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11. Ausdrücke, Filterung und Berechnung von Werten

Hinweis

Die Codefragmente auf dieser Seite müssen wie folgt importiert werden, wenn Sie sich außerhalb der pyqgis-Konsole befinden:

 1from qgis.core import (
 2    edit,
 3    QgsExpression,
 4    QgsExpressionContext,
 5    QgsFeature,
 6    QgsFeatureRequest,
 7    QgsField,
 8    QgsFields,
 9    QgsVectorLayer,
10    QgsPointXY,
11    QgsGeometry,
12    QgsProject,
13    QgsExpressionContextUtils
14)

QGIS has some support for parsing of SQL-like expressions. Only a small subset of SQL syntax is supported. The expressions can be evaluated either as boolean predicates (returning True or False) or as functions (returning a scalar value). See Ausdrücke in the User Manual for a complete list of available functions.

Drei Basistypen werden unterstützt:

  • number — both whole numbers and decimal numbers, e.g. 123, 3.14

  • string — they have to be enclosed in single quotes: 'hello world'

  • column reference — when evaluating, the reference is substituted with the actual value of the field. The names are not escaped.

The following operations are available:

  • arithmetic operators: +, -, *, /, ^

  • parentheses: for enforcing the operator precedence: (1 + 1) * 3

  • unary plus and minus: -12, +5

  • mathematical functions: sqrt, sin, cos, tan, asin, acos, atan

  • conversion functions: to_int, to_real, to_string, to_date

  • geometry functions: $area, $length

  • geometry handling functions: $x, $y, $geometry, num_geometries, centroid

And the following predicates are supported:

  • comparison: =, !=, >, >=, <, <=

  • pattern matching: LIKE (using % and _), ~ (regular expressions)

  • logical predicates: AND, OR, NOT

  • NULL value checking: IS NULL, IS NOT NULL

Examples of predicates:

  • 1 + 2 = 3

  • sin(angle) > 0

  • 'Hello' LIKE 'He%'

  • (x > 10 AND y > 10) OR z = 0

Examples of scalar expressions:

  • 2 ^ 10

  • sqrt(val)

  • $length + 1

11.1. Parsing Expressions

The following example shows how to check if a given expression can be parsed correctly:

1exp = QgsExpression('1 + 1 = 2')
2assert(not exp.hasParserError())
3
4exp = QgsExpression('1 + 1 = ')
5assert(exp.hasParserError())
6
7assert(exp.parserErrorString() == '\nsyntax error, unexpected end of file')

11.2. Evaluating Expressions

Expressions can be used in different contexts, for example to filter features or to compute new field values. In any case, the expression has to be evaluated. That means that its value is computed by performing the specified computational steps, which can range from simple arithmetic to aggregate expressions.

11.2.1. Basic Expressions

This basic expression evaluates a simple arithmetic operation:

exp = QgsExpression('2 * 3')
print(exp)
print(exp.evaluate())
<QgsExpression: '2 * 3'>
6

Expression can also be used for comparison, evaluating to 1 (True) or 0 (False)

exp = QgsExpression('1 + 1 = 2')
exp.evaluate()
# 1

11.2.2. Expressions with features

To evaluate an expression against a feature, a QgsExpressionContext object has to be created and passed to the evaluate function in order to allow the expression to access the feature’s field values.

The following example shows how to create a feature with a field called „Column“ and how to add this feature to the expression context.

 1fields = QgsFields()
 2field = QgsField('Column')
 3fields.append(field)
 4feature = QgsFeature()
 5feature.setFields(fields)
 6feature.setAttribute(0, 99)
 7
 8exp = QgsExpression('"Column"')
 9context = QgsExpressionContext()
10context.setFeature(feature)
11exp.evaluate(context)
12# 99

The following is a more complete example of how to use expressions in the context of a vector layer, in order to compute new field values:

 1from qgis.PyQt.QtCore import QVariant
 2
 3# create a vector layer
 4vl = QgsVectorLayer("Point", "Companies", "memory")
 5pr = vl.dataProvider()
 6pr.addAttributes([QgsField("Name", QVariant.String),
 7                  QgsField("Employees",  QVariant.Int),
 8                  QgsField("Revenue", QVariant.Double),
 9                  QgsField("Rev. per employee", QVariant.Double),
10                  QgsField("Sum", QVariant.Double),
11                  QgsField("Fun", QVariant.Double)])
12vl.updateFields()
13
14# add data to the first three fields
15my_data = [
16    {'x': 0, 'y': 0, 'name': 'ABC', 'emp': 10, 'rev': 100.1},
17    {'x': 1, 'y': 1, 'name': 'DEF', 'emp': 2, 'rev': 50.5},
18    {'x': 5, 'y': 5, 'name': 'GHI', 'emp': 100, 'rev': 725.9}]
19
20for rec in my_data:
21    f = QgsFeature()
22    pt = QgsPointXY(rec['x'], rec['y'])
23    f.setGeometry(QgsGeometry.fromPointXY(pt))
24    f.setAttributes([rec['name'], rec['emp'], rec['rev']])
25    pr.addFeature(f)
26
27vl.updateExtents()
28QgsProject.instance().addMapLayer(vl)
29
30# The first expression computes the revenue per employee.
31# The second one computes the sum of all revenue values in the layer.
32# The final third expression doesn’t really make sense but illustrates
33# the fact that we can use a wide range of expression functions, such
34# as area and buffer in our expressions:
35expression1 = QgsExpression('"Revenue"/"Employees"')
36expression2 = QgsExpression('sum("Revenue")')
37expression3 = QgsExpression('area(buffer($geometry,"Employees"))')
38
39# QgsExpressionContextUtils.globalProjectLayerScopes() is a convenience
40# function that adds the global, project, and layer scopes all at once.
41# Alternatively, those scopes can also be added manually. In any case,
42# it is important to always go from “most generic” to “most specific”
43# scope, i.e. from global to project to layer
44context = QgsExpressionContext()
45context.appendScopes(QgsExpressionContextUtils.globalProjectLayerScopes(vl))
46
47with edit(vl):
48    for f in vl.getFeatures():
49        context.setFeature(f)
50        f['Rev. per employee'] = expression1.evaluate(context)
51        f['Sum'] = expression2.evaluate(context)
52        f['Fun'] = expression3.evaluate(context)
53        vl.updateFeature(f)
54
55print(f['Sum'])
876.5

11.2.3. Filtering a layer with expressions

The following example can be used to filter a layer and return any feature that matches a predicate.

 1layer = QgsVectorLayer("Point?field=Test:integer",
 2                           "addfeat", "memory")
 3
 4layer.startEditing()
 5
 6for i in range(10):
 7    feature = QgsFeature()
 8    feature.setAttributes([i])
 9    assert(layer.addFeature(feature))
10layer.commitChanges()
11
12expression = 'Test >= 3'
13request = QgsFeatureRequest().setFilterExpression(expression)
14
15matches = 0
16for f in layer.getFeatures(request):
17   matches += 1
18
19print(matches)
7

11.3. Handling expression errors

Expression-related errors can occur during expression parsing or evaluation:

1exp = QgsExpression("1 + 1 = 2")
2if exp.hasParserError():
3   raise Exception(exp.parserErrorString())
4
5value = exp.evaluate()
6if exp.hasEvalError():
7   raise ValueError(exp.evalErrorString())