+# Copyright (C) 2014-2022 CEA/DEN, EDF R&D
+#
+# 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
+#
+
"""
TestConstraintPerpendicular.py
Unit test of SketchPlugin_ConstraintPerpendicular class
-
+
SketchPlugin_Constraint
static const std::string MY_CONSTRAINT_VALUE("ConstraintValue");
static const std::string MY_FLYOUT_VALUE_PNT("ConstraintFlyoutValuePnt");
static const std::string MY_ENTITY_B("ConstraintEntityB");
static const std::string MY_ENTITY_C("ConstraintEntityC");
static const std::string MY_ENTITY_D("ConstraintEntityD");
-
+
SketchPlugin_ConstraintPerpendicular
static const std::string MY_CONSTRAINT_PERPENDICULAR_ID("SketchConstraintPerpendicular");
- data()->addAttribute(SketchPlugin_Constraint::ENTITY_A(), ModelAPI_AttributeRefAttr::type());
- data()->addAttribute(SketchPlugin_Constraint::ENTITY_B(), ModelAPI_AttributeRefAttr::type());
- data()->addAttribute(SketchPlugin_Constraint::FLYOUT_VALUE_PNT(), GeomDataAPI_Point2D::type());
+ data()->addAttribute(SketchPlugin_Constraint::ENTITY_A(), ModelAPI_AttributeRefAttr::typeId());
+ data()->addAttribute(SketchPlugin_Constraint::ENTITY_B(), ModelAPI_AttributeRefAttr::typeId());
+ data()->addAttribute(SketchPlugin_Constraint::FLYOUT_VALUE_PNT(), GeomDataAPI_Point2D::typeId());
"""
from GeomDataAPI import *
from ModelAPI import *
+from salome.shaper import model
+
#=========================================================================
# Initialization of the test
#=========================================================================
#=========================================================================
aSession.startOperation()
aSketchCommonFeature = aDocument.addFeature("Sketch")
-aSketchFeature = modelAPI_CompositeFeature(aSketchCommonFeature)
+aSketchFeature = featureToCompositeFeature(aSketchCommonFeature)
origin = geomDataAPI_Point(aSketchFeature.attribute("Origin"))
origin.setValue(0, 0, 0)
dirx = geomDataAPI_Dir(aSketchFeature.attribute("DirX"))
dirx.setValue(1, 0, 0)
-diry = geomDataAPI_Dir(aSketchFeature.attribute("DirY"))
-diry.setValue(0, 1, 0)
norm = geomDataAPI_Dir(aSketchFeature.attribute("Norm"))
norm.setValue(0, 0, 1)
aSession.finishOperation()
aSketchLineA = aSketchFeature.addFeature("SketchLine")
aLineAStartPoint = geomDataAPI_Point2D(aSketchLineA.attribute("StartPoint"))
aLineAEndPoint = geomDataAPI_Point2D(aSketchLineA.attribute("EndPoint"))
-# line B
-aSketchLineB = aSketchFeature.addFeature("SketchLine")
aLineAStartPoint.setValue(0., 25)
aLineAEndPoint.setValue(85., 25)
+# line B
+aSketchLineB = aSketchFeature.addFeature("SketchLine")
aLineBStartPoint = geomDataAPI_Point2D(aSketchLineB.attribute("StartPoint"))
aLineBEndPoint = geomDataAPI_Point2D(aSketchLineB.attribute("EndPoint"))
aLineBStartPoint.setValue(25., 40.)
aLineBEndPoint.setValue(25., 125.)
aSession.finishOperation()
+assert (model.dof(aSketchFeature) == 8)
#=========================================================================
# Make a constraint to keep the length of the line constant
# to prevent perpendicular constraint collapsing line to point
#=========================================================================
-
+aSession.startOperation()
for eachFeature in [aSketchLineA, aSketchLineB]:
- aSession.startOperation()
aLengthConstraint = aSketchFeature.addFeature("SketchConstraintLength")
- refattrA = aLengthConstraint.refattr("ConstraintEntityA")
- aResultA = modelAPI_ResultConstruction(eachFeature.firstResult())
- assert (aResultA is not None)
- refattrA.setObject(aResultA)
+ eachRefattr = aLengthConstraint.refattr("ConstraintEntityA")
+ eachResult = modelAPI_ResultConstruction(eachFeature.firstResult())
+ assert (eachResult is not None)
+ eachRefattr.setObject(eachResult)
aLengthConstraint.execute()
- aSession.finishOperation()
+aSession.finishOperation()
# Coordinates of lines should not be changed after this constraint
assert (aLineAStartPoint.x() == 0)
assert (aLineBStartPoint.y() == 40)
assert (aLineBEndPoint.x() == 25)
assert (aLineBEndPoint.y() == 125)
+assert (model.dof(aSketchFeature) == 6)
#=========================================================================
# Link lines with perpendicular constraint
#=========================================================================
aSession.startOperation()
-aPerpendicularConstraint = aSketchFeature.addFeature(
- "SketchConstraintPerpendicular")
+aPerpendicularConstraint = aSketchFeature.addFeature("SketchConstraintPerpendicular")
refattrA = aPerpendicularConstraint.refattr("ConstraintEntityA")
refattrB = aPerpendicularConstraint.refattr("ConstraintEntityB")
-# aResultA is already defined for the length constraint
+aResultA = modelAPI_ResultConstruction(aSketchLineA.firstResult())
aResultB = modelAPI_ResultConstruction(aSketchLineB.firstResult())
+assert (aResultA is not None)
assert (aResultB is not None)
refattrA.setObject(aResultA)
refattrB.setObject(aResultB)
aPerpendicularConstraint.execute()
aSession.finishOperation()
+assert (model.dof(aSketchFeature) == 5)
#=========================================================================
# Check values and move one constrainted object
#=========================================================================
-# print "Check values and move one constrainted object"
-# print "assert (aLineAStartPoint.x() == %d)" % aLineAStartPoint.x()
-# print "assert (aLineAStartPoint.y() == %d)" % aLineAStartPoint.y()
-# print "assert (aLineAEndPoint.x() == %d)" % aLineAEndPoint.x()
-# print "assert (aLineAEndPoint.y() == %d)" % aLineAEndPoint.y()
-# print "assert (aLineBStartPoint.x() == %d)" % aLineBStartPoint.x()
-# print "assert (aLineBStartPoint.y() == %d)" % aLineBStartPoint.y()
-# print "assert (aLineBEndPoint.x() == %d)" % aLineBEndPoint.x()
-# print "assert (aLineBEndPoint.y() == %d)" % aLineBEndPoint.y()
+aLineBStartPointPrev = (aLineBStartPoint.x(),aLineBStartPoint.y())
+aLineBEndPointPrev = (aLineBEndPoint.x(),aLineBEndPoint.y())
deltaX = deltaY = 5.
# move line without rotation,
# check that reference's line points are not changed also
-aLineAStartPoint.setValue(aLineAStartPoint.x() + deltaX,
- aLineAStartPoint.y() + deltaY)
-aLineAEndPoint.setValue(aLineAEndPoint.x() + deltaX,
- aLineAEndPoint.y() + deltaY)
-# print "move line without rotation"
-# print "assert (aLineAStartPoint.x() == %d)" % aLineAStartPoint.x()
-# print "assert (aLineAStartPoint.y() == %d)" % aLineAStartPoint.y()
-# print "assert (aLineAEndPoint.x() == %d)" % aLineAEndPoint.x()
-# print "assert (aLineAEndPoint.y() == %d)" % aLineAEndPoint.y()
-# print "assert (aLineBStartPoint.x() == %d)" % aLineBStartPoint.x()
-# print "assert (aLineBStartPoint.y() == %d)" % aLineBStartPoint.y()
-# print "assert (aLineBEndPoint.x() == %d)" % aLineBEndPoint.x()
-# print "assert (aLineBEndPoint.y() == %d)" % aLineBEndPoint.y()
-
-# rotate line, check that reference's line points are moved also
-aLineAStartPoint.setValue(aLineAStartPoint.x() + deltaX,
- aLineAStartPoint.y() + deltaY)
-aLineAEndPoint.setValue(aLineAEndPoint.x() - deltaX,
- aLineAEndPoint.y() - deltaY)
-# print "Rotate line, check that reference's line points are moved also"
-# print "assert (aLineAStartPoint.x() == %d)" % aLineAStartPoint.x()
-# print "assert (aLineAStartPoint.y() == %d)" % aLineAStartPoint.y()
-# print "assert (aLineAEndPoint.x() == %d)" % aLineAEndPoint.x()
-# print "assert (aLineAEndPoint.y() == %d)" % aLineAEndPoint.y()
-# print "assert (aLineBStartPoint.x() == %d)" % aLineBStartPoint.x()
-# print "assert (aLineBStartPoint.y() == %d)" % aLineBStartPoint.y()
-# print "assert (aLineBEndPoint.x() == %d)" % aLineBEndPoint.x()
-# print "assert (aLineBEndPoint.y() == %d)" % aLineBEndPoint.y()
+aSession.startOperation()
+aLineAStartPoint.setValue(aLineAStartPoint.x() + deltaX, aLineAStartPoint.y() + deltaY)
+aLineAEndPoint.setValue(aLineAEndPoint.x() + deltaX, aLineAEndPoint.y() + deltaY)
+aSession.finishOperation()
+assert (aLineBStartPointPrev == (aLineBStartPoint.x(), aLineBStartPoint.y()))
+assert (aLineBEndPointPrev == (aLineBEndPoint.x(), aLineBEndPoint.y()))
+aLineBStartPointPrev = (aLineBStartPoint.x(),aLineBStartPoint.y())
+aLineBEndPointPrev = (aLineBEndPoint.x(),aLineBEndPoint.y())
+# rotate line,
+# check that reference's line points are moved also
+aSession.startOperation()
+aLineAStartPoint.setValue(aLineAStartPoint.x() + deltaX, aLineAStartPoint.y() + deltaY)
+aLineAEndPoint.setValue(aLineAEndPoint.x() - deltaX, aLineAEndPoint.y() - deltaY)
+aSession.finishOperation()
+assert (aLineBStartPointPrev != (aLineBStartPoint.x(), aLineBStartPoint.y()))
+assert (aLineBEndPointPrev != (aLineBEndPoint.x(), aLineBEndPoint.y()))
+assert (model.dof(aSketchFeature) == 5)
#=========================================================================
# End of test
#=========================================================================
+
+assert(model.checkPythonDump())