From: sbh Date: Thu, 27 Nov 2014 12:05:33 +0000 (+0300) Subject: Highload tests added. X-Git-Tag: V_0.6.0~1 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=d29ed3f3f7c0e119d2917b2d4120aa7b473220f4;p=modules%2Fshaper.git Highload tests added. --- diff --git a/src/SketchPlugin/CMakeLists.txt b/src/SketchPlugin/CMakeLists.txt index 593f10bd8..d8506cf84 100644 --- a/src/SketchPlugin/CMakeLists.txt +++ b/src/SketchPlugin/CMakeLists.txt @@ -79,4 +79,6 @@ ADD_UNIT_TESTS(TestSketchPointLine.py TestConstraintParallel.py TestConstraintPerpendicular.py TestConstraintRadius.py - TestConstraintRigid.py) + TestConstraintRigid.py + TestHighload.py + TestSnowflake.py) diff --git a/src/SketchPlugin/Test/TestHighload.py b/src/SketchPlugin/Test/TestHighload.py index e2ca33704..f8fed6087 100644 --- a/src/SketchPlugin/Test/TestHighload.py +++ b/src/SketchPlugin/Test/TestHighload.py @@ -1,14 +1,87 @@ """ TestHighload.py """ +from GeomAPI import * from GeomDataAPI import * from ModelAPI import * -from GeomAPI import * +import math + + +#========================================================================= +# Useful subroutines +#========================================================================= +def distance(pointA, pointB): + """ + subroutine to calculate distance between two points + result of calculated distance is has 10**-5 precision + """ + xdiff = math.pow((pointA.x() - pointB.x()), 2) + ydiff = math.pow((pointA.y() - pointB.y()), 2) + return round(math.sqrt(xdiff + ydiff), 5) + + +def createNAngle(theSketch, theN, theRadius, theEdgeLength=0): + # Create an N-Angle at (0,0) + rad = 2. * math.pi / theN + points = [] + for a in xrange(theN): + x = round(math.cos(rad * a), 10) * theRadius + y = round(math.sin(rad * a), 10) * theRadius + points.append((x, y)) + # Close the contour + points.append(points[0]) + + # Create lines iterating over (A,B), (B,C), ... (N,A) + allStartPoints = [] + allEndPoints = [] + allLines = [] + for begin, end in zip(points[:-1], points[1:]): + aSketchLine = theSketch.addFeature("SketchLine") + aStartPoint = geomDataAPI_Point2D(aSketchLine.attribute("StartPoint")) + anEndPoint = geomDataAPI_Point2D(aSketchLine.attribute("EndPoint")) + aStartPoint.setValue(begin[0], begin[1]) + anEndPoint.setValue(end[0], end[1]) + allStartPoints.append(aStartPoint) + allEndPoints.append(anEndPoint) + allLines.append(aSketchLine) + theSketch.execute() + # Shift a start point to the end of list: + # (Bb, Cb, Ab) zip (Ae, Be, Ce) --> ((Ae, Bb), (Cb, Be), (Ab, Ce)) + allStartPoints.append(allStartPoints.pop(0)) + # Make lines coincident: + for pointA, pointB in zip(allStartPoints, allEndPoints): + aCoincidence = theSketch.addFeature("SketchConstraintCoincidence") + aCoincidence.refattr("ConstraintEntityA").setAttr(pointA) + aCoincidence.refattr("ConstraintEntityB").setAttr(pointB) + return allLines + + +def fixLineLength(theSketch, theLines, theEdgeLength=0): + aFirstLineLength = theEdgeLength + # Make give lines fixed length: + for aLine in theLines: + aLengthConstraint = aSketchFeature.addFeature("SketchConstraintLength") + refattrA = aLengthConstraint.refattr("ConstraintEntityA") + refattrA.setObject(modelAPI_ResultConstruction(aLine.firstResult())) + if aFirstLineLength == 0: + pointA = geomDataAPI_Point2D(aLine.attribute("StartPoint")) + pointB = geomDataAPI_Point2D(aLine.attribute("EndPoint")) + aFirstLineLength = distance(pointA, pointB) + aLengthConstraint.real("ConstraintValue").setValue(aFirstLineLength) + + +def moveTo(theLines, theDeltaX, theDeltaY): + for aLine in theLines: + aStart = geomDataAPI_Point2D(aLine.attribute("StartPoint")) + anEnd = geomDataAPI_Point2D(aLine.attribute("EndPoint")) + aStart.setValue(aStart.x() + theDeltaX, aStart.y() + theDeltaY) + anEnd.setValue(anEnd.x() + theDeltaX, anEnd.y() + theDeltaY) + #========================================================================= # Initialization of the test #========================================================================= -__updated__ = "2014-11-21" +__updated__ = "2014-11-27" aSession = ModelAPI_Session.get() aDocument = aSession.moduleDocument() @@ -28,9 +101,23 @@ norm = geomDataAPI_Dir(aSketchFeature.attribute("Norm")) norm.setValue(0, 0, 1) aSession.finishOperation() #========================================================================= -# TODO: implement test +# Create 4x4 polygons N = {5, 21} #========================================================================= -assert (False) +deltaX = deltaY = 50. +n = 5 +aSession.startOperation() +for i in xrange(4): + for j in xrange(4): + allNangleLines = createNAngle(aSketchFeature, n, 50) + fixLineLength(aSketchFeature, allNangleLines) + moveTo(allNangleLines, deltaX, deltaY) + n += 1 + deltaX += 110. + deltaY += 110. + deltaX = 50. +aSession.finishOperation() + + #========================================================================= # End of test #========================================================================= diff --git a/src/SketchPlugin/Test/TestSnowflake.py b/src/SketchPlugin/Test/TestSnowflake.py new file mode 100644 index 000000000..65b421354 --- /dev/null +++ b/src/SketchPlugin/Test/TestSnowflake.py @@ -0,0 +1,159 @@ +""" + TestSnowflake.py +""" +from GeomAPI import * +from GeomDataAPI import * +from ModelAPI import * +import collections +import math +import random + + +#========================================================================= +# Useful subroutines +#========================================================================= +def mirrorDiagonal(theSketch, allLines): + result = [] + for aLine in allLines: + aStartPoint = geomDataAPI_Point2D(aLine.attribute("StartPoint")) + anEndPoint = geomDataAPI_Point2D(aLine.attribute("EndPoint")) + + aNewLine = aSketchFeature.addFeature("SketchLine") + aNewStartPoint = geomDataAPI_Point2D(aNewLine.attribute("StartPoint")) + aNewEndPoint = geomDataAPI_Point2D(aNewLine.attribute("EndPoint")) + aNewStartPoint.setValue(aStartPoint.y(), aStartPoint.x()) + aNewEndPoint.setValue(anEndPoint.y(), anEndPoint.x()) + result.append(aNewLine) + allLines.extend(result) + + +def mirrorX(theSketch, allLines): + result = [] + for aLine in allLines: + aStartPoint = geomDataAPI_Point2D(aLine.attribute("StartPoint")) + anEndPoint = geomDataAPI_Point2D(aLine.attribute("EndPoint")) + + aNewLine = aSketchFeature.addFeature("SketchLine") + aNewStartPoint = geomDataAPI_Point2D(aNewLine.attribute("StartPoint")) + aNewEndPoint = geomDataAPI_Point2D(aNewLine.attribute("EndPoint")) + aNewStartPoint.setValue(aStartPoint.x() * -1., aStartPoint.y()) + aNewEndPoint.setValue(anEndPoint.x() * -1., anEndPoint.y()) + result.append(aNewLine) + allLines.extend(result) + + +def mirrorY(theSketch, allLines): + result = [] + for aLine in allLines: + aStartPoint = geomDataAPI_Point2D(aLine.attribute("StartPoint")) + anEndPoint = geomDataAPI_Point2D(aLine.attribute("EndPoint")) + + aNewLine = aSketchFeature.addFeature("SketchLine") + aNewStartPoint = geomDataAPI_Point2D(aNewLine.attribute("StartPoint")) + aNewEndPoint = geomDataAPI_Point2D(aNewLine.attribute("EndPoint")) + aNewStartPoint.setValue(aStartPoint.x(), aStartPoint.y() * -1.) + aNewEndPoint.setValue(anEndPoint.x(), anEndPoint.y() * -1.) + result.append(aNewLine) + allLines.extend(result) + + +def initContour(theNumLines): + prevPoint = (35, 0) + result = [] + deltaY = random.uniform(20, 25) + for i in xrange(1, theNumLines): + rangeXMax = (prevPoint[1] + deltaY) * (30. / i if i % 2 != 0 else 2) + newX = random.uniform(prevPoint[1] + deltaY, + max(rangeXMax, prevPoint[1] + deltaY + 25.)) + newPoint = (round(newX, 4), round(prevPoint[1] + deltaY, 4)) + result.append((prevPoint, newPoint)) + prevPoint = newPoint + # Close the contour + result.append((prevPoint, (prevPoint[1], prevPoint[1]))) + return result + + +def makeLinesCoincident(theSketch, allLines): + allPoints = collections.defaultdict(list) + for aLine in allLines: + aStartPoint = geomDataAPI_Point2D(aLine.attribute("StartPoint")) + anEndPoint = geomDataAPI_Point2D(aLine.attribute("EndPoint")) + aStartPointValue = (aStartPoint.x(), aStartPoint.y()) + anEndPointValue = (anEndPoint.x(), anEndPoint.y()) + allPoints[aStartPointValue].append(aStartPoint) + allPoints[anEndPointValue].append(anEndPoint) + for keyPoint, valuePoints in allPoints.iteritems(): + if len(valuePoints) != 2: + print "Strange point: ", keyPoint, "has in coincidence: ", len(valuePoints) + continue + aConstraint = theSketch.addFeature("SketchConstraintCoincidence") + aConstraint.refattr("ConstraintEntityA").setAttr(valuePoints[0]) + aConstraint.refattr("ConstraintEntityB").setAttr(valuePoints[1]) + + +#========================================================================= +# Initialization of the test +#========================================================================= + +__updated__ = "2014-11-27" + +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) +#========================================================================= +# 1 With the predefined contour or a new random generated in X0Y +# 2 Make complete contour using the diagonal, X and Y mirror symmetry +# 3 Link all lines in contour with coincidence +#========================================================================= +initialContour = [((35, 0), (134.8224, 22.0494)), ((134.8224, 22.0494), (71.987, 44.0988)), + ((71.987, 44.0988), (205.1448, 66.1482)), ((205.1448, 66.1482), (127.862, 88.1976)), + ((127.862, 88.1976), (416.861, 110.247)), ((416.861, 110.247), (233.0475, 132.2964)), + ((233.0475, 132.2964), (251.1518, 154.3458)), ((251.1518, 154.3458), (351.0993, 176.3952)), + ((351.0993, 176.3952), (432.3397, 198.4446)), ((432.3397, 198.4446), (223.3246, 220.494)), + ((223.3246, 220.494), (617.4069, 242.5434)), ((617.4069, 242.5434), (479.6524, 264.5928)), + ((479.6524, 264.5928), (453.5778, 286.6422)), ((453.5778, 286.6422), (541.3463, 308.6916)), + ((541.3463, 308.6916), (564.5509, 330.741)), ((564.5509, 330.741), (636.9284, 352.7904)), + ((636.9284, 352.7904), (383.5946, 374.8398)), ((383.5946, 374.8398), (403.3764, 396.8892)), + ((403.3764, 396.8892), (463.9447, 418.9386)), ((463.9447, 418.9386), (669.1751, 440.988)), + ((669.1751, 440.988), (602.2044, 463.0374)), ((602.2044, 463.0374), (942.0456, 485.0868)), + ((942.0456, 485.0868), (526.574, 507.1362)), ((526.574, 507.1362), (826.3619, 529.1856)), + ((826.3619, 529.1856), (576.9488, 551.235)), ((576.9488, 551.235), (624.5595, 573.2844)), + ((624.5595, 573.2844), (648.7146, 595.3338)), ((648.7146, 595.3338), (1194.6944, 617.3832)), + ((1194.6944, 617.3832), (646.6597, 639.4326)), ((646.6597, 639.4326), (839.8201, 661.482)), + ((839.8201, 661.482), (690.7487, 683.5314)), ((690.7487, 683.5314), (1350.2538, 705.5808)), + ((1350.2538, 705.5808), (731.0722, 727.6302)), ((731.0722, 727.6302), (1324.0992, 749.6796)), + ((1324.0992, 749.6796), (790.4873, 771.729)), ((790.4873, 771.729), (813.9883, 793.7784)), + ((813.9883, 793.7784), (828.9997, 815.8278)), ((828.9997, 815.8278), (1321.9798, 837.8772)), + ((1321.9798, 837.8772), (872.1503, 859.9266)), ((872.1503, 859.9266), (859.9266, 859.9266))] + +# Regenerate contour +# initialContour = initContour(40) +allLines = [] +for begin, end in initialContour: + aNewLine = aSketchFeature.addFeature("SketchLine") + aStartPoint = geomDataAPI_Point2D(aNewLine.attribute("StartPoint")) + anEndPoint = geomDataAPI_Point2D(aNewLine.attribute("EndPoint")) + aStartPoint.setValue(begin[0], begin[1]) + anEndPoint.setValue(end[0], end[1]) + allLines.append(aNewLine) +mirrorDiagonal(aSketchFeature, allLines) +mirrorX(aSketchFeature, allLines) +mirrorY(aSketchFeature, allLines) +makeLinesCoincident(aSketchFeature, allLines) +aSession.finishOperation() +#========================================================================= +# End of test +#=========================================================================