CN116521119A - Communication method of hardware equipment and browser in information system - Google Patents

Abstract

The invention provides a communication method between hardware equipment and a browser in an information system, which comprises the steps of calling a class-one display page and a class-two display page to be respectively configured to each class of nodes and each class-two node; receiving access information of an access node, if the access node is a type of node, acquiring a display photo corresponding to the access node and target state information of target hardware equipment corresponding to the access node, updating a single photo display area according to the display photo, updating a state display area according to the target state information, and sending an updated type of display page to the access node; if the access node is a class II node, determining a display node, a display photo corresponding to the display node and target state information of target hardware equipment corresponding to the display node based on the operation information, updating a folded photo display area according to the display photo, updating the state display area according to the target state information, and sending the obtained updated class II display page to the access node.

Description

Communication method of hardware equipment and browser in information system

Technical Field

The present invention relates to data processing technology, and in particular, to a method for communication between a hardware device and a browser in an information system.

Background

The information system is a man-machine integrated system which is composed of computer hardware, network and communication equipment, computer software, information resources, information users and regulations and aims to process information flow. In short, an information system is a system that inputs data/information and generates information by processing.

Currently, there are many techniques for showing the working states of hardware devices in an information system, for example, the hardware devices in a park are uniformly shown on a mobile phone APP. However, in the prior art, the corresponding supervisory personnel of the hardware device is not considered, and the state of the hardware device cannot be differentially displayed through a browser in combination with the identity information of the supervisory personnel of the hardware device, so that the information of the hardware device can be seen by most people, and the safety is low.

Therefore, how to combine the identity information of the supervisory personnel of the hardware equipment to differentially display the state of the hardware equipment through the browser improves the information safety and becomes a problem to be solved urgently.

Disclosure of Invention

The embodiment of the invention provides a communication method between hardware equipment and a browser in an information system, which can combine identity information of a supervisory person of the hardware equipment to differentially display the state of the hardware equipment through the browser, thereby improving information safety.

In a first aspect of an embodiment of the present invention, a method for communication between a hardware device and a browser in an information system is provided, including:

receiving a mechanism structure tree input by a first user mechanism, acquiring the node number of subordinate nodes corresponding to each node in the mechanism structure tree, and classifying each node in the mechanism structure tree based on the node number of each node to obtain a class of nodes without subordinate nodes and a class of nodes with subordinate nodes;

calling a class of display pages to be configured to each class of nodes, wherein the class of display pages comprise a single photo display area positioned at the left side and a state display area positioned at the right side, calling a class of display pages to be configured to each class of nodes, the class of display pages comprise an integrated data display area positioned at the left side and a state display area positioned at the right side, and the integrated data display area comprises an own tree display area and a folded photo display area;

Receiving access information input by an access node based on an access link, if the access node is a type of node, acquiring a display photo corresponding to the access node and target state information of target hardware equipment corresponding to the access node, updating the single photo display area according to the display photo, updating the state display area according to the target state information, and sending the updated type of display page to the access node;

if the access node is a class II node, receiving operation information of the access node on the self tree display area, determining display nodes, display photos corresponding to the display nodes and target state information of target hardware equipment corresponding to the display nodes based on the operation information, updating the folded photo display area according to the display photos, updating the state display area according to the target state information, and sending the class II display pages after updating to the access node.

Optionally, in one possible implementation manner of the first aspect, the receiving the access information input by the access node based on the access link, if the access node is a node of a type, obtaining a display photo corresponding to the access node and target state information of a target hardware device corresponding to the access node, updating the single photo display area according to the display photo, updating the state display area according to the target state information, and sending the updated display page of a type to the access node, where the updating includes:

Receiving access information input by an access node based on an access link, if the access node is a type of node, obtaining a display photo, a position authority and a grade authority corresponding to the access node according to the access information, and displaying the display photo in a single photo display area of the type of display page to obtain an updated single photo display area;

acquiring target state information of target hardware equipment corresponding to an access node based on the position authority and the grade authority, and displaying the target state information in a state display area of the display page to obtain an updated state display area;

and updating the display pages according to the updated single photo display area and the state display area, and sending the updated display pages to the access node.

Optionally, in one possible implementation manner of the first aspect, if the access node is a class two node, the method further includes receiving operation information of the access node on the self tree display area, determining a display node, a display photo corresponding to the display node and target state information of a target hardware device corresponding to the display node based on the operation information, updating the folded photo display area according to the display photo, updating the state display area according to the target state information, obtaining an updated class two display page, and sending the updated class two display page to the access node, where the method includes:

If the access node is a class II node, acquiring an own node corresponding to the access node in a mechanism structure tree based on the access node, generating an own structure tree corresponding to the access node according to the own node corresponding to the access node, and displaying the own structure tree in the own tree display area;

the method comprises the steps of calling single photos corresponding to respective nodes in the self-structured tree, obtaining a photo sequence composed of the single photos corresponding to the respective nodes according to a sorting strategy, folding the single photos corresponding to the respective nodes according to the photo sequence to obtain folded photos, and displaying the folded photos in a folded photo display area;

receiving operation information of the access node on the self-structured tree in the self-structured tree display area, and determining that the self node selected by the access node from the self-structured tree is a display node based on the operation information;

and acquiring a single photo corresponding to the display node in the folded photo as a display photo, and replacing and updating the folded photo in the display area of the folded photo according to the display photo, updating the state display area according to the target state information, and sending the obtained updated second-class display page to the access node.

Optionally, in one possible implementation manner of the first aspect, if the access node is a class two node, the generating, based on the access node, an own node corresponding to the access node in the access node acquisition mechanism structure tree, according to the own node corresponding to the access node, an own structure tree corresponding to the access node, and displaying the own structure tree in the own tree display area includes:

sequentially traversing all subordinate nodes corresponding to the access node downwards in the mechanism structure tree according to the hierarchical direction by taking the access node as a starting point to obtain all self nodes corresponding to the access node;

splitting the mechanism structure tree according to all the self nodes corresponding to the access nodes to obtain the self structure tree corresponding to the access nodes, and displaying the self structure tree in the self tree display area.

Optionally, in one possible implementation manner of the first aspect, retrieving a single photo corresponding to each node in the own structure tree, obtaining a photo sequence composed of the single photo corresponding to each node according to a ranking policy, folding the single photo corresponding to each node according to the photo sequence to obtain a folded photo, and displaying the folded photo in the folded photo display area, where the folding photo display area includes:

Acquiring node sequences corresponding to nodes in the self-structured tree, and sequencing corresponding single photos according to the node sequences to obtain a first photo sequence;

determining a preset display width corresponding to each node according to the hierarchy information, and adjusting the width of a single photo corresponding to the corresponding node in the photo sequence based on the preset display width to obtain a second photo sequence;

and acquiring the folding span of each single photo in the second photo sequence, obtaining the folding area of each single photo according to the folding span, and sequentially overlapping the previous single photo in the adjacent single photos above the folding area of the next single photo according to the second photo sequence to obtain the folding photo.

Optionally, in one possible implementation manner of the first aspect, obtaining a node sequence corresponding to each node in the own structure tree, and ordering the corresponding single photos according to the node sequence to obtain a first photo sequence, including:

classifying a plurality of self nodes in the self structure tree according to the node attribution relation to obtain a plurality of corresponding upper nodes and lower nodes, and arranging the corresponding lower nodes behind the corresponding upper nodes to obtain a node sequence;

And acquiring single photos corresponding to each node in the self-structured tree, and sequencing a plurality of single photos based on the sequence of the node sequences to obtain a first photo sequence.

Optionally, in one possible implementation manner of the first aspect, the obtaining a folding span of each single photo in the second photo sequence, obtaining a folding area of each single photo according to the folding span, and sequentially overlapping a previous single photo in adjacent single photos over a folding area of a subsequent single photo according to the second photo sequence, to obtain a folded photo includes:

counting the number of the photos of all the single photos, obtaining a span adjustment coefficient according to the ratio of the number of the photos to the preset number, and obtaining a folding span based on the product of the span adjustment coefficient and the preset folding span;

obtaining a folding area of each single photo according to the photo edge of each single photo perpendicular to the first side in the folding direction and the folding span of each single photo parallel to the folding direction;

and sequentially superposing the previous single photo in the adjacent single photos above the folding area of the next single photo according to the second photo sequence to obtain the folded photos.

Optionally, in one possible implementation manner of the first aspect, receiving operation information of the access node on an own structure tree in the own tree display area, determining, based on the operation information, that an own node selected by the access node from the own structure tree is a display node, including:

receiving operation information of the access node on the self-owned structure tree in the self-owned tree display area, acquiring an own node selected from the self-owned structure tree by the access node based on the operation information, and determining the own node as a display node if the own node does not have a subordinate node;

if the own node has a subordinate node, generating reminding information, acquiring the own node without the subordinate node in the own structure tree based on the reminding information as a selectable node, calling a reminding frame, carrying out frame selection on the selectable node based on the reminding frame to obtain a selectable area, and sending the selectable area to the access node.

Optionally, in one possible implementation manner of the first aspect, the method further includes:

after the updated one-type display page is sent to the corresponding one-type node, if the condition that the two-type node inputs access information within a preset time period and the display node determined by the corresponding two-type node is the corresponding one-type node is judged, intercepting a state display area in the updated one-type display page as a first intercepting display area, and replacing the first intercepting display area with the state display area in the two-type display page corresponding to the corresponding two-type node; or alternatively, the first and second heat exchangers may be,

After the updated second-class display pages are sent to the corresponding second-class nodes, if the condition that access information is input by one-class nodes in a preset time period and the corresponding first-class nodes are display nodes corresponding to the updated second-class display pages is judged, the state display areas in the updated second-class display pages are taken as second interception display areas, and the second interception display areas are replaced with the state display areas in the first-class display pages of the corresponding first-class nodes.

Optionally, in one possible implementation manner of the first aspect, the method further includes:

and receiving instruction information input by the access node based on the updated first-class display page or second-class display page, acquiring target hardware equipment selected by the access node based on the instruction information as control equipment, and performing instruction operation of opening or closing the control equipment according to the instruction information.

The beneficial effects of the invention are as follows:

1. the invention can combine the identity information of the supervisory personnel of the hardware equipment to differentially display the state of the hardware equipment through the browser, thereby improving the information security. Specifically, the method includes the steps of firstly classifying the nodes without subordinate nodes as one type of nodes, classifying the nodes with subordinate nodes as two types of nodes, then calling one type of display page to display the one type of nodes, and calling the two types of display page to display the two types of nodes, so that different display pages can be displayed according to different node types. When the display page is called to display the display page, the state information of the corresponding hardware equipment and the photo information corresponding to the node are displayed, so that the corresponding node can check the state information of the hardware equipment. Because the class II nodes are subordinate, when the class II display page is called to display the class II display page, the invention displays the corresponding own structure tree and the folded photo, wherein the own structure tree comprises all subordinate nodes corresponding to the class II nodes, and the folded photo comprises the class II nodes and all subordinate photos corresponding to the class II nodes, so that the class II nodes can check the state information of the hardware equipment corresponding to the corresponding subordinate nodes through the own structure tree and the folded photo, and the own structure tree and the folded photo are mutually corresponding, thereby avoiding the situation that the subordinate nodes corresponding to the access node are possibly mixed with the photos when the number of the subordinate nodes corresponding to the access node is too large. When the equipment state information of the subordinate node corresponding to the second class node is displayed, the node selected by the second class node from the self-contained structure tree in the self-contained tree display area in the second class display page is selected as the display node, then the photo corresponding to the display node is displayed in the folded photo display area in the second class display page, and the equipment state information of the display node is displayed in the state display area in the second class display page, so that the equipment state information of the subordinate node to which the second class node belongs can be checked correspondingly through the second class display page.

2. When the self-structured tree corresponding to the second class node is obtained, the node corresponding to the second class node in the mechanism structured tree and all subordinate nodes corresponding to the node are intercepted to obtain the self-structured tree corresponding to the node, so that the self-structured tree corresponding to each second class node can be obtained quickly through the mechanism structured tree, the corresponding self-structured tree is not required to be configured for each second class node in advance, and the data processing capacity of the self-structured tree configuration is reduced. When the folded photos corresponding to the two types of nodes are obtained, the nodes are ordered according to the attribution relation among the nodes in the own structure tree to obtain the node sequence, then the single photos corresponding to the nodes are called, the photos are arranged according to the node sequence to obtain the photo sequence, and the preset width of the corresponding single photos is correspondingly adjusted according to the level information of the nodes, so that the single photos can correspond to the nodes in the own structure tree when being folded. When the single photos are folded, the folding span of the single photos in the folding direction can be adjusted according to the number of the photos, so that the folding area of each single photo can be adjusted, and because the folding photo display area is fixed, in order to enable all the single photos to be folded and displayed in the folding photo display area, when the number of the photos is larger, the folding span of each single photo in the folding direction can be set larger, and accordingly the folding area of each single photo is larger, the corresponding display area is smaller, and all the single photos can be folded and displayed in the folding photo display area.

3. The invention also intercepts and replaces the state display area in the corresponding display page according to the types of the front access node and the rear access node in the preset time, reduces the data processing amount when the corresponding display page is generated, and improves the efficiency when the corresponding display page is generated. Specifically, when the second class node just accesses the equipment state information corresponding to the display node, and then the first class node corresponding to the display node accesses the corresponding equipment state information, the invention intercepts the state display area in the second class display page corresponding to the second class node, so that the state display area is directly replaced with the state display area in the first class display page corresponding to the corresponding first class node. Or when the corresponding equipment state information is accessed by the first class node, and then the second class node accesses the equipment state information corresponding to the first class node, the invention also intercepts the state display area in the first class display page corresponding to the first class node, so that the state display area is directly replaced with the state display area in the second class display page corresponding to the corresponding second class node.

Drawings

Fig. 1 is a flow chart of a communication method between a hardware device and a browser in an information system according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an own structure tree corresponding to an access node according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a folded photograph provided by an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a communication system of a browser and a hardware device used in an information system according to an embodiment of the present invention;

fig. 5 is a schematic hardware structure of an electronic device according to an embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, a flowchart of a method for communication between a hardware device and a browser in an information system according to an embodiment of the present invention is shown, where an execution body of the method shown in fig. 1 may be a software and/or hardware device. The execution bodies of the present application may include, but are not limited to, at least one of: user equipment, network equipment, etc. The user equipment may include, but is not limited to, computers, smart phones, personal digital assistants (Personal Digital Assistant, abbreviated as PDA), and the above-mentioned electronic devices. The network device may include, but is not limited to, a single network server, a server group of multiple network servers, or a cloud of a large number of computers or network servers based on cloud computing, where cloud computing is one of distributed computing, and a super virtual computer consisting of a group of loosely coupled computers. This embodiment is not limited thereto. The method comprises the steps S1 to S4, and specifically comprises the following steps:

S1, receiving an organization structure tree input by a first user organization, acquiring the node number of subordinate nodes corresponding to each node in the organization structure tree, and classifying each node in the organization structure tree based on the node number of each node to obtain a class of nodes without subordinate nodes and a class of nodes with subordinate nodes.

Firstly, it should be noted that, in the scheme, communication is established between the hardware device and the browser, and the user can input the corresponding access address and the access information through the browser to access the state information of the corresponding hardware device.

When the browser page is used for displaying the state of the hardware equipment for the user, the state of the hardware equipment is displayed according to the node type corresponding to the user in the mechanism structure tree, and when the state is displayed, the nodes in the mechanism structure tree are classified according to the number of subordinate nodes, the nodes are divided into a class of nodes without the subordinate nodes and a class of nodes with the subordinate nodes, and display pages corresponding to the class of nodes and the class of nodes respectively are generated in different modes later.

It can be understood that the nodes in the organization structure tree are divided into the first class nodes and the second class nodes according to the invention, because in practical application, a company, a park and other organizations may contain multiple hierarchical relationships, for example, a boss may administer a director, a director may administer respective subordinate, a boss may view information of all persons, a director may view information of the subordinate to which the director belongs, but may not view information of the subordinate of other director, and an employee may only view information of the employee, so that the nodes in the organization structure tree are classified according to the number of the subordinate nodes, and differentiated display may be performed on display pages of each node according to the type of the node, so that the first class node may only view the state of hardware equipment of the user, and the second class node may view the state of hardware equipment of all subordinate nodes of the user.

The organization structure tree may be a personnel information structure tree corresponding to a company, and may be configured according to hierarchical information and affiliated information of personnel corresponding to each node in the company.

S2, calling a class of display pages to be configured to each class of nodes, wherein the class of display pages comprise a single photo display area positioned at the left side and a state display area positioned at the right side, calling a class of display pages to be configured to each class of nodes, the class of display pages comprise an integrated data display area positioned at the left side and a state display area positioned at the right side, and the integrated data display area comprises an own tree display area and a folded photo display area.

After classifying each node in the mechanism structure tree to obtain a class node and a class node, the invention configures a class display page to the class node and configures a class display page to the class node.

It can be understood that, since the class node does not have a subordinate node, that is, the class node corresponds to a user who may be an employee level, and may only view the device state of the user, when configuring the display page for the class node, the class display page that includes only the state display area for displaying the device state and the single display area for displaying the photo corresponding to the class node may be invoked to configure the display page.

The second class node has subordinate nodes, that is, the second class node may be a user of a management level or an boss level, which may view the device states corresponding to all the subordinate nodes to which the second class node belongs, and the subordinate nodes corresponding to the second class node may be many, so when the display page is configured for the second class node, the second class display page including the integrated data display area and the state display area may be invoked to be configured.

The integrated data display area comprises an own tree display area capable of displaying own structure trees corresponding to the corresponding class two nodes, the own structure tree can display all subordinate nodes corresponding to the class two nodes, and a folded photo display area capable of displaying photos of all subordinate nodes corresponding to the corresponding class two nodes, all subordinate nodes which the integrated data display area belongs to can be checked through the class two nodes, so that the corresponding subordinate nodes can be selected in the integrated data display area, and state information of the corresponding subordinate nodes can be displayed through the state display area.

By the method, different display pages can be configured for the nodes in the mechanism structure tree according to different node types, so that the corresponding nodes can be displayed in a differentiated mode when the equipment state is checked.

S3, receiving access information input by an access node based on an access link, if the access node is a type of node, acquiring a display photo corresponding to the access node and target state information of target hardware equipment corresponding to the access node, updating the single photo display area according to the display photo, updating the state display area according to the target state information, and sending the updated type of display page to the access node.

In practical application, when access information of an access node is received, the invention firstly judges whether the access node is a class-one node or a class-two node, when the access node is judged to be a class-one node, the invention obtains a display photo corresponding to the access node, for example, a certificate photo, then displays and updates a single photo display area according to the display photo, obtains target state information of hardware equipment corresponding to the access node, displays and updates the state display area according to the target state information, and finally sends a type of updated display page to the corresponding access node.

The specific implementation manner of step S3 based on the above embodiment may be:

S31, receiving access information input by an access node based on an access link, if the access node is a type of node, obtaining a display photo, a position authority and a grade authority corresponding to the access node according to the access information, and displaying the display photo in a single photo display area of the type of display page to obtain an updated single photo display area.

Specifically, the invention obtains the display photo, the position authority and the grade authority corresponding to the corresponding access node according to the access information, and then places the display photo in a single photo display area of a display page to display, thereby obtaining an updated single photo display area.

S32, acquiring target state information of target hardware equipment corresponding to the access node based on the position authority and the grade authority, and displaying the target state information in a state display area of the display page to obtain an updated state display area.

When the state display area is updated, the method and the device can obtain the target state information of the target hardware device corresponding to the access node according to the position authority and the grade authority, and then display the target state information in the state display area of a display page.

It can be understood that, because the identity information corresponding to each type of node is different, the corresponding position authority and grade authority of each type of node are also different, for example, the type of node a may only view the state information of the hardware device belonging to itself in the area a, so when the state display area is updated, the invention can obtain the target hardware device corresponding to the corresponding access node according to the position authority and grade authority, and then obtain the target state information of each target hardware device for display.

And S33, updating one type of display page according to the updated single photo display area and the state display area, and sending the updated one type of display page to the access node.

By the method, the state information of the hardware equipment corresponding to the access node when the access node is a type of node can be obtained, and the corresponding target state information is displayed to the corresponding access node through a type of display page.

S4, if the access node is a class II node, receiving operation information of the access node on the self tree display area, determining display nodes, display photos corresponding to the display nodes and target state information of target hardware equipment corresponding to the display nodes based on the operation information, updating the folded photo display area according to the display photos, updating the state display area according to the target state information, and sending the class II display pages after updating to the access node.

When the access node is judged to be a class II node, the invention acquires the display node selected by the access node from the tree display area according to the operation information of the access node on the tree display area, the display photo corresponding to the display node and the target state information of the target hardware equipment corresponding to the display node, updates the folded photo display area through the display photo, updates the state display area through the target state information, and sends the updated class II display page to the corresponding access node.

The specific implementation manner of step S4 based on the above embodiment may be:

s41, if the access node is a class II node, acquiring an own node corresponding to the access node in the mechanism structure tree based on the access node, generating an own structure tree corresponding to the access node according to the own node corresponding to the access node, and displaying the own structure tree in the own tree display area.

It can be understood that when the access node is a class two node, it is indicated that the access node is a subordinate node, so that the invention firstly obtains the own structure tree corresponding to the access node, and displays all the subordinate nodes corresponding to the access node through the own structure tree, so that the access node can select the target state information of the corresponding subordinate node to view according to the own structure tree.

The self nodes comprise nodes corresponding to the access nodes in the organization structure tree and nodes corresponding to all subordinate nodes of the access nodes in the organization structure tree.

Specifically, step S41 includes steps S411 to S412:

s411, using the access node as a starting point, traversing all subordinate nodes corresponding to the access node downwards in the mechanism structure tree according to the hierarchical direction, and obtaining all self nodes corresponding to the access node.

The hierarchy direction may be a direction from an upper hierarchy to a lower hierarchy, specifically, a node corresponding to an access node may be found in the organization structure tree, then all subordinate nodes corresponding to the node are found along the hierarchy direction with the node as a starting point, and then all obtained nodes are used as own nodes corresponding to the access node.

And S412, splitting the mechanism structure tree according to all the self nodes corresponding to the access nodes to obtain the self structure tree corresponding to the access nodes, and displaying the self structure tree in the self tree display area.

After all the self nodes corresponding to the access nodes are obtained, the mechanism structure tree can be split according to the self nodes, the self structure tree corresponding to the access nodes is obtained by extracting the part consisting of all the self nodes in the mechanism structure tree, and the self structure tree is displayed in the self tree display area.

S42, single photos corresponding to the nodes in the self-structured tree are called, a photo sequence composed of the single photos corresponding to the nodes is obtained according to a sorting strategy, the single photos corresponding to the nodes are folded according to the photo sequence, a folded photo is obtained, and the folded photo is displayed in the folded photo display area.

After obtaining the self-contained structure tree, the invention also calls a single photo corresponding to each node in the self-contained structure tree, and in practical application, the single photo can be a certificate corresponding to each node. After obtaining the single photos corresponding to the nodes, the invention also arranges the single photos according to the own structure tree to obtain a photo sequence, folds the single photos in the photo sequence, and then places the obtained folded photos in a folded photo display area for display.

Therefore, the folded photos and the own structure tree are mutually corresponding, when the access node selects the corresponding display node through the own structure tree, the photo of the user corresponding to the display node can be obtained through the folded photo display area, and the situation that the subordinate node corresponding to the access node is possibly mixed with the photo when the subordinate node corresponding to the access node is too many can be avoided.

It can be further understood that the single photo corresponding to the own node is folded and displayed, and because the single photo corresponding to the own node may not be displayed all at once due to the excessive number of the single photos, the single photo corresponding to the own node is folded and displayed, and the single photo corresponding to the display node is enlarged and displayed in the photo folding and displaying area according to the display node selected by the access node, so that the access node can correspond to the display node and the single photo corresponding to the display node.

In some embodiments, a folded photograph may be obtained by:

s421, obtaining node sequences corresponding to nodes in the self-structured tree, and sequencing corresponding single photos according to the node sequences to obtain a first photo sequence.

When ordering single photos, the invention can order the photos according to the node sequences corresponding to the nodes in the own structure tree.

Specifically, step S421 includes steps S4211 to S4212, which are specifically as follows:

s4211, classifying a plurality of self nodes in the self structure tree according to the node attribution relation to obtain a plurality of corresponding upper nodes and lower nodes, and arranging the corresponding lower nodes behind the corresponding upper nodes to obtain a node sequence.

It can be understood that each node in the own structure tree may have an own attribution relationship, so when each node in the own structure tree is arranged, the nodes are classified according to the attribution relationship among the own nodes to obtain multiple groups of upper nodes and lower nodes, and then the corresponding lower nodes are arranged behind the corresponding upper nodes to obtain a node sequence.

Referring to fig. 2, a schematic diagram of an own structure tree corresponding to an access node provided in an embodiment of the present invention, it can be seen from fig. 2 that an access node corresponding to an uppermost node corresponds to a node of its own, nodes corresponding to a second row and a third row are subordinate nodes corresponding to the access node, two nodes on the left in the third row belong to a first node on the left in the second row, a third node on the left in the third row belongs to a second node on the left in the second row, and two nodes in the second row belong to nodes in the first row.

Thus, in order to sort the self-owned nodes in the self-owned structure tree shown in fig. 2, the nodes of the first row may be arranged at the first, then the first node of the left of the second row may be arranged at the back, and since the two nodes of the left of the third row are in the home relationship with the first node of the left of the second row, the two nodes of the left of the third row may be arranged at the back of the first node of the left of the second row, then the second node of the left of the second row may be arranged at the back, and finally the third node of the left of the third row may be arranged at the back of the second node of the left of the second row.

It should be noted that, since the levels between the two nodes in the second row are the same, the second node on the left of the second row may be arranged behind the nodes in the first row when the two nodes are arranged, and then the corresponding arrangement operation is performed.

S4212, obtaining single photos corresponding to nodes in the self-structured tree, and sorting the single photos based on the sequence of the node sequences to obtain a first photo sequence.

After the node sequence is obtained, the invention obtains the single photos corresponding to the nodes respectively, and then arranges the corresponding single photos according to the arrangement sequence of the nodes respectively in the node sequence to obtain the first photo sequence.

S422, determining preset display widths corresponding to all the nodes according to the level information, and adjusting the widths of the single photos corresponding to the corresponding own nodes in the photo sequence based on the preset display widths to obtain a second photo sequence.

It can be understood that, since the node levels and the relationships corresponding to each own node may be different, if the single photos are folded according to the same preset width, the level relationship and the relationship between the single photos may not be determined by folding the photos, so that the levels and the relationship between the own nodes corresponding to the single photos can be distinguished when the single photos are folded.

S423, obtaining the folding span of each single photo in the second photo sequence, obtaining the folding area of each single photo according to the folding span, and sequentially overlapping the previous single photo in the adjacent single photos above the folding area of the next single photo according to the second photo sequence to obtain the folding photo.

After the second photo sequence is obtained, the folding span of each single photo in the second photo sequence in the folding direction is obtained, so that the folding area of each single photo can be obtained according to the folding span, and then the former single photo in the adjacent single photos in the second photo sequence is overlapped above the folding area of the latter single photo in sequence, so that the folding photo is obtained.

It should be noted that, when the area where the folding area of the single photo exists is not covered by other single photos, the folding area of the corresponding single photo is also hidden, the pixel points of the corresponding area are adjusted to be the same color as the pixel points of the bottom plate, and the first single photo has no folding area.

Referring to fig. 3, a schematic diagram of a folded photo according to an embodiment of the present invention is provided, where the folded photo shown in fig. 3 corresponds to the self-structured tree shown in fig. 2.

The single photo corresponding to the uppermost in fig. 3 is the single photo corresponding to the first row of nodes in the node tree of fig. 2, and the level is the highest, so that the preset width of the single photo is also the largest, the second and fifth single photos respectively correspond to the first node and the second node corresponding to the left of the second row in fig. 2, the level is the same, so that the preset width of the single photo is the same, and the level is smaller than the level of the first single photo, so that the corresponding preset width of the photo is also smaller than the preset width of the first single photo, the third and fourth single photos correspond to the two nodes on the left of the third row in fig. 2, and are assigned to the first node on the left of the second row, so that when the single photo is arranged, the first node on the left of the second row in fig. 2 is also arranged, and the last photo corresponds to the third node on the left of the third row in fig. 2, and the corresponding to the second node on the left of the second row is the lowest, so that when the single photo is arranged, the first node on the left of the third photo is arranged.

Specifically, step S423 includes steps S4231 to S4233:

s4231, counting the number of the photos of all the single photos, obtaining a span adjustment coefficient according to the ratio of the number of the photos to the preset number, and obtaining the folding span based on the product of the span adjustment coefficient and the preset folding span.

It will be appreciated that the more the number of photos, the more the folded photos that need to be folded are described, and the folded photo display area is fixed, so that in order to enable the folded photo display area to perform folding display on all the single photos, when the number of photos is more, the more the folding span of each single photo in the folding direction can be set, so that the larger the folding area of the single photo is correspondingly, the smaller the corresponding display area is, and all the single photos can be performed folding display in the folded photo display area.

S4232, obtaining the folding area of each single photo according to the photo edge of each single photo perpendicular to the first side in the folding direction and the folding span of each single photo parallel to the folding direction.

After the folding span is obtained, the folding area of each single photo can be obtained according to the photo edge of the first side of each single photo perpendicular to the folding direction and the folding width. Wherein the folding span is parallel to the folding direction.

The side of the single photograph perpendicular to the first side of the folding direction may be the side of the single photograph on the upper side of the single photograph, for example, in fig. 3, the folding direction may be the top-down direction, and the first side may be the upper side of the single photograph.

And S4233, sequentially overlapping the former single photo in the adjacent single photos above the folding area of the latter single photo according to the second photo sequence to obtain the folded photos.

It should be noted that the single photograph needs to be folded to the left or right of the single photograph when folded, for example, the single photograph may be folded to the right of the single photograph as shown in fig. 3.

S43, receiving operation information of the access node on the self-structured tree in the self-structured tree display area, and determining that the access node selects own node in the self-structured tree as a display node based on the operation information.

After the self-owned structure tree is displayed in the self-owned tree display area and the folded photo is displayed in the folded photo display area, the self node selected by the access node from the self-owned structure tree can be used as the display node.

In some embodiments, step S43 includes steps S431 to S432, which are specifically as follows:

S431, receiving operation information of the access node on the self-structured tree in the self-structured tree display area, acquiring an own node selected from the self-structured tree by the access node based on the operation information, and determining the own node as a display node if the own node does not have a subordinate node.

If the own node does not have a subordinate node, the user, which is likely to be an employee level, corresponding to the own node is described, so that the own node can be used as a display node, and the equipment state information corresponding to the display node can be displayed directly.

S432, if the own node has a subordinate node, generating reminding information, acquiring the own node without the subordinate node in the own structure tree based on the reminding information as a selectable node, retrieving a reminding frame, carrying out frame selection on the selectable node based on the reminding frame to obtain a selectable area, and sending the selectable area to the access node.

If the own node has subordinate nodes, the method indicates that the own node is likely to be a user of a hosting level, and the corresponding equipment state information is the equipment state information corresponding to all the subordinate nodes, so that in the case, the method can generate reminding information, and the reminding information reminds the access node to select the specific subordinate node corresponding to the reminding information to check the equipment state information.

Specifically, the method and the device can obtain the self-owned nodes without subordinate nodes in the self-owned structure tree as selectable nodes according to the reminding information, then frame-select the selectable nodes through the reminding frame, and provide the selected nodes for the access node for selection reference.

S44, obtaining a single photo corresponding to the display node in the folded photo as a display photo, and target state information of target hardware equipment corresponding to the display node, replacing and updating the folded photo in the display area of the folded photo according to the display photo, updating the state display area according to the target state information, and sending the obtained updated second-class display page to the access node.

After the display node is obtained, the invention can call the display photo corresponding to the display node to replace and update the folded photo in the folded photo display area, can acquire the target state information of the target hardware equipment corresponding to the display node, update the state display area through the target state information, and then send the two types of updated display pages to the corresponding access nodes.

By the method, when the access node is the second class node, the corresponding own structure tree and the folded photo can be displayed for the access node, so that the access node can select the target state information of the corresponding subordinate node for viewing according to the own structure tree.

Based on the scheme, the invention further comprises the following scheme:

a1, after the updated first-class display page is sent to the corresponding first-class node, if the condition that the second-class node inputs access information within a preset time period and the display node determined by the corresponding second-class node is the corresponding first-class node is judged, intercepting a state display area in the updated first-class display page to serve as a first intercepting display area, and replacing the first intercepting display area with the state display area in the second-class display page corresponding to the corresponding second-class node. Or alternatively, the first and second heat exchangers may be,

in practical application, a class of nodes may have just accessed corresponding device state information, and then the class of nodes access the device state information corresponding to the class of nodes, in this case, since the device state information may not have been changed in a short time, the state display area in the class of display pages corresponding to the class of nodes may be intercepted, so that the state display area is directly replaced with the state display area in the class of display pages corresponding to the class of nodes.

The above-mentioned preset period of time may be set in advance by a worker, and may be, for example, 10S clock.

A2, after the updated two-class display pages are sent to the corresponding two-class nodes, if the condition that the access information is input by one-class node in the preset time period and the corresponding one-class node is the display node corresponding to the updated two-class display page is judged, the state display area in the updated two-class display pages is taken as a second interception display area, and the second interception display area is replaced with the state display area in the one-class display page of the corresponding one-class node.

Similarly, in practical application, the second class node may access the device state information corresponding to the display node just before the second class node accesses the corresponding device state information, and in this case, the state display area in the second class display page corresponding to the second class node may also be intercepted, so that the state display area in the second class display page corresponding to the second class node is directly replaced with the state display area in the first class display page corresponding to the corresponding class node.

By the method, the data processing amount during generation of the corresponding display page can be reduced, and the efficiency during generation of the corresponding display page is improved.

In addition, after the updated first class display page or second class display page is sent to the access node, the invention can also control the hardware device through the following steps:

And receiving instruction information input by the access node based on the updated first-class display page or second-class display page, acquiring target hardware equipment selected by the access node based on the instruction information as control equipment, and performing instruction operation of opening or closing the control equipment according to the instruction information.

In practical application, the access node may need to perform corresponding opening or closing instruction operation on the corresponding target hardware device, so after the updated first class display page or second class display page is sent to the access node, the invention also performs opening or closing instruction operation on the corresponding target hardware device according to the instruction information input by the access node, so that the access node can remotely perform corresponding operation on the corresponding target hardware device.

Referring to fig. 4, a schematic structural diagram of a hardware device and browser communication system for use in an information system according to an embodiment of the present invention includes:

the classification module is used for receiving a mechanism structure tree input by a first user mechanism, acquiring the node number of subordinate nodes corresponding to each node in the mechanism structure tree, and classifying each node in the mechanism structure tree based on the node number of each node to obtain a class of nodes without subordinate nodes and a class of nodes with subordinate nodes;

The page module is used for calling a class of display pages to be configured to each class of nodes, the class of display pages comprise a single photo display area positioned at the left side and a state display area positioned at the right side, calling a class of display pages to be configured to each class of nodes, the class of display pages comprise an integrated data display area positioned at the left side and a state display area positioned at the right side, and the integrated data display area comprises an own tree display area and a folded photo display area;

the system comprises a first-class module, a second-class module and a third-class module, wherein the first-class module is used for receiving access information input by an access node based on an access link, acquiring a display photo corresponding to the access node and target state information of target hardware equipment corresponding to the access node if the access node is a first-class node, updating the single photo display area according to the display photo, updating the state display area according to the target state information, and sending the updated first-class display page to the access node;

and the second-class module is used for receiving the operation information of the access node on the self tree display area if the access node is the second-class node, determining the display node, the display photo corresponding to the display node and the target state information of the target hardware equipment corresponding to the display node based on the operation information, updating the folded photo display area according to the display photo, updating the state display area according to the target state information, and sending the updated second-class display page to the access node.

The apparatus of the embodiment shown in fig. 4 may be correspondingly used to perform the steps in the embodiment of the method shown in fig. 1, and the implementation principle and technical effects are similar, and are not repeated here.

Referring to fig. 5, a schematic hardware structure of an electronic device according to an embodiment of the present invention is shown, where the electronic device 50 includes: a processor 51, a memory 52 and a computer program; wherein the method comprises the steps of

A memory 52 for storing the computer program, which memory may also be a flash memory (flash). Such as application programs, functional modules, etc. implementing the methods described above.

A processor 51 for executing the computer program stored in the memory to implement the steps executed by the apparatus in the above method. Reference may be made in particular to the description of the embodiments of the method described above.

Alternatively, the memory 52 may be separate or integrated with the processor 51.

When the memory 52 is a device separate from the processor 51, the apparatus may further include:

a bus 53 for connecting the memory 52 and the processor 51.

The present invention also provides a readable storage medium having stored therein a computer program for implementing the methods provided by the various embodiments described above when executed by a processor.

The readable storage medium may be a computer storage medium or a communication medium. Communication media includes any medium that facilitates transfer of a computer program from one place to another. Computer storage media can be any available media that can be accessed by a general purpose or special purpose computer. For example, a readable storage medium is coupled to the processor such that the processor can read information from, and write information to, the readable storage medium. In the alternative, the readable storage medium may be integral to the processor. The processor and the readable storage medium may reside in an application specific integrated circuit (Application Specific Integrated Circuits, ASIC for short). In addition, the ASIC may reside in a user device. The processor and the readable storage medium may reside as discrete components in a communication device. The readable storage medium may be read-only memory (ROM), random-access memory (RAM), CD-ROMs, magnetic tape, floppy disk, optical data storage device, etc.

The present invention also provides a program product comprising execution instructions stored in a readable storage medium. The at least one processor of the device may read the execution instructions from the readable storage medium, the execution instructions being executed by the at least one processor to cause the device to implement the methods provided by the various embodiments described above.

In the above embodiment of the apparatus, it should be understood that the processor may be a central processing unit (english: central Processing Unit, abbreviated as CPU), or may be other general purpose processors, digital signal processors (english: digital Signal Processor, abbreviated as DSP), application specific integrated circuits (english: application Specific Integrated Circuit, abbreviated as ASIC), or the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The steps of a method disclosed in connection with the present invention may be embodied directly in a hardware processor for execution, or in a combination of hardware and software modules in a processor for execution.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (10)

1. A method for a hardware device in an information system to communicate with a browser, comprising:

receiving a mechanism structure tree input by a first user mechanism, acquiring the node number of subordinate nodes corresponding to each node in the mechanism structure tree, and classifying each node in the mechanism structure tree based on the node number of each node to obtain a class of nodes without subordinate nodes and a class of nodes with subordinate nodes;

calling a class of display pages to be configured to each class of nodes, wherein the class of display pages comprise a single photo display area positioned at the left side and a state display area positioned at the right side, calling a class of display pages to be configured to each class of nodes, the class of display pages comprise an integrated data display area positioned at the left side and a state display area positioned at the right side, and the integrated data display area comprises an own tree display area and a folded photo display area;

receiving access information input by an access node based on an access link, if the access node is a type of node, acquiring a display photo corresponding to the access node and target state information of target hardware equipment corresponding to the access node, updating the single photo display area according to the display photo, updating the state display area according to the target state information, and sending the updated type of display page to the access node;

If the access node is a class II node, receiving operation information of the access node on the self tree display area, determining display nodes, display photos corresponding to the display nodes and target state information of target hardware equipment corresponding to the display nodes based on the operation information, updating the folded photo display area according to the display photos, updating the state display area according to the target state information, and sending the class II display pages after updating to the access node.

2. The method of claim 1, wherein the step of determining the position of the substrate comprises,

receiving access information input by an access node based on an access link, if the access node is a type of node, acquiring a display photo corresponding to the access node and target state information of target hardware equipment corresponding to the access node, updating the single photo display area according to the display photo, updating the state display area according to the target state information, and sending the updated type of display page to the access node, wherein the method comprises the following steps:

receiving access information input by an access node based on an access link, if the access node is a type of node, obtaining a display photo, a position authority and a grade authority corresponding to the access node according to the access information, and displaying the display photo in a single photo display area of the type of display page to obtain an updated single photo display area;

Acquiring target state information of target hardware equipment corresponding to an access node based on the position authority and the grade authority, and displaying the target state information in a state display area of the display page to obtain an updated state display area;

and updating the display pages according to the updated single photo display area and the state display area, and sending the updated display pages to the access node.

3. The method of claim 2, wherein the step of determining the position of the substrate comprises,

if the access node is a class II node, receiving operation information of the access node on the self tree display area, determining display nodes, display photos corresponding to the display nodes and target state information of target hardware equipment corresponding to the display nodes based on the operation information, updating the folded photo display area according to the display photos, updating the state display area according to the target state information, and sending the obtained updated class II display pages to the access node, wherein the method comprises the following steps:

if the access node is a class II node, acquiring an own node corresponding to the access node in a mechanism structure tree based on the access node, generating an own structure tree corresponding to the access node according to the own node corresponding to the access node, and displaying the own structure tree in the own tree display area;

The method comprises the steps of calling single photos corresponding to respective nodes in the self-structured tree, obtaining a photo sequence composed of the single photos corresponding to the respective nodes according to a sorting strategy, folding the single photos corresponding to the respective nodes according to the photo sequence to obtain folded photos, and displaying the folded photos in a folded photo display area;

receiving operation information of the access node on the self-structured tree in the self-structured tree display area, and determining that the self node selected by the access node from the self-structured tree is a display node based on the operation information;

and acquiring a single photo corresponding to the display node in the folded photo as a display photo, and replacing and updating the folded photo in the display area of the folded photo according to the display photo, updating the state display area according to the target state information, and sending the obtained updated second-class display page to the access node.

4. The method of claim 3, wherein the step of,

if the access node is a class two node, based on the access node obtaining mechanism structure tree and the own node corresponding to the access node, generating the own structure tree corresponding to the access node according to the own node corresponding to the access node, and displaying the own structure tree in the own tree display area, including:

Sequentially traversing all subordinate nodes corresponding to the access node downwards in the mechanism structure tree according to the hierarchical direction by taking the access node as a starting point to obtain all self nodes corresponding to the access node;

splitting the mechanism structure tree according to all the self nodes corresponding to the access nodes to obtain the self structure tree corresponding to the access nodes, and displaying the self structure tree in the self tree display area.

5. The method of claim 4, wherein the step of determining the position of the first electrode is performed,

invoking single photos corresponding to respective nodes in the self-structured tree, obtaining a photo sequence composed of the single photos corresponding to the respective nodes according to a sorting strategy, folding the single photos corresponding to the respective nodes according to the photo sequence to obtain folded photos, and displaying the folded photos in the folded photo display area, wherein the method comprises the following steps:

acquiring node sequences corresponding to nodes in the self-structured tree, and sequencing corresponding single photos according to the node sequences to obtain a first photo sequence;

determining preset display widths corresponding to all the nodes according to the level information, and adjusting the width of a single photo corresponding to the corresponding own node in the photo sequence based on the preset display widths to obtain a second photo sequence;

And acquiring the folding span of each single photo in the second photo sequence, obtaining the folding area of each single photo according to the folding span, and sequentially overlapping the previous single photo in the adjacent single photos above the folding area of the next single photo according to the second photo sequence to obtain the folding photo.

6. The method of claim 5, wherein the step of determining the position of the probe is performed,

obtaining a node sequence corresponding to each node in the self-structured tree, and sequencing corresponding single photos according to the node sequence to obtain a first photo sequence, wherein the method comprises the following steps:

classifying a plurality of self nodes in the self structure tree according to the node attribution relation to obtain a plurality of corresponding upper nodes and lower nodes, and arranging the corresponding lower nodes behind the corresponding upper nodes to obtain a node sequence;

and acquiring single photos corresponding to each node in the self-structured tree, and sequencing a plurality of single photos based on the sequence of the node sequences to obtain a first photo sequence.

7. The method of claim 6, wherein the step of providing the first layer comprises,

obtaining a folding span of each single photo in the second photo sequence, obtaining a folding area of each single photo according to the folding span, and sequentially overlapping a previous single photo in adjacent single photos above the folding area of a next single photo according to the second photo sequence to obtain a folding photo, wherein the method comprises the following steps:

Counting the number of the photos of all the single photos, obtaining a span adjustment coefficient according to the ratio of the number of the photos to the preset number, and obtaining a folding span based on the product of the span adjustment coefficient and the preset folding span;

obtaining a folding area of each single photo according to the photo edge of each single photo perpendicular to the first side in the folding direction and the folding span of each single photo parallel to the folding direction;

and sequentially superposing the previous single photo in the adjacent single photos above the folding area of the next single photo according to the second photo sequence to obtain the folded photos.

8. The method of claim 7, wherein the step of determining the position of the probe is performed,

receiving operation information of the access node on the self-structured tree in the self-structured tree display area, determining the self node selected by the access node from the self-structured tree as the display node based on the operation information, and comprising the following steps:

receiving operation information of the access node on the self-owned structure tree in the self-owned tree display area, acquiring an own node selected from the self-owned structure tree by the access node based on the operation information, and determining the own node as a display node if the own node does not have a subordinate node;

If the own node has a subordinate node, generating reminding information, acquiring the own node without the subordinate node in the own structure tree based on the reminding information as a selectable node, calling a reminding frame, carrying out frame selection on the selectable node based on the reminding frame to obtain a selectable area, and sending the selectable area to the access node.

9. The method as recited in claim 8, further comprising:

after the updated one-type display page is sent to the corresponding one-type node, if the condition that the two-type node inputs access information within a preset time period and the display node determined by the corresponding two-type node is the corresponding one-type node is judged, intercepting a state display area in the updated one-type display page as a first intercepting display area, and replacing the first intercepting display area with the state display area in the two-type display page corresponding to the corresponding two-type node; or alternatively, the first and second heat exchangers may be,

after the updated second-class display pages are sent to the corresponding second-class nodes, if the condition that access information is input by one-class nodes in a preset time period and the corresponding first-class nodes are display nodes corresponding to the updated second-class display pages is judged, the state display areas in the updated second-class display pages are taken as second interception display areas, and the second interception display areas are replaced with the state display areas in the first-class display pages of the corresponding first-class nodes.

10. The method as recited in claim 9, further comprising:

and receiving instruction information input by the access node based on the updated first-class display page or second-class display page, acquiring target hardware equipment selected by the access node based on the instruction information as control equipment, and performing instruction operation of opening or closing the control equipment according to the instruction information.