"""
***************************************************************************
__init__.py
---------------------
Date : January 2016
Copyright : (C) 2016 by Matthias Kuhn
Email : matthias@opengis.ch
***************************************************************************
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
***************************************************************************
"""
__author__ = "Matthias Kuhn"
__date__ = "January 2016"
__copyright__ = "(C) 2016, Matthias Kuhn"
import difflib
import filecmp
import functools
import inspect
import os
import sys
import tempfile
import unittest
from pathlib import Path
from typing import Optional, Tuple, Union
from warnings import warn
from qgis.PyQt.QtCore import (
Qt,
QVariant,
QDateTime,
QDate,
QDir,
QUrl,
QSize,
QCoreApplication,
)
from qgis.PyQt.QtGui import QImage, QDesktopServices, QPainter
from qgis.core import (
QgsApplication,
QgsFeatureRequest,
QgsCoordinateReferenceSystem,
NULL,
QgsVectorLayer,
QgsRenderChecker,
QgsMultiRenderChecker,
QgsMapSettings,
QgsLayout,
QgsLayoutChecker,
)
unittest.util._MAX_LENGTH = 2000
class QgisTestCase(unittest.TestCase):
@staticmethod
def is_ci_run() -> bool:
"""
Returns True if the test is being run on the CI environment
"""
return os.environ.get("QGIS_CONTINUOUS_INTEGRATION_RUN") == "true"
@classmethod
def setUpClass(cls):
cls.report = ""
cls.markdown_report = ""
@classmethod
def tearDownClass(cls):
if cls.report:
cls.write_local_html_report(cls.report)
if cls.markdown_report:
cls.write_local_markdown_report(cls.markdown_report)
@classmethod
def control_path_prefix(cls) -> Optional[str]:
"""
Returns the prefix for test control images used by the class
"""
return None
@classmethod
def write_local_html_report(cls, report: str):
report_dir = QgsRenderChecker.testReportDir()
if not report_dir.exists():
QDir().mkpath(report_dir.path())
report_file = report_dir.filePath("index.html")
# only append to existing reports if running under CI
file_is_empty = True
if cls.is_ci_run() or os.environ.get("QGIS_APPEND_TO_TEST_REPORT") == "true":
file_mode = "ta"
try:
with open(report_file, encoding="utf-8") as f:
file_is_empty = not bool(f.read())
except OSError:
pass
else:
file_mode = "wt"
with open(report_file, file_mode, encoding="utf-8") as f:
if file_is_empty:
from .test_data_dir import TEST_DATA_DIR
# append standard header
with open(
TEST_DATA_DIR + "/../test_report_header.html", encoding="utf-8"
) as header_file:
f.write(header_file.read())
# append embedded scripts
f.write("\n")
f.write(f"Python {cls.__name__} Tests
\n")
f.write(report)
if not QgisTestCase.is_ci_run():
QDesktopServices.openUrl(QUrl.fromLocalFile(report_file))
@classmethod
def write_local_markdown_report(cls, report: str):
report_dir = QgsRenderChecker.testReportDir()
if not report_dir.exists():
QDir().mkpath(report_dir.path())
report_file = report_dir.filePath("summary.md")
# only append to existing reports if running under CI
if cls.is_ci_run() or os.environ.get("QGIS_APPEND_TO_TEST_REPORT") == "true":
file_mode = "ta"
else:
file_mode = "wt"
with open(report_file, file_mode, encoding="utf-8") as f:
f.write(report)
@classmethod
def get_test_caller_details(
cls,
) -> tuple[Optional[str], Optional[str], Optional[int]]:
"""
Retrieves the details of the caller at the earliest position
in the stack, excluding unittest internals.
Returns the file, function name and line number of the caller
"""
test_caller = None
for caller_frame_record in inspect.stack():
frame = caller_frame_record[0]
info = inspect.getframeinfo(frame)
# we want the highest level caller which isn't from unittest
if "unittest" in info.filename or info.function == "_callTestMethod":
break
else:
test_caller = info
if test_caller:
return (test_caller.filename, test_caller.function, test_caller.lineno)
return None, None, None
@classmethod
def image_check(
cls,
name: str,
reference_image: str,
image: QImage,
control_name=None,
color_tolerance: int = 2,
allowed_mismatch: int = 20,
size_tolerance: Optional[Union[int, QSize]] = None,
expect_fail: bool = False,
control_path_prefix: Optional[str] = None,
use_checkerboard_background: bool = False,
) -> bool:
if use_checkerboard_background:
output_image = QImage(image.size(), QImage.Format.Format_RGB32)
QgsMultiRenderChecker.drawBackground(output_image)
painter = QPainter(output_image)
painter.drawImage(0, 0, image)
painter.end()
image = output_image
temp_dir = QDir.tempPath() + "/"
file_name = temp_dir + name + ".png"
image.save(file_name, "PNG")
checker = QgsMultiRenderChecker()
caller_file, caller_function, caller_line_no = cls.get_test_caller_details()
if caller_file:
checker.setFileFunctionLine(caller_file, caller_function, caller_line_no)
if control_path_prefix:
checker.setControlPathPrefix(control_path_prefix)
elif cls.control_path_prefix():
checker.setControlPathPrefix(cls.control_path_prefix())
checker.setControlName(control_name or "expected_" + reference_image)
checker.setRenderedImage(file_name)
checker.setColorTolerance(color_tolerance)
checker.setExpectFail(expect_fail)
if size_tolerance is not None:
if isinstance(size_tolerance, QSize):
if size_tolerance.isValid():
checker.setSizeTolerance(
size_tolerance.width(), size_tolerance.height()
)
else:
checker.setSizeTolerance(size_tolerance, size_tolerance)
result = checker.runTest(name, allowed_mismatch)
if (not expect_fail and not result) or (expect_fail and result):
cls.report += f"Render {name}
\n"
cls.report += checker.report()
markdown = checker.markdownReport()
if markdown:
cls.markdown_report += f"## {name}\n\n"
cls.markdown_report += markdown
return result
@classmethod
def render_map_settings_check(
cls,
name: str,
reference_image: str,
map_settings: QgsMapSettings,
control_name=None,
color_tolerance: Optional[int] = None,
allowed_mismatch: Optional[int] = None,
control_path_prefix: Optional[str] = None,
) -> bool:
checker = QgsMultiRenderChecker()
checker.setMapSettings(map_settings)
caller_file, caller_function, caller_line_no = cls.get_test_caller_details()
if caller_file:
checker.setFileFunctionLine(caller_file, caller_function, caller_line_no)
if control_path_prefix:
checker.setControlPathPrefix(control_path_prefix)
elif cls.control_path_prefix():
checker.setControlPathPrefix(cls.control_path_prefix())
checker.setControlName(control_name or "expected_" + reference_image)
if color_tolerance:
checker.setColorTolerance(color_tolerance)
result = checker.runTest(name, allowed_mismatch or 0)
if not result:
cls.report += f"Render {name}
\n"
cls.report += checker.report()
markdown = checker.markdownReport()
if markdown:
cls.markdown_report += f"## {name}\n\n"
cls.markdown_report += markdown
return result
@classmethod
def render_layout_check(
cls,
name: str,
layout: QgsLayout,
size: Optional[QSize] = None,
color_tolerance: Optional[int] = None,
allowed_mismatch: Optional[int] = None,
page: Optional[int] = 0,
) -> bool:
checker = QgsLayoutChecker(name, layout)
caller_file, caller_function, caller_line_no = cls.get_test_caller_details()
if caller_file:
checker.setFileFunctionLine(caller_file, caller_function, caller_line_no)
if size is not None:
checker.setSize(size)
if color_tolerance is not None:
checker.setColorTolerance(color_tolerance)
if cls.control_path_prefix():
checker.setControlPathPrefix(cls.control_path_prefix())
result, message = checker.testLayout(page=page, pixelDiff=allowed_mismatch or 0)
if not result:
cls.report += f"Render {name}
\n"
cls.report += checker.report()
markdown = checker.markdownReport()
if markdown:
cls.markdown_report += f"## {name}\n\n"
cls.markdown_report += markdown
return result
@staticmethod
def get_test_data_path(file_path: str) -> Path:
"""
Returns the full path to a file contained within the test data
directory.
"""
from utilities import unitTestDataPath
return Path(unitTestDataPath()) / (
file_path[1:] if file_path.startswith("/") else file_path
)
@staticmethod
def strip_std_ignorable_errors(output: str) -> str:
"""
Strips out ignorable warnings and errors from stdout/stderr output
"""
return "\n".join(
[
e
for e in output.splitlines()
if e
not in (
"Problem with GRASS installation: GRASS was not found or is not correctly installed",
"QStandardPaths: wrong permissions on runtime directory /tmp, 0777 instead of 0700",
"MESA: error: ZINK: failed to choose pdev",
"MESA: error: ZINK: vkEnumeratePhysicalDevices failed (VK_ERROR_INITIALIZATION_FAILED)",
"glx: failed to create drisw screen",
"failed to load driver: zink",
"QML debugging is enabled. Only use this in a safe environment.",
":488: DeprecationWarning: builtin type SwigPyObject has no __module__ attribute",
":488: DeprecationWarning: builtin type SwigPyPacked has no __module__ attribute",
)
and not "LC_ALL: cannot change locale" in e
]
)
def assertLayersEqual(self, layer_expected, layer_result, **kwargs):
"""
:param layer_expected: The first layer to compare
:param layer_result: The second layer to compare
:param request: Optional, A feature request. This can be used to specify
an order by clause to make sure features are compared in
a given sequence if they don't match by default.
:keyword compare: A map of comparison options. e.g.
{ fields: { a: skip, b: { precision: 2 }, geometry: { precision: 5 } }
{ fields: { __all__: cast( str ) } }
:keyword pk: "Primary key" type field - used to match features
from the expected table to their corresponding features in the result table. If not specified
features are compared by their order in the layer (e.g. first feature compared with first feature,
etc)
"""
self.checkLayersEqual(layer_expected, layer_result, True, **kwargs)
def checkLayersEqual(
self, layer_expected, layer_result, use_asserts=False, **kwargs
):
"""
:param layer_expected: The first layer to compare
:param layer_result: The second layer to compare
:param use_asserts: If true, asserts are used to test conditions, if false, asserts
are not used and the function will only return False if the test fails
:param request: Optional, A feature request. This can be used to specify
an order by clause to make sure features are compared in
a given sequence if they don't match by default.
:keyword compare: A map of comparison options. e.g.
{ fields: { a: skip, b: { precision: 2 }, geometry: { precision: 5 } }
{ fields: { __all__: cast( str ) } }
:keyword pk: "Primary key" type field - used to match features
from the expected table to their corresponding features in the result table. If not specified
features are compared by their order in the layer (e.g. first feature compared with first feature,
etc)
"""
try:
request = kwargs["request"]
except KeyError:
request = QgsFeatureRequest()
try:
compare = kwargs["compare"]
except KeyError:
compare = {}
# Compare CRS
if "ignore_crs_check" not in compare or not compare["ignore_crs_check"]:
expected_wkt = (
layer_expected.dataProvider()
.crs()
.toWkt(QgsCoordinateReferenceSystem.WktVariant.WKT_PREFERRED)
)
result_wkt = (
layer_result.dataProvider()
.crs()
.toWkt(QgsCoordinateReferenceSystem.WktVariant.WKT_PREFERRED)
)
if use_asserts:
self.assertEqual(
layer_expected.dataProvider().crs(),
layer_result.dataProvider().crs(),
)
elif (
layer_expected.dataProvider().crs() != layer_result.dataProvider().crs()
):
return False
# Compare features
if use_asserts:
self.assertEqual(layer_expected.featureCount(), layer_result.featureCount())
elif layer_expected.featureCount() != layer_result.featureCount():
return False
try:
precision = compare["geometry"]["precision"]
except KeyError:
precision = 14
try:
topo_equal_check = compare["geometry"]["topo_equal_check"]
except KeyError:
topo_equal_check = False
try:
ignore_part_order = compare["geometry"]["ignore_part_order"]
except KeyError:
ignore_part_order = False
try:
normalize = compare["geometry"]["normalize"]
except KeyError:
normalize = False
try:
explode_collections = compare["geometry"]["explode_collections"]
except KeyError:
explode_collections = False
try:
snap_to_grid = compare["geometry"]["snap_to_grid"]
except KeyError:
snap_to_grid = None
try:
unordered = compare["unordered"]
except KeyError:
unordered = False
try:
equate_null_and_empty = compare["geometry"]["equate_null_and_empty"]
except KeyError:
equate_null_and_empty = False
if unordered:
features_expected = [f for f in layer_expected.getFeatures(request)]
for feat in layer_result.getFeatures(request):
feat_expected_equal = None
for feat_expected in features_expected:
if self.checkGeometriesEqual(
feat.geometry(),
feat_expected.geometry(),
feat.id(),
feat_expected.id(),
False,
precision,
topo_equal_check,
ignore_part_order,
normalize=normalize,
explode_collections=explode_collections,
snap_to_grid=snap_to_grid,
equate_null_and_empty=equate_null_and_empty,
) and self.checkAttributesEqual(
feat, feat_expected, layer_expected.fields(), False, compare
):
feat_expected_equal = feat_expected
break
if feat_expected_equal is not None:
features_expected.remove(feat_expected_equal)
else:
if use_asserts:
self.assertTrue(
False,
"Unexpected result feature: fid {}, geometry: {}, attributes: {}".format(
feat.id(),
(
feat.geometry().constGet().asWkt(precision)
if feat.geometry()
else "NULL"
),
feat.attributes(),
),
)
else:
return False
if len(features_expected) != 0:
if use_asserts:
lst_missing = []
for feat in features_expected:
lst_missing.append(
"fid {}, geometry: {}, attributes: {}".format(
feat.id(),
(
feat.geometry().constGet().asWkt(precision)
if feat.geometry()
else "NULL"
),
feat.attributes(),
)
)
self.assertTrue(
False,
"Some expected features not found in results:\n"
+ "\n".join(lst_missing),
)
else:
return False
return True
def get_pk_or_fid(f):
if "pk" in kwargs and kwargs["pk"] is not None:
key = kwargs["pk"]
if isinstance(key, list) or isinstance(key, tuple):
return [f[k] for k in key]
else:
return f[kwargs["pk"]]
else:
return f.id()
def sort_by_pk_or_fid(f):
pk = get_pk_or_fid(f)
# we want NULL values sorted first, and don't want to try to
# directly compare NULL against non-NULL values
if isinstance(pk, list):
pk = [(v == NULL, v) for v in pk]
return (pk == NULL, pk)
expected_features = sorted(
layer_expected.getFeatures(request), key=sort_by_pk_or_fid
)
result_features = sorted(
layer_result.getFeatures(request), key=sort_by_pk_or_fid
)
for feats in zip(expected_features, result_features):
eq = self.checkGeometriesEqual(
feats[0].geometry(),
feats[1].geometry(),
feats[0].id(),
feats[1].id(),
use_asserts,
precision,
topo_equal_check,
ignore_part_order,
normalize=normalize,
explode_collections=explode_collections,
snap_to_grid=snap_to_grid,
equate_null_and_empty=equate_null_and_empty,
)
if not eq and not use_asserts:
return False
eq = self.checkAttributesEqual(
feats[0], feats[1], layer_expected.fields(), use_asserts, compare
)
if not eq and not use_asserts:
return False
return True
def checkFilesEqual(self, filepath_expected, filepath_result, use_asserts=False):
with open(filepath_expected) as file_expected:
with open(filepath_result) as file_result:
diff = difflib.unified_diff(
file_expected.readlines(),
file_result.readlines(),
fromfile="expected",
tofile="result",
)
diff = list(diff)
eq = not len(diff)
if use_asserts:
self.assertEqual(0, len(diff), "".join(diff))
else:
return eq
def assertFilesEqual(self, filepath_expected, filepath_result):
self.checkFilesEqual(filepath_expected, filepath_result, use_asserts=True)
def assertDirectoryEqual(self, dirpath_expected: str, dirpath_result: str):
"""
Checks whether both directories have the same content (non-recursively) and raises an assertion error if not.
"""
path_expected = Path(dirpath_expected)
path_result = Path(dirpath_result)
contents_result = list(path_result.iterdir())
contents_expected = list(path_expected.iterdir())
contents_expected = [
p
for p in contents_expected
if p.suffix != ".png" or not p.stem.endswith("_mask")
]
self.assertCountEqual(
[p.name if p.is_file() else p.stem for p in contents_expected],
[p.name if p.is_file() else p.stem for p in contents_result],
f"Directory contents mismatch in {dirpath_expected} vs {dirpath_result}",
)
# compare file contents
for expected_file_path in contents_expected:
if expected_file_path.is_dir():
continue
result_file_path = path_result / expected_file_path.name
if expected_file_path.suffix == ".pbf":
# vector layer, use assertLayersEqual
layer_expected = QgsVectorLayer(str(expected_file_path), "Expected")
self.assertTrue(layer_expected.isValid())
layer_result = QgsVectorLayer(str(result_file_path), "Result")
self.assertTrue(layer_result.isValid())
self.assertLayersEqual(layer_expected, layer_result)
elif expected_file_path.suffix == ".png":
# image file, use QgsRenderChecker
checker = QgsRenderChecker()
res = checker.compareImages(
expected_file_path.stem,
expected_file_path.as_posix(),
result_file_path.as_posix(),
)
self.assertTrue(res)
else:
assert (
False
), f"Don't know how to compare {expected_file_path.suffix} files"
def assertDirectoriesEqual(self, dirpath_expected: str, dirpath_result: str):
"""Checks whether both directories have the same content (recursively) and raises an assertion error if not."""
self.assertDirectoryEqual(dirpath_expected, dirpath_result)
# recurse through subfolders
path_expected = Path(dirpath_expected)
path_result = Path(dirpath_result)
for p in path_expected.iterdir():
if p.is_dir():
self.assertDirectoriesEqual(str(p), path_result / p.stem)
def assertGeometriesEqual(
self,
geom0,
geom1,
geom0_id="geometry 1",
geom1_id="geometry 2",
precision=14,
topo_equal_check=False,
ignore_part_order=False,
normalize=False,
explode_collections=False,
snap_to_grid=None,
equate_null_and_empty=False,
):
self.checkGeometriesEqual(
geom0,
geom1,
geom0_id,
geom1_id,
use_asserts=True,
precision=precision,
topo_equal_check=topo_equal_check,
ignore_part_order=ignore_part_order,
normalize=normalize,
explode_collections=explode_collections,
snap_to_grid=snap_to_grid,
equate_null_and_empty=equate_null_and_empty,
)
def checkGeometriesEqual(
self,
geom0,
geom1,
geom0_id,
geom1_id,
use_asserts=False,
precision=14,
topo_equal_check=False,
ignore_part_order=False,
normalize=False,
explode_collections=False,
snap_to_grid=None,
equate_null_and_empty=False,
):
"""Checks whether two geometries are the same - using either a strict check of coordinates (up to given precision)
or by using topological equality (where e.g. a polygon with clockwise is equal to a polygon with counter-clockwise
order of vertices)
.. versionadded:: 3.2
"""
geom0_wkt = ""
geom0_wkt_full = ""
geom1_wkt = ""
geom1_wkt_full = ""
geom0_is_null = geom0.isNull() or (equate_null_and_empty and geom0.isEmpty())
geom1_is_null = geom1.isNull() or (equate_null_and_empty and geom1.isEmpty())
if not geom0_is_null and not geom1_is_null:
if snap_to_grid is not None:
geom0 = geom0.snappedToGrid(
snap_to_grid, snap_to_grid, snap_to_grid, snap_to_grid
)
geom1 = geom1.snappedToGrid(
snap_to_grid, snap_to_grid, snap_to_grid, snap_to_grid
)
if normalize:
geom0.normalize()
geom1.normalize()
raw_geom0 = geom0.constGet()
raw_geom1 = geom1.constGet()
if explode_collections:
raw_geom0 = raw_geom0.simplifiedTypeRef()
raw_geom1 = raw_geom1.simplifiedTypeRef()
geom0_wkt = raw_geom0.asWkt(precision)
geom0_wkt_full = raw_geom0.asWkt()
geom1_wkt = raw_geom1.asWkt(precision)
geom1_wkt_full = raw_geom1.asWkt()
equal = geom0_wkt == geom1_wkt
if not equal and topo_equal_check:
equal = geom0.isGeosEqual(geom1)
if not equal and ignore_part_order and geom0.isMultipart():
equal = sorted(
[p.asWkt(precision) for p in geom0.constParts()]
) == sorted([p.asWkt(precision) for p in geom1.constParts()])
elif geom0_is_null and geom1_is_null:
equal = True
else:
geom0_wkt = geom0.asWkt(precision)
geom1_wkt = geom1.asWkt(precision)
geom0_wkt_full = geom0.asWkt()
geom1_wkt_full = geom1.asWkt()
equal = False
if use_asserts:
self.assertTrue(
equal,
""
" Features (Expected fid: {}, Result fid: {}) differ in geometry with method {}: \n\n"
" {}\n"
" At given precision ({}):\n"
" Expected geometry: {}\n"
" Result geometry: {}\n\n"
" Full precision:\n"
" Expected geometry : {}\n"
" Result geometry: {}\n\n".format(
geom0_id,
geom1_id,
"geos" if topo_equal_check else "wkt",
"Normalized" if normalize else "Not-normalized",
precision,
geom0_wkt if not geom0_is_null else "NULL",
geom1_wkt if not geom1_is_null else "NULL",
geom0_wkt_full if not geom0_is_null else "NULL",
geom1_wkt_full if not geom1_is_null else "NULL",
),
)
else:
return equal
def checkAttributesEqual(self, feat0, feat1, fields_expected, use_asserts, compare):
"""Checks whether attributes of two features are the same
.. versionadded:: 3.2
"""
for attr_expected, field_expected in zip(
feat0.attributes(), fields_expected.toList()
):
try:
cmp = compare["fields"][field_expected.name()]
except KeyError:
try:
cmp = compare["fields"]["__all__"]
except KeyError:
cmp = {}
# Skip field
if "skip" in cmp:
continue
if use_asserts:
self.assertIn(
field_expected.name().lower(),
[name.lower() for name in feat1.fields().names()],
)
attr_result = feat1[field_expected.name()]
field_result = [
fld
for fld in fields_expected.toList()
if fld.name() == field_expected.name()
][0]
# Cast field to a given type
isNumber = False
if "cast" in cmp:
if cmp["cast"] == "int":
attr_expected = int(attr_expected) if attr_expected else None
attr_result = int(attr_result) if attr_result else None
isNumber = True
if cmp["cast"] == "float":
attr_expected = float(attr_expected) if attr_expected else None
attr_result = float(attr_result) if attr_result else None
isNumber = True
if cmp["cast"] == "str":
if isinstance(attr_expected, QDateTime):
attr_expected = attr_expected.toString("yyyy/MM/dd hh:mm:ss")
elif isinstance(attr_expected, QDate):
attr_expected = attr_expected.toString("yyyy/MM/dd")
else:
attr_expected = str(attr_expected) if attr_expected else None
if isinstance(attr_result, QDateTime):
attr_result = attr_result.toString("yyyy/MM/dd hh:mm:ss")
elif isinstance(attr_result, QDate):
attr_result = attr_result.toString("yyyy/MM/dd")
else:
attr_result = str(attr_result) if attr_result else None
# Round field (only numeric so it works with __all__)
if "precision" in cmp and (
field_expected.type()
in [QVariant.Int, QVariant.Double, QVariant.LongLong]
or isNumber
):
if not attr_expected == NULL:
attr_expected = round(attr_expected, cmp["precision"])
if not attr_result == NULL:
attr_result = round(attr_result, cmp["precision"])
if use_asserts:
self.assertEqual(
attr_expected,
attr_result,
"Features {}/{} differ in attributes\n\n * Field expected: {} ({})\n * result : {} ({})\n\n * Expected: {} != Result : {}".format(
feat0.id(),
feat1.id(),
field_expected.name(),
field_expected.typeName(),
field_result.name(),
field_result.typeName(),
repr(attr_expected),
repr(attr_result),
),
)
elif attr_expected != attr_result:
return False
return True
class _UnexpectedSuccess(Exception):
"""
The test was supposed to fail, but it didn't!
"""
pass
def expectedFailure(*args):
"""
Will decorate a unittest function as an expectedFailure. A function
flagged as expectedFailure will be succeed if it raises an exception.
If it does not raise an exception, this will throw an
`_UnexpectedSuccess` exception.
@expectedFailure
def my_test(self):
self.assertTrue(False)
The decorator also accepts a parameter to only expect a failure under
certain conditions.
@expectedFailure(time.localtime().tm_year < 2002)
def my_test(self):
self.assertTrue(qgisIsInvented())
"""
if hasattr(args[0], "__call__"):
# We got a function as parameter: assume usage like
# @expectedFailure
# def testfunction():
func = args[0]
@functools.wraps(func)
def wrapper(*args, **kwargs):
try:
func(*args, **kwargs)
except Exception:
pass
else:
raise _UnexpectedSuccess
return wrapper
else:
# We got a function as parameter: assume usage like
# @expectedFailure(failsOnThisPlatform)
# def testfunction():
condition = args[0]
def realExpectedFailure(func):
@functools.wraps(func)
def wrapper(*args, **kwargs):
if condition:
try:
func(*args, **kwargs)
except Exception:
pass
else:
raise _UnexpectedSuccess
else:
func(*args, **kwargs)
return wrapper
return realExpectedFailure
QgisTestCase.expectedFailure = expectedFailure
def _deprecatedAssertLayersEqual(*args, **kwargs):
warn(
"unittest.TestCase.assertLayersEqual is deprecated and will be removed in the future. Port your tests to `qgis.testing.TestCase`",
DeprecationWarning,
)
return QgisTestCase.assertLayersEqual(*args, **kwargs)
def _deprecatedCheckLayersEqual(*args, **kwargs):
warn(
"unittest.TestCase.checkLayersEqual is deprecated and will be removed in the future. Port your tests to `qgis.testing.TestCase`",
DeprecationWarning,
)
return QgisTestCase.checkLayersEqual(*args, **kwargs)
def _deprecatedAssertFilesEqual(*args, **kwargs):
warn(
"unittest.TestCase.assertFilesEqual is deprecated and will be removed in the future. Port your tests to `qgis.testing.TestCase`",
DeprecationWarning,
)
return QgisTestCase.assertFilesEqual(*args, **kwargs)
def _deprecatedCheckFilesEqual(*args, **kwargs):
warn(
"unittest.TestCase.checkFilesEqual is deprecated and will be removed in the future. Port your tests to `qgis.testing.TestCase`",
DeprecationWarning,
)
return QgisTestCase.checkFilesEqual(*args, **kwargs)
def _deprecatedAssertDirectoryEqual(*args, **kwargs):
warn(
"unittest.TestCase.assertDirectoryEqual is deprecated and will be removed in the future. Port your tests to `qgis.testing.TestCase`",
DeprecationWarning,
)
return QgisTestCase.assertDirectoryEqual(*args, **kwargs)
def _deprecatedAssertDirectoriesEqual(*args, **kwargs):
warn(
"unittest.TestCase.assertDirectoriesEqual is deprecated and will be removed in the future. Port your tests to `qgis.testing.TestCase`",
DeprecationWarning,
)
return QgisTestCase.assertDirectoriesEqual(*args, **kwargs)
def _deprecatedAssertGeometriesEqual(*args, **kwargs):
warn(
"unittest.TestCase.assertGeometriesEqual is deprecated and will be removed in the future. Port your tests to `qgis.testing.TestCase`",
DeprecationWarning,
)
return QgisTestCase.assertGeometriesEqual(*args, **kwargs)
def _deprecatedCheckGeometriesEqual(*args, **kwargs):
warn(
"unittest.TestCase.checkGeometriesEqual is deprecated and will be removed in the future. Port your tests to `qgis.testing.TestCase`",
DeprecationWarning,
)
return QgisTestCase.checkGeometriesEqual(*args, **kwargs)
def _deprecatedCheckAttributesEqual(*args, **kwargs):
warn(
"unittest.TestCase.checkAttributesEqual is deprecated and will be removed in the future. Port your tests to `qgis.testing.TestCase`",
DeprecationWarning,
)
return QgisTestCase.checkAttributesEqual(*args, **kwargs)
def _deprecated_image_check(*args, **kwargs):
warn(
"unittest.TestCase.image_check is deprecated and will be removed in the future. Port your tests to `qgis.testing.TestCase`",
DeprecationWarning,
)
# Remove the first args element `self` which we don't need for a @classmethod
return QgisTestCase.image_check(*args[1:], **kwargs)
def _deprecated_render_map_settings_check(*args, **kwargs):
warn(
"unittest.TestCase.render_map_settings_check is deprecated and will be removed in the future. Port your tests to `qgis.testing.TestCase`",
DeprecationWarning,
)
# Remove the first args element `self` which we don't need for a @classmethod
return QgisTestCase.render_map_settings_check(*args[1:], **kwargs)
def _deprecated_render_layout_check(*args, **kwargs):
warn(
"unittest.TestCase.render_layout_check is deprecated and will be removed in the future. Port your tests to `qgis.testing.TestCase`",
DeprecationWarning,
)
# Remove the first args element `self` which we don't need for a @classmethod
return QgisTestCase.render_layout_check(*args[1:], **kwargs)
TestCase = unittest.TestCase
TestCase.assertLayersEqual = _deprecatedAssertLayersEqual
TestCase.checkLayersEqual = _deprecatedCheckLayersEqual
TestCase.assertFilesEqual = _deprecatedAssertFilesEqual
TestCase.checkFilesEqual = _deprecatedCheckFilesEqual
TestCase.assertDirectoryEqual = _deprecatedAssertDirectoryEqual
TestCase.assertDirectoriesEqual = _deprecatedAssertDirectoriesEqual
TestCase.assertGeometriesEqual = _deprecatedAssertGeometriesEqual
TestCase.checkGeometriesEqual = _deprecatedCheckGeometriesEqual
TestCase.checkAttributesEqual = _deprecatedCheckAttributesEqual
TestCase.image_check = _deprecated_image_check
TestCase.render_map_settings_check = _deprecated_render_map_settings_check
TestCase.render_layout_check = _deprecated_render_layout_check
def start_app(cleanup=True):
"""
Will start a QgsApplication and call all initialization code like
registering the providers and other infrastructure. It will not load
any plugins.
You can always get the reference to a running app by calling `QgsApplication.instance()`.
The initialization will only happen once, so it is safe to call this method repeatedly.
Parameters
----------
cleanup: Do cleanup on exit. Defaults to true.
Returns
-------
QgsApplication
A QgsApplication singleton
"""
global QGISAPP
try:
QGISAPP
except NameError:
myGuiFlag = True # All test will run qgis in gui mode
try:
sys.argv
except AttributeError:
sys.argv = [""]
# In python3 we need to convert to a bytes object (or should
# QgsApplication accept a QString instead of const char* ?)
try:
argvb = list(map(os.fsencode, sys.argv))
except AttributeError:
argvb = sys.argv
QCoreApplication.setAttribute(
Qt.ApplicationAttribute.AA_ShareOpenGLContexts, True
)
# Note: QGIS_PREFIX_PATH is evaluated in QgsApplication -
# no need to mess with it here.
QGISAPP = QgsApplication(argvb, myGuiFlag)
tmpdir = tempfile.mkdtemp("", "QGIS-PythonTestConfigPath-")
os.environ["QGIS_CUSTOM_CONFIG_PATH"] = tmpdir
QGISAPP.initQgis()
print(QGISAPP.showSettings())
def debug_log_message(message, tag, level):
print(f"{tag}({level}): {message}")
QgsApplication.instance().messageLog().messageReceived.connect(
debug_log_message
)
if cleanup:
import atexit
import shutil
@atexit.register
def exitQgis():
QGISAPP.exitQgis()
shutil.rmtree(tmpdir)
return QGISAPP
def stop_app():
"""
Cleans up and exits QGIS
"""
global QGISAPP
QGISAPP.exitQgis()
del QGISAPP