#################################################################################################### # # Invoking X3D model self-test: # # $ python Bench.py # # Python package x3d.py package is available on PyPI for import. # This approach simplifies Python X3D deployment and use. # https://pypi.org/project/x3d # # Installation: # pip install x3d # or # python -m pip install x3d # # Developer options for loading x3d package in other Python programs: # # from x3d import * # preferred approach, terser source that avoids x3d.* class prefixes # # or # import x3d # traditional way to subclass x3d package, all classes require x3d.* prefix, # # but python source is very verbose, for example x3d.Material x3d.Shape etc. # # X3dToPython.xslt stylesheet insertPackagePrefix=true supports this option. # #################################################################################################### from x3d import * newModel=X3D(profile='Interchange',version='3.3', head=head( children=[ meta(content='Bench.x3d',name='title'), meta(content='Bench for San Carlos Cathedral',name='description'), meta(content='Michele Foti',name='creator'), meta(content='8 March 2012',name='created'), meta(content='20 October 2019',name='modified'), meta(content='TODO.html',name='reference'), meta(content='http://www.sancarloscathedral.net',name='reference'), meta(content='RoyalPresidioChapelHistoricalReferences.pdf',name='reference'), meta(content='CulturalHeritageProjectSanCarlosCathedral.pdf',name='reference'), meta(content='originals/',name='reference'), meta(content='originals/ModelSanCarlosChurchFeb-3-2012.x3d',name='reference'), meta(content='https://www.web3d.org/x3d/content/examples/X3dForAdvancedModeling/SanCarlosCathedral/Bench.x3d',name='identifier'), meta(content='X3D-Edit 3.3, https://www.web3d.org/x3d/tools/X3D-Edit',name='generator'), meta(content='../license.html',name='license')]), Scene=Scene( children=[ WorldInfo(title='Bench.x3d'), Background(skyColor=[(1,1,1)]), Transform(DEF='piano',translation=(0,-0.03,0), children=[ Shape( geometry=Box(size=(2.35,0.03,0.383)), appearance=Appearance( material=Material(DEF='Brown',ambientIntensity=0.251748,diffuseColor=(0.502714,0.295535,0.191551),shininess=0.4,specularColor=(0.5,0.3,0.2))))]), Transform(DEF='piano2',translation=(0,-0.08,0), children=[ Shape( geometry=Box(size=(2.32,0.07,0.353)), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='gambe1f',translation=(-1.149,-0.1055,0.16), children=[ Shape( geometry=Box(size=(0.052,0.629,0.06)), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='gambe2f',translation=(1.149,-0.1055,0.16), children=[ Shape( geometry=Box(size=(0.052,0.629,0.06)), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='gambe1r',translation=(1.149,-0.1875,-0.16), children=[ Shape( geometry=Box(size=(0.052,0.445,0.06)), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='gambe2r',translation=(-1.149,-0.1875,-0.16), children=[ Shape( geometry=Box(size=(0.052,0.445,0.06)), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='gambe2rAlto',rotation=(1,0,0,-0.07),scale=(1,0.914,1),translation=(1.123,0.03,-0.19), children=[ Shape( geometry=IndexedFaceSet(convex=False,coordIndex=[0,1,2,3,-1,0,1,5,4,-1,2,3,7,6,-1,4,5,6,7,-1,0,3,7,4,-1,1,2,6,5,-1],creaseAngle=0.1745,solid=False, coord=Coordinate(point=[(0,0,0),(0.052,0,0),(0.052,0,0.06),(0,0,0.06),(0,0.44,0.01),(0.052,0.44,0.01),(0.052,0.44,0.05),(0,0.44,0.05)])), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='top',rotation=(1,0,0,-0.07),translation=(1.149,0.432,-0.188), children=[ Transform(rotation=(0,0,1,1.57105),scale=(1.5,1,0.77), children=[ Shape( geometry=Cylinder(height=0.052,radius=0.026), appearance=Appearance( material=Material(USE='Brown')))])]), Transform(DEF='gambe2rAltoOpp',rotation=(1,0,0,-0.07),scale=(1,0.914,1),translation=(-1.175,0.03,-0.19), children=[ Shape( geometry=IndexedFaceSet(convex=False,coordIndex=[0,1,2,3,-1,0,1,5,4,-1,2,3,7,6,-1,4,5,6,7,-1,0,3,7,4,-1,1,2,6,5,-1],creaseAngle=0.1745,solid=False, coord=Coordinate(point=[(0,0,0),(0.052,0,0),(0.052,0,0.06),(0,0,0.06),(0,0.44,0.01),(0.052,0.44,0.01),(0.052,0.44,0.05),(0,0.44,0.05)])), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='topOpp',rotation=(1,0,0,-0.07),translation=(-1.149,0.432,-0.188), children=[ Transform(rotation=(0,0,1,1.57105),scale=(1.5,1,0.77), children=[ Shape( geometry=Cylinder(height=0.052,radius=0.026), appearance=Appearance( material=Material(USE='Brown')))])]), Transform(DEF='Schienale1',rotation=(1,0,0,-0.07),scale=(1,0.6,0.9),translation=(1.123,0.065,-0.19), children=[ Shape( geometry=IndexedFaceSet(convex=False,coordIndex=[0,1,2,3,-1,0,1,5,4,-1,2,3,7,6,-1,4,5,6,7,-1,0,3,7,4,-1,1,2,6,5,-1],creaseAngle=0.1745,solid=False, coord=Coordinate(DEF='CoordinatePoints',point=[(0,0,0),(-2.29,0,0),(-2.29,0,0.06),(0,0,0.06),(0,0.44,0.01),(-2.29,0.44,0.01),(-2.29,0.44,0.05),(0,0.44,0.05)])), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='Schienale2',rotation=(1,0,0,-0.07),scale=(1,0.15,0.48),translation=(1.123,0.335,-0.195), children=[ Shape( geometry=IndexedFaceSet(convex=False,coordIndex=[0,1,2,3,-1,0,1,5,4,-1,2,3,7,6,-1,4,5,6,7,-1,0,3,7,4,-1,1,2,6,5,-1],creaseAngle=0.1745,solid=False, coord=Coordinate(USE='CoordinatePoints')), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='Schienale3',rotation=(1,0,0,-0.07),scale=(1,0.15,0.28),translation=(1.123,0.3,-0.18), children=[ Shape( geometry=IndexedFaceSet(convex=False,coordIndex=[0,1,2,3,-1,0,1,5,4,-1,2,3,7,6,-1,4,5,6,7,-1,0,3,7,4,-1,1,2,6,5,-1],creaseAngle=0.1745,solid=False, coord=Coordinate(USE='CoordinatePoints')), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='braccioli1',translation=(1.149,0.19,0.036), children=[ Shape( geometry=Box(size=(0.052,0.04,0.37)), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='braccioli2',rotation=(0,0,1,1.57105),scale=(1.06,1,1.2),translation=(1.149,0.1825,0.224), children=[ Shape( geometry=Cylinder(height=0.052,radius=0.026), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='braccioli1Opp',translation=(-1.149,0.19,0.036), children=[ Shape( geometry=Box(size=(0.052,0.04,0.37)), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='braccioli2Opp',rotation=(0,0,1,1.57105),scale=(1.06,1,1.2),translation=(-1.149,0.1825,0.224), children=[ Shape( geometry=Cylinder(height=0.052,radius=0.026), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='base1',translation=(-1.149,-0.4125,-0.17), children=[ Shape( geometry=Box(size=(0.06,0.045,0.06)), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='base2',translation=(-1.149,-0.4125,0.17), children=[ Shape( geometry=Box(size=(0.06,0.045,0.06)), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='base3Lungo',translation=(-1.149,-0.4075,0), children=[ Shape( geometry=Box(size=(0.06,0.035,0.3)), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='base12',translation=(1.149,-0.4125,-0.17), children=[ Shape( geometry=Box(size=(0.06,0.045,0.06)), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='base22',translation=(1.149,-0.4125,0.17), children=[ Shape( geometry=Box(size=(0.06,0.045,0.06)), appearance=Appearance( material=Material(USE='Brown')))]), Transform(DEF='base3Lungo2',translation=(1.149,-0.4075,0), children=[ Shape( geometry=Box(size=(0.06,0.035,0.3)), appearance=Appearance( material=Material(USE='Brown')))])]) ) # X3D model complete #################################################################################################### # Self-test diagnostics #################################################################################################### print('Self-test diagnostics for Bench.py:') if metaDiagnostics(newModel): # built-in utility method in X3D class print(metaDiagnostics(newModel)) # display meta info, hint, warning, error, TODO values in this model # print('check newModel.XML() serialization...') newModelXML= newModel.XML() # test export method XML() for exceptions during export newModel.XMLvalidate() # print(newModelXML) # diagnostic try: # print('check newModel.VRML() serialization...') newModelVRML=newModel.VRML() # test export method VRML() for exceptions during export # print(prependLineNumbers(newModelVRML)) # debug print("Python-to-VRML export of VRML output successful", flush=True) except Exception as err: # usually BaseException # https://stackoverflow.com/questions/18176602/how-to-get-the-name-of-an-exception-that-was-caught-in-python print("*** Python-to-VRML export of VRML output failed:", type(err).__name__, err) if newModelVRML: # may have failed to generate print(prependLineNumbers(newModelVRML, err.lineno)) try: # print('check newModel.JSON() serialization...') newModelJSON=newModel.JSON() # test export method JSON() for exceptions during export # print(prependLineNumbers(newModelJSON)) # debug print("Python-to-JSON export of JSON output successful (under development)") except Exception as err: # usually SyntaxError print("*** Python-to-JSON export of JSON output failed:", type(err).__name__, err) if newModelJSON: # may have failed to generate print(prependLineNumbers(newModelJSON,err.lineno)) print("python Bench.py load and self-test diagnostics complete.")