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28.1.22. Vector geometry

28.1.22.1. Add geometry attributes

Computes geometric properties of the features in a vector layer and includes them in the output layer.

It generates a new vector layer with the same content as the input one, but with additional attributes, containing geometric measurements based on a selected CRS.

The attributes added to the table depend on the geometry type and dimension of the input layer:

  • for point layers: X (xcoord), Y (ycoord), Z (zcoord) coordinates and/or M value (mvalue)

  • for line layers: length and, for the LineString and CompoundCurve geometry types, the feature sinuosity and straight distance (straightdis)

  • for polygon layers: perimeter and area

Default menu: Vector ► Geometry Tools

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Calculate using

CALC_METHOD

[enumeration]

Default: 0

Calculation parameters to use for the geometric properties. One of:

  • 0 — Layer-KBS

  • 1 — Projekt-KBS

  • 2 — Ellipsoidisch

Added geom info

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output (input copy with geometry) layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Added geom info

OUTPUT

[same as input]

Copy of the input vector layer with the addition of the geometry fields

Pythoncode

Algorithm ID: qgis:exportaddgeometrycolumns

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.2. Affine transform

Applies an affine transformation to the layer geometries. Affine transformations can include translation, scaling and rotation. The operations are performed in the following order: scale, rotation, and translation.

Z and M values (if present) can be translated and scaled.

../../../../_images/affinetransform.png

Abb. 28.59 Vektor-Punkt-Layer (grüne Punkte) vor (links) und nach (rechts) einer affinen Transformation (Translation).

checkbox Allows features in-place modification of point, line, and polygon features

Siehe auch

Translate

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Translation (x-axis)

DELTA_X

[number dataDefine]

Default: 0

Displacement to apply on the X axis.

Translation (y-axis)

DELTA_Y

[number dataDefine]

Default: 0

Displacement to apply on the Y axis.

Translation (z-axis)

DELTA_Z

[number dataDefine]

Default: 0

Displacement to apply on the Z axis.

Translation (m-values)

DELTA_M

[number dataDefine]

Default: 0

Offset to apply on m values.

Scale factor (x-axis)

SCALE_X

[number dataDefine]

Default: 1

Scaling value (expansion or contraction) to apply on the X axis.

Scale factor (y-axis)

SCALE_Y

[number dataDefine]

Default: 1

Scaling value (expansion or contraction) to apply on the Y axis.

Scale factor (z-axis)

SCALE_Z

[number dataDefine]

Default: 1

Scaling value (expansion or contraction) to apply on the Z axis.

Scale factor (m-values)

SCALE_M

[number dataDefine]

Default: 1

Scaling value (expansion or contraction) to apply on m values.

Rotation around z-axis (degrees counter-clockwise)

ROTATION_Z

[number dataDefine]

Default: 0

Angle of the rotation in degrees.

Transformed

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Transformed

OUTPUT

[same as input]

Output (transformed) vector layer.

Pythoncode

Algorithm ID: native:affinetransform

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.3. Aggregate

Takes a vector or table layer and creates a new layer by aggregating features based on a group by expression.

Features for which group by expression returns the same value are grouped together.

It is possible to group all source features together using constant value in group by parameter, example: NULL.

It is also possible to group features by multiple fields using Array function, example: Array(„Field1“, „Field2“).

Geometries (if present) are combined into one multipart geometry for each group. Output attributes are computed depending on each given aggregate definition.

This algorithm allows to use the default aggregates functions of the QGIS Expression engine.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Group by expression

GROUP_BY

[tablefield: any]

Default: ‚NULL‘

Choose the grouping field. If NULL all features will be grouped.

Aggregates

AGGREGATES

[list]

List of output layer field definitions. Example of a field definition:

{‚aggregate‘: ‚sum‘, ‚delimiter‘: ‚,‘, ‚input‘: ‚ $area‘, ‚length‘: 10, ‚name‘: ‚totarea‘, ‚precision‘: 0, ‚type‘: 6}

By default, the list contains all the fields of the input layer. In the GUI, you can edit these fields and their definitions, and you can also:

  • Click the newAttribute button to add a new field.

  • Click deleteAttribute to delete the selected field.

  • Use arrowUp and arrowDown to change order of the fields.

  • Click clearText to reset to the default (the fields of the input layer).

For each of the fields you’d like to retrieve information from, you need to define the following:

Input expression [expression] (input)

Field or expression from the input layer.

Aggregate function [enumeration] (aggregate)

Function to use on the input expression to return the aggregated value.

Default: concatenate (for string data type), sum (for numeric data type)

Delimiter [string] (delimiter)

Text string to separate aggregated values, for example in case of concatenation.

Default: ,

Output field name [string] (name)

Name of the aggregated field in the output layer. By default input field name is kept.

Type [enumeration] (type)

Data type of the output field. One of:

  • 1 — Boolean

  • 2 — Integer

  • 4 — Integer64

  • 6 — Double

  • 10 — String

  • 14 — Date

  • 16 — DateTime

Length [number] (length)

Length of the output field.

Precision [number] (precision)

Precision of the output field.

Load fields from layer

GUI only

[vector: any]

You can load fields from another layer and use them for the aggregation

Aggregated

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output (aggregate) layer One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Aggregated

OUTPUT

[same as input]

Multigeometry vector layer with the aggregated values

Pythoncode

Algorithm ID: native:aggregate

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.4. Boundary

Returns the closure of the combinatorial boundary of the input geometries (i.e. the topological boundary of the geometry).

Only for polygon and line layers.

For polygon geometries , the boundary consists of all the lines making up the rings of the polygon.

../../../../_images/boundary_polygon.png

Abb. 28.60 Boundaries (black dashed line) of the source polygon layer

For lines geometries, the boundaries are their end points.

../../../../_images/boundary_lines.png

Abb. 28.61 Boundary layer (red points) for lines. In yellow a selected feature.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line, polygon]

Input line or polygon vector layer

Boundary

OUTPUT

[vector: point, line]

Default: [Create temporary layer]

Specify the output (boundary) layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Boundary

OUTPUT

[vector: point, line]

Boundaries from the input layer (point for line, and line for polygon)

Pythoncode

Algorithm ID: native:boundary

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.5. Bounding boxes

Calculates the bounding box (envelope) of each feature in an input layer. Polygon and line geometries are supported.

../../../../_images/bounding_box.png

Abb. 28.62 Schwarze Linien stellen die Begrenzungslinien der einzelnen Polygonobjekte dar

checkbox Allows features in-place modification of polygon features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line, polygon]

Input line or polygon vector layer

Bounds

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output (bounding box) layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Bounds

OUTPUT

[vector: polygon]

Bounding boxes of input layer. Other than the input attributes, the output layer also contains following fields: width, height, area and perimeter of the generated polygon.

Pythoncode

Algorithm ID: native:boundingboxes

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.6. Puffer

Berechnet einen Pufferbereich für alle Objekte in einem Eingabelayer, wobei eine feste oder datendefinierte Distanz verwendet wird.

Es kann eine negative Distanz für Polygoneingabelayer verwendet werden. In diesem Fall führt der Puffer zu einem kleineren Polygon (Rücksprung).

../../../../_images/buffer1.png

Abb. 28.63 Puffer (in gelb) von Punkten, Linie, Polygon mit positivem Puffer und Polygon mit negativem Puffer

checkbox Allows features in-place modification of polygon features

Default menu: Vector ► Geoprocessing Tools

Parameter

Basic parameters

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Abstand

DISTANCE

[number dataDefine]

Default: 10.0

Buffer distance (from the boundary of each feature). You can use the Data Defined button on the right to choose a field from which the radius will be calculated. This way you can have different radius for each feature (see Variable distance buffer).

Segmente

SEGMENTS

[number]

Default: 5

Controls the number of line segments to use to approximate a quarter circle when creating rounded offsets.

Endstil

END_CAP_STYLE

[enumeration]

Default: 0

Controls how line endings are handled in the buffer. One of:

  • 0 — Rund

  • 1 — Flach

  • 2 — Quadratisch

../../../../_images/buffer_cap_style.png

Abb. 28.64 Round, flat and square cap styles

Verbindungsstil

JOIN_STYLE

[enumeration]

Default: 0

Specifies whether round, miter or beveled joins should be used when offsetting corners in a line. Options are:

  • 0 — Rund

  • 1 — Eckig

  • 2 — Abgefast

../../../../_images/buffer_join_style.png

Abb. 28.65 Round, miter, and bevel join styles

Eckgrenze

MITER_LIMIT

[number]

Default: 2.0

Sets the maximum distance from the offset geometry to use when creating a mitered join as a factor of the offset distance (only applicable for miter join styles). Minimum: 1.0

../../../../_images/buffer_miter_limit.png

Abb. 28.66 A 10m buffer with a limit of 2 and a 10m buffer with a limit of 1

Dissolve result

DISSOLVE

[boolean]

Default: False

Dissolve the final buffer. If True (checked), overlapping buffers will be dissolved (combined) into a single multipart feature.

../../../../_images/buffer_dissolve1.png

Abb. 28.67 Standard (three single part features - left), dissolved (1 multipart feature with 2 parts - right)

Buffered

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output (buffer) layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Fortgeschrittene Parameter

Bezeichnung

Name

Typ

Beschreibung

Keep disjoint features separate

SEPARATE_DISJOINT

[boolean]

Default: False

If True (checked) and dissolved is checked, features that do not overlap or touch will be exported as separate features (instead of parts of a multipart feature).

../../../../_images/buffer_disjoint.png

Abb. 28.68 Results in 2 single part features

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Buffered

OUTPUT

[vector: polygon]

Output (buffer) polygon layer

Pythoncode

Algorithm ID: native:buffer

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.7. Centroids

Creates a new point layer, with points representing the centroids of the geometries of the input layer.

The centroid is a single point representing the barycenter (of all parts) of the feature, so it can be outside the feature borders. But can also be a point on each part of the feature.

The attributes of the points in the output layer are the same as for the original features.

../../../../_images/centroids1.png

Abb. 28.69 Die roten Sterne stellen die Zentren der Objekte des Input Layers dar.

checkbox Allows features in-place modification of point features

Default menu: Vector ► Geometry Tools

Siehe auch

Point on Surface

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Create centroid for each part

ALL_PARTS

[boolean dataDefine]

Default: False

If True (checked), a centroid will be created for each part of the geometry

Centroids

OUTPUT

[vector: point]

Default: [Create temporary layer]

Specify the output (centroid) layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Centroids

OUTPUT

[vector: point]

Output point vector layer (centroids)

Pythoncode

Algorithm ID: native:centroids

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.8. Check validity

Performs a validity check on the geometries of a vector layer.

The geometries are classified in three groups (valid, invalid and error) and for each group, a vector layer with its features is generated:

  • The Valid output layer contains only the valid features (without topological errors).

  • The Invalid output layer contains all the invalid features found by the algorithm.

  • The Error output layer is a point layer that points to where the invalid features were found.

The attribute tables of the generated layers will contain some additional information („message“ for the error layer, „FID“ and „_errors“ for the invalid layer and only „FID“ for the valid layer):

The attribute table of each generated vector layer will contain some additional information (number of errors found and types of error):

../../../../_images/check_validity.png

Abb. 28.70 Left: the input layer. Right: the valid layer (green), the invalid layer (orange)

Default menu: Vector ► Geometry Tools

Siehe auch

Fix geometries and the core plugin Die Erweiterung Geometrien prüfen

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT_LAYER

[vector: any]

Input vector layer

Method

METHOD

[enumeration]

Default: 2

Method to use to check validity. Options:

  • 0: The one selected in digitizing settings

  • 1: QGIS

  • 2: GEOS

Ignore ring self intersection

IGNORE_RING_SELF_INTERSECTION

[boolean]

Default: False

Ignore self intersecting rings when checking for validity.

Valid output

VALID_OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the vector layer to contain a copy of the valid features of the source layer. One of:

  • Skip Output

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Invalid output

INVALID_OUTPUT

[same as input]

Default: [Create temporary layer]

Vector layer containing copy of the invalid features of the source layer with the field _errors listing the summary of the error(s) found. One of:

  • Skip Output

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Error output

ERROR_OUTPUT

[vector: point]

Default: [Create temporary layer]

Point layer of the exact position of the validity problems detected with the message field describing the error(s) found. One of:

  • Skip Output

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Count of errors

ERROR_COUNT

[number]

The number of geometries that caused errors.

Error output

ERROR_OUTPUT

[vector: point]

Point layer of the exact position of the validity problems detected with the message field describing the error(s) found.

Count of invalid features

INVALID_COUNT

[number]

The number of invalid geometries.

Invalid output

INVALID_OUTPUT

[same as input]

Vector layer containing copy of the invalid features of the source layer with the field _errors listing the summary of the error(s) found.

Count of valid features

VALID_COUNT

[number]

The number of valid geometries.

Valid output

VALID_OUTPUT

[same as input]

Vector layer containing a copy of the valid features of the source layer.

Pythoncode

Algorithm ID: qgis:checkvalidity

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

Types of error messages and their meanings

Tab. 28.1 If the GEOS method is used the following error messages can occur:

Error message

Explanation

Beispiel

Repeated point

This error happens when a given vertex is repeated.

../../../../_images/geos_rep_point.png

Ring self-intersection

This error happens when a geometry touches itself and generates a ring.

../../../../_images/geos_ring_inter.png

Self-intersection

This error happens when a geometry touches itself.

../../../../_images/geos_self_inter.png

Topology validation error

Hole lies outside shell

Holes are nested

Interior is disconnected

Nested shells

This error happens when a polygon geometry is on top of another polygon geometry.

../../../../_images/geos_nest_shell.png

Duplicate rings

This error happens when two rings (exterior or interior) of a polygon geometry are identical

../../../../_images/geos_dupl_rings.png

Too few points in geometry component

Invalid coordinate

For a point geometry, this error happens when the geometry does not have a proper coordinate pair. The coordinate pair does not contain a latitude value and a longitude value in that order.

Ring is not closed

Tab. 28.2 If the QGIS method is used the following error messages can occur:

Error message

Explanation

Beispiel

Segment %1 of ring %2 of polygon %3 intersects segment %4 of ring %5 of polygon %6 at %7

Ring %1 with less than four points

Ring %1 not closed

Line %1 with less than two points

Line %1 contains %n duplicate node(s) at %2

This error happens when consecutive points on a line have the same coordinates.

../../../../_images/geos_rep_point.png

Segments %1 and %2 of line %3 intersect at %4

This error happens when a line self intersects (two segments of the line intersect each other).

../../../../_images/qgis_seg_line_int.png

Ring self-intersection

This error happens when an outer or inner (island) ring / boundary of a polygon geometry intersects itself.

../../../../_images/geos_ring_inter.png

Ring %1 of polygon %2 not in exterior ring

Polygon %1 lies inside polygon %2

This error happens when a part of a MultiPolygon geometry is inside a hole of a MultiPolygon geometry.

../../../../_images/qgis_poliinside_.png

28.1.22.9. Collect geometries

Takes a vector layer and collects its geometries into new multipart geometries.

One or more attributes can be specified to collect only geometries belonging to the same class (having the same value for the specified attributes), alternatively all geometries can be collected.

All output geometries will be converted to multi geometries, even those with just a single part. This algorithm does not dissolve overlapping geometries - they will be collected together without modifying the shape of each geometry part.

See the ‚Promote to multipart‘ or ‚Aggregate‘ algorithms for alternative options.

Default menu: Vector ► Geometry Tools

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Unique ID fields

FIELD

[tablefield: any] [list]

Choose one or more attributes to collect the geometries

Collected

OUTPUT

[same as input]

Vector layer with collected geometries

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Collected

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer for the collected geometries. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Pythoncode

Algorithm ID: native:collect

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.10. Concave hull

Computes the concave hull of the features from an input point layer.

../../../../_images/concave_hull_threshold.png

Abb. 28.71 Concave hulls with different thresholds (0.3, 0.6, 0.9)

Siehe auch

Convex hull

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input point layer

INPUT

[vector: point]

Input point vector layer

Threshold

ALPHA

[number]

Default: 0.3

Number from 0 (maximum concave hull) to 1 (convex hull).

Allow holes

HOLES

[boolean]

Default: True

Choose whether to allow holes in the final concave hull

Split multipart geometry into singlepart geometries

NO_MULTIGEOMETRY

[boolean]

Default: False

Check if you want to have singlepart geometries instead of multipart ones.

Concave hull

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Concave hull

OUTPUT

[vector: polygon]

The output vector layer

Pythoncode

Algorithm ID: native:concavehull

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.11. Convert geometry type

Generates a new layer based on an existing one, with a different type of geometry.

The attribute table of the output layer is the same as the one of the input layer.

Not all conversions are possible. For instance, a line layer can be converted to a point layer, but a point layer cannot be converted to a line layer.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

New geometry type

TYPE

[enumeration]

Default: 0

Geometry type to apply to the output features. One of:

  • 0 — Centroids

  • 1 — Nodes

  • 2 — Linestrings

  • 3 — Multilinestrings

  • 4 — Polygons

Converted

OUTPUT

[vector: any]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Converted

OUTPUT

[vector: any]

Output vector layer - the type depends on the parameters

Pythoncode

Algorithm ID: qgis:convertgeometrytype

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.12. Convert to curved geometries

Converts a geometry into its curved geometry equivalent.

Already curved geometries will be retained without change.

checkbox Allows features in-place modification of line and polygon features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line or polygon]

Input vector layer

Maximum distance tolerance

DISTANCE

[number]

Default: 0.000001

The maximum distance allowed between the original location of vertices and where they would fall on the converted curved geometries

Maximum angle tolerance

ANGLE

[number]

Default: 0.000001

Segments are considered as suitable for replacing with an arc if the points are all regularly spaced on the candidate arc. This parameter specifies the maximum angular deviation (in degrees) allowed when testing for regular point spacing. Between 0 and 45°.

Curves

OUTPUT

[vector: compoundcurve or curvepolygon]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Curves

OUTPUT

[vector: compoundcurve or curvepolygon]

Output vector layer with curved geometries

Pythoncode

Algorithm ID: native:converttocurves

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.13. Convex hull

Calculates the convex hull for each feature in an input layer.

See the ‚Minimum bounding geometry‘ algorithm for a convex hull calculation which covers the whole layer or grouped subsets of features.

../../../../_images/convex_hull.png

Abb. 28.72 Black lines identify the convex hull for each layer feature

checkbox Allows features in-place modification of polygon features

Default menu: Vector ► Geoprocessing Tools

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Convex hull

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Convex hull

OUTPUT

[vector: polygon]

The output (convex hull) vector layer

Pythoncode

Algorithm ID: native:convexhull

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.14. Create layer from extent

Creates a new vector layer that contains a single feature with geometry matching the extent of the input layer.

It can be used in models to convert a literal extent (xmin, xmax, ymin, ymax format) into a layer which can be used for other algorithms which require a layer based input.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Extent (xmin, xmax, ymin, ymax)

INPUT

[extent]

Input extent

Available methods are:

  • Calculate from layer…: uses extent of a layer loaded in the current project

  • Calculate from layout map…: uses extent of a layout map item in the active project

  • Calculate from bookmark…: uses extent of a saved bookmark

  • Use map canvas extent

  • Draw on canvas: click and drag a rectangle delimiting the area to take into account

  • Enter the coordinates as xmin, xmax, ymin, ymax

Extent

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Extent

OUTPUT

[vector: polygon]

The output (extent) vector layer

Pythoncode

Algorithm ID: native:extenttolayer

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.15. Create layer from point

Creates a new vector layer that contains a single feature with geometry matching a point parameter. It can be used in models to convert a point into a point layer for algorithms which require a layer based input.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Point

INPUT

[coordinates]

Input point, including CRS info (example: 397254,6214446 [EPSG:32632]).

If the CRS is not provided, the Project CRS will be used.

The point can be specified by clicking on the map canvas.

Point

OUTPUT

[vector: point]

Default: [Create temporary layer]

Specify the output layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Point

OUTPUT

[vector: point]

The output point vector layer containing the input point.

Pythoncode

Algorithm ID: native:pointtolayer

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.16. Create wedge buffers

Creates wedge shaped buffers from input points.

../../../../_images/wedge_buffers.png

Abb. 28.73 Wedge buffers

The native output from this algorithm are CurvePolygon geometries, but these may be automatically segmentized to Polygons depending on the output format.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: point]

Input point vector layer

Azimuth (degrees from North)

AZIMUTH

[number dataDefine]

Default: 0.0

Angle (in degrees) as the middle value of the wedge

Wedge width (in degrees)

WIDTH

[number dataDefine]

Default: 45.0

Width (in degrees) of the buffer. The wedge will extend to half of the angular width either side of the azimuth direction.

../../../../_images/wedge_buffers_azimuth_width.png

Abb. 28.74 Azimuth and width values of the wedge buffer

Outer radius

OUTER_RADIUS

[number dataDefine]

Default: 1.0

The outer size (length) of the wedge: the size is meant from the source point to the edge of the wedge shape.

Inner radius

Optional

INNER_RADIUS

[number dataDefine]

Default: 0.0

Inner radius value. If 0 the wedge will begin from the source point.

Buffers

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Buffers

OUTPUT

[vector: polygon]

The output (wedge buffer) vector layer

Pythoncode

Algorithm ID: native:wedgebuffers

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.17. Delaunay triangulation

Creates a polygon layer with the Delaunay triangulation corresponding to the input point layer.

../../../../_images/delaunay.png

Abb. 28.75 Delaunay triangulation on points

Default menu: Vector ► Geometry Tools

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: point]

Input point vector layer

Tolerance

Optional

TOLERANCE

[number]

Default: 0.0

Specifies an optional snapping tolerance which can be used to improve the robustness of the triangulation.

Add point IDs to output

ADD_ATTRIBUTES

[boolean]

Default: True

Specifies whether fields storing involved point features ID should be added to the output. If False, an id field is used to identify the polygons.

Delaunay triangulation

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Delaunay triangulation

OUTPUT

[vector: polygon]

The output (Delaunay triangulation) vector layer

Pythoncode

Algorithm ID: native:delaunaytriangulation

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.18. Delete holes

Takes a polygon layer and removes holes in polygons. It creates a new vector layer in which polygons with holes have been replaced by polygons with only their external ring. Attributes are not modified.

An optional minimum area parameter allows removing only holes which are smaller than a specified area threshold. Leaving this parameter at 0.0 results in all holes being removed.

../../../../_images/delete_holes.png

Abb. 28.76 Before and after the cleaning

checkbox Allows features in-place modification of polygon features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: polygon]

Input polygon vector layer

Remove holes with area less than

Optional

MIN_AREA

[number dataDefine]

Default: 0.0

Only holes with an area less than this threshold will be deleted. With a value of 0.0, all the holes will be deleted.

Cleaned

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Cleaned

OUTPUT

[same as input]

The output (cleaned) vector layer

Pythoncode

Algorithm ID: native:deleteholes

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.19. Densify by count

Takes a polygon or line layer and generates a new one in which the geometries have a larger number of vertices than the original one.

If the geometries have Z or M values present then these will be linearly interpolated at the added vertices.

The number of new vertices to add to each segment is specified as an input parameter.

../../../../_images/densify_geometry.png

Abb. 28.77 Rote Punkte zeigen die Knotenpunkte vor und nach der Verdichtung

checkbox Allows features in-place modification of line and polygon features

Default menu: Vector ► Geometry Tools

Siehe auch

Densify by interval

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line, polygon]

Input line or polygon vector layer

Vertices to add

VERTICES

[number]

Default: 1

Number of vertices to add to each segment

Densified

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Densified

OUTPUT

[same as input]

The output (densified) vector layer

Pythoncode

Algorithm ID: native:densifygeometries

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.20. Densify by interval

Takes a polygon or line layer and generates a new one in which the geometries have a larger number of vertices than the original one.

The geometries are densified by adding regularly placed extra vertices inside each segment so that the maximum distance between any two vertices does not exceed the specified distance.

If the geometries have Z or M values present then these will be linearly interpolated at the added vertices.

Beispiel

Specifying a distance of 3 would cause the segment [0 0] -> [10 0] to be converted to [0 0] -> [2.5 0] -> [5 0] -> [7.5 0] -> [10 0], since 3 extra vertices are required on the segment and spacing these at 2.5 increments allows them to be evenly spaced over the segment.

../../../../_images/densify_geometry_interval.png

Abb. 28.78 Verdichtung der Geometrie in einem bestimmten Intervall

checkbox Allows features in-place modification of line and polygon features

Siehe auch

Densify by count

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line, polygon]

Input line or polygon vector layer

Interval between vertices to add

INTERVAL

[number dataDefine]

Default: 1.0

Maximum distance between two consecutive vertices

Densified

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Densified

OUTPUT

[same as input]

The output (densified) vector layer

Pythoncode

Algorithm ID: native:densifygeometriesgivenaninterval

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.21. Dissolve

Takes a vector layer and combines its features into new features. One or more attributes can be specified to dissolve features belonging to the same class (having the same value for the specified attributes), alternatively all features can be dissolved to a single feature.

All output geometries will be converted to multi geometries. In case the input is a polygon layer, common boundaries of adjacent polygons being dissolved will get erased. If enabled, the optional „Keep disjoint features separate“ setting will cause features and parts that do not overlap or touch to be exported as separate features (instead of parts of a single multipart feature).

The resulting attribute table will have the same fields as the input layer. The values in the output layer’s fields are the ones of the first input feature that happens to be processed.

../../../../_images/dissolve.png

Abb. 28.79 Dissolving a layer into a single multipart feature

Default menu: Vector ► Geoprocessing Tools

Parameter

Basic parameters

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Dissolve field(s)

Optional

FIELD

[tablefield: any] [list]

Default: []

Features having the same value for the selected field(s) will be replaced with a single one and their geometries are merged.

If no field is provided then all the features are dissolved, resulting in a single (multipart) feature.

../../../../_images/dissolve_field.png

Abb. 28.80 Dissolve the polygon layer on a common attribute (2 multipart features)

Dissolved

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Fortgeschrittene Parameter

Bezeichnung

Name

Typ

Beschreibung

Keep disjoint features separate

SEPARATE_DISJOINT

[boolean]

Default: False

Parts of dissolved features are exported as separate features (instead of parts of a multipart feature).

../../../../_images/dissolve_disjoint.png

Abb. 28.81 source (left), dissolve all (3 distinct features - right)

../../../../_images/dissolve_disjoint_field.png

Abb. 28.82 source (left), dissolve on field (5 distinct features - right)

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Dissolved

OUTPUT

[same as input]

The output vector layer with dissolved geometries

Pythoncode

Algorithm ID: native:dissolve

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.22. Drape (set Z value from raster)

Uses values sampled from a band within a raster layer to set the Z value for every overlapping vertex in the feature geometry. The raster values can optionally be scaled by a preset amount.

If Z values already exist in the layer, they will be overwritten with the new value. If no Z values exist, the geometry will be upgraded to include the Z dimension.

checkbox Allows features in-place modification of point, line, and polygon features with Z enabled

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Raster layer

RASTER

[raster]

Raster layer with Z values

Band number

BAND

[raster band]

Default: 1

The raster band to take the Z values from

Value for NoData or non-intersecting vertices

NODATA

[number dataDefine]

Default: 0

Value to use in case the vertex does not intersect (a valid pixel of) the raster

Scale factor

SCALE

[number dataDefine]

Default: 1.0

Scaling value: the band values are multiplied by this value.

Offset

OFFSET

[number dataDefine]

Default: 0.0

Offset value: it is algebraically added to the band values after applying the „Scale factor“.

Updated

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer (with Z values from the raster layer). One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Updated

OUTPUT

[same as input]

The output vector layer with Z values from the raster layer

Pythoncode

Algorithm ID: native:setzfromraster

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.23. Drop M/Z values

Removes M (measure) or Z (altitude) values from input geometries.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer with M or Z values

Drop M Values

DROP_M_VALUES

[boolean]

Default: False

Removes the M values from the geometries

Drop Z Values

DROP_Z_VALUES

[boolean]

Default: False

Removes the Z values from the geometries

Z/M Dropped

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Z/M Dropped

OUTPUT

[same as input]

The output vector layer (identical to the input layer, except that the M and/or Z dimensions have been removed from the geometries).

Pythoncode

Algorithm ID: native:dropmzvalues

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.24. Eliminate selected polygons

Combines selected polygons of the input layer with certain adjacent polygons by erasing their common boundary. The adjacent polygon can be either the one with the largest or smallest area or the one sharing the largest common boundary with the polygon to be eliminated.

Eliminate is normally used to get rid of sliver polygons, i.e. tiny polygons that are a result of polygon intersection processes where boundaries of the inputs are similar but not identical.

Default menu: Vector ► Geoprocessing Tools

Siehe auch

Fix geometries

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: polygon]

Input polygon vector layer

Merge selection with the neighboring polygon with the

MODE

[enumeration]

Default: None

Choose the parameter to use in order to get rid of the selected polygons:

  • 0 — Largest Area

  • 1 — Smallest Area

  • 2 — Largest Common Boundary

Eliminated

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Eliminated

OUTPUT

[vector: polygon]

The output polygon vector layer.

Pythoncode

Algorithm ID: qgis:eliminateselectedpolygons

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.25. Explode lines

Takes a lines layer and creates a new one in which each line layer is replaced by a set of lines representing the segments in the original line.

Each line in the resulting layer contains only a start and an end point, with no intermediate vertices between them.

../../../../_images/explode_lines.png

Abb. 28.83 The original line layer and the exploded one

checkbox Allows features in-place modification of line features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line]

Input line vector layer

Exploded

OUTPUT

[vector: line]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Exploded

OUTPUT

[vector: line]

The output line vector layer with features representing each segment of the input layer.

Pythoncode

Algorithm ID: native:explodelines

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.26. Extend lines

Extends line geometry by a specified amount at the start and end of the line.

Lines are extended using the bearing of the first and last segment in the line.

../../../../_images/extend_lines.png

Abb. 28.84 Die roten Striche stellen die Verlängerung der ursprünglichen Geometrie dar

checkbox Allows features in-place modification of line features

Siehe auch

Line substring

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line]

Input line vector layer

Start distance

START_DISTANCE

[number dataDefine]

Distance by which to extend the first segment of the line (starting point)

End distance

END_DISTANCE

[number dataDefine]

Distance by which to extend the last segment of the line (ending point)

Extended

OUTPUT

[vector: line]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Extended

OUTPUT

[vector: line]

The output (extended) line vector layer.

Pythoncode

Algorithm ID: native:extendlines

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.27. Extract M values

Extracts M values from geometries into feature attributes.

By default only the M value from the first vertex of each feature is extracted, however the algorithm can optionally calculate statistics on all of the geometry’s M values, including sum, mean, minimum and maximum.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Summaries to calculate

SUMMARIES

[enumeration]

Default: [0]

Statistics on the M values of a geometry. One or more of:

  • 0 — First

  • 1 — Last

  • 2 — Count

  • 3 — Sum

  • 4 — Mean

  • 5 — Median

  • 6 — St.dev (pop)

  • 7 — Minimum

  • 8 — Maximum

  • 9 — Range

  • 10 — Minority

  • 11 — Majority

  • 12 — Variety

  • 13 — Q1

  • 14 — Q3

  • 15 — IQR

Output column prefix

COLUMN_PREFIX

[string]

Default: ‚m_‘

The prefix for the output (M) column

Extracted

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Extracted

OUTPUT

[same as input]

The output vector layer (with M values)

Pythoncode

Algorithm ID: native:extractmvalues

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.28. Extract specific vertices

Takes a vector layer and generates a point layer with points representing specific vertices in the input geometries.

For instance, this algorithm can be used to extract the first or last vertices in the geometry. The attributes associated to each point are the same ones associated to the feature that the vertex belongs to.

The vertex indices parameter accepts a comma separated string specifying the indices of the vertices to extract. The first vertex corresponds to an index of 0, the second vertex has an index of 1, etc. Negative indices can be used to find vertices at the end of the geometry, e.g., an index of -1 corresponds to the last vertex, -2 corresponds to the second last vertex, etc.

Additional fields are added to the vertices indicating the specific vertex position (e.g., 0, -1, etc), the original vertex index, the vertex’s part and its index within the part (as well as its ring for polygons), distance along the original geometry and bisector angle of vertex for the original geometry.

checkbox Allows features in-place modification of point features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Vertex indices

VERTICES

[string]

Default: ‚0‘

Comma-separated string of the indices of the vertices to extract.

Vertices

OUTPUT

[vector: point]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Vertices

OUTPUT

[vector: point]

The output (point) vector layer containing the specified vertices from the input layer geometries.

Pythoncode

Algorithm ID: native:extractspecificvertices

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.29. Extract vertices

Takes a vector layer and generates a point layer with points representing the vertices in the input geometries.

The attributes associated to each point are the same ones associated to the feature that the vertex belongs to.

Additional fields are added to the vertices indicating the vertex index (beginning at 0), the feature’s part and its index within the part (as well as its ring for polygons), distance along original geometry and bisector angle of vertex for original geometry.

../../../../_images/extract_nodes.png

Abb. 28.85 Vertices extracted for line and polygon layer

checkbox Allows features in-place modification of point features

Default menu: Vector ► Geometry Tools

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Vertices

OUTPUT

[vector: point]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Vertices

OUTPUT

[vector: point]

The output (point) vector layer containing the vertices from the input layer geometries.

Pythoncode

Algorithm ID: native:extractvertices

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.30. Extract Z values

Extracts Z values from geometries into feature attributes.

By default only the Z value from the first vertex of each feature is extracted, however the algorithm can optionally calculate statistics on all of the geometry’s Z values, including sum, mean, minimum and maximum.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Summaries to calculate

SUMMARIES

[enumeration]

Default: [0]

Statistics on the Z values of a geometry. One or more of:

  • 0 — First

  • 1 — Last

  • 2 — Count

  • 3 — Sum

  • 4 — Mean

  • 5 — Median

  • 6 — St.dev (pop)

  • 7 — Minimum

  • 8 — Maximum

  • 9 — Range

  • 10 — Minority

  • 11 — Majority

  • 12 — Variety

  • 13 — Q1

  • 14 — Q3

  • 15 — IQR

Output column prefix

COLUMN_PREFIX

[string]

Default: ‚z_‘

The prefix for the output (Z) column

Extracted

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Extracted

OUTPUT

[same as input]

The output vector layer (with Z values)

Pythoncode

Algorithm ID: native:extractzvalues

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.31. Filter vertices by M value

Filters away vertices based on their M value, returning geometries with only vertex points that have a M value greater than or equal to the specified minimum value and/or less than or equal to the maximum value.

If the minimum value is not specified then only the maximum value is tested, and similarly if the maximum value is not specified then only the minimum value is tested.

../../../../_images/filter_zm.png

Abb. 28.86 The red line represents the black line with only vertices whose M value is <=10.

checkbox Allows features in-place modification of line and polygon features with M enabled

Bemerkung

Depending on the input geometry attributes and the filters used, the resultant geometries created by this algorithm may no longer be valid.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line, polygon]

Input line or polygon vector layer to remove vertices from

Minimum

Optional

MIN

[number dataDefine]

Default: Not set

Minimum of M values allowed

Maximum

Optional

MAX

[number dataDefine]

Default: Not set

Maximum of M values allowed

Filtered

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Filtered

OUTPUT

[same as input]

The output vector layer of features with only the filtered vertices.

Pythoncode

Algorithm ID: native:filterverticesbym

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.32. Filter vertices by Z value

Filters away vertices based on their Z value, returning geometries with only vertex points that have a Z value greater than or equal to the specified minimum value and/or less than or equal to the maximum value.

If the minimum value is not specified then only the maximum value is tested, and similarly if the maximum value is not specified then only the minimum value is tested.

../../../../_images/filter_zm.png

Abb. 28.87 The red line represents the black line with only vertices whose Z value is <=10.

checkbox Allows features in-place modification of line and polygon features with Z enabled

Bemerkung

Depending on the input geometry attributes and the filters used, the resultant geometries created by this algorithm may no longer be valid. You may need to run the Fix geometries algorithm to ensure their validity.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line, polygon]

Input line or polygon vector layer to remove vertices from

Minimum

Optional

MIN

[number dataDefine]

Default: Not set

Minimum of Z values allowed

Maximum

Optional

MAX

[number dataDefine]

Default: Not set

Maximum of Z values allowed

Filtered

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Filtered

OUTPUT

[same as input]

The output vector layer of features with only the filtered vertices.

Pythoncode

Algorithm ID: native:filterverticesbyz

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.33. Fix geometries

Attempts to create a valid representation of a given invalid geometry without losing any of the input vertices. Already valid geometries are returned without further intervention. Always outputs multi-geometry layer.

checkbox Allows features in-place modification of point, line, and polygon features without M enabled

Bemerkung

M values will be dropped from the output.

Siehe auch

Check validity

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Repair method

METHOD

[enumeration]

Default: 1

Method used to repair the geometries. One of:

  • 0 — Linework: combines all rings into a set of noded lines and then extracts valid polygons from that linework

  • 1 — Structure: first makes all rings valid and then merges shells and subtracts holes from shells to generate valid result. Assumes that holes and shells are correctly categorized. Requires QGIS version built with GEOS 3.10 or later (check Help ► About menu).

Fixed geometries

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Fixed geometries

OUTPUT

[same as input]

The output vector layer with fixed geometries.

Pythoncode

Algorithm ID: native:fixgeometries

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.34. Force right-hand-rule

Forces polygon geometries to respect the Right-Hand-Rule, in which the area that is bounded by a polygon is to the right of the boundary. In particular, the exterior ring is oriented in a clockwise direction and any interior rings in a counter-clockwise direction.

checkbox Allows features in-place modification of polygon features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: polygon]

Input vector layer

Reoriented

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Reoriented

OUTPUT

[vector: polygon]

The output vector layer with reoriented geometries.

Pythoncode

Algorithm ID: native:forcerhr

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.35. Geodesic line split at antimeridian

Splits a line into multiple geodesic segments, whenever the line crosses the antimeridian (±180 degrees longitude).

Splitting at the antimeridian helps the visual display of the lines in some projections. The returned geometry will always be a multi-part geometry.

Whenever line segments in the input geometry cross the antimeridian, they will be split into two segments, with the latitude of the breakpoint being determined using a geodesic line connecting the points either side of this segment. The current project ellipsoid setting will be used when calculating this breakpoint.

If the input geometry contains M or Z values, these will be linearly interpolated for the new vertices created at the antimeridian.

checkbox Allows features in-place modification of line features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line]

Input line vector layer

Split

OUTPUT

[vector: line]

Default: [Create temporary layer]

Specify the output line vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Split

OUTPUT

[vector: line]

The output line vector layer split at the antimeridian.

Pythoncode

Algorithm ID: native:antimeridiansplit

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.36. Geometry by expression

Updates existing geometries (or creates new geometries) for input features by use of a QGIS expression.

This allows complex geometry modifications which can utilize all the flexibility of the QGIS expression engine to manipulate and create geometries for output features.

For help with QGIS expression functions, see the inbuilt help available in the expression builder.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Output geometry type

OUTPUT_GEOMETRY

[enumeration]

Default: 0

The output geometry strongly depends on the expression: for instance, if you create a buffer the geometry type has to be polygon. One of:

  • 0 — Polygon

  • 1 — Line

  • 2 — Point

Output geometry has z values

WITH_Z

[boolean]

Default: False

Choose if the output geometry should include the Z dimension

Output geometry has m values

WITH_M

[boolean]

Default: False

Choose if the output geometry should include the M dimension

Geometry expression

EXPRESSION

[expression]

Default: ‚$geometry‘

Add the geometry expression you want to use. You can use the button to open the Expression Dialog. The dialog lists all the relevant expressions, together with their help and guide.

Modified geometry

OUTPUT

[vector: any]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Modified geometry

OUTPUT

[vector: any]

The output vector layer

Pythoncode

Algorithm ID: native:geometrybyexpression

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.37. Interpolate point on line

Creates a point geometry interpolated at a set distance along line or curve geometries.

Z and M values are linearly interpolated from existing values.

If a multipart geometry is encountered, only the first part is considered when calculating the substring.

If the specified distance is greater than the input feature’s length, the resultant feature will have a null geometry.

../../../../_images/interpolated_point.png

Abb. 28.88 Interpolierter Punkt in 500 m Entfernung vom Beginn der Strecke

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line, polygon]

Input line or polygon vector layer

Abstand

DISTANCE

[number dataDefine]

Default: 0.0

Distance from the beginning of the line

Interpolated points

OUTPUT

[vector: point]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Interpolated points

OUTPUT

[vector: point]

The output point vector layer with features at a set distance along the line or polygon boundary

Pythoncode

Algorithm ID: native:interpolatepoint

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.38. Keep N biggest parts

Takes a layer with polygons or multipolygons and returns a new layer in which only the n largest polygons of each multipolygon feature are kept. If a feature has n or fewer parts, the feature will just be copied.

../../../../_images/n_biggest.png

Abb. 28.89 Clockwise from top left: original multipart feature, one, two and three biggest parts kept

Parameter

Bezeichnung

Name

Typ

Beschreibung

Polygons

INPUT

[vector: polygon]

Input polygon vector layer

Parts to keep

PARTS

[number]

Default: 1

Number of parts to keep. If 1, only the biggest part of the feature will be kept.

Parts

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output polygon vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Parts

OUTPUT

[vector: polygon]

The output polygon vector layer with the N biggest parts of each feature

Pythoncode

Algorithm ID: qgis:keepnbiggestparts

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.39. Line substring

Returns the portion of a line (or curve) which falls between the specified start and end distances (measured from the beginning of the line).

Z and M values are linearly interpolated from existing values.

If a multipart geometry is encountered, only the first part is considered when calculating the substring.

../../../../_images/substring.png

Abb. 28.90 Teilabschnitt mit einem Startabstand von 0 Metern und einem Endabstand von 250 Metern

checkbox Allows features in-place modification of line features

Siehe auch

Extend lines

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line]

Input line vector layer

Start distance

START_DISTANCE

[number dataDefine]

Distance along the input line to the start point of the output feature

End distance

END_DISTANCE

[number dataDefine]

Distance along the input line to the end point of the output feature

Substring

OUTPUT

[vector: line]

Default: [Create temporary layer]

Specify the output line vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Substring

OUTPUT

[vector: line]

The output line vector layer.

Pythoncode

Algorithm ID: native:linesubstring

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.40. Lines to polygons

Generates a polygon layer using as polygon rings the lines from an input line layer.

The attribute table of the output layer is the same as the one of the input layer.

Default menu: Vector ► Geometry Tools

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line]

Input line vector layer

Polygons

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output polygon vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Polygons

OUTPUT

[vector: polygon]

The output polygon vector layer.

Pythoncode

Algorithm ID: qgis:linestopolygons

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.41. Merge lines

Joins all connected parts of MultiLineString geometries into single LineString geometries.

If any parts of the input MultiLineString geometries are not connected, the resultant geometry will be a MultiLineString containing any lines which could be merged and any non-connected line parts.

checkbox Allows features in-place modification of line features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line]

Input line vector layer

Merged

OUTPUT

[vector: line]

Default: [Create temporary layer]

Specify the output line vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Merged

OUTPUT

[vector: line]

The output (merged) line vector layer.

Pythoncode

Algorithm ID: native:mergelines

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.42. Minimum bounding geometry

Creates geometries which enclose the features from an input layer. The features can be grouped by a field. The output layer will then contain one feature per group value with a geometry (MBB) that covers the geometries of the features with matching value.

The following enclosing geometry types are supported:

  • bounding box (envelope)

  • oriented rectangle

  • circle

  • convex hull

../../../../_images/minimum_bounding.png

Abb. 28.91 Clockwise from top left: envelope, oriented rectangle, circle, convex hull

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Field

Optional

FIELD

[tablefield: any]

Features can be grouped by a field. If set, this causes the output layer to contain one feature per grouped value with a minimal geometry covering only the features with matching values.

Geometry type

TYPE

[enumeration]

Default: 0

Enclosing geometry types. One of:

  • 0 — Envelope (Bounding Box)

  • 1 — Minimum Oriented Rectangle

  • 2 — Minimum Enclosing Circle

  • 3 — Convex Hull

Bounding geometry

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output polygon vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Bounding geometry

OUTPUT

[vector: polygon]

The output (bounding) polygon vector layer.

Pythoncode

Algorithm ID: qgis:minimumboundinggeometry

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.43. Minimum enclosing circles

Calculates the minimum enclosing circles of the features in the input layer.

../../../../_images/minimum_enclosing_circles.png

Abb. 28.92 Enclosing circles for each feature

checkbox Allows features in-place modification of polygon features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Number of segments in circles

SEGMENTS

[number]

Default: 72

The number of segments used to approximate a circle. Minimum 8, maximum 100000.

Minimum enclosing circles

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output polygon vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Minimum enclosing circles

OUTPUT

[vector: polygon]

The output polygon vector layer.

Pythoncode

Algorithm ID: native:minimumenclosingcircle

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.44. Multi-ring buffer (constant distance)

Computes multi-ring (donut) buffer for the features of the input layer, using a fixed or dynamic distance and number of rings.

../../../../_images/multiringbuffer.png

Abb. 28.93 Multi-ring buffer for a line, point and polygon layer

checkbox Allows features in-place modification of polygon features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Number of rings

RINGS

[number dataDefine]

Default: 1

The number of rings. It can be a unique value (same number of rings for all the features) or it can be taken from features data (the number of rings depends on feature values).

Distance between rings

DISTANCE

[number dataDefine]

Default: 1.0

Distance between the rings. It can be a unique value (same distance for all the features) or it can be taken from features data (the distance depends on feature values).

Multi-ring buffer (constant distance)

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output polygon vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Multi-ring buffer (constant distance)

OUTPUT

[vector: polygon]

The output polygon vector layer.

Pythoncode

Algorithm ID: native:multiringconstantbuffer

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.45. Multipart to singleparts

Splits multipart features in the input layer into singlepart features.

The attributes of the output layer are the same as the original ones but divided into single features.

../../../../_images/multipart.png

Abb. 28.94 Left the multipart source layer and right the single part output result

checkbox Allows features in-place modification of point, line, and polygon features

Default menu: Vector ► Geometry Tools

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Single parts

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output polygon vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Single parts

OUTPUT

[same as input]

The output vector layer.

Pythoncode

Algorithm ID: native:multiparttosingleparts

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.46. Offset lines

Offsets lines by a specified distance. Positive distances will offset lines to the left, and negative distances will offset them to the right.

../../../../_images/offset_lines.png

Abb. 28.95 In Blau der Quell-Layer, in Rot der Offset-Layer

checkbox Allows features in-place modification of line features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line]

Input line vector layer

Abstand

DISTANCE

[number dataDefine]

Default: 10.0

Offset distance. You can use the Data Defined button on the right to choose a field from which the radius will be calculated. This way you can have different radius for each feature (see Variable distance buffer).

Segmente

SEGMENTS

[number]

Default: 8

Controls the number of line segments to use to approximate a quarter circle when creating rounded offsets.

Verbindungsstil

JOIN_STYLE

[enumeration]

Default: 0

Specifies whether round, miter or beveled joins should be used when offsetting corners in a line. Options are:

  • 0 — Rund

  • 1 — Eckig

  • 2 — Abgefast

../../../../_images/buffer_join_style.png

Abb. 28.96 Round, miter, and bevel join styles

Eckgrenze

MITER_LIMIT

[number]

Default: 2.0

Sets the maximum distance from the offset geometry to use when creating a mitered join as a factor of the offset distance (only applicable for miter join styles). Minimum: 1.0

../../../../_images/buffer_miter_limit.png

Abb. 28.97 A 10m buffer with a limit of 2 and a 10m buffer with a limit of 1

Offset

OUTPUT

[vector: line]

Default: [Create temporary layer]

Specify the output (offset) layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Offset

OUTPUT

[vector: line]

Output (offset) line layer

Pythoncode

Algorithm ID: native:offsetline

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.47. Orientiertes minimales Begrenzungsrechteck

Calculates the minimum area rotated rectangle for each feature in the input layer.

../../../../_images/oriented_minimum_bounding_box.png

Abb. 28.98 Orientiertes minimales Begrenzungsrechteck

checkbox Allows features in-place modification of polygon features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Bounding boxes

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output polygon vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Bounding boxes

OUTPUT

[vector: polygon]

The output polygon vector layer.

Pythoncode

Algorithm ID: native:orientedminimumboundingbox

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.48. Orthogonalize

Attempts to orthogonalize the geometries of the input line or polygon layer. This process shifts the vertices in the geometries to try to make every angle in the geometry either a right angle or a straight line.

../../../../_images/orthogonize.png

Abb. 28.99 In blue the source layer and in the red orthogonalized result

checkbox Allows features in-place modification of line and polygon features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line, polygon]

Input line or polygon vector layer

Maximum angle tolerance (degrees)

ANGLE_TOLERANCE

[number]

Default: 15

Specify the maximum deviation from a right angle or straight line a vertex can have for it to be adjusted. Smaller tolerances mean that only vertices which are already closer to right angles will be adjusted, and larger tolerances mean that vertices which deviate further from right angles will also be adjusted.

Maximum algorithm iterations

MAX_ITERATIONS

[number]

Default: 1000

Setting a larger number for the maximum number of iterations will result in a more orthogonal geometry at the cost of extra processing time.

Orthogonalized

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output polygon vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Orthogonalized

OUTPUT

[same as input]

The output polygon vector layer with adjusted angles.

Pythoncode

Algorithm ID: native:orthogonalize

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.49. Point on Surface

For each feature of the input layer, returns a point that is guaranteed to lie on the surface of the feature geometry.

checkbox Allows features in-place modification of point features

Siehe auch

Centroids

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Create point on surface for each part

ANGLE_TOLERANCE

[boolean dataDefine]

If checked, a point will be created for each part of the geometry.

Point

OUTPUT

[vector: point]

Default: [Create temporary layer]

Specify the output point vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Point

OUTPUT

[vector: point]

The output point vector layer.

Pythoncode

Algorithm ID: native:pointonsurface

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.50. Points along geometry

Creates points at regular intervals along line or polygon geometries. Created points will have new attributes added for the distance along the geometry and the angle of the line at the point.

An optional start and end offset can be specified, which controls how far from the start and end of the geometry the points should be created.

../../../../_images/points_along_line.png

Abb. 28.100 Points created along the source line layer

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line, polygon]

Input line or polygon vector layer

Abstand

DISTANCE

[number dataDefine]

Default: 1.0

Distance between two consecutive points along the line

Start offset

START_OFFSET

[number dataDefine]

Default: 0.0

Distance from the beginning of the input line, representing the position of the first point.

End offset

END_OFFSET

[number dataDefine]

Default: 0.0

Distance from the end of the input line, representing the position beyond which no point feature shoud be created.

Interpolated points

OUTPUT

[vector: point]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Interpolated points

OUTPUT

[vector: point]

Point vector layer with features placed along lines or polygon boundaries of the input layer.

Pythoncode

Algorithm ID: native:pointsalonglines

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.51. Points displacement

Given a distance of proximity, identifies nearby point features and radially distributes them over a circle whose center represents their barycenter. A convenient tool to scatter overlaid features.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: point]

Input point vector layer

Minimum distance to other points

PROXIMITY

[number]

Default: 1.0

Distance below which point features are considered close. Close features are distributed altogether.

Displacement distance

DISTANCE

[number]

Default: 1.0

Radius of the circle on which close features are placed

Horizontal distribution for two point case

HORIZONTAL

[boolean]

Default: False

When only two points are identified as close, aligns them horizontally on the circle instead of vertically.

Displaced

OUTPUT

[vector: point]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Displaced

OUTPUT

[vector: point]

Output point vector layer

Pythoncode

Algorithm ID: qgis:pointsdisplacement

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.52. Pole of inaccessibility

Calculates the pole of inaccessibility for a polygon layer, which is the most distant internal point from the boundary of the surface.

This algorithm uses the ‚polylabel‘ algorithm (Vladimir Agafonkin, 2016), which is an iterative approach guaranteed to find the true pole of inaccessibility within a specified tolerance. A more precise tolerance (lower value) requires more iterations and will take longer to calculate.

The distance from the calculated pole to the polygon boundary will be stored as a new attribute in the output layer.

../../../../_images/pole_inaccessibility.png

Abb. 28.101 Pole of inaccessibility

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: polygon]

Input vector layer

Tolerance

TOLERANCE

[number]

Default: 1.0

Set the tolerance for the calculation

Point

OUTPUT

[vector: point]

Default: [Create temporary layer]

Specify the output polygon vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Point

OUTPUT

[vector: point]

The output point vector layer

Pythoncode

Algorithm ID: native:poleofinaccessibility

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.53. Polygonize

Creates a polygon layer whose features boundaries are generated from a line layer of closed features.

../../../../_images/polygonize1.png

Abb. 28.102 The yellow polygons generated from the closed lines

Bemerkung

The line layer must have closed shapes in order to be transformed into a polygon.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line]

Input line vector layer

Keep fields from the input layer

Optional

KEEP_FIELDS

[boolean]

Default: False

Check to keep the fields (only the table structure, not the values) of the input layer

Polygons from lines

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output polygon vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Polygons from lines

OUTPUT

[vector: polygon]

The output polygon vector layer from lines

Pythoncode

Algorithm ID: native:polygonize

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.54. Polygons to lines

Takes a polygon layer and creates a line layer, with lines representing the boundaries of the polygons in the input layer.

The attribute table of the output layer is the same as the one of the input layer.

../../../../_images/polygon_to_lines.png

Abb. 28.103 Black lines as the result of the algorithm

Default menu: Vector ► Geometry Tools

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: polygon]

Input polygon vector layer

Lines

OUTPUT

[vector: line]

Default: [Create temporary layer]

Specify the output line vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Lines

OUTPUT

[vector: line]

The output line vector layer from polygons

Pythoncode

Algorithm ID: native:polygonstolines

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.55. Project points (Cartesian)

Projects point geometries by a specified distance and bearing (azimuth).

checkbox Allows features in-place modification of point features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: point]

Input point vector layer

Bearing (degrees from North)

BEARING

[number dataDefine]

Default: 0.0

Clockwise angle starting from North, in degree (°) unit

Abstand

DISTANCE

[number dataDefine]

Default: 1.0

Distance to offset geometries, in layer units

Projected

OUTPUT

[vector: point]

Default: [Create temporary layer]

Specify the output point vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Projected

OUTPUT

[vector: point]

The output (projected) point vector layer

Pythoncode

Algorithm ID: native:projectpointcartesian

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.56. Promote to multipart

Takes a vector layer with singlepart geometries and generates a new one in which all geometries are multipart.

Input features which are already multipart features will remain unchanged.

This algorithm can be used to force geometries to multipart types in order to be compatible with data providers that require multipart features.

checkbox Allows features in-place modification of point, line, and polygon features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Multiparts

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output multipart vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Multiparts

OUTPUT

[same as input]

The output multipart vector layer

Pythoncode

Algorithm ID: native:promotetomulti

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.57. Rectangles, ovals, diamonds

Creates a buffer area with a rectangle, oval or diamond shape for each feature of the input point layer.

The shape parameters can be fixed for all features or dynamic using a field or an expression.

../../../../_images/rectangles_ovals_diamond_variable.png

Abb. 28.104 Different buffer shapes with dynamic parameters

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: point]

Input point vector layer

Buffer shape

SHAPE

[enumeration]

The shape to use. One of:

  • 0 — Rectangles

  • 1 — Ovals

  • 2 — Diamonds

Width

WIDTH

[number dataDefine]

Default: 1.0

Width of the buffer shape

Height

HEIGHT

[number dataDefine]

Default: 1.0

Height of the buffer shape

Rotation

Optional

ROTATION

[number dataDefine]

Default: None

Rotation of the buffer shape

Number of segments

SEGMENTS

[number]

Default: 36

Number of segments for a full circle (Ovals shape)

Ergebnis

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Ergebnis

OUTPUT

[vector: polygon]

The output vector layer (with the buffer shapes)

Pythoncode

Algorithm ID: native:rectanglesovalsdiamonds

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.58. Remove duplicate vertices

Removes duplicate vertices from features, wherever removing the vertices does not result in a degenerate geometry.

The tolerance parameter specifies the tolerance for coordinates when determining whether vertices are identical.

By default, Z values are not considered when detecting duplicate vertices. E.g. two vertices with the same X and Y coordinate but different Z values will still be considered duplicate and one will be removed. If the Use Z Value parameter is true, then the Z values are also tested and vertices with the same X and Y but different Z will be maintained.

checkbox Allows features in-place modification of point, line, and polygon features

Bemerkung

Duplicate vertices are not tested between different parts of a multipart geometry, e.g. a multipoint geometry with overlapping points will not be changed by this method.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Tolerance

TOLERANCE

[number dataDefine]

Default: 0.000001

Vertices closer than the specified distance are considered duplicates

Use Z value

USE_Z_VALUE

[boolean dataDefine]

Default: False

If the Use Z Value parameter is true, then the Z values are also tested and vertices with the same X and Y but different Z will be maintained.

Cleaned

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Cleaned

OUTPUT

[same as input]

The output vector layer (without duplicate vertices)

Pythoncode

Algorithm ID: native:removeduplicatevertices

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.59. Remove null geometries

Removes any features which do not have a geometry from a vector layer. All other features will be copied unchanged.

The features with null geometries can be saved to a separate layer.

If Also remove empty geometries is checked, the algorithm removes features whose geometries have no coordinates, i.e., geometries that are empty. In that case, also the null output will reflect this option, containing both null and empty geometries.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer (with non-NULL geometries)

Also remove empty geometries

REMOVE_EMPTY

[boolean]

Non null geometries

OUTPUT

Optional

[same as input]

Default: [Create temporary layer]

Specify the output vector layer for the non-NULL (and non-empty) geometries. One of:

  • Skip Output

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Null geometries

Optional

NULL_OUTPUT

[same as input]

Default: [Skip output]

Specify the output vector layer for the NULL (and empty) geometries. One of:

  • Skip Output

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Null geometries

NULL_OUTPUT

[same as input]

Output vector layer (for NULL and, if chosen, empty geometries)

Non null geometries

OUTPUT

[same as input]

The output vector layer (without NULL and, if chosen, empty geometries)

Pythoncode

Algorithm ID: native:removenullgeometries

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.60. Reverse line direction

Inverts the direction of a line layer.

../../../../_images/reverse_line.png

Abb. 28.105 Before and after the direction inversion

checkbox Allows features in-place modification of line features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line]

Input line vector layer

Reversed

OUTPUT

[vector: line]

Default: [Create temporary layer]

Specify the output line vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Reversed

OUTPUT

[vector: line]

The output line vector layer (with reversed lines)

Pythoncode

Algorithm ID: native:reverselinedirection

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.61. Rotate

Rotates feature geometries by the specified angle clockwise. The rotation occurs around each feature’s centroid, or optionally around a unique preset point.

checkbox Allows features in-place modification of point, line, and polygon features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Rotation (degrees clockwise)

ANGLE

[number dataDefine]

Default: 0.0

Angle of the rotation in degrees

Rotation anchor point (x, y)

Optional

ANCHOR

[point]

Default: None

X,Y coordinates of the point to rotate the features around. If not set the rotation occurs around each feature’s centroid.

Rotated

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer (with rotated geometries). One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Rotated

OUTPUT

[same as input]

The output vector layer with rotated geometries

Pythoncode

Algorithm ID: native:rotatefeatures

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.62. Roundness

Calculates the roundness of each feature and stores it as a new field. The input vector layer must contain polygons.

The roundness of a polygon is defined as 4π × polygon area / perimeter². The roundness value varies between 0 and 1. A perfect circle has a roundness of 1, while a completely flat polygon has a roundness of 0.

Bemerkung

The algorithm returns NULL for multipart polygon features.

checkbox Allows features in-place modification of polygon features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: polygon]

Input vector layer

Roundness

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output vector layer (with roundness field). One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Rotated

OUTPUT

[same as input]

The output vector layer with roundness value in a field

Pythoncode

Algorithm ID: native:roundness

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.63. Segmentize by maximum angle

Segmentizes a geometry by converting curved sections to linear sections.

The segmentization is performed by specifying the maximum allowed radius angle between vertices on the straightened geometry (e.g the angle of the arc created from the original arc center to consecutive output vertices on the linearized geometry). Non-curved geometries will be retained without change.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line, polygon]

Input line or polygon vector layer

Maximum angle between vertices (degrees)

ANGLE

[number dataDefine]

Default: 5.0

Maximum allowed radius angle between vertices on the straightened geometry

Segmentized

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer (with segmentized geometries). One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Segmentized

OUTPUT

[same as input]

The output vector layer with segmentized geometries

Pythoncode

Algorithm ID: native:segmentizebymaxangle

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.64. Segmentize by maximum distance

Segmentizes a geometry by converting curved sections to linear sections.

The segmentization is performed by specifying the maximum allowed offset distance between the original curve and the segmentized representation. Non-curved geometries will be retained without change.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line, polygon]

Input line or polygon vector layer

Maximum offset distance

DISTANCE

[number dataDefine]

Default: 1.0

Maximum allowed offset distance between the original curve and the segmentized representation, in the layer units.

Segmentized

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer (with segmentized geometries). One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Segmentized

OUTPUT

[same as input]

The output vector layer with segmentized geometries

Pythoncode

Algorithm ID: native:segmentizebymaxdistance

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.65. M-Wert einstellen

Sets the M value for geometries in a layer.

If M values already exist in the layer, they will be overwritten with the new value. If no M values exist, the geometry will be upgraded to include M values and the specified value used as the initial M value for all geometries.

checkbox Allows features in-place modification of point, line, and polygon features with M enabled

Tipp

Use the identifyIdentify Features button to check the added M value: the results are available in the Identify Results dialog.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

M Value

M_VALUE

[number dataDefine]

Default: 0.0

M value to assign to the feature geometries

M Added

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

M Added

OUTPUT

[same as input]

The output vector layer (with M values assigned to the geometries)

Pythoncode

Algorithm ID: native:setmvalue

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.66. Set M value from raster

Uses values sampled from a band within a raster layer to set the M value for every overlapping vertex in the feature geometry. The raster values can optionally be scaled by a preset amount.

If M values already exist in the layer, they will be overwritten with the new value. If no M values exist, the geometry will be upgraded to include M values.

checkbox Allows features in-place modification of point, line, and polygon features with M enabled

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Raster layer

RASTER

[raster]

Raster layer with M values

Band number

BAND

[raster band]

Default: 1

The raster band from which the M values are taken

Value for NoData or non-intersecting vertices

NODATA

[number dataDefine]

Default: 0.0

Value to use in case the vertex does not intersect (a valid pixel of) the raster

Scale factor

SCALE

[number dataDefine]

Default: 1.0

Scaling value: the band values are multiplied by this value.

Offset

OFFSET

[number dataDefine]

Default: 0.0

Offset value: it is algebraically added to the band values after applying the „Scale factor“.

Updated

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer (with updated M values). One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Updated

OUTPUT

[same as input]

The output vector layer (with updated M values)

Pythoncode

Algorithm ID: native:setmfromraster

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.67. Set Z value

Sets the Z value for geometries in a layer.

If Z values already exist in the layer, they will be overwritten with the new value. If no Z values exist, the geometry will be upgraded to include Z values and the specified value used as the initial Z value for all geometries.

checkbox Allows features in-place modification of point, line, and polygon features with Z enabled

Tipp

Use the identifyIdentify Features button to check the added Z value: the results are available in the Identify Results dialog.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Z Value

Z_VALUE

[number dataDefine]

Default: 0.0

Z value to assign to the feature geometries

Z Added

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Z Added

OUTPUT

[same as input]

The output vector layer (with Z values assigned)

Pythoncode

Algorithm ID: native:setzvalue

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.68. Simplify

Simplifies the geometries in a line or polygon layer. It creates a new layer with the same features as the ones in the input layer, but with geometries containing a lower number of vertices.

The algorithm gives a choice of simplification methods, including distance based (the „Douglas-Peucker“ algorithm), area based („Visvalingam“ algorithm) and snapping geometries to grid.

../../../../_images/simplify_geometries.png

Abb. 28.106 Von links nach rechts: Quell-Layer und zunehmende Vereinfachungs-Toleranzen

checkbox Allows features in-place modification of line and polygon features

Default menu: Vector ► Geometry Tools

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line, polygon]

Input line or polygon vector layer

Simplification method

METHOD

[enumeration]

Default: 0

Simplification method. One of:

  • 0 — Distance (Douglas-Peucker)

  • 1 — Snap to grid

  • 2 — Area (Visvalingam)

Tolerance

TOLERANCE

[number dataDefine]

Default: 1.0

Threshold tolerance (in units of the layer): if the distance between two nodes is smaller than the tolerance value, the segment will be simplified and vertices will be removed.

Simplified

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output (simplified) vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Simplified

OUTPUT

[same as input]

The output (simplified) vector layer

Pythoncode

Algorithm ID: native:simplifygeometries

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.69. Single sided buffer

Computes a buffer on lines by a specified distance on one side of the line only.

Buffer always results in a polygon layer.

../../../../_images/single_side_buffer.png

Abb. 28.107 Linke und rechte Pufferung der gleichen Linie

Siehe auch

Puffer

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line]

Input line vector layer

Abstand

DISTANCE

[number]

Default: 10.0

Buffer distance.

Side

SIDE

[enumeration]

Default: 0

Which side to create the buffer on. One of:

  • 0 – Left

  • 1 – Right

Segmente

SEGMENTS

[number]

Default: 8

Controls the number of line segments to use to approximate a quarter circle when creating rounded offsets.

Verbindungsstil

JOIN_STYLE

[enumeration]

Default: 0

Specifies whether round, miter or beveled joins should be used when offsetting corners in a line. Options are:

  • 0 — Rund

  • 1 — Eckig

  • 2 — Abgefast

../../../../_images/buffer_join_style.png

Abb. 28.108 Round, miter, and bevel join styles

Eckgrenze

MITER_LIMIT

[number]

Default: 2.0

Sets the maximum distance from the offset geometry to use when creating a mitered join as a factor of the offset distance (only applicable for miter join styles). Minimum: 1.0

../../../../_images/buffer_miter_limit.png

Abb. 28.109 A 10m buffer with a limit of 2 and a 10m buffer with a limit of 1

Buffer

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output (buffer) layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Buffer

OUTPUT

[vector: polygon]

Output (buffer) polygon layer

Pythoncode

Algorithm ID: native:singlesidedbuffer

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.70. Smooth

Smooths the geometries in a line or polygon layer by adding more vertices and corners to the feature geometries.

The iterations parameter dictates how many smoothing iterations will be applied to each geometry. A higher number of iterations results in smoother geometries with the cost of greater number of nodes in the geometries.

../../../../_images/smooth_geometry_1.png

Abb. 28.110 Mit zunehmender Anzahl von Iterationen werden die Geometrien glatter

The offset parameter controls how „tightly“ the smoothed geometries follow the original geometries. Smaller values results in a tighter fit, and larger values will create a looser fit.

../../../../_images/smooth_geometry_2.png

Abb. 28.111 Blue: the input layer. Offset 0.25 gives the red line, while offset 0.50 gives the green line.

The maximum angle parameter can be used to prevent smoothing of nodes with large angles. Any node where the angle of the segments to either side is larger than this will not be smoothed. For example, setting the maximum angle to 90 degrees or lower would preserve right angles in the geometry.

checkbox Allows features in-place modification of line and polygon features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line, polygon]

Input line or polygon vector layer

Iterations

ITERATIONS

[number dataDefine]

Default: 1

Increasing the number of iterations will give smoother geometries (and more vertices).

Offset

OFFSET

[number dataDefine]

Default: 0.25

Increasing values will move the smoothed lines / boundaries further away from the input lines / boundaries.

Maximum node angle to smooth

MAX_ANGLE

[number dataDefine]

Default: 180.0

Every node below this value will be smoothed

Smoothed

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output (smoothed) layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Smoothed

OUTPUT

[same as input]

Output (smoothed) vector layer

Pythoncode

Algorithm ID: native:smoothgeometry

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.71. Snap geometries to layer

Snaps the geometries in a layer either to the geometries from another layer, or to geometries within the same layer.

Matching is done based on a tolerance distance, and vertices will be inserted or removed as required to make the geometries match the reference geometries.

checkbox Allows features in-place modification of point, line, and polygon features

Siehe auch

Snap points to grid

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Reference layer

REFERENCE_LAYER

[vector: any]

Vector layer to snap to

Tolerance

TOLERANCE

[number]

Default: 10.0

Control how close input vertices need to be to the reference layer geometries before they are snapped.

Behavior

BEHAVIOR

[enumeration]

Default: 0

Snapping can be done to an existing node or a segment (its closest point to the vertex to move). Available snapping options:

  • 0 — Prefer aligning nodes, insert extra vertices where required

    Prefer to snap to nodes, even when a segment may be closer than a node. New nodes will be inserted to make geometries follow each other exactly when inside allowable tolerance.

  • 1 — Prefer closest point, insert extra vertices where required

    Snap to closest point, regardless of it is a node or a segment. New nodes will be inserted to make geometries follow each other exactly when inside allowable tolerance.

  • 2 — Prefer aligning nodes, don’t insert new vertices

    Prefer to snap to nodes, even when a segment may be closer than a node. No new nodes will be inserted.

  • 3 — Prefer closest point, don’t insert new vertices

    Snap to closest point, regardless of it is a node or a segment. No new nodes will be inserted.

  • 4 — Move end points only, prefer aligning nodes

    Only snap start/end points of lines (point features will also be snapped, polygon features will not be modified), prefer to snap to nodes.

  • 5 — Move end points only, prefer closest point

    Only snap start/end points of lines (point features will also be snapped, polygon features will not be modified), snap to closest point

  • 6 — Snap end points to end points only

    Only snap the start/end points of lines to other start/end points of lines

  • 7 — Snap to anchor nodes (single layer only)

Snapped geometry

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output (snapped) layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Snapped geometry

OUTPUT

[same as input]

Output (snapped) vector layer

Pythoncode

Algorithm ID: native:snapgeometries

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.72. Snap points to grid

Modifies the coordinates of geometries in a vector layer, so that all points or vertices are snapped to the closest point of a grid.

If the snapped geometry cannot be calculated (or is totally collapsed) the feature’s geometry will be cleared.

Snapping can be performed on the X, Y, Z or M axis. A grid spacing of 0 for any axis will disable snapping for that axis.

checkbox Allows features in-place modification of point, line, and polygon features

Bemerkung

Snapping to grid may generate an invalid geometry in some corner cases.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

X Grid Spacing

HSPACING

[number dataDefine]

Default: 1.0

Grid spacing on the X axis

Y Grid Spacing

VSPACING

[number dataDefine]

Default: 1.0

Grid spacing on the Y axis

Z Grid Spacing

ZSPACING

[number dataDefine]

Default: 0.0

Grid spacing on the Z axis

M Grid Spacing

MSPACING

[number dataDefine]

Default: 0.0

Grid spacing on the M axis

Snapped

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output (snapped) layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Snapped

OUTPUT

[same as input]

Output (snapped) vector layer

Pythoncode

Algorithm ID: native:snappointstogrid

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.73. Split lines by maximum length

Takes a line (or curve) layer and splits each feature into multiple parts, where each part is of a specified maximum length. Z and M values at the start and end of the new line substrings are linearly interpolated from existing values.

checkbox Allows features in-place modification of line features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line]

The input line vector layer

Maximum line length

LENGTH

[number dataDefine]

Default: 10.0

The maximum length of a line in the output.

Split

OUTPUT

[vector: line]

Default: [Create temporary layer]

Specify the output line vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Split

OUTPUT

[vector: line]

The new line vector layer - the length of the feature geometries is less than or equal to the length specified in the LENGTH parameter.

Pythoncode

Algorithm ID: native:splitlinesbylength

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.74. Subdivide

Subdivides the geometry. The returned geometry will be a collection containing subdivided parts from the original geometry, where no part has more than the specified maximum number of nodes.

This is useful for dividing a complex geometry into less complex parts, easier to spatially index and faster to perform spatial operations. Curved geometries will be segmentized before subdivision.

../../../../_images/subdivide.png

Abb. 28.112 Left the input layer, middle maximum nodes value is 100 and right maximum value is 200

checkbox Allows features in-place modification of point, line, and polygon features

Bemerkung

Subdividing a geometry can generate geometry parts that may not be valid and may contain self-intersections.

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

The input vector layer

Maximum nodes in parts

MAX_NODES

[number dataDefine]

Default: 256

Maximum number of vertices each new geometry part is allowed to have. Fewer sub-parts for higher values.

Subdivided

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output (subdivided) vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Subdivided

OUTPUT

[same as input]

Output vector layer

Pythoncode

Algorithm ID: native:subdivide

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.75. Swap X and Y coordinates

Switches the X and Y coordinate values in input geometries.

It can be used to repair geometries which have accidentally had their latitude and longitude values reversed.

checkbox Allows features in-place modification of point, line, and polygon features

Siehe auch

Translate, Rotate

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

The input vector layer

Swapped

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Swapped

OUTPUT

[same as input]

Output (swapped) vector layer

Pythoncode

Algorithm ID: native:swapxy

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.76. Tapered buffers

Creates tapered buffer along line geometries, using a specified start and end buffer diameter.

../../../../_images/tapered_buffer.png

Abb. 28.113 Tapered buffer example

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line]

Input line vector layer

Start width

START_WIDTH

[number dataDefine]

Default: 0.0

Represents the radius of the buffer applied at the start point of the line feature

End width

END_WIDTH

[number dataDefine]

Default: 0.0

Represents the radius of the buffer applied at the end point of the line feature.

Segmente

SEGMENTS

[number dataDefine]

Default: 16

Controls the number of line segments to use to approximate a quarter circle when creating rounded offsets.

Buffered

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output (buffer) layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Buffered

OUTPUT

[vector: polygon]

Output (buffer) polygon layer

Pythoncode

Algorithm ID: native:taperedbuffer

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.77. Tessellate

Tessellates a polygon geometry layer, dividing the geometries into triangular components.

The output layer consists of multipolygon geometries for each input feature, with each multipolygon consisting of multiple triangle component polygons.

../../../../_images/tessellated.png

Abb. 28.114 Tessellated polygon (right)

checkbox Allows features in-place modification of polygon features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: polygon]

Input polygon vector layer

Tesselated

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Tesselated

OUTPUT

[vector: polygon]

Output multipolygonZ layer

Pythoncode

Algorithm ID: 3d:tessellate

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.78. Transect

Creates transects on vertices for (multi)linestring.

A transect is a line oriented from an angle (by default perpendicular) to the input polylines (at vertices).

Field(s) from feature(s) are returned in the transect with these new fields:

  • TR_FID: ID of the original feature

  • TR_ID: ID of the transect. Each transect have an unique ID

  • TR_SEGMENT: ID of the segment of the linestring

  • TR_ANGLE: Angle in degrees from the original line at the vertex

  • TR_LENGTH: Total length of the transect returned

  • TR_ORIENT: Side of the transect (only on the left or right of the line, or both side)

../../../../_images/transect.png

Abb. 28.115 Dashed red lines represent the transect of the input line layer

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line]

Input line vector layer

Length of the transect

LENGTH

[number dataDefine]

Default: 5.0

Length in map unit of the transect

Angle in degrees from the original line at the vertices

ANGLE

[number dataDefine]

Default: 90.0

Change the angle of the transect

Side to create the transect

SIDE

[enumeration]

Choose the side of the transect. Available options are:

  • 0 — Left

  • 1 — Right

  • 2 — Both

Transect

OUTPUT

[vector: line]

Default: [Create temporary layer]

Specify the output line layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Transect

OUTPUT

[vector: line]

Output line layer

Pythoncode

Algorithm ID: native:transect

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.79. Translate

Moves the geometries within a layer, by offsetting with a predefined X and Y displacement.

Z and M values present in the geometry can also be translated.

../../../../_images/translate_geometry.png

Abb. 28.116 Dashed lines represent the translated geometry of the input layer

checkbox Allows features in-place modification of point, line, and polygon features

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: any]

Input vector layer

Offset distance (x-axis)

DELTA_X

[number dataDefine]

Default: 0.0

Displacement to apply on the X axis

Offset distance (y-axis)

DELTA_Y

[number dataDefine]

Default: 0.0

Displacement to apply on the Y axis

Offset distance (z-axis)

DELTA_Z

[number dataDefine]

Default: 0.0

Displacement to apply on the Z axis

Offset distance (m values)

DELTA_M

[number dataDefine]

Default: 0.0

Displacement to apply on the M axis

Translated

OUTPUT

[same as input]

Default: [Create temporary layer]

Specify the output vector layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Translated

OUTPUT

[same as input]

Output vector layer

Pythoncode

Algorithm ID: native:translategeometry

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.80. Variable width buffer (by M value)

Creates variable width buffers along lines, using the M value of the line geometries as the diameter of the buffer at each vertex.

../../../../_images/variable_buffer_m.png

Abb. 28.117 Variable buffer example

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: line]

Input line vector layer

Segmente

SEGMENTS

[number dataDefine]

Default: 16

Number of the buffer segments per quarter circle. It can be a unique value (same value for all the features), or it can be taken from features data (the value can depend on feature attributes).

Buffered

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output (buffer) layer. One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

  • Append to Layer…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Buffered

OUTPUT

[vector: polygon]

Variable buffer polygon layer

Pythoncode

Algorithm ID: native:bufferbym

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.

28.1.22.81. Voronoi polygons

Takes a point layer and generates a polygon layer containing the Voronoi polygons (known also as Thiessen polygons) corresponding to those input points.

Any location within a Voronoi polygon is closer to the associated point than to any other point.

../../../../_images/voronoi1.png

Abb. 28.118 Voronoi polygons

Default menu: Vector ► Geometry Tools

Parameter

Bezeichnung

Name

Typ

Beschreibung

Input layer

INPUT

[vector: point]

Input point vector layer

Buffer region (% of extent)

BUFFER

[number]

Default: 0.0

The extent of the output layer will be this much bigger than the extent of the input layer

Tolerance

Optional

TOLERANCE

[number]

Default: 0.0

Specifies an optional snapping tolerance which can be used to improve the robustness of the voronoi.

Copy attributes from input features

COPY_ATTRIBUTES

[boolean]

Default: True

Specifies whether fields storing involved point features ID should be added to the output. If False, an id field is created to identify the polygons.

Voronoi polygons

OUTPUT

[vector: polygon]

Default: [Create temporary layer]

Specify the output layer (with the Voronoi polygons). One of:

  • Create Temporary Layer (TEMPORARY_OUTPUT)

  • In Datei speichern…

  • In GeoPackage speichern…

  • In Datenbank speichern…

The file encoding can also be changed here.

Ausgaben

Bezeichnung

Name

Typ

Beschreibung

Voronoi polygons

OUTPUT

[vector: polygon]

Voronoi polygons of the input point vector layer

Pythoncode

Algorithm ID: native:voronoipolygons

import processing
processing.run("algorithm_id", {parameter_dictionary})

The algorithm id is displayed when you hover over the algorithm in the Processing Toolbox. The parameter dictionary provides the parameter NAMEs and values. See Verarbeitungs-Algorithmen von der Konsole aus verwenden for details on how to run processing algorithms from the Python console.