15.1. Duomenų atidarymas
As part of an Open Source Software ecosystem, QGIS is built upon different libraries that, combined with its own providers, offer capabilities to read and often write a lot of formats:
Vector data formats include GeoPackage, GML, GeoJSON, GPX, KML, Comma Separated Values, ESRI formats (Shapefile, Geodatabase…), MapInfo and MicroStation file formats, AutoCAD DWG/DXF, GRASS and many more… Read the complete list of supported vector formats.
Raster data formats include GeoTIFF, JPEG, ASCII Gridded XYZ, MBTiles, R or Idrisi rasters, GDAL Virtual, SRTM, Sentinel Data, ERDAS IMAGINE, ArcInfo Binary Grid, ArcInfo ASCII Grid, and many more… Read the complete list of supported raster formats.
Database formats include PostgreSQL/PostGIS, SQLite/SpatiaLite, Oracle, MS SQL Server, SAP HANA, MySQL…
Web map and data services (WM(T)S, WFS, WCS, CSW, XYZ tiles, ArcGIS services, …) are also handled by QGIS providers. See Working with OGC / ISO protocols for more information about some of these.
You can read supported files from archived folders and use QGIS native formats such as QML files (QML - The QGIS Style File Format) and virtual and memory layers.
More than 80 vector and 140 raster formats are supported by GDAL and QGIS native providers.
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Not all of the listed formats may work in QGIS for various reasons.
For example, some require external proprietary libraries, or the GDAL/OGR
installation of your OS may not have been built to support the format you
want to use. To see the list of available formats, run the command line
ogrinfo --formats
(for vector) and gdalinfo --formats
(for raster),
or check the menu in QGIS.
In QGIS, depending on the data format, there are different tools to open a dataset, mainly available in the Manage Layers toolbar (enabled through menu). However, all these tools point to a unique dialog, the Data Source Manager dialog, that you can open with the Open Data Source Manager button, available on the Data Source Manager Toolbar, or by pressing Ctrl+L. The Data Source Manager dialog (Fig. 15.1) offers a unified interface to open file-based data as well as databases or web services supported by QGIS.
menu or from theBeside this main entry point, you also have the DB Manager plugin that offers advanced capabilities to analyze and manipulate connected databases. More information on DB Manager capabilities can be found in DB Manager Plugin.
There are many other tools, native or third-party plugins, that help you open various data formats.
This chapter will describe only the tools provided by default in QGIS for loading data. It will mainly focus on the Data Source Manager dialog but more than describing each tab, it will also explore the tools based on the data provider or format specificities.
15.1.1. The Browser Panel
The Browser is one of the main ways to quickly and easily add your data to projects. It’s available as:
a Data Source Manager tab, enabled pressing the Open Data Source Manager button (Ctrl+L);
as a QGIS panel you can open from the menu ) or by pressing Ctrl+2.
(or
In both cases, the Browser helps you navigate in your file system and manage geodata, regardless the type of layer (raster, vector, table), or the datasource format (plain or compressed files, databases, web services).
15.1.1.1. Exploring the Interface
At the top of the Browser panel, you find some buttons that help you to:
Add Selected Layers: you can also add data to the map canvas by selecting Add selected layer(s) from the layer’s context menu;
Filter Browser to search for specific data. Enter a search word or wildcard and the browser will filter the tree to only show paths to matching DB tables, filenames or folders – other data or folders won’t be displayed. See the Browser Panel(2) example in Fig. 15.2. The comparison can be case-sensitive or not. It can also be set to:
Normal: show items containing the search text
Wildcard(s): fine tune the search using the
?
and/or*
characters to specify the position of the search textRegular expression
Enable/disable properties widget: when toggled on, a new widget is added at the bottom of the panel showing, if applicable, metadata for the selected item.
The entries in the Browser panel are organised hierarchically, and there are several top level entries:
Favorites where you can place shortcuts to often used locations
Spatial Bookmarks where you can store often used map extents (see Žemėlapio apimčių žymelės)
Project Home: for a quick access to the folder in which (most of) the data related to your project are stored. The default value is the directory where your project file resides.
Home directory in the file system and the filesystem root directory.
Connected local or network drives
Then comes a number of container / database types and service protocols, depending on your platform and underlying libraries:
15.1.1.2. Interacting with the Browser items
The browser supports drag and drop within the browser, from the browser to the canvas and Layers panel, and from the Layers panel to layer containers (e.g. GeoPackage) in the browser.
Project file items inside the browser can be expanded, showing the full layer tree (including groups) contained within that project. Project items are treated the same way as any other item in the browser, so they can be dragged and dropped within the browser (for example to copy a layer item to a geopackage file) or added to the current project through drag and drop or double click.
The context menu for an element in the Browser panel is opened by right-clicking on it.
For file system directory entries, the context menu offers the following:
to create in the selected entry a:
Directory…
GeoPackage…
ShapeFile…
Add as a Favorite: favorite folders can be renamed (Rename favorite…) or removed (Remove favorite) any time.
Hide from Browser: hidden folders can be toggled to visible from the setting
Fast Scan this Directory
Open Directory
Open in Terminal
Savybės…
Directory Properties…
For leaf entries that can act as layers in the project, the context menu will have supporting entries. For example, for non-database, non-service-based vector, raster and mesh data sources:
Add Layer to Project
Layer Properties
Delete „<name of file>“…
orShow in Files
File Properties
In the Layer properties entry, you will find (similar to what you will find in the vector and raster layer properties once the layers have been added to the project):
Metadata for the layer. Metadata groups: Information from provider (if possible, Path will be a hyperlink to the source), Identification, Extent, Access, Fields (for vector layers), Bands (for raster layers), Contacts, Links (for vector layers), References (for raster layers), History.
A Preview panel
The attribute table for vector sources (in the Attributes panel).
To add a layer to the project using the Browser:
Enable the Browser as described above. A browser tree with your file system, databases and web services is displayed. You may need to connect databases and web services before they appear (see dedicated sections).
Find the layer in the list.
Use the context menu, double-click its name, or drag-and-drop it into the map canvas. Your layer is now added to the Layers panel and can be viewed on the map canvas.
Patarimas
Open a QGIS project directly from the browser
You can also open a QGIS project directly from the Browser panel by double-clicking its name or by drag-and-drop into the map canvas.
Once a file is loaded, you can zoom around it using the map navigation tools. To change the style of a layer, open the Layer Properties dialog by double-clicking on the layer name or by right-clicking on the name in the legend and choosing from the context menu. See section Symbology Properties for more information on setting symbology for vector layers.
Right-clicking an item in the browser tree helps you to:
for a file or a table, display its metadata or open it in your project. Tables can even be renamed, deleted or truncated.
for a folder, bookmark it into your favourites or hide it from the browser tree. Hidden folders can be managed from the
tab.manage your spatial bookmarks: bookmarks can be created, exported and imported as
XML
files.create a connection to a database or a web service.
refresh, rename or delete a schema.
You can also import files into databases or copy tables from one schema/database to another with a simple drag-and-drop. There is a second browser panel available to avoid long scrolling while dragging. Just select the file and drag-and-drop from one panel to the other.
Patarimas
Add layers to QGIS by simple drag-and-drop from your OS file browser
You can also add file(s) to the project by drag-and-dropping them from your operating system file browser to the Layers Panel or the map canvas.
15.1.2. The DB Manager
The DB Manager Plugin is another tool for integrating and managing spatial database formats supported by QGIS (PostGIS, SpatiaLite, GeoPackage, Oracle Spatial, MS SQL Server, Virtual layers). It can be activated from the menu.
The DB Manager Plugin provides several features:
connect to databases and display their structure and contents
preview tables of databases
add layers to the map canvas, either by double-clicking or drag-and-drop.
add layers to a database from the QGIS Browser or from another database
create SQL queries and add their output to the map canvas
create virtual layers
More information on DB Manager capabilities is found in DB Manager Plugin.
15.1.3. Provider-based loading tools
Beside the Browser Panel and the DB Manager, the main tools provided by QGIS to add layers, you’ll also find tools that are specific to data providers.
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Some external plugins also provide tools to open specific format files in QGIS.
15.1.3.1. Loading a layer from a file
To load a layer from a file:
Open the layer type tab in the Data Source Manager dialog, ie click the Open Data Source Manager button (or press Ctrl+L) and enable the target tab or:
for vector data (like GML, ESRI Shapefile, Mapinfo and DXF layers): press Ctrl+Shift+V, select the Add Vector Layer menu option or click on the Add Vector Layer toolbar button.
for raster data (like GeoTiff, MBTiles, GRIdded Binary and DWG layers): press Ctrl+Shift+R, select the Add Raster Layer menu option or click on the Add Raster Layer toolbar button.
Click on the … Browse button
Navigate the file system and load a supported data source. More than one layer can be loaded at the same time by holding down the Ctrl key and clicking on multiple items in the dialog or holding down the Shift key to select a range of items by clicking on the first and last items in the range. Only formats that have been well tested appear in the formats filter. Other formats can be loaded by selecting
All files
(the top item in the pull-down menu).Press Open to load the selected file into Data Source Manager dialog
Press Add to load the file in QGIS and display them in the map view. Fig. 15.7 shows QGIS after loading the
alaska.shp
file.
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For loading vector and raster files the GDAL driver offers to define open actions. These will be shown when a file is selected. Options are described in detail on https://gdal.org/drivers/vector/, https://gdal.org/drivers/raster and if a file is selected in QGIS, a text with hyperlink will directly lead to the documentation of the selected file type.
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Because some formats like MapInfo (e.g., .tab
) or Autocad (.dxf
)
allow mixing different types of geometry in a single file, loading such
datasets opens a dialog to select geometries to use in order to have one
geometry per layer.
The Add Vector Layer and Add Raster Layer tabs allow loading of layers from source types other than File:
You can load specific vector formats like
ArcInfo Binary Coverage
,UK. National Transfer Format
, as well as the raw TIGER format of theUS Census Bureau
orOpenfileGDB
. To do that, you select Directory as Source type. In this case, a directory can be selected in the dialog after pressing … Browse.With the Database source type you can select an existing database connection or create one to the selected database type. Some possible database types are
ODBC
,Esri Personal Geodatabase
,MS SQL Server
as well asPostgreSQL
orMySQL
.Pressing the New button opens the Create a New OGR Database Connection dialog whose parameters are among the ones you can find in Creating a stored Connection. Pressing Open lets you select from the available tables, for example of PostGIS enabled databases.
The Protocol: HTTP(S), cloud, etc. source type opens data stored locally or on the network, either publicly accessible, or in private buckets of commercial cloud storage services. Supported protocol types are:
HTTP/HTTPS/FTP
, with a URI and, if required, an authentication.Cloud storage such as
AWS S3
,Google Cloud Storage
,Microsoft Azure Blob
,Alibaba OSS Cloud
,Open Stack Swift Storage
. You need to fill in the Bucket or container and the Object key.service supporting OGC
WFS 3
(still experimental), usingGeoJSON
orGEOJSON - Newline Delimited
format or based onCouchDB
database. A URI is required, with optional authentication.For all vector source types it is possible to define the Encoding or to use the setting.
15.1.3.2. Loading a mesh layer
A mesh is an unstructured grid usually with temporal and other components. The spatial component contains a collection of vertices, edges and faces in 2D or 3D space. More information on mesh layers at Darbas su tinklelio duomenimis.
To add a mesh layer to QGIS:
- dialog, either by selecting it from the menu or clicking the
Press the … Browse button to select the file. Various formats are supported.
Select the file and press Add. The layer will be added using the native mesh rendering.
If the selected file contains many mesh layers, then you’ll be prompted with a dialog to choose the sublayers to load. Do your selection and press OK and the layers are loaded with the native mesh rendering. It’s also possible to load them within a group.
15.1.3.3. Importing a delimited text file
Delimited text files (e.g. .txt
, .csv
, .dat
,
.wkt
) can be loaded using the tools described above.
This way, they will show up as simple tables.
Sometimes, delimited text files can contain coordinates / geometries
that you could want to visualize.
This is what Add Delimited Text Layer
is designed for.
Click the Open Data Source Manager icon to open the Data Source Manager dialog
Select the delimited text file to import (e.g.,
qgis_sample_data/csv/elevp.csv
) by clicking on the … Browse button.In the Layer name field, provide the name to use for the layer in the project (e.g.
Elevation
).Configure the settings to meet your dataset and needs, as explained below.
File format
Once the file is selected, QGIS attempts to parse the file with the most recently used delimiter, identifying fields and rows. To enable QGIS to correctly parse the file, it is important to select the right delimiter. You can specify a delimiter by choosing between:
Records and fields
Some other convenient options can be used for data recognition:
Number of header lines to discard: convenient when you want to avoid the first lines in the file in the import, either because those are blank lines or with another formatting.
First record has field names: values in the first line are used as field names, otherwise QGIS uses the field names
field_1
,field_2
…Detect field types: automatically recognizes the field type. If unchecked then all attributes are treated as text fields.
Decimal separator is comma: you can force decimal separator to be a comma.
Trim fields: allows you to trim leading and trailing spaces from fields.
Custom boolean literals: allows you to add a custom couple of string that will be detected as boolean values.
Field type detection
QGIS tries to detect the field types automatically (unless Detect field types is not checked) by examining the content of an optional sidecar CSVT file (see: GeoCSV specification) and by scanning the whole file to make sure that all values can actually be converted without errors, the fall-back field type is text.
The detected field type appears under the field name in sample data preview table and can be manually changed if necessary.
The following field types are supported:
Boolean
case-insensitive literal couples that are interpreted as boolean values are1
/0
,true
/false
,t
/f
,yes
/no
Whole Number (integer)
Whole Number (integer - 64 bit)
Decimal Number
: double precision floating point numberDate
Time
Date and Time
Text
Geometry definition
Once the file is parsed, set Geometry definition to
Point coordinates and provide the X field, Y field, Z field (for 3-dimensional data) and M field (for the measurement dimension) if the layer is of point geometry type and contains such fields. If the coordinates are defined as degrees/minutes/seconds, activate the DMS coordinates checkbox. Provide the appropriate Geometry CRS using the Select CRS widget.
Well known text (WKT) option if the spatial information is represented as WKT: select the Geometry field containing the WKT geometry and choose the approriate Geometry field or let QGIS auto-detect it. Provide the appropriate Geometry CRS using the Select CRS widget.
If the file contains non-spatial data, activate No geometry (attribute only table) and it will be loaded as an ordinary table.
Layer settings
Additionally, you can enable:
Use spatial index to improve the performance of displaying and spatially selecting features.
Use subset index to improve performance of subset filters (when defined in the layer properties).
Watch file to watch for changes to the file by other applications while QGIS is running.
At the end, click Add to add the layer to the map.
In our example, a point layer named Elevation
is added to the project
and behaves like any other map layer in QGIS.
This layer is the result of a query on the .csv
source file
(hence, linked to it) and would require
to be saved in order to get a spatial layer on disk.
Sample Data
As you set the parser properties, the sample data preview updates regarding to the applied settings.
Also in the Sample Data Table it is possible to override the automatically determined column types.
15.1.3.4. Importing a DXF or DWG file
DXF
and DWG
files can be added to QGIS by simple drag-and-drop
from the Browser Panel.
You will be prompted to select the sublayers you would like to add
to the project. Layers are added with random style properties.
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For DXF files containing several geometry types (point, line and/or polygon), the name of the layers will be generated as <filename.dxf> entities <geometry type>.
To keep the dxf/dwg file structure and its symbology in QGIS, you may want to use the dedicated
tool which allows you to:import elements from the drawing file into a GeoPackage database.
add imported elements to the project.
In the DWG/DXF Import dialog, to import the drawing file contents:
Input the location of the Target package, i.e. the new GeoPackage file that will store the data. If an existing file is provided, then it will be overwritten.
Specify the coordinate reference system of the data in the drawing file.
Check Expand block references to import the blocks in the drawing file as normal elements.
Check Use curves to promote the imported layers to a
curved
geometry type.Use the Import button to select the DWG/DXF file to use (one per geopackage). The GeoPackage database will be automatically populated with the drawing file content. Depending on the size of the file, this can take some time.
After the .dwg
or .dxf
data has been imported into the
GeoPackage database, the frame in the lower half of the dialog is
populated with the list of layers from the imported file.
There you can select which layers to add to the QGIS project:
At the top, set a Group name to group the drawing files in the project.
Check layers to show: Each selected layer is added to an ad hoc group which contains vector layers for the point, line, label and area features of the drawing layer. The style of the layers will resemble the look they originally had in *CAD.
Choose if the layer should be visible at opening.
Checking the Merge layers option places all layers in a single group.
Press OK to open the layers in QGIS.
15.1.3.5. Importing OpenStreetMap Vectors
The OpenStreetMap project is popular because in many countries no free geodata such as digital road maps are available. The objective of the OSM project is to create a free editable map of the world from GPS data, aerial photography and local knowledge. To support this objective, QGIS provides support for OSM data.
Using the Browser Panel, you can load an .osm
file to the
map canvas, in which case you’ll get a dialog to select sublayers based on the
geometry type.
The loaded layers will contain all the data of that geometry type
in the .osm
file, and keep the osm
file data structure.
15.1.3.6. SpatiaLite Layers
The first time you load data from a SpatiaLite database, begin by:
or by typing Ctrl+Shift+L
This will bring up a window that will allow you either to connect to a
SpatiaLite database already known to QGIS (which you choose from the
drop-down menu) or to define a new connection to a new database. To define a
new connection, click on New and use the file browser to point to
your SpatiaLite database, which is a file with a .sqlite
extension.
QGIS also supports editable views in SpatiaLite.
15.1.3.7. GPS
There are dozens of different file formats for storing GPS data. The format that QGIS uses is called GPX (GPS eXchange format), which is a standard interchange format that can contain any number of waypoints, routes and tracks in the same file.
Use the … Browse button to select the GPX file, then use the check boxes to select the feature types you want to load from that GPX file. Each feature type will be loaded in a separate layer.
More on GPS data manipulation at Working with GPS Data.
15.1.3.8. GRASS
Working with GRASS vector data is described in section GRASS GIS Integration.
15.1.4. The Layer Metadata Search Panel
The layer metadata search panel allows to browse layers metadata from registered metadata providers and add them to the project.
The list can be filtered by text, by current project and by map canvas extent.
The sources of metadata are implemented through a layer metadata provider system that can be extended by plugins.
QGIS provides out of the box the layer metadata providers that retrieve the metadata from the connections that allow for metadata storage (for more details save metadata to the database).
15.1.5. QGIS Custom formats
QGIS proposes two custom formats:
Temporary Scratch Layer: a memory layer that is bound to the project (see Creating a new Temporary Scratch Layer for more information)
Virtual Layers: a layer resulting from a query on other layer(s) (see Creating virtual layers for more information)
15.1.6. QLR - QGIS Layer Definition File
Layer definitions can be saved as a
Layer Definition File (QLR -
.qlr
) using
in the layer
context menu.
The QLR format makes it possible to share „complete“ QGIS layers with other QGIS users. QLR files contain links to the data sources and all the QGIS style information necessary to style the layer.
QLR files are shown in the Browser Panel and can be used to add layers (with their saved styles) to the Layers Panel. You can also drag and drop QLR files from the system file manager into the map canvas.
15.1.7. Connecting to web services
With QGIS you can get access to different types of OGC web services (WM(T)S, WFS(-T), WCS, CSW, …). Thanks to QGIS Server, you can also publish such services. QGIS Server Guide/Manual contains descriptions of these capabilities.
15.1.7.1. Using Vector Tiles services
Vector Tile services can be added via the Vector Tiles tab of the Data Source Manager dialog or the contextual menu of the Vector Tiles entry in the Browser panel. Services can be either a New Generic Connection… or a New ArcGIS Vector Tile Service Connection….
You set up a service by adding:
a Name
the URL: of the type
http://example.com/{z}/{x}/{y}.pbf
for generic services andhttp://example.com/arcgis/rest/services/Layer/VectorTileServer
for ArcGIS based services. The service must provide tiles in.pbf
format.the Min. Zoom Level and the Max. Zoom Level. Vector Tiles have a pyramid structure. By using these options you have the opportunity to individually generate layers from the tile pyramid. These layers will then be used to render the Vector Tile in QGIS.
For Mercator projection (used by OpenStreetMap Vector Tiles) Zoom Level 0 represents the whole world at a scale of 1:500.000.000. Zoom Level 14 represents the scale 1:35.000.
a Style URL: a URL to a MapBox GL JSON style configuration. If provided, then that style will be applied whenever the layers from the connection are added to QGIS. In the case of Arcgis vector tile service connections, the URL overrides the default style configuration specified in the server configuration.
the authentication configuration if necessary
a Referer
Fig. 15.16 shows the dialog with the MapTiler planet Vector Tiles service configuration.
Configurations can be saved to .XML
file (Save Connections)
through the Vector Tiles entry in Data Source Manager
dialog or its context menu in the Browser panel.
Likewise, they can be added from a file (Load Connections).
Once a connection to a vector tile service is set, it’s possible to:
Edit the vector tile connection settings
Remove the connection
From the Browser panel, right-click over the entry and you can also:
Add layer to project: a double-click also adds the layer
View the Layer Properties… and get access to metadata and a preview of the data provided by the service. More settings are available when the layer has been loaded into the project.
15.1.7.2. Using XYZ Tile services
XYZ Tile services can be added via the XYZ tab of the Data Source Manager dialog or the contextual menu of the XYZ Tiles entry in the Browser panel. Press New (respectively New Connection) and provide:
a Name
the URL
the authentication configuration if necessary
the Min. Zoom level and Max. Zoom level
a Referer
the Tile Resolution: possible values are Unknown (not scaled), Standard (256x256 / 96DPI) and High (512x512 / 192DPI)
Interpretation: converts WMTS/XYZ raster datasets to a raster layer of single band float type following a predefined encoding scheme. Supported schemes are Default (no conversion is done), MapTiler Terrain RGB and Terrarium Terrain RGB. The selected converter will translate the RGB source values to float values for each pixel. Once loaded, the layer will be presented as a single band floating point raster layer, ready for styling using QGIS usual raster renderers.
By default, QGIS provides some default and ready-to-use XYZ Tiles services:
Mapzen Global Terrain, allowing an immediate access to global DEM source for the projects. More details and resources at https://registry.opendata.aws/terrain-tiles/
OpenStreetMap to access the world 2D map. Fig. 15.17 shows the dialog with the OpenStreetMap XYZ Tile service configuration.
Configurations can be saved to .XML
file (Save Connections)
through the XYZ Tiles entry in Data Source Manager
dialog or its context menu in the Browser panel.
Likewise, they can be added from a file (Load Connections).
The XML file for OpenStreetMap looks like this:
<!DOCTYPE connections>
<qgsXYZTilesConnections version="1.0">
<xyztiles url="https://tile.openstreetmap.org/{z}/{x}/{y}.png"
zmin="0" zmax="19" tilePixelRatio="0" password="" name="OpenStreetMap"
username="" authcfg="" referer=""/>
</qgsXYZTilesConnections>
Once a connection to a XYZ tile service is set, it’s possible to:
Edit the XYZ connection settings
Remove the connection
From the Browser panel, right-click over the entry and you can also:
- ,
Add layer to project: a double-click also adds the layer
View the Layer Properties… and get access to metadata and a preview of the data provided by the service. More settings are available when the layer has been loaded into the project.
Examples of XYZ Tile services:
OpenStreetMap Monochrome: URL:
http://tiles.wmflabs.org/bw-mapnik/{z}/{x}/{y}.png
, Min. Zoom Level: 0, Max. Zoom Level: 19.Google Maps: URL:
https://mt1.google.com/vt/lyrs=m&x={x}&y={y}&z={z}
, Min. Zoom Level: 0, Max. Zoom Level: 19.Open Weather Map Temperature: URL:
http://tile.openweathermap.org/map/temp_new/{z}/{x}/{y}.png?appid={api_key}
Min. Zoom Level: 0, Max. Zoom Level: 19.
15.1.7.3. Using ArcGIS REST Servers
ArcGIS REST Servers can be added via the ArcGIS REST Server tab of the Data Source Manager dialog or the contextual menu of the ArcGIS REST Servers entry in the Browser panel. Press New (respectively New Connection) and provide:
a Name
the URL
a Community endpoint URL
a Content endpoint URL
the authentication configuration if necessary
a Referer
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ArcGIS Feature Service connections which have their corresponding Portal endpoint URLS set can be explored by content groups in the browser panel.
If a connection has the Portal endpoints set, then expanding out the connection in the browser will show a “Groups” and “Services” folder, instead of the full list of services usually shown. Expanding out the groups folder will show a list of all content groups that the user is a member of, each of which can be expanded to show the service items belonging to that group.
Configurations can be saved to .XML
file (Save Connections)
through the ArcGIS REST Server entry in
Data Source Manager dialog. Likewise, they can be added from
a file (Load Connections).
Once a connection to an ArcGIS REST Server is set, it’s possible to:
Edit the ArcGIS REST Server connection settings
Remove the connection
Refresh the connection
use a filter for the available layers
choose from a list of available layers with the option to Only request features overlapping the current view extent
From the Browser panel, right-click over the connection entry and you can:
Refresh
Edit connection…
Remove connection…
View Service Info which will open the default web browser and display the Service Info.
Right-click over the layer entry and you can also:
View Service Info which will open the default web browser and display the Service Info.
Add layer to project: a double-click also adds the layer
View the Layer Properties… and get access to metadata and a preview of the data provided by the service. More settings are available when the layer has been loaded into the project.