CN109783173B

CN109783173B - Client-oriented multi-server fast switching management method

Info

Publication number: CN109783173B
Application number: CN201910021796.1A
Authority: CN
Inventors: 林皓
Original assignee: Beijing VRV Software Corp Ltd
Current assignee: Beijing VRV Software Corp Ltd
Priority date: 2019-01-10
Filing date: 2019-01-10
Publication date: 2022-04-19
Anticipated expiration: 2039-01-10
Also published as: CN109783173A

Abstract

The invention discloses a client-oriented multi-server fast switching management method, which comprises the steps of setting a multi-server management shortcut window at a client, and sequencing and displaying a certain number of servers in the multi-server management shortcut window; setting a server which is ranked first in the multi-server management shortcut window as a foreground server, and setting the rest servers as background servers; in the multi-server management shortcut window, the icon of the foreground server is set to be displayed in high brightness, and the icon of the background server is set to be displayed in normal brightness. By the method and the device, the user can quickly switch among the session windows of the servers, and can look up the unread information from each server in time, so that the efficiency of receiving and looking up the information and the user experience level are greatly improved.

Description

Client-oriented multi-server fast switching management method

Technical Field

The invention relates to the technical field of information, in particular to a client-oriented method for rapidly switching and managing a multi-server active session window.

Background

In a client/server architecture, it is common for multiple clients to receive management of, or for multiple clients to access, a server. In the application scenario of the present invention, a client accesses a plurality of servers at the same time and receives data from the plurality of servers. Among these servers, there are servers to which clients have already logged in, and servers to which clients have not yet logged in, and among the servers to which clients have logged in, each server pushes data or messages to the clients. Especially in fast and convenient instant messaging, if a client user logs in a plurality of instant messaging servers at the same time, how to quickly look up received messages is very important. Therefore, how to quickly notify the user of the arrival of new data or messages through a single client, and conveniently switch the active session windows of the server to timely search the received messages or data becomes a key for improving the working efficiency and the user experience level.

At present, no similar methods and techniques exist in this application field. In order to solve the problems, the invention discloses a client-oriented multi-server fast switching management method, by which a user can fast switch among session windows of a plurality of servers, and can look up unread information from each server in time, thereby greatly improving the efficiency of information receiving and looking up and the user experience level.

Disclosure of Invention

The invention aims to provide a client-oriented multi-server quick switching management method for an application scene that a user accesses a plurality of servers by using a single client or an application scene that the user uses the single client to carry out conversation with other users of the plurality of servers, so that the user can carry out quick switching between conversation windows of the plurality of servers, and can look up unread information from each server in time, thereby greatly improving the efficiency of information receiving and looking up and the user experience level.

The invention provides a client-oriented multi-server fast switching management method, which specifically comprises the following steps:

a multi-server management shortcut window is arranged at a client, and a certain number of servers are displayed in sequence in the multi-server management shortcut window;

setting a server which is ranked first in the multi-server management shortcut window as a foreground server, and setting the rest servers as background servers;

in the multi-server management shortcut window, the icon of the foreground server is set to be displayed in high brightness, and the icon of the background server is set to be displayed in normal brightness.

Further, in the multi-server management shortcut window, the server has two states of an offline state and an online state, if the client user logs in the server, the server is in the online state, and if the client user logs out of the server, the server is in the offline state.

Further, if a certain server in an offline state is selected, a login process of a client user is automatically started, and the server becomes in an online state after the user successfully logs in.

Further, if a certain server is in an offline state, the icon of the server is set to be in gray scale display.

Further, in the multi-server management shortcut window, if a certain background server is selected, the background server is switched to be a foreground server, the sequence is first, the foreground server which is originally sequenced first is automatically switched to be the background server, the sequence is changed to be the second, and the sequence of other background servers is sequentially backed off.

Further, in the multi-server management shortcut window, a button is arranged, so that after the button is selected, a new display window pops up, and servers and states thereof which cannot be displayed due to the excess number in the multi-server management shortcut window are displayed in a sorted manner.

Further, in the multi-server management shortcut window, if the background server has a new message or new data to be pushed to the client, a message prompt identifier is added to an icon of the background server.

Furthermore, in the multi-server management shortcut window, a top setting operation on the background servers is supported, the set background servers are sequenced at the second position, and the sequencing of other background servers is sequentially backed off.

Further, the multi-server management shortcut window is located above a client active session window, and the client active session window is used for displaying messages or data from a foreground server.

Further, still include: a special multi-server management window is set at the client, in which all servers and their status are displayed.

In the multi-server management window, servers which need to be logged in and used by a client user can be added, set and deleted, the operation of setting the top of the background server is supported, the set background server is arranged at the second position in the multi-server management shortcut window, and the sequencing of other background servers is sequentially backed off.

The invention has the advantages that the multi-server session window can be rapidly switched on the client, and the method is mainly embodied in the following aspects: firstly, a plurality of servers and states thereof can be displayed in the same window, the active session window is rapidly switched, and messages or data are consulted in time; second, the order in which the servers are displayed can be set, particularly the servers that are active or important to the user, can be ranked first; thirdly, the servers needing to be logged in can be selected for addition, setting and deletion. By the method and the device, the efficiency of receiving and searching the information and the user experience level can be greatly improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without inventive changes.

Fig. 1 is a flowchart of a client-oriented multi-server fast handover management method according to an embodiment of the present invention;

fig. 2 is an interface schematic diagram of a multi-service management shortcut window according to a second embodiment of the present invention;

fig. 3 is an interface schematic diagram of a multi-service management shortcut window according to a third embodiment of the present invention;

fig. 4 is an interface schematic diagram of a multi-service management shortcut window according to a fourth embodiment of the present invention;

fig. 5 is an interface schematic diagram of a multi-server management window according to a fifth embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly and completely apparent, the technical solutions in the embodiments of the present invention will be described below with reference to the accompanying drawings in the embodiments of the present invention, and it should be noted that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

An embodiment of the present invention provides a client-oriented multi-server fast switching management method, as shown in fig. 1, the method specifically includes the following steps:

step S101, a multi-server management shortcut window is arranged on a client, and a certain number of servers are displayed in sequence in the multi-server management shortcut window;

step S102, setting a server which is the first server in the sequence in the multi-server management shortcut window as a foreground server, and setting the rest servers as background servers;

and step S103, setting the icon of the foreground server to be displayed in high brightness and setting the icon of the background server to be displayed in normal brightness in the multi-server management shortcut window.

In the step, the server comprises an offline state and an online state, and if the client logs in the server, the server is in the online state; otherwise, if the client terminal exits the server, the server is in an offline state. If a certain server in an off-line state is selected, a client login process is started, and after login is successful, the server becomes in an on-line state. And if a certain server is in an off-line state, setting the icon of the server to be in gray scale display.

Based on the multi-server management shortcut window in step S101, a second embodiment of the present invention provides an interface schematic diagram of a multi-server management shortcut window, as shown in fig. 2, the multi-server management shortcut window is located above a client active session window, and the client active session window is used for displaying a message or data from a foreground server. And a server A, a server B, a server C, a server D and a server E are displayed in the multi-server management shortcut window. It should be noted that, in the second embodiment, the number of servers displayed in the multi-server management shortcut window may be set according to a user requirement, and is not limited to the five servers in the embodiment.

Based on step S103, the server that is the first server in the multi-server management shortcut window is set as a foreground server, and the other servers are set as background servers, that is, the server a in fig. 2 is the foreground server in the second embodiment, and the server B, the server C, the server D, and the server E belong to the background servers. At this time, the icon of the server a is highlighted, and the icons of the other three background servers are normally highlighted.

At the moment, in the multi-server management shortcut window, if a certain background server is selected, the background server is switched to be a foreground server, the sequence is first, the foreground server which is originally sequenced first is automatically switched to be the background server, the sequence is changed to be the second, and the sequence of other background servers is sequentially backed off. For example, a server D is selected and switched to a foreground server, the server D is sorted first in the multi-server management shortcut window, then the server a is automatically switched to a background server, the sorting becomes the second position, a server B and a server C arranged in front of the server D are arranged in the third position and the fourth position respectively by backing one position according to the original sequence, and a server E is originally arranged behind the server D, and the sorting is not changed, as shown in fig. 3. Thus, the ranking becomes server D, server A, server B, server C, and server E, with server D highlighted and server A normally highlighted.

In the multi-server management shortcut window, a button can be arranged, so that a new display window pops up after the button is selected, and servers and states thereof which cannot be displayed due to the excess number in the multi-server management shortcut window are displayed in a sequencing mode. The buttons may be "more", "… …", or "→" etc. buttons having the same or similar meaning as shown in fig. 4. The shape of the button may be other shapes, and is not limited to the circular shape in the fourth embodiment of the present invention. For example, server D, server a, server B, server C, and server E are displayed in a multi-server management shortcut window, and in a pop-up display window, server F, server G, and server H are displayed.

In the multi-server management shortcut window, if the background server has new messages or new data which are pushed to the client, a message prompt identifier is added to an icon of the background server. By adding the message prompt identifier, the user can be reminded of switching the background server with the message prompt identifier to the foreground server in time so as to check information. For example, a red dot may be marked in the upper right corner of the server icon where the new message is located to prompt the user to receive the new message.

In addition, in the multi-server management shortcut window, the top setting operation of the background servers is supported, the set background servers are sequenced at the second position, and the sequencing of other background servers is sequentially backed off. When the top setting operation is carried out, reminding a user whether to confirm the top setting; as shown in fig. 4, if the server E needs to be set on top, the server E may be selected first, and then the set-top operation is performed. The top operation enables a user to place frequently used servers or important servers in front of the multi-server management shortcut window, and is more beneficial to quickly looking up messages.

Further, as shown in fig. 5, a dedicated multi-server management window may be provided at the client, in which all servers and their statuses are displayed, and server a, server B, server C, server D, server E, server F, server G, and server H, and their statuses can be seen. For example, in the schematic view of the multi-server management window interface provided in the fifth embodiment, icons of the server F and the server H are displayed in gray scale, and in the fifth embodiment, the gray scale display of the icons is represented by a texture background, which indicates that both the servers are in an offline state. In the multi-server management window, the servers which the client user needs to log in for use can be added, set and deleted, and the relevant information of the servers is configured. Meanwhile, the method also supports the operation of setting the top of the background servers, the set-top background servers are arranged at the second position in the multi-server management shortcut window, and the sequencing of other background servers is sequentially backed off.

In view of the foregoing, it is intended that the present invention cover the preferred embodiment of the present invention and not be limited thereto, since various modifications and changes will be apparent to those skilled in the art. Any modification, equivalent improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A multi-server fast switching management method facing to a client is characterized in that:

the method comprises the steps that a multi-server management shortcut window is arranged on a client, and a certain number of servers are displayed in a sequencing mode, wherein the client accesses a plurality of servers at the same time;

in the multi-server management shortcut window, setting the icon of a foreground server to be displayed in high brightness, and setting the icon of a background server to be displayed in normal brightness;

in the multi-server management shortcut window, if a certain background server is selected, the background server is switched to be a foreground server, the sequence is first, the foreground server which is originally sequenced first is automatically switched to be the background server, the sequence is changed to be the second, and the sequence of other background servers is sequentially backed off; the multi-server management shortcut window is positioned above a client active session window, and the client active session window is used for displaying messages or data from a foreground server so as to display unread messages from the foreground server;

in the multi-server management shortcut window, if a background server has new messages or new data pushed to a client, adding a message prompt identifier on an icon of the background server to remind a user to switch the background server with the message prompt identifier to a foreground server;

setting a button in the multi-server management shortcut window, popping up a new display window after the button is selected, and sequencing and displaying servers and states thereof which cannot be displayed due to the excess number in the multi-server management shortcut window;

setting a special multi-server management window at a client, and displaying all servers and states thereof in the special multi-server management window;

in the multi-server management window, servers which need to be logged in and used by a client user can be added, set and deleted, and a top setting operation of the background servers is supported, the set background servers are arranged at a second position in the multi-server management shortcut window, and the arrangement of other background servers is sequentially backed off;

in the multi-server management shortcut window, the top setting operation of the background servers is supported, the set background servers are sequenced at the second position, and the sequencing of other background servers is sequentially backed off.

2. The method for multi-server fast switch management according to claim 1, wherein in the multi-server management shortcut window, the server exists in both an offline state and an online state, and if the client user logs in the server, the server is in the online state, and if the client user logs out of the server, the server is in the offline state.

3. The method according to claim 2, wherein if a server in an offline state is selected, a login process of a client user is automatically started, and after the user successfully logs in, the server becomes online.

4. The method for multi-server fast switching management according to claim 2, wherein if a server is offline, the icon of the server is set to be displayed in gray scale.