CN113703639A - Application display method and device, computer and readable storage medium - Google Patents

Abstract

The embodiment of the application discloses an application display method, an application display device, a computer and a readable storage medium, which relate to the computer vision technology in the field of artificial intelligence, and the method comprises the following steps: in a device display interface on which a first application program is displayed, responding to a trigger operation aiming at a second application program, and acquiring a program window area of the first application program in the device display interface; determining, in a device display interface, a non-interference region associated with a program window region; displaying a second application in the non-interference area; the first application program and the second application program which are simultaneously displayed in the device display interface are both provided with display areas which can respond to the trigger operation. By the method and the device, the display effect of multiple application programs can be improved, and interference among different application programs is reduced.

Description

Application display method and device, computer and readable storage medium

Technical Field

The present application relates to the field of computer technologies, and in particular, to an application display method and apparatus, a computer, and a readable storage medium.

Background

When a user uses a user device, the user does not necessarily use only one application program, but may use a plurality of application programs at the same time, when the user uses the plurality of application programs, windows corresponding to the application programs in the user device are separated from each other, the hierarchies of the windows corresponding to different application programs may be mutually covered at any time, and may also be shielded by the windows of other application programs, so that when the user uses the plurality of application programs, the user may interrupt the use process of one or more application programs due to the change of the hierarchies and the like of the windows of the application programs. In this case, the user can only manually adjust the size, level, position, and the like of the windows of different applications to meet the requirement of the user for using different applications at the same time, however, when the user opens a new application or triggers an application that has already been opened, the level relationship, and the like between the windows of the applications may change again, and the user needs to readjust the size, level, position, and the like of the windows of different applications, so that the display effect of the multiple applications is poor, and the use experience of the user is reduced.

Disclosure of Invention

The embodiment of the application display method and device, a computer and a readable storage medium can improve the display effect of multiple application programs and reduce interference among different application programs.

An aspect of an embodiment of the present application provides an application display method, including:

in a device display interface on which a first application program is displayed, responding to a trigger operation aiming at a second application program, and acquiring a program window area of the first application program in the device display interface;

determining, in a device display interface, a non-interference region associated with a program window region;

displaying a second application in the non-interference area; the first application program and the second application program which are simultaneously displayed in the device display interface are both provided with display areas which can respond to the trigger operation.

An aspect of an embodiment of the present application provides an application display apparatus, including:

the first area acquisition module is used for responding to the trigger operation aiming at the second application program in the equipment display interface on which the first application program is displayed and acquiring a program window area of the first application program in the equipment display interface;

a non-interference region determination module for determining a non-interference region associated with the program window region in the device display interface;

the application display module is used for displaying the second application program in the non-interference area; the first application program and the second application program which are simultaneously displayed in the device display interface are both provided with display areas which can respond to the trigger operation.

Wherein, the non-interference area determining module includes:

the first idle determining unit is used for determining an area except for the program window area in the equipment display interface as a first idle area;

a first association obtaining unit for determining a non-interference area associated with the program window area in the first free area.

Wherein, the non-interference area determining module includes:

the first idle determining unit is further used for determining an area except for the program window area in the device display interface as a first idle area;

and the area splicing unit is used for splicing the local idle area in the first idle area and the local window area in the program window area to obtain a non-interference area associated with the program window area.

Wherein, the non-interference area determining module includes:

the device area determining unit is used for determining a non-interference area associated with the program window area in the program window area of the device display interface if the area except the program window area does not exist in the device display interface; the area of the non-interference region is smaller than the area of the program window region.

Wherein, the non-interference area determining module includes:

the area moving unit is used for moving the program window area to the boundary position in the equipment display interface;

the second idle determining unit is used for determining an area except the program window area after the position is moved in the equipment display interface as a second idle area;

a second association obtaining unit, configured to determine, in the second idle area, a non-interference area associated with the program window area.

Wherein, the device still includes:

the full-screen response module is used for responding to full-screen display operation aiming at the first application program and hiding the second application program in the non-interference area;

and the full screen adjusting module is used for adjusting the size of the first application window of the first application program to the size of the equipment interface of the equipment display interface, and displaying the adjusted first application program in the full screen mode in the equipment display interface.

Wherein, the device still includes:

the mobile response module is used for responding to the mobile operation of the program window area of the first application program and moving the first application program to the position indicated by the mobile operation in the equipment display interface for displaying;

and the track moving module is used for acquiring a moving track of the program window area and carrying out position movement on the second application program in the non-interference area in the equipment display interface based on the moving track.

Wherein, the device still includes:

the closing response module is used for responding to the closing operation aiming at the first application program and canceling the display of the first application program;

and the non-interference adjusting module is used for adjusting the size of a non-interference area where the second application program is located in the equipment display interface and displaying the second application program in the adjusted non-interference area.

Wherein, the device still includes:

the maximum response module is used for responding to the maximization operation aiming at the first application program and determining the device display interface as a program window area of the first application program;

a default display module for displaying the second application program in a default display area of a program window area of the first application program; the area of the default display region is smaller than the area of the program window region.

Wherein, the device still includes:

the loaded display module is used for displaying a loaded application display interface of the second application program in the equipment display interface; program links of m third application programs are displayed in the loaded application display interface; the loaded application display interface is independently displayed in the program window area; m is a positive integer;

the link triggering module is used for responding to triggering operation of program link aiming at a third application program i in the m third application programs, calling the third application program i and switching and displaying a second application program in a non-interference area as the third application program i; i is a positive integer, i is less than or equal to m.

Wherein, the device still includes:

the recommendation display module is used for displaying a recommendation application display interface of the second application program in the equipment display interface; program links of h fourth application programs are displayed in the recommended application display interface; independently displaying the recommended application display interface in a program window area; h is a positive integer;

the progress display module is used for responding to trigger operation of a program link of a fourth application program j in the h fourth application programs and displaying the downloading progress information of the fourth application program j in the recommended application display interface; j is a positive integer, j is less than or equal to h;

and the link updating module is used for canceling the program link for displaying the fourth application program j in the recommended application display interface and adding the program link for the fourth application program j to the loaded application display interface when the fourth application program j is downloaded.

Wherein, the non-interference area determining module includes:

the application size acquisition unit is used for acquiring the equipment interface width and the equipment interface height of an equipment display interface and acquiring the first application width and the first application height of a program window area;

the idle size determining unit is used for determining an area except for the program window area in the device display interface as a first idle area, determining a difference value between the device interface width and the first application width as a first idle area width of the first idle area, and determining a difference value between the device interface height and the first application height as a first idle area height of the first idle area;

a minimum size acquisition unit for acquiring a minimum display width and a minimum display height of the second application;

the position determining unit is used for acquiring a first application position of the program window area in the equipment display interface and determining a non-interference area associated with the program window area based on the first application position if the width of the first idle area is greater than or equal to the minimum display width and the height of the first idle area is greater than or equal to the minimum display height;

a local area determining unit, configured to determine, if the first free area width is smaller than the minimum display width, or the first free area height is smaller than the minimum display height, a non-interference area associated with the program window area in a local free area in the first free area and a local window area in the program window area.

Wherein, the non-interference area determining module includes:

the interface dividing unit is used for dividing the equipment display interface into N interface sub-areas based on the program window area and the first application position; n is a positive integer;

the target area determining unit is used for determining the target interface sub-area as a non-interference area if the target interface sub-area exists in the N interface sub-areas; the width of the sub-region of the target interface sub-region is larger than or equal to the minimum display width, the height of the sub-region is larger than or equal to the minimum display height, and the target interface sub-region is a region without an overlapped part with the program window region;

the position adjustment prompting unit is used for displaying a position adjustment prompting message if the target interface sub-area does not exist in the N interface sub-areas, and determining a non-interference area based on the position adjustment prompting message; the location adjustment hint message is used to receive a location adjustment instruction for a program window area of the first application.

Wherein, this position adjustment suggestion unit includes:

the position adjustment confirming subunit is used for responding to the triggering operation aiming at the position adjustment prompting message, if the triggering operation aiming at the position adjustment prompting message is the confirming operation, the program window area is moved to the boundary position in the equipment display interface, the area except the moved program window area in the equipment display interface is determined as a second idle area, and the non-interference area related to the program window area is determined in the second idle area;

a position adjustment cancelling subunit, configured to determine, in a local idle region of the first idle region and a local window region of the program window region, a non-interference region associated with the program window region if the triggering operation for the position adjustment prompting message is a cancelling operation for the position adjustment prompting message; the local free area is the largest continuous area in the first free area.

Wherein the first application program is a video application program; the non-interference region determination module includes:

the device comprises a cache acquisition unit, a cache processing unit and a cache processing unit, wherein the cache acquisition unit is used for acquiring video data displayed in a video application program displayed in a device display interface and acquiring a cache video frame in the video data;

and the background identification unit is used for extracting the video data characteristics in the cached video frame, identifying a background area in the cached video frame based on the video data characteristics, and determining a non-interference area associated with the program window area in the background area.

Wherein, the device still includes:

the association triggering module is used for responding to triggering operation aiming at the application association component and displaying an application association interface;

the relationship generation module is used for acquiring the main application information and the associated application information submitted in the application associated interface and generating an application associated relationship according to the main application information and the associated application information;

the first region acquisition module is specifically configured to:

responding to a trigger operation aiming at a second application program in a device display interface on which the first application program is displayed, and acquiring a program window area of the first application program in the device display interface if a target application incidence relation between the first application program and the second application program exists in the application incidence relation; the application association relationship comprises a target application association relationship.

Wherein, the device still includes:

the associated application acquisition module is used for responding to the running operation aiming at the first application program and acquiring a second application program associated with the first application program from the application association relation;

the component display module is used for displaying a program trigger component of the second application program in the equipment display interface; the program trigger component is used for responding to a trigger operation aiming at the second application program.

Wherein, the device still includes:

the association display module is used for responding to the triggering operation aiming at the application management component in the application association interface and displaying the application association relation; the application incidence relation comprises a target application incidence relation;

the association canceling module is used for responding to canceling operation of the association relation of the target application and deleting the association relation between the first application program and the second application program corresponding to the association relation of the target application;

and the direct display module is used for displaying the second application program in the equipment display interface if the trigger operation aiming at the second application program is responded.

The application display module is specifically used for:

displaying a program interface of a second application program in the non-interference area; the program interface displays a functional component of a second application program and interface content of the second application program;

the device also includes:

the first function triggering module is used for responding to triggering operation aiming at the functional component of the second application program and executing a first business processing flow corresponding to the functional component of the second application program;

and the second function triggering module is used for responding to the triggering operation aiming at the functional component of the first application program while executing the first business processing flow corresponding to the functional component of the second application program, and executing the second business processing flow corresponding to the functional component of the first application program.

Wherein, the device still includes:

and the program switching module is used for responding to the operation triggering operation aiming at the program triggering component, acquiring the related historical third application program in the second application program, and switching and displaying the second application program displayed in the non-interference area as the historical third application program.

One aspect of the embodiments of the present application provides a computer device, including a processor, a memory, and an input/output interface;

the processor is respectively connected with the memory and the input/output interface, wherein the input/output interface is used for receiving data and outputting data, the memory is used for storing a computer program, and the processor is used for calling the computer program so as to enable the computer device comprising the processor to execute the application display method in one aspect of the embodiment of the application.

An aspect of the embodiments of the present application provides a computer-readable storage medium, where a computer program is stored, where the computer program is adapted to be loaded and executed by a processor, so that a computer device having the processor executes an application display method in an aspect of the embodiments of the present application.

An aspect of an embodiment of the present application provides a computer program product or a computer program, which includes computer instructions stored in a computer-readable storage medium. The processor of the computer device reads the computer instructions from the computer-readable storage medium, and the processor executes the computer instructions to cause the computer device to perform the method provided in the various alternatives in one aspect of the embodiments of the application.

The embodiment of the application has the following beneficial effects:

in this embodiment of the present application, in a device display interface on which a first application is displayed, a user device may respond to a trigger operation for a second application to obtain a program window area of the first application in the device display interface; determining, in a device display interface, a non-interference region associated with a program window region; displaying a second application in the non-interference area; the first application program and the second application program which are simultaneously displayed in the device display interface are both provided with display areas which can respond to the trigger operation. Through the process, when the first application program and the second application program are displayed in one page, the second application program can be displayed based on the display condition of the first application program, so that the first application program and the second application program are not completely and independently separated, but a non-interference area associated with a program window area of the first application program is obtained on the basis of the first application program, the use of the first application program is minimally influenced by the second application program, a user can simultaneously use the first application program and the second application program, the display effect of the application programs is improved, the interference among different application programs is reduced, and the use experience of the user simultaneously using the application programs is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a diagram of a network interaction architecture of an application display provided in an embodiment of the present application;

FIG. 2 is a schematic view of a scene displayed by an application provided in an embodiment of the present application;

FIG. 3a is a flowchart of a method for displaying an application according to an embodiment of the present application;

fig. 3b is a schematic diagram of a second application triggering scenario provided in the embodiment of the present application;

fig. 4 is a schematic diagram of an application association scenario provided in an embodiment of the present application;

fig. 5 is a flowchart of a non-interference area determination method provided in an embodiment of the present application;

fig. 6 is a schematic diagram of a non-interference area determination scenario provided in an embodiment of the present application;

fig. 7 is a schematic view of a non-interference area determination scene based on area division according to an embodiment of the present application;

fig. 8 is a schematic diagram of a non-interference area determination scenario based on position movement according to an embodiment of the present application;

FIG. 9a is a schematic diagram of a program display scenario provided in an embodiment of the present application;

FIG. 9b is a schematic diagram illustrating a display of an application management scenario provided by an embodiment of the present application;

FIG. 9c is a schematic diagram of an application library display scenario provided in an embodiment of the present application;

FIG. 10 is a schematic diagram illustrating an application display flow according to an embodiment of the present application;

FIG. 11 is a flowchart of a multi-application component triggering scenario provided by an embodiment of the present application;

FIG. 12 is a schematic diagram of an application display device according to an embodiment of the present application;

fig. 13 is a schematic structural diagram of a computer device according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, 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 application.

In the embodiment of the application, a program window area of a first application program can be acquired in an equipment display interface based on a computer vision technology in the field of artificial intelligence, and a non-interference area associated with the program window area is determined in the equipment display interface, so that the identification processing of the equipment display interface is realized.

Among them, Artificial Intelligence (AI) is a theory, method, technique and application system that simulates, extends and expands human Intelligence using a digital computer or a machine controlled by a digital computer, senses the environment, acquires knowledge and uses the knowledge to obtain the best result. In other words, artificial intelligence is a comprehensive technique of computer science, which attempts to understand the essence of intelligence and produce a new intelligent machine that can react in a manner similar to human intelligence to extract the features of each behavior sequence matrix and obtain the behavior recognition result of the user for the target service according to the features, thereby reducing the consumption of artificial resources. Artificial intelligence is the research of the design principle and the realization method of various intelligent machines, so that the machines have the functions of perception, reasoning and decision making.

Computer Vision technology (CV) Computer Vision is a science for researching how to make a machine "see", and further refers to that a camera and a Computer are used to replace human eyes to perform machine Vision such as identification, tracking and measurement on a target, and further image processing is performed, so that the Computer processing becomes an image more suitable for human eyes to observe or transmitted to an instrument to detect. As a scientific discipline, computer vision research-related theories and techniques attempt to build artificial intelligence systems that can capture information from images or multidimensional data. Computer vision technologies generally include image processing, image recognition, image semantic understanding, image retrieval, OCR, video processing, video semantic understanding, video content/behavior recognition, three-dimensional object reconstruction, 3D technologies, virtual reality, augmented reality, synchronous positioning, map construction, and other technologies, and also include common biometric technologies such as face recognition and fingerprint recognition.

In the embodiment of the present application, please refer to fig. 1, where fig. 1 is a network interaction architecture diagram of an application display provided in the embodiment of the present application, and the embodiment of the present application may be implemented by a user equipment. The user equipment may acquire data from the computer equipment 101 and display the data, where the computer equipment 101 may perform data interaction with the user equipment, and the computer equipment 101 may be a server where an application program is located, may also belong to the user equipment (i.e., a background of the user equipment), and the like, which is not limited herein. The user equipment may be the user equipment 102a, the user equipment 102b, or the user equipment 102c, and the like, and the embodiment of the present application may be implemented by any one of the user equipment 102a, the user equipment 102b, or the user equipment 102c, and the like. Specifically, taking the user equipment 102b as an example, the user equipment 102b, in a device display interface on which a first application is displayed, responds to a trigger operation for a second application to acquire a program window area of the first application in the device display interface, and in the device display interface, determines a non-interference area associated with the program window area so that the non-interference area may cause less interference to the display of the first application, and displays the second application in the non-interference area, the non-interference area being associated with the program window area so that the first application and the second application are not completely and independently separated, that is, when the user operates the first application, the use of the second application is not affected, so that the user may use multiple applications at the same time, and interference between different applications is reduced, the display effect of the plurality of application programs is improved, and the use experience that the user uses the plurality of application programs at the same time is improved. The user equipment displays the second application program in the non-interference area, specifically, displays program data of the second application program in the non-interference area, where the program data may be acquired from the computer equipment 101, and the computer equipment 101 may be a server corresponding to the second application program, or a background of the user equipment, and the like, which is not limited herein.

The user device may be a mobile phone (e.g., the user device 102c) or a laptop (e.g., the user device 102b), or may also be a playback device in a vehicle (e.g., the user device 102a), and the like, which is not limited herein. The user device 102a may be regarded as a playing device in the vehicle 103, and the first application program or the second application program may be displayed in the user device 102 a. The user equipment in fig. 1 is only an example of a part of the equipment, and in this application, the user equipment is not limited to the equipment illustrated in fig. 1. The first application program and the second application program in the present application may be any application program having display data.

Specifically, please refer to fig. 2, and fig. 2 is a scene schematic diagram of an application display according to an embodiment of the present application. As shown in fig. 2, in the device display interface 202 on which the first application program is displayed, the user device 201 acquires a program window area 2022 of the first application program in the device display interface in response to a trigger operation for the second application program 2021. In the device display interface 202, an area other than the program window area 2022 in the device display interface 202 is determined as a first free area 2023, a non-interference area 2024 associated with the program window area 2022 is determined based on the first free area 2023 and the program window area 2022, and a second application program 2021 is displayed in the non-interference area 2024. Both the first application program and the second application program 2021 displayed in the device display interface 202 at the same time have display areas capable of responding to trigger operations, so that the user can use the first application program and the second application program 2021 at the same time, the use of the second application program 2021 is not affected when the first application program is used, and the use of the first application program is not affected when the second application program 2021 is used, thereby reducing interference between the application programs used by the user, improving the display effect of the multiple application programs displayed at the same time, and further improving the use experience of the user in using the multiple application programs.

It is understood that the user equipment mentioned in the embodiment of the present application may be a computer device, and the computer device in the embodiment of the present application includes, but is not limited to, a terminal device or a server. In other words, the computer device may be a server or a terminal device, or may be a system of a server and a terminal device. The above-mentioned terminal device may be an electronic device, including but not limited to a mobile phone, a tablet computer, a desktop computer, a notebook computer, a palm computer, a vehicle-mounted device, an Augmented Reality/Virtual Reality (AR/VR) device, a helmet display, a smart television, a wearable device, a smart speaker, a digital camera, a camera, and other Mobile Internet Devices (MID) with network access capability, or a terminal device in a scene such as a train, a ship, or a flight, and the like. The above-mentioned server may be an independent physical server, a server cluster or a distributed system formed by a plurality of physical servers, or a cloud server providing basic cloud computing services such as cloud service, a cloud database, cloud computing, a cloud function, cloud storage, Network service, cloud communication, middleware service, domain name service, security service, vehicle-road cooperation, a Content Delivery Network (CDN), a big data and artificial intelligence platform, and the like.

Optionally, the data related in the embodiment of the present application may be stored in a computer device, or the data may be stored based on a cloud storage technology, which is not limited herein.

Further, please refer to fig. 3a, fig. 3a is a flowchart of a method for displaying an application according to an embodiment of the present application. As shown in fig. 3a, the display process of two applications is described as an example, in other words, in the embodiment of the method described in fig. 3a, the application display process includes the following steps:

step S301, in the device display interface on which the first application program is displayed, in response to a trigger operation for the second application program, acquiring a program window area of the first application program in the device display interface.

In this embodiment of the application, in a device display interface on which a first application is displayed, in response to a trigger operation for a second application, a user device acquires a program window area of the first application in the device display interface to determine a display area of the second application based on the program window area, in other words, the first application is associated with the second application, and when the user device acquires the trigger operation for the second application in the device display interface on which the first application is displayed, the user device determines the display area of the second application on the premise that the use of the first application is not affected as much as possible. The triggering operation for the second application may include a starting operation for the second application, a displaying operation for the second application, and the like, for example, when the second application is in a non-running state, the user equipment may determine, in response to the starting operation for the second application, a non-interference area for displaying the second application based on a program window area of the first application in the device display interface; alternatively, when the second application is in the running state, the user equipment may determine a non-interference area for displaying the second application, and the like, based on a program window area of the first application in the device display interface, in response to a display operation for the second application. Thereby realizing the simultaneous display of the first application program and the second application program. Optionally, the triggering operation for the second application program may be an operation triggered by triggering a program triggering component of the second application program, where the program triggering component of the second application program may be displayed at any position in a device display interface, for example, the user equipment is a computer, the device display interface is a desktop of the computer, and the program triggering component of the second application program may be displayed in any displayable region, a taskbar, or a start panel in the desktop, which is not limited herein; the triggering operation for the second application may also be an operation triggered by triggering a multi-application component, where the multi-application component is used to associate the first application with the second application, and the multi-application component may be displayed at any position in the device display interface, or may be integrally displayed in the first application, where no limitation is imposed on the operation.

For example, please refer to fig. 3b, where fig. 3b is a schematic diagram of a second application trigger scenario provided in the present embodiment. As shown in fig. 3b, taking the device display interface indicated by the area 301a as an example, the program trigger component 3012 of the second application may be displayed at any position in the device display interface, where the first application is displayed in the device display interface, and assuming that the second application is in a non-running state, when the user triggers the program trigger component 3012 of the second application, the user device obtains a program window area 3011 of the first application in the device display interface in response to a trigger operation for the second application, and determines a non-interference area based on step S302. Or, taking the device display interface indicated by the area 301b as an example, the program trigger component 3012 of the second application may be displayed at any position in the device display interface, where the first application is displayed in the device display interface, assuming that the second application is in a running state, at this time, the second application may be in a minimized form, a sub-optimal form (that is, a portion overlapping with the first application is displayed as the first application, simply, the first application is located on an upper layer of the second application), or a maximized form, etc., in the device display interface indicated by the area 301b, taking as an example a case where the application area 3013 of the second application is still displayed, a dotted line in the area 301b is used to indicate that the content of the area corresponding to the dotted line is displayed in the device display interface, but cannot be directly viewed by the user, when the user triggers the program trigger component 3012 of the second application program, the user equipment responds to the trigger operation for the second application program, obtains a program window area 3011 of the first application program in the device display interface, and determines a non-interference area based on step S302, and optionally, the user equipment may hide the application area 3013 of the second application program. Or, taking the device display interface indicated by the area 301c as an example, the multiple application component 3014 may be displayed at any position in the device display interface, or may be integrated in the first application program, that is, when the first application program is displayed in the program window area 3011, the multiple application component 3014 is also displayed in the program window area 3011, when the user triggers the multiple application component 3014, the user device may obtain a second application program associated with the first application program, in response to a trigger operation for the second application program, obtain the program window area 3011 of the first application program in the device display interface, and based on step S302, determine the non-interference area.

The association relationship between different applications may be set in advance, or may be determined according to historical application usage data, which is not limited herein. The historical application usage data may include the number of times of application association between the application program and the application program, and it is determined that the number of times of application association is greater than the program association threshold, for example, if the number of times of application association between the application program 1 and the application program 2 is 10, the number of times of application association between the application program 1 and the application program 3 is 4, and the program association threshold is 8, it is determined that the application program 1 is associated with the application program 2. Wherein, if the application program 1 and the application program 2 are used at the same time, it means that the application program 1 and the application program 2 are associated once, and further optionally, the associated duration of the application program 1 and the application program 2 used at the same time can be obtained, when the associated duration of simultaneous use of application 1 and application 2 is greater than or equal to the associated duration threshold, the association between application 1 and application 2 is determined once, in other words, application 1 is used once simultaneously with application 2, the number of associations between application 1 and application 2 is updated once (i.e. the number of associations is increased by one), alternatively, application 1 is used once simultaneously with application 2, and the associated duration of the simultaneous use is greater than or equal to the associated duration threshold, the number of associations between the application 1 and the application 2 is updated once (i.e., the number of associations is incremented by one), and so on. Similarly, the association relationship between any two application programs can be obtained.

Optionally, the association relationship between different application programs is set in advance, and the user equipment may respond to the trigger operation for the application association component and display an application association interface; and acquiring the main application information and the associated application information submitted in the application associated interface, and generating an application association relation according to the main application information and the associated application information. Further, when the user equipment acquires the program window area of the first application program in the device display interface in response to the trigger operation for the second application program in the device display interface on which the first application program is displayed, the user equipment may respond to the trigger operation for the second application program in the device display interface on which the first application program is displayed, and if the target application association relationship between the first application program and the second application program exists in the application association relationship, the program window area of the first application program in the device display interface is acquired, where the application association relationship includes the target application association relationship.

Optionally, the user equipment may integrate multiple application components corresponding to the application association relationship in the application program corresponding to the application association relationship based on the application association relationship. For example, the user equipment integrates, based on the target application association relationship, the multiple application components corresponding to the target application association relationship in the first application program, and when the multiple application components corresponding to the target application association relationship are triggered, is used to trigger the second application program having the target application association relationship with the first application program.

Further optionally, the application association interface may further include an application management component, and the application management component may be configured to trigger display of the configured application association relationship. The user equipment responds to the trigger operation aiming at the application management component in the application association interface and displays the application association relation, wherein the application association relation comprises a target application association relation between the first application program and the second application program. The user can view, change or delete the application association relationship based on the page on which the application association relationship is displayed. For example, the user equipment responds to a cancel operation for the target application association, and deletes the target association, specifically, deletes the association between the first application and the second application corresponding to the target association. At this time, regardless of whether the first application program is displayed in the device display interface, if the user equipment responds to the trigger operation for the second application program, the second application program can be directly displayed in the device display interface without determining the display area of the second application program based on the first application program. Or the user equipment responds to the updating operation aiming at the target application incidence relation, updates the incidence relation between the first application program and the second application program into the incidence relation between the first application program and the updating application program, at the moment, in a device display interface on which the first application program is displayed, if the triggering operation aiming at the updating application program is responded, a non-interference area for displaying the updating application program is determined based on a program window area where the first application program is located, and the updating application program is displayed in the non-interference area for displaying the updating application program; and if the trigger operation aiming at the second application program is responded, the second application program is directly displayed in the equipment display interface.

Optionally, the application association relationship may be directly displayed in response to a trigger operation for the application association component, the associated configuration component is displayed in the page where the application association relationship is displayed, and the application association interface is displayed in response to the trigger operation for the associated configuration component.

Further optionally, the user equipment may also display the second application program based on the primary and secondary relationships between the application programs indicated by the primary application information and the associated application information, specifically, if a target application association relationship exists between the first application program and the second application program in the application association relationship, and the first application program is an application program included in the primary application information, and the second application program is an application program included in the associated application information, obtain a program window area of the first application program in the device display interface, and execute step S302; if the target application association relationship between the first application program and the second application program exists in the application association relationship, the first application program is an application program included in the associated application information, the second application program is an application program included in the main application information, the user equipment can acquire a program window area of the first application program in the equipment display interface, a non-interference area associated with the program window area is determined in the equipment display interface, if an overlapping part exists between the non-interference area and the program window area of the first application program, the second application program is placed under the first application program, namely, the overlapping part between the non-interference area and the program window area of the first application program is displayed, and the first application program is displayed.

Specifically, referring to fig. 4, fig. 4 is a schematic diagram of an application association scenario provided in the embodiment of the present application. As shown in fig. 4, the user equipment 401 may display an application association interface 403 in response to a triggering operation for an application association component 4021, where the application association component 4021 is a component for triggering an application association application, and may be displayed at any position in the application interface 402 of the user equipment 401, for example, the user equipment 401 is a computer (a laptop, a desktop, or the like), and the application association component 4021 may be displayed in a desktop display area in the application interface 402 of the user equipment 401, may be displayed in a task bar in the application interface 402, or may be displayed in a "start" screen area in the application interface 402, which is not limited herein. Further, the user equipment 401 responds to the submission operation of the application association interface 403, obtains the main application information and the associated application information submitted in the application association interface 403, and generates an application association relationship according to the main application information and the associated application information, and further optionally, the user equipment 401 may store the application association relationship in the association database 404. When the application program corresponding to the primary application information and the application program corresponding to the associated application information are displayed simultaneously, the display hierarchy of the application program corresponding to the primary application information in the user equipment 401 is greater than or equal to the display hierarchy of the application program corresponding to the associated application information in the user equipment 401, wherein the smaller the display hierarchy of the application program is, the higher the position of the application program when the application program is displayed is, that is, the closer the application program is to the layer that the user can see, in other words, when the application program corresponding to the primary application information and the application program corresponding to the associated application information are displayed simultaneously, the application program corresponding to the associated application information can shield the overlapping portion between the application program corresponding to the primary application information and the application program corresponding to the associated application information. For example, the application 1 is an application corresponding to the main application information, the application 2 is an application corresponding to the associated application information, and when the application 1 and the application 2 are displayed simultaneously, the user can view data of the application 2 at an overlapping portion of the first application and the second application in the device display interface.

Alternatively, the user device 401 may obtain the application information based on the application association interface 403, that is, the application information is only used for indicating an association relationship between different application programs, and does not indicate a primary-secondary relationship between different application programs. In other words, in the device display interface on which the first application program is displayed, in response to a trigger operation for the second application program, if a target application association relationship between the first application program and the second application program exists in the application association relationship, a program window area of the first application program in the device display interface is obtained, and at this time, the application association relationship includes the target application association relationship.

Optionally, the user equipment 401 may obtain an installed application installed in the user equipment 401, generate an application selection component 4031 based on the installed application, the user may directly select an application that needs to be associated based on the application selection component 4031, and the user equipment 401 may respond to a trigger operation of the application selected by the application selection component corresponding to the primary application to generate primary application information; and responding to the trigger operation of the application program selected by the application selection component corresponding to the associated application to generate associated application information. Optionally, if the user equipment 401 acquires application information based on the application association interface 403, where the application information does not indicate a primary-secondary relationship between different application programs, the user equipment 401 may directly respond to a trigger operation for at least two application programs selected by the application selection component 4031 to generate application information, where the application information includes the at least two application programs, and the user equipment 401 may generate an application association relationship based on the application information, where the application association relationship is used to indicate a mutual association between the at least two application programs. Optionally, if the application information does not indicate a primary-secondary relationship between different application programs, the user equipment may obtain an interaction frequency of the application program corresponding to the application information in a historical use process, determine an application program with a low interaction frequency in the application programs corresponding to the application information as a primary application program, and determine information corresponding to the primary application program as primary application information; determining an application program with high interaction frequency in the application programs corresponding to the application information as a related application program, wherein the information corresponding to the related application program is related application information; wherein, the interaction frequency is relatively high and low, that is, the interaction frequency of the main application is lower than the interaction frequency of the associated application, and the higher the interaction frequency is, the more times the user triggers the application is indicated when the corresponding application is used, in short, the higher the interaction frequency is, the more often the user triggers the application when using the corresponding application, so that the application with the low interaction frequency can be determined as the main application, the application with the high interaction frequency is determined as the associated application, and when the main application and the associated application are displayed simultaneously, the associated application is placed above the main application, that is, the display level of the associated application is less than or equal to the main application, so that the user can trigger the associated application at any time, thereby improving the display effect when different applications are displayed simultaneously, the interference among different application programs is reduced, and the user experience is improved.

Further optionally, the user equipment acquires, in response to the operation directed to the first application program, a second application program associated with the first application program from the application association relationship; and displaying a program trigger component of the second application program in the device display interface, wherein the program trigger component is used for responding to the trigger operation aiming at the second application program. When the user equipment responds to the trigger operation for the program trigger component, the user equipment may be considered to acquire the trigger operation for the second application program.

Step S302, in the device display interface, determining a non-interference area associated with the program window area.

In this embodiment, the user equipment may determine, in the device display interface, an area of the device display interface other than a program window area where the first application program is located as a first idle area, and determine, according to the first idle area and the program window area, a non-interference area associated with the program window area. The non-interference area is an area where the influence degree of the use of the first application program in the device display interface is lower than an application interference threshold, and the second application program can be displayed, and the application interference threshold is an influence program when interference is generated between different application programs. The non-interference area is determined based on the first application window size and the first application position of the program window area in the device display interface, and no overlapping part exists between the non-interference area and the program window area, or a local overlapping part exists between the non-interference area and the program window area, or the non-interference area is located in the program window area. Specifically, the non-interference area is a program window area in the device display interface based on the first application program, and the determined mode may be used to display the second application program, specifically, the determining mode of the non-interference area includes the following modes:

in one case, the user equipment may determine a non-interference region associated with the program window region in the first idle region, that is, the non-interference region is located in the first idle region, so that there is no overlapping portion between the non-interference region and the program window region, data in the non-interference region and the program window region may be displayed simultaneously, and the user may view all data in the non-interference region and the program window region, thereby improving display effects of different applications and enhancing a use experience of the user using a plurality of applications simultaneously.

In one case, the user equipment splices the local idle area in the first idle area and the local window area in the program window area to obtain a non-interference area associated with the program window area, that is, the non-interference area occupies part of the first idle area and part of the program window area, and at this time, there is a local overlapping portion between the non-interference area and the program window area.

Under the condition, if the area except the program window area does not exist in the equipment display interface, namely the first idle area does not exist in the equipment display interface, the non-interference area associated with the program window area is determined in the program window area of the equipment display interface, the area of the non-interference area is smaller than the area of the program window area, and the non-interference area is located in the program window area, so that the non-interference area can not completely shield the program window area, the first application program and the non-interference area in the program window area can be displayed simultaneously, a user can simultaneously view the program window area and the non-interference area, the display effect when different application programs are used simultaneously is improved, and the user experience is improved. Alternatively, a default display area in the program window area may be determined as a non-interference area.

In one case, in the device display interface, moving the program window area to a border location in the device display interface; determining an area except the program window area after the position is moved in the equipment display interface as a second idle area; in the second idle area, determining a non-interference area associated with the program window area to reduce the overlapping part between the non-interference area and the program window area as much as possible, so as to reduce the interference between different application programs, thereby improving the display effect of the simultaneous display of a plurality of application programs and improving the user experience. At this time, there is a partial overlapping portion between the non-interference region and the program window region, or there is no overlapping portion. If the determined second idle area after the program window area is moved does not have a continuous area capable of displaying the second application program, the user equipment splices the local idle area in the second idle area and the local window area in the program window area to obtain a non-interference area associated with the program window area, and at the moment, a local overlapping part exists between the non-interference area and the program window area; if a continuous area capable of displaying the second application program exists in the determined second idle area after the program window area is moved, the user equipment determines a non-interference area associated with the program window area in the second idle area, and at this time, no overlapping part exists between the non-interference area and the program window area.

Optionally, if the first application is a video application, the user equipment may determine the non-interference area based on the video application, and specifically, the user equipment may obtain video data displayed in the video application displayed in the device display interface, and obtain a cached video frame in the video data; video data features in the cached video frame are extracted, a background region in the cached video frame is identified based on the video data features, and a non-interference region associated with the program window region is determined in the background region. Similarly, the user equipment may also obtain program data displayed in the first application program displayed in the device display interface by the first application program, obtain program data characteristics of the program data, determine a secondary area (for example, a background area in the video application program) of the first application program based on the program data characteristics, and determine a non-interference area associated with the program window area in the secondary area, where the secondary area is an area that does not affect the use of the first application program much after being blocked in the first application program, and determine the non-interference area in the secondary area, which may reduce interference between the first application program and a second application program that needs to be displayed in the non-interference area, so as to improve the display effect of multiple application programs displayed simultaneously. Optionally, the user equipment may obtain the program data of the first application program again when the device display interface does not have an area other than the program window area, that is, the device display interface does not have the first idle area, and determine the non-interference area based on the program data.

Step S303, displaying the second application program in the non-interference area.

In this embodiment of the present application, the user equipment displays the second application program in the non-interference area, and both the first application program and the second application program displayed simultaneously in the display interface of the device have a display area capable of responding to the trigger operation, that is, the user may operate the first application program and the second application program simultaneously. Specifically, the user equipment may display a default display page of the second application program in the non-interference area, may also display a page displayed when the second application program was last closed in the non-interference area, or may display a history display page of the second application program, where the history display page is a page with the largest history display frequency among pages displayed by the second application program in a history use process. The user equipment can enable the second application program to occupy the whole non-interference area, so that the area of interaction with the user is increased as much as possible by the second application program, and the interaction effect of the user and the second application program is improved; the second application program can be displayed in the non-interference area, so that the second application program can be displayed in a better picture scale, the occurrence of situations such as data deformation of the second application program is reduced, and the display effect of the second application program is further improved.

Specifically, the user equipment may display a program interface of the second application in the non-interference area; the program interface displays the functional components of the second application program and the interface content of the second application program. At this time, the user equipment responds to the trigger operation aiming at the functional component of the second application program and executes a first business processing flow corresponding to the functional component of the second application program; while executing the first business processing flow corresponding to the functional component of the second application program, responding to the trigger operation aiming at the functional component of the first application program, executing the second business processing flow corresponding to the functional component of the first application program, wherein, between the triggering operation of the functional component for the second application program and the triggering operation of the functional component for the first application program, there is no change of the hierarchical relationship or the position relationship, etc. of the first application program and the second application program in the device display interface, that is, the user device can simultaneously display the functional component of the first application program and the functional component of the second application program, the functional components of the first application program are displayed in a display area where the first application program can respond to the trigger operation, and the functional components of the second application program are displayed in a display area where the second application program can respond to the trigger operation. If the first service processing flow is not processed yet when the user equipment executes the second service processing flow corresponding to the functional component of the first application program, the first service processing flow and the second service processing flow can be processed in parallel. Similarly, if the triggering operation for the functional component of the first application program is responded first, and then the triggering operation for the functional component of the second application program is responded, the processing mode of the user equipment is the same as the processing mode of the triggering operation for the functional component of the second application program which is responded first, and then the triggering operation for the functional component of the first application program is responded, and details are not repeated here.

In this embodiment of the present application, in a device display interface on which a first application is displayed, a user device may respond to a trigger operation for a second application to obtain a program window area of the first application in the device display interface; determining, in a device display interface, a non-interference region associated with a program window region; displaying a second application in the non-interference area; the first application program and the second application program which are simultaneously displayed in the device display interface are both provided with display areas which can respond to the trigger operation. Through the process, when the first application program and the second application program are displayed in one page, the second application program can be displayed based on the display condition of the first application program, so that the first application program and the second application program are not completely and independently separated, but a non-interference area associated with a program window area of the first application program is obtained on the basis of the first application program, the use of the first application program is minimally influenced by the second application program, a user can simultaneously use the first application program and the second application program, the display effect of the application programs is improved, the interference among different application programs is reduced, and the use experience of the user simultaneously using the application programs is improved.

Further, referring to fig. 5, fig. 5 is a flowchart of a non-interference area determination method provided in an embodiment of the present application. As shown in fig. 5, the method includes the steps of:

step S501, determine a first free area, obtain a first free size of the first free area, and obtain a program minimum size of a second application program.

In this embodiment of the present application, the user equipment may obtain a device interface size of the device display interface, obtain a first application window size of the program window area, and specifically, may obtain a device interface width and a device interface height of the device display interface, and obtain a first application width and a first application height of the program window area, where the device interface size includes the device interface width and the device interface height, and the first application window size includes the first application width and the first application height. Further, the user equipment can determine an area except for the program window area in the device display interface as a first idle area, determine a difference value between the device interface width and the first application width as a first idle area width of the first idle area, and determine a difference value between the device interface height and the first application height as a first idle area height of the first idle area, wherein the first idle area width and the first idle area height form a first idle size of the first idle area. The user equipment may further obtain a program minimum size of the second application, specifically, obtain a minimum display width and a minimum display height of the second application, that is, the program minimum size includes the minimum display width and the minimum display height of the second application.

Specifically, please refer to fig. 6, where fig. 6 is a schematic diagram of a non-interference area determination scenario provided in the embodiment of the present application. As shown in fig. 6, the user device may obtain a device interface size of the device display interface 601, including a device interface width a1 and a device interface height b1 of the device display interface 601, obtain a first application window size of the program window area 6011, including a first application width a2 and a first application height b2, determine an area of the device display interface 601 other than the program window area 6011 as a first idle area 6012, obtain a first idle size 602 of the first idle area 6012, specifically, determine a difference between the device interface width a1 and the first application width a2 as a first idle area width a3 of the first idle area 6012, that is, a3 ═ a1-a2, and determine a difference between the device interface height b1 and the first application height b2 as a first idle area height b3 of the first idle area 6012, that is, b3 ═ b 1-2. Further, the user device may obtain a program minimum size 603 of the second application, including a minimum display width a4 and a minimum display height b4 of the second application, where the program minimum size 603 is used to indicate a minimum size that the second application can display when being displayed, so that a display area of the second application is not smaller than the program minimum size 603, so as to ensure normal operation of the second application, and since the smaller the display size of the application is, the harder the user is to operate, i.e., interact with the application, an area greater than or equal to the program minimum size 603 of the second application is reserved in the device display interface on which the first application is displayed, so as to ensure that the user can interact with the second application normally under the condition that the use of the first application is affected as little as possible, therefore, the display effect of simultaneous display of multiple applications is improved, interference among different application programs is reduced, the use effect of the application programs is also improved, and further user experience is improved.

Step S502, comparing the first idle size with the program minimum size.

In this embodiment, the user equipment may compare the first idle size with the program minimum size, specifically compare the first idle area width with the minimum display width, and compare the first idle area height with the minimum display height. If the width of the first idle area is greater than or equal to the minimum display width and the height of the first idle area is greater than or equal to the minimum display height, determining that the first idle size meets the size condition of the program minimum size, executing step S503, acquiring a first application position of the program window area in the device display interface, and determining a non-interference area associated with the program window area based on the first application position; if the first free area width is smaller than the minimum display width or the first free area height is smaller than the minimum display height, it is determined that the first free size does not satisfy the size condition of the program minimum size, and step S504 is performed to determine a non-interference area associated with the program window area in the local free area in the first free area and the local window area in the program window area.

Specifically, as shown in FIG. 6, if the first free area width a3 is greater than or equal to the minimum display width a4 (i.e., a3 ≧ a4) and the first free area height b3 is greater than or equal to the minimum display height b4 (i.e., b3 ≧ b4), it is determined that the first free size 602 satisfies the size condition of the program minimum size 603, step S503 is executed, a first application position of the program window area 6011 in the device display interface is obtained, and a non-interference area associated with the program window area 6011 is determined based on the first application position; if the first free area width a3 is smaller than the minimum display width a4 (i.e., a3< a4), or the first free area height b3 is smaller than the minimum display height b4 (i.e., b3< b4), it is determined that the first free size 602 does not satisfy the size condition of the program minimum size 603, step S504 is performed, and a non-interference area associated with the program window area is determined in the local free area in the first free area 6012 and the local window area in the program window area 6011.

Step S503, if the first idle size satisfies the size condition of the minimum size of the program, acquiring a first application position of the program window area in the device display interface, and determining a non-interference area associated with the program window area based on the first application position.

In this embodiment of the application, if the first idle size meets the size condition of the program minimum size, that is, the first idle area width is greater than or equal to the minimum display width, and the first idle area height is greater than or equal to the minimum display height, the first application position of the program window area in the device display interface is obtained, and based on the first application position, the non-interference area associated with the program window area is determined from the device display interface. Specifically, the user equipment may divide the device display interface into N interface sub-regions based on the program window region and the first application position, where N is a positive integer, and the first application position includes an interface coordinate of the program window region in the device display interface and is used to represent a relative position of the program window region and the device display interface; if the target interface sub-region exists in the N interface sub-regions, determining the target interface sub-region as a non-interference region; the width of the sub-region of the target interface sub-region is larger than or equal to the minimum display width, the height of the sub-region is larger than or equal to the minimum display height, and the target interface sub-region is a region without an overlapped part with the program window region; if the target interface subareas do not exist in the N interface subareas, displaying a position adjustment prompt message, and determining a non-interference area based on the position adjustment prompt message; the location adjustment hint message is used to receive a location adjustment instruction for a program window area of the first application.

Specifically, referring to fig. 7, fig. 7 is a schematic view of a non-interference area determination scene based on area division according to an embodiment of the present application. As shown in fig. 7, the user equipment may obtain a first application position of a program window region 7011 in an equipment display interface 701, divide the equipment display interface 701 into N interface sub-regions based on the first application position, specifically divide a first idle region 7012 in the equipment display interface 701, except for the program window region 7011, into N interface sub-regions, where the N interface sub-regions include an interface sub-region (i), an interface sub-region (ii), an interface sub-region (iii), an interface sub-region (iv), an interface sub-region (c), an interface sub-region (r), and the like; optionally, the N interface sub-regions may be interface sub-regions formed by combining at least two adjacent interface sub-regions from the interface sub-region (i) to the interface sub-region (r), wherein there is no adjacent edge or only one adjacent edge between the interface sub-region and the program window region 7011, for example, the N interface sub-regions include an interface sub-region formed by the interface sub-region (i) and the interface sub-region (ii), an interface sub-region formed by the interface sub-region (i) and the interface sub-region (r), …, an interface sub-region formed by the interface sub-region (i) and the interface sub-region (ii) and the interface sub-region (iii), and the like; optionally, the N interface sub-regions may include an interface sub-region (i), an interface sub-region (ii), an interface sub-region (iii), an interface sub-region (iv), an interface sub-region (v), an interface sub-region (vi), an interface sub-region (v), and an interface sub-region formed by combining at least two adjacent interface sub-regions from the interface sub-region (v) to the interface sub-region (v), which is not limited herein. Comparing the N interface sub-areas with the program minimum size 703, if a target interface sub-area exists in the N interface sub-areas, determining the target interface sub-area as a non-interference area, where the sub-area width of the target interface sub-area is greater than or equal to the minimum display width a4 in the program minimum size 703, and the sub-area height of the target interface sub-area is greater than or equal to the minimum display height b4 in the program minimum size 703, for example, the sub-area width of the interface sub-area iv is greater than or equal to the minimum display width a4, and the sub-area height of the interface sub-area iv is greater than or equal to the minimum display height b4, and then the user equipment may determine the interface sub-area iv as the target interface sub-area; further, if at least two target interface sub-regions exist in the N interface sub-regions, the target interface sub-region with the largest size is determined as a non-interference region, or the target interface sub-region located at the default position is determined as a non-interference region. And if the target interface subarea does not exist in the N interface subareas, displaying a position adjustment prompting message, and determining a non-interference area based on the position adjustment prompting message.

Further, when determining the non-interference region based on the position adjustment prompting message, the user equipment may respond to a trigger operation for the position adjustment prompting message, if the trigger operation for the position adjustment prompting message is a confirmation operation, move the program window region to a boundary position in the device display interface, determine a region of the device display interface other than the moved program window region as a second idle region, and in the second idle region, determine the non-interference region associated with the program window region; if the triggering operation aiming at the position adjusting prompt message is a cancelling operation aiming at the position adjusting prompt message, determining a non-interference area associated with a program window area in a local idle area of the first idle area and a local window area of the program window area; the local free area is the largest continuous area in the first free area.

Specifically, please refer to fig. 8, where fig. 8 is a schematic diagram of a non-interference area determination scenario based on location movement according to an embodiment of the present application. As shown in fig. 8, the user equipment determines an area other than a program window area 8011 where the first application program is located in the device display interface 801 as a first free area 8012, and when determining a non-interference area based on the position adjustment prompting message, the user equipment may display the position adjustment prompting message 8013 in the device display interface 801, and the position adjustment prompting message 8013 may include the position adjustment determining component 80a and the position adjustment canceling component 80 b. In response to the triggering operation for the position adjustment prompting message 8013, if the triggering operation for the position adjustment prompting message 8013 is a triggering operation for the position adjustment determining component 80a, that is, a confirmation operation, the program window area 8011 is moved to a boundary position in the device display interface 801, for example, the boundary position may be an upper left boundary, a lower left boundary, an upper right boundary, a lower right boundary, an upper boundary, a left boundary, a lower boundary, a right boundary, and the like in the device display interface 801, as shown in fig. 8, the program window area 8011 is moved to a boundary position in the device display interface 801 to obtain a moved program window area 8014 (that is, an area corresponding to the dashed line indication area 8014 in fig. 8), an area other than the moved program window area 8014 in the device display interface 801 is determined to be a second free area 8015, in the second free area 8015, the non-interference area 8016 associated with the program window area is determined, specifically, the second idle area 8015 may be divided based on the boundary of the moved program window area 8014 to obtain a boundary sub-area, and the non-interference area is determined from the boundary sub-area based on the determination process of the target interface sub-area. Since the first free area width of the first free area is greater than or equal to the minimum display width and the first free area height is greater than or equal to the minimum display height, the program window area 8011 is moved to the boundary position in the device display interface 801 to obtain a second free area, and an area meeting the size condition of the program minimum size must exist in the boundary sub-areas obtained by dividing the second free area.

If the trigger operation for the position adjustment prompting message 8013 is a trigger operation for the position adjustment canceling component 80b, that is, a canceling operation for the position value adjustment prompting message 8013, the non-interference region 8017 associated with the program window region is determined in the local idle region of the first idle region 8012 and the local window region of the program window region 8011, where the local idle region is a maximum continuous region in the first idle region 8012, and the maximum continuous region is extended to the program window region 8011 until the non-interference region is obtained.

The method comprises the steps of displaying a position adjustment prompt message instead of directly adjusting the position of a program window area, determining whether to adjust the position of the program window area or not based on the triggering operation of a user on the position adjustment prompt message, and further optionally suspending the operation of a first application program when the user equipment displays the position adjustment prompt message so as not to influence the use of the first application program by the user. Optionally, the user equipment may further display location adjustment setting information, determine and store a location adjustment state in response to a configuration operation for the location adjustment setting information, where the location adjustment state is a location adjustment confirmation state or a location adjustment cancellation state, and when it is necessary to perform location adjustment on the program window area, the location adjustment state may be acquired, and if the location adjustment state is the location adjustment confirmation state, the program window area is moved to a boundary location in the device display interface, an area other than the moved program window area in the device display interface is determined as a second idle area, and in the second idle area, a non-interference area associated with the program window area is determined; and if the position adjustment state is the position adjustment canceling state, determining a non-interference area associated with the program window area in the local idle area of the first idle area and the local window area of the program window area. Further optionally, the user device may provide a configuration interface of the position adjustment setting information for the user, so that the user may close the configuration of the position adjustment setting information or change the configuration of the position adjustment setting information based on the configuration interface of the position adjustment setting information.

Alternatively, the user device may determine the non-interference region associated with the program window region directly in the program window region in which the first application program is located. For example, the default display area in the program window area is determined to be a non-interference area having a width greater than or equal to the minimum display width of the second application program and a height greater than or equal to the minimum display height of the second application program.

Step S504, if the first idle size does not satisfy the size condition of the program minimum size, determining a non-interference area associated with the program window area in the local idle area in the first idle area and the local window area in the program window area.

In this embodiment of the application, if the first idle size does not satisfy the size condition of the program minimum size, that is, the first idle area width is smaller than the minimum display width, and the first idle area height is smaller than the minimum display height, it indicates that there is no area in the first idle area where the second application program can be completely displayed, and the user equipment may determine, in a local idle area in the first idle area and a local window area in the program window area, a non-interference area associated with the program window area, where the local idle area is a maximum continuous area in the first idle area, and extend the maximum continuous area to the program window area until the non-interference area is obtained, where an area extended from the maximum continuous area to the program window area is a local window area in the program window area.

In this embodiment of the present application, in a device display interface on which a first application is displayed, a user device may respond to a trigger operation for a second application to obtain a program window area of the first application in the device display interface; determining, in a device display interface, a non-interference region associated with a program window region; displaying a second application in the non-interference area; the first application program and the second application program which are simultaneously displayed in the device display interface are both provided with display areas which can respond to the trigger operation. Through the process, when the first application program and the second application program are displayed in one page, the second application program can be displayed based on the display condition of the first application program, so that the first application program and the second application program are not completely and independently separated, but a non-interference area associated with a program window area of the first application program is obtained on the basis of the first application program, the use of the first application program is minimally influenced by the second application program, a user can simultaneously use the first application program and the second application program, the display effect of the application programs is improved, the interference among different application programs is reduced, and the use experience of the user simultaneously using the application programs is improved.

Further, when the first application program is displayed in a full screen mode, the user equipment can hide the second application program in the non-interference area in response to the full screen display operation aiming at the first application program, wherein the full screen display operation is used for indicating that the user possibly needs to concentrate on using the first application program; and adjusting the size of the first application window of the first application program to the size of the equipment interface of the equipment display interface, namely adjusting the size of the program window area where the first application program is located to the area with the size of the equipment interface, and displaying the adjusted first application program in the equipment display interface in a full screen mode. Optionally, if the user equipment has a taskbar (e.g., a taskbar of a computer), the user equipment may further hide the taskbar in response to a full-screen display operation for the first application program, that is, the user equipment only displays a program window area of the first application program, or data in the user equipment except the first application program is covered by the program window area of the first application program, the size of the program window area after full-screen display is the size of a displayable area of the user equipment, and the displayable area refers to all areas of the user equipment where data may be displayed.

Further, the user equipment responds to the moving operation of the program window area of the first application program, and the first application program is moved to the position indicated by the moving operation in the equipment display interface to be displayed; and acquiring a moving track of the program window area, and performing position movement on the second application program in the non-interference area in the equipment display interface based on the moving track. And the hierarchical relationship between the program window area after the movement and the non-interference area is the same as the hierarchical relationship between the program window area before the movement and the non-interference area. Optionally, the user equipment may simultaneously move the program window area and the non-interference area in the device display interface based on the moving operation in response to the moving operation for the program window area of the first application.

In one or more embodiments, the user equipment responds to a window canceling operation for the first application program, displays a first application component of the first application program, and hides a program window area where the first application program is located, wherein when the first application component is triggered, the first application component is used for displaying a page displayed by the first application program when the window canceling operation is triggered. Optionally, the user equipment may keep the display state of the non-interference area where the second application program is located, that is, the non-interference area where the second application program is located is not operated, or may adjust the size of the non-interference area where the second application program is located, and display the second application program in the adjusted non-interference area. Optionally, when the user equipment adjusts the size of the non-interference area where the second application program is located, the size of the non-interference area where the second application program is located may be adjusted to a default program size of the second application program, where the default program size may be a size set by a service person of the second application program, or may be a size set by the user for the second application program, and the like, and is not limited herein. The window canceling operation is to cancel the display of the program window area where the first application program is located without exiting the first application program.

In one or more embodiments, the user equipment responds to the minimization operation for the first application program, obtains a first application minimum display size of the first application program, adjusts the size of a program window area where the first application program is located to the first application minimum display size, and displays the first application program in the program window area after size adjustment in the device display interface.

In one or more embodiments, the user equipment can respond to the closing operation aiming at the first application program and cancel the display of the first application program; in the device display interface, the user equipment may keep the display state of the non-interference area where the second application program is located, that is, the non-interference area where the second application program is located is not operated, or may adjust the size of the non-interference area where the second application program is located, and display the second application program in the adjusted non-interference area. Optionally, when the user equipment adjusts the size of the non-interference area where the second application program is located, the size of the non-interference area where the second application program is located may be adjusted to a default program size of the second application program, where the default program size may be a size set by a service person of the second application program, or may be a size set by the user for the second application program, and the like, and is not limited herein. The closing operation refers to an operation of exiting the first application, that is, indicating that the user does not use the first application.

In one or more embodiments, the user device may determine the device display interface as a program window area of the first application in response to a maximize operation for the first application; displaying a second application program in a default display area of a program window area of the first application program; the area of the default display region is smaller than the area of the program window region.

In one or more embodiments, the user equipment may cancel displaying the first application program and the second application program in response to a home page trigger operation for the user equipment, and if other application programs are also displayed in the user equipment, the user equipment may also cancel displaying the other application programs and display an equipment home page of the user equipment.

In one or more embodiments, the user equipment may switch the currently displayed first application program to the first application program in the simple mode in response to a simple mode trigger operation for the first application program, and since an area occupied by the first application program in the simple mode is small, the user equipment may further move a non-interference area where the second application program is located, so as to reduce an overlapping portion between the first application program and the second application program. The simple mode is a mode in which the first application has fewer functions, for example, a mini (mini) mode of a video application.

In one or more embodiments, assuming the second application is an application helper program, the user device may display a loaded application display interface of the second application in the device display interface; program links of m third application programs are displayed in the loaded application display interface; the loaded application display interface is independently displayed in the program window area; and m is a positive integer, and the third application program displayed in the loaded application display interface is the application program which is loaded and installed in the user equipment. The user equipment responds to the trigger operation of a program link aiming at a third application program i in the m third application programs, calls the third application program i, and switches and displays a second application program in the non-interference area as the third application program i; i is a positive integer, i is less than or equal to m. Optionally, when the user equipment displays the second application program in the non-interference area, the history application program loaded when the second application program was last closed may be acquired, and the history application program is displayed in the non-interference area. For example, the application assistant program is a game assistant, the third application program may be a game already installed in the user device, and assuming that a game such as "royal glory, peace elite, and hand-fighting landlord" is installed in the user device, the user device may display program links of m third application programs in the loaded application display interface of the second application program, including program links of royal glory, program links of peace elite, program links of hand-fighting landlord, and the like.

In one or more embodiments, the user device may display a recommended application display interface for the second application in the device display interface; program links of h fourth application programs are displayed in the recommended application display interface; independently displaying the recommended application display interface in a program window area; h is a positive integer, the fourth application displayed in the recommended application display interface is an application not installed in the user equipment, and the fourth application displayed in the recommended application display interface may be a hot download program. The user equipment can respond to the trigger operation of the program link of a fourth application program j in the h fourth application programs, and display the downloading progress information of the fourth application program j in the recommended application display interface; j is a positive integer, j is less than or equal to h; and when the downloading of the fourth application program j is completed, canceling the program link for displaying the fourth application program j in the recommended application display interface, and adding the program link for the fourth application program j to the loaded application display interface. For example, the application assistant program is a game assistant, the fourth application program may be a hot game not installed in the user equipment, and the user equipment may display program links of h fourth application programs in a recommended application display interface of the second application program, such as a program link crossing a fire wire and a program link of a career moon knife.

Specifically, please refer to fig. 9a, and fig. 9a is a schematic view of a program display scene according to an embodiment of the present application. As shown in fig. 9a, a program window area 901 where a first application program is located is displayed in a device display interface by a user equipment, a function component of the first application program is displayed in the program window area 901, for example, the first application program is a video application program, a popup operation component 9011 and the like of the first application program may be displayed in the program window area 901, the user equipment may display a multi-application component 9013 in the device display interface, the multi-application component 9013 is used for triggering an application program having an association relationship with the first application program, and is referred to as a second application program in this application, where the multi-application component 9013 may be displayed at any position in the device display interface, and may also be displayed in the program window area 901. The user equipment responds to a display trigger operation 9014 for the multi-application component 9013, determines a non-interference area 9012 in the device display interface, and displays a second application program in the non-interference area 9012. The user may operate the functional component in the first application program and the functional component in the second application program at the same time, for example, the user may send a bullet screen message in the first application program, or may trigger the functional component in the second application program.

Further, referring to fig. 9b, fig. 9b is a schematic display diagram of an application management scenario provided in the embodiment of the present application, as shown in fig. 9b, the user device displays a program window area 902 in the device display interface where the first application is located, the program window area 902 has displayed therein the relevant components of a first application, for example, a video application, the program window region 902 may display a bullet screen operation component 9021 of the first application program, and the like, the user equipment may display a multi-application component 9023 in the device display interface, the multi-application component 9023 is used to trigger an application that has an association with a first application, referred to herein as a second application, the multi-application component 9023 may be displayed at any position in the device display interface, or may be displayed in the program window area 902. The user equipment responds to the operation 9024 triggered by the operation of the multi-application component 9023, determines an application management area 903, and displays a page of a second application program in the application management area 903, such as the loaded application display interface 904 or the recommended application display interface 905. Assume that the user equipment responds to the operation 9024 triggered by the execution of the multi-application component 9023, a loaded application display interface 904 is displayed in the application management area 903, a loaded application component 9041 and a recommended application component 9042 are displayed in the loaded application display interface 904, and program links of m third applications are displayed in the loaded application display interface 904 by the user equipment. The user equipment responds to the trigger operation for the recommended application component 9042, the loaded application display interface 904 is switched and displayed as a recommended application display interface 905, the loaded application component 9041 and the recommended application component 9042 can also be displayed in the recommended application display interface 905, and program links of h fourth application programs are displayed in the recommended application display interface 905 by the user equipment.

Further, the user equipment may respond to a trigger operation of a program link for a fourth application j in the h fourth applications, and display the download progress information of the fourth application j in the recommended application display interface 905, for example, if the fourth application j is the fourth application 2, the user equipment may display the download progress information of the fourth application 2 in the recommended application display interface 905, and if the fourth application 2 is downloaded to half, the user equipment displays the download progress information of the fourth application 2, where the download progress information may be displayed in the display mode shown in fig. 9b, or may be displayed in other display modes, which is not limited herein. When the download progress of the fourth application program 2 reaches 100%, that is, the download of the fourth application program j is completed, the program link displaying the fourth application program j is cancelled in the recommended application display interface, the program link of the fourth application program j is added to the loaded application display interface 904, for example, the download of the fourth application program 2 is completed, before the download of the fourth application program 2 is completed, the user equipment displays the program link of the fourth application program 1 and the program link of the fourth application program 2 to the program link of the fourth application program m in the recommended application display interface 905, and after the download of the fourth application program 2 is completed, the program link of the fourth application program 1 and the program link of the fourth application program 3 to the program link of the fourth application program m are displayed in the recommended application display interface 905. Optionally, at this time, if the user equipment receives a trigger operation for the loaded application component, the user equipment displays the loaded application display interface 904 in response to the trigger operation for the loaded application component, and at this time, program links of m third application programs and program links of a fourth application program j (i.e., a fourth application program 2 in the example shown in fig. 9 b) are displayed in the loaded application display interface 904. Optionally, when the user equipment completes downloading the fourth application j, the user equipment may switch and display the first application in the non-interference area 9022 as the fourth application j.

The display triggering operation and the running triggering operation of the multi-application component are different operations, and the specific corresponding operation of the display triggering operation and the running triggering operation is not limited herein, for example, the display triggering operation may be a mouse suspension operation, and the running triggering operation may be a click operation; alternatively, the display trigger operation may be a single-click operation, and the operation trigger operation may be a double-click operation, that is, the display trigger operation and the operation trigger operation may be different operations, and the specific corresponding operation between the display trigger operation and the operation trigger operation is not limited.

In brief, the user equipment responds to the running operation aiming at the first application program, and obtains a second application program associated with the first application program from the application association relation; displaying a program trigger component of a second application program in a device display interface; the program trigger component is used for responding to a trigger operation aiming at the second application program. And the user equipment responds to the operation triggering operation aiming at the program triggering component, acquires the associated historical third application program in the second application program, and switches and displays the second application program displayed in the non-interference area into the historical third application program. The history third application may be an application displayed the most frequently in the second application, or may be an application displayed when the second application was closed last time, and the like, and is not limited herein.

Further optionally, please refer to fig. 9c, where fig. 9c is a schematic view of a display scene of an application library according to an embodiment of the present application. The loaded application display interface 904 and the recommended application display interface 905 in fig. 9b may further include an application library jumping component. As shown in fig. 9c, in the recommended application display interface 905, the user equipment displays an application library interface 906 in response to the application library skip component 9051, the application library interface 906 may be independently displayed in a program window area where the first application program is located, f application programs are displayed in the application library interface 906, where f is a positive integer, the application library interface 906 may further display a program search component 9061, when the user equipment responds to a trigger operation for the program search component 9061, a history search record and a hot search may be displayed, and when the user equipment responds to a submit operation for the program search component 9061, a download page of a search application submitted by the submit operation may be displayed in the application library interface 906.

Further, please refer to fig. 10, where fig. 10 is a schematic view illustrating an application program display flow according to an embodiment of the present application. As shown in fig. 10, taking a first application as a video application as an example, the user equipment plays a video based on the first application, responds to a trigger operation for the multiple application components, detects that an application has been loaded, requests the application library, detects whether background data is successfully pulled back, and displays an empty list prompt message if the background data is not successfully pulled back, where the empty list prompt message is used to indicate a message that the pulling back of the background data fails; if the background data is successfully pulled back, an application list of the application library is displayed, optionally, the application list may be a list composed of loaded applications, a list composed of recommended applications, or the like, and specifically, the user equipment may determine the application list to be displayed according to a default trigger page of the multi-application component. When the background data is successfully pulled back, the application list for displaying the application library specifically displays a loaded application display interface or a recommended application display interface and the like, the loaded application display interface comprises a loaded application component, a recommended application component, an application library skip component and the like, and the recommended application display interface comprises a loaded application component, a recommended application component, an application library skip component and the like. The user equipment responds to the triggering operation aiming at the application library jumping assembly, obtains a search application corresponding to the searching operation, downloads and installs the search application by one key, and displays the search application; responding to the trigger operation aiming at the recommended application component, displaying a recommended application display interface, responding to the trigger operation aiming at the program link of a fourth application program j in the recommended application display interface, downloading and installing the fourth application program j by one key, and displaying the fourth application program j; and displaying the loaded application display interface in response to the trigger operation aiming at the loaded application component, and displaying a third application program i in response to the trigger operation aiming at the program link of the third application program i in the loaded application display interface. When the user equipment displays an application program (such as a search application, a fourth application program j or a third application program i) and displays the application program in the determined non-interference area. The user equipment can call the application associated application, register the observer aiming at the first application program, wait for the notification after the change of the program window area where the first application program is positioned, receive the notification after the change of the program window area by the user equipment and detect whether the first application program is in a full screen mode or not. If the first application program is in a full screen mode, hiding the multi-application component, namely hiding data except the first application program; if the first application program is not in a full screen mode, acquiring the attribute of a program window area where the first application program is located according to the observer handle of the first application program, and adjusting a non-interference area where the second application program is located.

Specifically, referring to fig. 11, fig. 11 is a flowchart of a multi-application component triggering scenario provided in the embodiment of the present application. As shown in fig. 11, the process includes the steps of:

step S1101, triggering a multi-application component.

In this embodiment of the present application, the user equipment may perform step S1102 or step S1103 in response to the trigger operation for the multi-application component.

Step S1102, a loaded application list is acquired.

Step S1103, whether there is a cache.

In this embodiment of the present application, the user equipment detects whether there is a cache of the loaded application list, and if there is a cache of the loaded application list, performs step S1106; if there is no cache of the loaded application list, step S1104 is executed.

Step S1104, the local application installation configuration is parsed.

In the embodiment of the application, the user equipment acquires the local application installation configuration corresponding to the application program installed in the user equipment, and analyzes the local application installation configuration.

Step S1105, buffer the analysis result.

In an embodiment of the present application, the user equipment may cache a parsing result for the local application installation configuration.

In step S1106, the call result is returned.

In the embodiment of the application, the user equipment returns the calling result of the loaded application list and displays a loaded application display interface, and program links of m third application programs are displayed in the loaded application display interface.

In step S1107, a recommended application list is acquired.

Step S1108, whether there is a cache.

In this embodiment of the application, the user equipment detects whether there is a cache of the recommended application list, and if there is a cache of the recommended application list, performs step S1112; if there is no cache of the recommended application list, step S1109 is executed.

Step S1109, a data request is initiated.

In this embodiment of the application, the user equipment may initiate the data request, specifically, the data request may be initiated to a server of the second application program, or the data request may be initiated to a cloud server based on a cloud storage technology, and the like, which is not limited herein. Wherein the data request is used for requesting data in the recommended application list.

Step S1110, whether the request is successful.

In the embodiment of the present application, the ue detects whether the data request is successful, and if the data request is successful, executes step S1111; if the request is not successful, step S1112 is executed.

In step S1111, the data check is passed.

In this embodiment of the application, the user equipment may perform data verification on the requested data, detect whether the data verification passes, and if the data verification passes, execute step S1112; if the data verification fails, step S1112 is executed. Step S1112 is invoked based on a different data verification result, and the invocation data returned in step S1112 is different.

Step S1112 returns the call result.

In this embodiment of the application, if it is determined in step S1108 that the cache of the recommended application list exists, or it is determined in step S1111 that the data check is passed, the user equipment may return a call result of the recommended application list, and display a recommended application display interface in which program links of h fourth application programs are displayed. If it is determined in step S1110 that the data request is unsuccessful, or the data check is not passed in step S1111, the user equipment may return a call result of the recommended application list, where the call result is null, and may further display a call failure prompt message.

Further optionally, the embodiment of the application may be used in a scenario in which two or more applications are simultaneously displayed, specifically, the user equipment may determine k non-interference areas in the device display interface based on a main application window of a main application in the application to be displayed in the device display interface, and respectively display associated applications in the k non-interference areas, where k is the number of the associated applications, k is a positive integer, and the associated applications are applications other than the main application in the application to be displayed.

In one or more embodiments, the MVC architecture of the application display may include a presentation layer, a control layer, and a data layer, and MVC refers to a business Model (Model), a user interface (View), and a controller (controller). The presentation layer may include a non-interference area where the second application program is located, and may further include an application list (such as a loaded application list and a recommended application list) included in the second application program. The loaded application components and the recommended application components can be formed in a tag (tab) mode, only an application list corresponding to one of the loaded application components and the recommended application components can be seen at the same time, and the application library jump component can be shared by the loaded application display interface and the recommended application display interface.

The loaded application list may be implemented by a ListView control, for example, the loaded application list is a game list installed on the user equipment, and may be based on ListView: MyGameList controls, and the like. When the user triggers the loaded application component tab, all items in the listview may be presented in a list form, such as a list composed of m third applications, where if the presentation area of the items exceeds the visible area of the loaded application display interface, a scroll bar may be displayed in the loaded application display interface based on the listview control, and all items in the loaded application list may be viewed based on the scroll bar. The item is a program link of a third application program, parameters included in the program link, a display style of each parameter and the like can be determined based on static (XML) configuration, XML can be used as a parameter to be transmitted when the user equipment creates listview of the loaded application display interface, the user equipment can call XML, and the loaded application list is displayed in the loaded application display interface.

The recommended application list can also be realized through a listview control, and the specific logic is the same as the realization logic of the listview control corresponding to the loaded application list. For example, if the recommended application list is a recommended game list of the user equipment, the recommended game list may be obtained by ListView: a RecommendagGameList control, etc.

The application library skip component can be realized through an interface library (richstatic) control and can be used as a skip link, wherein the style of the skip link can be configured, and the user equipment can display an application library interface in response to a trigger operation aiming at the application library skip component.

Further, the control layer may include a plurality of control classes, such as an application list control class, an application window adaptation class, and the like, for example, as shown in table 1 below, table 1 is a composition manner of the application list control class:

TABLE 1

As shown in table 1, the CGeneralFileDownloadManager is an application list control class, and includes an application download management list, where the igenerlfiledownloader includes information related to the downloaded application program, such as a file identifier (keyid) of the downloaded application program, an application package Uniform Resource Locator (URL), an application package name, an application category key, an export path, a downloaded application program name, a downloaded application program icon URL, and the like; cgeneral filedownloading-Manager is used to manage the downloading application being downloaded. The application list control class may further include a plurality of functions, such as a task adding function (AddTask), a download starting function (StartDown load), a download stopping function (StopDownload), an initialization function (Install), a download in function (Is Downloading), an initialization completing function (IsInstallComplete), and a download storing function (SaveDo wnloadList). Note that table 1 is only an exemplary configuration of the application list control class, and the names of the data, the functions, and the like of the application list control class may be other character strings, and specifically, the names of the data, the functions, and the like of the application list control class may be determined based on the information of the second application program.

As shown in table 2 below, table 2 is a composition manner of the application window adaptation class:

TABLE 2

As shown in table 2, the CGameWindowAdapter registers a callback of an observer in a program window area of the first application program, and initializes a handle of the first application program when the first application program runs, for example, if the first application program is a flight video, the handle of the first application program is m _ hwndtengntvideo: HWND, and may initialize the handle of the first application program, data of the first application program, and the like based on an inittengntvideoinfo function. When the second application is opened, a handle of the second application may be initialized, for example, the second application is a game assistant, the handle of the second application is m _ hWndGameWindow: HWND, and the handle, data, and the like of the second application may be initialized based on the InitGameWindowInfo. The user equipment can monitor the first application program based on a handle of the first application program and a handle of the second application program, when a program window area of the first application program changes, an application window adaptation class is called, the current attribute of the program window area of the first application program is obtained, whether a non-interference area where the second application program is located needs to be adjusted or not is detected through an IsNeedUpdateGameWindow function, and if the adjustment is needed, the attribute of the non-interference area where the second application program is located can be adjusted through an automatic non-interference area update (AutoUpdateGameWindow) function. The application window adaptation class may further include a window change notification function (NotifyWindowChange), a window size update function (UpdateWindowSize), a window position update function (UpdateWindowPosition), and the like. Table 2 shows an application window adaptation class generated by taking the first application program as the flight video and the second application program as the game assistant, where names of handles and names of functions included in the application window adaptation class may also be generic names, or names determined by the first application program and the second application program, and the like, where no limitation is imposed on the application window adaptation class, for example, if the first application program is the flight game, the handle of the first application program may also be m _ hwndtengentgame, HWND, and the like.

Further, please refer to fig. 12, fig. 12 is a schematic diagram of an application display device according to an embodiment of the present application. The application display means may be a computer program (including program code, etc.) running in a computer device, for example the application display means may be an application software; the apparatus may be used to perform the corresponding steps in the methods provided by the embodiments of the present application. As shown in fig. 12, the application display apparatus 1200 may be used in the computer device in the embodiment corresponding to fig. 3a, and specifically, the apparatus may include: the device comprises a first area acquisition module 11, a non-interference area determination module 12 and an application display module 13.

A first area obtaining module 11, configured to, in a device display interface on which a first application program is displayed, respond to a trigger operation for a second application program, and obtain a program window area of the first application program in the device display interface;

a non-interference region determining module 12, configured to determine a non-interference region associated with the program window region in the device display interface;

an application display module 13, configured to display the second application program in the non-interference area; the first application program and the second application program which are simultaneously displayed in the device display interface are both provided with display areas which can respond to the trigger operation.

Wherein, the non-interference area determining module 12 includes:

a first idle determining unit 1201, configured to determine an area other than the program window area in the device display interface as a first idle area;

a first association obtaining unit 1202 for determining a non-interference area associated with the program window area in the first free area.

Wherein, the non-interference area determining module 12 includes:

the first idle determining unit 1201 is further configured to determine an area other than the program window area in the device display interface as a first idle area;

the area stitching unit 1203 is configured to stitch the local idle area in the first idle area and the local window area in the program window area, so as to obtain a non-interference area associated with the program window area.

Wherein, the non-interference area determining module 12 includes:

an apparatus region determining unit 1204, configured to determine, if there is no region other than the program window region in the apparatus display interface, a non-interference region associated with the program window region in the program window region of the apparatus display interface; the area of the non-interference region is smaller than the area of the program window region.

Wherein, the non-interference area determining module 12 includes:

an area moving unit 1205 for moving the program window area to a boundary position in the device display interface;

a second idle determining unit 1206, configured to determine, as a second idle area, an area in the device display interface other than the program window area after the position is moved;

a second association obtaining unit 1207, configured to determine, in the second idle area, a non-interference area associated with the program window area.

Wherein, the apparatus 1200 further comprises:

a full screen response module 14, configured to respond to a full screen display operation for the first application program and hide the second application program in the non-interference area;

and a full screen adjusting module 15, configured to adjust a size of a first application window of the first application program to a device interface size of a device display interface, and display the adjusted first application program in the device display interface in a full screen manner.

Wherein, the apparatus 1200 further comprises:

a movement response module 16, configured to respond to a movement operation for the program window area of the first application program, move the first application program to a position indicated by the movement operation in the device display interface for display;

and the track moving module 17 is configured to obtain a moving track of the program window area, and based on the moving track, perform position movement on the second application program in the non-interference area in the device display interface.

Wherein, the apparatus 1200 further comprises:

a closing response module 18, configured to cancel displaying the first application in response to a closing operation for the first application;

and a non-interference adjusting module 19, configured to adjust, in the device display interface, a size of a non-interference area where the second application program is located, and display the second application program in the adjusted non-interference area.

Wherein, the apparatus 1200 further comprises:

a maximum response module 20 for determining the device display interface as a program window area of the first application program in response to the maximizing operation for the first application program;

a default display module 21 for displaying the second application program in a default display area of the program window area of the first application program; the area of the default display region is smaller than the area of the program window region.

Wherein, the apparatus 1200 further comprises:

a loaded display module 22, configured to display a loaded application display interface of the second application in the device display interface; program links of m third application programs are displayed in the loaded application display interface; the loaded application display interface is independently displayed in the program window area; m is a positive integer;

the link triggering module 23 is configured to respond to a triggering operation of a program link for a third application program i in the m third application programs, call the third application program i, and switch and display the second application program in the non-interference area as the third application program i; i is a positive integer, i is less than or equal to m.

Wherein, the apparatus 1200 further comprises:

the recommendation display module 24 is configured to display a recommendation application display interface of the second application program in the device display interface; program links of h fourth application programs are displayed in the recommended application display interface; independently displaying the recommended application display interface in a program window area; h is a positive integer;

the progress display module 25 is configured to respond to a trigger operation of a program link of a fourth application j in the h fourth applications, and display download progress information of the fourth application j in a recommended application display interface; j is a positive integer, j is less than or equal to h;

and the link updating module 26 is configured to cancel the program link of the fourth application j from being displayed in the recommended application display interface and add the program link of the fourth application j to the loaded application display interface when the fourth application j is completely downloaded.

Wherein, the non-interference area determining module 12 includes:

an application size obtaining unit 1208, configured to obtain an equipment interface width and an equipment interface height of an equipment display interface, and obtain a first application width and a first application height of a program window area;

an idle size determining unit 1209, configured to determine an area of the device display interface other than the program window area as a first idle area, determine a difference between the device interface width and the first application width as a first idle area width of the first idle area, and determine a difference between the device interface height and the first application height as a first idle area height of the first idle area;

a minimum size obtaining unit 1210 configured to obtain a minimum display width and a minimum display height of the second application;

a position determining unit 1211, configured to, if the first free area width is greater than or equal to the minimum display width and the first free area height is greater than or equal to the minimum display height, obtain a first application position of the program window area in the device display interface, and determine a non-interference area associated with the program window area based on the first application position;

a local area determining unit 1212, configured to determine, if the first free area width is smaller than the minimum display width, or the first free area height is smaller than the minimum display height, a non-interference area associated with the program window area in a local free area in the first free area and a local window area in the program window area.

Wherein, the non-interference area determining module 12 includes:

an interface dividing unit 1213, configured to divide the device display interface into N interface sub-areas based on the program window area and the first application position; n is a positive integer;

a target area determining unit 1214, configured to determine, if a target interface sub-area exists in the N interface sub-areas, the target interface sub-area as a non-interference area; the width of the sub-region of the target interface sub-region is larger than or equal to the minimum display width, the height of the sub-region is larger than or equal to the minimum display height, and the target interface sub-region is a region without an overlapped part with the program window region;

a position adjustment prompting unit 1215, configured to display a position adjustment prompting message if the target interface sub-region does not exist in the N interface sub-regions, and determine a non-interference region based on the position adjustment prompting message; the location adjustment hint message is used to receive a location adjustment instruction for a program window area of the first application.

The position adjustment prompting unit 1215 includes:

a position adjustment confirming subunit 121a, configured to respond to a trigger operation for the position adjustment prompting message, move the program window area to a boundary position in the device display interface if the trigger operation for the position adjustment prompting message is a confirming operation, determine an area other than the moved program window area in the device display interface as a second idle area, and determine, in the second idle area, a non-interference area associated with the program window area;

a position adjustment canceling subunit 121b, configured to, if the triggering operation for the position adjustment prompting message is a canceling operation for the position adjustment prompting message, determine, in a local idle area of the first idle area and a local window area of the program window area, a non-interference area associated with the program window area; the local free area is the largest continuous area in the first free area.

Wherein the first application program is a video application program; the non-interference region determination module 12 includes:

a buffer acquiring unit 1216, configured to acquire video data displayed in a video application displayed in the device display interface, and acquire a buffer video frame in the video data;

a background identification unit 1217, configured to extract a video data feature in the buffered video frame, identify a background region in the buffered video frame based on the video data feature, and determine a non-interference region associated with the program window region in the background region.

Wherein, the apparatus 1200 further comprises:

an association triggering module 27, configured to respond to a triggering operation for the application association component and display an application association interface;

the relationship generation module 28 is configured to obtain the main application information and the associated application information submitted in the application association interface, and generate an application association relationship according to the main application information and the associated application information;

the first region acquiring module 11 is specifically configured to:

responding to a trigger operation aiming at a second application program in a device display interface on which the first application program is displayed, and acquiring a program window area of the first application program in the device display interface if a target application incidence relation between the first application program and the second application program exists in the application incidence relation; the application association relationship comprises a target application association relationship.

Wherein, the apparatus 1200 further comprises:

an associated application obtaining module 29, configured to obtain, in response to an operation directed to the first application, a second application associated with the first application from the application association relationship;

the component display module 30 is configured to display a program trigger component of the second application program in the device display interface; the program trigger component is used for responding to a trigger operation aiming at the second application program.

Wherein, the apparatus 1200 further comprises:

and the program switching module 31 is configured to, in response to an operation triggering operation for the program triggering component, acquire a historical third application program associated in the second application program, and switch and display the second application program displayed in the non-interference area as the historical third application program.

Wherein, the apparatus 1200 further comprises:

the association display module 32 is configured to respond to a trigger operation for an application management component in the application association interface and display an application association relationship; the application incidence relation comprises a target application incidence relation;

the association canceling module 33 is configured to respond to a canceling operation of the association relationship between the target application, and delete the association relationship between the first application and the second application corresponding to the association relationship between the target application;

and the direct display module 34 is configured to display the second application program in the device display interface if the trigger operation for the second application program is responded.

The application display module 13 is specifically configured to:

displaying a program interface of a second application program in the non-interference area; the program interface displays a functional component of a second application program and interface content of the second application program;

the apparatus 1200 further comprises:

the first function triggering module 35 is configured to respond to a triggering operation for a functional component of a second application program, and execute a first business processing flow corresponding to the functional component of the second application program;

the second function triggering module 36 is configured to, while executing the first business processing flow corresponding to the functional component of the second application, respond to a triggering operation for the functional component of the first application, and execute the second business processing flow corresponding to the functional component of the first application.

The embodiment of the application display device can be operated in user equipment, and can respond to the triggering operation aiming at a second application program in an equipment display interface displaying a first application program to acquire a program window area of the first application program in the equipment display interface; determining, in a device display interface, a non-interference region associated with a program window region; displaying a second application in the non-interference area; the first application program and the second application program which are simultaneously displayed in the device display interface are both provided with display areas which can respond to the trigger operation. Through the process, when the first application program and the second application program are displayed in one page, the second application program can be displayed based on the display condition of the first application program, so that the first application program and the second application program are not completely and independently separated, but a non-interference area associated with a program window area of the first application program is obtained on the basis of the first application program, the use of the first application program is minimally influenced by the second application program, a user can simultaneously use the first application program and the second application program, the display effect of the application programs is improved, the interference among different application programs is reduced, and the use experience of the user simultaneously using the application programs is improved.

Referring to fig. 13, fig. 13 is a schematic structural diagram of a computer device according to an embodiment of the present application. As shown in fig. 13, the computer device in the embodiment of the present application may include: one or more processors 1301, memory 1302, and input-output interface 1303. The processor 1301, the memory 1302, and the input/output interface 1303 are connected by a bus 1304. The memory 1302 is used for storing a computer program, where the computer program includes program instructions, and the input/output interface 1303 is used for receiving data and outputting data, for example, for data interaction between a host and a computer device, or for data interaction between virtual machines in the host; processor 1301 is configured to execute program instructions stored by memory 1302.

The processor 1301 may perform the following operations:

in a device display interface on which a first application program is displayed, responding to a trigger operation aiming at a second application program, and acquiring a program window area of the first application program in the device display interface;

determining, in a device display interface, a non-interference region associated with a program window region;

displaying a second application in the non-interference area; the first application program and the second application program which are simultaneously displayed in the device display interface are both provided with display areas which can respond to the trigger operation.

In some possible implementations, the processor 1301 may be a Central Processing Unit (CPU), or other general purpose processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic, discrete hardware components, or the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The memory 1302 may include both read-only memory and random-access memory, and provides instructions and data to the processor 1301 and the input/output interface 1303. A portion of the memory 1302 may also include non-volatile random access memory. For example, memory 1302 may also store information of the device type.

In a specific implementation, the computer device may execute the implementation manners provided in the steps in fig. 3a through the built-in functional modules, which may specifically refer to the implementation manners provided in the steps in fig. 3a, and are not described herein again.

The embodiment of the present application provides a computer device, including: the system comprises a processor, an input/output interface and a memory, wherein the processor acquires a computer program in the memory, executes each step of the method shown in the figure 3a and performs application display operation. The method and the device for acquiring the program window area of the first application program in the device display interface are realized by responding to the trigger operation aiming at the second application program in the device display interface on which the first application program is displayed; determining, in a device display interface, a non-interference region associated with a program window region; displaying a second application in the non-interference area; the first application program and the second application program which are simultaneously displayed in the device display interface are both provided with display areas which can respond to the trigger operation. Through the process, when the first application program and the second application program are displayed in one page, the second application program can be displayed based on the display condition of the first application program, so that the first application program and the second application program are not completely and independently separated, but a non-interference area associated with a program window area of the first application program is obtained on the basis of the first application program, the use of the first application program is minimally influenced by the second application program, a user can simultaneously use the first application program and the second application program, the display effect of the application programs is improved, the interference among different application programs is reduced, and the use experience of the user simultaneously using the application programs is improved.

An embodiment of the present application further provides a computer-readable storage medium, where a computer program is stored, where the computer program is suitable for being loaded by the processor and executing the application display method provided in each step in fig. 3a, and for details, reference may be made to implementation manners provided in each step in fig. 3a, and details are not repeated here. In addition, the beneficial effects of the same method are not described in detail. For technical details not disclosed in embodiments of the computer-readable storage medium referred to in the present application, reference is made to the description of embodiments of the method of the present application. By way of example, a computer program can be deployed to be executed on one computer device or on multiple computer devices at one site or distributed across multiple sites and interconnected by a communication network.

The computer readable storage medium may be the application display apparatus provided in any of the foregoing embodiments or an internal storage unit of the computer device, such as a hard disk or a memory of the computer device. The computer readable storage medium may also be an external storage device of the computer device, such as a plug-in hard disk, a Smart Memory Card (SMC), a Secure Digital (SD) card, a flash card (flash card), and the like, provided on the computer device. Further, the computer-readable storage medium may also include both an internal storage unit and an external storage device of the computer device. The computer-readable storage medium is used for storing the computer program and other programs and data required by the computer device. The computer readable storage medium may also be used to temporarily store data that has been output or is to be output.

Embodiments of the present application also provide a computer program product or computer program comprising computer instructions stored in a computer-readable storage medium. The processor of the computer device reads the computer instructions from the computer-readable storage medium, and the processor executes the computer instructions, so that the computer device executes the method provided in the various alternatives in fig. 3a, which realizes that when the first application program and the second application program are both displayed in one page, the second application program can be displayed based on the display condition of the first application program, so that the first application program and the second application program are not completely separated independently, but a non-interference area associated with a program window area of the first application program is obtained on the basis of the first application program, so that the second application program minimally affects the use of the first application program, so that a user can use the first application program and the second application program simultaneously, and the display effect of multiple application programs is improved, the interference among different application programs is reduced, and the use experience of a user using a plurality of application programs simultaneously is improved.

The terms "first," "second," and the like in the description and in the claims and drawings of the embodiments of the present application are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "comprises" and any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, apparatus, product, or apparatus that comprises a list of steps or elements is not limited to the listed steps or modules, but may alternatively include other steps or modules not listed or inherent to such process, method, apparatus, product, or apparatus.

Those of ordinary skill in the art will appreciate that the elements and algorithm steps of the examples described in connection with the embodiments disclosed herein may be embodied in electronic hardware, computer software, or combinations of both, and that the components and steps of the examples have been described in a functional general in the specification for the purpose of clearly illustrating the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The method and the related apparatus provided by the embodiments of the present application are described with reference to the flowchart and/or the structural diagram of the method provided by the embodiments of the present application, and each flow and/or block of the flowchart and/or the structural diagram of the method, and the combination of the flow and/or block in the flowchart and/or the block diagram can be specifically implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable application display device to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable application display device, create means for implementing the functions specified in the flowchart flow or flows and/or block or blocks of the block diagram. These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable application display device to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block or blocks of the block diagram. These computer program instructions may also be loaded onto a computer or other programmable application display device to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present application and is not to be construed as limiting the scope of the present application, so that the present application is not limited thereto, and all equivalent variations and modifications can be made to the present application.

Claims (15)

1. An application display method, comprising:

in a device display interface on which a first application program is displayed, responding to a trigger operation aiming at a second application program, and acquiring a program window area of the first application program in the device display interface;

determining, in the device display interface, a non-interference region associated with the program window region;

displaying the second application in the non-interference region; and the first application program and the second application program which are simultaneously displayed in the equipment display interface are both provided with display areas capable of responding to trigger operation.

2. The method of claim 1, wherein said determining, in the device display interface, a non-interference region associated with the program window region comprises:

determining an area of the device display interface except the program window area as a first idle area, and determining a non-interference area associated with the program window area in the first idle area; alternatively, the first and second electrodes may be,

determining a region except the program window region in the device display interface as a first idle region, and splicing a local idle region in the first idle region and the local window region in the program window region to obtain a non-interference region associated with the program window region; alternatively, the first and second electrodes may be,

if the device display interface does not have a region except the program window region, determining a non-interference region associated with the program window region in the program window region of the device display interface; the area of the non-interference region is smaller than the area of the program window region; alternatively, the first and second electrodes may be,

in the device display interface, moving the program window area to a boundary position in the device display interface, determining an area except for the program window area after the position is moved in the device display interface as a second idle area, and determining a non-interference area associated with the program window area in the second idle area.

3. The method of claim 1, wherein the method further comprises:

hiding the second application program in the non-interference area in response to a full screen display operation for the first application program;

and adjusting the size of the first application window of the first application program to the size of the equipment interface of the equipment display interface, and displaying the adjusted first application program in the equipment display interface in a full screen mode.

4. The method of claim 1, wherein the method further comprises:

responding to a moving operation aiming at a program window area of the first application program, and moving the first application program to a position indicated by the moving operation in the device display interface for displaying;

and acquiring a moving track of the program window area, and performing position movement on the second application program in the non-interference area in the equipment display interface based on the moving track.

5. The method of claim 1, wherein the method further comprises:

determining the device display interface as the program window area of the first application in response to a maximize operation for the first application;

displaying the second application in a default display area of the program window area of the first application; the area of the default display region is smaller than the area of the program window region.

6. The method of claim 1, wherein the method further comprises:

displaying a loaded application display interface of the second application in the device display interface; program links of m third application programs are displayed in the loaded application display interface; the loaded application display interface is independently displayed in the program window area; m is a positive integer;

responding to a trigger operation of a program link aiming at a third application program i in the m third application programs, calling the third application program i, and switching and displaying the second application program in the non-interference area as the third application program i; i is a positive integer, i is less than or equal to m.

7. The method of claim 1, wherein the method further comprises:

displaying a recommended application display interface of the second application program in the device display interface; program links of h fourth application programs are displayed in the recommended application display interface; the recommended application display interface is independently displayed in the program window area; h is a positive integer;

responding to a trigger operation of a program link of a fourth application program j in the h fourth application programs, and displaying the downloading progress information of the fourth application program j in the recommended application display interface; j is a positive integer, j is less than or equal to h;

and when the fourth application program j is downloaded, canceling the program link for displaying the fourth application program j in the recommended application display interface, and adding the program link for the fourth application program j to the loaded application display interface.

8. The method of claim 1, wherein said determining, in the device display interface, a non-interference region associated with the program window region comprises:

acquiring the equipment interface width and the equipment interface height of the equipment display interface, and acquiring the first application width and the first application height of the program window area;

determining an area except the program window area in the device display interface as a first idle area, determining a difference value between the device interface width and the first application width as a first idle area width of the first idle area, and determining a difference value between the device interface height and the first application height as a first idle area height of the first idle area;

acquiring the minimum display width and the minimum display height of the second application program;

if the first idle area width is larger than or equal to the minimum display width and the first idle area height is larger than or equal to the minimum display height, acquiring a first application position of the program window area in the device display interface, and determining a non-interference area associated with the program window area based on the first application position;

if the first free area width is smaller than the minimum display width or the first free area height is smaller than the minimum display height, determining a non-interference area associated with the program window area in a local free area in the first free area and a local window area in the program window area.

9. The method of claim 1, wherein the first application is a video application; said determining, in the device display interface, a non-interference region associated with the program window region comprises:

acquiring video data displayed in the video application program displayed in the equipment display interface, and acquiring a cache video frame in the video data;

extracting video data features in the cached video frame, identifying a background region in the cached video frame based on the video data features, and determining a non-interference region associated with the program window region in the background region.

10. The method of claim 1, wherein the method further comprises:

responding to the trigger operation aiming at the application association component, and displaying an application association interface;

acquiring main application information and associated application information submitted in the application associated interface, and generating an application association relation according to the main application information and the associated application information;

in the device display interface on which the first application program is displayed, responding to a trigger operation for the second application program, and acquiring a program window area of the first application program in the device display interface, the method includes:

responding to a trigger operation aiming at a second application program in a device display interface displayed with a first application program, and if a target application incidence relation between the first application program and the second application program exists in the application incidence relation, acquiring a program window area of the first application program in the device display interface.

11. The method of claim 10, wherein the method further comprises:

responding to the trigger operation aiming at the application management component in the application association interface, and displaying the application association relation; the application incidence relation comprises the target application incidence relation;

responding to the canceling operation of the target application incidence relation, and deleting the incidence relation between the first application program and the second application program corresponding to the target application incidence relation;

and if the trigger operation aiming at the second application program is responded, displaying the second application program in the equipment display interface.

12. The method of claim 1, wherein said displaying a second application in the non-interference region comprises:

displaying a program interface of a second application program in the non-interference area; functional components of the second application program and interface contents of the second application program are displayed in the program interface;

the method further comprises the following steps:

responding to the trigger operation aiming at the functional component of the second application program, and executing a first business processing flow corresponding to the functional component of the second application program;

and responding to the trigger operation aiming at the functional component of the first application program while executing the first business processing flow corresponding to the functional component of the second application program, and executing the second business processing flow corresponding to the functional component of the first application program.

13. An application display apparatus, characterized in that the apparatus comprises:

the first area acquisition module is used for responding to the trigger operation aiming at the second application program in the equipment display interface on which the first application program is displayed and acquiring a program window area of the first application program in the equipment display interface;

a non-interference region determination module for determining a non-interference region associated with the program window region in the device display interface;

the application display module is used for displaying the second application program in the non-interference area; the first application program and the second application program which are simultaneously displayed in the device display interface are both provided with display areas which can respond to the trigger operation.

14. A computer device comprising a processor, a memory, an input output interface;

the processor is connected to the memory and the input/output interface, respectively, wherein the input/output interface is configured to receive data and output data, the memory is configured to store a computer program, and the processor is configured to call the computer program to enable the computer device to execute the method according to any one of claims 1 to 12.

15. A computer-readable storage medium, characterized in that the computer-readable storage medium stores a computer program adapted to be loaded and executed by a processor to cause a computer device having the processor to perform the method of any of claims 1-12.

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