+# Copyright (C) 2014-2023 CEA, EDF
+#
+# This library is free software; you can redistribute it and/or
+# modify it under the terms of the GNU Lesser General Public
+# License as published by the Free Software Foundation; either
+# version 2.1 of the License, or (at your option) any later version.
+#
+# This library is distributed in the hope that it will be useful,
+# but WITHOUT ANY WARRANTY; without even the implied warranty of
+# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+# Lesser General Public License for more details.
+#
+# You should have received a copy of the GNU Lesser General Public
+# License along with this library; if not, write to the Free Software
+# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+#
+# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
+#
+
"""
TestArcBehavior.py
#=========================================================================
# of the test
#=========================================================================
+from GeomAPI import *
from GeomDataAPI import *
from ModelAPI import *
import math
+from salome.shaper import model
aSession = ModelAPI_Session.get()
aDocument = aSession.moduleDocument()
#=========================================================================
aSession.startOperation()
aSketchArc = aSketchFeature.addFeature("SketchArc")
-anArcCentr = geomDataAPI_Point2D(aSketchArc.attribute("ArcCenter"))
+anArcCentr = geomDataAPI_Point2D(aSketchArc.attribute("center_point"))
anArcCentr.setValue(0., 0.)
-anArcStartPoint = geomDataAPI_Point2D(aSketchArc.attribute("ArcStartPoint"))
+anArcStartPoint = geomDataAPI_Point2D(aSketchArc.attribute("start_point"))
anArcStartPoint.setValue(0., 10.)
-anArcEndPoint = geomDataAPI_Point2D(aSketchArc.attribute("ArcEndPoint"))
+anArcEndPoint = geomDataAPI_Point2D(aSketchArc.attribute("end_point"))
anArcEndPoint.setValue(1., 10.)
aSession.finishOperation()
# the arc must be small, not near to the whole circle
aSession.startOperation()
anArcEndPoint.setValue(10., 0.)
aSession.finishOperation()
-assert shapeToEdge(aSketchArc.lastResult().shape()).length() > 47.
-assert shapeToEdge(aSketchArc.lastResult().shape()).length() < 48.
+assert shapeToEdge(aSketchArc.lastResult().shape()).length() > 46.5
+assert shapeToEdge(aSketchArc.lastResult().shape()).length() < 47.5
aSession.startOperation()
anArcEndPoint.setValue(1., 10.)
aSession.finishOperation()
# check from the scratch that from initial state to counterclockwise position also works
aSession.startOperation()
aSketchArc = aSketchFeature.addFeature("SketchArc")
-anArcCentr = geomDataAPI_Point2D(aSketchArc.attribute("ArcCenter"))
+anArcCentr = geomDataAPI_Point2D(aSketchArc.attribute("center_point"))
anArcCentr.setValue(0., 0.)
-anArcStartPoint = geomDataAPI_Point2D(aSketchArc.attribute("ArcStartPoint"))
+anArcStartPoint = geomDataAPI_Point2D(aSketchArc.attribute("start_point"))
anArcStartPoint.setValue(0., 10.)
-anArcEndPoint = geomDataAPI_Point2D(aSketchArc.attribute("ArcEndPoint"))
+anArcEndPoint = geomDataAPI_Point2D(aSketchArc.attribute("end_point"))
anArcEndPoint.setValue(-1., 10.)
aSession.finishOperation()
# the arc must be small, not near to the whole circle
#=========================================================================
aSession.startOperation()
aSketchArc = aSketchFeature.addFeature("SketchArc")
-anArcCentr = geomDataAPI_Point2D(aSketchArc.attribute("ArcCenter"))
+anArcCentr = geomDataAPI_Point2D(aSketchArc.attribute("center_point"))
anArcCentr.setValue(0., 0.)
-anArcStartPoint = geomDataAPI_Point2D(aSketchArc.attribute("ArcStartPoint"))
+anArcStartPoint = geomDataAPI_Point2D(aSketchArc.attribute("start_point"))
anArcStartPoint.setValue(0., 10.)
-anArcEndPoint = geomDataAPI_Point2D(aSketchArc.attribute("ArcEndPoint"))
+anArcEndPoint = geomDataAPI_Point2D(aSketchArc.attribute("end_point"))
anArcEndPoint.setValue(10, 0.)
aSession.finishOperation()
-anInversed = aSketchArc.boolean("InversedArc").value()
+anInversed = aSketchArc.boolean("reversed").value()
for aCenterCoords in range(1, 20):
aSession.startOperation()
anArcCentr.setValue(aCenterCoords, aCenterCoords/2) # move center
aSession.finishOperation()
- assert aSketchArc.boolean("InversedArc").value() == anInversed
+ assert aSketchArc.boolean("reversed").value() == anInversed
for aCenterCoords in range(20, -20, -1):
aSession.startOperation()
anArcCentr.setValue(aCenterCoords, aCenterCoords/2) # move center
aSession.finishOperation()
- assert aSketchArc.boolean("InversedArc").value() == anInversed
+ assert aSketchArc.boolean("reversed").value() == anInversed
for aCenterCoords in range(-20, 20):
aSession.startOperation()
anArcCentr.setValue(aCenterCoords, aCenterCoords/2) # move center
aSession.finishOperation()
- assert aSketchArc.boolean("InversedArc").value() == anInversed
+ assert aSketchArc.boolean("reversed").value() == anInversed
#=========================================================================
-# Test that movement of start point of arc does not change central point
+# Test that movement of start point of arc does not break the arc
#=========================================================================
-TOL = 1.e-5
x = anArcCentr.x()
y = anArcCentr.y()
sx = anArcStartPoint.x()
aSession.startOperation()
anArcStartPoint.setValue(sx, sy+aDelta) # move start point
aSession.finishOperation()
- assert math.fabs(anArcCentr.x() - x) < TOL
- assert math.fabs(anArcCentr.y() - y) < TOL
+ model.assertArcValidity(aSketchArc)
for aDelta in range(20, -1, -1):
aSession.startOperation()
anArcStartPoint.setValue(sx, sy+aDelta) # move start point
aSession.finishOperation()
- assert math.fabs(anArcCentr.x() - x) < TOL
- assert math.fabs(anArcCentr.y() - y) < TOL
+ model.assertArcValidity(aSketchArc)
#=========================================================================
-# Test that movement of end point of arc does not change central point
+# Test that movement of end point of arc does not break the arc
#=========================================================================
x = anArcCentr.x()
y = anArcCentr.y()
aSession.startOperation()
anArcEndPoint.setValue(sx+aDelta, sy) # move end point
aSession.finishOperation()
- assert math.fabs(anArcCentr.x() - x) < TOL
- assert math.fabs(anArcCentr.y() - y) < TOL
+ model.assertArcValidity(aSketchArc)
for aDelta in range(20, -1, -1):
aSession.startOperation()
anArcEndPoint.setValue(sx+aDelta, sy) # move end point
aSession.finishOperation()
- assert math.fabs(anArcCentr.x() - x) < TOL
- assert math.fabs(anArcCentr.y() - y) < TOL
+ model.assertArcValidity(aSketchArc)