From: azv Date: Mon, 16 Mar 2015 14:54:27 +0000 (+0300) Subject: Unit test for the Equal constraint X-Git-Tag: V_1.1.0~122^2~2^2^2~1 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=4748e2976bac675a9a75f9069acc6bcc942d2084;p=modules%2Fshaper.git Unit test for the Equal constraint --- diff --git a/src/SketchPlugin/CMakeLists.txt b/src/SketchPlugin/CMakeLists.txt index 5167dd28c..c34904df2 100644 --- a/src/SketchPlugin/CMakeLists.txt +++ b/src/SketchPlugin/CMakeLists.txt @@ -97,5 +97,6 @@ ADD_UNIT_TESTS(TestSketchPointLine.py TestConstraintRigid.py TestConstraintHorizontal.py TestConstraintVertical.py + TestConstraintEqual.py TestHighload.py TestSnowflake.py) diff --git a/src/SketchPlugin/Test/TestConstraintEqual.py b/src/SketchPlugin/Test/TestConstraintEqual.py new file mode 100644 index 000000000..66bfc3db2 --- /dev/null +++ b/src/SketchPlugin/Test/TestConstraintEqual.py @@ -0,0 +1,123 @@ +""" + TestConstraintEqual.py + Unit test of SketchPlugin_ConstraintEqual class + + SketchPlugin_ConstraintEqual + static const std::string MY_CONSTRAINT_EQAUL_ID("SketchConstraintEqual"); + data()->addAttribute(SketchPlugin_Constraint::ENTITY_A(), ModelAPI_AttributeRefAttr::type()); + data()->addAttribute(SketchPlugin_Constraint::ENTITY_B(), ModelAPI_AttributeRefAttr::type()); + +""" +from GeomDataAPI import * +from ModelAPI import * +import math +#========================================================================= +# Initialization of the test +#========================================================================= + +__updated__ = "2015-03-16" + +aSession = ModelAPI_Session.get() +aDocument = aSession.moduleDocument() +#========================================================================= +# Creation of a sketch +#========================================================================= +aSession.startOperation() +aSketchCommonFeature = aDocument.addFeature("Sketch") +aSketchFeature = modelAPI_CompositeFeature(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() +#========================================================================= +# Creation of an arc and a circle +#========================================================================= +aSession.startOperation() +aSketchArc = aSketchFeature.addFeature("SketchArc") +anArcCentr = geomDataAPI_Point2D(aSketchArc.attribute("ArcCenter")) +anArcCentr.setValue(10., 10.) +anArcStartPoint = geomDataAPI_Point2D(aSketchArc.attribute("ArcStartPoint")) +anArcStartPoint.setValue(0., 50.) +anArcEndPoint = geomDataAPI_Point2D(aSketchArc.attribute("ArcEndPoint")) +anArcEndPoint.setValue(50., 0.) +aSession.finishOperation() +# Circle +aSession.startOperation() +aSketchCircle = aSketchFeature.addFeature("SketchCircle") +anCircleCentr = geomDataAPI_Point2D(aSketchCircle.attribute("CircleCenter")) +aCircleRadius = aSketchCircle.real("CircleRadius") +anCircleCentr.setValue(-25., -25) +aCircleRadius.setValue(25.) +aSession.finishOperation() +#========================================================================= +# A constraint to make equal radii of arc and circle +#========================================================================= +aSession.startOperation() +aConstraintEqRad = aSketchFeature.addFeature("SketchConstraintEqual") +aRefObjectA = aConstraintEqRad.refattr("ConstraintEntityA") +aRefObjectB = aConstraintEqRad.refattr("ConstraintEntityB") +aResultA = modelAPI_ResultConstruction(aSketchArc.firstResult()) +aResultB = modelAPI_ResultConstruction(aSketchCircle.firstResult()) +assert (aResultA is not None) +assert (aResultB is not None) +aRefObjectA.setObject(aResultA) +aRefObjectB.setObject(aResultB) +aConstraintEqRad.execute() +aSession.finishOperation() +aCircRadius = aCircleRadius.value(); +anArcVecX = anArcStartPoint.x() - anArcCentr.x(); +anArcVecY = anArcStartPoint.y() - anArcCentr.y(); +anArcRadius = math.sqrt(anArcVecX * anArcVecX + anArcVecY * anArcVecY) +print anArcStartPoint.x(), anArcStartPoint.y() +print anArcCentr.x(), anArcCentr.y() +print aCircRadius, anArcRadius +assert (aCircRadius == anArcRadius) +#========================================================================= +# Creation of two different lines +#========================================================================= +# First Line +aSession.startOperation() +aSketchLine1 = aSketchFeature.addFeature("SketchLine") +aLine1StartPoint = geomDataAPI_Point2D(aSketchLine1.attribute("StartPoint")) +aLine1EndPoint = geomDataAPI_Point2D(aSketchLine1.attribute("EndPoint")) +aLine1StartPoint.setValue(0., 15.) +aLine1EndPoint.setValue(20., 25.) +aSession.finishOperation() +# Second Line +aSession.startOperation() +aSketchLine2 = aSketchFeature.addFeature("SketchLine") +aLine2StartPoint = geomDataAPI_Point2D(aSketchLine2.attribute("StartPoint")) +aLine2EndPoint = geomDataAPI_Point2D(aSketchLine2.attribute("EndPoint")) +aLine2StartPoint.setValue(0., 0.) +aLine2EndPoint.setValue(-1., 10.) +aSession.finishOperation() +#========================================================================= +# A constraint to make equal lengths of lines +#========================================================================= +aSession.startOperation() +aConstraintEqLen = aSketchFeature.addFeature("SketchConstraintEqual") +aRefObjectA = aConstraintEqLen.refattr("ConstraintEntityA") +aRefObjectB = aConstraintEqLen.refattr("ConstraintEntityB") +aResultA = modelAPI_ResultConstruction(aSketchLine1.firstResult()) +aResultB = modelAPI_ResultConstruction(aSketchLine2.firstResult()) +assert (aResultA is not None) +assert (aResultB is not None) +aRefObjectA.setObject(aResultA) +aRefObjectB.setObject(aResultB) +aConstraintEqLen.execute() +aSession.finishOperation() +aVecX = aLine1StartPoint.x() - aLine1EndPoint.x(); +aVecY = aLine1StartPoint.y() - aLine1EndPoint.y(); +aLine1Len = math.sqrt(anArcVecX * anArcVecX + anArcVecY * anArcVecY) +aVecX = aLine2StartPoint.x() - aLine2EndPoint.x(); +aVecY = aLine2StartPoint.y() - aLine2EndPoint.y(); +aLine2Len = math.sqrt(anArcVecX * anArcVecX + anArcVecY * anArcVecY) +assert (aLine1Len == aLine2Len) +#========================================================================= +# End of test +#=========================================================================