コード例 #1
0
def test_mtglpy_topvine():
    fn = path('vinemtg_n.lpy')
    if not fn.exists():
        return

    l = Lsystem(str(fn))
    parameters = {}
    parameters['carto_file'] = 'geom_n.dat'
    parameters['picle_file'] = 'vine_n.dat'
    parameters['TTfin'] = None

    #l.context().updateNamespace(parameters)

    c_iter = l.getLastIterationNb()
    nbstep = l.derivationLength - c_iter
    tree = l.iterate(l.axiom, c_iter, nbstep)

    scene = l.sceneInterpretation(tree)

    mtg = lpy2mtg(tree, l, scene)

    print(len(mtg))
    axial_tree = AxialTree()
    axial_tree = mtg2lpy(mtg, l, axial_tree)

    g = lpy2mtg(axial_tree, l, scene)

    assert len(g) == len(mtg)
    #axial_tree = mtg2axialtree(mtg, scale, parameters, axial_tree)

    # Check
    assert True
    return mtg, tree, axial_tree
コード例 #2
0
def test_mtglpy_topvine():
    fn = path('vinemtg_n.lpy')
    if not fn.exists():
        return

    l = Lsystem(str(fn))
    parameters = {}
    parameters['carto_file'] = 'geom_n.dat'
    parameters['picle_file'] = 'vine_n.dat'
    parameters['TTfin'] = None

    #l.context().updateNamespace(parameters)

    c_iter = l.getLastIterationNb()
    nbstep = l.derivationLength - c_iter
    tree = l.iterate(l.axiom,c_iter,nbstep)

    scene = l.sceneInterpretation(tree)

    mtg = lpy2mtg(tree, l, scene)

    print len(mtg)
    axial_tree = AxialTree()
    axial_tree = mtg2lpy(mtg, l, axial_tree)

    g = lpy2mtg(axial_tree, l, scene)

    assert len(g) == len(mtg)
    #axial_tree = mtg2axialtree(mtg, scale, parameters, axial_tree)
    
    # Check
    assert True
    return mtg, tree, axial_tree
コード例 #3
0
ファイル: test_manual_lpy.py プロジェクト: shiva16/openalea 
F(x) :
  produce  F(x/3.0)+F(x/3.0)--F(x/3.0)+F(x/3.0)

endlsystem


'''

lsystem.setCode(str(code), context)
lsystem.axiom = "_(0.01)-(90)F(1)"

print('\n----lsystem:')
print(lsystem)
print('\n----axialtree:', axialtree)

axialtree = lsystem.iterate(3)

print('\n----lsystem:')
print(lsystem)
print('\n----axialtree:', axialtree)

lsystem.getLastIterationNb()  # iterate 4 -> getLastIterationNb == 3
lsystem.derivationLength  # see keyword in lpy code

scene = lsystem.sceneInterpretation(axialtree)
print(scene)

world.add(scene, name='test')

# axialtree = adapt_axialtree(axialtree, lsystem)
コード例 #4
0
  produce  F(x/3.0)+F(x/3.0)--F(x/3.0)+F(x/3.0)

endlsystem


'''

lsystem.setCode(str(code), context)
lsystem.axiom = "_(0.01)-(90)F(1)"

print('\n----lsystem:')
print(lsystem)
print('\n----axialtree:', axialtree)

axialtree = lsystem.iterate(3)

print('\n----lsystem:')
print(lsystem)
print('\n----axialtree:', axialtree)


lsystem.getLastIterationNb()  # iterate 4 -> getLastIterationNb == 3
lsystem.derivationLength  # see keyword in lpy code

scene = lsystem.sceneInterpretation(axialtree)
print(scene)

world.add(scene, name='test')

# axialtree = adapt_axialtree(axialtree, lsystem)