def setUp(self):
super(TestSceneWidget, self).setUp()
self.sceneWidget = SceneWidget()
self.sceneWidget.resize(300, 300)
self.sceneWidget.show()
self.statsWidget = BasicStatsWidget()
self.statsWidget.setPlot(self.sceneWidget)
def setUp(self):
super(TestPositionInfoWidget, self).setUp()
self.sceneWidget = SceneWidget()
self.sceneWidget.resize(300, 300)
self.sceneWidget.show()
self.positionInfoWidget = PositionInfoWidget()
self.positionInfoWidget.setSceneWidget(self.sceneWidget)
self.positionInfoWidget.show()
self.qWaitForWindowExposed(self.positionInfoWidget)
def setUp(self):
super(TestSceneWidget, self).setUp()
self.sceneWidget = SceneWidget()
self.sceneWidget.resize(300, 300)
self.sceneWidget.show()
self.statsWidget = BasicStatsWidget()
self.statsWidget.setPlot(self.sceneWidget)
def setUp(self):
super(TestPositionInfoWidget, self).setUp()
self.sceneWidget = SceneWidget()
self.sceneWidget.resize(300, 300)
self.sceneWidget.show()
self.positionInfoWidget = PositionInfoWidget()
self.positionInfoWidget.setSceneWidget(self.sceneWidget)
self.positionInfoWidget.show()
self.qWaitForWindowExposed(self.positionInfoWidget)
def setUp(self):
super(TestSceneWidgetPicking, self).setUp()
self.widget = SceneWidget()
self.widget.resize(300, 300)
self.widget.show()
class TestSceneWidgetPicking(TestCaseQt, ParametricTestCase):
"""Tests SceneWidget picking feature"""
def setUp(self):
super(TestSceneWidgetPicking, self).setUp()
self.widget = SceneWidget()
self.widget.resize(300, 300)
self.widget.show()
# self.qWaitForWindowExposed(self.widget)
def tearDown(self):
self.qapp.processEvents()
self.widget.setAttribute(qt.Qt.WA_DeleteOnClose)
self.widget.close()
del self.widget
super(TestSceneWidgetPicking, self).tearDown()
def _widgetCenter(self):
"""Returns widget center"""
size = self.widget.size()
return size.width() // 2, size.height() // 2
def testPickImage(self):
"""Test picking of ImageData and ImageRgba items"""
imageData = items.ImageData()
imageData.setData(numpy.arange(100).reshape(10, 10))
imageRgba = items.ImageRgba()
imageRgba.setData(
numpy.arange(300, dtype=numpy.uint8).reshape(10, 10, 3))
for item in (imageData, imageRgba):
with self.subTest(item=item.__class__.__name__):
# Add item
self.widget.clearItems()
self.widget.addItem(item)
self.widget.resetZoom('front')
self.qapp.processEvents()
# Picking on data (at widget center)
picking = list(self.widget.pickItems(*self._widgetCenter()))
self.assertEqual(len(picking), 1)
self.assertIs(picking[0].getItem(), item)
self.assertEqual(picking[0].getPositions('ndc').shape, (1, 3))
data = picking[0].getData()
self.assertEqual(len(data), 1)
self.assertTrue(
numpy.array_equal(data,
item.getData()[picking[0].getIndices()]))
# Picking outside data
picking = list(self.widget.pickItems(1, 1))
self.assertEqual(len(picking), 0)
def testPickScatter(self):
"""Test picking of Scatter2D and Scatter3D items"""
data = numpy.arange(100)
scatter2d = items.Scatter2D()
scatter2d.setData(x=data, y=data, value=data)
scatter3d = items.Scatter3D()
scatter3d.setData(x=data, y=data, z=data, value=data)
for item in (scatter2d, scatter3d):
with self.subTest(item=item.__class__.__name__):
# Add item
self.widget.clearItems()
self.widget.addItem(item)
self.widget.resetZoom('front')
self.qapp.processEvents()
# Picking on data (at widget center)
picking = list(self.widget.pickItems(*self._widgetCenter()))
self.assertEqual(len(picking), 1)
self.assertIs(picking[0].getItem(), item)
nbPos = len(picking[0].getPositions('ndc'))
data = picking[0].getData()
self.assertEqual(nbPos, len(data))
self.assertTrue(
numpy.array_equal(
data,
item.getValueData()[picking[0].getIndices()]))
# Picking outside data
picking = list(self.widget.pickItems(1, 1))
self.assertEqual(len(picking), 0)
def testPickVolume(self):
"""Test picking of volume CutPlane and Isosurface items"""
for dtype in (numpy.float32, numpy.complex64):
with self.subTest(dtype=dtype):
refData = numpy.arange(10**3, dtype=dtype).reshape(10, 10, 10)
volume = self.widget.addVolume(refData)
if dtype == numpy.complex64:
volume.setComplexMode(volume.Mode.REAL)
refData = numpy.real(refData)
self.widget.resetZoom('front')
cutplane = volume.getCutPlanes()[0]
if dtype == numpy.complex64:
cutplane.setComplexMode(volume.Mode.REAL)
cutplane.getColormap().setVRange(0, 100)
cutplane.setNormal((0, 0, 1))
# Picking on data without anything displayed
cutplane.setVisible(False)
picking = list(self.widget.pickItems(*self._widgetCenter()))
self.assertEqual(len(picking), 0)
# Picking on data with the cut plane
cutplane.setVisible(True)
picking = list(self.widget.pickItems(*self._widgetCenter()))
self.assertEqual(len(picking), 1)
self.assertIs(picking[0].getItem(), cutplane)
data = picking[0].getData()
self.assertEqual(len(data), 1)
self.assertEqual(picking[0].getPositions().shape, (1, 3))
self.assertTrue(
numpy.array_equal(data, refData[picking[0].getIndices()]))
# Picking on data with an isosurface
isosurface = volume.addIsosurface(level=500,
color=(1., 0., 0., .5))
picking = list(self.widget.pickItems(*self._widgetCenter()))
self.assertEqual(len(picking), 2)
self.assertIs(picking[0].getItem(), cutplane)
self.assertIs(picking[1].getItem(), isosurface)
self.assertEqual(picking[1].getPositions().shape, (1, 3))
data = picking[1].getData()
self.assertEqual(len(data), 1)
self.assertTrue(
numpy.array_equal(data, refData[picking[1].getIndices()]))
# Picking outside data
picking = list(self.widget.pickItems(1, 1))
self.assertEqual(len(picking), 0)
self.widget.clearItems()
def testPickMesh(self):
"""Test picking of Mesh items"""
triangles = items.Mesh()
triangles.setData(position=((0, 0, 0), (1, 0, 0), (1, 1, 0), (0, 0, 0),
(1, 1, 0), (0, 1, 0)),
color=(1, 0, 0, 1),
mode='triangles')
triangleStrip = items.Mesh()
triangleStrip.setData(position=(((1, 0, 0), (0, 0, 0), (1, 1, 0),
(0, 1, 0))),
color=(0, 1, 0, 1),
mode='triangle_strip')
triangleFan = items.Mesh()
triangleFan.setData(position=((0, 0, 0), (1, 0, 0), (1, 1, 0), (0, 1,
0)),
color=(0, 0, 1, 1),
mode='fan')
for item in (triangles, triangleStrip, triangleFan):
with self.subTest(mode=item.getDrawMode()):
# Add item
self.widget.clearItems()
self.widget.addItem(item)
self.widget.resetZoom('front')
self.qapp.processEvents()
# Picking on data (at widget center)
picking = list(self.widget.pickItems(*self._widgetCenter()))
self.assertEqual(len(picking), 1)
self.assertIs(picking[0].getItem(), item)
nbPos = len(picking[0].getPositions())
data = picking[0].getData()
self.assertEqual(nbPos, len(data))
self.assertTrue(
numpy.array_equal(
data,
item.getPositionData()[picking[0].getIndices()]))
# Picking outside data
picking = list(self.widget.pickItems(1, 1))
self.assertEqual(len(picking), 0)
def testPickMeshWithIndices(self):
"""Test picking of Mesh items defined by indices"""
triangles = items.Mesh()
triangles.setData(
position=((0, 0, 0), (1, 0, 0), (0, 1, 0), (1, 1, 0)),
color=(1, 0, 0, 1),
indices=numpy.array( # dummy triangles and square
(0, 0, 1, 0, 1, 2, 1, 2, 3),
dtype=numpy.uint8),
mode='triangles')
triangleStrip = items.Mesh()
triangleStrip.setData(
position=((0, 0, 0), (1, 0, 0), (0, 1, 0), (1, 1, 0)),
color=(0, 1, 0, 1),
indices=numpy.array( # dummy triangles and square
(1, 0, 0, 1, 2, 3),
dtype=numpy.uint8),
mode='triangle_strip')
triangleFan = items.Mesh()
triangleFan.setData(
position=((0, 0, 0), (1, 0, 0), (0, 1, 0), (1, 1, 0)),
color=(0, 0, 1, 1),
indices=numpy.array( # dummy triangle, square, dummy
(1, 1, 0, 2, 3, 3),
dtype=numpy.uint8),
mode='fan')
for item in (triangles, triangleStrip, triangleFan):
with self.subTest(mode=item.getDrawMode()):
# Add item
self.widget.clearItems()
self.widget.addItem(item)
self.widget.resetZoom('front')
self.qapp.processEvents()
# Picking on data (at widget center)
picking = list(self.widget.pickItems(*self._widgetCenter()))
self.assertEqual(len(picking), 1)
self.assertIs(picking[0].getItem(), item)
nbPos = len(picking[0].getPositions())
data = picking[0].getData()
self.assertEqual(nbPos, len(data))
self.assertTrue(
numpy.array_equal(
data,
item.getPositionData()[picking[0].getIndices()]))
# Picking outside data
picking = list(self.widget.pickItems(1, 1))
self.assertEqual(len(picking), 0)
def testPickCylindricalMesh(self):
"""Test picking of Box, Cylinder and Hexagon items"""
positions = numpy.array(((0., 0., 0.), (1., 1., 0.), (2., 2., 0.)))
box = items.Box()
box.setData(position=positions)
cylinder = items.Cylinder()
cylinder.setData(position=positions)
hexagon = items.Hexagon()
hexagon.setData(position=positions)
for item in (box, cylinder, hexagon):
with self.subTest(item=item.__class__.__name__):
# Add item
self.widget.clearItems()
self.widget.addItem(item)
self.widget.resetZoom('front')
self.qapp.processEvents()
# Picking on data (at widget center)
picking = list(self.widget.pickItems(*self._widgetCenter()))
self.assertEqual(len(picking), 1)
self.assertIs(picking[0].getItem(), item)
nbPos = len(picking[0].getPositions())
data = picking[0].getData()
print(item.__class__.__name__, [positions[1]], data)
self.assertTrue(numpy.all(numpy.equal(positions[1], data)))
self.assertEqual(nbPos, len(data))
self.assertTrue(
numpy.array_equal(
data,
item.getPosition()[picking[0].getIndices()]))
# Picking outside data
picking = list(self.widget.pickItems(1, 1))
self.assertEqual(len(picking), 0)
class TestSceneWidget(TestCaseQt, ParametricTestCase):
"""Tests StatsWidget combined with SceneWidget"""
def setUp(self):
super(TestSceneWidget, self).setUp()
self.sceneWidget = SceneWidget()
self.sceneWidget.resize(300, 300)
self.sceneWidget.show()
self.statsWidget = BasicStatsWidget()
self.statsWidget.setPlot(self.sceneWidget)
# self.qWaitForWindowExposed(self.sceneWidget)
def tearDown(self):
Stats._getContext.cache_clear()
self.qapp.processEvents()
self.sceneWidget.setAttribute(qt.Qt.WA_DeleteOnClose)
self.sceneWidget.close()
del self.sceneWidget
self.statsWidget.setAttribute(qt.Qt.WA_DeleteOnClose)
self.statsWidget.close()
del self.statsWidget
super(TestSceneWidget, self).tearDown()
def test(self):
"""Test StatsWidget with SceneWidget"""
# Prepare scene
# Data image
image = self.sceneWidget.addImage(numpy.arange(100).reshape(10, 10))
image.setLabel('Image')
# RGB image
imageRGB = self.sceneWidget.addImage(
numpy.arange(300, dtype=numpy.uint8).reshape(10, 10, 3))
imageRGB.setLabel('RGB Image')
# 2D scatter
data = numpy.arange(100)
scatter2D = self.sceneWidget.add2DScatter(x=data, y=data, value=data)
scatter2D.setLabel('2D Scatter')
# 3D scatter
scatter3D = self.sceneWidget.add3DScatter(x=data,
y=data,
z=data,
value=data)
scatter3D.setLabel('3D Scatter')
# Add a group
group = items.GroupItem()
self.sceneWidget.addItem(group)
# 3D scalar field
data = numpy.arange(64**3).reshape(64, 64, 64)
scalarField = items.ScalarField3D()
scalarField.setData(data, copy=False)
scalarField.setLabel('3D Scalar field')
group.addItem(scalarField)
statsTable = self.statsWidget._getStatsTable()
# Test selection only
self.statsWidget.setDisplayOnlyActiveItem(True)
self.assertEqual(statsTable.rowCount(), 0)
self.sceneWidget.selection().setCurrentItem(group)
self.assertEqual(statsTable.rowCount(), 0)
for item in (image, scatter2D, scatter3D, scalarField):
with self.subTest('selection only', item=item.getLabel()):
self.sceneWidget.selection().setCurrentItem(item)
self.assertEqual(statsTable.rowCount(), 1)
self._checkItem(item)
# Test all data
self.statsWidget.setDisplayOnlyActiveItem(False)
self.assertEqual(statsTable.rowCount(), 4)
for item in (image, scatter2D, scatter3D, scalarField):
with self.subTest('all items', item=item.getLabel()):
self._checkItem(item)
def _checkItem(self, item):
"""Check that item is in StatsTable and that stats are OK
:param silx.gui.plot3d.items.Item3D item:
"""
if isinstance(item, (items.Scatter2D, items.Scatter3D)):
data = item.getValueData(copy=False)
else:
data = item.getData(copy=False)
statsTable = self.statsWidget._getStatsTable()
tableItems = statsTable._itemToTableItems(item)
self.assertTrue(len(tableItems) > 0)
self.assertEqual(tableItems['legend'].text(), item.getLabel())
self.assertEqual(float(tableItems['min'].text()), numpy.min(data))
self.assertEqual(float(tableItems['max'].text()), numpy.max(data))
def setUp(self):
super(TestSceneWidget, self).setUp()
self.widget = SceneWidget()
self.widget.show()
self.qWaitForWindowExposed(self.widget)
class TestSceneWidget(TestCaseQt, ParametricTestCase):
"""Tests SceneWidget picking feature"""
def setUp(self):
super(TestSceneWidget, self).setUp()
self.widget = SceneWidget()
self.widget.show()
self.qWaitForWindowExposed(self.widget)
def tearDown(self):
self.qapp.processEvents()
self.widget.setAttribute(qt.Qt.WA_DeleteOnClose)
self.widget.close()
del self.widget
super(TestSceneWidget, self).tearDown()
def testFogEffect(self):
"""Test fog effect on scene primitive"""
image = self.widget.addImage(numpy.arange(100).reshape(10, 10))
scatter = self.widget.add3DScatter(
*numpy.random.random(4000).reshape(4, -1))
scatter.setTranslation(10, 10)
scatter.setScale(10, 10, 10)
self.widget.resetZoom('front')
self.qapp.processEvents()
self.widget.setFogMode(self.widget.FogMode.LINEAR)
self.qapp.processEvents()
self.widget.setFogMode(self.widget.FogMode.NONE)
self.qapp.processEvents()
class TestPositionInfoWidget(TestCaseQt):
"""Tests PositionInfoWidget"""
def setUp(self):
super(TestPositionInfoWidget, self).setUp()
self.sceneWidget = SceneWidget()
self.sceneWidget.resize(300, 300)
self.sceneWidget.show()
self.positionInfoWidget = PositionInfoWidget()
self.positionInfoWidget.setSceneWidget(self.sceneWidget)
self.positionInfoWidget.show()
self.qWaitForWindowExposed(self.positionInfoWidget)
# self.qWaitForWindowExposed(self.widget)
def tearDown(self):
self.qapp.processEvents()
self.sceneWidget.setAttribute(qt.Qt.WA_DeleteOnClose)
self.sceneWidget.close()
del self.sceneWidget
self.positionInfoWidget.setAttribute(qt.Qt.WA_DeleteOnClose)
self.positionInfoWidget.close()
del self.positionInfoWidget
super(TestPositionInfoWidget, self).tearDown()
def test(self):
"""Test PositionInfoWidget"""
self.assertIs(self.positionInfoWidget.getSceneWidget(),
self.sceneWidget)
data = numpy.arange(100)
self.sceneWidget.add2DScatter(x=data, y=data, value=data)
self.sceneWidget.resetZoom('front')
# Double click at the center
self.mouseDClick(self.sceneWidget, button=qt.Qt.LeftButton)
# Clear displayed value
self.positionInfoWidget.clear()
# Update info from API
self.positionInfoWidget.pick(x=10, y=10)
# Remove SceneWidget
self.positionInfoWidget.setSceneWidget(None)
class TestSceneWidget(TestCaseQt, ParametricTestCase):
"""Tests StatsWidget combined with SceneWidget"""
def setUp(self):
super(TestSceneWidget, self).setUp()
self.sceneWidget = SceneWidget()
self.sceneWidget.resize(300, 300)
self.sceneWidget.show()
self.statsWidget = BasicStatsWidget()
self.statsWidget.setPlot(self.sceneWidget)
# self.qWaitForWindowExposed(self.sceneWidget)
def tearDown(self):
self.qapp.processEvents()
self.sceneWidget.setAttribute(qt.Qt.WA_DeleteOnClose)
self.sceneWidget.close()
del self.sceneWidget
self.statsWidget.setAttribute(qt.Qt.WA_DeleteOnClose)
self.statsWidget.close()
del self.statsWidget
super(TestSceneWidget, self).tearDown()
def test(self):
"""Test StatsWidget with SceneWidget"""
# Prepare scene
# Data image
image = self.sceneWidget.addImage(numpy.arange(100).reshape(10, 10))
image.setLabel('Image')
# RGB image
imageRGB = self.sceneWidget.addImage(
numpy.arange(300, dtype=numpy.uint8).reshape(10, 10, 3))
imageRGB.setLabel('RGB Image')
# 2D scatter
data = numpy.arange(100)
scatter2D = self.sceneWidget.add2DScatter(x=data, y=data, value=data)
scatter2D.setLabel('2D Scatter')
# 3D scatter
scatter3D = self.sceneWidget.add3DScatter(x=data, y=data, z=data, value=data)
scatter3D.setLabel('3D Scatter')
# Add a group
group = items.GroupItem()
self.sceneWidget.addItem(group)
# 3D scalar field
data = numpy.arange(64**3).reshape(64, 64, 64)
scalarField = items.ScalarField3D()
scalarField.setData(data, copy=False)
scalarField.setLabel('3D Scalar field')
group.addItem(scalarField)
statsTable = self.statsWidget._getStatsTable()
# Test selection only
self.statsWidget.setDisplayOnlyActiveItem(True)
self.assertEqual(statsTable.rowCount(), 0)
self.sceneWidget.selection().setCurrentItem(group)
self.assertEqual(statsTable.rowCount(), 0)
for item in (image, scatter2D, scatter3D, scalarField):
with self.subTest('selection only', item=item.getLabel()):
self.sceneWidget.selection().setCurrentItem(item)
self.assertEqual(statsTable.rowCount(), 1)
self._checkItem(item)
# Test all data
self.statsWidget.setDisplayOnlyActiveItem(False)
self.assertEqual(statsTable.rowCount(), 4)
for item in (image, scatter2D, scatter3D, scalarField):
with self.subTest('all items', item=item.getLabel()):
self._checkItem(item)
def _checkItem(self, item):
"""Check that item is in StatsTable and that stats are OK
:param silx.gui.plot3d.items.Item3D item:
"""
if isinstance(item, (items.Scatter2D, items.Scatter3D)):
data = item.getValueData(copy=False)
else:
data = item.getData(copy=False)
statsTable = self.statsWidget._getStatsTable()
tableItems = statsTable._itemToTableItems(item)
self.assertTrue(len(tableItems) > 0)
self.assertEqual(tableItems['legend'].text(), item.getLabel())
self.assertEqual(float(tableItems['min'].text()), numpy.min(data))
self.assertEqual(float(tableItems['max'].text()), numpy.max(data))
class TestPositionInfoWidget(TestCaseQt):
"""Tests PositionInfoWidget"""
def setUp(self):
super(TestPositionInfoWidget, self).setUp()
self.sceneWidget = SceneWidget()
self.sceneWidget.resize(300, 300)
self.sceneWidget.show()
self.positionInfoWidget = PositionInfoWidget()
self.positionInfoWidget.setSceneWidget(self.sceneWidget)
self.positionInfoWidget.show()
self.qWaitForWindowExposed(self.positionInfoWidget)
# self.qWaitForWindowExposed(self.widget)
def tearDown(self):
self.qapp.processEvents()
self.sceneWidget.setAttribute(qt.Qt.WA_DeleteOnClose)
self.sceneWidget.close()
del self.sceneWidget
self.positionInfoWidget.setAttribute(qt.Qt.WA_DeleteOnClose)
self.positionInfoWidget.close()
del self.positionInfoWidget
super(TestPositionInfoWidget, self).tearDown()
def test(self):
"""Test PositionInfoWidget"""
self.assertIs(self.positionInfoWidget.getSceneWidget(),
self.sceneWidget)
data = numpy.arange(100)
self.sceneWidget.add2DScatter(x=data, y=data, value=data)
self.sceneWidget.resetZoom('front')
# Double click at the center
self.mouseDClick(self.sceneWidget, button=qt.Qt.LeftButton)
# Clear displayed value
self.positionInfoWidget.clear()
# Update info from API
self.positionInfoWidget.pick(x=10, y=10)
# Remove SceneWidget
self.positionInfoWidget.setSceneWidget(None)
def setUp(self):
super(TestSceneWidgetPicking, self).setUp()
self.widget = SceneWidget()
self.widget.resize(300, 300)
self.widget.show()
class TestSceneWidgetPicking(TestCaseQt, ParametricTestCase):
"""Tests SceneWidget picking feature"""
def setUp(self):
super(TestSceneWidgetPicking, self).setUp()
self.widget = SceneWidget()
self.widget.resize(300, 300)
self.widget.show()
# self.qWaitForWindowExposed(self.widget)
def tearDown(self):
self.qapp.processEvents()
self.widget.setAttribute(qt.Qt.WA_DeleteOnClose)
self.widget.close()
del self.widget
super(TestSceneWidgetPicking, self).tearDown()
def _widgetCenter(self):
"""Returns widget center"""
size = self.widget.size()
return size.width() // 2, size.height() // 2
def testPickImage(self):
"""Test picking of ImageData and ImageRgba items"""
imageData = items.ImageData()
imageData.setData(numpy.arange(100).reshape(10, 10))
imageRgba = items.ImageRgba()
imageRgba.setData(
numpy.arange(300, dtype=numpy.uint8).reshape(10, 10, 3))
for item in (imageData, imageRgba):
with self.subTest(item=item.__class__.__name__):
# Add item
self.widget.clearItems()
self.widget.addItem(item)
self.widget.resetZoom('front')
self.qapp.processEvents()
# Picking on data (at widget center)
picking = list(self.widget.pickItems(*self._widgetCenter()))
self.assertEqual(len(picking), 1)
self.assertIs(picking[0].getItem(), item)
self.assertEqual(picking[0].getPositions('ndc').shape, (1, 3))
data = picking[0].getData()
self.assertEqual(len(data), 1)
self.assertTrue(numpy.array_equal(
data,
item.getData()[picking[0].getIndices()]))
# Picking outside data
picking = list(self.widget.pickItems(1, 1))
self.assertEqual(len(picking), 0)
def testPickScatter(self):
"""Test picking of Scatter2D and Scatter3D items"""
data = numpy.arange(100)
scatter2d = items.Scatter2D()
scatter2d.setData(x=data, y=data, value=data)
scatter3d = items.Scatter3D()
scatter3d.setData(x=data, y=data, z=data, value=data)
for item in (scatter2d, scatter3d):
with self.subTest(item=item.__class__.__name__):
# Add item
self.widget.clearItems()
self.widget.addItem(item)
self.widget.resetZoom('front')
self.qapp.processEvents()
# Picking on data (at widget center)
picking = list(self.widget.pickItems(*self._widgetCenter()))
self.assertEqual(len(picking), 1)
self.assertIs(picking[0].getItem(), item)
nbPos = len(picking[0].getPositions('ndc'))
data = picking[0].getData()
self.assertEqual(nbPos, len(data))
self.assertTrue(numpy.array_equal(
data,
item.getValueData()[picking[0].getIndices()]))
# Picking outside data
picking = list(self.widget.pickItems(1, 1))
self.assertEqual(len(picking), 0)
def testPickVolume(self):
"""Test picking of volume CutPlane and Isosurface items"""
for dtype in (numpy.float32, numpy.complex64):
with self.subTest(dtype=dtype):
refData = numpy.arange(10**3, dtype=dtype).reshape(10, 10, 10)
volume = self.widget.addVolume(refData)
if dtype == numpy.complex64:
volume.setComplexMode(volume.Mode.REAL)
refData = numpy.real(refData)
self.widget.resetZoom('front')
cutplane = volume.getCutPlanes()[0]
if dtype == numpy.complex64:
cutplane.setComplexMode(volume.Mode.REAL)
cutplane.getColormap().setVRange(0, 100)
cutplane.setNormal((0, 0, 1))
# Picking on data without anything displayed
cutplane.setVisible(False)
picking = list(self.widget.pickItems(*self._widgetCenter()))
self.assertEqual(len(picking), 0)
# Picking on data with the cut plane
cutplane.setVisible(True)
picking = list(self.widget.pickItems(*self._widgetCenter()))
self.assertEqual(len(picking), 1)
self.assertIs(picking[0].getItem(), cutplane)
data = picking[0].getData()
self.assertEqual(len(data), 1)
self.assertEqual(picking[0].getPositions().shape, (1, 3))
self.assertTrue(numpy.array_equal(
data,
refData[picking[0].getIndices()]))
# Picking on data with an isosurface
isosurface = volume.addIsosurface(
level=500, color=(1., 0., 0., .5))
picking = list(self.widget.pickItems(*self._widgetCenter()))
self.assertEqual(len(picking), 2)
self.assertIs(picking[0].getItem(), cutplane)
self.assertIs(picking[1].getItem(), isosurface)
self.assertEqual(picking[1].getPositions().shape, (1, 3))
data = picking[1].getData()
self.assertEqual(len(data), 1)
self.assertTrue(numpy.array_equal(
data,
refData[picking[1].getIndices()]))
# Picking outside data
picking = list(self.widget.pickItems(1, 1))
self.assertEqual(len(picking), 0)
self.widget.clearItems()
def testPickMesh(self):
"""Test picking of Mesh items"""
triangles = items.Mesh()
triangles.setData(
position=((0, 0, 0), (1, 0, 0), (1, 1, 0),
(0, 0, 0), (1, 1, 0), (0, 1, 0)),
color=(1, 0, 0, 1),
mode='triangles')
triangleStrip = items.Mesh()
triangleStrip.setData(
position=(((1, 0, 0), (0, 0, 0), (1, 1, 0), (0, 1, 0))),
color=(0, 1, 0, 1),
mode='triangle_strip')
triangleFan = items.Mesh()
triangleFan.setData(
position=((0, 0, 0), (1, 0, 0), (1, 1, 0), (0, 1, 0)),
color=(0, 0, 1, 1),
mode='fan')
for item in (triangles, triangleStrip, triangleFan):
with self.subTest(mode=item.getDrawMode()):
# Add item
self.widget.clearItems()
self.widget.addItem(item)
self.widget.resetZoom('front')
self.qapp.processEvents()
# Picking on data (at widget center)
picking = list(self.widget.pickItems(*self._widgetCenter()))
self.assertEqual(len(picking), 1)
self.assertIs(picking[0].getItem(), item)
nbPos = len(picking[0].getPositions())
data = picking[0].getData()
self.assertEqual(nbPos, len(data))
self.assertTrue(numpy.array_equal(
data,
item.getPositionData()[picking[0].getIndices()]))
# Picking outside data
picking = list(self.widget.pickItems(1, 1))
self.assertEqual(len(picking), 0)
def testPickMeshWithIndices(self):
"""Test picking of Mesh items defined by indices"""
triangles = items.Mesh()
triangles.setData(
position=((0, 0, 0), (1, 0, 0), (0, 1, 0), (1, 1, 0)),
color=(1, 0, 0, 1),
indices=numpy.array( # dummy triangles and square
(0, 0, 1, 0, 1, 2, 1, 2, 3), dtype=numpy.uint8),
mode='triangles')
triangleStrip = items.Mesh()
triangleStrip.setData(
position=((0, 0, 0), (1, 0, 0), (0, 1, 0), (1, 1, 0)),
color=(0, 1, 0, 1),
indices=numpy.array( # dummy triangles and square
(1, 0, 0, 1, 2, 3), dtype=numpy.uint8),
mode='triangle_strip')
triangleFan = items.Mesh()
triangleFan.setData(
position=((0, 0, 0), (1, 0, 0), (0, 1, 0), (1, 1, 0)),
color=(0, 0, 1, 1),
indices=numpy.array( # dummy triangle, square, dummy
(1, 1, 0, 2, 3, 3), dtype=numpy.uint8),
mode='fan')
for item in (triangles, triangleStrip, triangleFan):
with self.subTest(mode=item.getDrawMode()):
# Add item
self.widget.clearItems()
self.widget.addItem(item)
self.widget.resetZoom('front')
self.qapp.processEvents()
# Picking on data (at widget center)
picking = list(self.widget.pickItems(*self._widgetCenter()))
self.assertEqual(len(picking), 1)
self.assertIs(picking[0].getItem(), item)
nbPos = len(picking[0].getPositions())
data = picking[0].getData()
self.assertEqual(nbPos, len(data))
self.assertTrue(numpy.array_equal(
data,
item.getPositionData()[picking[0].getIndices()]))
# Picking outside data
picking = list(self.widget.pickItems(1, 1))
self.assertEqual(len(picking), 0)
def testPickCylindricalMesh(self):
"""Test picking of Box, Cylinder and Hexagon items"""
positions = numpy.array(((0., 0., 0.), (1., 1., 0.), (2., 2., 0.)))
box = items.Box()
box.setData(position=positions)
cylinder = items.Cylinder()
cylinder.setData(position=positions)
hexagon = items.Hexagon()
hexagon.setData(position=positions)
for item in (box, cylinder, hexagon):
with self.subTest(item=item.__class__.__name__):
# Add item
self.widget.clearItems()
self.widget.addItem(item)
self.widget.resetZoom('front')
self.qapp.processEvents()
# Picking on data (at widget center)
picking = list(self.widget.pickItems(*self._widgetCenter()))
self.assertEqual(len(picking), 1)
self.assertIs(picking[0].getItem(), item)
nbPos = len(picking[0].getPositions())
data = picking[0].getData()
print(item.__class__.__name__, [positions[1]], data)
self.assertTrue(numpy.all(numpy.equal(positions[1], data)))
self.assertEqual(nbPos, len(data))
self.assertTrue(numpy.array_equal(
data,
item.getPosition()[picking[0].getIndices()]))
# Picking outside data
picking = list(self.widget.pickItems(1, 1))
self.assertEqual(len(picking), 0)
