####################################################################################################
#
# Invoking X3D model self-test:
#
#   $ python Icosahedron.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.
#
# Project home page:    # X3D Python Scene Access Interface Library (X3DPSAIL)
#                       # https://www.web3d.org/x3d/stylesheets/python/python.html
# Conversion generator: # https://www.web3d.org/x3d/stylesheets/X3dToPython.xslt
#
####################################################################################################

from x3d import *

newModel=X3D(profile='Interchange',version='3.1',
  head=head(
    children=[
    meta(content='Icosahedron.x3d',name='title'),
    meta(content='Icosahedron is a polyhedron with 12 vertices and, 20 faces, where a regular icosahedron is a Platonic solid. All faces are regular (equilateral) triangles. In comparison to the other icosahedra examples, this this default Icosahedron can be considered at level 0, meaning that no further subdivision has occurred from the platonic solid.',name='description'),
    meta(content='13 September 2014',name='created'),
    meta(content='20 October 2019',name='modified'),
    meta(content='Don Brutzman',name='creator'),
    meta(content='Icosahedron.ply',name='reference'),
    meta(content='https://en.wikipedia.org/wiki/Icosahedron',name='reference'),
    meta(content='https://en.wiktionary.org/wiki/icosahedron',name='reference'),
    meta(content='https://en.wikipedia.org/wiki/Platonic_solid',name='reference'),
    meta(content='https://en.wikipedia.org/wiki/Geodesic_grid',name='reference'),
    meta(content='http://www.kjmaclean.com/Geometry/Icosahedron.html',name='reference'),
    meta(content='http://polyhedra.org/poly/show/4/icosahedron',name='reference'),
    meta(content='http://www.georgehart.com/virtual-polyhedra/vp.html',name='reference'),
    meta(content='https://www.web3d.org/x3d/content/examples/X3dForAdvancedModeling/GeometricShapes/Icosahedron.x3d',name='identifier'),
    meta(content='Meshlab X3D Exported, http://meshlab.sourceforge.net',name='generator'),
    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='Icosahedron.x3d'),
    Background(skyColor=[(0.5,1,0.9)]),
    Viewpoint(description='Icosahedron',position=(0,0,6)),
    Shape(DEF='Icosahedron',
      geometry=IndexedFaceSet(coordIndex=[0,1,2,-1,1,0,3,-1,4,5,6,-1,5,4,7,-1,2,6,8,-1,6,2,9,-1,3,7,10,-1,7,3,11,-1,9,10,4,-1,10,9,1,-1,8,11,0,-1,11,8,5,-1,1,9,2,-1,1,3,10,-1,0,2,8,-1,0,11,3,-1,4,6,9,-1,4,10,7,-1,5,8,6,-1,5,7,11,-1],solid=False,
        coord=Coordinate(point=[(0,1.61803,-1),(0,1.61803,1),(1.61803,1,0),(-1.61803,1,0),(0,-1.61803,1),(0,-1.61803,-1),(1.61803,-1,0),(-1.61803,-1,0),(1,0,-1.61803),(1,0,1.61803),(-1,0,1.61803),(-1,0,-1.61803)])),
      appearance=Appearance(
        material=Material(diffuseColor=(0.2,0.5,0.8))))])
)

### X3D model conversion complete ###

####################################################################################################
# Self-test diagnostics
####################################################################################################

print('Self-test diagnostics for Icosahedron.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 Icosahedron.py load and self-test diagnostics complete.")