CN111142994A - Data display method and device, storage medium and electronic equipment - Google Patents

Abstract

The present disclosure relates to a method, an apparatus, a storage medium, and an electronic device for displaying data, including: acquiring a plurality of data display windows in a display area of a first terminal; the data display window is used for displaying the loaded data; combining the data display windows according to the frame types of the data display windows to determine at least one target data display window; and displaying the data in the at least one target data display window through the second terminal. The method and the device can achieve the purpose of reducing dislocation of the display content layout in the display area during terminal switching.

Description

Data display method and device, storage medium and electronic equipment

Technical Field

The present disclosure relates to the field of display technologies of visual data, and in particular, to a method and an apparatus for displaying data, a storage medium, and an electronic device.

Background

The data visualization can present complex analysis results to users in a mode of rich chart information, and becomes an important data display mode along with the coming of cloud and big data. The instrument panel is a module for realizing data visualization and is a data virtualization tool for displaying measurement information and key business indicator (KPI) status quo to enterprises. Generally, the dashboard displays the data to be displayed in a simple and visual interface, so that the purposes of clearly transmitting key information to a user and quickly understanding the information are achieved.

Generally, the required panel board overall arrangement of different users is different, when making the panel board, usually carries out the overall arrangement preparation at the great PC end of display screen, because the PC end carries inconveniently, can send the preparation completion back to the removal end by the PC end and use usually. Due to the fact that the size of the display screen of the mobile terminal is different from that of the PC terminal, the display content of the instrument panel which is opened and manufactured at the mobile terminal is often misplaced, and the display content of the instrument panel cannot be displayed correctly.

Disclosure of Invention

The invention aims to provide a data display method, a data display device, a storage medium and an electronic device, which are used for reducing the occurrence of display content layout dislocation in a display area when a terminal is switched.

In order to achieve the above object, the present disclosure provides a method of data display, comprising: acquiring a plurality of data display windows in a display area of a first terminal; the data display window is used for displaying the loaded data;

combining the data display windows according to the frame types of the data display windows to determine at least one target data display window;

and displaying the data in the at least one target data display window through the second terminal.

Optionally, the merging the multiple data display windows according to the frame type of the data display window, and determining at least one target data display window includes:

when the frame type of the data display window comprises a visible frame type, sequentially detecting the data display windows of the visible frames according to a first designated sequence, wherein a first merging detection process is executed on the detected data display window of the kth visible frame, after the first merging detection process is executed each time, k is updated to k +1, the first merging detection process is executed again until the first merging detection process is executed, k is n, and n is the total number of the determined data display windows of the visible frames; wherein k is an integer greater than or equal to 1 and less than or equal to n;

wherein the first merging detection procedure includes:

when the data display windows of other visible frames adjacent to and aligned with the data display window of the kth visible frame exist, combining the data display window of the kth visible frame with the data display windows of the other visible frames to obtain a data display window of a (k + 1) th visible frame;

and when the data display windows of other visible frames adjacent to and aligned with the data display window of the kth visible frame do not exist, determining the data display window of the kth visible frame as a target data display window.

Optionally, the merging the multiple data display windows according to the frame type of the data display window, and determining at least one target data display window includes:

when the frame type of the data display window comprises the type of an invisible frame, sequentially detecting the data display windows of the invisible frame according to a second designated sequence, wherein a second merging detection process is executed for the detected data display window of the ith invisible frame, after the second merging detection process is executed each time, i is updated to i +1, and the second merging detection process is executed again until the second merging detection process is executed, i is m, and m is the total number of the determined data display windows of the invisible frame; wherein i is an integer of 1 or more and m or less;

wherein the second merging detection procedure includes:

when data display windows of other invisible borders adjacent to and overlapped with the data display window of the ith invisible border exist, calculating the overlapping area between the data display window of the ith invisible border and the data display windows of the other invisible borders, merging the data display window of the ith invisible border and the data display windows of the other invisible borders when the overlapping area is larger than a first preset value, and taking the merged data display window of the invisible border as the data display window of the (i + 1) th invisible border;

and when the data display window of the ith invisible frame is not adjacent to and overlapped with the data display window of the ith invisible frame, determining the data display window of the ith invisible frame as a target data display window.

Optionally, the second merging detection process further includes:

when the overlapping area is not larger than a first preset value, when the type of data in the data display window of the ith invisible border is a graph type and a data display window of a first invisible border which is adjacent to and overlapped with the data display windows of the other invisible borders exists, if the type of data in the data display window of the first invisible border is the graph type, combining the data display window of the ith invisible border, the data display windows of the other invisible borders and the data display window of the first invisible border into a data display window of an invisible border, taking the data display window of the combined invisible border as a data display window of the (i + 1) th invisible border, wherein the data display window of the first invisible border is the data display window of the other invisible borders except the data display window of the ith invisible border, a data display window of adjacent and overlapping invisible borders;

when the overlapping area is not larger than a first preset value, determining the data display window of the ith invisible frame as a target data display window when the type of the data in the data display window of the ith invisible frame is a non-chart type;

or when the overlapping area is not larger than a first preset value, when the data display window of the first invisible border which is adjacent to and overlapped with the data display windows of the other invisible borders does not exist, determining the data display window of the ith invisible border as a target data display window;

or when the overlapping area is not larger than a first preset value and the type of the data in the data display window of the first invisible frame is a non-chart type, determining the data display window of the ith invisible frame as a target data display window.

Optionally, before the step of using the data display window with the invisible border obtained by the combination as the data display window with the (i + 1) th invisible border, the method further includes:

when the type of the data in the data display window of the ith invisible frame is a diagram type and a data display window of a second invisible frame adjacent to and overlapped with the data display window of the merged invisible frame exists, if the type of the data in the data display window of the second invisible frame is the diagram type, merging the data display window of the merged invisible frame and the data display window of the second invisible frame again; the data display window of the second invisible border is a data display window of the invisible border which is adjacent to and overlapped with the data display window of the invisible border obtained by combination;

the step of taking the data display window of the invisible frame obtained by combination as the data display window of the (i + 1) th invisible frame includes:

taking the data display window of the invisible frame obtained by the second combination as the data display window of the (i + 1) th invisible frame;

or when the type of the data in the data display window of the ith invisible frame is a non-chart type, taking the data display window of the invisible frame obtained by combination as the data display window of the (i + 1) th invisible frame;

or when the data display window of the second invisible frame adjacent to and overlapped with the data display window of the merged invisible frame does not exist, taking the data display window of the merged invisible frame as the data display window of the (i + 1) th invisible frame;

or, when the type of the data in the data display window of the second invisible frame is a non-chart type, taking the data display window of the invisible frame obtained by combination as the data display window of the (i + 1) th invisible frame.

Optionally, before the displaying, by the second terminal, the data in the at least one target data display window, the method further includes:

acquiring the display priority of the at least one target data display window;

the displaying the data in the at least one target data display window through the second terminal comprises:

and displaying the data in the at least one target data display window through the second middle terminal according to the display priority of the at least one target data display window.

Optionally, the obtaining the display priority of the at least one target data display window includes:

when a target data display window with the same transverse midpoint as that of the first terminal display area exists, determining the display priority of the target data display window with the same transverse midpoint as that of the first terminal display area as the highest, and determining the display priorities of other target data display windows according to a rule that the display priorities are decreased in a third designated order;

and when no target data display window with the same transverse midpoint as that of the first terminal display area exists, determining the display priority of the at least one target data display window according to a rule of descending in a third designated order.

Further, the present disclosure also provides an apparatus for displaying data, including: the acquisition module is used for acquiring a plurality of data display windows in a display area of the first terminal; the data display window is used for displaying the loaded data;

the processing module is used for merging the plurality of data display windows according to the frame types of the data display windows and determining at least one target data display window;

and the display module is used for displaying the data in the at least one target data display window through the second terminal.

Optionally, the processing module is specifically configured to, when the frame type of the data display window includes a type of a visible frame, sequentially detect data display windows of the visible frame according to a first specified order, where a first merging detection procedure is performed on a detected kth data display window of the visible frame, and after each execution of the first merging detection procedure, update k to k +1, and execute the first merging detection procedure again until the execution of the first merging detection procedure, where k is n, and n is a total number of the determined data display windows of the visible frame; wherein k is an integer greater than or equal to 1 and less than or equal to n;

wherein the first merging detection procedure includes:

when the data display windows of other visible frames adjacent to and aligned with the data display window of the kth visible frame exist, combining the data display window of the kth visible frame with the data display windows of the other visible frames to obtain a data display window of a (k + 1) th visible frame;

and when the data display windows of other visible frames adjacent to and aligned with the data display window of the kth visible frame do not exist, determining the data display window of the kth visible frame as a target data display window.

Optionally, the processing module is specifically configured to, when the frame type of the data display window includes a type of an invisible frame, sequentially detect data display windows of the invisible frame according to a second specified order, where a second merge detection procedure is performed on a detected data display window of an ith invisible frame, and after each second merge detection procedure is performed, update i to i +1, and perform the second merge detection procedure again until the second merge detection procedure is performed, where i is m, and m is a total number of the determined data display windows of the invisible frame; wherein i is an integer of 1 or more and m or less;

wherein the second merging detection procedure includes:

when data display windows of other invisible borders adjacent to and overlapped with the data display window of the ith invisible border exist, calculating the overlapping area between the data display window of the ith invisible border and the data display windows of the other invisible borders, merging the data display window of the ith invisible border and the data display windows of the other invisible borders when the overlapping area is larger than a first preset value, and taking the merged data display window of the invisible border as the data display window of the (i + 1) th invisible border;

and when the data display window of the ith invisible frame is not adjacent to and overlapped with the data display window of the ith invisible frame, determining the data display window of the ith invisible frame as a target data display window.

Optionally, the processing module is further configured to, when the overlapping area is not greater than a first preset value, when the type of data in the data display window of the ith invisible border is a graph type and there is a data display window of a first invisible border that is adjacent to and overlaps the data display windows of the other invisible borders, merge the data display window of the ith invisible border, the data display windows of the other invisible borders, and the data display window of the first invisible border into a data display window of an invisible border if the type of data in the data display window of the first invisible border is a graph type, and use the data display window of the merged invisible border as the data display window of the (i + 1) th invisible border, where the data display window of the first invisible border is the data display window of the other invisible borders excluding the data display window of the ith invisible border Besides, the data display windows of the invisible borders are adjacent and overlapped;

when the overlapping area is not larger than a first preset value, determining the data display window of the ith invisible frame as a target data display window when the type of the data in the data display window of the ith invisible frame is a non-chart type;

or when the data display window of the first invisible border which is adjacent to and overlapped with the data display windows of the other invisible borders does not exist, determining the data display window of the ith invisible border as a target data display window;

or when the overlapping area is not larger than a first preset value and the type of the data in the data display window of the first invisible frame is a non-chart type, determining the data display window of the ith invisible frame as a target data display window.

Optionally, the processing module is further configured to, when the type of the data in the data display window of the ith invisible border is a graph type and there is a data display window of a second invisible border that is adjacent to and overlapped with the data display window of the merged invisible border, merge the data display window of the merged invisible border and the data display window of the second invisible border again if the type of the data in the data display window of the second invisible border is the graph type; the data display window of the second invisible border is a data display window of the invisible border which is adjacent to and overlapped with the data display window of the invisible border obtained by combination;

the processing module takes the data display window of the invisible frame obtained by combination as the data display window of the (i + 1) th invisible frame, and the processing module comprises the following steps:

taking the data display window of the invisible frame obtained by the second combination as the data display window of the (i + 1) th invisible frame;

or when the type of the data in the data display window of the ith invisible frame is a non-chart type, taking the data display window of the invisible frame obtained by combination as the data display window of the (i + 1) th invisible frame;

or when the data display window of the second invisible frame adjacent to and overlapped with the data display window of the merged invisible frame does not exist, taking the data display window of the merged invisible frame as the data display window of the (i + 1) th invisible frame;

or, when the type of the data in the data display window of the second invisible frame is a non-chart type, taking the data display window of the invisible frame obtained by combination as the data display window of the (i + 1) th invisible frame.

Optionally, the obtaining module is further configured to obtain a display priority of the at least one target data display window;

the display module is specifically configured to display, by the second middle terminal, data in the at least one target data display window according to the display priority of the at least one target data display window.

Optionally, the obtaining module is specifically configured to, when there is a target data display window whose lateral midpoint is the same as the lateral midpoint of the first terminal display area, determine the display priority of the target data display window whose lateral midpoint is the same as the lateral midpoint of the first terminal display area to be the highest, and determine the display priorities of other target data display windows according to a rule that the display priorities decrease in a third designated order;

and when no target data display window with the same transverse midpoint as that of the first terminal display area exists, determining the display priority of the at least one target data display window according to a rule of descending in a third designated order.

Further, the present disclosure also provides a computer-readable storage medium, on which a computer program is stored, which when executed by a processor implements the steps of the above-described method for data display.

Further, the present disclosure also provides an electronic device, including: a memory having a computer program stored thereon;

a processor for executing the computer program in the memory to implement the steps of the above-described method of data display.

Through the technical scheme, the present disclosure provides a method, an apparatus, a storage medium and an electronic device for displaying data, including: the method comprises the steps of obtaining a plurality of data display windows in a display area of a first terminal, combining the data display windows according to the frame types of the data display windows, determining at least one target data display window, and displaying data in the at least one target data display window through a second terminal. Therefore, when the data in the display area in the first terminal needs to be switched to the second terminal for display, the multiple data display windows included in the display area of the first terminal are obtained, the multiple data display windows are combined to obtain the target data display window, the data in the target data display window is displayed at the second terminal, and the data display windows needing to be displayed together in the first terminal are combined into one target data display window, so that the data needing to be displayed together in the first terminal can be displayed in one data display window when the data is displayed at the second terminal. That is to say, the data that needs to be displayed together in the first terminal is merged into one target data display window, and the data is displayed on the second terminal by taking the target data display window as a unit, so that the display content in the display area in the first terminal can be displayed in the second terminal in a hierarchical manner, the display content layout of the display area in the first terminal cannot be misplaced due to terminal switching, and the purpose of reducing the display content layout misplacement in the display area during terminal switching can be achieved.

Additional features and advantages of the disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure without limiting the disclosure. In the drawings:

FIG. 1 is a schematic flow chart diagram of a method of data display provided by the present disclosure;

FIG. 2 is an exemplary illustration of a data display window merge provided by the present disclosure;

FIG. 3 is an exemplary illustration of an overlap between data display windows provided by the present disclosure;

FIG. 4 is an exemplary diagram of non-overlapping data display windows provided by the present disclosure;

FIG. 5 is an exemplary illustration of another data display window consolidation provided by the present disclosure;

FIG. 6 is an exemplary illustration of another data display window consolidation provided by the present disclosure;

FIG. 7 is an exemplary illustration of another data display window consolidation provided by the present disclosure;

fig. 8 is an exemplary diagram of a display of display data switched from a first terminal to a second terminal provided by the present disclosure;

FIG. 9 is a schematic flow chart diagram of another method of data display provided by the present disclosure;

FIG. 10 is an apparatus for data display provided by the present disclosure;

fig. 11 is a block diagram of an electronic device provided by the present disclosure;

fig. 12 is a block diagram of another electronic device provided by the present disclosure.

Detailed Description

The following detailed description of specific embodiments of the present disclosure is provided in connection with the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present disclosure, are given by way of illustration and explanation only, not limitation.

In the description of the present disclosure, it should be noted that the terms "upper", "lower", "left", "right", "vertical", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the contents referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present disclosure. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the prior art, two methods are generally adopted to solve the problem that the display content of the instrument panel is misplaced when the terminal is switched. The first method is to perform size reduction display on the mobile terminal according to the layout of the PC terminal, but because the width-height ratio difference between the PC terminal and the mobile terminal is large, the size reduction on the mobile terminal may deform characters, pictures, and the like, and the display cannot be performed. The second method is to display in sequence on the mobile terminal according to the layout sequence of each data display window (widget) in the dashboard of the PC terminal, but in this way, the meaning expressed by the dashboard cannot be accurately expressed on the mobile terminal, and only the display is guaranteed not to be deformed. The dashboard is used for displaying visual data.

In the present disclosure, however, a plurality of data display areas within the first terminal display area are first acquired. The display area of the first terminal may be a dashboard of the first terminal. Namely, after the instrument panel is manufactured at the first terminal, the plurality of data display windows are arranged in the instrument panel of the first terminal. After acquiring the plurality of data display windows in the first terminal display area, merging the plurality of data display windows according to the frame types of the data display windows, namely, when the frame types of the data display windows comprise data display windows of a visible frame type, merging the data display window of the kth visible frame with the data display windows of other visible frames in the data display windows of the visible frames when the data display windows of other visible frames adjacent to and aligned with the data display window of the kth visible frame exist, and continuously detecting whether the merged data display window of the visible frame needs to be merged with the data display windows of the adjacent visible frames. And when the data display windows of other visible frames adjacent to and aligned with the data display window of the kth visible frame do not exist, determining the kth visible frame data display window as a target data display window. By the method, after the data display windows of the visible frame which need to be combined are combined, at least one target data display window can be determined. When the frame type of the data display window is the invisible frame type, in the data display window of the invisible frame, when the data display window of other invisible frames which are adjacent to and overlapped with the data display window of the ith invisible frame and have the overlapped area larger than the first preset value exist, combining the data display window of the ith invisible frame with the data display windows of other invisible frames, and continuously detecting whether the combined data display window of the invisible frame needs to be combined with the adjacent data display windows of the invisible frames. And when the data display window of the ith invisible frame is not adjacent to and overlapped with the data display window of the ith invisible frame, determining the data display window of the ith invisible frame as a target data display window. By the method, after the data display windows of the invisible frame which need to be combined are combined, at least one target data display window can be determined. And displaying the data in the target data display window through the second terminal. That is, after acquiring the plurality of data display windows in the display area of the first terminal, the data display windows are combined correspondingly to obtain the target data display window, so that the display data in the display area of the first terminal can be displayed on the second terminal according to the target data display window. Therefore, when the display content of the first terminal is switched to the display of the second terminal, the data which needs to be displayed together can be displayed correctly, and the aim of reducing the dislocation of the display content layout in the display area caused by the switching of the terminals is achieved.

The present disclosure is illustrated below with reference to specific examples.

An embodiment of the present disclosure provides a data display method, as shown in fig. 1, including:

step 101, acquiring a plurality of data display windows in a display area of a first terminal.

The data display window is used for displaying the loaded data.

Specifically, the data may be loaded into the data display window at the first terminal, and the data in the data display window may be displayed in the display area of the first terminal. When the display data in the display area of the first terminal needs to be switched to the display of the second terminal, the data display device acquires a plurality of data display windows in the display area of the first terminal.

Further, the first terminal may store a plurality of data display windows in the display area in the storage device, and the data display apparatus may acquire the data display windows from the storage device. Of course, the data display device may establish a corresponding communication link with the first terminal, and directly obtain the data from the first terminal.

Alternatively, when the display of the visualized data is performed, the display area may be a dashboard for the visualization of the data. Since a display device at a PC (Personal Computer) end has a large size and is convenient for a user to operate when laying out a dashboard, the user usually performs layout at the PC end when laying out the dashboard. And because the PC end is inconvenient to carry, after the instrument panel is laid out, the content in the instrument panel can be switched to the mobile end for carrying conveniently. At this time, the data display device may acquire a plurality of data display windows in the dashboard of the PC.

And 102, combining the multiple data display windows according to the frame types of the data display windows, and determining at least one target data display window.

The data display device detects the frames of the data display windows, combines a plurality of data display windows according to the frame type of each data display window, combines the data display windows which need to be displayed together in the first terminal display area into one target data display window, and determines the data display windows which do not need to be combined as the target data display windows respectively, thereby determining at least one target data display window.

Specifically, according to the frame type of the data display window, merging the multiple data display windows, and determining at least one target data display window includes:

when the frame type of the data display window comprises the type of the visible frame, sequentially detecting the data display windows of the visible frame according to a first designated sequence, wherein a first merging detection process is executed on the detected data display window of the kth visible frame, after the first merging detection process is executed each time, k is updated to k +1, the first merging detection process is executed again until the first merging detection process is executed, k is n, and n is the total number of the data display windows of the determined visible frame. Wherein k is an integer of 1 or more and n or less.

Wherein, the first merging detection process comprises:

and when the data display windows of other visible frames adjacent to and aligned with the data display window of the kth visible frame exist, combining the data display window of the kth visible frame with the data display windows of the other visible frames to obtain the data display window of the (k + 1) th visible frame.

And when the data display windows of other visible frames adjacent to and aligned with the data display window of the kth visible frame do not exist, determining the data display window of the kth visible frame as a target data display window.

That is, the frame types of the data display window include a visible frame type and an invisible frame type. The frame of the data display window is visible when the terminal displays the data of the data display window, that is, the frame of the data display window is also displayed when the terminal displays the data of the data display window. The invisible frame type data display window is that when the terminal displays data, the frame of the data display window is invisible, that is, when the terminal displays the data of the data display window, the frame of the data display window cannot be displayed. At this time, the data display apparatus may detect a frame type of the data display window. When it is determined that the frame type of the data display window includes the type of the visible frame, it is further detected whether the data display window of each visible frame needs to be merged with the data display window of the adjacent visible frame. Accordingly, the data display apparatus sequentially detects the data display windows of the visible bezel in a first designated order.

It should be noted that the first designated sequence is a sequence of the data display windows for detecting the visible frames, which is set by the user according to actual needs, and may be a sequence from left to right in the display area, or may be a sequence from right to left, or may be a sequence from top to bottom, and the like, and the disclosure does not limit this.

The data display device needs to sequentially detect the data display windows of the visible frames according to a first designated sequence for merging, at the moment, when the data display window of the kth visible frame is detected, a first merging detection process is executed on the detected data display window of the kth visible frame, after the first merging process is executed on the data display window of the kth visible frame, k is updated to k +1, and the first merging detection process is executed again, namely, after the first merging detection process is executed on the data display window of the kth visible frame, the first merging detection process is executed on the data display window of the kth +1 visible frame until the first merging detection process is executed on the data display window of the last visible frame according to the first designated sequence.

Executing a first merging detection process on the data display window of the kth visible frame, namely: and detecting whether the data display window of the kth visible frame has a data display window of an adjacent visible frame, and if so, further detecting whether the data display window of the kth visible frame is aligned with the data display window of the adjacent visible frame, namely, whether each edge of the data display window of the kth visible frame is aligned with each edge of the data display window of the adjacent visible frame in the horizontal direction or the vertical direction.

It should be noted that the alignment refers to the alignment of the frames between the data display windows, and one side of the frames of the two data display windows may be aligned with each other in the horizontal or vertical direction, or both sides of the frames of the two data display windows may be aligned with each other in the horizontal or vertical direction, and the user may set the alignment according to actual requirements. In the present disclosure, the two sides of the frame of the two data display windows are aligned in the horizontal or vertical direction. That is, the data display window alignment means that the left frames of the two data display windows are aligned in the horizontal direction, and the right frames are also aligned; alternatively, the upper frames of the two data display windows are aligned in the vertical direction, and the lower frames are aligned.

When determining whether a data display window of a visible frame adjacent to the data display window of the kth visible frame exists, the data display device of the kth visible frame can detect the distance between the data display window of the kth visible frame and the data display windows of other visible frames to judge, if the distance is greater than a preset value, the data display window of the kth visible frame is not adjacent to the data display window of other visible frames, and if the distance is not greater. The preset value can be preset according to actual requirements. After the data display window of the visible frame adjacent to the data display window of the kth visible frame is determined, whether the data display window of the kth visible frame is aligned with the data display window of the adjacent visible frame can be determined by detecting coordinates of four corners of the data display window of the kth visible frame and the data display window of the adjacent visible frame. Assuming that four corner coordinates of the data display window of the kth visible bezel are (a1, b1), (a1, b2), (a2, b1) and (a2, b2), respectively, and four corner coordinates of the data display window of the visible bezel adjacent to the data display window of the kth visible bezel are (c1, d1), (c1, d2), (c2, d1) and (c2, d2), respectively, it may be determined whether a1 and c1, a2 and c2 are equal to determine whether the data display window of the kth visible bezel is aligned in the horizontal direction with the data display window of the adjacent visible bezel, and if a1 and c1 are equal, and a2 and c2 are equal, it may be determined that the data display window of the kth visible bezel is aligned in the horizontal direction with the data display window of the adjacent visible bezel. If a1 is not equal to c1, and/or a2 is not equal to c2, it indicates that the data display window of the kth visible frame is not aligned with the data display window of the adjacent visible frame in the horizontal direction. Whether the data display window of the kth visible bezel is aligned in the vertical direction with the data display window of the adjacent visible bezel is determined by checking whether b1 is equal to d1, b2 is equal to d2, and if b1 is equal to d1 and b2 is equal to d2, it may be determined that the data display window of the kth visible bezel is aligned in the vertical direction with the data display window of the adjacent visible bezel. If b1 is not equal to d1, and/or b2 is not equal to d2, it indicates that the data display window of the kth visible frame is not vertically aligned with the data display window of the adjacent visible frame.

If it is detected that the data display window of the kth visible frame is aligned with the data display window of the adjacent visible frame in the horizontal direction or the vertical direction, it may be determined that there are data display windows of other visible frames adjacent to and aligned with the data display window of the kth visible frame. If the data display window of the kth visible frame is detected to be not aligned with the data display window of the adjacent visible frame in the horizontal direction and the vertical direction, it can be determined that the data display windows of other visible frames adjacent to and aligned with the data display window of the kth visible frame do not exist.

It should be noted that, when the data display window of the kth visible frame has multiple data display windows of adjacent visible frames at the same time, it may be determined, according to actual requirements, which data display window of the adjacent visible frame is preferentially aligned and detected first, for example, the data display window of the adjacent visible frame in the horizontal direction may be aligned and detected first, and then the data display window of the adjacent visible frame in the vertical direction may be aligned and detected.

When there are data display windows of other visible borders adjacent to and aligned with the data display window of the kth visible border, the data display window of the kth visible border and the data display windows of the other visible borders may be merged into a data display window of one visible border, and the merged data display window of the visible border is used as the data display window of the (k + 1) th visible border.

When the data display windows of other visible frames adjacent to and aligned with the data display window of the kth visible frame do not exist, the data display window of the kth visible frame is indicated to have no data display window of the visible frame needing to be combined, and the data display window of the kth visible frame is directly determined as a target data display window. And detecting a data display window of a next visible frame of the data display window of the kth visible frame according to the first designated sequence.

And re-executing the first merging detection process on the data display window of the (k + 1) th visible frame so as to detect whether the data display window of the (k + 1) th visible frame needs to be merged with the data display window of the adjacent visible frame.

It should be noted that, when the first merging detection procedure is performed on the data display window of the kth visible frame, after the data display window of the kth visible frame is merged with the data display window of the adjacent and aligned visible frame, the merged data display window of the visible frame is used as the data display window of the (k + 1) th visible frame, and the first merging detection procedure is performed on the data display window of the (k + 1) th visible frame. And if the data display window of the other visible frames adjacent to and aligned with the data display window of the combined visible frame does not exist, determining the data display window of the combined visible frame as a target data display window. At this time, the data display windows of the visible frames need to be detected continuously according to the first appointed sequence. If the other data display windows merged with the data display window of the kth visible frame are the data display window of the next visible frame of the data display window of the kth visible frame in the first designated sequence, because the other data display windows are already merged with the data display window of the kth visible frame, the data display window of the next visible frame is the detected data display window of the next visible frame, which is the data display window of the (k + 2) th visible frame.

For example, assume that there are three visible frames of the data display windows a, b, and c, respectively. When the data display window of the first visible frame is detected, namely the data display window a of the visible frame is detected, a first combination detection process is executed on the data display window a of the visible frame, if the data display window b of the visible frame is adjacent to and aligned with the data display window a of the visible frame, the data display windows a and b of the visible frame are combined, the data display window of the visible frame after the data display window a and b of the visible frame are combined serves as a data display window of a second detected visible frame, and the first combination detection process is executed. And determining the data display window of the visible frame after the data display windows a and b of the visible frame are combined as a target data display window under the assumption that the data display window c of the visible frame is not adjacent to and aligned with the data display window of the visible frame after the data display windows a and b of the visible frame are combined. According to the first designated sequence, the data display window of the next visible frame of the data display window a of the visible frame is supposed to be the data display window b of the visible frame, but because the data display window b of the visible frame and the data display window a of the visible frame are merged, the data display window b of the next visible frame of the data display window b of the visible frame is no longer present, the data display window of the next visible frame of the data display window b of the visible frame, namely the data display window c of the visible frame is used as the data display window of the third detected visible frame, and the first merging detection process is performed on the data display window c of the visible frame, and because the data display window c of the visible frame does not have the data display windows of the adjacent and aligned visible frames, the data display window c of the visible frame is determined to be a target data display window.

It should be noted that, when the first merge detection procedure is performed on the data display window of the (k + 1) th visible frame, whether the data display window of the (k + 1) th visible frame is aligned with the data display window of one of the adjacent visible frames may be aligned in the previous first merge detection procedure, at this time, in order to improve the detection efficiency, it may be marked that the data display window of the currently detected visible frame has been aligned with the data display windows of the adjacent visible frames for detection, and the data display window of the (k + 1) th visible frame is only aligned with the data display window of the adjacent visible frame which is not aligned with the currently detected data display window of the adjacent visible frame for detection by checking the mark information when the first merge detection procedure is performed.

It should be noted that, in the embodiment of the present invention, the size of the merged data display window needs to include two data display windows before merging. That is, the coordinates of the four corners of the updated data display window are respectively formed by the maximum value and the minimum value in the horizontal direction, and the maximum value and the minimum value in the vertical direction of the coordinates of the four corners of the data display window of the kth visible frame and the data display window of the other visible frame.

For example, as shown in fig. 2, it is assumed that four data display windows a, b, c, and d are included in a dashboard of the PC, wherein the data display windows a, b, and c are arranged in sequence from left to right, and the data display window d is disposed at the bottom of the data display window c. After the layout of the instrument panel is set at the PC end, the instrument panel needs to be switched to the mobile end, and at this time, the data display device can first acquire four data display windows a, b, c and d in the instrument panel at the PC end. And detecting the frame types of the data display windows a, b, c and d. In this example, it is assumed that the frame types of the four data display windows a, b, c, and d are all visible frame types, the first designated sequence is a sequence from left to right, and when the data display device determines that the frame types of the data display windows a, b, c, and d are visible frame types, the data display windows of the four visible frames are detected according to the sequence from left to right. The detected data display window of the first visible frame is the data display window a of the visible frame. The data display device executes a first merging detection process on the data display window a of the visible frame, namely, the data display device firstly detects whether the data display window a of the visible frame has an adjacent data display window of the visible frame, and after the data display window a of the visible frame is detected to be adjacent to the data display window b of the visible frame, the data display window a of the visible frame needs to be further detected whether to be aligned with the adjacent data display window b of the visible frame. Assuming that the coordinates of the four corners of the data display window a of the visible bezel are (h1, i1), (h1, i2), (h2, i1), (h2, i2), and the coordinates of the four corners of the data display window b of the visible bezel are (h3, i1), (h3, i2), (h4, i1), (h4, i2), it is known that the data display window a of the visible bezel and the data display window b of the visible bezel are aligned at two sides in the vertical direction by comparing the coordinates of the four corners of the data display window a of the visible bezel and the data display window b of the visible bezel, that is, it can be determined that the data display window a of the visible bezel and the data display window b of the visible bezel are aligned, that is, there are data display windows of other visible bezels adjacent to and aligned with the data display window a of the visible bezel, the data display window a and the data display window b of the visible bezel are merged into a data display window of the visible bezel, and updating the size of the data display window of the merged visible bezel, and determining coordinates of four corners of the data display window of the merged visible bezel as (h1, i1), (h1, i2), (h4, i1), (h4, i2) assuming that h1 is the smallest and h4 is the largest in the horizontal direction. And taking the combined data display window of the visible frame as the detected data display window of the second visible frame, and executing the first combination detection process on the data display window of the second visible frame. And detecting whether the data display window of the second visible frame has other adjacent and aligned data display windows of other visible frames. And the data display window of the second visible frame is adjacent to the data display window c of the visible frame, and whether the data display window of the second visible frame is aligned with the data display window c of the visible frame needs to be further detected. Among them, the coordinates of the four corners of the data display window c of the visible bezel are (h5, i1), (h6, i1), (h5, i3), (h6, i 3). The method for detecting whether the data display window of the second visible frame is aligned with the data display window c of the adjacent visible frame can refer to the method for detecting whether the data display window a of the visible frame is aligned with the data display window b of the visible frame, and is not described herein again. At this time, it is detected that the data display window of the second visible frame is not aligned with the data display window c of the adjacent visible frame, that is, there is no data display window of other visible frames adjacent to and aligned with the data display window of the second visible frame, and the data display window of the second visible frame is determined as a target data display window. Optionally, the data display windows marked with the visible frames and merged with the data display windows a and b of the visible frames are subjected to alignment detection with the data display window c of the visible frames. At this time, since the data display window b of the visible frame has been merged with the data display window a of the visible frame, the data display window c of the visible frame is the detected data display window of the third visible frame in the order from left to right.

And executing a first merging detection process on the data display window of the third visible frame. That is, it is detected whether the data display window c of the visible frame has a data display window of other adjacent and aligned visible frames. The data display windows with two visible frames adjacent to the data display window c with the visible frame are respectively the data display window d with the visible frame and the data display window of the visible frame after the data display windows a and b with the visible frame are combined, at the moment, the alignment detection of the data display window of the visible frame after the data display window a and b with the visible frame are combined with the data display window c can be known by checking the mark information, and whether the data display window c with the visible frame is aligned with the data display window d with the adjacent visible frame can be only detected. Coordinates of four corners of the data display window d of the visible bezel are (h5, i4) (h5, i5), (h6, i4), (h6, i 5). The method for detecting whether the data display window c of the visible frame is aligned with the data display window d of the adjacent visible frame can refer to the method for detecting whether the data display window a of the visible frame is aligned with the data display window b of the visible frame, and is not described herein again. It can be detected that the data display window c of the visible border is aligned with the data display window d of the visible border in the horizontal direction, that is, there are other data display windows of the visible border adjacent to and aligned with the data display window c of the visible border, the data display window c of the visible border and the data display window d of the visible border are merged into one data display window of the visible border, and the size of the data display window of the merged visible border is updated, and assuming that i1 is the smallest and i5 is the largest in the vertical direction, the coordinates of the four corners of the data display window of the merged visible border are (h5, i1), (h6, i1), (h5, i5), (h6, i 5). And determining the data display window of the visible frame after the data display windows c and d of the visible frame are combined as the data display window of the fourth visible frame. And executing a first merging detection process on the data display window of the fourth visible frame. The data display window of the fourth visible frame can be determined as a target data display window because the data display window of the fourth visible frame does not have adjacent and aligned data display windows of other visible frames.

Or, according to the frame type of the data display window, merging the multiple data display windows, and determining at least one target data display window includes:

when the frame type of the data display window comprises the type of the invisible frame, sequentially detecting the data display windows of the invisible frame according to a second designated sequence, wherein a second merging detection process is executed for the detected data display window of the ith invisible frame, i is updated to i +1 after the second merging detection process is executed each time, and the second merging detection process is executed again until the second merging detection process is executed, i is m, and m is the total number of the determined data display windows of the invisible frame; i is an integer of 1 or more and m or less.

Wherein the second merging detection process includes:

when the data display windows of other invisible borders adjacent to and overlapped with the data display window of the ith invisible border exist, the overlapping area between the data display window of the ith invisible border and the data display windows of the other invisible borders is calculated, when the overlapping area is larger than a first preset value, the data display window of the ith invisible border and the data display windows of the other invisible borders are combined, and the combined data display window of the invisible border is used as the data display window of the (i + 1) th invisible border.

And when the data display window of the ith invisible frame is not adjacent to and overlapped with the data display window of the ith invisible frame, determining the data display window of the ith invisible frame as a target data display window.

It should be noted that the first preset value is preset according to actual requirements. Optionally, the first preset value is 65% of an area value of a data display window of an invisible border with a smaller area in data display windows of two invisible borders with overlapping areas.

It should be noted that the second designated sequence is a sequence of the data display window for detecting the invisible border, which is set by the user according to actual needs, and may be a sequence from left to right in the display area, a sequence from right to left, a sequence from top to bottom, or the like, which is not limited in this disclosure.

Optionally, the second specified order is a left to right order.

Specifically, when determining that the frame type of the data display window includes the invisible frame type, the data display apparatus needs to further detect whether the data display window of each invisible frame needs to be merged with the data display window of the adjacent invisible frame. Accordingly, the data display apparatus sequentially detects the data display windows of the invisible borders in a second designated order.

The data display device needs to sequentially detect the data display windows of the invisible frames according to a second designated sequence for merging, at the moment, when the data display window of the ith invisible frame is detected, a second merging detection process is executed on the detected data display window of the ith invisible frame, i is updated to i +1 after the second merging process is executed on the data display window of the ith invisible frame, and the second merging detection process is executed again, namely, after the second merging detection process is executed on the data display window of the ith invisible frame, the second merging detection process is executed on the data display window of the (i + 1) th invisible frame until the data display window of the last invisible frame according to the second designated sequence is subjected to the second merging detection process.

Wherein, executing the second merging detection process on the data display window of the ith invisible frame comprises the following steps: the data display device needs to detect whether the data display window of the ith invisible frame has a data display window of an adjacent invisible frame. The specific detection method may refer to the detection method for determining whether the data display window of the visible frame has an adjacent data display window of the visible frame, and details are not repeated herein. When the fact that the data display window of the ith invisible frame has the data display window of the adjacent invisible frame is detected, whether the data display window of the ith invisible frame is overlapped with the data display window of the adjacent invisible frame is further detected, and whether the data display window of the ith invisible frame is overlapped with the data display window of the adjacent invisible frame can be detected through coordinates of four corners of the data display window of the ith invisible frame and the data display window of the adjacent invisible frame. If the coordinates of the four corners of the data display window of the adjacent invisible border are within the area range formed by the coordinates of the four corners of the data display window of the ith invisible border in the vertical direction and/or the coordinates of the four corners of the data display window of the ith invisible border in the horizontal direction, the data display window of the ith invisible border can be determined to be overlapped with the data display window of the adjacent invisible border.

For example, the coordinates of the four corners of the data display window of the ith invisible border are (a1, b1), (a1, b2), (a2, b1), (a2, b2), and the coordinates of the four corners of the data display window of the adjacent invisible border are (a3, b3), (a3, b4), (a4, b3), (a4, b 4). Wherein, the coordinates of the four corners of the data display window of the ith invisible frame form an area range [ a1, a2] in the horizontal direction, and an area range [ b1, b2] in the vertical direction. If a3 is within the area range of [ a1, a2] in the coordinates of the four corners of the data display windows of the adjacent invisible borders, that is, a3 is greater than or equal to a1 and less than or equal to a2, it may be determined that the data display window of the ith invisible border overlaps the data display window of the adjacent invisible border. Alternatively, in the coordinates of the four corners of the data display windows of the adjacent invisible borders, b3 is within the region range [ b1, b2], that is, b3 is greater than or equal to b1 and less than or equal to b2, it may be determined that the data display window of the ith invisible border overlaps with the data display window of the adjacent invisible border, as shown in fig. 3.

If the coordinates of the four corners of the data display window of the adjacent invisible border are not within the area range in which the coordinates of the four corners of the data display window of the ith invisible border are formed in the vertical direction, and the coordinates of the horizontal direction are not within the area range in which the coordinates of the four corners of the data display window of the ith invisible border are formed in the horizontal direction, it may be determined that there is no overlap between the data display window of the ith invisible border and the data display window of the adjacent invisible border. As described in the above example, if none of the coordinate values a3 and a4 in the horizontal direction is within the range of [ a1, a2] and none of the coordinate values b3 and b4 in the vertical direction is within [ b1, b2] in the coordinates of the four corners of the data display windows of the adjacent invisible borders, it is determined that there is no overlap between the data display window of the ith invisible border and the data display window of the adjacent invisible border, as shown in fig. 4.

It should be noted that, when the data display window of the ith invisible frame has a plurality of data display windows of adjacent invisible frames at the same time, it may be determined which data display window of the adjacent invisible frame to perform overlap detection first according to actual requirements, for example, the data display window of the adjacent invisible frame in the horizontal direction may perform overlap detection first, and then perform overlap detection with the data display window of the adjacent invisible frame in the vertical direction, which is not limited by the present disclosure.

When the data display window of the ith invisible frame and the data display window of the adjacent invisible frame are determined to be overlapped, namely when the data display windows of other invisible frames adjacent to and overlapped with the data display window of the ith invisible frame are determined to exist, the area of an overlapping area between the data display window of the ith invisible frame and the data display windows of other invisible frames is calculated. Alternatively, the overlapping area may be calculated from coordinates of four corners of the data display window of the ith invisible bezel and the data display windows of the other adjacent and overlapping invisible bezels. That is, the coordinates of the four corners of the overlap area may be determined according to the coordinates of the four corners of the data display window of the ith invisible frame and the coordinates of the four corners of the data display windows of the adjacent and overlapped other invisible frames, and the overlap area may be calculated according to the coordinates of the four corners of the overlap area. After the overlapping area is calculated, the overlapping area is compared with a first preset value. And when the overlapping area is larger than a first preset value, combining the data display window of the ith invisible frame and the data display windows of other invisible frames into a data display window of an invisible frame. At this time, the size of the data display window of the merged invisible border may also be updated, that is, the size of the data display window of the merged invisible border is updated according to the coordinates of the four corners of the data display window of the ith invisible border and the coordinates of the four corners of the data display window of the other invisible border, as shown in fig. 5. And taking the combined data display window of the invisible frame as the data display window of the (i + 1) th invisible frame.

When there is no data display window of other invisible borders adjacent to and overlapping with the data display window of the ith invisible border, the data display window of the ith invisible border may be directly determined as one target data display window. And detecting a data display window of an invisible border next to the data display window of the ith invisible border according to a second designated order.

The second merging detection process needs to be executed again for the data display window of the (i + 1) th invisible frame, and the second merging detection process may be executed specifically with reference to the data display window of the (i) th invisible frame, which is not described herein again.

It should be noted that, when the data display window of the i +1 th invisible frame is a data display window of an invisible frame in which the data display window of the i th invisible frame is merged with the data display windows of other invisible frames, and when the data display window of the i +1 th invisible frame does not have a data display window of an adjacent and overlapping invisible frame, the data display window of the i +1 th invisible frame is determined as a target data display window. At this time, the data display windows of the invisible borders need to be continuously detected according to a second designated sequence, if the other data display windows combined with the data display window of the ith invisible border are the data display windows of the next invisible border of the data display window of the ith invisible border according to the second designated sequence, because the other data display windows are combined with the data display window of the ith invisible border, the data display window of the next invisible border is the data display window of the detected next invisible border, namely the data display window of the (i + 2) th invisible border.

It should be noted that, in the embodiment of the present invention, the size of the data display window of the merged invisible border needs to include the data display windows of the two invisible borders before merging. That is, the coordinates of the four corners of the merged data display window of the invisible frame are formed by the maximum value and the minimum value in the horizontal direction, and the maximum value and the minimum value in the vertical direction of the coordinates of the four corners of the data display window of the ith invisible frame and the data display window of the adjacent invisible frame, respectively, referring to fig. 5.

It should be noted that, when the second merging detection process is performed on the data display window of the (i + 1) th invisible frame, whether the data display window of the (i + 1) th invisible frame overlaps with the data display window of one of the adjacent invisible frames may have been detected by overlap detection in the previous second merge detection process, and at this time, in order to improve the detection efficiency, it is possible to simultaneously mark that the currently detected data display window of the invisible border has been overlap-detected with those of the adjacent data display windows of the invisible borders when the overlap detection is completed in the previous second merging detection procedure, and enabling the (i + 1) th data display window to perform corresponding overlap detection only with the data display window of the adjacent invisible border which is not subjected to the overlap detection when the second combination detection process is executed by looking at the mark information.

Further, in the second merging detection process, before the data display window of the invisible border obtained by merging is used as the data display window of the i +1 th invisible border, the method further includes: and when the type of the data in the data display window of the ith invisible frame is the chart type and a data display window of a second invisible frame adjacent to and overlapped with the data display window of the merged invisible frame exists, if the type of the data in the data display window of the second invisible frame is the chart type, merging the data display window of the merged invisible frame and the data display window of the second invisible frame again. And the data display window of the second invisible frame is adjacent to and overlapped with the data display window of the merged invisible frame.

The step of taking the data display window of the invisible frame obtained by combination as the data display window of the (i + 1) th invisible frame comprises the following steps:

and taking the data display window of the invisible frame obtained by the mergence as the data display window of the (i + 1) th invisible frame.

Or when the type of the data in the data display window of the ith invisible frame is a non-chart type, taking the data display window of the merged invisible frame as the data display window of the (i + 1) th invisible frame.

Or when the data display window of the second invisible border which is adjacent to and overlapped with the data display window of the combined invisible border does not exist, taking the data display window of the combined invisible border as the data display window of the (i + 1) th invisible border.

Or when the type of the data in the data display window of the second invisible frame is a non-chart type, taking the data display window of the combined invisible frame as the data display window of the (i + 1) th invisible frame.

Specifically, when the data display window of the ith invisible frame is merged with the data display windows of the adjacent and overlapped other invisible frames, it may be detected and recorded whether the type of data in the data display window of the ith invisible frame is a chart type, and before the data display window of the merged invisible frame is determined as the data display window of the next detected invisible frame, it is further detected whether the data display window of the merged invisible frame needs to be merged again with the data display windows of the other invisible frames whose data types are chart types. Therefore, when the type of the data in the data display window of the ith invisible frame is determined to be the chart type, whether a data display window of a second invisible frame adjacent to and overlapping with the data display window of the merged invisible frame exists is further detected.

The method for detecting whether the merged data display window with the invisible border has the adjacent and overlapped data display window with the second invisible border may refer to the method for detecting whether the data display window with the ith invisible border has the adjacent and overlapped data display windows with other invisible borders, and is not described herein again. When it is detected that the data display window of the merged invisible frame has the data display window of the second invisible frame that is adjacent and overlapped, whether the type of the data in the data display window of the second invisible frame is the chart type is further checked, and when it is detected that the type of the data in the data display window of the second invisible frame is the chart type, the data display window of the merged invisible frame and the data display window of the second invisible frame are merged again into a new data display window of the invisible frame, as shown in fig. 6.

The method can combine the situation that two charts in the display area share one title into the data display window of the invisible frame, so that the layout that the two charts share one title is not changed when the display area is switched to the second terminal, and the accuracy of the displayed content is ensured.

In the above process, if the merged data display window of the invisible border and the data display window of the second invisible border are merged into a new data display window of the invisible border again, the data display window of the invisible border merged again last is used as the data display window of the (i + 1) th invisible border, so that the second merging detection process is performed again on the data display window of the (i + 1) th invisible border subsequently.

Or, in the above process, if the type of the data in the data display window of the ith invisible frame is a non-chart type, it indicates that there is no case where the display content is that two charts share one title, and the data display window of the merged invisible frame is directly used as the data display window of the (i + 1) th invisible frame. Or, when there is no data display window of the second invisible border that is adjacent to and overlaps with the data display window of the merged invisible border, it is described that there is no case where the display content is one title shared by two charts, and the data display window of the merged invisible border is directly used as the data display window of the (i + 1) th invisible border. Or the type of the data in the data display window of the second invisible frame is a non-chart type, which indicates that the situation that the display content is that two charts share one title does not exist, and the data display window of the invisible frame obtained by combination is directly used as the data display window of the (i + 1) th invisible frame.

Further, before the second merge detection process is executed again, the method further includes: and updating the first preset value from the first numerical value to a second numerical value.

Alternatively, the second value may be 50% of the area value of the data display window of the invisible border having the smaller area, of the data display windows of the two overlapped invisible borders.

Further, the second merging detection process further includes: when the overlapping area is not larger than a first preset value, when the type of data in the data display window of the ith invisible frame is a diagram type and a data display window of a first invisible frame adjacent to and overlapping with the data display windows of other invisible frames exists, if the type of the data in the data display window of the first invisible frame is the diagram type, combining the data display window of the ith invisible frame, the data display windows of the other invisible frames and the data display window of the first invisible frame into a data display window of an invisible frame, and taking the combined data display window of the invisible frame as the data display window of the (i + 1) th invisible frame. And the data display window of the first invisible frame is the data display window of the adjacent invisible frame except the data display window of the ith invisible frame of the data display windows of other invisible frames.

And when the overlapping area is not larger than a first preset value, determining the data display window of the ith invisible frame as a target data display window when the type of the data in the data display window of the ith invisible frame is a non-chart type.

Or when the overlapping area is not larger than the first preset value, when the data display window of the first invisible border which is adjacent to and overlapped with the data display windows of other invisible borders does not exist, determining the data display window of the ith invisible border as a target data display window.

Or when the overlapping area is not larger than the first preset value and the type of the data in the data display window of the first invisible border is a non-chart type, determining the data display window of the ith invisible border as a target data display window.

Specifically, when it is determined that the overlap area is not greater than the first preset value, it needs to further detect whether there is a case where the display content is that two charts share one title, and therefore, the second merge detection process further includes: when the overlapping area is not larger than the first preset value, whether the type of the data in the data display window of the ith invisible frame is a chart type or not is detected, and when the type of the data in the data display window of the ith invisible frame is the chart type, whether the data display window of the first invisible frame adjacent to and overlapping with the data display windows of other invisible frames exists or not can be further detected. And the data display windows of other invisible borders are adjacent and overlapped data display windows of the invisible border of the ith invisible border. The specific detection method may refer to a method for detecting whether there is a data display window of another invisible border adjacent to and overlapping with the data display window of the ith invisible border, and details are not repeated here. When a data display window of a first invisible border adjacent to and overlapping with a data display window of other invisible borders exists, whether the type of data in the data display window of the first invisible border is a graph type is further detected, when the type of data in the data display window of the first invisible border is a graph type, a case that the display content is that two graphs share one title is described, at this time, the data display window of the ith invisible border, the data display windows of the other invisible borders and the data display window of the first invisible border are merged into the data display window of one invisible border, as shown in fig. 7, the merged data display window of the invisible border is used as the data display window of the (i + 1) th invisible border. And continuing to execute a second merging detection process on the data display window of the (i + 1) th invisible frame.

When the type of the data in the data display window of the ith invisible frame is detected to be a non-chart type, the situation that the display content is that two charts share one title does not exist, and at the moment, the data display window of the ith invisible frame is determined as a target data display window

Alternatively, when it is detected that there is no data display window of the first invisible frame adjacent to and overlapping with the data display windows of the other invisible frames, the data display window of the ith invisible frame is determined as one target data display window, which indicates that there is no case where the display contents are common to one title for both charts.

Or, when the type of the data in the data display window of the first invisible border is a non-chart type, it is described that there is no case where the display content is that two charts share one title, and the data display window of the ith invisible border is determined as a target data display window.

And 103, displaying the data in the at least one target data display window through the second terminal.

Specifically, after the target data display window is determined through the above steps, the data in the target data display window is displayed through the second terminal, as shown in fig. 8, so that the purpose of cutting off the display data from the first terminal to the second terminal for display is achieved.

It should be noted that the data display apparatus of the present disclosure may be a first terminal, where steps 101 and 102 are executed at the first terminal, and after the target display window is determined, the first terminal needs to send all data in the target display window to a second terminal, so as to display corresponding data at the second terminal. Of course, the data display device of the present disclosure may also be a second terminal, and in this case, the above steps 101 and 103 are all executed in the second terminal.

Further, as shown in fig. 9, before the step 103, the method further includes:

and 104, acquiring the display priority of at least one target data display window.

Specifically, after the target data display window is determined, before the data in the target data display window is displayed through the second terminal, in order to preferentially display important data to the user, the display priority of each target data display window may be obtained first, and then the data in at least one target data display window is displayed according to the display priority.

The display priority may be preset or obtained according to a preset rule.

Further, the obtaining of the display priority of the at least one target data display window includes:

when there is a target data display window whose lateral midpoint is the same as the lateral midpoint of the first terminal display region, the display priority of the target data display window whose lateral midpoint is the same as the lateral midpoint of the first terminal display region is determined to be the highest, and the display priorities of the other target data display windows are determined according to a rule that the display priorities decrease in a third designated order.

When there is no target data display window having the same lateral midpoint as that of the first terminal display region, the display priority of at least one target data display window is determined according to a rule that decreases in a third designated order.

That is, in the display area of the first terminal, since the target data display window whose horizontal midpoint is the same as the horizontal midpoint of the display area is located at the middle position of the display area, the content is important and can be displayed preferentially. Therefore, it may be detected whether there is a target data display window having the same lateral midpoint as the lateral midpoint of the display region among the coordinates of the lateral midpoint of the at least one target data display window in the display region, and if there is a target data display window having the same lateral midpoint as the lateral midpoint of the display region, it may be determined that there is a target data display window having the same lateral midpoint as the lateral midpoint of the first terminal display region, and the display priority of the target data display window may be determined to be highest. The display priorities of the other target data display windows are determined according to a rule that decreases in the third designated order.

It should be noted that the third designated sequence is preset, and may be a sequence from left to right, a sequence from right to left, or other sequences, which is not limited in this disclosure.

Optionally, the third designated order is a left-to-right order, and at this time, the display priorities of the other target data display windows are determined according to a decreasing rule from left to right.

And when detecting that no target data display window with the same transverse midpoint as that of the first terminal display area exists, determining the display priority of at least one target data display window according to a rule of descending in a third designated order.

It should be noted that, when multiple lines of target data display windows are included in the display area, the display priority may be decreased line by line. For example, the display priority of the first row of target data display windows is greater than that of the second row of target data display windows, the display priority of the second row of target data display windows is greater than that of the third row of target data display windows, and so on, i.e., the display priority is decreased from top to bottom.

At this time, the step 103 of displaying, by the second terminal, the data in the at least one target data display window includes:

and displaying the data in the at least one target data display window through the mobile terminal according to the display priority of the at least one target data display window.

That is, when the second terminal displays the data in at least one target data display window, the data in each target data display window needs to be displayed according to the display priority of each target data display window and the sequence of the display priorities from high to low.

The present disclosure provides a method of data display comprising: when data in a display area in a first terminal needs to be switched to a second terminal for display, a plurality of data display windows contained in the display area of the first terminal are obtained, the data display windows are combined to obtain a target data display window, the data in the target data display window is displayed at the second terminal, and the data display windows needing to be displayed together in the first terminal are combined into one target data display window, so that the data needing to be displayed together in the first terminal can be displayed in one data display window when the second terminal displays. That is to say, the data that needs to be displayed together in the first terminal is merged into one target data display window, and the data is displayed on the second terminal by taking the target data display window as a unit, so that the display content in the display area in the first terminal can be displayed in the second terminal in a hierarchical manner, the display content layout of the display area in the first terminal cannot be misplaced due to terminal switching, and the purpose of reducing the display content layout misplacement in the display area during terminal switching can be achieved.

An embodiment of the present disclosure provides an apparatus 900 for displaying data, as shown in fig. 10, including:

an obtaining module 901, configured to obtain multiple data display windows in a display area of a first terminal.

The data display window is used for displaying the loaded data.

The processing module 902 is configured to perform merging processing on multiple data display windows according to the frame types of the data display windows, and determine at least one target data display window.

Specifically, the processing module 902 is specifically configured to, when the frame type of the data display window includes a type of a visible frame, sequentially detect the data display windows of the visible frame according to a first specified order, where a first merging detection procedure is executed for a detected kth data display window of the visible frame, and after each execution of the first merging detection procedure, update k to k +1, and execute the first merging detection procedure again until after the execution of the first merging detection procedure, k is equal to n, where n is the total number of the determined data display windows of the visible frame. k is an integer of 1 or more and n or less.

Wherein, the first merging detection process comprises:

and when the data display windows of other visible frames adjacent to and aligned with the data display window of the kth visible frame exist, combining the data display window of the kth visible frame with the data display windows of the other visible frames to obtain the data display window of the (k + 1) th visible frame.

And when the data display windows of other visible frames adjacent to and aligned with the data display window of the kth visible frame do not exist, determining the data display window of the kth visible frame as a target data display window.

Or, the processing module 902 is specifically configured to, when the frame type of the data display window includes a type of an invisible frame, sequentially detect the data display windows of the invisible frame according to a second specified order, where a second merge detection procedure is performed on the detected data display window of the ith invisible frame, and after each second merge detection procedure is performed, update i to i +1, and perform the second merge detection procedure again until i is m after the second merge detection procedure is performed, where m is the determined total number of the data display windows of the invisible frame. i is an integer of 1 or more and m or less.

Wherein the second merging detection process includes:

when the data display windows of other invisible borders adjacent to and overlapped with the data display window of the ith invisible border exist, the overlapping area between the data display window of the ith invisible border and the data display windows of the other invisible borders is calculated, when the overlapping area is larger than a first preset value, the data display window of the ith invisible border and the data display windows of the other invisible borders are combined, and the combined data display window of the invisible border is used as the data display window of the (i + 1) th invisible border.

And when the data display window of the ith invisible frame is not adjacent to and overlapped with the data display window of the ith invisible frame, determining the data display window of the ith invisible frame as a target data display window.

Further, the processing module 902 is further configured to, when the type of the data in the data display window of the ith invisible border is a graph type and there is a data display window of a second invisible border that is adjacent to and overlapped with the data display window of the merged invisible border, merge the data display window of the merged invisible border and the data display window of the second invisible border again if the type of the data in the data display window of the second invisible border is the graph type.

And the data display window of the second invisible frame is adjacent to and overlapped with the data display window of the merged invisible frame.

The processing module 902 takes the data display window of the invisible border obtained by the combination as the data display window of the i +1 th invisible border, and includes:

and taking the data display window of the invisible frame obtained by the mergence as the data display window of the (i + 1) th invisible frame.

Or when the type of the data in the data display window of the ith invisible frame is a non-chart type, taking the data display window of the merged invisible frame as the data display window of the (i + 1) th invisible frame.

Or when the data display window of the second invisible border which is adjacent to and overlapped with the data display window of the combined invisible border does not exist, taking the data display window of the combined invisible border as the data display window of the (i + 1) th invisible border.

Or when the type of the data in the data display window of the second invisible frame is a non-chart type, taking the data display window of the combined invisible frame as the data display window of the (i + 1) th invisible frame.

Further, the processing module 902 is further configured to, when the overlapping area is not greater than the first preset value, when the type of the data in the data display window of the ith invisible border is a graph type and there is a data display window of the first invisible border that is adjacent to and overlaps with the data display windows of the other invisible borders, merge the data display window of the ith invisible border, the data display windows of the other invisible borders, and the data display window of the first invisible border into a data display window of an invisible border if the type of the data in the data display window of the first invisible border is the graph type, and use the data display window of the merged invisible border as the data display window of the (i + 1) th invisible border.

And the data display window of the first invisible frame is the data display window of the invisible frame which is adjacent and overlapped except the data display window of the ith invisible frame in the data display windows of other invisible frames.

And when the overlapping area is not larger than a first preset value, determining the data display window of the ith invisible frame as a target data display window when the type of the data in the data display window of the ith invisible frame is a non-chart type.

Or when the overlapping area is not larger than the first preset value, when the data display window of the first invisible border which is adjacent to and overlapped with the data display windows of other invisible borders does not exist, determining the data display window of the ith invisible border as a target data display window.

Or when the overlapping area is not larger than the first preset value and the type of the data in the data display window of the first invisible border is a non-chart type, determining the data display window of the ith invisible border as a target data display window.

And a display module 903, configured to display, by the second terminal, data in the at least one target data display window.

Further, the obtaining module 901 is further configured to obtain a display priority of at least one target data display window.

Specifically, the obtaining module 901 is specifically configured to, when there is a target data display window whose lateral midpoint is the same as the lateral midpoint of the first terminal display area, determine the display priority of the target data display window whose lateral midpoint is the same as the lateral midpoint of the first terminal display area to be the highest, and determine the display priorities of other target data display windows according to a rule that the display priorities decrease in a third designated order.

When there is no target data display window having the same lateral midpoint as that of the first terminal display region, the display priority of at least one target data display window is determined according to a rule that decreases in a third designated order.

At this time, the display module 903 is specifically configured to display, by the second middle terminal, data in at least one target data display window according to the display priority of the at least one target data display window.

Therefore, when the data in the display area in the first terminal needs to be switched to the second terminal for display, the multiple data display windows included in the display area of the first terminal are obtained, the multiple data display windows are combined to obtain the target data display window, the data in the target data display window is displayed at the second terminal, and the data display windows needing to be displayed together in the first terminal are combined into one target data display window, so that the data needing to be displayed together in the first terminal can be displayed in one data display window when the data is displayed at the second terminal. That is to say, the data that needs to be displayed together in the first terminal is merged into one target data display window, and the data is displayed on the second terminal by taking the target data display window as a unit, so that the display content in the display area in the first terminal can be displayed in the second terminal in a hierarchical manner, the display content layout of the display area in the first terminal cannot be misplaced due to terminal switching, and the purpose of reducing the display content layout misplacement in the display area during terminal switching can be achieved.

With regard to the apparatus in the above-described embodiment, the specific manner in which each module performs the operation has been described in detail in the embodiment related to the method, and will not be elaborated here.

Fig. 11 is a block diagram illustrating an electronic device 700 in accordance with an example embodiment. As shown in fig. 11, the electronic device 700 may include: a processor 701 and a memory 702. The electronic device 700 may also include one or more of a multimedia component 703, an input/output (I/O) interface 704, and a communication component 705.

The processor 701 is configured to control the overall operation of the electronic device 700, so as to complete all or part of the steps in the above-mentioned method for displaying data. The memory 702 is used to store various types of data to support operation at the electronic device 700, such as instructions for any application or method operating on the electronic device 700 and application-related data, such as contact data, messaging, pictures, audio, video, and so forth. The Memory 702 may be implemented by any type of volatile or non-volatile Memory device or combination thereof, such as Static Random Access Memory (SRAM), Electrically Erasable Programmable Read-Only Memory (EEPROM), Erasable Programmable Read-Only Memory (EPROM), Programmable Read-Only Memory (PROM), Read-Only Memory (ROM), magnetic Memory, flash Memory, magnetic disk, or optical disk. The multimedia components 703 may include screen and audio components. Wherein the screen may be, for example, a touch screen and the audio component is used for outputting and/or inputting audio signals. For example, the audio component may include a microphone for receiving external audio signals. The received audio signal may further be stored in the memory 702 or transmitted through the communication component 705. The audio assembly also includes at least one speaker for outputting audio signals. The I/O interface 704 provides an interface between the processor 701 and other interface modules, such as a keyboard, mouse, buttons, etc. These buttons may be virtual buttons or physical buttons. The communication component 705 is used for wired or wireless communication between the electronic device 700 and other devices. Wireless communication, such as Wi-Fi, bluetooth, Near Field Communication (NFC), 2G, 3G, 4G, NB-IOT, eMTC, or other 5G, etc., or a combination of one or more of them, which is not limited herein. The corresponding communication component 705 may thus include: Wi-Fi module, Bluetooth module, NFC module, etc.

In an exemplary embodiment, the electronic Device 700 may be implemented by one or more Application Specific Integrated Circuits (ASICs), Digital Signal Processors (DSPs), Digital Signal Processing Devices (DSPDs), Programmable Logic Devices (PLDs), Field Programmable Gate Arrays (FPGAs), controllers, microcontrollers, microprocessors, or other electronic components for performing the above-described data display method.

In another exemplary embodiment, a computer readable storage medium comprising program instructions which, when executed by a processor, implement the steps of the above-described method of data display is also provided. For example, the computer readable storage medium may be the memory 702 described above comprising program instructions that are executable by the processor 701 of the electronic device 700 to perform the method of data display described above.

Fig. 12 is a block diagram illustrating an electronic device 1900 according to an example embodiment. For example, the electronic device 1900 may be provided as a server. Referring to fig. 12, an electronic device 1900 includes a processor 1922, which may be one or more in number, and a memory 1932 for storing computer programs executable by the processor 1922. The computer program stored in memory 1932 may include one or more modules that each correspond to a set of instructions. Further, the processor 1922 may be configured to execute the computer program to perform the method of data display described above.

Additionally, electronic device 1900 may also include a power component 1926 and a communication component 1950, the power component 1926 may be configured to perform power management of the electronic device 1900, and the communication component 1950 may be configured to enable communication, e.g., wired or wireless communication, of the electronic device 1900. In addition, the electronic device 1900 may also include input/output (I/O) interfaces 1958. The electronic device 1900 may operate based on an operating system, such as Windows Server, Mac OS XTM, UnixTM, Linux, etc., stored in memory 1932.

In another exemplary embodiment, a computer readable storage medium comprising program instructions which, when executed by a processor, implement the steps of the above-described method of data display is also provided. For example, the computer readable storage medium may be the memory 1932 that includes program instructions executable by the processor 1922 of the electronic device 1900 to perform the method of data display described above.

In another exemplary embodiment, a computer program product is also provided, which comprises a computer program executable by a programmable apparatus, the computer program having code portions for performing the above-mentioned method of data display when executed by the programmable apparatus.

The preferred embodiments of the present disclosure are described in detail with reference to the accompanying drawings, however, the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solution of the present disclosure within the technical idea of the present disclosure, and these simple modifications all belong to the protection scope of the present disclosure.

In addition, any combination of various embodiments of the present disclosure may be made, and the same should be considered as the disclosure of the present disclosure, as long as it does not depart from the spirit of the present disclosure.

Claims (10)

1. A method of data display, comprising:

acquiring a plurality of data display windows in a display area of a first terminal; the data display window is used for displaying the loaded data;

combining the data display windows according to the frame types of the data display windows to determine at least one target data display window;

and displaying the data in the at least one target data display window through the second terminal.

2. The method of claim 1, wherein the merging the plurality of data display windows according to the border type of the data display window, and determining at least one target data display window comprises:

when the frame type of the data display window comprises a visible frame type, sequentially detecting the data display windows of the visible frames according to a first designated sequence, wherein a first merging detection process is executed on the detected data display window of the kth visible frame, after the first merging detection process is executed each time, k is updated to k +1, the first merging detection process is executed again until the first merging detection process is executed, k is n, and n is the total number of the determined data display windows of the visible frames; k is an integer of 1 or more and n or less;

wherein the first merging detection procedure includes:

when the data display windows of other visible frames adjacent to and aligned with the data display window of the kth visible frame exist, combining the data display window of the kth visible frame with the data display windows of the other visible frames to obtain a data display window of a (k + 1) th visible frame;

and when the data display windows of other visible frames adjacent to and aligned with the data display window of the kth visible frame do not exist, determining the data display window of the kth visible frame as a target data display window.

3. The method of claim 1, wherein the merging the plurality of data display windows according to the border type of the data display window, and determining at least one target data display window comprises:

when the frame type of the data display window comprises the type of an invisible frame, sequentially detecting the data display windows of the invisible frame according to a second designated sequence, wherein a second merging detection process is executed on the detected data display window of the ith invisible frame, after the second merging detection process is executed each time, i is updated to i +1, the second merging detection process is executed again until the second merging detection process is executed, i is m, and m is the total number of the determined data display windows of the invisible frame; i is an integer of 1 or more and m or less;

wherein the second merging detection procedure includes:

when data display windows of other invisible borders adjacent to and overlapped with the data display window of the ith invisible border exist, calculating the overlapping area between the data display window of the ith invisible border and the data display windows of the other invisible borders, merging the data display window of the ith invisible border and the data display windows of the other invisible borders when the overlapping area is larger than a first preset value, and taking the merged data display window of the invisible border as the data display window of the (i + 1) th invisible border;

and when the data display window of the ith invisible frame is not adjacent to and overlapped with the data display window of the ith invisible frame, determining the data display window of the ith invisible frame as a target data display window.

4. The method of claim 3, wherein the second merged detection flow further comprises:

when the overlapping area is not larger than a first preset value, when the type of data in the data display window of the ith invisible border is a graph type and a data display window of a first invisible border which is adjacent to and overlapped with the data display windows of the other invisible borders exists, if the type of data in the data display window of the first invisible border is the graph type, combining the data display window of the ith invisible border, the data display windows of the other invisible borders and the data display window of the first invisible border into a data display window of an invisible border, taking the data display window of the combined invisible border as a data display window of the (i + 1) th invisible border, wherein the data display window of the first invisible border is the data display window of the other invisible borders except the data display window of the ith invisible border, a data display window of adjacent and overlapping invisible borders;

when the overlapping area is not larger than a first preset value, determining the data display window of the ith invisible frame as a target data display window when the type of the data in the data display window of the ith invisible frame is a non-chart type;

or when the overlapping area is not larger than a first preset value, when the data display window of the first invisible border which is adjacent to and overlapped with the data display windows of the other invisible borders does not exist, determining the data display window of the ith invisible border as a target data display window;

or when the overlapping area is not larger than a first preset value and the type of the data in the data display window of the first invisible frame is a non-chart type, determining the data display window of the ith invisible frame as a target data display window.

5. The method according to claim 3, wherein before the step of using the merged data display window with invisible borders as the data display window with i +1 th invisible borders, the method further comprises:

when the type of the data in the data display window of the ith invisible frame is a diagram type and a data display window of a second invisible frame adjacent to and overlapped with the data display window of the merged invisible frame exists, if the type of the data in the data display window of the second invisible frame is the diagram type, merging the data display window of the merged invisible frame and the data display window of the second invisible frame again; the data display window of the second invisible border is a data display window of the invisible border which is adjacent to and overlapped with the data display window of the invisible border obtained by combination;

the step of taking the data display window of the invisible frame obtained by combination as the data display window of the (i + 1) th invisible frame includes:

taking the data display window of the invisible frame obtained by the second combination as the data display window of the (i + 1) th invisible frame;

or when the type of the data in the data display window of the ith invisible frame is a non-chart type, taking the data display window of the invisible frame obtained by combination as the data display window of the (i + 1) th invisible frame;

or when the data display window of the second invisible frame adjacent to and overlapped with the data display window of the merged invisible frame does not exist, taking the data display window of the merged invisible frame as the data display window of the (i + 1) th invisible frame;

or, when the type of the data in the data display window of the second invisible frame is a non-chart type, taking the data display window of the invisible frame obtained by combination as the data display window of the (i + 1) th invisible frame.

6. The method according to any one of claims 1-5, further comprising, prior to said displaying data within said at least one target data display window by the second terminal:

acquiring the display priority of the at least one target data display window;

the displaying the data in the at least one target data display window through the second terminal comprises:

and displaying the data in the at least one target data display window through the second middle terminal according to the display priority of the at least one target data display window.

7. The method of claim 6, wherein obtaining the display priority of the at least one target data display window comprises:

when a target data display window with the same transverse midpoint as that of the first terminal display area exists, determining the display priority of the target data display window with the same transverse midpoint as that of the first terminal display area as the highest, and determining the display priorities of other target data display windows according to a rule that the display priorities are decreased in a third designated order;

and when no target data display window with the same transverse midpoint as that of the first terminal display area exists, determining the display priority of the at least one target data display window according to a rule of descending in a third designated order.

8. An apparatus for displaying data, comprising:

the acquisition module is used for acquiring a plurality of data display windows in a display area of the first terminal; the data display window is used for displaying the loaded data;

the processing module is used for merging the plurality of data display windows according to the frame types of the data display windows and determining at least one target data display window;

and the display module is used for displaying the data in the at least one target data display window through the second terminal.

9. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 7.

10. An electronic device, comprising:

a memory having a computer program stored thereon;

a processor for executing the computer program in the memory to carry out the steps of the method of any one of claims 1 to 7.

Images