CN114003678A - Data distribution method, dangerous waste management method based on data distribution method and road emergency management method - Google Patents

Abstract

The invention provides a data distribution method, a dangerous waste management method based on the data distribution method and a road emergency management method, which solve the problems of crowded and disordered data display and the like, can display the data stage by stage in a grading way, and the data display is comprehensive and hierarchical; meanwhile, regional statistical analysis expression is achieved, and data are displayed in a linkage mode through actual geographic coordinates; interaction and operation of a geographic information system of data are supported, and the data are intuitively brought into an actual scene; the display style of the custom data, the dimension, the hierarchy and the granularity of the custom data division, the initial state of the custom display and the like can be displayed by drawing the drawing layer.

Description

Data distribution method, dangerous waste management method based on data distribution method and road emergency management method

Technical Field

The invention relates to the technical field of data distribution display, in particular to a data distribution method, a dangerous and waste product management method based on the data distribution method and a road emergency management method.

Background

In webGIS application, the large-screen content display area for data visualization is relatively limited, if a large display range is comprehensively established, the interface is crowded, the data display is general, and the appearance is not good enough.

Echarts supports map drilling, but Echarts itself has great limitations on GIS implementation because it emphasizes GIS applications where graph statistics and representations are not realistic, and cannot perform specific GIS interactions and operations thereon. The EChats is a JavaScript-based data visualization chart library and provides a visual, vivid, interactive and personalized customized data visualization chart.

Disclosure of Invention

In order to overcome the technical defects, the invention aims to provide a data distribution method with more clear data classification and more visual and concise display, a dangerous waste management method based on the data distribution method and a road emergency management method.

The invention discloses a data distribution method, which is applied to urban data display and comprises the following steps: connecting the region level distribution data with a geographic information system, and establishing the geographic information system with a plurality of layers, wherein each layer represents a primary region, and a plurality of layers represent a plurality of level regions; the region hierarchy distribution data comprises data of the plurality of levels of regions with the first country level sequentially downward; drawing a first image layer on the geographic information system, wherein the first image layer comprises a plurality of first-level areas; naming each first-level region by adopting a region name in the region hierarchy distribution data, and connecting and storing the region name with the layer hierarchy of the geographic information system; registering events for each of the first level regions: when the mouse suspension event is triggered, the first-level area is highlighted; when the mouse removal event is triggered, the highlight display is closed by the first-level area; when the mouse click event is triggered, judging whether a second-level area exists in the first-level area or not according to the area hierarchy distribution data; the events comprise a mouse suspension event, a mouse removal event and a mouse click event; if the second-level area exists, drawing all the second-level areas of the first-level area on a second image layer; sequentially judging whether all the first-level areas have second-level areas or not so as to draw a second image layer comprising all the second-level areas; naming each second-level region by adopting a region name in the region hierarchy distribution data, connecting and storing the region name with the layer hierarchy of the geographic information system, and registering an event for each second-level region; sequentially drawing a plurality of first-level image layers including the last-level region in the region hierarchical distribution data; and writing the city data into a corresponding area in the geographic information system to obtain the geographic information system for displaying the city data.

Preferably, the plurality of levels of regions comprise countries, provinces, cities, urban districts, counties, towns, villages and streets; the plurality of levels of regions also comprise a railway network, a road network and an air navigation network; the multi-level area also comprises a building layer and a greening layer.

Preferably, the determining, when the mouse click event is triggered, whether the first-level region has a second-level region according to the region hierarchy distribution data further includes: and magnifying and displaying the first-level area.

Preferably, the determining, when the mouse click event is triggered, whether the first-level region has a second-level region according to the region hierarchy distribution data further includes: concealing all of the primary regions except the primary region.

Preferably, the drawing a first map layer on the geographic information system, where the first map layer includes a plurality of first-level regions, further includes: and setting boundary coordinates for each first-level area.

Preferably, the mouse click event comprises a right click event, a right double click event, a left click event and a left double click event; the step of judging whether a second-level region exists in the first-level region or not according to the region hierarchical distribution data when the mouse click event is triggered comprises the following steps: and when the right-click event, the right-click double-click event, the left-click event or the left-click double-click event is triggered, judging whether a second-level area exists in the first-level area or not according to the area hierarchical distribution data.

Preferably, the associating the regional hierarchical distribution data with the geographic information system includes: the geographic information systems include a high-grade geographic system, a Baidu geographic system, a mapcalks geographic system, a cecum geographic system, a deckgl geographic system, and a mapbox geographic system.

The invention also discloses a dangerous waste management method, based on the data distribution method, the urban data comprises the generation data, the transportation data and the processing data of the dangerous waste; the writing the city data into the corresponding area in the geographic information system to obtain the geographic information system for displaying the city data comprises: and respectively writing the generated data, the transportation data and the processed data into corresponding areas in the geographic information system according to the areas where the generated data, the transportation data and the processed data are distributed.

The invention also discloses a dangerous and useless product management method, based on the data distribution method, when the right-key single-click event, the right-key double-click event, the left-key single-click event or the left-key double-click event is triggered, basic information of the dangerous and useless products is displayed; the basic information comprises the names of the dangerous waste products, the hazards of the dangerous waste products, the generation date, the transportation date and the treatment date.

The invention also discloses a road emergency management method, based on the data distribution method, the urban data comprises traffic accidents, natural disasters, emergency material distribution points and operation data of two passengers and one dangerous vehicle; the writing the city data into the corresponding area in the geographic information system to obtain the geographic information system for displaying the city data comprises: and respectively writing the traffic accident, the natural disaster, the emergency material distribution point and the two-passenger one-dangerous vehicle operation data into corresponding areas in the geographic information system according to the areas corresponding to the traffic accident, the natural disaster, the emergency material distribution point and the two-passenger one-dangerous vehicle operation data.

After the technical scheme is adopted, compared with the prior art, the method has the following beneficial effects:

1. the invention solves the problems of crowded and disordered data display, and can display the data in a grading way, and the data display is comprehensive and hierarchical; meanwhile, regional statistical analysis expression is achieved, and data are displayed in a linkage mode through actual geographic coordinates; interaction and operation of a Geographic Information System (GIS) of data are supported, and actual scenes are visually brought in;

2. the display style of the custom data, the dimension, the hierarchy and the granularity of the custom data division, the initial state of the custom display and the like can be displayed by drawing the drawing layer.

Drawings

Fig. 1 is an example of administrative region division of a data distribution method provided by the present invention;

FIG. 2 is a flow chart of a data distribution method provided by the present invention;

fig. 3 is a schematic flow chart of a preferred embodiment of the data distribution method provided by the present invention.

Detailed Description

The advantages of the invention are further illustrated in the following description of specific embodiments in conjunction with the accompanying drawings.

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

The terminology used in the present disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in this disclosure and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

It is to be understood that although the terms first, second, third, etc. may be used herein to describe various information, such information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present disclosure. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

In the description of the present invention, unless otherwise specified and limited, it is to be noted that the terms "mounted," "connected," and "connected" are to be interpreted broadly, and may be, for example, a mechanical connection or an electrical connection, a communication between two elements, a direct connection, or an indirect connection via an intermediate medium, and specific meanings of the terms may be understood by those skilled in the art according to specific situations.

In the following description, suffixes such as "module", "component", or "unit" used to denote elements are used only for facilitating the explanation of the present invention, and have no specific meaning in themselves. Thus, "module" and "component" may be used in a mixture.

Generally speaking, people in different departments and different posts have different concerns about services; even the same person needs to be handed in from multiple dimensions when analyzing problems. Therefore, when data is analyzed, multidimensional analysis is often needed, so that the current situation and the analysis problem can be more comprehensively known, a conclusion can be drawn, and an entry point for solving the problem can be found. In order to meet the analysis requirements for different dimensions, data drilling is used.

Data drilling is the subdivision and presentation of data according to a specific hierarchical structure or condition, so that the data range concerned by a user is gradually drilled down from a larger surface and focused to a small point. Drilling is the changing of the hierarchy of dimensions, transforming the granularity of the analysis. It includes drill-up and drill-down. By way of a wizard, the user may define a summary of the analysis factors.

WebGIS publishes and applies the geospatial data through the Internet to realize the sharing and operation of the geospatial data. The map drilling is realized by a data drilling technology on a GIS map, the dimension and the level of drilling can be set for basic data according to the self requirement, and the data is drilled up or drilled down by a component multi-branch tree. The idea of constructing the multi-branch tree is realized, the child nodes are found when the child nodes are drilled down, and the parent nodes are found when the child nodes are drilled up.

Taking map drilling as an example, data is firstly divided according to different data granularities, and parent-child relationships are formed between data items after division, such as administrative region division shown in fig. 1, each region is a separate data item, and the data items contain several pieces of key information, as shown in the following table:

based on the WebGIS, the invention discloses a data distribution method, which is applied to urban data display and comprises the following steps with reference to the attached figure 2:

s100, connecting the region hierarchical distribution data with a geographic information system, and establishing the geographic information system with a plurality of layers, wherein each layer represents a primary region, and a plurality of layers represent a plurality of levels of regions; the regional hierarchical distribution data comprises data of a plurality of levels of regions with the first country level sequentially going down;

s200, drawing a first image layer on a geographic information system, wherein the first image layer comprises a plurality of first-level areas;

s300, naming each first-level region by adopting a region name in region hierarchy distribution data, and connecting and storing the region name with a layer hierarchy of a geographic information system;

s400, registering events for each first-level area: when a mouse suspension event is triggered, the first-level area is highlighted; when a mouse removal event is triggered, the highlight display is closed in the first-level area; judging whether a first-level region has a second-level region or not through region hierarchy distribution data when a mouse click event is triggered; the events comprise a mouse suspension event, a mouse removal event and a mouse click event; if the second-level area exists, drawing all the second-level areas of the first-level area on the second image layer;

s500, sequentially judging whether all the first-level areas have second-level areas or not so as to draw a second image layer comprising all the second-level areas;

s600, naming each second-level region by adopting a region name in region hierarchy distribution data, connecting and storing the region name with a layer hierarchy of a geographic information system, and registering an event for each second-level region;

s700, sequentially drawing a plurality of first level image layers including the last level region in the region level distribution data;

and S800, writing the city data into a corresponding area in the geographic information system to obtain the geographic information system for displaying the city data.

The WebGIS map is formed by superposing a plurality of map layers from bottom to top, and the region-level distribution data represents a set of region elements, including the geographic positions, the shapes and the sizes of the region elements and descriptive information stored by attributes.

It can be understood that the data is divided into a plurality of files according to a certain attribute, such as a drop road network, a highway road network, a building layer, a greening layer, and the like, and on the basis, the data to be displayed on the GIS can be divided into layers through regions, wherein the division dimension can be large or small, the division can be based on provinces, or a road section or a street. And uniformly drawing the data in each divided block region on the same layer, naming the layer by the region name, and superposing the layer on the WebGIS, so that the unified management can be performed on the related data on the layer and the adding and removing operations of the layer.

When the method is applied to administrative division, firstly, a Chinese map is initialized, then, a map layer is constructed, after construction is completed, when a mouse is suspended on a certain province, the province is highlighted, when the province area of the mouse is clicked, other provinces are hidden or relevant data of the province and the province are displayed in a self-adaptive amplification mode, and if the province area has a lower-level unit, the operation is performed in the same way.

The method is suitable for two-dimensional or three-dimensional webGIS maps, can be applied to the fields of smart cities, smart traffic and the like, and solves the problems of crowded and disordered data display of a GIS (geographic information system) of a data visualization platform.

Preferably, the areas are divided according to different granularities, and the areas of several levels can comprise countries, provinces, cities, urban districts, counties, towns, villages, streets and the like, and can also comprise railway networks, highway networks, air navigation networks and the like; but may also include building layers, greening layers, etc. Without limitation, the partitions may be divided in different dimensions and according to different granularity criteria.

Preferably, when a mouse click event is triggered, in addition to performing a drill-down of the child node (i.e. determining whether the first level region has the second level region), for better clarity of display, the method further includes: the first-level area is displayed in an adaptive amplification mode, and the amplification size can be set and is generally set according to the size of a screen display.

Preferably, when a mouse click event is triggered, in addition to performing a drill-down of a child node (i.e. determining whether the first-level region has the second-level region), for a more concise display, the method further includes: hiding all the first-level areas except the first-level area, namely only displaying data of a mouse click area and removing other irrelevant information.

It should be noted that the enlarged display of the area and the hiding of the non-self area can be realized synchronously or individually. That is, the non-self region may be enlarged and displayed and hidden at the same time, only the non-self region may be enlarged and displayed and not hidden, or only the non-self region may be hidden and not enlarged and displayed.

Preferably, after the first map layer is drawn on the geographic information system, a boundary coordinate is set for each first-level region.

Preferably, the mouse click event includes a right click event, a right double click event, a left click event, and a left double click event, and the mouse click event (i.e., whether the first level region has the second level region or not is determined by the region hierarchy distribution data) can be derived from any one or two of the right click event, the right double click event, the left click event, and the left double click event.

Preferably, the WebGIS is not limited to the GIS framework, and may be a grand geographic system, a Baidu geographic system, a mapcalks geographic system, a cecum geographic system, a deckgl geographic system, a mapbox geographic system, or other systems that can implement GIS functions.

An embodiment is provided below, see fig. 3, comprising the following steps:

1. establishing data items according to a division standard of the regional hierarchical distribution data, sorting fields of each data item, and initializing a GIS map;

2. drawing each province map layer of the subordinate China directly, wherein each province map layer is filled in the whole China, each province is a first-level area, and each first-level area is a map layer superposed on a GIS;

3. naming the layer of each first-level region by using a region name, and storing the layer through a hierarchy;

4. the subsequent registration events for each area are:

1) triggering a first-level area to be highlighted by a mouse suspension event;

2) triggering to remove the highlight of the first-level area by a mouse removal event;

3) triggering and judging whether the image layer has the sublevel or not by a mouse clicking event;

a. if the image layer is in the sub-level, the image layer is adaptively amplified and displayed, all the image layers outside the area are cleared or hidden, and the sub-level image layer is drawn along with the image layer;

b. and if the image layer is not in the sub-level state, removing or hiding all the image layers outside the area, and adaptively amplifying and displaying the image layers and the related data.

The above embodiments are divided into administrative areas, and in other embodiments, it is practical and convenient to divide the administrative areas into highway sections and highway sections. Even if a special data division mode is needed, the problem can be solved through special requirements, and if the technology is used by the Yunnan Zhaotong land planning office, data support can be obtained from the local land planning office.

The invention also discloses a dangerous and waste product management method, which can be understood as an application of the data distribution method based on the data distribution method, and event points for dangerous and waste product management need to be acquired in real time on a GIS large screen, and event information is fully known to make an emergency decision.

The common solution is to mark all event points on the GIS at one time, and display the basic information of the event points by some methods such as pop-up window, so that the marked points on the GIS can be fully arranged on the screen when the number of event points is large, which is very crowded and messy, and the real function of the GIS on information display cannot be played while the appearance is influenced.

The invention takes the whole road network for generating, transporting and processing the dangerous waste products as a whole, divides each road into a plurality of sub-levels of the road network, and divides a plurality of road sections into a plurality of sub-levels of a certain road downwards, thereby forming a parent-child relationship. When the road network is displayed, the event distribution points and the number of events can be displayed in a thermodynamic diagram mode, so that a large-screen user can know the overall outline of the event occurrence in a global view. And focusing the information fed back by the thermodynamic diagram on a certain road, and even marking the specific event information of the road section on a GIS map when the information is fed back by the road section, so that the data displayed in a limited space is reduced, the information is more clearly transmitted, the experience is higher, an emergency disposal person can clearly and definitely acquire the emergency event information from a large screen, and a better decision is made for an emergency disposal scheme.

In particular, in this application, the urban data comprises production data, transportation data and processing data of hazardous waste. And respectively writing the generated data, the transportation data and the processed data into corresponding areas in the geographic information system according to the areas where the generated data, the transportation data and the processed data are distributed, so that the geographic information system for displaying the city data can be obtained.

Further, more comprehensive basic information such as dangerous waste names, dangerous waste hazards, production dates, transportation dates, treatment dates and the like can be acquired by adopting mouse clicking events.

The mouse click event is not limited to a certain event, and may be any one or two of a right click event, a right double click event, a left click event, or a left double click event.

The invention also discloses a road emergency management method, which can be understood as an application of the data distribution method based on the data distribution method and needs all the tracking data of the whole process of generation, transportation and disposal of medical wastes; statistical analysis of different dimensions of medical waste generation and disposal data is also required; it is also necessary to warn and locate abnormalities in the transport and disposal of medical waste.

The medical waste is different from the general waste in nature, the medical waste has disease infectivity, is a waste with great danger, and if the supervision is not strict, the treatment is improper, the environment is polluted, and a dangerous disease transmission source is formed. Conventional hazardous waste management information systems operate in compliance with hazardous waste management practices: the generation of physical therapy waste- > initiating a medical waste transfer application- > approval by a competent department- > transferring the medical waste to a disposal unit- > ending. Although the process plays a certain supervision role in the generation, transportation and disposal of medical waste to a certain extent, the leakage prevention measures are insufficient, and the lost link cannot be accurately tracked; the medical waste collection and treatment efficiency is low; medical waste collection needs to be completed in departments, such as weighing, signature exchange and the like, and the links are complicated, so that the efficiency of medical waste collection work is influenced; the data statistics is influenced by more human interference factors, and the data tracing is difficult. Medical waste processing information cannot be inquired in real time, and data tracing cannot be realized; and the medical waste transportation can not be monitored in the whole process, blind spots exist, and effective real-time monitoring can not be achieved.

In the application, the urban data comprises traffic accidents, natural disasters, emergency material distribution points and two-passenger one-dangerous vehicle operation data, and the traffic accidents, the natural disasters, the emergency material distribution points and the two-passenger one-dangerous vehicle operation data are respectively written into corresponding areas in the geographic information system according to the areas corresponding to the traffic accidents, the natural disasters, the emergency material distribution points and the two-passenger one-dangerous vehicle operation data.

Specifically, the medical waste related data in the supervision area is divided according to the dimension of the administrative area, and the medical waste related data is displayed in a drilling mode in a hierarchical mode, so that the medical waste generation distribution situation and the medical waste disposal distribution situation in the whole supervision area can be observed. When focusing on a lower level area within the monitoring area, the medical waste related information can be more finely acquired through a mouse click event.

Focus can also be on each case of medical waste: medical wastes generate related information, positioning medical wastes transportation related information, obtaining a transportation route drawn by a transport vehicle with a vehicle GPS, cooperating with a big data AI platform to obtain monitoring abnormal information, displaying in real time, positioning medical wastes disposal related information and the like, and realizing comprehensive supervision on the whole life cycle of medical wastes from 'cradle' to 'tomb'.

By adopting the mode to manage the medical waste data, the data statistical analysis of the year, the quarter and the month is facilitated, and the historical medical waste supervision work is favorably summarized and the future supervision plan is favorably formulated.

It should be noted that the embodiments of the present invention have been described in terms of preferred embodiments, and not by way of limitation, and that those skilled in the art can make modifications and variations of the embodiments described above without departing from the spirit of the invention.

Claims (10)

1. A data distribution method is characterized by being applied to urban data display and comprising the following steps:

connecting the region level distribution data with a geographic information system, and establishing the geographic information system with a plurality of layers, wherein each layer represents a primary region, and a plurality of layers represent a plurality of level regions; the region hierarchy distribution data comprises data of the plurality of levels of regions with the first country level sequentially downward;

drawing a first image layer on the geographic information system, wherein the first image layer comprises a plurality of first-level areas;

naming each first-level region by adopting a region name in the region hierarchy distribution data, and connecting and storing the region name with the layer hierarchy of the geographic information system;

registering events for each of the first level regions: when the mouse suspension event is triggered, the first-level area is highlighted; when the mouse removal event is triggered, the highlight display is closed by the first-level area; when the mouse click event is triggered, judging whether a second-level area exists in the first-level area or not according to the area hierarchy distribution data; the events comprise a mouse suspension event, a mouse removal event and a mouse click event;

if the second-level area exists, drawing all the second-level areas of the first-level area on a second image layer; sequentially judging whether all the first-level areas have second-level areas or not so as to draw a second image layer comprising all the second-level areas;

naming each second-level region by adopting a region name in the region hierarchy distribution data, connecting and storing the region name with the layer hierarchy of the geographic information system, and registering an event for each second-level region; sequentially drawing a plurality of first-level image layers including the last-level region in the region hierarchical distribution data;

and writing the city data into a corresponding area in the geographic information system to obtain the geographic information system for displaying the city data.

2. The data distribution method according to claim 1, wherein the several levels of regions include countries, provinces, cities, urban districts, counties, towns, villages, streets;

the plurality of levels of regions also comprise a railway network, a road network and an air navigation network;

the multi-level area also comprises a building layer and a greening layer.

3. The data distribution method of claim 2, wherein the determining whether the first level region has a second level region according to the region hierarchy distribution data when the mouse click event is triggered further comprises:

and magnifying and displaying the first-level area.

4. The data distribution method according to claim 2 or 3, wherein the determining whether the first-level region has the second-level region according to the region hierarchy distribution data when the mouse click event is triggered further comprises:

concealing all of the primary regions except the primary region.

5. The data distribution method according to claim 2, wherein said drawing a first map layer on said geographic information system, said first map layer including a plurality of first-level regions further comprises:

and setting boundary coordinates for each first-level area.

6. The data distribution method according to claim 2, wherein the mouse click event includes a right click event, a right double click event, a left click event, and a left double click event;

the step of judging whether a second-level region exists in the first-level region or not according to the region hierarchical distribution data when the mouse click event is triggered comprises the following steps:

and when the right-click event, the right-click double-click event, the left-click event or the left-click double-click event is triggered, judging whether a second-level area exists in the first-level area or not according to the area hierarchical distribution data.

7. The data distribution method of claim 2, wherein said associating regional hierarchical distribution data with a geographic information system comprises:

the geographic information systems include a high-grade geographic system, a Baidu geographic system, a mapcalks geographic system, a cecum geographic system, a deckgl geographic system, and a mapbox geographic system.

8. A hazardous waste management method based on the data distribution method of any one of claims 1 to 7, wherein the city data includes generation data, transportation data and processing data of hazardous waste;

the writing the city data into the corresponding area in the geographic information system to obtain the geographic information system for displaying the city data comprises:

and respectively writing the generated data, the transportation data and the processed data into corresponding areas in the geographic information system according to the areas where the generated data, the transportation data and the processed data are distributed.

9. A dangerous and useless product management method based on the data distribution method of claim 6, wherein when the right-click event, the right-click double-click event, the left-click event or the left-click double-click event is triggered, basic information of the dangerous and useless product is displayed; the basic information comprises the names of the dangerous waste products, the hazards of the dangerous waste products, the generation date, the transportation date and the treatment date.

10. A road emergency management method based on the data distribution method of any one of claims 1 to 7, wherein the urban data comprises traffic accidents, natural disasters, emergency material distribution points and operation data of two-passenger and one-dangerous vehicles;

the writing the city data into the corresponding area in the geographic information system to obtain the geographic information system for displaying the city data comprises:

and respectively writing the traffic accident, the natural disaster, the emergency material distribution point and the two-passenger one-dangerous vehicle operation data into corresponding areas in the geographic information system according to the areas corresponding to the traffic accident, the natural disaster, the emergency material distribution point and the two-passenger one-dangerous vehicle operation data.

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