interface as the bottom layer according to the initial size agreed in advance, the user selects viewing content by adjusting the position and the size of the viewing frame, and after confirming the viewing content, the screenshot is determined to be generated and stored;

the method has two appointed request modes: shaking and circling, wherein the screenshot program responds to any one of the two request instructions after receiving the two request instructions, a user operation interface is presented, the loose-leaf is locked, and the user cannot scroll by sliding the screen with fingers;

the program of the method generates the initial size of the framing box in two ways: the full-size is the maximum value of the view-finding frame in the view-finding scene of the screen/window, namely the size of the screen/window, and the small-size is a moderate numerical value size set by a screenshot program and is not the minimum value size which can be reduced by the view-finding frame;

the user operation interface is positioned on a top layer interface in a mobile phone screen interface, the interface can be randomly dragged to any position of a screen by pressing the interface with fingers, and two buttons for selecting a view scene are arranged on the interface when the screen capture is carried out: a screen and a window;

selecting a view-finding scene as a screen, namely performing screen capture, and selecting a view-finding scene as a window, namely performing window capture;

the screenshot instructions of the method are two: the method comprises a screen capture instruction and a window capture instruction, wherein the corresponding capture modes comprise two types: screen shots and window shots, wherein:

screenshot: taking the content of a screen interface as a view-finding scene according to a screenshot command, and performing view-finding screenshot on all or part of the content presented on the screen interface, wherein the content of the screen interface comprises the content of a frame and a loose leaf;

screenshot in a window: taking the content of a window interface as a viewing scene according to a window screenshot instruction, and viewing and screenshot all or part of the content presented on the window interface, wherein the content of the window interface comprises the content at the current moment and the content at the historical/future moment;

if the content displayed on the window interface before the screen is scrolled is the content at the current moment, the content which is not displayed at present and needs to be displayed at the later stage in the window interface is the content at the future moment;

if the content displayed on the window interface after the screen is rolled is the content at the current moment, the content which is hidden currently and is displayed earlier is the content at the historical moment;

after a screenshot program obtains a screenshot command, according to the corresponding screenshot command, taking the affiliated viewing interface as a bottom layer, and generating a viewing frame on an upper layer according to a preset initial size, wherein the viewing frame of the screenshot is stacked above a frame layer, the viewing frame of the screenshot in a window is stacked above a hinge below the frame, and the selected viewing range of the frame is the content of the screenshot;

when the selected screenshot instruction is a window screenshot and no loose-leaf content exists on the screen interface, the screenshot program takes the content of the screen interface as a viewing object;

the function of the view finding frame is to play a role of a camera view finding lens, eight contact points are arranged on the view finding frame, the contact points are respectively the top points of four corners of the frame and the middle points of four side lines, when a finger is just placed on the eight contact points, the contact points can display two dragging arrows in opposite directions, the size of the frame can be adjusted by dragging the contact points, and the area of the frame is enlarged or reduced to obtain corresponding view finding content;

under the screen viewing interface, when the size of the viewing frame is smaller than that of the screen of the viewing interface, the frame is pressed by fingers to slide, and the position of the viewing frame in the screen can be moved;

under the window viewing interface, when the size of the viewing frame is smaller than that of the viewing interface window and the eight contacts are in a dominant state, the frame is pressed by fingers to slide, and the position of the viewing frame in the window can be moved; when three contacts on the upper edge line/the lower edge line are in a hidden state, the framing frame cannot be moved;

under the window framing interface, when the upper edge line/the lower edge line of the framing frame is hidden outside the window boundary, three contacts on the upper edge line/the lower edge line are in a hidden state, and the positions of the left side line contact and the right side line contact are positioned at the middle point of the distance between the lower edge line/the upper edge line of the frame and the upper boundary/the lower boundary of the window instead of the upper edge line/the lower edge line of the frame;

in a window framing scene, two arrows of an upward direction and a downward direction are presented on the user operation interface, and the actions of the arrows are as follows: driving the framing square frame edge line to move up and down and driving the loose leaf to roll in the opposite direction;

when the upper edge line of the framing frame is driven by the upward direction arrow to move upwards from the relative position of the initial value of the window to the position adjacent to the upper boundary of the window, the loose-leaf is driven to roll downwards in the opposite direction, the lower edge line is synchronously pulled to stretch the length of the frame, and the hidden contents above the frame are displayed;

when the lower edge line of the framing frame is hidden outside the lower boundary of the window, the upper edge line of the framing frame is driven to move downwards from the upper boundary position of the window to return to the relative position of the initial value of the window according to a downward arrow, the loose-leaf is driven to roll upwards and reversely, the lower edge line is synchronously pulled to return to the relative position direction of the initial value of the window and retract the length of the frame, and the hidden content below the frame is displayed;

when the lower edge line of the framing box is driven by the downward arrow to move downwards from the relative position of the initial value of the window to the lower edge of the window, the loose-leaf is driven to roll upwards and reversely, the upper edge line is synchronously pulled to stretch the length of the box, and the hidden content below the frame is displayed;

when the upper edge line of the framing frame is hidden outside the upper boundary of the window, the lower edge line of the framing frame is driven to move upwards from the lower boundary position of the window and return to the relative position of the initial value of the window according to an upward direction arrow, the loose-leaf is driven to roll downwards in the opposite direction, the upper edge line is synchronously pulled to return to the direction of the relative position of the initial value of the window and retract the length of the frame, and the hidden contents above the frame are displayed;

the method defines the direction arrow of the volume key mapping mobile phone screen operation interface on the mobile phone: the upper volume key maps an upward direction arrow, and the lower volume key maps a downward direction arrow;

basic operation steps of screenshot of the mobile phone are as follows:

the first step is as follows: sending a screenshot request instruction in an appointed mode in a current scene;

after the request instruction is sent out, the screenshot program makes a response and presents a user operation interface on a mobile phone screen, so that a user can select a specific screenshot mode;

the second step is that: selecting a specific screenshot mode and sending a specific screenshot instruction according to the information prompt of the user operation interface;

the third step: adjusting the size of a viewing frame, viewing a screenshot and storing the screenshot;

if the content presented at the current moment on the window interface and the content presented at the historical/future moment are subjected to continuous framing, a direction arrow on the user operation interface can be pressed, and the screen is driven to roll;

and after the screenshot content is determined, clicking a determination key, and storing the screenshot content in a picture format.

Images