CN115129187B

CN115129187B - House source area viewing method and device, electronic equipment and storage medium

Info

Publication number: CN115129187B
Application number: CN202210609384.1A
Authority: CN
Inventors: 王海君; 赵冰; 沈云峰; 朱传波
Original assignee: Ruiting Network Technology Shanghai Co ltd; Beijing Chengshi Wanglin Information Technology Co Ltd
Current assignee: Ruiting Network Technology Shanghai Co ltd; Beijing Chengshi Wanglin Information Technology Co Ltd
Priority date: 2022-05-31
Filing date: 2022-05-31
Publication date: 2024-02-06
Anticipated expiration: 2042-05-31
Also published as: CN115129187A

Abstract

The application provides a house source area viewing method, a house source area viewing device, electronic equipment and a storage medium, wherein the house source area viewing method comprises the following steps: when receiving a tape-look request of a target house source, displaying a tape-look electrical interface comprising a 3D preview image of the target house source; establishing an audio channel with the second terminal in response to the first input appearing to be an electrical interface; before receiving the first input or based on the first input, loading a first panoramic banding resource of a first room in the target room source that matches the 3D preview image; and rendering a 3D panoramic picture corresponding to the first room based on the first panoramic band view resource, and entering the panoramic band view after the audio channel is successfully established and the 3D panoramic picture corresponding to the first room is displayed. The utility model discloses a look at the electricity interface through the display area can be convenient for the house source broker in time know about to take to see the house source, through looking at the electricity interface by the area and switch to 3D panorama picture, can realize the smoothness nature that the picture links up, the processing method of preloaded resource can accelerate the processing progress, improves and takes to see efficiency.

Description

House source area viewing method and device, electronic equipment and storage medium

Technical Field

The application relates to the technical field of VR virtual reality, in particular to a house source area watching method, a house source area watching device, electronic equipment and a storage medium.

Background

At present, when a Virtual Reality (VR) house source is watched, after receiving an incoming call notification, a house source broker needs to establish a voice connection with a user in sequence, load a house source VR material at a device end, and then enter a watched interface, and the whole process is executed in series, so that the time consumption is long, and the house source broker needs to know the house source information needing to be watched after the process is completed.

Referring to fig. 1, a conventional house-keeping view flow chart is shown, after receiving an incoming call through an application program, displaying a page to be answered, answering the incoming call according to the operation of a house-keeping broker, establishing a voice call with a user, then downloading a house-keeping 3D material to a local place, and after rendering a complete function, the house-keeping broker performs house-keeping view.

Therefore, the existing house source zone viewing flow has the problems that the time from the initiation of zone viewing request to the initiation of zone viewing is long, the user experience is affected, and the house source information cannot be timely acquired by a house source broker.

Disclosure of Invention

The embodiment of the application provides a house source zone viewing method, a device, electronic equipment and a storage medium, which are used for solving the problems that the time spent from initiating a zone viewing request to starting the zone viewing is long, the user experience is affected, and a house source broker cannot acquire house source information in time in the existing house source zone viewing process.

In a first aspect, an embodiment of the present application provides a method for viewing a room source belt, which is applied to a first terminal, and includes:

displaying a tape-look electrical interface comprising a 3D preview image of a target room source in case of receiving a tape-look request of the target room source, the tape-look request being sent by a second terminal through a target application;

establishing an audio channel with the second terminal in response to a first input appearing to the belt as an electrical interface;

before receiving the first input or based on the first input, loading a first panoramic band view resource corresponding to a first room matched with the 3D preview image in the target room source;

and rendering a 3D panoramic picture corresponding to the first room based on the first panoramic band viewing resource to display the 3D panoramic picture corresponding to the first room, wherein after the audio channel is successfully established and the 3D panoramic picture corresponding to the first room is displayed, entering the panoramic band for viewing.

In a second aspect, an embodiment of the present application provides a device for viewing a room source, which is applied to a first terminal, and includes:

the display module is used for displaying a live view electric interface comprising a 3D preview image of a target house source under the condition that a live view request of the target house source is received, wherein the live view request is sent by a second terminal through a target application program;

A setup module for setting up an audio channel with the second terminal in response to a first input of an electrical interface appearing at the ribbon;

the first loading module is used for loading a first panoramic strip view resource corresponding to a first room matched with the 3D preview image in the target room source before receiving the first input or based on the first input;

the rendering module is used for rendering the 3D panoramic picture corresponding to the first room based on the first panoramic band view resource so as to display the 3D panoramic picture corresponding to the first room, wherein after the audio channel is successfully established and the 3D panoramic picture corresponding to the first room is displayed, the user enters the panoramic band view.

In a third aspect, an embodiment of the present application provides an electronic device, including a processor, a memory, and a computer program stored on the memory and executable on the processor, where the computer program is executed by the processor to implement the steps of the house-keeping method according to the first aspect.

In a fourth aspect, embodiments of the present application provide a computer readable storage medium having a computer program stored thereon, the computer program when executed by a processor implementing the steps of the house-keeping method according to the first aspect.

According to the technical scheme, under the condition that the tape-looking request of the target house source is received, the tape-looking electric interface comprising the 3D preview image of the target house source is displayed, so that a house source broker can be guaranteed to timely acquire relevant information of the target house source to be watched based on the tape-looking electric interface, the house source broker can conveniently conduct tape-looking preparation in time, and tape-looking efficiency and quality are improved; when a first input in the band-view electric interface is received, an audio channel of the second terminal is established, a first panoramic band-view resource corresponding to a first room matched with the 3D preview image in the target room source is loaded before the first input is received or based on the first input, a 3D panoramic picture corresponding to the first room is rendered based on the first panoramic band-view resource, smoothness of picture connection can be achieved when the band-view electric interface is transited to the 3D panoramic picture corresponding to the target room source, and the processing mode of loading the panoramic band-view resource in parallel or preloading the panoramic band-view resource before the first input is received can accelerate the processing process and improve the band-view efficiency when the channel is established.

Drawings

FIG. 1 shows a prior art room source zone view flow chart;

FIG. 2 is a schematic diagram of a house source zone view method according to an embodiment of the present application;

FIG. 3 is a schematic diagram of a generic incoming call interface and 3D preview image based generated tape-look electrical interface provided by an embodiment of the present application;

fig. 4 is a schematic diagram of switching from a visual electrical interface to a 3D panoramic view according to an embodiment of the present application;

fig. 5 is a schematic diagram of displaying object identifiers of additional objects on a 3D panorama screen according to an embodiment of the present application;

FIG. 6 is a flowchart illustrating an example of loading resources and generating pages according to an embodiment of the present application;

FIG. 7 is a schematic flow chart of resource preloading according to an embodiment of the present application;

FIG. 8 is a schematic flow chart of an example of parallel processing and progressive loading of panoramic content according to an embodiment of the present application;

FIG. 9 shows a schematic view of a room source belt viewing device provided in an embodiment of the present application;

fig. 10 shows a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

It should be appreciated that reference throughout this specification to "one embodiment" or "an embodiment" means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment of the present application. Thus, the appearances of the phrases "in one embodiment" or "in an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

In various embodiments of the present application, it should be understood that the sequence numbers of the following processes do not mean the order of execution, and the order of execution of the processes should be determined by the functions and internal logic thereof, and should not constitute any limitation on the implementation process of the embodiments of the present application.

The embodiment of the application provides a house source zone view method, which is applied to a first terminal, and is shown in fig. 2, and the method comprises the following steps:

step 201, displaying a live view interface comprising a 3D preview image of a target house source when a live view request of the target house source is received, wherein the live view request is sent by a second terminal through a target application program.

The house source zone watching method is applied to a first terminal corresponding to a house source broker, the first terminal is provided with a target application program supporting a house source zone watching function, the target application program can be APP, an applet or a webpage and the like, the second terminal is a terminal corresponding to a house watching user, the second terminal is provided with the target application program, and the first terminal is communicated with the second terminal based on the target application program. The target application program of the second terminal is a user end application program, and the target application program of the first terminal can be a house source broker end application program.

And in the process of VR house watching based on the target application program of the second terminal, the second terminal receives the request of watching the tape of the target house source initiated by the house watching user, and sends the request of watching the tape to the first terminal through the target application program. The request for watching with the second terminal may be an operation received by the user for the control for watching with the second terminal when browsing a target house source proxied by the house source broker. When the house watching user initiates a request of watching the target house source, the second terminal displays a 3D panoramic picture of the target house source.

Under the condition that a tape-look request sent by a second terminal aiming at a target house source is received, the first terminal responds to the tape-look request, a tape-look electric interface is generated and displayed, wherein the tape-look electric interface comprises a common electric interface and a 3D preview image of the target house source, namely, the tape-look electric interface is a superposition of the common electric interface and the 3D preview image of the target house source, the common electric interface and the 3D preview image of the target house source are in a lamination display mode, specifically, the common electric interface is superposed on the 3D preview image of the target house source, the common electric interface and the 3D preview image of the target house source are in a lamination display mode, and the 3D preview image of the target house source is a background image of the common electric interface. For a common incoming call interface, the method can comprise an answer control, a hang-up control, an incoming call head portrait and related characters.

By displaying the live view electric interface comprising the 3D preview image of the target house source and taking the 3D preview image of the target house source as the background image, the house source broker can be guaranteed to timely acquire relevant information of the target house source to be seen based on the live view electric interface, so that the house source broker can timely conduct live view preparation, and the live view efficiency and quality are improved.

Step 202, in response to a first input of an electrical interface appearing to the belt, establishing an audio channel with the second terminal.

After the display of the area-looking electrical interface, under the condition that a first input of a house source broker in the area-looking electrical interface is received, an audio channel of the first terminal and the second terminal is established in response to the first input, and answering of the area-looking incoming call is achieved through establishing the audio channel. The first input of the house source broker in the area-looking electric interface can be click input and sliding input of a receiving control in the area-looking electric interface, or can be specific gestures and specific actions in the area-looking electric interface, and the receiving of the area-looking incoming call can be triggered through the specific gestures and the specific actions.

Step 203, before receiving the first input or based on the first input, loading a first panoramic band view resource corresponding to a first room matched with the 3D preview image in the target room source.

The first panoramic band view resource corresponding to the first room in the target room source may be loaded before the first input is received, or the first panoramic band view resource corresponding to the first room in the target room source may be loaded while the audio channel is established in response to the first input after the first input is received. The first room is a room matched with the 3D preview image included in the band-view electric interface, and the smoothness of picture connection can be realized when the band-view electric interface transits to the 3D panoramic picture corresponding to the target room source by loading the first panoramic band-view resource corresponding to the first room.

The first panoramic band view resource corresponding to the first room is loaded, and the downloaded or pre-cached first panoramic band view resource is loaded to the memory, so that the picture rendering can be quickly performed and the band view mode can be entered based on the loaded first panoramic band view resource.

And 204, rendering a 3D panoramic picture corresponding to the first room based on the first panoramic band view resource to display the 3D panoramic picture corresponding to the first room, wherein after the audio channel is successfully established and the 3D panoramic picture corresponding to the first room is displayed, entering panoramic band view.

And after loading of the first panoramic band view resources corresponding to the first room is completed, rendering the 3D panoramic picture corresponding to the first room based on the first panoramic band view resources so as to display the 3D panoramic picture corresponding to the first room. After the audio channel is successfully established and the 3D panoramic picture corresponding to the first room is displayed, the user enters the panoramic zone to see, and after the user enters the panoramic zone to see, the house source broker can first conduct zone-view explanation on the first room of the target house source, so that the user looking at the house can know the detail information of the first room based on the zone-view explanation of the house source broker.

According to the implementation process, under the condition that the tape-looking request of the target house source is received, the tape-looking electric interface comprising the 3D preview image of the target house source is displayed, so that a house source broker can be guaranteed to timely acquire relevant information of the target house source to be watched based on the tape-looking electric interface, the house source broker can conveniently conduct tape-looking preparation in time, and tape-looking efficiency and quality are improved; when a first input in the band-view electric interface is received, an audio channel with a second terminal is established, a first panoramic band-view resource corresponding to a first room matched with a 3D preview image in a target room source is loaded before the first input is received or based on the first input, a 3D panoramic picture corresponding to the first room is rendered based on the first panoramic band-view resource, smoothness of picture connection can be achieved when the band-view electric interface is transited to the 3D panoramic picture corresponding to the target room source, and the processing mode of loading the panoramic band-view resource in parallel or preloading the panoramic band-view resource before the first input is received when the channel is established can accelerate the processing process, shorten the preparation time for entering panoramic band-view and improve the room source band-view efficiency.

In an embodiment of the present application, the method may further include: loading a second panoramic band view resource corresponding to the target room source, wherein the second panoramic band view resource is a panoramic band view resource corresponding to the target room source and different from other rooms corresponding to the first room.

After entering the panoramic band, the house source broker carries out band-looking on the first room, and in the process that the house source broker carries out band-looking on the first room, the second panoramic band-looking resources corresponding to the target house source are loaded, or after loading the first panoramic band-looking resources, the second panoramic band-looking resources corresponding to the target house source are loaded, namely, the second panoramic band-looking resources can be loaded before entering the panoramic band-looking, wherein the second panoramic band-looking resources are panoramic band-looking resources corresponding to other rooms different from the first room in the target house source. By loading the first panoramic band viewing resources corresponding to the first room and then loading the second panoramic band viewing resources, progressive loading of the panoramic band viewing resources can be realized, rapid entering of panoramic band viewing is guaranteed, and band viewing efficiency is improved.

According to the implementation process, the first panoramic band viewing resources corresponding to the first room are loaded firstly, and then the second panoramic band viewing resources are loaded, so that progressive loading of the band viewing resources can be achieved, the problem of time consuming resource loading is solved, the band viewing efficiency can be improved by rapidly entering the panoramic band viewing, the situation that an electric interface is firstly transited to a 3D panoramic picture corresponding to the first room in a target room source can be ensured, and the smoothness of picture connection is achieved.

The following description is directed to a process of looking at a first room by a house source broker, and when looking into a panoramic band, looking at the first room, the method includes:

responding to the visual angle switching input in the 3D panoramic picture corresponding to the first room, updating the 3D panoramic picture displayed by the graphical user interface, and synchronizing a first control instruction corresponding to the visual angle switching input to the second terminal;

after entering a panoramic view, the first terminal sends a picture synchronization instruction to the second terminal so as to control the second terminal to be the same as a 3D panoramic picture displayed by the first terminal, and the first control instruction is used for indicating the second terminal to synchronously update the 3D panoramic picture based on the visual angle switching input.

After entering the panoramic band, the first terminal can send a picture synchronization instruction to the second terminal, wherein the picture synchronization instruction carries picture information currently displayed by the first terminal, for example, the picture synchronization instruction at least comprises a display view angle and display content of a currently displayed 3D panoramic picture. And the second terminal updates the display picture based on the received picture synchronization instruction so that the second terminal is the same as the 3D panoramic picture displayed by the first terminal. For example, after entering a panoramic zone for viewing, the first terminal displays a 3D panoramic picture corresponding to a living room space of a target room source, and the second terminal displays a 3D panoramic picture corresponding to a bedroom space of the target room source when initiating a zone viewing request, and the second terminal updates the picture based on a picture synchronization instruction sent by the first terminal, displays the 3D panoramic picture corresponding to the living room space, and has the same corresponding display view angle as the first terminal, so as to ensure the consistency of display contents of the first terminal and the second terminal.

In the process of carrying out the zone view on the first room, when receiving the visual angle switching input of a house source broker in a 3D panoramic picture corresponding to the first room, the first terminal responds to the visual angle switching input to update the 3D panoramic picture displayed by a graphical user interface of the first terminal and synchronously inputs a corresponding first control instruction to a second terminal, the first control instruction is used for indicating the second terminal to synchronously update the 3D panoramic picture based on the visual angle switching input, after receiving the first control instruction, the second terminal adjusts the display visual angle based on the first control instruction to ensure the consistency of display contents of the second terminal and the first terminal so as to realize display linkage of the second terminal and the first terminal based on the operation of the house source broker in the first terminal and the update of the display contents in the second terminal.

It should be noted that, at least one first roaming point associated with the first room may be displayed on the 3D panorama screen corresponding to the first room, different first roaming points correspond to different observation areas of the first room, and in response to an input to a certain first roaming point, the viewing angle may be switched. The switching of the view angle of the 3D panorama corresponding to the first room may also be implemented in any other manner, for example, a view angle switching control may also be displayed on the 3D panorama corresponding to the first room, and based on the input of the view angle switching control by the user, the view angle is switched. The angle of view may also be switched based on a sliding input or a rotating input by the user on the 3D panorama screen corresponding to the first room.

The first terminal sends the picture synchronization instruction and the first control instruction to the second terminal based on the target application program, and specifically may be that the first terminal sends the picture synchronization instruction and the first control instruction based on a signaling channel supported by the target application program.

According to the implementation process, after the first terminal enters the panoramic zone for watching, the second terminal sends the picture synchronization instruction to the second terminal, so that consistency of display contents of the second terminal and the first terminal can be guaranteed, and further, a house source broker can be guaranteed to effectively watch a house source zone and guarantee a zone watching experience of a house watching user; by responding to the visual angle switching input, updating the 3D panoramic picture and synchronizing the first control instruction to the second terminal, the display linkage between the second terminal and the first terminal can be realized based on the operation of the house source broker in the first terminal and the update of the display content in the first terminal and the second terminal.

In an embodiment of the present application, displaying a plurality of second roaming points while displaying a 3D panorama image corresponding to the first room, the method may further include: responding to a second input of a target roaming point in the plurality of second roaming points, rendering a 3D panoramic picture corresponding to a target room based on the second panoramic band viewing resource, and synchronizing a second control instruction corresponding to the second input to the second terminal; the target room is a room matched with the target roaming point in the target room source, and the second control instruction is used for instructing the second terminal to display a 3D panoramic picture corresponding to the target room.

The roaming points may be observation points when the user browses the panoramic picture of the space in the panoramic roaming mode, on one observation point, the user may look around at a certain angle (for example, 360 degrees, 180 degrees, etc.), the roaming points may be determined when the panoramic picture of the space is acquired, or may be determined in any other available machine in any available mode, each roaming point may be a central position of a corresponding space, if the area of the space is larger, the roaming points may also be set according to a certain proportion, for example, the space is equally divided, and then the central position of the equally divided area is taken as the roaming point.

And when a plurality of second roaming points are displayed while the 3D panoramic picture corresponding to the first room is displayed, the plurality of second roaming points are displayed in a laminated mode with the 3D panoramic picture corresponding to the first room, the 3D panoramic picture corresponding to the first room is arranged at the bottom layer, and the plurality of second roaming points are overlapped on the 3D panoramic picture corresponding to the first room with preset transparency, wherein the display mode of the first roaming points is the same as that of the second roaming points. The second roaming point corresponds to each room in the target room source, the first roaming point corresponds to different areas of the first room, and the second roaming point corresponding to the first room and a certain first roaming point corresponding to the first room may be the same roaming point.

And when receiving a second input of the house source broker to the target roaming point, responding to the second input, rendering a 3D panoramic picture corresponding to a target room matched with the target roaming point in the target house source based on the second panoramic band viewing resource, and synchronizing a second control instruction corresponding to the second input to a second terminal. The plurality of second roaming points may include roaming points corresponding to the first room and roaming points corresponding to at least one other room, the target roaming point is different from the second roaming points corresponding to the first room, and is a second roaming point selected by the source broker, that is, the second input is a selection input of the source broker in the at least one second roaming point, and the at least one second roaming point does not include the second roaming point corresponding to the first room. For example, the plurality of second roaming points include a second roaming point 1 corresponding to a living room (first room), a second roaming point 2 corresponding to a bedroom, a second roaming point 3 corresponding to a kitchen, and a second roaming point 4 corresponding to a bathroom, and based on a second input of a house source broker to the second roaming point 2, a 3D panorama image corresponding to the bedroom is rendered, and a second control instruction is sent to the second terminal, so that the second terminal switches from displaying the 3D panorama image corresponding to the living room to displaying the 3D panorama image corresponding to the bedroom based on the second control instruction. The plurality of second roaming points are displayed on the graphical user interfaces of the first terminal and the second terminal, and the first terminal and the second terminal switch the display and switch the second roaming point in the selected state from the second roaming point 1 to the second roaming point 2.

After the house source broker selects the target roaming point, the first terminal directly renders the 3D panoramic picture corresponding to the target room based on the loaded second panoramic band viewing resource, and the rapid switching of the 3D panoramic picture can be realized. The second control instruction corresponding to the second input is used for indicating the second terminal to display the 3D panoramic picture corresponding to the target room, so that the second terminal performs display switching of the 3D panoramic picture based on the received second control instruction, and the first terminal and the second terminal can be controlled to perform display content switching based on roaming point switching in the first terminal, so that display linkage of the second terminal and the first terminal is realized.

The following describes the above display switching process in detail, where responding to a second input to a target roaming point in the plurality of second roaming points, rendering a 3D panoramic image corresponding to a target room based on the second panoramic band viewing resource, and synchronizing a second control instruction corresponding to the second input to the second terminal includes:

responding to the second input, rendering and displaying a 3D panoramic picture corresponding to the target room, so as to switch to the target roaming point and display the 3D panoramic picture corresponding to the target room;

And transmitting a second control instruction corresponding to the second input to the second terminal through the target application program while rendering and displaying the 3D panoramic picture corresponding to the target room, so that the second terminal performs display switching based on the roaming view angle of the first terminal according to the second control instruction.

After receiving the second input, rendering and displaying the 3D panoramic picture corresponding to the target room in response to the second input so as to switch the display of the 3D panoramic picture, and switching to a default roaming view angle corresponding to the target roaming point and displaying the 3D panoramic picture corresponding to the target room when the display is switched. If the 3D panoramic picture corresponding to the main lying is rendered and displayed in response to the second input, and the default roaming view angle is the roaming view angle corresponding to the main lying gate.

And when the 3D panoramic picture corresponding to the target room is rendered and displayed, the first terminal transmits a second control instruction corresponding to the second input to the second terminal through the target application program, and the second terminal acquires the updated roaming view angle corresponding to the first terminal based on the second control instruction so as to perform display switching, so that display linkage of the second terminal and the first terminal is realized.

According to the implementation process, based on the second input of the house source broker to the target roaming point, the display of the 3D panoramic picture corresponding to the target room is triggered, the second control instruction is sent to the second terminal, the second terminal is controlled to update the 3D panoramic picture, the display switching of the two terminals can be controlled based on the operation in the first terminal, and the linkage of the display switching of the first terminal and the second terminal is realized.

The following describes a process for displaying a band-to-view electrical interface in the present application, where, when a band-to-view request of a target room source is received, a band-to-view electrical interface including a 3D preview image of the target room source is displayed, including: according to the tape-look request, rendering the 3D preview image in a background area of an incoming call interface of the target application program, generating and displaying the tape-look electrical interface; the first terminal loads the downloaded or pre-cached preview resources corresponding to the 3D preview image, and then renders the 3D preview image on the incoming call interface; and when downloading the preview resource corresponding to the 3D preview image, downloading based on the tape-look request.

The method comprises the steps that a first terminal renders a 3D preview image corresponding to a target room source in a background area of an incoming call interface of a target application program according to a received request for watching the target room source, generates a live view electric interface and displays the live view electric interface, wherein the background area of the incoming call interface of the target application program can be a default background image, and the 3D preview image can be used as the background image by rendering the 3D preview image in the background area. Referring to fig. 3, to generate a specific illustration of the band-to-see electrical interface, the left side of fig. 3 is a 3D preview image, the middle is a generic call interface, and the right side is a band-to-see electrical interface generated based on background rendering.

For the first terminal, before rendering the 3D preview image, the preview resources corresponding to the 3D preview image need to be loaded into the memory, then image rendering is performed, and when loading the preview resources corresponding to the 3D preview image, the preview resources corresponding to the 3D preview image may be downloaded or the preview resources corresponding to the pre-cached 3D preview image may be acquired.

When receiving the request for watching the belt, the first terminal needs to search whether the preview resources corresponding to the 3D preview image of the target house source are cached locally, if yes, the preview resources corresponding to the 3D preview image are loaded into the memory, if not, a downloading request needs to be sent to the background server, the preview resources corresponding to the 3D preview image are downloaded, cached locally, and then the loading is carried out. That is, when it is necessary to download the preview resource corresponding to the 3D preview image, the download is performed based on the received tape-look request.

According to the implementation process, when the tape-look request for the target house source is received, whether the preview resource corresponding to the 3D preview image of the target house source is locally cached is detected, if yes, the preview resource is directly loaded, if no, the preview resource is downloaded and then loaded after being cached, then the 3D preview image is rendered in the background area of the incoming call interface based on the loaded preview resource, the 3D preview image of the target house source can be used as the background image, the house source broker is ensured to timely acquire the related information of the target house source which needs to be looked at based on the tape-look electric interface, so that the house source broker can timely prepare the tape-look, and the tape-look efficiency and quality are improved.

The following describes a process of loading a first panoramic band view resource, where before receiving the first input or based on the first input, loading the first panoramic band view resource corresponding to a first room matched with the 3D preview image in the target room source includes:

before receiving the first input, loading the downloaded or pre-cached first panoramic viewing resource; or alternatively

Responding to the first input, establishing an audio channel between the first terminal and the second terminal, and loading the downloaded or pre-cached first panoramic band viewing resource while establishing the audio channel;

the first panoramic band view resource comprises a first panoramic view resource corresponding to the first room and a first band view scene resource; downloading based on the tape-look request, downloading based on the first input, or downloading during generation of the tape-look electrical interface when downloading the first panoramic tape-look resource.

In response to receiving a first input within the presence interface by the house broker indicating to answer an incoming call, establishing an audio channel and loading a first panoramic presence resource in parallel is performed. The first input of the house source broker in the area-looking electric interface can be click input and sliding input of a receiving control in the area-looking electric interface, or can be a specific gesture and a specific action for indicating to answer in the area-looking electric interface. By establishing an audio channel between the source broker and the second terminal, the communication between the source broker and the house watching user can be realized based on the audio channel, so that voice with watching is realized; by loading the first panoramic band view resources in parallel, the speed of entering the panoramic band view can be increased.

The first panoramic band view resource may also be loaded after the band view electrical interface is displayed and before the first input is received, or the first panoramic band view resource may be loaded in the process of generating the band view electrical interface, or the first panoramic band view resource may be loaded when the preview resource corresponding to the 3D preview image is loaded. By loading the first panoramic viewing resource prior to receiving the first input, the panoramic viewing may be quickly entered by pre-loading the resource.

And when the first panoramic viewing resource is loaded, loading the downloaded or pre-cached first panoramic viewing resource into the memory. For pre-caching, the first terminal may cache the first panoramic view resource to the local disk in advance. For downloading, different loading timings are different from each other.

For the case of loading the first panoramic band view resource in response to the first input, the first panoramic band view resource may be downloaded based on the band view request, where the first panoramic band view resource is downloaded in synchronization with the 3D preview image; the first panoramic view resource may be downloaded during the process of generating the view electrical interface; the first panoramic viewing resource may also be downloaded based on the first input; it may also be that the first panoramic viewing resource is downloaded after the display tape appears to the electrical interface and before the first input is received. That is, in this case, the first panoramic view resource downloaded and cached based on the trigger of the view request is loaded; or loading the first panoramic view resource downloaded and cached in the process of generating the view electric interface; or loading the first panoramic band view resource downloaded and cached based on the triggering of the first input, or loading the first panoramic band view resource downloaded and cached after the band-view electric interface is displayed and before the first input is received.

For the case of loading the first panoramic band view resource after displaying the band view electrical interface and before receiving the first input, the first panoramic band view resource may be downloaded based on the band view request; the first panoramic view resource may be downloaded during the process of generating the view electrical interface; it may also be that the first panoramic viewing resource is downloaded after the display tape appears to the electrical interface and before the first input is received.

For the situation that the first panoramic band view resource is loaded in the process of generating the band view electric interface, the first panoramic band view resource can be downloaded based on the band view request; the first panoramic viewing resource may also be downloaded during the generation of the tape-out electrical interface.

For the case of loading the first panoramic band view resource when loading the preview resource corresponding to the 3D preview image, the first panoramic band view resource may be downloaded based on the band view request.

The first panoramic view resource includes a first panoramic view resource corresponding to the first room and a first panoramic view resource corresponding to the first panoramic view resource, where the first panoramic view resource may be understood as program code related to the panoramic view, for example Html, JS, CSS is program code forming the panoramic view, and controls the displaying of the panoramic image and accepts the interactive operation of the user.

According to the implementation process, the audio channel is established and the first panoramic band viewing resource is loaded by parallel execution in response to the first input, so that the processing process can be accelerated by a parallel execution processing mode; preloading of resources may be achieved by loading panoramic band view resources prior to receiving a first input; the resource loading mode can solve the problem of time consumption in entering the panoramic band for viewing, can quickly enter the panoramic band for viewing, and improves the band viewing experience of a user.

In an optional embodiment of the present application, when rendering a 3D panorama image corresponding to a first room based on the first panorama bandwidth viewing resource, the method includes:

rendering a 3D panoramic picture corresponding to the first room on a first view carrier page based on the first panoramic band viewing resource; the first view carrier page is a carrier page corresponding to the band-view electrical interface, the 3D panoramic picture corresponding to the first room, and the band-view electrical interface is different layers of the first view carrier page.

When the 3D panoramic picture corresponding to the first room is rendered based on the first panoramic band view resource, the 3D panoramic picture corresponding to the first room is rendered on the first carrier page corresponding to the band-view electric interface according to the first panoramic band view resource, so that the band-view electric interface and the panoramic rendering page correspond to one carrier page. The first room is matched with the 3D preview image, the 3D panoramic picture corresponding to the first room is matched with the 3D preview image, and when the 3D panoramic picture corresponding to the first room is displayed, interface switching is not needed, so that the purposes of sharing resources and reducing switching time consumption are achieved. The adaptation of the 3D panoramic image corresponding to the first room and the 3D preview image means that when the 3D panoramic image corresponding to the first room starts to be displayed, the corresponding display content is the same as that of the 3D preview image.

The 3D panoramic picture corresponding to the first room and the band-view electric interface are different layers of the first view carrier page. Referring to fig. 4, the left side of fig. 4 shows the case of displaying a visual electrical interface on the graphical user interface, and the right side of fig. 4 shows the case of displaying a 3D panorama image corresponding to the first room on the graphical user interface, when the 3D panorama image corresponding to the first room starts to be displayed, the corresponding display content is the same as the 3D preview image, the visual electrical interface is the same as the carrier page corresponding to the 3D panorama image corresponding to the first room, and the visual electrical interface and the carrier page belong to different layers of the same carrier page.

According to the implementation process, the carrier page is shared by the electric interface and the panoramic rendering page through setting the display belt, when the 3D panoramic picture corresponding to the first room matched with the 3D preview image is displayed, interface switching is not needed, and the purposes of resource sharing and time consumption reduction of switching are achieved.

In an embodiment of the present application, the method further includes:

loading the third panoramic band view resources respectively corresponding to the downloaded or pre-cached at least one additional object; the at least one additional object comprises at least one of a house type diagram of the target house source, a 3D panorama diagram of a cell to which the target house source belongs, a decoration effect diagram of the target house source, a scale and virtual reality VR glasses. Wherein the third panoramic band view resource of the additional object may be loaded before loading the second panoramic band view resource, while loading the second panoramic band view resource, after loading the second panoramic band view resource, or after entering the panoramic band view.

For the case where the third panorama band view resource is loaded before the second panorama band view resource is loaded, it may be that the third panorama band view resource of the additional object is loaded after the loading of the first panorama band view resource is completed.

For any additional object, after loading of the third panoramic band view resource of the additional object is completed, a rendering process may be started to display an object identifier corresponding to the additional object on the graphical user interface, when the object identifier corresponding to the additional object is displayed, the object identifier may be displayed in a process of carrying out band view on the first room or in a process of carrying out band view on other rooms, and after the object identifier corresponding to the additional object is displayed, if an instruction for canceling display is not received, a display state may be always maintained, that is, the object identifier may be kept to be displayed after the 3D panoramic picture display is switched. And the object identification corresponding to the additional object is overlapped on the 3D panoramic picture with preset transparency, so that laminated display is realized.

The third panoramic viewing resource of the additional object may be cached in advance, or may be downloaded, for the case of downloading the third panoramic viewing resource, may be downloaded synchronously with the first panoramic viewing resource, may be downloaded after downloading the second panoramic viewing resource, may be downloaded synchronously with the second panoramic viewing resource, or may be downloaded after downloading the first panoramic viewing resource, before downloading the second panoramic viewing resource, or may be downloaded after entering the panoramic viewing. For the first three cases, the first panoramic viewing resource can be downloaded synchronously with the second panoramic viewing resource, or the first panoramic viewing resource can be downloaded preferentially; for the latter two cases, the first panoramic band viewing resource is downloaded preferentially, and the second panoramic band viewing resource is downloaded later, which can also include other feasible cases, and are not listed here.

The process of displaying additional objects is described below by way of example. Referring to fig. 5, in the process of taking and looking at the first room (living room), loading the second panoramic view resource of at least one second room and the third panoramic view resource of a plurality of additional objects, and after loading is completed, rendering the additional objects, wherein object identifiers corresponding to the additional objects can be displayed in a layered manner on a 3D panoramic image corresponding to the first room, such as object identifier 1 corresponding to the house type map, object identifier 2 corresponding to the cell to which the target house source belongs, object identifier 3 corresponding to the decoration effect map of the target house source, object identifier 4 corresponding to the scale, and object identifier 5 corresponding to the VR glasses. Presentation of the corresponding content may be triggered upon receipt of an input of an object identification. For example, when input of the object identifier 1 is received, a house pattern of the target house source is displayed, and when input of the object identifier 2 is received, a cell panorama of a cell to which the target house source belongs is displayed.

The following describes a process of loading the second panoramic band view resource, where the loading the second panoramic band view resource corresponding to the target room source may include:

loading a second panoramic view resource corresponding to the target object in the downloaded or pre-cached target room source in the process of carrying out view on the first room, wherein the second panoramic view resource comprises a second panoramic view resource and a second view scene resource;

The second panoramic viewing resource and the first panoramic viewing resource are downloaded synchronously, or the first panoramic viewing resource is downloaded preferentially, and the target object comprises at least one second room.

And loading the second panoramic band view resource corresponding to the downloaded or pre-cached target object in the process that the house source broker band views the first room. The second panoramic view resource comprises a second panoramic view resource and a second panoramic view scene resource; the target object includes at least one second room within the target room source.

And when the second panoramic viewing resource is loaded, loading the downloaded or pre-cached second panoramic viewing resource into the memory. For pre-caching, the first terminal may cache the second panoramic viewing resource to the local disk in advance, and for downloading, the second panoramic viewing resource may be downloaded synchronously with the first panoramic viewing resource, or may be downloaded preferentially by the first panoramic viewing resource. For the case of synchronous downloading of the second panoramic band view resource and the first panoramic band view resource, the room source 3D material comprising the second panoramic band view resource and the first panoramic band view resource may be downloaded based on the triggering of the band view request or the first input, and the house source 3D material can be downloaded in the process of generating the tape-seen electric interface, and at the moment, the first panoramic tape-seen resource and the second panoramic tape-seen resource are synchronously downloaded, and the loading time is different. For the situation that the first panoramic band view resource is downloaded preferentially, the first panoramic band view resource is downloaded based on a band view request, and the second panoramic band view resource is downloaded based on a first input, is downloaded in the process of generating a band view electric interface, or is downloaded in the process of looking at a first room band; the first panoramic band view resource is downloaded in the process of generating the band view electric interface, and the second panoramic band view resource is downloaded based on the first input or is downloaded in the process of looking in the first room; it may also be that the first panoramic band view resource is downloaded based on the first input, that the second panoramic band view resource is downloaded during the first room band view, and so on.

For the first room and any second room, each room corresponds to a second roaming point, when receiving a second input to a target roaming point, rendering a 3D panorama screen corresponding to the target room (a certain second room), and synchronizing a second control instruction corresponding to the second input to the second terminal, where a plurality of second roaming points may remain displayed and be displayed in a stacked manner on the 3D panorama screen.

In this embodiment of the application, the resource is looked in first panorama area, the resource is looked in second panorama area and the resource is looked in third panorama area can be loaded in batches, and through the resource is looked in first panorama area of loading in batches, resource is looked in second panorama area and resource is looked in third panorama area, can realize taking the progressive loading of looking in resource, compare in the complete loaded condition of 3D panorama, can get into the panorama area fast and see, improve and take and see efficiency.

In an alternative embodiment of the present application, the method further comprises:

upon receiving a third input within the band-to-see electrical interface indicating browsing of the 3D preview image, updating a display perspective of the 3D preview image in response to the third input;

the rendering the 3D panorama picture corresponding to the first room based on the first panorama bandwidth resource includes:

Determining display parameters according to the updated display view angles corresponding to the 3D preview images;

and rendering a 3D panoramic picture corresponding to the first room based on the display parameters and the first panoramic band viewing resource so as to display the 3D panoramic picture matched with the 3D preview image.

In the case of displaying the in-band visual interface, if a third input is received by the homeowner within the in-band visual interface indicating to view the 3D preview image, the display perspective of the 3D preview image is updated in response to the third input. The third input by the homeowner in the visual electrical interface may be a sliding input or a self-rotating input. After the display view angle of the 3D preview image is updated in response to the third input, when the 3D panoramic image corresponding to the first room is rendered, display parameters are required to be determined according to the updated display view angle corresponding to the 3D preview image, image rendering is performed based on the display parameters and the first panoramic band viewing resources, the display parameters are transferred to the panoramic page, the first terminal displays the 3D panoramic image corresponding to the first room based on the display parameters, the consistency of the display angles of the 3D panoramic image and the 3D preview image is maintained, and the 3D panoramic image corresponding to the first room is synchronously updated based on the update of the display angle of the 3D preview image, so that seamless connection of the live view electric interface and the 3D panoramic image is ensured. It should be noted that, in the embodiment of the present application, when the first terminal and the second terminal are switched in display, a transitional animation may be formed in a visual dynamic manner, so as to achieve a natural effect of switching.

After the panoramic view is not entered and the rendering of the 3D panoramic image corresponding to the first room is completed, the visual angle switching can be performed based on the input of the house source broker in the 3D panoramic image corresponding to the first room. The input performed by the house source broker may be a click of the first roaming point, an input performed by the view angle switch control, or a sliding input, a rotation input on the 3D panorama screen. Through carrying out the visual angle and switching, can be when not getting into the panorama area and seeing, the house source broker of being convenient for browse first room with different visual angles, correspondingly, also can browse the target house source with different visual angles when not getting into the panorama area and after getting into the panorama area and seeing to seeing the room user.

In an embodiment of the present application, when displaying a tape-look electrical interface including a 3D preview image of the target room source, the method includes: the tape-look electrical interface including a 3D preview image of the target room source and profile information of the target room source is displayed.

The tape-look electrical interface, when included in a 3D preview image of a target house source, may also include profile information for the target house source, where the profile information may include the geographic location of the target house source as well as other relevant information, such as lease or sales price of the target house source. By displaying profile information of the target house source at the tape-look electrical interface, the house source broker can be made further aware of the target house source, ready for the subsequent tape to look.

When the visual electric interface is generated, a 3D preview image can be rendered in a background area of the incoming call interface, and brief introduction information of a target house source is displayed on the incoming call interface so as to generate the visual electric interface, namely, the 3D preview image is used as the background image, and brief introduction information of the target house source, a receiving control and a hanging-up control are used as main parts to be displayed.

In an embodiment of the present application, the method further includes: after entering a panoramic zone for watching, collecting voice explanation contents corresponding to a house source broker corresponding to the first terminal when the house source broker is in the zone for watching explanation; and transmitting the voice explanation content to the second terminal through an audio channel.

In the process of entering the panoramic band to see, the first room and other rooms, the voice explanation content corresponding to the house source broker when the explanation is seen in the band is collected and transmitted to the second terminal through the audio channel, so that the house source user can further know the house source based on the explanation of the house source broker when browsing the house source. It should be noted that, the voice explanation content is transmitted to the second terminal based on an audio channel, where the audio channel is a voice channel built by the target application program, for example, may be a long connection channel; signaling channels corresponding to message transmission and instruction transmission through the target application program belong to different channels.

When the preview resources and the panoramic band view resources corresponding to the 3D preview image are loaded, the method can request to download the corresponding resources, load the resources after caching, and directly load the resources based on pre-caching. In the process, when downloading the resources, taking downloading the preview resources first and then downloading the house source 3D materials comprising the second panoramic view resources, the third panoramic view resources and the first panoramic view resources as examples; in the resource loading process, the synchronous loading of the second panoramic view resource and the third panoramic view resource is taken as an example for explanation. Referring to fig. 6, after receiving a request for looking at a target room source from a second terminal and forwarded by a background server, a target application program of a first terminal searches locally whether preview resources of a 3D preview image corresponding to the target room source are cached, if the preview resources exist, directly loads the preview resources of the 3D preview image, if the preview resources do not exist, requests the background server to download the preview resources of the 3D preview image, caches the preview resources after downloading, then loads the resources, and renders the 3D preview image based on the preview resources of the loaded 3D preview image to generate a looking-at-a-band electrical interface. After the house source broker answers the call, loading the pre-cached first panoramic band view resource, or loading the first panoramic band view resource obtained through downloading, and rendering the 3D band view through resource loading. The 3D zone view page is rendered, the zone view of the first room corresponding to the first panoramic zone view resource can be performed, and in the process of zone view of the first room, the downloaded or pre-cached second panoramic zone view resource and the third panoramic zone view resource are loaded so as to continuously render the 3D zone view page, so that the whole-room zone view is realized. In this example, the second panoramic view resource, the third panoramic view resource, and the first panoramic view resource are downloaded in synchronization.

In order to ensure the efficiency of tape viewing, the method provided by the application further comprises the following steps: the method comprises the steps that a pre-loading list corresponding to a first terminal is obtained, the pre-loading list comprises a plurality of room source identifiers corresponding to first room sources respectively, and the first room sources are target zone view room sources predicted based on at least one room source information associated with a room source broker corresponding to the first terminal currently; and downloading and caching at least part of the first house resources corresponding to the first house sources respectively according to the preloading list, wherein the house resources comprise 3D preview images and/or panoramic viewing resources.

The background server may predict, for each source broker, a first source that may be invited to look at in the future according to at least one source information that the source broker is proxy for, and the at least one source information may include at least one of a source in a look record of the source broker, a source with a larger browsing amount, and a representative source of the source broker, and when predicting the first source according to the source information, it is also necessary to consider a source release time, the later the time, and the greater the corresponding weight. It should be noted that, when acquiring at least one property information that a property broker is acting on, authorization of the property broker needs to be acquired.

After the first house source is determined according to the prediction, a pre-loading list corresponding to a house source broker is generated according to the predicted first house source, wherein the pre-loading list comprises house source identifiers corresponding to a plurality of first house sources respectively. And after the first terminal starts the resource preloading process, pulling a preloading list corresponding to the first terminal, and downloading and caching at least part of the first house resources corresponding to the first house sources respectively according to the preloading list, wherein the house resources comprise 3D preview images and/or panoramic band viewing resources. By downloading the house source resources to the local disk in advance based on the preloading list, related content does not need to be downloaded when the house source is watched later, and the resources can be directly loaded to quickly enter the panoramic band for watching.

Referring to fig. 7, in order to start a resource preloading process and download a room source resource, after a target application of a first terminal starts the resource preloading process, a preloading list corresponding to the first terminal and including room source identifiers corresponding to a plurality of first room sources is pulled from a background server. The first room source is a predicted room source that may need to be viewed with the belt. After the preloading list is pulled, detecting the validity and the storage space of local cache data, cleaning invalid caches, reading house source identifiers in the preloading list one by one, detecting whether the house source resources corresponding to the read house source identifiers are locally cached, if not, sending a downloading request to a background server to pull the house source resources, if so, reading the next house source identifiers, and ending the preloading process after the house source resources corresponding to the house source identifiers in the preloading list are cached. It should be noted that, the preloading process may also be ended when the proportion of the storage space occupied by the room source resource storage amount exceeds the preset proportion.

The first terminal can also clean the invalid cache periodically or when the house resources are too much. That is, the first terminal can customize the space capacity corresponding to the room source resource, for example, 200M space, and when the space capacity exceeds the corresponding space, the elimination algorithm is started to clean the time-consuming resource, so that the explosion increase of the space occupied by the target application program along with the time is avoided. And the concept of version numbers is provided for each locally cached resource, the locally cached resource needs to be matched with a loaded container, and the resource can be cleaned in time when the locally cached resource is not matched with the loaded container.

According to the implementation process, through pulling the preloading list, at least part of the first room sources in the plurality of first room sources are downloaded and cached according to the preloading list, the room sources can be downloaded to the local disk in advance, and when the follow-up tape looks at, relevant contents do not need to be downloaded any more, so that the resources can be directly loaded, and the panoramic tape looks at.

The following describes a process of viewing a room source with the present application through a specific embodiment, in this embodiment, preview resources of a 3D preview image are downloaded first, then a room source 3D material is downloaded, and loading a first panoramic view resource is executed in parallel with establishing an audio channel. Referring to fig. 8, after receiving a tape-look request for a target house, a first terminal downloads preview resources of a 3D preview image corresponding to the target house, renders the 3D preview image on an incoming call interface to generate a tape-look electrical interface, displays the tape-look electrical interface, and downloads house 3D materials in parallel while generating the tape-look electrical interface. The house source broker answers the call at the live view interface, establishes an audio channel with the second terminal, and simultaneously loads the first panoramic live view resource in parallel. And after the audio channel is successfully established and the 3D panoramic picture corresponding to the first room is displayed based on the loaded first panoramic band view resource, entering panoramic band view. After entering the panoramic band view, carrying out band view on a first room corresponding to the first panoramic band view resource, loading panoramic band view resources of other rooms and additional objects in parallel, and realizing loading a non-core function so as to realize band view of complete contents.

The implementation process can achieve synchronization of generating a panoramic interface with view and downloading panoramic materials, establishing an audio channel and loading first panoramic viewing resources serving as core contents; and by adopting a progressive loading mode, core contents are loaded firstly, and non-core contents are loaded gradually later, so that panoramic view can be quickly accessed, and the view efficiency of the panoramic view is improved.

According to the whole implementation process of the house source tape-look method provided by the embodiment of the application, under the condition that the tape-look request of the target house source is received, the tape-look electric interface comprising the 3D preview image of the target house source is displayed, so that a house source broker can be ensured to timely acquire relevant information of the target house source to be tape-seen based on the tape-look electric interface, the house source broker can conveniently perform tape-look preparation in time, and the tape-look efficiency and quality are improved; when a first input in a band-looking electrical interface is received, an audio channel of a second terminal is established, a first panoramic band-looking resource corresponding to a first room matched with a 3D preview image in a target room source is loaded before the first input is received or based on the first input, a 3D panoramic picture corresponding to the first room is rendered based on the first panoramic band-looking resource, smoothness of picture connection can be realized when the band-looking electrical interface is transited to the 3D panoramic picture corresponding to the target room source, and the processing mode of loading the panoramic band-looking resource in parallel or preloading the panoramic band-looking resource before the first input is received when the channel is established can accelerate the processing process and shorten the preparation time for entering panoramic band-looking; by loading the first panoramic band view resource and then loading the second panoramic band view resource and the third panoramic band view resource, progressive loading of the band view resource can be realized, the problem of time consuming resource loading is solved, the panoramic band view mode can be quickly entered, and the band view efficiency is improved.

Further, after the first terminal enters the panoramic zone for watching, the consistency of the display content of the second terminal and the first terminal can be ensured by sending a picture synchronization instruction to the second terminal, so that a house source broker can be ensured to effectively watch the house source zone and ensure the zone watching experience of a house watching user; by responding to the visual angle switching input and the second input of the target roaming point, updating the 3D panoramic picture and synchronizing the control instruction to the second terminal, the display linkage between the second terminal and the first terminal can be realized based on the operation of the house source broker in the first terminal and the update of the display content in the first terminal and the second terminal.

By setting the carrier page shared by the visual electric interface and the panoramic rendering page, when the 3D panoramic picture corresponding to the first room matched with the 3D preview image is displayed, interface switching is not needed, and the purposes of resource sharing and time consumption reduction of switching are achieved.

The embodiment of the application provides a device is seen in house source area, is applied to first terminal, and is shown with reference to fig. 9, and the device includes:

the display module 901 is used for displaying a tape-look electrical interface comprising a 3D preview image of a target house source under the condition that a tape-look request of the target house source is received, wherein the tape-look request is sent by a second terminal through a target application program;

A setup module 902 for setting up an audio channel with the second terminal in response to a first input of an electrical interface appearing to the belt;

a first loading module 903, configured to load, before receiving the first input or based on the first input, a first panoramic banding resource corresponding to a first room matched with the 3D preview image in the target room source;

the rendering module 904 is configured to render a 3D panorama frame corresponding to a first room based on the first panorama zone view resource, so as to display the 3D panorama frame corresponding to the first room, where after the audio channel is successfully established and the 3D panorama frame corresponding to the first room is displayed, entering into panorama zone view.

Optionally, the apparatus further comprises:

the second loading module is used for loading a second panoramic band view resource corresponding to the target room source, wherein the second panoramic band view resource is a panoramic band view resource corresponding to the target room source and different from other rooms corresponding to the first room.

Optionally, the display module is further configured to:

according to the tape-look request, rendering the 3D preview image in a background area of an incoming call interface of the target application program, generating and displaying the tape-look electrical interface;

The first terminal loads the downloaded or pre-cached preview resources corresponding to the 3D preview image, and then renders the 3D preview image on the incoming call interface; and when downloading the preview resource corresponding to the 3D preview image, downloading based on the tape-look request.

Optionally, the first loading module includes:

the first loading submodule is used for loading the downloaded or pre-cached first panoramic band viewing resources before receiving the first input; or alternatively

The second loading submodule is used for responding to the first input, establishing an audio channel between the second terminal and the second terminal, and loading the downloaded or pre-cached first panoramic viewing resource while establishing the audio channel;

Optionally, the rendering module is further configured to:

rendering a 3D panoramic picture corresponding to the first room on a first view carrier page based on the first panoramic band viewing resource;

The first view carrier page is a carrier page corresponding to the band-view electrical interface, the 3D panoramic picture corresponding to the first room, and the band-view electrical interface is different layers of the first view carrier page.

Optionally, the apparatus further comprises:

the third loading module is used for loading the third panoramic viewing resources corresponding to the downloaded or pre-cached at least one additional object respectively;

the at least one additional object comprises at least one of a house type diagram of the target house source, a 3D panorama diagram of a cell to which the target house source belongs, a decoration effect diagram of the target house source, a scale and virtual reality VR glasses.

Optionally, the second loading module is further configured to:

Optionally, the apparatus further comprises:

an updating module, configured to update a display view angle of the 3D preview image in response to a third input indicating browsing of the 3D preview image in the band-to-eye electrical interface, when the third input is received;

the rendering module is further to:

Optionally, the display module is further configured to: the tape-look electrical interface including a 3D preview image of the target room source and profile information of the target room source is displayed.

Optionally, the apparatus further comprises:

the system comprises an acquisition module, a prediction module and a prediction module, wherein the acquisition module is used for acquiring a pre-loading list corresponding to the first terminal, the pre-loading list comprises a plurality of room source identifiers respectively corresponding to a plurality of first room sources, and the first room sources are target zone view room sources predicted based on at least one room source information currently associated with a room source broker corresponding to the first terminal;

and the download caching module is used for downloading and caching at least part of the house source resources corresponding to the first house sources respectively according to the preloading list, wherein the house source resources comprise 3D preview images and/or panoramic viewing resources.

For the device embodiments, since they are substantially similar to the method embodiments, the description is relatively simple, and reference is made to the description of the method embodiments for relevant points.

The embodiment of the application also provides electronic equipment, which comprises: the computer program is stored in the memory and can run on the processor, and when being executed by the processor, the computer program realizes the processes of the embodiment of the house source zone viewing method and can achieve the same technical effects, and the repetition is avoided, and the description is omitted here.

For example, fig. 10 shows a schematic diagram of the physical structure of an electronic device. As shown in fig. 10, the electronic device may include: a processor 1010, a communication interface (Communications Interface) 1020, a memory 1030, and a communication bus 1040, wherein the processor 1010, the communication interface 1020, and the memory 1030 communicate with each other via the communication bus 1040. The processor 1010 may call logic instructions in the memory 1030, the processor 1010 being configured to perform the steps of: displaying a tape-look electrical interface comprising a 3D preview image of a target room source in case of receiving a tape-look request of the target room source, the tape-look request being sent by a second terminal through a target application; establishing an audio channel with the second terminal in response to a first input appearing to the belt as an electrical interface; before receiving the first input or based on the first input, loading a first panoramic band view resource corresponding to a first room matched with the 3D preview image in the target room source; and rendering a 3D panoramic picture corresponding to the first room based on the first panoramic band viewing resource to display the 3D panoramic picture corresponding to the first room, wherein after the audio channel is successfully established and the 3D panoramic picture corresponding to the first room is displayed, entering the panoramic band for viewing. The processor 1010 may also perform other aspects of embodiments of the present application, which are not further described herein.

Further, the logic instructions in the memory 1030 described above may be implemented in the form of software functional units and stored in a computer readable storage medium when sold or used as a stand alone product. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution, in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the methods described in the embodiments of the present application.

The embodiment of the application also provides a computer readable storage medium, on which a computer program is stored, and when the computer program is executed by a processor, the processes of the embodiment of the house source zone viewing method are implemented, and the same technical effects can be achieved, so that repetition is avoided, and no further description is provided here. Wherein the computer readable storage medium is selected from Read-Only Memory (ROM), random access Memory (Random Access Memory, RAM), magnetic disk or optical disk.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk), including several instructions for causing a terminal (which may be a mobile phone, a computer, a server, an air conditioner, or a network device, etc.) to perform the method described in the embodiments of the present application.

The embodiments of the present application have been described above with reference to the accompanying drawings, but the present application is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those of ordinary skill in the art without departing from the spirit of the present application and the scope of the claims, which are also within the protection of the present application.

Those of ordinary skill in the art will appreciate that the elements and algorithm steps described in connection with the embodiments disclosed herein can be implemented as electronic hardware, or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. 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.

It will be clear to those skilled in the art that, for convenience and brevity of description, specific working procedures of the above-described systems, apparatuses and units may refer to corresponding procedures in the foregoing method embodiments, and are not repeated herein.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other manners. For example, the apparatus embodiments described above are merely illustrative, e.g., the division of the units is merely a logical function division, and there may be additional divisions when actually implemented, e.g., multiple units or components may be combined or integrated into another system, or some features may be omitted or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be an indirect coupling or communication connection via some interfaces, devices or units, which may be in electrical, mechanical or other form.

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

In addition, each functional unit in each embodiment of the present application may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer-readable storage medium. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution, in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the methods described in the embodiments of the present application. And the aforementioned storage medium includes: a usb disk, a removable hard disk, a ROM, a RAM, a magnetic disk, or an optical disk, etc.

The foregoing is merely specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the present application, and the changes and substitutions are intended to be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims

1. The house source zone view method is applied to a first terminal and is characterized by comprising the following steps:

rendering a 3D panoramic picture corresponding to a first room based on the first panoramic band view resource to display the 3D panoramic picture corresponding to the first room, wherein after the audio channel is successfully established and the 3D panoramic picture corresponding to the first room is displayed, entering panoramic band view;

wherein upon receiving a third input within the band-view electrical interface indicating browsing of the 3D preview image, updating a display perspective of the 3D preview image in response to the third input;

wherein the rendering the 3D panorama picture corresponding to the first room based on the first panorama bandwidth viewing resource includes:

2. The method according to claim 1, wherein the method further comprises:

loading a second panoramic band view resource corresponding to the target room source, wherein the second panoramic band view resource is a panoramic band view resource corresponding to the target room source and different from other rooms corresponding to the first room.

3. The method of claim 1, wherein the displaying the tape-look electrical interface comprising the 3D preview image of the target room source upon receiving the tape-look request of the target room source comprises:

4. The method of claim 1, wherein loading a first panoramic banding resource in the target room source corresponding to a first room matched to the 3D preview image before receiving the first input or based on the first input comprises:

5. The method of claim 1, wherein the rendering the 3D panorama picture corresponding to the first room based on the first panorama strip resource comprises:

6. The method according to claim 2, wherein the method further comprises:

loading the third panoramic band view resources respectively corresponding to the downloaded or pre-cached at least one additional object;

7. The method of claim 2, wherein loading the second panoramic view resource corresponding to the target room source comprises:

8. The method of claim 1, wherein the displaying a tape-look electrical interface comprising a 3D preview image of the target room source comprises:

the tape-look electrical interface including a 3D preview image of the target room source and profile information of the target room source is displayed.

9. The method of claim 3, 4, 6 or 7, further comprising:

the method comprises the steps that a pre-loading list corresponding to a first terminal is obtained, the pre-loading list comprises a plurality of room source identifiers corresponding to first room sources respectively, and the first room sources are target zone view room sources predicted based on at least one room source information associated with a room source broker corresponding to the first terminal currently;

and downloading and caching at least part of the first house resources corresponding to the first house sources respectively according to the preloading list, wherein the house resources comprise 3D preview images and/or panoramic viewing resources.

10. A room source zone viewing device applied to a first terminal, comprising:

the rendering module is used for rendering the 3D panoramic picture corresponding to the first room based on the first panoramic band view resource so as to display the 3D panoramic picture corresponding to the first room, wherein after the audio channel is successfully established and the 3D panoramic picture corresponding to the first room is displayed, the user enters the panoramic band view;

the rendering module is further to:

11. An electronic device comprising a processor, a memory and a computer program stored on the memory and executable on the processor, which when executed by the processor performs the steps of the house-keeping method of any one of claims 1 to 9.

12. A computer readable storage medium, characterized in that the computer readable storage medium has stored thereon a computer program which, when executed by a processor, implements the steps of the house-keeping method according to any one of claims 1 to 9.