13.2. Creating Layers
Layers can be created in many ways, including:
empty layers from scratch
layers from existing layers
layers from the clipboard
layers as a result of an SQL-like query based on one or many layers (virtual layers)
QGIS also provides tools to import/export from/to different formats.
13.2.1. Creating new vector layers
QGIS allows you to create new layers in different formats. It provides tools for creating GeoPackage, Shapefile, SpatiaLite, GPX format and Temporary Scratch layers (aka memory layers). Creation of a new GRASS layer is supported within the GRASS plugin.
13.2.1.1. Creating a new GeoPackage layer
To create a new GeoPackage layer, press the button in the menu or from the Data Source Manager toolbar. The New GeoPackage Layer dialog will be displayed as shown in 13.15. ábra.
The first step is to indicate the database file location. This can be done by pressing the … button to the right of the Database field and select an existing GeoPackage file or create a new one. QGIS will automatically add the right extension to the name you provide.
Give the new layer / table a name (Table name)
Define the Geometry type. If not a geometryless layer, you can specify whether it should Include Z dimension and/or Include M values.
To add fields to the layer you are creating:
Enter the Name of the field
Select the data Type. Supported types are Text data, Whole number (both integer and integer64), Decimal number, Date and Date and time, Binary (BLOB) and Boolean.
Depending on the selected data format, enter the Maximum length of values.
Reproduce the steps above for each field you need to add
Once you are happy with the attributes, click OK. QGIS will add the new layer to the legend, and you can edit it as described in section Digitizing an existing layer.
By default, when creating a GeoPackage layer, QGIS generates a
Feature id column called fid
which acts as the
primary key of the layer. The name can be changed.
The geometry field, if availabe, is named geometry
, and you can
choose to Create a spatial index on it.
These options can be found under the Advanced Options
together with the Layer identifier (short human readable
name of the layer) and the Layer description.
Further management of GeoPackage layers can be done with the DB Manager.
13.2.1.2. Creating a new Shapefile layer
To create a new ESRI Shapefile format layer, press the button in the menu or from the Data Source Manager toolbar. The New Shapefile Layer dialog will be displayed as shown in 13.16. ábra.
Provide a path and file name using the … button next to File name. QGIS will automatically add the right extension to the name you provide.
Next, indicate the File encoding of the data
Choose the Geometry type of the layer: No Geometry (resulting in a
.DBF
format file), point, multipoint, line or polygonSpecify whether the geometry should have additional dimensions: None, Z (+ M values) or M values
To add fields to the layer you are creating:
Enter the Name of the field
Select the data Type. Only Decimal number, Whole number, Text data and Date attributes are supported.
Depending on the selected data format, enter the Length and Precision.
Reproduce the steps above for each field you need to add
Once you are happy with the attributes, click OK. QGIS will add the new layer to the legend, and you can edit it as described in section Digitizing an existing layer.
By default, a first integer id
column is added but can be removed.
13.2.1.3. Creating a new SpatiaLite layer
To create a new SpatiaLite layer, press the button in the menu or from the Data Source Manager toolbar. The New SpatiaLite Layer dialog will be displayed as shown in 13.17. ábra.
The first step is to indicate the database file location. This can be done by pressing the … button to the right of the Database field and select an existing SpatiaLite file or create a new one. QGIS will automatically add the right extension to the name you provide.
Provide a name (Layer name) for the new layer
Define the Geometry type. If not a geometryless layer, you can specify whether it should Include Z dimension and/or Include M values.
To add fields to the layer you are creating:
Enter the Name of the field
Select the data Type. Supported types are Text data, Whole number and Decimal number.
Reproduce the steps above for each field you need to add
Once you are happy with the attributes, click OK. QGIS will add the new layer to the legend, and you can edit it as described in section Digitizing an existing layer.
If desired, you can select Create an autoincrementing
primary key under the guilabel:Advanced Options section. You can also rename
the Geometry column (geometry
by default).
Further management of SpatiaLite layers can be done with DB Manager.
13.2.1.4. Creating a new GPX layer
To create a new GPX file, you first need to load the GPS plugin. opens the Plugin Manager Dialog. Activate the GPS Tools checkbox.
When this plugin is loaded, choose
from the menu.
In the dialog, choose where to save the new file and press Save.
Three new layers are added to the Layers Panel:
waypoints
, routes
and tracks
.
13.2.1.5. Creating a new Temporary Scratch Layer
Temporary Scratch Layers are in-memory layers, meaning that they are not saved on disk and will be discarded when QGIS is closed. They can be handy for storing features you temporarily need or as intermediate layers during geoprocessing operations.
To create a new Temporary Scratch layer, choose the entry in the menu or in the Data Source Manager toolbar. The New Temporary Scratch Layer dialog will be displayed as shown in 13.18. ábra. Then:
Provide the Layer name
Select the Geometry type. Here you can create a:
No geometry
type layer, served as simple table,Point
orMultiPoint
layer,LineString/CompoundCurve
orMultiLineString/MultiCurve
layer,Polygon/CurvePolygon
orMultiPolygon/MultiSurface
layer.
For geometric types, specify the dimensions of the dataset: check whether it should Include Z dimension and/or Include M values
Add fields to the layer. Note that unlike many formats, temporary layers can be created without any fields. This step is thus optional.
Enter the Name of the field
Select the data Type: Text, Whole number, Decimal number, Boolean, Date, Time, Date & Time and Binary (BLOB) are supported.
Depending on the selected data format, enter the Length and Precision
Repeat the steps above for each field you need to add
Once you are happy with the settings, click OK. QGIS will add the new layer to the Layers panel, and you can edit it as described in section Digitizing an existing layer.
You can also create prepopulated temporary scratch layers using e.g. the clipboard (see Creating new layers from the clipboard) or as a result of a Processing algorithm.
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Permanently store a memory layer on disk
To avoid data loss when closing a project with temporary scratch layers, you can save these layers to any vector format supported by QGIS:
selecting the Make permanent entry in the layer contextual menu;
using the
entry from the contextual menu or the menu.
Each of these commands opens the Save Vector Layer as dialog described in the Creating new layers from an existing layer section and the saved file replaces the temporary one in the Layers panel.
13.2.2. Creating new layers from an existing layer
Both raster and vector layers can be saved in a different format and/or reprojected to a different coordinate reference system (CRS) using the Layers panel and selecting:
menu or right-clicking on the layer in thefor raster layers
or for vector layers.
Drag and drop the layer from the layer tree to the PostGIS entry in the Browser Panel. Note that you must have a PostGIS connection in the Browser Panel.
13.2.2.1. Common parameters
The Save Layer as… dialog shows several parameters to change the behavior when saving the layer. Among the common parameters for raster and vector are:
File name: the location of the file on the disk. It can refer to the output layer or to a container that stores the layer (for example database-like formats such as GeoPackage, SpatiaLite or Open Document Spreadsheets).
CRS: can be changed to reproject the data
Extent (possible values are layer, Map view or user-defined extent)
Add saved file to map: to add the new layer to the canvas
However, some parameters are specific to raster and vector formats:
13.2.2.2. Raster specific parameters
Depending on the format of export, some of these options may not be available:
Output mode (it can be raw data or rendered image)
Format: exports to any raster format GDAL can write to, such as GeoTiff, GeoPackage, MBTiles, Geospatial PDF, SAGA GIS Binary Grid, Intergraph Raster, ESRI .hdr Labelled…
Resolution
Create Options: use advanced options (file compression, block sizes, colorimetry…) when generating files, either from the predefined create profiles related to the output format or by setting each parameter.
Pyramids creation
No data values
13.2.2.3. Vector specific parameters
Depending on the format of export, some of these options may be available:
Format: exports to any vector format GDAL can write to, such as GeoPackage, GML, ESRI Shapefile, AutoCAD DXF, ESRI FileGDB, Mapinfo TAB or MIF, SpatiaLite, CSV, KML, ODS, …
Layer name: available when the File name refers to a container-like format, this entry represents the output layer.
Encoding
Save only selected features
Select fields to export and their export options. In case you set your fields behavior with some Edit widgets, e.g.
value map
, you can keep the displayed values in the layer by checking Replace all selected raw fields values by displayed values.Symbology export: can be used mainly for DXF export and for all file formats who manage OGR feature styles (see note below) as DXF, KML, tab file formats:
No symbology: default style of the application that reads the data
Feature symbology: save style with OGR Feature Styles (see note below)
Symbol Layer symbology: save with OGR Feature Styles (see note below) but export the same geometry multiple times if there are multiple symbology symbol layers used
A Scale value can be applied to the latest options
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OGR Feature Styles are a way to store style directly in the data as a hidden attribute. Only some formats can handle this kind of information. KML, DXF and TAB file formats are such formats. For advanced details, you can read the OGR Feature Styles specification document.
Geometry: you can configure the geometry capabilities of the output layer
geometry type: keeps the original geometry of the features when set to Automatic, otherwise removes or overrides it with any type. You can add an empty geometry column to an attribute table and remove the geometry column of a spatial layer.
Force multi-type: forces creation of multi-geometry features in the layer.
Include z-dimension to geometries.
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Overriding layer geometry type makes it possible to do things like save a
geometryless table (e.g. .csv
file) into a shapefile WITH any type of
geometry (point, line, polygon), so that geometries can then be manually added
to rows with the Add Part tool.
Datasource Options, Layer Options or Custom Options which allow you to configure advanced parameters depending on the output format. Some are described in Exploring Data Formats and Fields but for full details, see the GDAL driver documentation. Each file format has its own custom parameters, e.g. for the
GeoJSON
format have a look at the GDAL GeoJSON documentation.
When saving a vector layer into an existing file, depending on the capabilities of the output format (Geopackage, SpatiaLite, FileGDB…), the user can decide whether to:
overwrite the whole file
overwrite only the target layer (the layer name is configurable)
append features to the existing target layer
append features, add new fields if there are any.
For formats like ESRI Shapefile, MapInfo .tab, feature append is also available.
13.2.3. Creating new DXF files
Besides the Save As… dialog which provides options to export a
single layer to another format, including *.DXF
, QGIS provides another
tool to export multiple layers as a single DXF layer. It’s accessible in the
menu.
In the DXF Export dialog:
Provide the destination file.
Choose the symbology mode and scale (see the OGR Feature Styles note), if applicable.
Select the data Encoding.
Select the CRS to apply: the selected layers will be reprojected to the given CRS.
Select the layers to include in the DXF files either by checking them in the table widget or automatically picking them from an existing map theme. The Select All and Deselect All buttons can help to quickly set the data to export.
For each layer, you can choose whether to export all the features in a single DXF layer or rely on a field whose values are used to split the features into layers in the DXF output.
Optionally, you can also choose to:
13.2.4. Creating new layers from the clipboard
Features that are on the clipboard can be pasted into a new layer. To do this, Select some features, copy them to the clipboard, and then paste them into a new layer using
and choosing:New Vector Layer…: the Save vector layer as… dialog appears (see Creating new layers from an existing layer for parameters)
or Temporary Scratch Layer…: you need to provide a name for the layer
A new layer, filled with selected features and their attributes is created (and added to map canvas).
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Creating layers from the clipboard is possible with features selected and copied within QGIS as well as features from another application, as long as their geometries are defined using well-known text (WKT).
13.2.5. Creating virtual layers
A virtual layer is a special kind of vector layer. It allows you to define a layer as the result of an SQL query involving any number of other vector layers that QGIS is able to open. Virtual layers do not carry data by themselves and can be seen as views.
To create a virtual layer, open the virtual layer creation dialog by:
enabling the Add Virtual Layer tab in the Data Source Manager dialog;
or using the DB Manager dialog tree.
The dialog allows you to specify a Layer name and an SQL Query. The query can use the name (or id) of loaded vector layers as tables, as well as their field names as columns.
For example, if you have a layer called airports
, you can create a new
virtual layer called public_airports
with an SQL query like:
SELECT *
FROM airports
WHERE USE = "Civilian/Public"
The SQL query will be executed, regardless of the underlying provider of the
airports
layer, even if this provider does not directly support SQL
queries.
Joins and complex queries can also be created, for example, to join airports and country information:
SELECT airports.*, country.population
FROM airports
JOIN country
ON airports.country = country.name
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It’s also possible to create virtual layers using the SQL window of DB Manager Plugin.
13.2.5.1. Embedding layers for use in queries
Besides the vector layers available in the map canvas, the user can add layers to the Embedded layers list, which can be used in queries without the need to have them showing in the map canvas or Layers panel.
To embed a layer, click Add and provide the Local name, Provider, Encoding and the path to the Source.
The Import button allows adding layers in the map canvas into the Embedded layers list. Those layers can then be removed from the Layers panel without breaking existent queries.
13.2.5.2. Supported query language
The underlying engine uses SQLite and SpatiaLite to operate.
It means you can use all of the SQL your local installation of SQLite understands.
Functions from SQLite and spatial functions from SpatiaLite can also be used in a virtual layer query. For instance, creating a point layer out of an attribute-only layer can be done with a query similar to:
SELECT id, MakePoint(x, y, 4326) as geometry
FROM coordinates
Functions of QGIS expressions can also be used in a virtual layer query.
To refer the geometry column of a layer, use the name geometry
.
Contrary to a pure SQL query, all the fields of a virtual layer query must
be named. Don’t forget to use the as
keyword to name your columns if they
are the result of a computation or a function call.
13.2.5.3. Performance issues
With default parameters, the virtual layer engine will try its best to detect the type of the different columns of the query, including the type of the geometry column if one is present.
This is done by introspecting the query when possible or by fetching the first row of the query (LIMIT 1) as a last resort. Fetching the first row of the result just to create the layer may be undesirable for performance reasons.
The creation dialog parameters:
Unique identifier column: specifies a field of the query that represents unique integer values that QGIS can use as row identifiers. By default, an autoincrementing integer value is used. Defining a unique identifier column speeds up the selection of rows by id.
No geometry: forces the virtual layer to ignore any geometry field. The resulting layer is an attribute-only layer.
Geometry Column: specifies the name of the geometry column.
Geometry Type: specifies the type of the geometry.
Geometry CRS: specifies the coordinate reference system of the virtual layer.
13.2.5.4. Special comments
The virtual layer engine tries to determine the type of each column of the query. If it fails, the first row of the query is fetched to determine column types.
The type of a particular column can be specified directly in the query by using some special comments.
The syntax is the following: /*:type*/
. It has to be placed just after
the name of a column. type
can be either int
for integers, real
for floating point numbers or text
.
For instance:
SELECT id+1 as nid /*:int*/
FROM table
The type and coordinate reference system of the geometry column can also be set
thanks to special comments with the following syntax /*:gtype:srid*/
where
gtype
is the geometry type (point
, linestring
, polygon
,
multipoint
, multilinestring
or multipolygon
) and srid
an
integer representing the EPSG code of a coordinate reference system.
13.2.5.5. Use of indexes
When requesting a layer through a virtual layer, the source layer indices will be used in the following ways:
if an
=
predicate is used on the primary key column of the layer, the underlying data provider will be asked for a particular id (FilterFid)for any other predicates (
>
,<=
,!=
, etc.) or on a column without a primary key, a request built from an expression will be used to request the underlying vector data provider. It means indexes may be used on database providers if they exist.
A specific syntax exists to handle spatial predicates in requests and triggers
the use of a spatial index: a hidden column named _search_frame_
exists
for each virtual layer. This column can be compared for equality to a bounding
box. Example:
SELECT *
FROM vtab
WHERE _search_frame_=BuildMbr(-2.10,49.38,-1.3,49.99,4326)
Spatial binary predicates like ST_Intersects
are sped up significantly
when used in conjunction with this spatial index syntax.