CN111461833B

CN111461833B - Information loading method, system, server, terminal and storage medium

Info

Publication number: CN111461833B
Application number: CN202010246556.4A
Authority: CN
Inventors: 胡佳逸
Original assignee: Rajax Network Technology Co Ltd
Current assignee: Rajax Network Technology Co Ltd
Priority date: 2020-03-31
Filing date: 2020-03-31
Publication date: 2021-07-23
Anticipated expiration: 2040-03-31
Also published as: CN111461833A

Abstract

The embodiment of the application relates to the field of information technology processing, in particular to an information loading method, an information loading system, a server, a terminal and a storage medium. The information loading method is applied to the server and comprises the following steps: receiving a first message from a terminal, and analyzing the first message by at least one processor to obtain a target address; determining, by at least one processor, a target geographic range based on the target address; screening a target entity object from the entity objects through at least one processor according to the target geographical range and preset address information of each entity object; receiving a second message from the terminal; and analyzing the second message through at least one processor, determining and loading the loading items of the target entity objects, and sending the loading items of the target entity objects to the terminal so that the terminal can display the loading items of the target entity objects. By adopting the embodiment of the application, the information quantity needing to be loaded can be controlled, and the normal information loading service is ensured.

Description

Information loading method, system, server, terminal and storage medium

Technical Field

The embodiment of the application relates to the field of information technology processing, in particular to an information loading method, an information loading system, a server, a terminal and a storage medium.

Background

Large enterprises generally provide ordering services for a large number of employees by means of internet technology, and the combination of the ordering requirements and the internet technology forms an online ordering system, so that the employees can make orders at suppliers provided by the online ordering system. However, the inventors found that at least the following problems exist in the related art: when the number of the suppliers is too large, the information amount of the relevant supplier information required to be loaded by the online ordering system is too large, so that the loading of the online ordering system is time-consuming and even the system cannot respond, and the normal ordering operation is influenced.

Disclosure of Invention

An object of the embodiments of the present application is to provide an information loading method, system, server, terminal, and storage medium, which can control the amount of information to be loaded, so as to reduce the time consumption for loading and waiting for information, and ensure normal information loading service.

In order to solve the foregoing technical problem, an embodiment of the present application provides an information loading method, which is applied to a server, and includes: receiving a first message from a terminal, and analyzing the first message by at least one processor to obtain a target address; determining, by the at least one processor, a target geographic scope based on the target address; screening out target entity objects from the entity objects through the at least one processor at least according to the target geographical range and preset address information of each entity object; receiving a second message from the terminal; and analyzing the second message through the at least one processor, determining and loading the loading item of each target entity object, and sending the loading item of each target entity object to the terminal so that the terminal can display the loading item of the target entity object.

An embodiment of the present application further provides an information loading method, applied to a terminal, including: sending a first message to a server, wherein the server obtains a target address from the first message through analysis of at least one processor, determines a target geographical range according to the target address, and screens a target entity object from the entity objects at least according to the target geographical range and preset address information of each entity object; sending a second message to a server, so that the server analyzes the second message through at least one processor, and determining and loading the loading items of the target entity objects; and receiving the loading items of the target entity objects sent by the server, and displaying the loading items of the target entity objects.

An embodiment of the present application further provides an information loading system, including: a server and a terminal; the server is used for receiving a first message from the terminal and analyzing the first message to obtain a target address through at least one processor; the server is further configured to determine, by the at least one processor, a target geographic range based on the target address; the server is further used for screening out a target entity object from the entity objects through the at least one processor according to the target geographic range and preset address information of each entity object; the server is also used for receiving a second message from the terminal; the server is further configured to parse the second message through the at least one processor, determine and load a loading item of each target entity object, and send the loading item of each target entity object to the terminal, so that the terminal displays the loading item of the target entity object.

An embodiment of the present application further provides a server, including: the receiving module is used for receiving a first message from a terminal and analyzing the first message to obtain a target address; the determining module is used for determining a target geographic range according to the target address; the screening module is used for screening out target entity objects from the entity objects at least according to the target geographic range and preset address information of each entity object; the receiving module is further configured to receive a second message from the terminal; and the sending module is used for analyzing the second message, determining and loading the loading item of each target entity object, and sending the loading item of each target entity object to the terminal so that the terminal can display the loading item of the target entity object.

An embodiment of the present application further provides a terminal, including: the sending module is used for sending a first message to a server, so that the server can obtain a target address from the first message through analysis of at least one processor, determine a target geographical range according to the target address, and screen out a target entity object from the entity objects at least according to the target geographical range and preset address information of each entity object; the sending module is further configured to send a second message to a server, so that the server analyzes the second message through at least one processor, and determines and loads a loading item of each target entity object; and the receiving module is used for receiving the loading items of the target entity objects sent by the server and displaying the loading items of the target entity objects.

An embodiment of the present application further provides a server, including: at least one processor; and a memory communicatively coupled to the at least one processor; wherein the memory stores instructions executable by the at least one processor to enable the at least one processor to: receiving a first message from a terminal, and analyzing the first message by at least one processor to obtain a target address; determining, by the at least one processor, a target geographic scope based on the target address; screening out target entity objects from the entity objects through the at least one processor at least according to the target geographical range and preset address information of each entity object; receiving a second message from the terminal; and analyzing the second message through the at least one processor, determining and loading the loading item of each target entity object, and sending the loading item of each target entity object to the terminal so that the terminal can display the loading item of the target entity object.

An embodiment of the present application further provides a terminal, including: at least one processor; and a memory communicatively coupled to the at least one processor; wherein the memory stores instructions executable by the at least one processor to enable the at least one processor to: sending a first message to a server, wherein the server obtains a target address from the first message through analysis of at least one processor, determines a target geographical range according to the target address, and screens a target entity object from the entity objects at least according to the target geographical range and preset address information of each entity object; sending a second message to a server, so that the server analyzes the second message through at least one processor, and determining and loading the loading items of the target entity objects; and receiving the loading items of the target entity objects sent by the server, and displaying the loading items of the target entity objects.

Embodiments of the present application also provide a computer-readable storage medium storing a computer program, which when executed by a processor implements the information loading method applied to a server.

An embodiment of the present application further provides a computer-readable storage medium storing a computer program, and the computer program, when executed by a processor, implements the information loading method applied to a terminal.

Compared with the prior art, the method includes the steps that a first message from a terminal is received, and a target address is obtained through analysis of the first message through at least one processor; determining, by the at least one processor, a target geographic scope based on the target address; screening out target entity objects from the entity objects through the at least one processor at least according to the target geographical range and preset address information of each entity object; receiving a second message from the terminal; and analyzing the second message through the at least one processor, determining and loading the loading item of each target entity object, and sending the loading item of each target entity object to the terminal so that the terminal can display the loading item of the target entity object. Because the target entity object is screened from the preset entity objects, and then the loading items of the target entity object are loaded and sent to the terminal, rather than all the preset entity objects being used as the target entity objects, the number of the target entity objects is reduced, that is, the loading items of the entity objects to be loaded are also reduced, and the time consumption for loading is also reduced; the target entity object is obtained by screening according to the target geographical range and the address information of each entity object, and the target geographical range is determined according to the target address, so that the screened target entity object is more in line with the distribution requirement on the target address; generally, the entity objects are screened in advance according to the target addresses, so that the information quantity to be loaded is effectively controlled, the information loading speed is increased, the time consumption of information loading and information waiting is greatly reduced, the condition that the speed of a system is sharply reduced or the system cannot respond when the loading items of the entity objects are loaded due to the excessive quantity of the entity objects is avoided, and the operation experience of ordering through the system is ensured.

Additionally, the determining, by the at least one processor, a target geographic scope based on the target address includes: determining a target address type corresponding to the target address through the at least one processor according to a corresponding relation between a preset address and an address type; determining, by the at least one processor, a target distance corresponding to the target address type according to a preset correspondence between address types and distances; determining, by the at least one processor, the target geographic range based on the target address and the target distance. The above provides an implementation manner for determining the target geographic range according to the target address, and it can be understood that the determined target geographic range is in accordance with the type corresponding to the target address, thereby facilitating screening out a proper number of target entity objects.

In addition, after determining the target geographic range by the at least one processor according to the target address and the target distance, the method further includes: judging whether a target business circle exists or not through the at least one processor according to the target geographic range and the geographic range of a preset business circle, wherein the geographic range of the target business circle is partially overlapped with the target geographic range; if so, re-determining, by the at least one processor, the target geographic scope based on the geographic scope of the target business turn. Considering that the shape of the target geographic range determined according to the target address and the target distance is relatively regular, the geographic range of the business district is not necessarily completely covered, and the target objects in the business district are generally concentrated, so that when the target geographic range is partially overlapped with the geographic range of the target business district, the target geographic range is re-determined according to the geographic range of the target business district, the target geographic range can be flexibly and intelligently determined, and the proper target entity object can be screened out.

In addition, the screening, by the at least one processor, a target entity object from the entity objects according to at least the target geographical range and preset address information of each entity object includes: acquiring the number of the entity objects in the target geographic range through the at least one processor according to the target geographic range and preset address information of each entity object; comparing, by the at least one processor, a number of physical objects within the target geographic range to a preset number of objects; if the number of the entity objects in the target geographic range is smaller than the preset number of the objects, the target geographic range is expanded through the at least one processor, and the target entity objects are screened out from the entity objects through the at least one processor according to the expanded target geographic range and the address information of the entity objects. The method for realizing the screening of the target entity objects has the advantages that the condition that the number of the screened target entity objects is small due to the fact that the entity objects are dispersed is considered, when the number of the screened target entity objects is smaller than the number of the preset objects, the target geographic range is expanded, the number of the entity objects in the expanded target geographic range is larger, and accordingly the method is beneficial to screening of the target entity objects with proper number for selection.

In addition, after the comparing, by the at least one processor, the number of the physical objects in the target geographic range with the preset number of the objects, the method further includes: if the number of the entity objects in the target geographic range is larger than the preset number of the objects, acquiring a distance value between address information of each entity object in the target geographic range and the target address through the at least one processor; and sequencing all the entity objects in the target geographic range through the at least one processor according to the distance value, and screening out the target entity objects with the number equal to the preset object number after sequencing is finished. It can be understood that, while avoiding that the number of the screened target entity objects is small, the number of the screened target entity objects needs to be controlled not to be too much, so when the number of the screened target entity objects is greater than the preset number of entities, the entity objects are sorted and screened according to the distance values between the entity objects and the target addresses, which is beneficial to removing the entity objects far away from the target addresses, keeping the entity objects closer to the target addresses, and enabling the entity objects closer to the target addresses to better meet the distribution requirements of the target addresses.

Additionally, while expanding the target geographic range by the at least one processor, recording a number of times the target geographic range is expanded; the screening, by the at least one processor, a target entity object from the entity objects according to the expanded target geographical range and the address information of each entity object includes: comparing, by the at least one processor, the number of physical objects within the enlarged target geographic range with the preset number of objects; if the number of the solid objects in the expanded target geographic range is smaller than the preset number of the objects, judging whether the number of times of expanding the target geographic range is equal to the preset number of times of expansion through the at least one processor; if the times of expanding the target geographic range are equal to the preset expanding times, all the entity objects in the expanded target geographic range are used as the target entity objects through at least one processor; and if the times of expanding the target geographic range are smaller than the preset expanding times, expanding the target geographic range again through the at least one processor, and screening out the target entity object from the entity objects according to the target geographic range expanded again and the address information of each entity object. The above provides an implementation manner for screening a target entity object, and an upper limit of times for expanding a geographical range is preset; under the condition that the number of the entities in the target geographic range is small, if the number of times of expanding the geographic range reaches the upper limit, the geographic range is not continuously expanded for screening, so that the operation performance of the server is ensured, and meanwhile, the number of the target entity objects is also in a controllable range.

In addition, the parsing, by the at least one processor, the second message, determining and loading the loading items of each target entity object, and sending the loading items of the target entity objects to the terminal, so that the terminal displays the loading items of the target entity objects, includes: analyzing the second message through the at least one processor, and determining and loading a first loading item of each target entity object; sequencing the target entity objects through the at least one processor at least according to the first loading item, and sending the first loading item of each target entity object to the terminal after sequencing is completed so that the terminal can display the first loading item of each target entity object according to a sequencing result; and loading other loading items of each target entity object through the at least one processor, and sending the other loading items of each target entity object to the terminal so as to display the other loading items of each target entity object by the terminal. The first loading item of the target entity object is determined and loaded firstly, the first loading item is not all loading items of the target entity object, the number of the loading items is small, and therefore the time consumption of first loading is greatly reduced; before the terminal displays the first loading item of the target entity object, the target entity object is sequenced according to the first loading item, so that a user can judge the quality degree of the target entity object according to the sequencing result relatively quickly and find the target entity object which is in line with the self expectation from the sequencing result; after the first loading item of the target entity object is displayed, other loading items of the target entity object are loaded, namely, the information is loaded step by step, so that the information loading speed is improved, and the time consumption of information loading and information waiting is greatly reduced.

Additionally, after the parsing, by the at least one processor, the second message further comprises: obtaining screening conditions; the ordering, by the at least one processor, the target entity objects according to at least the first load item includes: screening, by the at least one processor, target entity objects that meet the screening criteria from the target entity objects; ordering, by the at least one processor, the target entity objects that meet the screening criteria; that is to say, the target entity objects meeting the requirements are screened out according to the second message sent by the user through the terminal, and then the target entity objects meeting the requirements are sequenced, so that the number of the target entity objects needing to be sequenced is reduced, the time consumed in the sequencing process is effectively reduced, the user can receive the information meeting the expectations more quickly, and the use experience is improved.

In addition, before the loading the first loaded item of the target entity object, the method further includes: judging whether a first loading item of the target entity object is stored in a local cache or not through the at least one processor; if yes, acquiring a first loading item of the target entity object from the local cache; if not, loading the first loading item of the target entity object from a preset database; all loading items of each target entity object are stored in the preset database; that is to say, if the first-time loading item of the required target entity object is pre-stored in the local cache, the first-time loading item can be directly acquired from the local cache without going to a preset database for loading, so that the consumed time in the information loading process is effectively reduced.

In addition, after the sorting is completed, sending the first loading item of each target entity object to the terminal, so that the terminal displays the first loading item of each target entity object according to the sorting result, including: receiving a data request of the terminal; the data request comprises the number N of target entity objects required to be displayed on a current display page of the terminal; sending the first loading items of N target entity objects which are not sent out and are ranked in the top to the terminal so that the current display page of the terminal can display the first loading items of the N target entity objects; that is, the terminal may display the first loads of the target entity objects in a batch manner according to a certain number, so that the first loads of all the target entity objects do not need to be sent to the terminal at one time, the amount of information sent and the time consumed for sending the information in the process are reduced, the response speed of the terminal is accelerated, and the user can receive the information more quickly.

In addition, the sending the other loading items of each target entity object to the terminal for the terminal to display the other loading items of each target entity object includes: receiving a request of the terminal for other loading items of the N target entity objects displayed on the current display page, and sending the other loading items of the N target entity objects displayed on the current display page to the terminal so that the current display page of the terminal can display the other loading items of the N target entity objects; the first loading item of the target entity object is displayed on the terminal in batches in a paging mode, so that other loading items of the target entity object are displayed on the terminal in batches corresponding to the first loading item, and are displayed on the terminal in batches in a paging mode, so that other loading items of all target entity objects do not need to be sent to the terminal at one time, the information quantity sent in the process and the time consumption for sending information are reduced, the response speed of the terminal is increased, and a user can receive the information more quickly.

Drawings

Fig. 1 is a schematic flowchart of an information loading method according to a first embodiment of the present application;

FIG. 2 is a schematic flow chart diagram illustrating an information loading method according to a second embodiment of the present application;

fig. 3 is a schematic flowchart of an information loading method according to a third embodiment of the present application;

fig. 4 is a schematic flowchart illustrating an implementation procedure of screening target entity objects according to a third embodiment of the present application;

FIG. 5 is a flowchart illustrating an information loading method according to a fourth embodiment of the present application;

FIG. 6 is a flowchart illustrating an implementation of sending a load according to a fourth embodiment of the present application;

fig. 7 is a schematic flowchart of an information loading method according to a fifth embodiment of the present application;

fig. 8 is a block diagram showing the structure of a server according to a sixth embodiment of the present application;

fig. 9 is a block diagram showing the structure of a terminal according to a seventh embodiment of the present application;

fig. 10 is a block diagram of a server in a ninth embodiment according to the present application;

fig. 11 is a block diagram showing the structure of a terminal according to a tenth embodiment of the present application.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present application clearer, the embodiments of the present application will be described in detail below with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that in the examples of the present application, numerous technical details are set forth in order to provide a better understanding of the present application. However, the technical solution claimed in the present application can be implemented without these technical details and various changes and modifications based on the following embodiments. The following embodiments are divided for convenience of description, and should not constitute any limitation to the specific implementation manner of the present application, and the embodiments may be mutually incorporated and referred to without contradiction.

A first embodiment of the present application relates to an information loading method. In the embodiment, the scene that the user uses the online meal ordering system is taken as an example, the terminal can be understood as terminal equipment such as an intelligent computer and an intelligent mobile phone, and the user can log in the online meal ordering system through the terminal to send a message to the server; the preset entity object can be understood as a commercial tenant providing ordering service on the online ordering system; the loading item can be understood as related attribute information of the merchant, such as an average consumption price of the merchant, a distance between the merchant and the user, a number of good scores received by the merchant, and the like, and the server of the online ordering system displays the loading item of the merchant to the user as reference information for ordering; the scene is more specifically a scene in an enterprise-oriented food ordering project, the enterprise collaborates in advance to bind a plurality of white list commercial tenants providing food ordering service, and all the servers of the online food ordering system provided by the enterprise display loading items of the white list commercial tenants to users; when the staff of the enterprise uses the online ordering system, the businessman for ordering is selected from the white list businessman, that is, the preset entity object is the white list businessman. The above is merely an example, and the usage scenario and the specific reference of the above nouns of the information loading method in the embodiment are not limited, and the information loading method in the embodiment may also be applied to scenarios related to information loading, such as mailbox mail loading, web page entry loading, and the like. The information loading method in this embodiment is applied to a server of an online meal ordering system, and a specific flow thereof is shown in fig. 1, and includes:

step 101, receiving a first message from a terminal, and analyzing the first message by at least one processor to obtain a target address;

step 102, determining a target geographical range through at least one processor according to a target address;

103, screening a target entity object from the entity objects through at least one processor at least according to the target geographical range and preset address information of each entity object;

and 104, receiving a second message from the terminal, analyzing the second message through at least one processor, determining and loading the loading items of the target entity objects, and sending the loading items of the target entity objects to the terminal so that the terminal can display the loading items of the target entity objects.

In the embodiment, the enterprise-oriented food ordering project is taken as a scene for example; under a normal condition, after receiving a message sent by an enterprise employee through a terminal, a server of an online ordering system provided by an enterprise loads all loading items of white list merchants, and after the loading items of all the white list merchants are loaded, the loading items are sent to the terminal for the terminal to display; in the process, due to the fact that the number of all white list merchants is large, namely the information content of the loading items of the white list merchants is large, the memory of the server is easy to overflow, the response speed of the server is rapidly reduced during loading, and even the server cannot respond, and the normal ordering process of enterprise employees is affected. In the embodiment, the target white list merchants are screened from the preset white list merchants, and then the loading items of the target white list merchants are loaded and sent to the terminal, instead of all the preset white list merchants being used as the target white list merchants, so that the number of the target white list merchants is reduced, that is, the loading items of the white list merchants needing to be loaded are also reduced, the information quantity needing to be loaded is effectively controlled, the information loading speed is increased, the time consumption of information loading and waiting for information is greatly reduced, the condition that the speed of a system is sharply reduced or the system cannot respond when the loading items of the white list merchants are loaded due to the excessive number of the white list merchants is avoided, and the ordering operation experience through the system is ensured normally.

The following describes implementation details of the information loading method of this embodiment in detail, and the following is only provided for facilitating understanding of the implementation details and is not necessary for implementing this embodiment.

In step 101, the server receives a first message from the terminal, and parses a destination address from the first message by at least one processor. Specifically, the first message from the terminal may be a message input by the user through the terminal, and the input message includes the destination address; or the positioning information of the terminal is obtained by GSP technology and the like, and the current address of the terminal can be obtained as the target address by analyzing the positioning information; the destination address may be embodied in text, such as "building on street D in district C, city a", or the destination address may also be embodied in latitude and longitude (121, 31).

In step 102, the server determines, via the at least one processor, a target geographic scope based on the target address. Specifically, the target address obtained by the analysis may be regarded as a coordinate point on the actual map, and when the target geographical range is determined, a circular range formed by taking the coordinate point represented by the target address as a center and a certain distance as a radius may be used as the target geographical range, and the radius of the certain distance may be set according to actual requirements; or, the destination address obtained by the analysis may be embodied in a form of latitude and longitude, and when the destination geographical range is determined, the latitude and longitude values of the destination address may be added or subtracted to obtain a set of corresponding ranges of latitude and longitude values, and a rectangular range formed by the ranges of latitude and longitude values is used as the destination geographical range, and the added or subtracted values may be set according to actual requirements. It is understood that the defined target geographical range is used for screening the target entity objects, i.e. excluding entity objects outside the target geographical range, so that the number of target entity objects is effectively controlled. In an example, a circular target geographical range may be determined with a target address "center of building" in city B, C, street D, 10 km as a radius; or adding or subtracting longitude values and latitude values of the target addresses (121, 30) to obtain a longitude value range [120.95,121.05] and a latitude value range [29.95,30.05], and taking a rectangular range formed by the longitude value range and the latitude value range as a target geographic range.

In step 103, the server screens out a target entity object from the entity objects through at least one processor according to at least the target geographical range and preset address information of each entity object. Specifically, when all merchants are preset in the white list as white list merchants, address information of all merchants is also stored in the white list; after the target geographical range is determined, the merchants with the address information in the target geographical range are obtained according to the address information of each merchant pre-stored in the white list and serve as the screened target merchants.

In step 104, a second message from the terminal is received, the second message is analyzed by the at least one processor, the loading items of the target entity objects are determined and loaded, and the loading items of the target entity objects are sent to the terminal, so that the terminal can display the loading items of the target entity objects. Specifically, the online ordering system may provide an optional request message indicating a search request for the merchant (e.g., a request message indicating "search according to price of merchant", a request message indicating "search according to distance of merchant", etc.), or provide a text box into which the request message may be input, and the user may log in the online ordering system through the terminal to send the request message, that is, the second message in this embodiment, to the server; the server analyzes the second message selected or input by the user to obtain a search request for the merchants, and determines the loading items of each target merchant according to the search request; after the loading items are determined, loading the loading items of all target merchants from a preset database, wherein all the loading items of all the merchants are stored in the preset database; and then, the server sends the loading items of the target merchants to the terminal, so that the terminal can display the loading items of the target merchants, and a user can select the target merchants meeting the self expectation according to the loading items of the target merchants.

In one example, the content obtained by the server parsing the second message includes a request message "search according to the price of the merchant", and the loading item is determined as "average consumption price of the merchant"; the server loads the average consumption price of each target merchant from the preset database, and sends the average consumption price of each target merchant to the terminal so that the terminal can display the average consumption price of each target merchant.

It can be understood that, in this embodiment, before the second message from the terminal is received, that is, the search request for the merchant is obtained through parsing, the target geographic range is already determined according to the target address and the target merchant is obtained through screening, and subsequent search requests are all performed based on the target merchant.

Compared with the prior art, the target entity object is screened from the preset entity objects, and then the loading items of the target entity object are loaded and sent to the terminal, instead of taking all the preset entity objects as the target entity objects, so that the number of the target entity objects is reduced, that is, the loading items of the entity objects needing to be loaded are also reduced, and the time consumption of loading is also reduced; the target entity object is obtained by screening according to the target geographical range and the address information of each entity object, and the target geographical range is determined according to the target address, so that the screened target entity object is more in line with the distribution requirement on the target address; generally, the entity objects are screened in advance according to the target addresses, so that the information quantity to be loaded is effectively controlled, the information loading speed is increased, the time consumption of information loading and information waiting is greatly reduced, the condition that the speed of a system is sharply reduced or the system cannot respond when the loading items of the entity objects are loaded due to the excessive quantity of the entity objects is avoided, and the operation experience of ordering through the system is ensured.

A second embodiment of the present application relates to an information loading method, which is substantially the same as the first embodiment, and provides a way to determine a target geographic range based on the first embodiment. In this embodiment, a scenario in which a user uses an online meal ordering system is still used as an example, and a specific flow of the information loading method in this embodiment is shown in fig. 2, and includes:

step 201, receiving a first message from a terminal, and analyzing the first message by at least one processor to obtain a target address; this step is substantially similar to step 101 and will not be described herein again.

Step 2021, determining, by at least one processor, a target address type corresponding to the target address according to a preset correspondence between the address and the address type.

Step 2022, determining, by the at least one processor, a target distance corresponding to the target address type according to a preset correspondence between the address type and the distance.

Step 2023, determining, by the at least one processor, a target geographic range based on the target address and the target distance.

Specifically, the server prestores a corresponding relation of 'address-address type' and a corresponding relation of 'address type-distance'; after the server obtains the target address through analysis, the server firstly determines the target address type corresponding to the target address according to the corresponding relation of the address-address type, and then determines the distance corresponding to the target address type according to the corresponding relation of the address type-distance, and the distance is used for determining the target geographic range.

In an example, the two correspondence relationships may be set according to a requirement, for example, addresses of a popular geographic area are both set to correspond to "popular types", and since the physical objects in the popular geographic area are distributed more intensively, the "popular types" may be set to correspond to shorter distances; the addresses of the remote geographical area are all set to correspond to the "cold type", and the "cold type" can be set to correspond to a longer distance because the physical objects in the remote geographical area are distributed more dispersedly. For example, the server parses the target address a, determines that the target address type corresponding to the target address a is a "hot type" (that is, the target address a belongs to a hot geographic area), determines that the distance corresponding to the "hot type" is 5 kilometers, and may determine a circular target geographic range with a radius of 5 kilometers or a rectangular target geographic range with a length of 5 kilometers according to the target address a. For another example, the server parses the target address B, determines that the target address type corresponding to the target address B is a "cold type" (that is, the target address B belongs to a cold geographic area), determines that the distance corresponding to the "cold type" is 10 kilometers, and may determine a circular target geographic range with a radius of 10 kilometers or a rectangular target geographic range with a length of 10 kilometers according to the target address B.

Step 2024, judging whether a target business circle exists or not through at least one processor according to the target geographic range and the geographic range of a preset business circle, wherein the geographic range of the target business circle and the target geographic range are partially overlapped; if yes, go to step 2025, otherwise go to step 203.

Step 2025, re-determining, by the at least one processor, the target geographic range based on the geographic range of the target business turn.

Specifically, the server also has a pre-stored geographic scope of a business establishment, which may be understood as an entity having a larger set of physical objects, such as a mall or a mall. After the server determines the target geographic range, comparing the target geographic range with the geographic range of a preset business circle, judging whether a target business circle partially overlapped with the target geographic range exists or not, and if so, re-determining the target geographic range according to the geographic range of the target business circle; for example, the geographic range of the target business district is taken as the target geographic range, or a part of the geographic range of the target business district, which is not overlapped with the target geographic range, is also drawn into the target geographic range (i.e. the original target geographic range is enlarged). Considering that the shape of a target geographical range determined according to a target address and a target distance is relatively regular, the geographical range of a business circle has no regularity, and the situation that the target geographical range does not necessarily completely cover the geographical range of a certain business circle exists; thus in the manner described above. The target geographic range can be flexibly and intelligently determined, and screening of appropriate target entity objects is facilitated. In the example, the target geographic range is partially overlapped with the geographic range of the superstore C, the geographic range corresponding to the east area of the superstore C belongs to the target geographic range, but the geographic range corresponding to the west area does not belong to the target geographic range, so that the target geographic range is flexibly changed, and the geographic range of the west area of the superstore C is also drawn into the target geographic range.

It is understood that steps 2024 to 2025 represent a more specific implementation based on steps 2021 to 2023.

Step 203, screening a target entity object from the entity objects through at least one processor at least according to the target geographical range and preset address information of each entity object; this step is substantially similar to step 103 and will not be described herein.

Step 204, receiving a second message from the terminal, analyzing the second message through at least one processor, determining and loading the loading items of each target entity object, and sending the loading items of each target entity object to the terminal so that the terminal can display the loading items of the target entity object; this step is substantially similar to step 104 and will not be described herein.

Compared with the prior art, the method and the device for determining the target geographic range flexibly and intelligently provide a mode for determining the target geographic range, and are beneficial to screening out a proper number of target entity objects.

The third embodiment of the present application relates to an information loading method, which is substantially the same as the first embodiment, and provides a method for screening a target entity object from entity objects based on the first embodiment. In this embodiment, a scenario in which a user uses an online meal ordering system is still used as an example, and a specific flow of the information loading method in this embodiment is shown in fig. 3, and includes:

step 301, receiving a first message from a terminal, and analyzing the first message by at least one processor to obtain a target address; this step is substantially similar to step 101 and will not be described herein again.

Step 302, determining a target geographic range by at least one processor according to a target address; this step is substantially similar to step 102 and will not be described again here.

Step 3031, acquiring the number of the entity objects in the target geographical range through at least one processor according to the target geographical range and the preset address information of each entity object.

Step 3032, comparing, by at least one processor, the number of physical objects within the target geographic range with a preset number of objects.

Specifically, the server obtains the merchants with the address information in the target geographic range according to the address information of each merchant pre-stored in the white list, and counts the number of the merchants in the target geographic range.

Step 3033, if the number of the entity objects in the target geographic range is smaller than the preset number of the objects, the target geographic range is expanded through at least one processor, and the target entity objects are screened out from the entity objects through at least one processor according to the expanded target geographic range and the address information of each entity object.

Specifically, in the step, the situation that the number of the screened target merchants is small due to the fact that merchants are scattered is considered, so that when the number of the merchants in the target geographic range is smaller than the preset number of the objects, the target geographic range is expanded, and the target geographic range can cover more merchants. The method for expanding the target geographical range may be, but is not limited to, expanding according to a preset distance; for example, when the target geographic range is circular, the radius of the circular target geographic range may be enlarged by a preset distance, and the target geographic range may be re-determined according to the enlarged radius; when the target geographic range is rectangular, the length or width of the rectangular target geographic range may be extended by a preset distance, and the target geographic range may be re-determined according to the extended length or width.

More specifically, in this step, when the target geographic range is expanded, the number of times of expanding the target geographic range is further recorded, and the next step is determined according to the number of the entity objects in the expanded target geographic range and the current number of times of expanding the target geographic range, specifically as a specific implementation flow diagram of screening the target entity object in fig. 4, including:

step 305, comparing, by at least one processor, the number of the physical objects in the expanded target geographic range with a preset number of objects.

Step 306, if the number of the solid objects in the expanded target geographic range is smaller than the preset number of objects, determining, by at least one processor, whether the number of times of expanding the target geographic range is equal to the preset number of times of expansion.

Specifically, the server acquires the merchants of which the address information is in the expanded target geographic range according to the address information of each merchant prestored in the white list, and counts the number of the merchants in the expanded target geographic range; and if the number of the commercial tenants in the expanded target geographic range is less than the preset number of the objects, judging whether the current times of expanding the target geographic range is equal to the preset times of expansion.

And 307, if the times of expanding the target geographic range are equal to the preset expanding times, all the entity objects in the expanded target geographic range are taken as target entity objects through at least one processor.

Specifically, if the number of times of expanding the target geographic range is equal to the preset number of times of expansion, which indicates that the number of times of expanding the geographic range reaches the upper limit, the geographic range is not continuously expanded for screening, and all merchants of the currently expanded target geographic range are used as target merchants, so that the operation performance of the server is ensured, and the number of target entity objects is also within a controllable range.

And 308, if the times of expanding the target geographical range are less than the preset expanding times, expanding the target geographical range again through at least one processor, and screening out the target entity object from the entity objects according to the target geographical range expanded again and the address information of each entity object. It should be understood that, in this step, the part of "expanding the target geographic range", "screening out the target entity object from the entity objects according to the expanded target geographic range and the address information of each entity object" is substantially the same as the description in the foregoing, and is not described here again.

Step 3034, if the number of the entity objects in the target geographic range is greater than the preset number of the objects, the distance value between the address information of each entity object in the target geographic range and the target address is obtained through at least one processor.

Step 3035, according to the distance value, sorting the entity objects in the target geographic range through at least one processor, and screening out the target entity objects with the number equal to the preset object number after sorting.

Specifically, when the number of the screened target merchants is less, the number of the screened target merchants also needs to be controlled not to be excessive, so that when the number of the screened target merchants is larger than the number of preset entities, the merchants are sorted and screened according to the distance value between each merchant and the target address, merchants far away from the target address are favorably eliminated, merchants near the target address are reserved, and merchants near the target address meet the distribution demand of the target address.

It is to be understood that, if the number of the entity objects in the target geographic range is equal to the preset number of the objects, each entity object in the target geographic range is taken as a target entity object by the at least one processor.

In the example, the number of merchants is preset to be 100, and the preset expansion times is 3; the server screens 50 commercial tenants from the target geographic range, wherein the commercial tenants are smaller than 100 commercial tenants, so that the target geographic range is enlarged; when the server screens 70 merchants from the enlarged target geographic range, the number of the merchants is still less than the preset 100, but the current expansion frequency is 1 and does not exceed the preset expansion frequency, and the target geographic range is continuously enlarged for screening; or, the server screens 120 merchants from the target geographic range, if the number of merchants is greater than 100, the 120 merchants are sorted from near to far according to the obtained distance value between the 120 merchants and the target address, and the top 100 merchants are screened as target merchants after sorting is completed (that is, 20 merchants far from the target address are excluded).

Step 304, receiving the second message from the terminal, analyzing the second message through the at least one processor, determining and loading the loading items of the target entity objects, and sending the loading items of the target entity objects to the terminal so that the terminal can display the loading items of the target entity objects. This step is substantially similar to step 104 and will not be described herein.

Compared with the prior art, the method and the device for screening the target entity objects provide a mode for screening the target entity objects, avoid that the number of the screened target entity objects is small, and control the number of the screened target entity objects not to be too large, so that the operating performance of the server can be ensured on the premise that the number of the target entity objects is also in a controllable range.

A fourth embodiment of the present application relates to an information loading method, which is substantially the same as the first embodiment, and provides an implementation manner regarding determining, loading, and sending a loading item of a target entity object based on the first embodiment. In this embodiment, a scenario in which a user uses an online meal ordering system is still used as an example, and a specific flow of the information loading method in this embodiment is shown in fig. 5, and includes:

step 401, receiving a first message from a terminal, and analyzing the first message by at least one processor to obtain a target address; this step is substantially the same as step 101, and is not described herein again.

Step 402, determining a target geographic range by at least one processor according to a target address; this step is substantially the same as step 102 and will not be described herein.

Step 403, screening a target entity object from the entity objects through at least one processor according to at least a target geographical range and preset address information of each entity object; this step is substantially the same as step 103, and is not described herein again.

Step 404, receiving the second message from the terminal, analyzing the second message through at least one processor, determining and loading the first loading item of each target entity object, and obtaining a screening condition.

Specifically, the server analyzes and determines the loading item needing to be loaded from the second message, and the loading item is used as the first loading item of the target merchant; in one example, the second message received by the server includes "search according to price of the merchant", and then the first loading item is determined by parsing as "average consumption price of the merchant".

After determining the first-time loading item, the server judges whether the first-time loading item of the target merchant is stored in the local cache or not through at least one processor; if yes, acquiring a first loading item of the target merchant from the local cache; and if not, loading the first loading item of the target merchant from the preset database. Specifically, in order to increase the loading speed, the first-time loading item loaded in the previous loading process can be stored in the local cache; in the subsequent loading process, if the first-time loading item of the target merchant is judged to be stored in the local cache, the first-time loading item can be directly obtained from the local cache without going to a preset database for loading operation, so that the loading speed is increased, and the loading time is saved. In one example, if the local cache stores the average consumption price of the target merchant, the average consumption price of the target merchant is directly obtained from the local cache when the first loading item is "the average consumption price of the merchant".

Specifically, the online ordering system may provide an optional request message, provide an optional filtering message (for example, a filtering message indicating that the filtering condition is "a merchant whose average consumption price is higher than a fixed value", or a filtering message indicating that the filtering condition is "a merchant whose search distance is less than a fixed value") for the user, or provide a text box into which the filtering message may be input, the user may log in to the online ordering system through the terminal to send the request message and the filtering message together to the server as a second message, and the server may further obtain the filtering condition by parsing from the second message; in one example, the server receives a second message including "search for a merchant whose average consumption price is higher than a fixed value", and determines that the filtering condition is that "average consumption price is higher than a fixed value".

The first loading item of the target entity object is determined and loaded firstly, but not all loading items of the target entity object, so that the number of the loading items is greatly reduced, and the time consumption of the first loading is greatly reduced; and the first loading item of the target entity object is determined according to the message or the designation sent by the user through the terminal, so that the first loading item of the target entity object meets the requirements of the user.

Step 405, screening, by at least one processor, target entity objects that meet the screening conditions from the target entity objects.

Specifically, in one example, when it is determined that the screening condition is "average consumption price is higher than 100 yuan", the target merchant whose first loading item of "average consumption price of merchant" is higher than "100 yuan" is screened out as the target merchant meeting the screening condition according to the acquired or loaded first loading item of the target merchant "average consumption price of merchant". It can be understood that the target entity objects meeting the screening condition are screened from the target entity objects in the more specific implementation manner.

And 406, sequencing the target entity objects meeting the screening conditions through at least one processor at least according to the first loading item, and sending the first loading item of each target entity object meeting the screening conditions to the terminal after sequencing is completed, so that the terminal can display the first loading item of each target entity object meeting the screening conditions according to the sequencing result.

Specifically, during sorting, only the target merchants meeting the screening conditions are sorted, and for convenience of description, the "target merchants" are described instead of the "target merchants meeting the screening conditions"; in this embodiment, the target entity objects may be sorted according to a preset default sorting rule, for example: when the first loading item is "average consumption price of the merchant", the preset default sorting rule may be "sort in an ascending order according to the average consumption price" or "sort in a descending order according to the average consumption price", that is, after the average consumption price of the target merchant is loaded, the target merchant is sorted in an ascending order or a descending order according to the average consumption price.

It is understood that, when there are a plurality of first-time loading items determined by the server, the target entity objects may be sorted according to a preset weight, for example: when the first loading item is 'average consumption price of a merchant' and 'distance between the merchant and a user', firstly obtaining a result A of 'sorting according to an ascending order of the average consumption price' and a result B of 'sorting according to an ascending order of the distance', and then calculating the comprehensive sorting name of the target merchant according to the sorting name of the target merchant in the result A, the weight of the 'average consumption price of the merchant', the sorting name of the target merchant in the result B and the weight of the 'distance between the merchant and the user'; and obtaining a final ordering result of the target commercial tenant according to the calculated comprehensive ordering ranking of the target commercial tenant. Of course, the above is merely an example and does not limit the ordering method.

In this embodiment, in addition to sorting according to a default sorting rule, the target entity objects may also be sorted according to a sorting rule desired by a user, specifically: the online ordering system can also provide optional sequencing information for the user or provide a text box capable of inputting the sequencing information, the user can log in the online ordering system through the terminal to send the sequencing information (as a part of a second message) of the target entity object to the server, and the server analyzes and determines the sequencing rule expected by the user from the second message to sequence the target entity object; in one example, if the second message received by the server includes "search according to price of the merchant", the first loading item is determined to be "average consumption price of the merchant"; if the second message received by the server also includes "low price priority", it is determined that the ordering rule desired by the user is "sort in ascending order according to the average consumption price", that is, after the average consumption price of the target merchant is loaded, the target merchant is ordered according to the ascending order of the average consumption price.

After the sorting is completed, the server sends the first loading item of the target merchant to the terminal, so that the terminal can display the first loading item of the target merchant according to the sorting result, a user can judge the quality degree of the target merchant according to the sorting result relatively quickly, and the target merchant meeting the self expectation can be found from the sorting result.

Step 407, loading other loading items of each target entity object meeting the screening condition through at least one processor, and sending the other loading items of each target entity object meeting the screening condition to the terminal, so that the terminal displays the other loading items of each target entity object meeting the screening condition.

Specifically, for convenience of description, a "target merchant" is used instead of the "target merchant satisfying the screening condition" for description; after the server sends the first loading item of each target entity object to the terminal, the server loads other loading items of each target entity object through at least one processor (the loading mode is not repeated), and sends the other loading items of each target entity object to the terminal so that the terminal can display the other loading items of each entity object, thereby realizing the step-by-step loading of information, generally improving the information loading speed, and greatly reducing the time consumption for information loading and information waiting.

In this embodiment, when sending the load items to the terminal, the load items can be sent according to the number of the entity objects that the terminal needs to display, so that the load items of the entity objects are displayed on the terminal in a batch and paging manner; referring to a specific implementation flow diagram of sending a load item shown in fig. 6, the specific implementation flow diagram includes:

step 501, receiving a data request of a terminal; the data request comprises the number N of target entity objects required to be displayed on a current display page of the terminal; and sending the first loading items of the N target entity objects which are sequenced at the top in the target entity objects which are not sent out to the terminal so that the current display page of the terminal can display the first loading items of the N target entity objects.

Specifically, the terminal may display the first-time loading items of the target merchant in a batch and paging manner according to a certain number; when a current display page of the terminal needs to display N target merchants, the terminal sends a data request containing N data to a server; after receiving the data request, the server sends first loading items of the first N target merchants which are not sent to the terminal according to the sequence of the sequencing result; when the terminal is switched to the next display page, the operation of sending the data request is repeated, so that the server sends the first loading items to the terminal in batches, all the first loading items of the target merchants are not required to be sent to the terminal at one time, the information quantity sent in the process and the time consumed for sending the information are reduced, the response speed of the terminal is accelerated, a user can receive the information more quickly, and the use experience is improved.

In one example, the terminal sends a data request containing N-10 to the server for the first time, and the server sends the first loading items of the 1 st to 10 th target merchants in the sorting result to the terminal for the terminal to display; when the terminal switches to the next display page, a data request containing N-10 is sent to the server, and the server sends the first loading items of 11 th to 20 th target merchants in the sorting result to the terminal for the terminal to display … …, and so on.

Step 502, receiving a request of the terminal for other loading items of the N target entity objects displayed on the current display page, and sending the other loading items of the N target entity objects displayed on the current display page to the terminal, so that the terminal can display the other loading items of the N target entity objects displayed on the current display page.

Specifically, the first loading items of the target merchants are displayed on the terminal in a page in batch, so that other loading items of the target merchants are also displayed on the terminal in a page in batch corresponding to the first loading items of the target merchants, and the server does not need to send all other loading items of the target merchants to the terminal at one time, so that the information amount sent in the process and the time consumption for sending the information are reduced, and the response speed of the terminal is accelerated.

In one embodiment, the terminal sends a data request containing N-10 to the server for the first time, and the server sends the first loading items of the 1 st to 10 th target merchants in the sorting result to the terminal for the terminal to display; then the terminal sends a request for other loading items of the 10 target merchants displayed on the current display page to the server, and the server sends other loading items of the 10 target merchants (namely, the 1 st to 10 th target merchants in the sorting result) displayed on the current display page to the terminal for the terminal to display.

Compared with the prior art, the first loading item of the entity object is determined and loaded firstly, not all the loading items of the entity object, the quantity of the loading items is small, and therefore the time consumption of the first loading is greatly reduced; the first loading item of the entity object is determined according to the message or the designation sent by the user through the terminal, so that the first loading item of the entity object meets the requirements of the user; before the terminal displays the first loading item of the entity object, the entity object is sequenced according to the first loading item, so that a user can judge the quality degree of the entity object according to the sequencing result relatively quickly and find the entity object which is in line with the self expectation from the sequencing result; after the first loading item of the entity object is displayed, other loading items of the entity object are loaded, namely, the information is loaded step by step, so that the information loading speed is improved, the time consumption of information loading and information waiting is greatly reduced, and the experience of a user is improved.

The fifth embodiment of the present application relates to an information loading method, which is exemplified in a scenario that the user uses the online meal ordering system mentioned in the first embodiment, and the information loading method is applied to a terminal used when the user logs in the online meal ordering system, and the terminal can be understood as a terminal device such as a smart computer or a smart phone. The specific flow of the information loading method in this embodiment is shown in fig. 7, and includes:

step 601, sending a first message to a server, allowing the server to obtain a target address from the first message through analysis of at least one processor, determining a target geographical range according to the target address, and screening a target entity object from the entity objects at least according to the target geographical range and preset address information of each entity object;

specifically, the first message may be a message input by a user through a terminal, and the input message includes a target address; or the positioning information of the terminal, and the address where the terminal is located at present can be obtained as the target address by analyzing the positioning information.

Step 602, sending a second message to the server, for the server to analyze the second message through at least one processor, and determining and loading the loading items of each target entity object;

specifically, the online ordering system may provide an optional request message indicating a search request for the merchant (e.g., a request message indicating "search according to price of merchant", a request message indicating "search according to distance of merchant", etc.), or provide a text box into which the request message may be input; the user can log in the online ordering system through the terminal to send a request message to the server as a second message.

Step 603, receiving the loading items of the target entity objects sent by the server, and displaying the loading items of the target entity objects.

It is understood that the terminal in this embodiment is the same as the terminal described in the first to fourth embodiments, and thus this embodiment can be implemented in cooperation with the first to fourth embodiments. The related technical details mentioned in the first to fourth embodiments are still valid in this embodiment, and are not described herein again to reduce repetition. Accordingly, the related-art details mentioned in the embodiments can also be applied to the first to fourth embodiments.

Compared with the prior art, the method includes that a first message sent by a terminal to a server is used for the server to determine a target geographic range, and a target entity object is screened out according to the target geographic range; the second message sent by the terminal to the server is used for the server to determine the loading item of the target entity object, and the loaded loading item is fed back to the terminal for display, so that the number of the target entity objects is reduced, that is, the loading item of the entity object to be loaded is also reduced, the loading time is also reduced, the information loading speed is increased, the time consumption for information loading and waiting is greatly reduced, the condition that the speed is sharply reduced or the system cannot respond when the loading item of the entity object is loaded due to the excessive number of the entity objects is avoided, and the operation experience of ordering through the terminal is ensured normally.

A sixth embodiment of the present application relates to a server, as shown in fig. 8, including: a receiving module 701, a determining module 702, a screening module 703 and a sending module 704.

A receiving module 701, configured to receive a first message from a terminal, and analyze the first message to obtain a target address;

a determining module 702, configured to determine a target geographic range according to a target address;

a screening module 703, configured to screen a target entity object from the entity objects at least according to the target geographic range and preset address information of each entity object;

a receiving module 701, configured to receive a second message from the terminal;

a sending module 704, configured to parse the second message, determine and load the loading item of each target entity object, and send the loading item of each target entity object to the terminal, so that the terminal displays the loading item of the target entity object.

In one example, the determining module 702 determines, by at least one processor, the target geographic scope based on the target address, comprising: determining a target address type corresponding to the target address through at least one processor according to a corresponding relation between a preset address and an address type; determining a target distance corresponding to the target address type through at least one processor according to a preset corresponding relation between the address type and the distance; a target geographic range is determined by the at least one processor based on the target address and the target distance.

In one example, the determining module 702, after determining, by the at least one processor, the target geographic range according to the target address and the target distance, further includes: judging whether a target business circle exists or not through at least one processor according to the target geographic range and the geographic range of a preset business circle, wherein the geographic range of the target business circle and the target geographic range are partially overlapped; if so, the target geographic range is re-determined by the at least one processor based on the geographic range of the target business turn.

In one example, the screening module 703 screens out, by at least one processor, a target entity object from the entity objects according to at least the target geographical range and preset address information of each entity object, including: acquiring the number of the entity objects in the target geographic range through at least one processor according to the target geographic range and preset address information of each entity object; comparing, by at least one processor, the number of physical objects within the target geographic range to a preset number of objects; and if the number of the entity objects in the target geographic range is smaller than the preset number of the objects, expanding the target geographic range through at least one processor, and screening the target entity objects from the entity objects through at least one processor according to the expanded target geographic range and the address information of each entity object.

In one example, after the screening module 703 compares, by at least one processor, the number of the physical objects in the target geographic range with the preset number of the objects, the method further includes: if the number of the entity objects in the target geographic range is larger than the preset number of the objects, acquiring the distance value between the address information and the target address of each entity object in the target geographic range through at least one processor; and sequencing all the entity objects in the target geographic range through at least one processor according to the distance value, and screening out the target entity objects with the number equal to the preset object number after sequencing is finished.

In one example, when the screening module 703 expands the target geographic range through at least one processor, the number of times of expanding the target geographic range is recorded; the screening module 703 screens out a target entity object from the entity objects through at least one processor according to the expanded target geographical range and the address information of each entity object, including: comparing, by at least one processor, the number of the physical objects in the expanded target geographical range with a preset number of objects; if the number of the solid objects in the expanded target geographical range is less than the preset number of the objects, judging whether the times of expanding the target geographical range is equal to the preset expansion times through at least one processor; if the times of expanding the target geographic range are equal to the preset expanding times, all the entity objects in the expanded target geographic range are used as target entity objects through at least one processor; and if the times of expanding the target geographic range are less than the preset expanding times, expanding the target geographic range again through the at least one processor, and screening the target entity object from the entity objects according to the target geographic range expanded again and the address information of each entity object.

In one example, the sending module 704 parses the second message through the at least one processor, determines and loads each target entity object loading item, and sends the loading item of the target entity object to the terminal, so that the terminal displays the loading item of the target entity object, including: analyzing the second message through at least one processor, and determining and loading the first loading item of each target entity object; sequencing the target entity objects through at least one processor at least according to the first loading item, and sending the first loading item of each target entity object to a terminal after sequencing is completed so that the terminal can display the first loading item of each target entity object according to a sequencing result; and loading other loading items of each target entity object through at least one processor, and sending the other loading items of each target entity object to the terminal so as to display the other loading items of each target entity object by the terminal.

In one example, after the sending module 704 parses the second message through the at least one processor, the method further includes: obtaining screening conditions; ordering, by the at least one processor, the target entity objects according to at least the first load, comprising: screening target entity objects which meet screening conditions from the target entity objects through at least one processor; the target entity objects that meet the screening criteria are sorted by at least one processor.

In one example, before the sending module 704 loads the first loaded item of the target entity object, the method further includes: judging whether a first loading item of a target entity object is stored in a local cache or not through at least one processor; if yes, acquiring a first loading item of the target entity object from the local cache; if not, loading the first loading item of the target entity object from the preset database; all the loading items of each target entity object are stored in the preset database.

In one example, the sending module 704 sends the first loading item of each target entity object to the terminal after the sorting is completed, so that the terminal displays the first loading item of each target entity object according to the sorting result, including: receiving a data request of a terminal; the data request comprises the number N of target entity objects required to be displayed on a current display page of the terminal; and sending the first loading items of the N target entity objects which are sequenced at the top in the target entity objects which are not sent out to the terminal so that the current display page of the terminal can display the first loading items of the N target entity objects.

In one example, the sending module 704 sends the other loading items of each target entity object to the terminal, so that the terminal displays the other loading items of each target entity object, including: and receiving a request of the terminal for other loading items of the N target entity objects displayed on the current display page, and sending the other loading items of the N target entity objects displayed on the current display page to the terminal so that the current display page of the terminal can display the other loading items of the N target entity objects.

It should be understood that the present embodiment is a device embodiment corresponding to the first, second, third or fourth embodiment, and the present embodiment can be implemented in cooperation with the first, second, third or fourth embodiment. The related technical details mentioned in the first, second, third, or fourth embodiments are still valid in this embodiment, and are not described herein again in order to reduce repetition. Accordingly, the related-art details mentioned in the embodiments can also be applied to the first, second, third, or fourth embodiments.

It should be noted that, all the modules involved in this embodiment are logic modules, and in practical application, one logic unit may be one physical unit, may also be a part of one physical unit, and may also be implemented by a combination of multiple physical units. In addition, in order to highlight the innovative part of the present application, a unit that is not so closely related to solving the technical problem proposed by the present application is not introduced in the present embodiment, but this does not indicate that there is no other unit in the present embodiment.

A seventh embodiment of the present application relates to a terminal, as shown in fig. 9, including: a sending module 801 and a receiving module 802.

A sending module 801, configured to send a first message to a server, so that the server obtains a target address through parsing of the first message by using at least one processor, determines a target geographic range according to the target address, and screens a target entity object from the entity objects at least according to the target geographic range and preset address information of each entity object;

the sending module 801 is further configured to send a second message to the server, so that the server analyzes the second message through the at least one processor, and determines and loads a loading item of each target entity object;

a receiving module 802, configured to receive the loading items of the target entity objects sent by the server, and display the loading items of the target entity objects.

It should be understood that this embodiment is a device embodiment corresponding to the fifth embodiment, and the present embodiment can be implemented in cooperation with the fifth embodiment. The related technical details mentioned in the fifth embodiment are still valid in this embodiment, and are not described herein again in order to reduce repetition. Accordingly, the related-art details mentioned in the embodiments can also be applied to the fifth embodiment.

An eighth embodiment of the present application relates to an information loading system, including: a server in a sixth embodiment and a terminal in a seventh embodiment.

In this embodiment, the server is configured to receive a first message from the terminal, and parse the first message to obtain a destination address through at least one processor; the server is further configured to determine, by the at least one processor, a target geographic range based on the target address; the server is also used for screening out a target entity object from the entity objects through at least one processor at least according to the target geographical range and preset address information of each entity object; the server is also used for receiving a second message from the terminal; the server is further used for analyzing the second message through the at least one processor, determining and loading the loading items of the target entity objects, and sending the loading items of the target entity objects to the terminal so that the terminal can display the loading items of the target entity objects.

Compared with the prior art, the method has the advantages that the server screens the target entity object from the preset entity objects, loads and sends the loading items of the target entity object to the terminal, and does not take all the preset entity objects as the target entity objects, so that the number of the target entity objects is reduced, that is, the loading items of the entity objects needing to be loaded are also reduced, and the time consumption of loading is also reduced; the target entity object is obtained by screening according to the target geographical range and the address information of each entity object, and the target geographical range is determined according to the target address, so that the screened target entity object is more in line with the distribution requirement on the target address; generally, the entity objects are screened in advance according to the target addresses, so that the information quantity to be loaded is effectively controlled, the information loading speed is increased, the time consumption of information loading and information waiting is greatly reduced, the condition that the speed of a system is sharply reduced or the system cannot respond when the loading items of the entity objects are loaded due to the excessive quantity of the entity objects is avoided, and the operation experience of ordering through the system is ensured.

A ninth embodiment of the present application is directed to a server 90, as shown in fig. 10, comprising at least one processor 90; and, memory 902 communicatively connected to at least one processor 901; and a communication component 903 connected to the at least one processor 901, the communication component 903 receiving and transmitting data under the control of the processor 901; wherein the memory 902 stores instructions executable by the at least one processor 901, the instructions being executable by the at least one processor 901 to implement: receiving a first message from a terminal, and analyzing the first message by at least one processor to obtain a target address; determining, by at least one processor, a target geographic range based on the target address; screening a target entity object from the entity objects through at least one processor according to the target geographical range and preset address information of each entity object; receiving a second message from the terminal; and analyzing the second message through at least one processor, determining and loading the loading items of the target entity objects, and sending the loading items of the target entity objects to the terminal so that the terminal can display the loading items of the target entity objects.

Specifically, the server includes: one or more processors 901 and a memory 902, where one processor 901 is taken as an example in fig. 10. The processor 901 and the memory 902 may be connected by a bus or by other means, and fig. 10 illustrates an example of a connection by a bus. Memory 702 serves as a computer-readable storage medium that may be used to store computer software programs, computer-executable programs, and modules. The processor 901 executes various functional applications and data processing of the device, i.e., implements the above-described information loading method, by executing computer software programs, instructions, and modules stored in the memory 902.

The memory 902 may include a program storage area and a data storage area, wherein the program storage area may store an operating system, an application program required for at least one function; the storage data area may store a list of options, etc. Further, the memory 902 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid state storage device. In some embodiments, the memory 902 may optionally include memory located remotely from the processor 901, which may be connected to an external device via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

One or more modules are stored in the memory 902, and when executed by the one or more processors 901, perform the information loading method in any of the above-described method embodiments.

The product can execute the method provided by the embodiment of the application, has corresponding functional modules and beneficial effects of the execution method, and can refer to the method provided by the embodiment of the application without detailed technical details in the embodiment.

A tenth embodiment of the present application relates to a terminal 11, as shown in fig. 11, the server including at least one processor 111; and a memory 112 communicatively coupled to the at least one processor 111; and a communication component 113 connected to the at least one processor 111, the communication component 113 receiving and transmitting data under control of the processor 111; wherein the memory 112 stores instructions executable by the at least one processor 111, the instructions being executable by the at least one processor 111 to implement: sending a first message to a server, so that the server obtains a target address from the first message through analysis of at least one processor, determines a target geographical range according to the target address, and screens out target entity objects from the entity objects at least according to the target geographical range and preset address information of each entity object; sending a second message to the server, so that the server analyzes the second message through at least one processor, and determining and loading the loading items of the target entity objects; and receiving the loading items of the target entity objects sent by the server, and displaying the loading items of the target entity objects.

Specifically, the server includes: one or more processors 111 and memory 112, with one processor 111 being an example in fig. 11. The processor 111 and the memory 112 may be connected by a bus or other means, and fig. 11 illustrates the connection by the bus as an example. The memory 112, which is a computer-readable storage medium, may be used to store computer software programs, computer-executable programs, and modules. The processor 111 executes various functional applications of the device and data processing by executing computer software programs, instructions, and modules stored in the memory 112, that is, implements the above-described information loading method.

The memory 112 may include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store a list of options, etc. Further, the memory 112 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid state storage device. In some embodiments, memory 112 may optionally include memory located remotely from processor 111, which may be connected to an external device via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

One or more modules are stored in the memory 112, and when executed by the one or more processors 111, perform the information loading method in any of the method embodiments described above.

An eleventh embodiment of the present application relates to a computer-readable storage medium storing a computer program. The computer program, when executed by a processor, implements the above-described information loading method embodiments applied to a server.

That is, as can be understood by those skilled in the art, all or part of the steps in the above embodiments of the information loading method may be implemented by a program instructing related hardware, where the program is stored in a storage medium and includes several instructions to enable a device (which may be a single chip, a chip, or the like) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

A twelfth embodiment of the present application relates to a computer-readable storage medium storing a computer program. The computer program, when executed by the processor, implements the above-described information loading method embodiments applied to the terminal.

It will be understood by those of ordinary skill in the art that the foregoing embodiments are specific examples for carrying out the present application, and that various changes in form and details may be made therein without departing from the spirit and scope of the present application in practice.

The embodiment of the application discloses A1. an information loading method, which is applied to a server and comprises the following steps:

receiving a first message from a terminal, and analyzing the first message by at least one processor to obtain a target address;

determining, by the at least one processor, a target geographic scope based on the target address;

screening out target entity objects from the entity objects through the at least one processor at least according to the target geographical range and preset address information of each entity object;

receiving a second message from the terminal;

and analyzing the second message through the at least one processor, determining and loading the loading item of each target entity object, and sending the loading item of each target entity object to the terminal so that the terminal can display the loading item of the target entity object.

A2. The information loading method of a1, wherein determining, by at least one processor, a target geographic scope based on the target address comprises:

determining a target address type corresponding to the target address through the at least one processor according to a corresponding relation between a preset address and an address type;

determining, by the at least one processor, a target distance corresponding to the target address type according to a preset correspondence between address types and distances;

determining, by the at least one processor, the target geographic range based on the target address and the target distance.

A3. The information loading method according to a2, wherein after determining, by the at least one processor, the target geographic range according to the target address and the target distance, the method further includes:

judging whether a target business circle exists or not through the at least one processor according to the target geographic range and the geographic range of a preset business circle, wherein the geographic range of the target business circle is partially overlapped with the target geographic range;

if so, re-determining, by the at least one processor, the target geographic scope based on the geographic scope of the target business turn.

A4. The information loading method according to a1, wherein the screening, by the at least one processor, a target entity object from the entity objects according to at least the target geographical range and preset address information of each entity object includes:

acquiring the number of the entity objects in the target geographic range through the at least one processor according to the target geographic range and preset address information of each entity object;

comparing, by the at least one processor, a number of physical objects within the target geographic range to a preset number of objects;

if the number of the entity objects in the target geographic range is smaller than the preset number of the objects, the target geographic range is expanded through the at least one processor, and the target entity objects are screened out from the entity objects through the at least one processor according to the expanded target geographic range and the address information of the entity objects.

A5. The information loading method according to a4, after the comparing, by the at least one processor, the number of the physical objects in the target geographic area with the preset number of the objects, the method further includes:

if the number of the entity objects in the target geographic range is larger than the preset number of the objects, acquiring a distance value between address information of each entity object in the target geographic range and the target address through the at least one processor;

and sequencing all the entity objects in the target geographic range through the at least one processor according to the distance value, and screening out the target entity objects with the number equal to the preset object number after sequencing is finished.

A6. The information loading method according to a4, wherein when the target geographical range is expanded by the at least one processor, the number of times of expanding the target geographical range is recorded;

the screening, by the at least one processor, a target entity object from the entity objects according to the expanded target geographical range and the address information of each entity object includes:

comparing, by the at least one processor, the number of physical objects within the enlarged target geographic range with the preset number of objects;

if the number of the solid objects in the expanded target geographic range is smaller than the preset number of the objects, judging whether the number of times of expanding the target geographic range is equal to the preset number of times of expansion through the at least one processor;

if the times of expanding the target geographic range are equal to the preset expanding times, all the entity objects in the expanded target geographic range are used as the target entity objects through at least one processor;

and if the times of expanding the target geographic range are smaller than the preset expanding times, expanding the target geographic range again through the at least one processor, and screening out the target entity object from the entity objects according to the target geographic range expanded again and the address information of each entity object.

A7. The information loading method according to a1, wherein the parsing, by the at least one processor, the second message, determining and loading a loading item of each target entity object, and sending the loading item of the target entity object to the terminal, so that the terminal displays the loading item of the target entity object includes:

analyzing the second message through the at least one processor, and determining and loading a first loading item of each target entity object;

sequencing the target entity objects through the at least one processor at least according to the first loading item, and sending the first loading item of each target entity object to the terminal after sequencing is completed so that the terminal can display the first loading item of each target entity object according to a sequencing result;

and loading other loading items of each target entity object through the at least one processor, and sending the other loading items of each target entity object to the terminal so as to display the other loading items of each target entity object by the terminal.

A8. The information loading method of a7, further comprising, after the parsing the second message by the at least one processor: obtaining screening conditions;

the ordering, by the at least one processor, the target entity objects according to at least the first load item includes:

screening, by the at least one processor, target entity objects that meet the screening criteria from the target entity objects;

ranking, by the at least one processor, the target entity objects that meet the screening criteria.

A9. The information loading method according to a7, before the loading the first loaded item of the target entity object, further comprising:

judging whether a first loading item of the target entity object is stored in a local cache or not through the at least one processor;

if yes, acquiring a first loading item of the target entity object from the local cache;

if not, loading the first loading item of the target entity object from a preset database; and all the loading items of the target entity objects are stored in the preset database.

A10. The information loading method according to a7 or A8, wherein the sending the first loaded item of each target entity object to the terminal after the sorting is completed, so that the terminal displays the first loaded item of each target entity object according to the sorting result, includes:

receiving a data request of the terminal; the data request comprises the number N of target entity objects required to be displayed on a current display page of the terminal;

and sending the first loading items of the N target entity objects which are not sent out and are ranked in the top to the terminal so that the current display page of the terminal can display the first loading items of the N target entity objects.

A11. The information loading method according to a10, where sending the other loading items of each target entity object to the terminal so that the terminal displays the other loading items of each target entity object includes:

and receiving a request of the terminal for other loading items of the N target entity objects displayed on the current display page, and sending the other loading items of the N target entity objects displayed on the current display page to the terminal so as to enable the current display page of the terminal to display the other loading items of the N target entity objects.

The embodiment of the application discloses B1. an information loading method, which is applied to a terminal and comprises the following steps:

sending a first message to a server, wherein the server obtains a target address from the first message through analysis of at least one processor, determines a target geographical range according to the target address, and screens a target entity object from the entity objects at least according to the target geographical range and preset address information of each entity object;

sending a second message to a server, so that the server analyzes the second message through at least one processor, and determining and loading the loading items of the target entity objects;

and receiving the loading items of the target entity objects sent by the server, and displaying the loading items of the target entity objects.

The embodiment of the application discloses C1. an information loading system, which comprises a server and a terminal;

the server is used for receiving a first message from the terminal and analyzing the first message to obtain a target address through at least one processor;

the server is further configured to determine, by the at least one processor, a target geographic range based on the target address;

the server is further used for screening out a target entity object from the entity objects through the at least one processor according to the target geographic range and preset address information of each entity object;

the server is also used for receiving a second message from the terminal;

the server is further configured to parse the second message through the at least one processor, determine and load a loading item of each target entity object, and send the loading item of each target entity object to the terminal, so that the terminal displays the loading item of the target entity object.

The embodiment of the application discloses D1. a server, includes:

the receiving module is used for receiving a first message from a terminal and analyzing the first message to obtain a target address;

the determining module is used for determining a target geographic range according to the target address;

the screening module is used for screening out target entity objects from the entity objects at least according to the target geographic range and preset address information of each entity object;

the receiving module is further configured to receive a second message from the terminal;

and the sending module is used for analyzing the second message, determining and loading the loading item of each target entity object, and sending the loading item of each target entity object to the terminal so that the terminal can display the loading item of the target entity object.

D2. The server of D1, the determining module determining, by at least one processor, a target geographic scope based on the target address, comprising:

D3. The server according to D2, wherein the determining module, after determining the target geographic range according to the target address and the target distance and by the at least one processor, further comprises:

D4. The server according to D1, wherein the screening module screens out, by the at least one processor, a target entity object from the entity objects according to at least the target geographic range and preset address information of each entity object, and includes:

D5. The server according to D4, after the filtering module compares, through the at least one processor, the number of the physical objects in the target geographic area with a preset number of the objects, the method further includes:

D6. The server of D4, when the filtering module expands the target geographic scope through the at least one processor, recording a number of times the target geographic scope is expanded;

the screening module screens out a target entity object from the entity objects through the at least one processor according to the expanded target geographical range and the address information of each entity object, and the screening module comprises:

D7. The server according to D1, wherein the sending module parses the second message through the at least one processor, determines and loads each target entity object loading item, and sends the loading item of the target entity object to the terminal, so that the terminal displays the loading item of the target entity object, including:

D8. The server of D7, after the sending module parses the second message through at least one processor, further comprising: obtaining screening conditions;

D9. The server according to D7, before the sending module loads the first loaded item of the target entity object, further comprising:

D10. The server according to D7 or D8, wherein the sending module sends the first loaded item of each target entity object to the terminal after the sorting is completed, so that the terminal displays the first loaded item of each target entity object according to the sorting result, and the sending module includes:

D11. The server according to D10, wherein the sending module sends the other add-on item of each target entity object to the terminal, so that the terminal displays the other add-on item of each target entity object, including:

The embodiment of the application discloses E1. a terminal, includes:

the sending module is used for sending a first message to a server, so that the server can obtain a target address from the first message through analysis of at least one processor, determine a target geographical range according to the target address, and screen out a target entity object from the entity objects at least according to the target geographical range and preset address information of each entity object;

the sending module is further configured to send a second message to a server, so that the server analyzes the second message through at least one processor, and determines and loads a loading item of each target entity object;

and the receiving module is used for receiving the loading items of the target entity objects sent by the server and displaying the loading items of the target entity objects.

The embodiment of the application discloses F1. a server, includes:

at least one processor; and the number of the first and second groups,

a memory communicatively coupled to the at least one processor; wherein the content of the first and second substances,

the memory stores instructions executable by the at least one processor to cause the at least one processor to perform:

receiving a second message from the terminal;

F2. The server according to F1, wherein the processor is capable of executing the information loading method according to any one of a2 to a11.

The embodiment of the application discloses G1. a terminal, includes:

at least one processor; and the number of the first and second groups,

An embodiment of the present application discloses h1 a computer-readable storage medium storing a computer program which, when executed by a processor, implements the information loading method described in any one of a1 to a11.

The embodiment of the application discloses I1. a computer readable storage medium, which stores a computer program, the computer program realizes the information loading method of B1 when being executed by a processor.

Claims

1. An information loading method is characterized in that a server applied to an online ordering system comprises the following steps:

if so, re-determining, by the at least one processor, the target geographic scope based on the geographic scope of the target business turn;

receiving a second message from the terminal;

analyzing the second message through the at least one processor, determining and loading a loading item of each target entity object, and sending the loading item of each target entity object to the terminal so that the terminal can display the loading item of the target entity object; specifically, the second message is analyzed through the at least one processor, and a first loading item of each target entity object is determined and loaded; sending the first loading item of each target entity object to the terminal so that the terminal can display the first loading item of each target entity object; and loading other loading items of each target entity object through the at least one processor, and sending the other loading items of each target entity object to the terminal so that the terminal can display the other loading items of each target entity object.

2. The information loading method according to claim 1, wherein determining, by at least one processor, a target geographic scope based on the target address comprises:

3. The information loading method according to claim 1, wherein the screening, by the at least one processor, a target entity object from the entity objects according to at least the target geographical range and preset address information of each entity object includes:

4. The information loading method according to claim 3, wherein after the comparing, by the at least one processor, the number of the physical objects in the target geographic range with the preset number of the objects, the method further comprises:

5. The information loading method according to claim 3, wherein when the target geographical range is expanded by the at least one processor, the number of times the target geographical range is expanded is recorded;

6. The information loading method according to claim 1, wherein the sending the first loading item of each target entity object to the terminal for the terminal to display the first loading item of each target entity object includes:

and sequencing the target entity objects through the at least one processor at least according to the first loading item, and sending the first loading item of each target entity object to the terminal after sequencing is finished so that the terminal can display the first loading item of each target entity object according to a sequencing result.

7. The information loading method according to claim 6, further comprising, after said parsing the second message by the at least one processor: obtaining screening conditions;

8. The information loading method according to claim 6, further comprising, before the loading of the first loaded item of the target entity object:

9. The information loading method according to claim 6 or 7, wherein the sending the first loading item of each target entity object to the terminal after the sorting is completed, so that the terminal displays the first loading item of each target entity object according to a sorting result, comprises:

10. The information loading method according to claim 9, wherein the sending the other loading items of each of the target entity objects to the terminal for the terminal to display the other loading items of each of the target entity objects includes:

11. An information loading method is applied to a terminal, and comprises the following steps:

sending a first message to a server, wherein the server obtains a target address from the first message through analysis of at least one processor, determines a target geographical range according to the target address, and re-determines the target geographical range according to the geographical range of the target business circle under the condition that the target business circle is determined to exist according to the target geographical range and the geographical range of a preset business circle; screening out target entity objects from the entity objects at least according to the target geographical range and preset address information of each entity object; wherein the geographic range of the target business district is partially overlapped with the target geographic range;

sending a second message to a server, so that the server analyzes the second message through at least one processor, and determining and loading the loading items of the target entity objects; specifically, the server analyzes the second message through the at least one processor, and determines and loads a first loading item of each target entity object; loading other loading items of each target entity object through the at least one processor;

receiving the loading items of the target entity objects sent by the server, and displaying the loading items of the target entity objects; specifically, receiving a first loading item of each target entity object sent by the server, and displaying the first loading item of each target entity object according to a sorting result; and then receiving other loading items of each target entity object sent by the server, and displaying the other loading items of each target entity object.

12. An information loading system is characterized by comprising a server and a terminal;

the server is further configured to determine, by the at least one processor, a target geographic range based on the target address; judging whether a target business circle exists or not through the at least one processor according to the target geographic range and the geographic range of a preset business circle, wherein the geographic range of the target business circle is partially overlapped with the target geographic range; if so, re-determining, by the at least one processor, the target geographic scope based on the geographic scope of the target business turn;

the server is also used for receiving a second message from the terminal;

the server is further configured to parse the second message through the at least one processor, determine and load a loading item of each target entity object, and send the loading item of each target entity object to the terminal, so that the terminal displays the loading item of the target entity object; specifically, the second message is analyzed through the at least one processor, and a first loading item of each target entity object is determined and loaded; sending the first loading item of each target entity object to the terminal so that the terminal can display the first loading item of each target entity object; and loading other loading items of each target entity object through the at least one processor, and sending the other loading items of each target entity object to the terminal so that the terminal can display the other loading items of each target entity object.

13. A server, comprising:

the determining module is used for determining a target geographic range according to the target address; judging whether a target business circle exists or not through at least one processor according to the target geographic range and the geographic range of a preset business circle, wherein the geographic range of the target business circle is partially overlapped with the target geographic range; if so, re-determining, by the at least one processor, the target geographic scope based on the geographic scope of the target business turn;

a sending module, configured to parse the second message, determine and load a loading item of each target entity object, and send the loading item of each target entity object to the terminal, so that the terminal displays the loading item of the target entity object; specifically, the second message is analyzed by the at least one processor, and a first loading item of each target entity object is determined and loaded; sending the first loading item of each target entity object to the terminal so that the terminal can display the first loading item of each target entity object; and loading other loading items of each target entity object through the at least one processor, and sending the other loading items of each target entity object to the terminal so that the terminal can display the other loading items of each target entity object.

14. The server according to claim 13, wherein the determining module determines, via the at least one processor, a target geographic scope based on the target address, comprising:

15. The server according to claim 13, wherein the screening module screens, by the at least one processor, a target entity object from the entity objects according to at least the target geographical range and preset address information of each entity object, and includes:

16. The server according to claim 15, wherein after the filtering module compares, via the at least one processor, the number of the physical objects in the target geographic area with a preset number of the objects, the method further comprises:

17. The server according to claim 15, wherein when the filtering module expands the target geographic scope through the at least one processor, the number of times the target geographic scope is expanded is recorded;

18. The server according to claim 13, wherein the sending module sends the first loading item of each target entity object to the terminal, so that the terminal displays the first loading item of each target entity object, and the sending module includes:

19. The server according to claim 18, wherein after the sending module parses the second message through the at least one processor, further comprising: obtaining screening conditions;

20. The server according to claim 18, wherein before the sending module loads the first loaded item of the target entity object, further comprising:

21. The server according to claim 18 or 19, wherein the sending module sends the first loading item of each target entity object to the terminal after the sorting is completed, so that the terminal displays the first loading item of each target entity object according to the sorting result, and the sending module includes:

22. The server according to claim 21, wherein the sending module sends the other add-on item of each target entity object to the terminal, so that the terminal displays the other add-on item of each target entity object, including:

23. A terminal, comprising:

the sending module is used for sending a first message to a server, so that the server can obtain a target address from the first message through analysis of at least one processor, determine a target geographical range according to the target address, and re-determine the target geographical range according to the geographical range of the target business circle under the condition that the target business circle is determined to exist according to the target geographical range and the geographical range of a preset business circle; screening out target entity objects from the entity objects at least according to the target geographical range and preset address information of each entity object; wherein the geographic range of the target business district is partially overlapped with the target geographic range;

the sending module is further configured to send a second message to a server, so that the server analyzes the second message through at least one processor, and determines and loads a loading item of each target entity object; specifically, the server analyzes the second message through the at least one processor, and determines and loads a first loading item of each target entity object; loading other loading items of each target entity object through the at least one processor;

a receiving module, configured to receive the loading items of the target entity objects sent by the server, and display the loading items of the target entity objects; specifically, receiving a first loading item of each target entity object sent by the server, and displaying the first loading item of each target entity object; and then receiving other loading items of each target entity object sent by the server, and displaying the other loading items of each target entity object.

24. A server, comprising:

at least one processor; and the number of the first and second groups,

receiving a second message from the terminal;

25. The server according to claim 24, wherein the processor is capable of executing the information loading method according to any one of claims 2 to 10.

26. A terminal, comprising:

at least one processor; and the number of the first and second groups,

receiving the loading items of the target entity objects sent by the server, and displaying the loading items of the target entity objects; specifically, receiving a first loading item of each target entity object sent by the server, and displaying the first loading item of each target entity object; and then receiving other loading items of each target entity object sent by the server, and displaying the other loading items of each target entity object.

27. A computer-readable storage medium storing a computer program, wherein the computer program, when executed by a processor, implements the information loading method according to any one of claims 1 to 10.

28. A computer-readable storage medium storing a computer program, wherein the computer program, when executed by a processor, implements the information loading method of claim 11.