CN112462999B

CN112462999B - Display method, display device and storage medium

Info

Publication number: CN112462999B
Application number: CN202011191567.3A
Authority: CN
Inventors: 钱直儒; 梅州; 葛旭; 田磊; 谢晓平
Original assignee: Beijing Shuqin Technology Co ltd
Current assignee: Beijing Shuqin Technology Co ltd
Priority date: 2020-10-30
Filing date: 2020-10-30
Publication date: 2022-05-24
Anticipated expiration: 2040-10-30
Also published as: CN112462999A

Abstract

The application discloses a display method, a display device and a storage medium. The display method comprises the following steps: displaying a first component window on a first display screen of the plurality of display screens and a second component window on a second display screen of the plurality of display screens; responding to a first trigger operation of a user on the first component window, and displaying a third component window corresponding to the first component window on a third display screen in the plurality of display screens; and in response to a second trigger operation of the user on the second component window, displaying a fourth component window on the third display screen in a spliced mode with the third component window, wherein the fourth component window corresponds to the second component window.

Description

Display method, display device and storage medium

Technical Field

The present disclosure relates to the field of multi-screen display technologies, and in particular, to a display method, a display apparatus, and a storage medium.

Background

More and more field workers need to work with multiple display screens simultaneously, for example, financial workers often work with multi-screen display systems having multiple displays. Wherein can show different data information respectively in the display screen of difference, more data information can be observed simultaneously through looking over different display screens to financial staff. And the interface in each display screen often also fixes the content of the business module to be displayed, thereby forming the collocation of the fixed business module.

However, sometimes, the staff needs to perform the association display between the business modules with the minimum granularity of each interface in each display screen. For example, referring to FIG. 10, component 311 is used to display a list of information for different stocks. The business module displayed by the component 312 is used for displaying the displayed time-sharing graph of a certain stock. . Sometimes, the staff may need to associate the component 312 with the component 311, so that the information of the stock in the component 311 is displayed, and at the same time, the time-sharing graph of the stock can be further displayed in the component 312. However, no technique has been provided for associating business modules of arbitrary components displayed in an interface, and thus, a worker cannot associate business modules to be associated in the interface together for linkage.

Aiming at the technical problem that in the prior art, a technology for associating business modules of any component displayed in an interface is lacked, so that a worker cannot associate the business modules to be associated in the interface together for linkage, an effective solution is not provided at present.

Disclosure of Invention

Embodiments of the present disclosure provide a display method, a display device, and a storage medium, so as to at least solve the technical problem that in the prior art, a technology for associating business modules of any component displayed in an interface is lacking, and thus a worker cannot associate business modules that are to be associated in the interface together for linkage.

According to an aspect of an embodiment of the present disclosure, there is provided a display method including: displaying a first component window on a first display screen of the plurality of display screens and a second component window on a second display screen of the plurality of display screens; responding to a first trigger operation of a user on the first component window, and displaying a third component window corresponding to the first component window on a third display screen in the plurality of display screens; and in response to a second trigger operation of the user on the second component window, displaying a fourth component window on the third display screen in a spliced mode with the third component window, wherein the fourth component window corresponds to the second component window.

According to another aspect of the embodiments of the present disclosure, there is also provided a storage medium including a stored program, wherein the method of any one of the above is performed by a processor when the program is executed.

According to another aspect of the embodiments of the present disclosure, there is also provided a display device including: the display device comprises a first display module, a second display module and a display module, wherein the first display module is used for displaying a first component window on a first display screen in a plurality of display screens and displaying a second component window on a second display screen in the plurality of display screens; the second display module is used for responding to a first trigger operation of a user on the first component window, and displaying a third component window corresponding to the first component window on a third display screen in the plurality of display screens; and the third display module is used for responding to a second trigger operation of the user on the second component window, and displaying a fourth component window on a third display screen in a form of splicing with the third component window, wherein the fourth component window corresponds to the second component window.

According to another aspect of the embodiments of the present disclosure, there is also provided a display device including: a processor; and a memory coupled to the processor for providing instructions to the processor for processing the following processing steps: displaying a first component window on a first display screen of the plurality of display screens and a second component window on a second display screen of the plurality of display screens; responding to a first trigger operation of a user on the first component window, and displaying a third component window corresponding to the first component window on a third display screen in the plurality of display screens; and in response to a second trigger operation of the user on the second component window, displaying a fourth component window on the third display screen in a spliced mode with the third component window, wherein the fourth component window corresponds to the second component window.

In the embodiment of the present disclosure, when a user needs to perform associated display on different service modules on different display screens, a host responds to a first trigger operation performed by the user on a first component window on a first display screen and responds to a second trigger operation performed by the user on a second component window on a second display screen, and displays a spliced third component window and a spliced fourth component window on a third display screen. The technical effect of associating different service modules of different interfaces on different display screens is achieved, and therefore linkage of different service modules is achieved. The technical problem that in the prior art, a technology for associating the business modules of any component displayed in the interface is lacked, and therefore workers cannot associate the business modules to be associated in the interface together for linkage is solved.

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 application, illustrate embodiment(s) of the disclosure and together with the description serve to explain the disclosure and not to limit the disclosure. In the drawings:

fig. 1 is a hardware configuration block diagram of a computing device for implementing the method according to embodiment 1 of the present disclosure;

FIG. 2A is a schematic diagram of a system for multi-screen display according to embodiment 1 of the present disclosure;

fig. 2B is an internal program framework diagram of a system for multi-screen display according to embodiment 1 of the present disclosure;

fig. 3 is a schematic flow chart of a display method according to a first aspect of embodiment 1 of the present disclosure;

fig. 4A is a schematic diagram of a plurality of service modules displayed by a plurality of display screens according to a first aspect of embodiment 1 of the present disclosure;

fig. 4B is a schematic diagram of a user triggering operation on multiple service modules according to the first aspect of embodiment 1 of the present disclosure;

fig. 5 is a schematic diagram of the linkage between the third and fourth component windows according to the first aspect of embodiment 1 of the present disclosure;

FIG. 6 is a schematic diagram of a display process display assembly according to the first aspect of embodiment 1 of the present application;

Fig. 7A is a schematic diagram of a plurality of display screens respectively displayed by a plurality of display processes according to embodiment 1 of the present disclosure;

FIG. 7B is a schematic diagram illustrating a multi-screen linkage according to embodiment 1 of the present disclosure;

FIG. 7C is another schematic diagram illustrating an implementation of a multi-screen linkage according to embodiment 1 of the present disclosure;

FIG. 7D is a diagram illustrating component inheritance according to the first aspect of embodiment 1 of the present disclosure;

fig. 8 is a schematic view of a display device according to embodiment 2 of the present disclosure;

fig. 9 is a schematic diagram of a display device according to embodiment 3 of the present disclosure; and

fig. 10 is a schematic diagram of the prior art described in the background of the present embodiment.

Detailed Description

In order to make those skilled in the art better understand the technical solutions of the present disclosure, the technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the drawings in the embodiments of the present disclosure. It is to be understood that the described embodiments are merely exemplary of some, and not all, of the present disclosure. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

It should be noted that the terms "first," "second," and the like in the description and claims of the present disclosure and in the above-described drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the disclosure described herein are capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Example 1

According to the present embodiment, there is provided a display method embodiment, it should be noted that the steps illustrated in the flowchart of the figure may be performed in a computer system such as a set of computer executable instructions, and that while a logical order is illustrated in the flowchart, in some cases the steps illustrated or described may be performed in an order different than here.

The method embodiments provided by the present embodiment may be executed in a mobile terminal, a computer terminal, a server or a similar computing device. Fig. 1 shows a hardware configuration block diagram of a computing device for implementing a display method. As shown in fig. 1, the computing device may include one or more processors (which may include, but are not limited to, a processing device such as a microprocessor MCU or a programmable logic device FPGA), a memory for storing data, and a transmission device for communication functions. Besides, the method can also comprise the following steps: a display, an input/output interface (I/O interface), a Universal Serial Bus (USB) port (which may be included as one of the ports of the I/O interface), a network interface, a power source, and/or a camera. It will be understood by those skilled in the art that the structure shown in fig. 1 is only an illustration and is not intended to limit the structure of the electronic device. For example, the computing device may also include more or fewer components than shown in FIG. 1, or have a different configuration than shown in FIG. 1.

It should be noted that the one or more processors and/or other data processing circuitry described above may be referred to generally herein as "data processing circuitry". The data processing circuitry may be embodied in whole or in part in software, hardware, firmware, or any combination thereof. Further, the data processing circuitry may be a single, stand-alone processing module, or incorporated in whole or in part into any of the other elements in the computing device. As referred to in the disclosed embodiments, the data processing circuit acts as a processor control (e.g., selection of a variable resistance termination path connected to the interface).

The memory may be used to store software programs and modules of application software, such as program instructions/data storage devices corresponding to the display method in the embodiments of the present disclosure, and the processor executes various functional applications and data processing by running the software programs and modules stored in the memory, so as to implement the display method of the application program. The memory may include high speed random access memory, and may also include non-volatile memory, such as one or more magnetic storage devices, flash memory, or other non-volatile solid-state memory. In some instances, the memory may further include memory located remotely from the processor, which may be connected to the computing device over a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The transmission device is used for receiving or transmitting data via a network. Specific examples of such networks may include wireless networks provided by communication providers of the computing devices. In one example, the transmission device includes a Network adapter (NIC) that can be connected to other Network devices through a base station to communicate with the internet. In one example, the transmission device may be a Radio Frequency (RF) module, which is used for communicating with the internet in a wireless manner.

The display may be, for example, a touch screen type Liquid Crystal Display (LCD) that may enable a user to interact with a user interface of the computing device.

It should be noted here that in some alternative embodiments, the computing device shown in fig. 1 described above may include hardware elements (including circuitry), software elements (including computer code stored on a computer-readable medium), or a combination of both hardware and software elements. It should be noted that FIG. 1 is only one example of a particular specific example and is intended to illustrate the types of components that may be present in a computing device as described above.

Fig. 2A is a schematic diagram of a multi-screen display system according to the present embodiment. Referring to fig. 2A, the system includes: a host 100, and a multi-screen system 200 in communication with the host 100 (e.g., via video transmission cables). The multi-screen system 200 includes a main screen 210 and sub-screens 221-226. The multi-screen display system 200 can be, for example, a computer device provided for financial staff, so as to provide the staff with multi-screen data display functions. The main screen 210 can be a display screen which is directly aimed by a worker and can be used for viewing a main interface of the data analysis software, and the auxiliary screens 221-226 can display data forms with different themes, so that the worker can view more data. (Note: the main screen 210 and the sub-screens 221-226 are only used for explaining that the main screen 210 is a display screen facing the worker. in the specific display process, the main screen 210 and the sub-screens 221-226 can be independent and flat display screens, and the sub-screens 221-226 can be displayed independently of the main screen 210, that is, even if the main screen 210 is not displayed, the sub-screens 221-226 can also be displayed).

In addition, fig. 2B shows a program architecture diagram of an application program provided in the host 100, and referring to fig. 2B, the main program process is a main framework process of the application program running in the host 100, and the functions performed by the main program process include: 1) corresponding operation in the starting and closing processes of the application program; 2) interaction with a worker (e.g., interaction triggered by a mouse or other means); 3) carrying out data processing; 4) and calling a display process to display on each display screen. In addition, a plurality of display processes 0 to 6 corresponding to the display screen 210 and the display screens 221 to 226 are run in the host 100. Specifically, the display processes 0 to 6 are used for executing operations related to display, such as data transmission, rendering, and display, and the main program process invokes the display processes 0 to 6 to perform corresponding display functions of the corresponding display screens 210, 221 to 226. It should be noted that the host 100 in the system can be adapted to the above-mentioned hardware structure.

In the above operating environment, according to the first aspect of the present embodiment, there is provided a display method implemented by the host 100 shown in fig. 2A. Fig. 3 shows a flow diagram of the method, and referring to fig. 3, the method comprises:

S302: displaying a first component window on a first display screen of the plurality of display screens and a second component window on a second display screen of the plurality of display screens;

s304: responding to a first trigger operation of a user on the first component window, and displaying a third component window corresponding to the first component window on a third display screen in the plurality of display screens; and

s306: and in response to a second trigger operation of the user on the second component window, displaying a fourth component window on the third display screen in a spliced mode with the third component window, wherein the fourth component window corresponds to the second component window.

As described in the background, sometimes a worker needs to perform an association display between the business modules with the minimum granularity of each interface in each display screen. For example, referring to FIG. 10, component 311 is used to display a list of information for different stocks. The business module displayed by the component 312 is used for displaying the displayed time-sharing graph of a certain stock. . Sometimes, the staff may need to associate the component 312 with the component 311, so that the information of the stock in the component 311 is displayed, and at the same time, the time-sharing graph of the stock can be further displayed in the component 312. However, no technique has been provided for associating business modules of arbitrary components displayed in an interface, and thus, a worker cannot associate business modules to be associated in the interface together for linkage.

In view of this, an embodiment of the present application provides a display method, and as shown in fig. 4A, a worker needs to perform association display on service modules with minimum granularity on each interface in each display screen. For example, in the interface of the main screen 210, the service module displayed by the component 311 is used for displaying a timesharing graph of a certain stock displayed by the main screen 210. In the interface of sub-screen 222, component 312 is used to display a list of information for different stocks. Sometimes, the staff may need to associate the component 312 with the component 311, so that the information of the stock in the component 312 is displayed, and at the same time, the time-sharing graph of the stock can be further displayed in the component 311. When a user has a need to associate and display different service modules on different interfaces, the host 100 first displays a first component window on a first display screen of the multiple display screens and a second component window on a second display screen of the multiple display screens (S302). Referring to fig. 4A and 4B, a first component window 311 (which may also be other component windows on the first display screen 210) is displayed on the first display screen 210 (which may also be the main screen 210, or may also be other display screens 221 to 226 in the plurality of opened display screens), and a second component window 312 (which may also be other component windows on the second display screen 222) is displayed on the second display screen 222 (which may also be

other display screens

210, 221, and 223 to 226 in the plurality of opened display screens). Wherein the first component window 311 and the second component window 312 are component windows displayed in different interfaces on different display screens.

Further, the host 100 displays a third component window corresponding to the first component window on a third display screen among the plurality of display screens in response to a first trigger operation of the first component window by the user (S304). Referring to fig. 4B, the first trigger operation of the user on the first component window 311 may be to drag the first component window 311 to the third display screen 221 (or to open other display screens 210, 222-226 in the multiple display screens) to display a third component window 311 ', where the third component window 311' corresponds to the first component window 311.

Further, the host 100 displays a fourth component window in a form of being spliced with the third component window on the third display screen in response to the second trigger operation of the user on the second component window, wherein the fourth component window corresponds to the second component window (S306). Referring to fig. 4B, the second trigger operation of the user on the second component window 312 may be dragging the second component window 312 onto the third display screen 221 to display a fourth component window 312 ', wherein the fourth component window 312 ' and the third component window 311 ' are tiled together on the third display screen 221 for display. That is, the third and fourth component windows 311 'and 312' are sucked together, and the coupling between the first and

second component windows

311 and 312 is achieved.

Further, referring to FIG. 4B, when a worker desires to associate a business module in component 311 with a business module in component 312, component 311 and component 312 may be dragged into one display screen (e.g., sub-screen 221). For example, a worker may first drag the component 312 into the secondary screen 221, creating a new window 312'. Then, when the worker drags the component 311 to the sub-screen 221 as well, the main program process may detect the window 312 ' displayed on the sub-screen 221, thereby adsorbing the new window 311 ' generated based on the component 311 together with the window 312 '.

Therefore, in the above manner, when a user needs to perform associated display on different service modules on different display screens, the host 100 responds to a first trigger operation performed by the user on a first component window on the first display screen and a second trigger operation performed by the user on a second component window on the second display screen, and displays a spliced third component window 311 'and a spliced fourth component window 312' on the third display screen. The technical effect of associating different service modules of different interfaces on different display screens is achieved, and therefore linkage of different service modules is achieved. The technical problem that in the prior art, a technology for associating the business modules of any component displayed in the interface is lacked, and therefore workers cannot associate the business modules to be associated in the interface together for linkage is solved.

Optionally, in response to the first trigger operation, displaying an operation of a third component window on a third display screen, including: determining first size information and first position information of a third component window in response to a first trigger operation of dragging the first component window to a third display screen by a user; and displaying a third component window on a third display screen according to the determined first size information and the first position information.

Specifically, referring to fig. 4B, the host 100 determines the first size information and the first position information of the third component window 311' in response to a first trigger operation of the user dragging the first component window 311 to the third display screen 221. The host 100 may determine the first size information and the first position information of the third component window on the third display screen according to the display position and size of the third component window 311' displayed on the third display screen. For example, the host 100 may preset coordinate information of the display screen, and determine the first size information and the first position information of the third component window 311 'on the third display screen 221 according to the coordinate information displayed by the third component window 311'. Then, the host 100 displays a third component window 311' on the third display 221 according to the determined first size information and first position information. For example, the host 100 may determine the coordinate information (i.e., the first size information and the first position information) of the third component window 311 'on the third display 221 according to the triggering operation of the third component window 311' on the third display 221 by the user, and then the host 100 may display the third component window 311 'on the third display 221 according to the coordinate information of the third component window 311'. Thus, in the above manner, the information about the size and position of the third component window 311 'on the third display 221 is determined, and the third component window 311' is displayed on the third display 221.

Optionally, in response to the second trigger operation, displaying an operation of a fourth component window on the third display screen, including: in response to a second trigger operation of dragging the second component window to the third display screen by the user, determining second size information and second position information of the fourth component window according to the first size information and the first position information, so that the fourth component window can be spliced with the third component window; and displaying a fourth component window on the third display screen according to the determined second size information and second position information.

Specifically, referring to fig. 4B, in response to a second trigger operation of the user dragging the second component window 312 to the third display screen 221, the host 100 determines second size information and second position information of the fourth component window 312 ' according to the first size information and the first position information, so that the fourth component window 312 ' can be tiled together with the third component window 311 '. After the host 100 determines the coordinate information of the third component window 311 ' on the third display 221, when the user brings the fourth component window 312 ' close to the third component window 311 ' within a certain range, the fourth component window 312 ' and the third component window 311 ' can be adsorbed together for display through a preset adsorption algorithm. Where, for example, the preset adsorption algorithm is to splice two windows left and right, the host 100 may determine that the second size information and the second position information of the fourth component window 312' are displayed on the third display screen 221. And the second size information of the fourth component window 312 'may be preset to be the same as the first size information of the third component window 311', or may be set to other sizes convenient for the user. And the second position information of the fourth component window 312 ' may be arranged at the left side of the third component window 311 ' for splicing or arranged at the right side of the third component window 311 ' for splicing. In addition, the fourth component window 312 ' may be spliced to the upper side of the third component window 311 ' or spliced to the lower side of the third component window according to the user's needs. The host 100 then displays a fourth component window 312' on the third display screen 221 according to the determined second size information and second position information. The display size and position of the fourth component window 312' on the third display screen 221 are thus determined in the above manner.

Optionally, this embodiment further includes: responding to a third trigger operation of zooming a third component window on a third display screen by a user, and determining third position information and third size information of the third component window after the third trigger operation; determining fourth position information and fourth size information of the fourth component window according to the third position information and the third size information, so that the fourth component window and the third component window can be spliced together; and displaying a third component window on a third display screen according to the third position information and the third size information, and displaying a fourth component window on the third display screen according to the fourth position information and the fourth size information.

Specifically, the host 100 determines third position information and third size information of the third component window after the third trigger operation in response to the third trigger operation of the user for zooming the third component window on the third display screen. Then, the host 100 determines fourth position information and fourth size information of the fourth component window according to the third position information and the third size information, so that the fourth component window can be spliced with the third component window. Finally, the host 100 displays a third component window on the third display screen according to the third position information and the third size information, and displays a fourth component window on the third display screen according to the fourth position information and the fourth size information.

For example, referring to fig. 4B, in a case where the user zooms the third component window 311 'on the third display 221, in response to the user's operation, in order to make the third component window 311 'and the fourth component window 312' suction-fit together, when the size and the position of the third component window 311 'are changed, the host 100 changes the size and the position of the fourth component window 312' on the third display 221, so that the fourth component window 312 'and the third component window 311' are still sucked together, and the third component window 311 'and the fourth component window 312' are kept linked. When the position or size of the third component window 311 ' changes, the host 100 may recognize the coordinate information of the third component window 311 ' on the third display 221 (where the coordinate information may also be information of a target object position on the screen recognized by another user), then determine the updated third size information and third position information of the third component window 311 ' according to the coordinate information, and finally determine the new fourth size information and fourth position information of the fourth component window 312 ' on the third display 221 according to the updated third size information and third position information of the third component window 311 ' in order to maintain the linkage between the third component window 311 ' and the fourth component window 312 '. Thus, in the above manner, the linkage of the third component window 311 ' and the fourth component window 312 ' can be maintained regardless of the trigger operation of the user on the third component window 311 '.

Optionally, this embodiment further includes: in response to a fourth trigger operation of zooming the fourth component window on the third display screen by the user, determining fifth position information and fifth size information of the fourth component window after the fourth trigger operation; determining sixth position information and sixth size information of the third component window according to the fifth position information and the fifth size information, so that the third component window and the fourth component window can be spliced together; and displaying a fourth component window on the third display screen according to the fifth position information and the fifth size information, and displaying a third component window on the third display screen according to the sixth position information and the sixth size information.

Specifically, the host 100 determines fifth position information and fifth size information of the fourth component window after the fourth trigger operation in response to the fourth trigger operation of the user zooming the fourth component window on the third display screen. Then, the host 100 determines sixth position information and sixth size information of the third component window according to the fifth position information and the fifth size information, so that the third component window can be spliced with the fourth component window. Finally, the host 100 displays a fourth component window on the third display screen according to the fifth position information and the fifth size information, and displays a third component window on the third display screen according to the sixth position information and the sixth size information.

For example, referring to fig. 4B, in a case where the user needs to zoom the fourth component window 312 'on the third display screen 221, in order to maintain the linkage between the fourth component window 312' and the third component window 311 ', the host 100 first responds to the user's zoom operation on the fourth component window 312 ', and then determines new coordinate information of the updated fourth component window 312' on the third display screen 221. The host 100 then determines fifth size information and fifth position information of the updated fourth component window 312' on the third display screen 221 according to the new coordinate information. Then, the host 100 determines to display the sixth size information and the sixth position information of the third component window 311 'on the third display 221 according to the updated fifth size information and the fifth position information of the fourth component window 312' in order to keep the third component window 311 'and the fourth component window 312' interlocked. The fourth component window 312 'changed by the user's trigger operation and the third component window 311 'changed with the fourth component window 312' are thus displayed on the third display 221 in the above-described manner, and the linkage between the third component window 311 'and the fourth component window 312' can be maintained regardless of the user's trigger operation on the fourth component window 312'.

Optionally, the method further comprises: determining seventh position information of the third component window after a fifth trigger operation in response to the fifth trigger operation of dragging the third component window on the third display screen by the user; determining eighth position information of the fourth component window according to the seventh position information so that the fourth component window can be spliced with the third component window; and displaying a third component window on the third display screen according to the seventh position information and displaying a fourth component window on the third display screen according to the eighth position information.

Specifically, the host 100 determines seventh position information of the third component window after a fifth trigger operation in response to the fifth trigger operation in which the user drags the third component window on the third display screen. The host 100 then determines eighth position information of the fourth component window according to the seventh position information so that the fourth component window can be spliced with the third component window. Finally, the host 100 displays a third component window on the third display screen according to the seventh location information and displays a fourth component window on the third display screen according to the eighth location information.

For example, referring to fig. 4B, when the user needs to move the third component window 311' on the third display screen 221, in order to keep the third component window 311' and the fourth component window 312' linked, the host 100 may first determine seventh position information after the third component window 311' is moved according to the user's moving operation on the third component window 311' (for example, the position where the user drags the third component by the mouse and stops), where the seventh position information may be, for example, position information identified by the coordinate information of the third component window 311' on the third display screen 221. Then, the host 100 determines the eighth position information of the fourth component window 312 'according to the new seventh position information after the third component window 311' is moved. Thereby displaying the third component window 311' and the fourth component window 312' that are moved due to the user's trigger operation on the third display screen 221. The linkage between the fourth component window 312 'and the third component window 311' is thus maintained in the above-described manner. That is, regardless of the movement of the third component window 311', the host 100 may update the position information of the fourth component window 312' according to the position information of the third component window 311', thereby maintaining the linkage of the third component window 311' and the fourth component window 312 '.

Optionally, the method further comprises: responding to a sixth trigger operation of dragging the fourth component window on the third display screen by the user, and determining ninth position information of the fourth component window after the sixth trigger operation; determining tenth position information of the third component window according to the ninth position information so that the third component window can be spliced with the fourth component window; and displaying a fourth component window on the third display screen according to the ninth position information, and displaying a third component window on the third display screen according to the tenth position information.

Specifically, the host 100 determines ninth position information of the fourth component window after a sixth trigger operation in response to the sixth trigger operation in which the user drags the fourth component window on the third display screen. Then, the host 100 determines tenth position information of the third component window according to the ninth position information so that the third component window can be spliced with the fourth component window. Finally, the host 100 displays a fourth component window on the third display screen according to the ninth position information and displays a third component window on the third display screen according to the tenth position information.

For example, referring to fig. 4B, when the user needs to move the fourth component window 312 'on the third display screen 221, in order to maintain the linkage between the third component window 311' and the fourth component window 312', the host 100 may first determine ninth position information after the movement of the fourth component window 312' according to the movement operation of the user on the fourth component window 312 '(for example, the position where the user drags the third component by using a mouse and stops), where the ninth position information may be, for example, position information identified by coordinate information of the fourth component window 312' on the third display screen 221. Then, the host 100 determines the tenth location information of the third component window 311 'according to the new ninth location information of the fourth component window 312' after the movement. Thereby displaying the third component window 311' and the fourth component window 312' that are moved due to the user's trigger operation on the third display screen 221. The linkage between the fourth component window 312 'and the third component window 311' is thus maintained in the above-described manner. That is, regardless of the movement of the fourth component window 312', the host 100 may update the position information of the third component window 311' according to the position information of the fourth component window 312', thereby maintaining the linkage of the third component window 311' and the fourth component window 312 '.

Optionally, the operation of displaying the first component window on the first display screen comprises: the operations of displaying a first component window by a first display process associated with a first display screen and displaying a third component window on a third display screen, comprising: and displaying a third component window on a third display screen through the first display process, wherein the third display screen is associated with the second display process, and the second display process and the first display process are different display processes.

Specifically, referring to fig. 2B and 6, the display process associated with the home screen 210 is display process 0. The host 100 displays the first component window 311 through the first display process 0 associated with the first display screen 210. The first component window 311 is a component triggered on the first display screen 210. The first component window 311 is thus displayed by the first display process 0 associated with the first display screen 210. And in the process of displaying the third component window 311 'on the third display screen 211, the host 100 may display the third component window 311' on the third display screen 221 through the first display process 0. Wherein the third display screen 221 is associated with a second display process 1, the second display process 1 and the first display process 0 being different display processes. Referring to fig. 2B and 6, although the third display process associated with the third display screen 221 is display process 1, the third component 311 'is a component that the user triggers the first component window 311, and thus the third component window 311' is still displayed by the first display process 0 associated with the first display screen 210, except that the displayed position is on the third display screen 221. Specifically, referring to FIG. 2, in the present embodiment each display screen has an associated display progression. The meaning of "associated" here is based on a trigger in the display screen. For example, since the third component window 311' is a component window generated based on the triggering of the first component window 311 in the first display screen 210, even if the component window is not displayed in the first display screen 210, it is still triggered by the first display process 0 associated with the first display screen 210. And the like for component windows generated by triggering other display screens. Referring to fig. 6, since the third component window 311 ' is a window corresponding to the first component window 311, when the third component window 311 ' is displayed, display data for rendering and displaying the third component window 311 ' is associatively corresponding to display data for rendering and displaying the first component window 311. Therefore, according to the technical solution of this embodiment, only the display data needs to be transmitted to the first display process 0, the first component window 311 of the first display screen 210 and the third component window 311' of the third display screen can be rendered and displayed at the same time, and display through two or more display processes is not needed, so that multi-screen data linkage is realized, and meanwhile, invocation of the display processes and transmission of the display data are reduced.

That is, in this embodiment each display screen has an associated display process. The meaning of "associated" here is further based on "first trigger" in the display. For example, as shown in fig. 6, since 311' is a component window generated based on a trigger (with respect to "first time" in "first trigger", explained in detail below) of the component 311 in the main screen 210, even if the component window is not displayed in the first display screen 210, it is still rendered and displayed by the first display process 0 associated with the first display screen 210. The same holds true for other display screens and associated display processes.

Further, referring to fig. 2A, in the case where a user needs to perform data display and analysis through a plurality of display screens, the main program process of the host 100 may create a plurality of display processes (i.e., display process 0 to display process 6) associated with the plurality of

display screens

210 and 221 to 226, respectively, for example, when the application is started. For example, the currently turned-on display screens are the main screen 210 and the sub-screens 221 to 226 connected to the host 100, and as shown in fig. 2B, the host 100 may create a plurality of display processes 0 to 6 corresponding to the main screen 210 and the sub-screens 221 to 226 through a main program process. The display processes 0-6 are sub-processes of a main program process on the host 100, and the display processes 0-6 are called through the main program process. Therefore, the main program process renders and displays on the main screen 210 and the auxiliary screens 221 to 226 by calling at least one display process in the plurality of display processes 0 to 6. For example, when the main program process on the host 100 is started, it first checks which display screens connected to the host 100 are turned on, and identifies the corresponding turned-on display screens, and for the turned-on display screens, the corresponding display processes are called to perform rendering display operations related to components on the display screens. Therefore, the display modes of the display screens are rendered through the multiple processes respectively, the display of the components triggered by the display screens is independent, and even if the display process corresponding to a certain display screen is crashed or needs to be stopped for some reasons, the components triggered by the corresponding display screens cannot be prevented from being continuously displayed by other processes. Therefore, the technical problem that when the process crashes due to operation on one display screen, contents on other display screens can be restarted due to crash of the process in the prior art is solved.

Further, referring to fig. 2A and 2B, first, the host 100 may recognize a plurality of display screens in an on state from the display screens (e.g., the multi-screen display system 200 shown in fig. 2A) communicatively connected to the host 100 through a main program process. Host 100 may then host the program process to create a plurality of display processes that are respectively associated with the plurality of display screens in the on state. For example, when the main screen 210 and the sub-screens 221 to 222 in FIG. 2A are opened and the sub-screens 223 to 226 are closed, the main program process can recognize that the main screen 210 and the sub-screens 221 to 222 are in the opened state, thereby creating display processes 0 to 2 corresponding to the main screen 210 and the sub-screens 221 to 222. Through the method, the corresponding display process is distributed for the opened display screen. So that components on different display screens are displayed by multiple display processes and components on the same display screen are displayed by the same display process. Therefore, linkage among the display screens is achieved, and the technical effects that interference cannot be generated when the display processes of the display screens independently run are achieved.

Further, referring to FIG. 6, the components in the primary screen 210 are rendered and displayed by display process 0 and the components 312 in the secondary screen 222 are rendered and displayed by display process 2. Since the window 311 'is triggered by dragging the component 311 at the main screen 210, the window 311' is rendered and displayed by the display process 0 corresponding to the main screen 210, although it is displayed at the sub-screen 221. Similarly, the window 312' is rendered and displayed by invoking display process 2 corresponding to the secondary screen 222. Thus, when the worker drags the component 312 to the sub-screen 221, the main program process calls the display process 2 to display the window 312' on the sub-screen 221. When the worker drags component 311 to sub-screen 221, the main program process calls display process 0 to display window 311' on sub-screen 221. Specifically, for example, during the process of dragging the component 311 to the sub-screen 221, the main program process further determines the size and position of the magnetically attracted window 312 'and window 311' in the display area of the sub-screen 221 according to the size and position of the window 312 'in the display area of the sub-screen 221 and the size and position of the window 311' in the display area of the sub-screen 221, so as to generate the effect of attracting the two windows together. The main program process then transmits the size and position of the display area of the window 311 'to display process 0 and the size and position of the display area of the window 312' to display process 2, so that the windows 311 'and 312' are rendered by the display processes 0 and 2, respectively, thereby producing the technical effect of adsorption.

Optionally, the operation of displaying a second component window on a second display screen comprises: an operation for displaying a second component window by a third display process associated with a second display screen and displaying a fourth component window on a third display screen, comprising: and displaying a fourth component window on a third display screen through a third display process, wherein the third display screen is associated with the second display process, and the second display process and the third display process are different display processes.

Specifically, referring to fig. 2B and 6, the display process associated with the secondary screen 222 is display process 2. The host 100 displays the second component window 312 via the third display process 2 associated with the second display screen 222. The second component window 312 is a triggered component window on the second display screen 222, and thus the second component window 312 is displayed by the third display process 2 associated with the second display screen 222. And in the course of displaying the fourth component window 312 'on the third display screen 221, the host 100 may display the fourth component window 312' on the third display screen 221 through the third display process 2. Wherein the third display screen 221 is associated with a second display process 1, the second display process 1 and the third display process 2 being different display processes. Referring to fig. 2B and 6, although the third display process associated with the third display screen 221 is the display process 1, the fourth component window 312 'is a component window obtained by the user triggering the second component window 312, so the fourth component window 312' still belongs to the component window on the second display screen 222, but is displayed on the third display screen 221. The display of the fourth component window 312' is still displayed using the third display process 2 associated with the second display screen 222. By the mode, linkage among the display screens is achieved, and the technical effect that interference cannot be generated when the display processes of the display screens independently operate is achieved. Moreover, according to the technical solution of this embodiment, only the display data needs to be transmitted to the third display process 2, the second component window 312 of the second display screen 222 and the third component window 312' of the third display screen can be rendered and displayed at the same time, and display through two or more display processes is not needed, so that the invocation of the display processes and the transmission of the display data are reduced while multi-screen data linkage is realized.

Optionally, this embodiment further includes: responding to a seventh trigger operation of the user on a button in the third component window, and displaying first content information related to the seventh trigger operation in the first component window and the third component window through a first display process; and according to the seventh trigger operation, displaying second content information corresponding to the seventh trigger operation in the fourth component window and the second component window through a third display process.

Optionally, this embodiment further includes: responding to an eighth triggering operation of the user on the button in the first component window, and displaying third content information related to the eighth triggering operation in the first component window and the third component window through a first display process; and according to the eighth triggering operation, displaying fourth content information corresponding to the eighth triggering operation in the fourth component window and the second component window through a third display process.

Specifically, fig. 5 shows a schematic view of the linkage between the third component window 311 'and the fourth component window 312', and the linkage of the two component windows after the magnetic attraction is described with reference to fig. 5. Referring to fig. 5, a third component window 311 'displays, for example, a list of information related to different stocks, and a fourth component window 312' displays, for example, a time division map related to stocks. When the staff member selects stock 1 in the third component window 311' (i.e., the seventh trigger operation). The host computer 100 determines data information of the stock 1 selected by the staff member in response to the trigger operation through the main program process. Then, the main program information sends information related to the stock 1 to the first display process 0, displays the information related to the stock 1 (first content information) in the third component window 311 'through the first display process 0 (in addition, although not shown in the figure, the third component window is a component window generated by being triggered by the first component window, and thus the contents of the first component window and the third component window are displayed in synchronization), and sends data information for drawing a time-share graph to the third display process 2, and displays the related time-share graph (second content information) of the stock 1 in the fourth component window 312' (in addition, although not shown in the figure, the fourth component window is a component window generated by being triggered by the second component window, and thus the contents of the second component window and the fourth component window are displayed in synchronization). Thereby rendering and displaying the information related to the stock 1 and the time-sharing map through the first display process 0 and the second display process 2, respectively. Further, as shown with reference to fig. 5, when the worker selects other stocks in the window 311', the linked display of the two windows is also realized in accordance with a similar operation. Therefore, through the mode, the user can combine all the components together for linkage according to the needs of the user, and the use of the user is facilitated.

In addition, when the user performs the above-mentioned triggering operation on the button in the first component window, the same subsequent operation as that generated by triggering the button in the third component window may also be generated, which is not described in detail herein.

Further, referring to fig. 1, according to a second aspect of the present embodiment, there is provided a storage medium. The storage medium includes a stored program, wherein the method of any of the above is performed by a processor when the program is run.

Therefore, according to this embodiment, when a user needs to perform associated display on different service modules on different display screens, the host 100 responds to a first trigger operation performed by the user on a first component window on a first display screen and a second trigger operation performed by the user on a second component window on a second display screen, and displays a spliced third component window and a spliced fourth component window on a third display screen. The technical effect of associating different service modules of different interfaces on different display screens is achieved, and therefore linkage of different service modules is achieved. The technical problem that in the prior art, a technology for associating the business modules of any component displayed in the interface is lacked, and therefore workers cannot associate the business modules to be associated in the interface together for linkage is solved.

Further, referring to fig. 7A and 7B, the host 100 may call display processes corresponding to the plurality of display screens to display component information on the display screens, for example, the host 100 calls the display process 0 display component 320 associated with the main screen 210 and calls the display process 1 display component 330 associated with the sub-screen 221. Further, referring to fig. 7B, host 100 may determine to display a first display screen (e.g., home screen 210 in fig. 7B) of third component 320 in response to a drag operation of third component 320 (e.g., component 320 in fig. 7B) by a user. Wherein the user may drag the third component 320 on the first display screen by clicking a mouse, for example. The host 100 then determines the fourth component 320' associated with the third component 320 and the second display 221 according to the drag operation. The dragging operation may be, for example, a user dragging the third component 320 on the first display screen (the main screen 210) to the second display screen (the sub-screen 221) by dragging to display a fourth component (the component 320') corresponding to the third component. Therefore, in the above manner, the main program process of the host 100 can determine the fourth component 320 ', the display screen of the displayed fourth component 320', and the display process of the displayed fourth component 320 ', which need to be displayed, so as to facilitate the main program process to display the fourth component 320' on the second display screen by calling the first display process.

Optionally, this embodiment further includes: in response to the dragging operation of the fourth component by the user, determining a fifth component to be displayed and a third display screen for displaying the fifth component, wherein the third display screen is associated with a third display process; and displaying the fifth component on the third display screen through the first display process.

Specifically, referring to fig. 7C, the host 100 may determine, in response to the second trigger operation of the fourth component 320' by the user, a fifth component to be displayed and a third display screen for displaying the fifth component 320 ″, wherein the third display screen 226 is associated with the third display process 6. Wherein the drag operation may be the user dragging the fourth component 320' on the second display screen 221 to drag to the third display screen 226 to display the fifth component 320 ". The host 100 may then display the fifth component 320 "on the third display screen via the first display process 0. That is, in this scenario, the meaning of "first time" in "first trigger" in the present embodiment is explained. Although the component 320 "is generated based on a user's trigger operation on the component 320 ' on the display screen 221, the component 320 ' is generated based on a first trigger operation on the component 320 on the display screen 210. Thus, rather than displaying and rendering component 320 "via display process 1 associated with display screen 221, the arrangement of the present embodiment still displays and renders component 320" using display process 0 associated with display screen 320.

And the fourth component is displayed on the second display screen only because the third component on the first display screen performs triggering operation. Therefore, when the user drags the fourth component on the second display screen to display the fifth component on the third display screen, the fifth component is still a component of the first display screen, and thus the host 100 calls the first display process corresponding to the first display screen to display the fifth component. Thereby only need call first demonstration process, can realize showing the subassembly of three difference on three different display screens to avoid sending data to a plurality of display processes, also needn't carry out the transmission of data between a plurality of display processes, be convenient for more realize the linkage of third subassembly, fourth subassembly and fifth subassembly in the different display screens. The same holds true for other display screens and associated display processes.

Optionally, this embodiment further includes: determining data information to be displayed; and synchronously displaying the data information on the fourth component and the third component through the first display process.

Specifically, referring to fig. 5 and 7B, first, the host 100 determines data information to be displayed, which may be a time-sharing graph for displaying stock information, for example. The host 100 then displays the data information in synchronization between the fourth component and the third component through the first display process 0. The fourth component (component 320') is a component displayed on the second display screen through the first trigger operation of the user on the third component (component 320) on the first display screen (main screen 210), so that the fourth component is also displayed through the first display process 0 corresponding to the first display screen. So that the host 100 can call the first display process 0 to synchronously display the same data information on the fourth component and the third component in case that the host 100 determines the data information displayed on the third component. Through the mode, the same components (namely the fourth component and the third component) are displayed on different display screens due to the triggering operation of the user, so that the same data contents are displayed on the same components on different display screens.

Optionally, this embodiment further includes: presetting a first form, wherein the first form comprises component display information respectively corresponding to displayed components, and the component display information comprises the following information of the corresponding components: triggering display screen information of a display screen corresponding to the triggering operation of the corresponding component; display progress information for displaying a display progress of the corresponding component; and display screen information for displaying the display screen of the corresponding component.

Specifically, referring to table 1, a user may previously set a first form through the host 100, wherein the first form includes component display information respectively corresponding to displayed components, and the component display information includes the following information of the corresponding components: the display screen information of the display screen corresponding to the triggering operation of the triggering corresponding component, for example, the corresponding triggering point content in table 1, and the triggering point of the component 1 of number 001 are on the main screen 210. Display progress information for displaying a display progress of a corresponding component, for example, a corresponding assigned display progress in table 1, i.e., component 1 of number 001, is initiated on the home screen 210, and the display progress corresponding to the home screen 210 is display progress 0. The display screen information for displaying the display screen corresponding to the component corresponds to the currently displayed display screen in table 1, where the user may perform a trigger operation similar to dragging the component to display the component on a display screen other than the display screen of its trigger point, for example, the display screen of the component 2 trigger point No. 002 in table 1 is the main screen 210, but the currently displayed display screen is the sub-screen 221. Thus, the host 100 displays the first table of information through the preset components, and the main program process can determine on which display screen each component is triggered and on which display screen the components are displayed through which display process by loading the above information when displaying the components.

TABLE 1

ID number	Component name	Trigger point	Distributed display process	Current display screen
					001	Component 1	Main Screen 210	Display Process 0	Main Screen 210
002	Component 2	Main Screen 210	Display Process 0	Sub-screen 221
					003	Component 3	Sub-screen 221	Display Process 1	Main Screen 210
004	Component 4	Sub-screen 222	Display Process 2	Main Screen 210
					...	...	...	...	...

Optionally, displaying, by the first display process, an operation of the fourth component on the second display screen, including: querying component display information corresponding to the third component in the first form; determining a first display process for displaying a fourth component according to the component display information; and displaying the fourth component on the second display screen through the first display process.

Specifically, referring to table 1, in the process of the host 100 using the main program process to display the fourth component on the second display screen through the first display process, the host 100 first queries the component display information corresponding to the third component in the first form through the main program process. Then, the host 100 determines a first display process for displaying a fourth component according to the component display information by using the main program process. And finally, the host displays the fourth component on the second display screen through the first display process. For example, the ID number of the third component is 001, the main program process finds that the trigger point of the third component in the first form is the main screen 210, and since the fourth component is a component displayed on another display screen by triggering the third component by the user, the main program process may determine that the first display process for displaying the fourth component is the same as the display process of the third component, that is, the display process 0. The host 100 then displays the fourth component on the second display screen (i.e., the sub-screen 221) through the first display process (i.e., display process 0) using the main program process. Thus, in the manner described above, the main program process can determine on which display screen each component is triggered and on which display screen by which display process each component is displayed by loading the above information when displaying the components.

In addition, referring to fig. 7D, the service modules (each of which can display service data with different themes or different forms according to different requirements) on the first interface 310 on the first display screen 210 are independently arranged in an assembly form, so that a worker can drag the service modules in the interface out, and thus can drag the service modules to different display screens. When a user drags a component of a certain service module on the interface, the main program process can independently generate a new window to display the service module after sensing that the component is dragged out of the current interface of the user. Specifically, as shown in fig. 7D, a plurality of independent components 311 to 314 of the service module are displayed on an interface 310 displayed on the main screen 210 of the multi-screen display system. That is, the components 311 to 314 of each service module can independently display data information. Specifically, the main program process performs data processing and analysis, and after the data processing, for example, the display process 0 may be called to render and display the contents of the interface 310 of the main screen 210 and the components 311 to 314 of each business module. When the worker wants to focus on the data information in the business module displayed by the component 311, the component 311 can be dragged with a mouse. And when the main program process determines that the component 311 has dragged out of the interface 310 (e.g., to the secondary screen 211), a new window 410 is generated. At this time, since the component in the window 410 and the component 311 are the same, the component in the window 410 inherits the property and function of the component 311, that is, the same data information as the component 311 is displayed in the window 410. And since the window 410 is triggered on the interface of the main screen 210, the main program process associates the window 410 with the display process 0, and renders and displays the content of the window 410 by calling the display process 0. Thus, after the main program process updates the data in the component 311, the updated component 311 and the data information in the window 410 can be rendered and displayed simultaneously by the display process 0, for example.

It should be noted that for simplicity of description, the above-mentioned method embodiments are shown as a series of combinations of acts, but those skilled in the art will recognize that the present invention is not limited by the order of acts, as some steps may occur in other orders or concurrently in accordance with the invention. Further, those skilled in the art will appreciate that the embodiments described in this specification are presently preferred and that no acts or modules are required by the invention.

Through the description of the foregoing embodiments, it is clear to those skilled in the art that the method according to the foregoing embodiments may be implemented by software plus a necessary general hardware platform, and certainly may also be implemented by hardware, but the former is a better implementation mode in many cases. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, or a network device) to execute the method according to the embodiments of the present invention.

Example 2

Fig. 8 shows a display device 800 according to the present embodiment, which device 800 corresponds to the method according to the first aspect of embodiment 1. Referring to fig. 8, the apparatus 800 includes: a first display module 810 for displaying a first component window on a first display screen of the plurality of display screens and a second component window on a second display screen of the plurality of display screens; a second display module 820, configured to display a third component window corresponding to the first component window on a third display screen in the plurality of display screens in response to a first trigger operation of the user on the first component window; and a third display module 830, configured to display, in response to a second trigger operation of the second component window by the user, a fourth component window on a third display screen in a form of being spliced with the third component window, where the fourth component window corresponds to the second component window.

Optionally, the second display module 820 includes: the first determining submodule is used for determining first size information and first position information of a third component window in response to a first triggering operation that a user drags the first component window to a third display screen; and the first display submodule is used for displaying a third component window on a third display screen according to the determined first size information and the first position information.

Optionally, the third display module 830 includes: the second determining submodule is used for responding to a second triggering operation that the user drags the second component window to the third display screen, and determining second size information and second position information of the fourth component window according to the first size information and the first position information so that the fourth component window can be spliced with the third component window; and the second display submodule is used for displaying a fourth component window on the third display screen according to the determined second size information and the second position information.

Optionally, the apparatus 800 further comprises: the first determining module is used for responding to a third triggering operation that a user zooms the third component window on the third display screen, and determining third position information and third size information of the third component window after the third triggering operation; the second determining module is used for determining fourth position information and fourth size information of the fourth component window according to the third position information and the third size information, so that the fourth component window can be spliced with the third component window; and the fourth display module is used for displaying a third component window on the third display screen according to the third position information and the third size information and displaying a fourth component window on the third display screen according to the fourth position information and the fourth size information.

Optionally, the apparatus 800 further comprises: the third determining module is used for responding to a fourth trigger operation of zooming the fourth component window on the third display screen by the user, and determining fifth position information and fifth size information of the fourth component window after the fourth trigger operation; a fourth determining module, configured to determine, according to the fifth position information and the fifth size information, sixth position information and sixth size information of the third component window, so that the third component window and the fourth component window can be spliced together; and a fifth display module, configured to display a fourth component window on the third display screen according to the fifth position information and the fifth size information, and display a third component window on the third display screen according to the sixth position information and the sixth size information.

Optionally, the apparatus 800 further comprises: the fifth determining module is used for responding to a fifth trigger operation that a user drags a third component window on a third display screen, and determining seventh position information of the third component window after the fifth trigger operation; a sixth determining module, configured to determine eighth position information of the fourth component window according to the seventh position information, so that the fourth component window can be spliced with the third component window; and a sixth display module for displaying a third component window on the third display screen according to the seventh position information and displaying a fourth component window on the third display screen according to the eighth position information.

Optionally, the apparatus 800 further comprises: a seventh determining module, configured to determine, in response to a sixth trigger operation that the user drags the fourth component window on the third display screen, ninth position information of the fourth component window after the sixth trigger operation; an eighth determining module, configured to determine tenth position information of the third component window according to the ninth position information, so that the third component window and the fourth component window can be spliced together; and a seventh display module for displaying a third component window on the third display screen according to the ninth position information and displaying a fourth component window on the third display screen according to the tenth position information.

Optionally, the first display module 810 includes: a third display sub-module for displaying the first component window through a first display process associated with the first display screen, and the second display module 820 includes: and the fourth display submodule is used for displaying a third component window on a third display screen through the first display process, wherein the third display screen is associated with the third display process, and the third display process and the first display process are different display processes.

Optionally, the first display module 810 includes: a fifth display sub-module for displaying the second component window through a second display process associated with the second display screen, and a third display module 830 comprising: and the sixth display module is used for displaying a fourth component window on a third display screen through a second display process, wherein the third display screen is associated with the third display process, and the third display process and the second display process are different display processes.

Therefore, according to this embodiment, when a user needs to perform associated display on different service modules on different display screens, the host responds to a first trigger operation performed by the user on a first component window on the first display screen and a second trigger operation performed by the user on a second component window on the second display screen, and displays a spliced third component window and a spliced fourth component window on the third display screen. The technical effect of associating different service modules of different interfaces on different display screens is achieved, and therefore linkage of different service modules is achieved. The technical problem that in the prior art, a technology for associating the business modules of any component displayed in the interface is lacked, and therefore workers cannot associate the business modules to be associated in the interface together for linkage is solved.

Example 3

Fig. 9 shows a display device 900 according to the present embodiment, the device 900 corresponding to the method according to the first aspect of embodiment 1. Referring to fig. 9, the apparatus 900 includes: a processor 910; and a memory 920 coupled to the processor 910 for providing instructions to the processor 910 to process the following steps: displaying a first component window on a first display screen of the plurality of display screens and a second component window on a second display screen of the plurality of display screens; responding to a first trigger operation of a user on the first component window, and displaying a third component window corresponding to the first component window on a third display screen in the plurality of display screens; and in response to a second trigger operation of the user on the second component window, displaying a fourth component window on the third display screen in a spliced mode with the third component window, wherein the fourth component window corresponds to the second component window.

Optionally, in response to the second trigger operation, displaying an operation of a fourth component window on the third display screen, including: in response to a second trigger operation of dragging the second component window to the third display screen by the user, determining second size information and second position information of the fourth component window according to the first size information and the first position information, so that the fourth component window can be spliced with the third component window; and displaying a fourth component window on the third display screen according to the determined second size information and the second position information.

Optionally, the memory 920 is further configured to provide the processor 910 with instructions for processing the following processing steps: responding to a third trigger operation of zooming a third component window on a third display screen by a user, and determining third position information and third size information of the third component window after the third trigger operation; determining fourth position information and fourth size information of the fourth component window according to the third position information and the third size information, so that the fourth component window and the third component window can be spliced together; and displaying a third component window on a third display screen according to the third position information and the third size information, and displaying a fourth component window on the third display screen according to the fourth position information and the fourth size information.

Optionally, the memory 920 is further configured to provide the processor 910 with instructions for processing the following processing steps: in response to a fourth trigger operation of zooming the fourth component window on the third display screen by the user, determining fifth position information and fifth size information of the fourth component window after the fourth trigger operation; determining sixth position information and sixth size information of the third component window according to the fifth position information and the fifth size information, so that the third component window and the fourth component window can be spliced together; and displaying a fourth component window on the third display screen according to the fifth position information and the fifth size information, and displaying a third component window on the third display screen according to the sixth position information and the sixth size information.

Optionally, the memory 920 is further configured to provide the processor 910 with instructions for processing the following processing steps: determining seventh position information of the third component window after a fifth trigger operation in response to the fifth trigger operation of dragging the third component window on the third display screen by the user; determining eighth position information of the fourth component window according to the seventh position information so that the fourth component window can be spliced with the third component window; and displaying a third component window on the third display screen according to the seventh position information and displaying a fourth component window on the third display screen according to the eighth position information.

Optionally, the memory 920 is further configured to provide the processor 910 with instructions for processing the following processing steps: responding to a sixth trigger operation of dragging the fourth component window on the third display screen by the user, and determining ninth position information of the fourth component window after the sixth trigger operation; determining tenth position information of the third component window according to the ninth position information so that the third component window and the fourth component window can be spliced together; and displaying a fourth component window on the third display screen according to the ninth position information, and displaying a third component window on the third display screen according to the tenth position information.

Optionally, the operation of displaying the first component window on the first display screen includes: an operation for displaying a first component window by a first display process associated with a first display screen and a third component window on a third display screen, comprising: and displaying a third component window on a third display screen through the first display process, wherein the third display screen is associated with the third display process, and the third display process and the first display process are different display processes.

Optionally, the operation of displaying a second component window on a second display screen includes: an operation of displaying a second component window through a second display process associated with a second display screen and displaying a fourth component window on a third display screen, comprising: and displaying a fourth component window on a third display screen through a second display process, wherein the third display screen is associated with the third display process, and the third display process and the second display process are different display processes.

Therefore, according to this embodiment, when a user needs to perform associated display on different service modules on different display screens, the host responds to a first trigger operation performed by the user on a first component window on the first display screen and a second trigger operation performed by the user on a second component window on the second display screen, and displays a spliced third component window and a spliced fourth component window on the third display screen. The technical effect of associating different service modules of different interfaces on different display screens is achieved, and therefore linkage of different service modules is achieved. The technical problem that the service modules of any component displayed in the interface are not related by a worker in the prior art so that the service modules to be related in the interface cannot be related together for linkage is solved.

The above-mentioned serial numbers of the embodiments of the present invention are only for description, and do not represent the advantages and disadvantages of the embodiments.

In the above embodiments of the present invention, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

In the embodiments provided in the present application, it should be understood that the disclosed technology can be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one type of division of logical functions, and there may be other divisions when actually implemented, for example, a plurality of units or components may be combined or may be integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, units or modules, and may be in an electrical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit may be implemented in the form of hardware, or may also be implemented in the form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic or optical disk, and other various media capable of storing program codes.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and amendments can be made without departing from the principle of the present invention, and these modifications and amendments should also be considered as the protection scope of the present invention.

Claims

1. A method of displaying, the method comprising:

displaying a first component window on a first display screen of a plurality of display screens and a second component window on a second display screen of the plurality of display screens;

in response to a first trigger operation of a user on the first component window, displaying a third component window corresponding to the first component window on a third display screen in the plurality of display screens; and

in response to a second trigger operation of the second component window by the user, displaying a fourth component window on the third display screen in a form of being spliced with the third component window, wherein the fourth component window corresponds to the second component window, and

the method further comprises the following steps: responding to a seventh trigger operation of a user on a button in the third component window, and displaying first content information related to the seventh trigger operation in the first component window and the third component window through a first display process; according to the seventh trigger operation, through a third display process, displaying second content information corresponding to the seventh trigger operation in the fourth component window and the second component window, and

The method further comprises the following steps: responding to an eighth triggering operation of a button in the first component window by a user, and displaying third content information related to the eighth triggering operation in the first component window and the third component window through the first display process; according to the eighth triggering operation, through the third display process, displaying fourth content information corresponding to the eighth triggering operation in the fourth component window and the second component window, and

the method further comprises the following steps: in response to a dragging operation of the fourth component window by a user, determining a fifth component window to be displayed and a third display screen for displaying the fifth component window, wherein the third display screen is associated with the third display progress; and displaying the fifth component window on the third display screen through the first display process, and

the method further comprises the following steps: determining data information to be displayed; and synchronously displaying data information in the fourth component window and the third component window through the first display process, and

the method further comprises the following steps: presetting a first form, wherein the first form comprises component display information respectively corresponding to the displayed components, and the component display information comprises the following information of the corresponding components: triggering display screen information of a display screen corresponding to the triggering operation of the corresponding component; display progress information for displaying a display progress of the corresponding component; and display screen information for displaying the display screen of the corresponding component, and

Displaying, by the first display process, an operation of the fourth component on the second display screen, including: querying component display information corresponding to the third component window in the first form; determining a first display process for displaying the fourth component window according to the component display information; and displaying a fourth component window on the second display screen through the first display process.

2. The method of claim 1, wherein the operation of displaying the third component window on the third display screen in response to the first trigger operation comprises:

determining first size information and first position information of the third component window in response to the first trigger operation of a user dragging the first component window to the third display screen; and

displaying the third component window on the third display screen according to the determined first size information and the first position information.

3. The method of claim 2, wherein the operation of displaying the fourth component window on the third display screen in response to the second trigger operation comprises:

in response to the second trigger operation of the user for dragging the second component window to the third display screen, determining second size information and second position information of the fourth component window according to the first size information and the first position information, so that the fourth component window can be spliced with the third component window; and

Displaying the fourth component window on the third display screen according to the determined second size information and the second position information.

4. The method of claim 1, further comprising:

in response to a third trigger operation of the user for zooming the third component window on the third display screen, determining third position information and third size information of the third component window after the third trigger operation;

determining fourth position information and fourth size information of the fourth component window according to the third position information and the third size information, so that the fourth component window can be spliced with the third component window; and

displaying the third component window on the third display screen according to the third location information and the third size information, and displaying the fourth component window on the third display screen according to the fourth location information and the fourth size information.

5. The method of claim 1, further comprising:

in response to a fourth trigger operation of zooming the fourth component window on the third display screen by a user, determining fifth position information and fifth size information of the fourth component window after the fourth trigger operation;

Determining sixth position information and sixth size information of the third component window according to the fifth position information and the fifth size information, so that the third component window and the fourth component window can be spliced together; and

displaying the fourth component window on the third display screen according to the fifth position information and the fifth size information, and displaying the third component window on the third display screen according to the sixth position information and the sixth size information.

6. The method of claim 1, further comprising:

determining seventh position information of the third component window after a fifth trigger operation in response to the fifth trigger operation of dragging the third component window on the third display screen by a user;

determining eighth position information of the fourth component window according to the seventh position information so that the fourth component window can be spliced with the third component window; and

displaying the third component window on the third display screen according to the seventh position information, and displaying the fourth component window on the third display screen according to the eighth position information.

7. The method of claim 1, further comprising:

in response to a sixth trigger operation of dragging the fourth component window on the third display screen by a user, determining ninth position information of the fourth component window after the sixth trigger operation;

determining tenth position information of the third component window according to the ninth position information so that the third component window can be spliced with the fourth component window; and

displaying the fourth component window on the third display screen according to the ninth position information, and displaying the third component window on the third display screen according to the tenth position information.

8. The method of claim 1, wherein the act of displaying a first component window on the first display screen comprises: displaying the first component window through a first display process associated with the first display screen, and

displaying an operation of the third component window on a third display screen, including:

and displaying the third component window on the third display screen through the first display process, wherein the third display screen is associated with a second display process, and the second display process and the first display process are different display processes.

9. The method of claim 1, wherein the act of displaying a second component window on the second display screen comprises: displaying the second component window through a third display process associated with the second display screen, and

an operation of displaying the fourth component window on a third display screen, comprising:

and displaying the fourth component window on the third display screen through the second display process, wherein the third display screen is associated with the second display process, and the second display process and the third display process are different display processes.

10. A storage medium comprising a stored program, wherein the method of any one of claims 1 to 9 is performed by a processor when the program is run.