CN111984168A

CN111984168A - Automatic house information display method

Info

Publication number: CN111984168A
Application number: CN202011045546.0A
Authority: CN
Inventors: 刘俊鹏; 黄晓艳; 孙含福; 江露
Original assignee: Wuhan Hongxin Technology Service Co Ltd
Current assignee: Wuhan Hongxin Technology Service Co Ltd
Priority date: 2020-09-28
Filing date: 2020-09-28
Publication date: 2020-11-24

Abstract

The invention discloses an automatic house information display method, which comprises the steps of setting a first display area and a second display area on a display screen, displaying a house unit number list by utilizing the first display area, and simultaneously selecting a corresponding unit number by responding to a screen click event of the first display area; the second display area comprises a house state mark display area, a horizontal bar-shaped area, a vertical bar-shaped area and a grid area, the horizontal bar-shaped area is associated with a house number component, a house number list is displayed at equal intervals by utilizing the horizontal bar-shaped area, the house number list is a set of house number data after floor information is removed, the vertical bar-shaped area is associated with a floor number component, and the house floor number list is displayed at equal intervals by utilizing the vertical bar-shaped area; and generating a grid area by utilizing the horizontal strip-shaped area and the vertical strip-shaped area, associating the grid area with a central house component, acquiring house number, floor number and unit number information corresponding to a single grid by utilizing the central house component, acquiring corresponding house state information in a background database by utilizing the house number, floor number and unit number information, and embedding a corresponding house state mark in the single grid to realize house state visualization.

Description

Automatic house information display method

Technical Field

The invention belongs to the technical field of interface design, and particularly relates to an automatic house information display method.

Background

Current society internet provides huge facility for people, and more companies have all released own APP for community service, and the function that involves is more and more complicated, and the function that needs the show is more and more, and traditional mode registers the district the inside building information very numerous and diverse, work load is big to there is the quantity restriction, can not be on the terminal equipment of arbitrary size complete show house information, also convenient quick location look over house information.

Disclosure of Invention

Aiming at least one defect or improvement requirement in the prior art, the invention provides an automatic house information display method, which can be used for displaying house information by carrying terminal equipment, can be used for completely displaying house information of buildings in residential areas on the terminal equipment, and is convenient and quick.

To achieve the above object, according to one aspect of the present invention, there is provided an automated house information display method including:

setting a first display area and a second display area on a display screen, wherein the first display area of the display screen is associated with a self-defined unit number component, a house unit number list is displayed by utilizing the first display area, and meanwhile, a corresponding unit number is selected by responding to a screen click event of the first display area;

the second display area comprises a house state mark display area, a horizontal bar-shaped area, a vertical bar-shaped area and a grid area, the house state mark display area is used for displaying house state marks and corresponding state annotations, and the house state marks comprise self-holding marks and leasing marks;

the horizontal bar-shaped area is associated with the room number component, a room number list is displayed at equal intervals by utilizing the horizontal bar-shaped area, the room number list is a set of room number data after the floor information is removed, the vertical bar-shaped area is associated with the floor number component, and the room floor number list is displayed at equal intervals by utilizing the vertical bar-shaped area; and generating a grid area by utilizing the horizontal strip-shaped area and the vertical strip-shaped area, associating the grid area with a central house component, acquiring house number, floor number and unit number information corresponding to a single grid by utilizing the central house component, acquiring corresponding house state information in a background database by utilizing the house number, floor number and unit number information, and embedding a corresponding house state mark in the single grid to realize house state visualization.

As a further improvement of the present invention, the house unit number list is sequentially displayed in the horizontal direction of the first display area, and when the display number of the house unit number list exceeds the preset display number of the first display area, the relative movement position of the unit number assembly in the vertical direction is set to a fixed value by displaying the corresponding unit number string in response to the screen sliding event of the first display area.

As a further improvement of the invention, a unit number component reference point is selected, the relative movement position of the unit number component reference point in the horizontal direction is set as the lower limit of the first threshold range by setting the first threshold range of the relative movement position of the unit number component reference point in the horizontal direction, when the relative movement position of the unit number component reference point in the horizontal direction is smaller than the lower limit of the first threshold range, the relative movement position of the unit number component reference point in the horizontal direction is set as the upper limit of the first threshold range when the relative movement position of the unit number component reference point in the horizontal direction is larger than the upper limit of the first threshold range, and other points of the unit number component synchronously move along with the reference point.

As a further improvement of the invention, the house number lists are sequentially displayed along the horizontal direction of the horizontal bar-shaped area, and when the display number of the house number lists exceeds the preset display number of the horizontal bar-shaped area, the corresponding house number strings are displayed by responding to the screen sliding events of the horizontal bar-shaped area.

As a further improvement of the present invention, the house floor number list is sequentially displayed in a vertical direction of the vertical bar-shaped area, and when the displayed number of the house floor number list exceeds the preset displayed number of the vertical bar-shaped area, the corresponding floor number string is displayed by responding to a screen sliding event of the vertical bar-shaped area.

As a further improvement of the invention, the second display area is associated with a self-defined house combination nesting component, the self-defined house combination nesting component is utilized to nest an associated house number component, an associated floor number component and a central house component, house information in the grid area is dynamically displayed by responding to a sliding event of the grid area, and the house number component and the floor number component are dynamically displayed according to the display information of the grid area.

As a further improvement of the present invention, the house status mark display area is located above the second display area, the display area of the horizontal bar-shaped area is a fixed value, and the display areas of the grid area and the vertical bar-shaped area are dynamically changed, specifically:

the method comprises the steps that a sliding track of a grid area is dynamically obtained by responding to a sliding event of the grid area, when the sliding track moves upwards, a horizontal strip-shaped area moves upwards along with the sliding track to cover a house state mark display area, a vertical strip-shaped area moves upwards according to the sliding track to expand the display area, the vertical strip-shaped area does not move left and right along with the sliding track, and the grid area moves upwards along with the sliding track to expand the display area;

when the horizontal bar-shaped area moves to the top of the second display area, the top of the horizontal bar-shaped area fixed on the second display area does not move upwards along with the sliding track, and meanwhile, the vertical bar-shaped area does not move upwards according to the sliding track to expand the display area;

and dynamically acquiring the sliding track of the grid area by responding to the sliding event of the grid area, wherein when the sliding track moves towards the left side, the vertical strip-shaped area does not perform left-right displacement along with the sliding track and is fixed at the left side.

As a further improvement of the invention, an example scrollButton of a unit number is created in the first display area by using UIScrollView, and each unit number is sequentially inserted into the example scrollButton from small to large to place all the unit numbers of the building;

setting a self-defined house combination nested component in a second display area, creating an example HouseTitleView of the house component by using UIView, and creating an example scorolViewContent of the house component by self-defining UIScrolView in the HouseTitleView to serve as a large container to bear the house component;

creating topcollectionView in the scrollViewContent of HouseTitleView for inserting a house number, leftCollectionView for inserting a floor, and centerCollectionView for inserting all houses of the unit; - (void) collectionView (UICollectionView) collectionView didSelectItemIndexPath (NSIndexPath) indexPath clicks on a house in the centrcollectionView, thereby entering the background data to obtain house information.

To achieve the above object, according to another aspect of the present invention, there is provided a computer-readable medium storing a computer program executable by a terminal device, the program, when executed on the terminal device, causing the terminal device to perform the steps of the above method.

To achieve the above object, according to another aspect of the present invention, there is provided a terminal device comprising at least one processing unit, and at least one memory unit, wherein the memory unit stores a computer program which, when executed by the processing unit, causes the processing unit to perform the steps of the above method.

In general, compared with the prior art, the above technical solution contemplated by the present invention can achieve the following beneficial effects:

the invention provides an automatic house information display method, which displays corresponding unit numbers in a first display area, when the number of the unit numbers is large, the unit can be displayed and selected in a sliding mode, and house states such as self-holding and renting signs are displayed in a second display area; and a large number of houses are displayed in the core area of the second display area, wherein the left side of the houses is the floor number, and when the floors are more, the floor number components can be displayed in a sliding mode up and down. The house number is arranged on the upper side of the house, and when the number of a certain floor is large, the house number can be displayed in a sliding mode from side to side. The central area is corresponding houses, and houses for self-residence are marked by green signs, and houses for leasing are marked by yellow signs. Clicking on a single house can view more information about that house.

According to the automatic house information display method provided by the invention, when the house is checked by touching the terminal device to slide up and down, left floor and upper house number can hover, so that the floor and house number of the house are prevented from being shielded, the floor and house number of the house can be quickly and accurately positioned, when the screen of the terminal device is touched, the house number, floor number and house are linked, and one intersection of the house number and floor number can accurately position one house without dislocation. The whole house information system can bear all house information of any building, is not limited in quantity, and can completely display the house information on terminal equipment of any size. The problems that a traditional house information system in the prior art cannot conveniently locate and search house information, cannot be used on any terminal device, and house information collection in communities is complicated are solved.

Drawings

Fig. 1 is a schematic diagram of an automated house information display method according to an embodiment of the present invention;

fig. 2 is a schematic diagram of an implementation manner of an automated house information display method according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

The following describes the working principle of the automated house information display method and system provided by the present invention in detail with reference to the embodiments and the accompanying drawings.

Fig. 1 is a schematic diagram of an automated house information display method according to an embodiment of the present invention. As shown in fig. 1, an automatic house information display method includes the following steps:

the second display area comprises a house state mark display area, a horizontal bar-shaped area, a vertical bar-shaped area and a grid area, the house state mark display area is used for displaying house state marks and corresponding state annotations, the house state marks comprise self-living marks and renting marks, the self-living marks are used for indicating the house is in the self-living state, the renting marks are used for indicating the house is in the renting state, if the self-living house adopts a green mark, and the rented house adopts a yellow mark, of course, the house state marks are not limited to the two, and other states, such as normal/important person state marks, can exist at the same time;

Preferably, the house unit number list is sequentially displayed in the horizontal direction of the first display area, and when the display number of the house unit number list exceeds the preset display number of the first display area, the corresponding unit number string is displayed in response to the screen sliding event of the first display area, and the relative movement position of the unit number assembly in the vertical direction is set to be a fixed value, so that the unit number always hovers at the fixed value in the vertical direction no matter how the screen slides up and down; selecting a unit number component reference point, setting a first threshold range of the relative movement position of the unit number component reference point in the horizontal direction, setting the relative movement position of the unit number component reference point in the horizontal direction as the lower limit of the first threshold range when the relative movement position of the unit number component reference point in the horizontal direction is smaller than the lower limit of the first threshold range, setting the relative movement position of the unit number component reference point in the horizontal direction as the upper limit of the first threshold range when the relative movement position of the unit number component reference point in the horizontal direction is larger than the upper limit of the first threshold range, and synchronously moving other points of the unit number component along with the reference point of the unit number component, so that the unit number component cannot move left and right without limit to generate blank areas.

Preferably, the house number list shows in proper order along the horizontal direction in horizontal bar region, and when the display quantity of house number list exceeded the horizontal bar region and predetermine the display quantity, through responding to the screen sliding event display corresponding room number cluster in horizontal bar region, concrete implementation includes: selecting a room number component reference point, setting the relative movement position of the room number component reference point in the horizontal direction as the lower limit of the first threshold range by setting the first threshold range of the relative movement position of the room number component reference point in the horizontal direction, when the relative movement position of the room number component reference point in the horizontal direction is smaller than the lower limit of the first threshold range, and when the relative movement position of the room number component reference point in the horizontal direction is larger than the upper limit of the first threshold range, setting the relative movement position of the room number component reference point in the horizontal direction as the upper limit of the first threshold range, and synchronously moving other points of the room number component along with the reference point thereof, so that the room number component can not move left and right without limit to generate blank areas.

Preferably, the house floor number list is sequentially displayed along the vertical direction of the vertical bar-shaped area, and when the display number of the house floor number list exceeds the preset display number of the vertical bar-shaped area, the corresponding floor number string is displayed by responding to the screen sliding event of the vertical bar-shaped area, and the specific implementation manner includes: selecting a floor number component reference point, setting the relative movement position of the floor number component reference point in the vertical direction as the lower limit of the first threshold range by setting the first threshold range of the relative movement position of the floor number component reference point in the vertical direction, when the relative movement position of the floor number component reference point in the vertical direction is smaller than the lower limit of the first threshold range, and when the relative movement position of the floor number component reference point in the vertical direction is larger than the upper limit of the first threshold range, setting the relative movement position of the floor number component reference point in the vertical direction as the upper limit of the first threshold range, and synchronously moving other points of the floor number component along with the reference point thereof, so that the floor number component cannot move up and down without limit to generate blank areas.

Preferably, the second display area is associated with a customized house combination nesting component, the customized house combination nesting component is used for nesting the associated house number component, the associated floor number component and the central house component, house information in the grid area is dynamically displayed by responding to a sliding event of the grid area, and the house number component and the floor number component are dynamically displayed according to the display information of the grid area.

As a further preferred aspect, the house state mark display area is located above the second display area, the display area of the horizontal bar area is a fixed value, and the display areas of the grid area and the vertical bar area are dynamically changed, specifically: the method comprises the steps that a sliding track of a grid area is dynamically obtained by responding to a sliding event of the grid area, when the sliding track moves upwards, a horizontal strip-shaped area moves upwards along with the sliding track to cover a house state mark display area, a vertical strip-shaped area moves upwards according to the sliding track to expand the display area, the vertical strip-shaped area does not move left and right along with the sliding track, and the grid area moves upwards along with the sliding track to expand the display area; when the horizontal bar-shaped area moves to the top of the second display area, the top of the horizontal bar-shaped area fixed on the second display area does not move upwards along with the sliding track, and meanwhile, the vertical bar-shaped area does not move upwards according to the sliding track to expand the display area; and dynamically acquiring the sliding track of the grid area by responding to the sliding event of the grid area, wherein when the sliding track moves towards the left side, the vertical strip-shaped area does not perform left-right displacement along with the sliding track and is fixed at the left side. As an example, during the horizontal sliding, when the offset of the vertex of the current screen display area relative to the vertex of the self frame is negative, the x-axis of the relative coordinate of the floor component is always set to be the initial state value 14.5(14.5 is the default initial distance of the floor component from the left side of the screen), and when the offset of the vertex of the current screen display area relative to the vertex of the self frame is larger than the x-axis initial state value 14.5 of the floor component, the x-axis of the relative coordinate of the floor component is always set to be the deviation value of the sliding. During the sliding process, the value of the x axis of the relative coordinate of the floor component is dynamically set at any time. So that in horizontal sliding, the position of the floor is always on the left side of the screen, and the floor can not be seen along with sliding to the left and can not run to the right along with sliding to the right. As an example, in the process of vertical sliding, when the offset of the vertex of the current screen display area relative to the vertex of the self frame is negative, the y-axis of the relative coordinate of the room number component is always set as the initial state value 96(96 is a default initial distance of the room number component from the upper side of the screen), and when the offset of the vertex of the current screen display area relative to the vertex of the self frame is larger than the y-axis initial state value 96 of the room number component, the y-axis of the relative coordinate of the room number component is always set as the deviation value of sliding. And in the sliding process, the value of the y axis of the relative coordinate of the room number component is dynamically set at any time. So that in the vertical sliding, the position of the house number is always on the upper side of the screen, and the house number can not be seen along with upward sliding and can not run to the lower side along with downward sliding.

Fig. 2 is a schematic diagram of an implementation manner of an automated house information display method according to an embodiment of the present invention. As shown in fig. 2, as a preferred example, an instance scorlbutton of a unit number is created in the first display area by using uisrolview, each unit number is sequentially inserted into the instance scorlbutton from small to large to place all the unit numbers of the building, and when the number of the unit numbers is large, the scorlbutton can slide left and right to display and select to switch different units to display all the house information in the corresponding units. Setting a self-defined house combination nested component in a second display area, creating an example HouseTitleView of the house component by using UIView, and creating an example scorolViewContent of the house component by self-defining UIScrolView in the HouseTitleView to serve as a large container to bear the house component; creating topcollectionView in the scrollViewContent of HouseTitleView for inserting a house number, leftCollectionView for inserting a floor, and centerCollectionView for inserting all houses of the unit; - (void) collectionView (UICollectionView) collectionView wwidSelectItemIndexPath (NSIndexPath) indexPath clicks a certain house in the centrcollectionView, and can enter a house detail interface to acquire background data and obtain the detailed information of the house.

Through the setting, can bear the show of all house information of an arbitrary building on terminal equipment's the display page, there is not quantity restriction, can be on arbitrary big or small terminal equipment complete show house information, when the house is looked over to the slip of left and right sides about touch terminal equipment, the room number of the floor and the top of the left side all can hover, the floor and the room number of having avoided the house are sheltered from, floor and the room number in the house of can accurate location house fast like this, when touch terminal equipment screen, the room number, the floor number, the house is the linkage, house can accurate location by a handing-over of room number and floor number, the dislocation can not appear.

A computer-readable medium, in which a computer program executable by a terminal device is stored, causes the terminal device to perform the steps of the above-mentioned method when the program is run on the terminal device.

A terminal device comprising at least one processing unit and at least one memory unit, wherein the memory unit stores a computer program which, when executed by the processing unit, causes the processing unit to carry out the steps of the above-mentioned method.

It will be understood by those skilled in the art that the foregoing is only a preferred embodiment of the present invention, and is not intended to limit the invention, and that any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. An automated house information display method, characterized in that the method comprises:

2. The automated house information display method of claim 1, wherein the house unit number list is sequentially displayed in a horizontal direction of the first display area, and when the displayed number of the house unit number list exceeds a preset displayed number of the first display area, the relative movement position of the unit number assembly in the vertical direction is set to a fixed value by displaying the corresponding unit number string in response to a screen sliding event of the first display area.

3. The automated house information display method according to claim 2, wherein the unit number component reference point is selected, the relative movement position of the unit number component reference point in the horizontal direction is set to the lower limit of the first threshold range by setting the first threshold range of the relative movement position of the unit number component reference point in the horizontal direction, when the relative movement position of the unit number component reference point in the horizontal direction is smaller than the lower limit of the first threshold range, the relative movement position of the unit number component reference point in the horizontal direction is set to the upper limit of the first threshold range when the relative movement position of the unit number component reference point in the horizontal direction is larger than the upper limit of the first threshold range, and other points of the unit number component move synchronously with their reference points.

4. The automated house information display method of claim 1, wherein the house number lists are sequentially displayed in a horizontal direction of the horizontal bar area, and when the displayed number of the house number lists exceeds a preset displayed number of the horizontal bar area, the corresponding house number string is displayed by responding to a screen sliding event of the horizontal bar area.

5. The automated house information display method of claim 1, wherein the house floor number lists are sequentially displayed in a vertical direction of the vertical bar-shaped area, and when the displayed number of the house floor number lists exceeds a preset displayed number of the vertical bar-shaped area, the corresponding floor number string is displayed by responding to a screen sliding event of the vertical bar-shaped area.

6. The automated house information display method of claim 1, wherein the second display area is associated with a custom house building combination nesting component, the custom house combination nesting component is utilized to nest an associated house number component, an associated floor number component and a central house component, house information in the grid area is dynamically displayed by responding to a sliding event of the grid area, and the house number component and the floor number component are dynamically displayed according to the display information of the grid area.

7. The automated house information display method according to claim 6, wherein the house status flag display area is located above the second display area, the display area of the horizontal bar area is a fixed value, and the display areas of the grid area and the vertical bar area are dynamically changed, specifically:

8. The automated house information displaying method of claim 1, wherein an instance scorlbuton of a unit number is created in the first display area using uiscoreview, and each unit number is inserted into the instance scorlbuton in order from small to large for placing all unit numbers of the building;

9. A computer-readable medium, in which a computer program is stored which is executable by a terminal device, and which, when run on the terminal device, causes the terminal device to carry out the steps of the method of any one of claims 1 to 8.

10. A terminal device, comprising at least one processing unit and at least one memory unit, wherein the memory unit stores a computer program which, when executed by the processing unit, causes the processing unit to carry out the steps of the method according to any one of claims 1 to 8.