def test_colors():
pf = walnut()
axes = plantframe.compute_axes(pf.g, 3, pf.points, pf.origin)
axes[0][0].insert(0, pf.origin)
diameters = pf.algo_diameter()
g = pf.g
colors = defaultdict(
lambda x: (0, 255, 0),
list(
zip(list(range(8)), [((i & 2**0) * 255, ((i & 2**1) >> 1) * 255,
((i & 2**2) >> 2) * 255)
for i in range(8)])))
def my_color(vid):
return colors[g.order(vid)]
scene = plantframe.build_scene(pf.g,
pf.origin,
axes,
pf.points,
diameters,
10000,
option='cylinder',
colors=my_color)
return scene
def test5():
fn = r'data/test10_agraf.mtg'
drf = r'data/agraf.drf'
t = clock()
g = read_mtg_file(fn)
t1 = clock()
t, dt = t1, t1 - t
print('readmtg in ', dt)
topdia = lambda x: g.property('TopDia').get(x)
dressing_data = dresser.dressing_data_from_file(drf)
pf = plantframe.PlantFrame(g,
TopDiameter=topdia,
DressingData=dressing_data)
pf.propagate_constraints()
t1 = clock()
t, dt = t1, t1 - t
print('empty plantframe in ', dt)
diameters = pf.algo_diameter()
t1 = clock()
t, dt = t1, t1 - t
print('diameter in ', dt)
root = next(g.roots_iter(scale=g.max_scale()))
axes = plantframe.compute_axes(g, root, pf.points, pf.origin)
axes[0][0].insert(0, pf.origin)
t1 = clock()
t, dt = t1, t1 - t
print('points in ', dt)
scene = plantframe.build_scene(pf.g,
pf.origin,
axes,
pf.points,
diameters,
10000,
option='cylinder')
t1 = clock()
t, dt = t1, t1 - t
print('scene in ', dt)
return scene, pf
def test_colors():
pf = walnut()
axes = plantframe.compute_axes(pf.g,3, pf.points, pf.origin)
axes[0][0].insert(0,pf.origin)
diameters = pf.algo_diameter()
g = pf.g
colors =defaultdict(lambda x: (0,255,0),
zip(range(8), [ ((i&2**0)*255, ((i&2**1)>>1)*255, ((i&2**2)>>2)*255) for i in range(8)]))
def my_color(vid):
return colors[g.order(vid)]
scene=plantframe.build_scene(pf.g, pf.origin, axes, pf.points, diameters, 10000, option='cylinder', colors = my_color)
return scene
def test4():
fn = r'data/test9_noylum2.mtg'
drf = r'data/walnut.drf'
t = clock()
g = read_mtg_file(fn)
t1 = clock()
t, dt = t1, t1 - t
print('readmtg in ', dt)
topdia = lambda x: g.property('TopDia').get(x)
dressing_data = dresser.dressing_data_from_file(drf)
pf = plantframe.PlantFrame(g,
TopDiameter=topdia,
DressingData=dressing_data)
pf.propagate_constraints()
t1 = clock()
t, dt = t1, t1 - t
print('empty plantframe in ', dt)
diameters = pf.algo_diameter()
t1 = clock()
t, dt = t1, t1 - t
print('diameter in ', dt)
axes = plantframe.compute_axes(g, 3, pf.points, pf.origin)
axes[0][0].insert(0, pf.origin)
t1 = clock()
t, dt = t1, t1 - t
print('points in ', dt)
scene = plantframe.build_scene(pf.g, pf.origin, axes, pf.points, diameters,
10000)
t1 = clock()
t, dt = t1, t1 - t
print('scene in ', dt)
return scene, pf
def test5():
fn = r'data/test10_agraf.mtg'
drf = r'data/agraf.drf'
t=clock()
g = read_mtg_file(fn)
t1=clock(); t, dt = t1, t1-t
print 'readmtg in ', dt
topdia = lambda x: g.property('TopDia').get(x)
dressing_data = dresser.dressing_data_from_file(drf)
pf = plantframe.PlantFrame(g,
TopDiameter=topdia,
DressingData = dressing_data)
pf.propagate_constraints()
t1=clock(); t, dt = t1, t1-t
print 'empty plantframe in ', dt
diameters = pf.algo_diameter()
t1=clock(); t, dt = t1, t1-t
print 'diameter in ', dt
root = g.roots_iter(scale=g.max_scale()).next()
axes = plantframe.compute_axes(g,root, pf.points, pf.origin)
axes[0][0].insert(0,pf.origin)
t1=clock(); t, dt = t1, t1-t
print 'points in ', dt
scene=plantframe.build_scene(pf.g, pf.origin, axes, pf.points, diameters, 10000, option='cylinder')
t1=clock(); t, dt = t1, t1-t
print 'scene in ', dt
return scene, pf
def test4():
fn = r'data/test9_noylum2.mtg'
drf = r'data/walnut.drf'
t=clock()
g = read_mtg_file(fn)
t1=clock(); t, dt = t1, t1-t
print 'readmtg in ', dt
topdia = lambda x: g.property('TopDia').get(x)
dressing_data = dresser.dressing_data_from_file(drf)
pf = plantframe.PlantFrame(g,
TopDiameter=topdia,
DressingData = dressing_data)
pf.propagate_constraints()
t1=clock(); t, dt = t1, t1-t
print 'empty plantframe in ', dt
diameters = pf.algo_diameter()
t1=clock(); t, dt = t1, t1-t
print 'diameter in ', dt
axes = plantframe.compute_axes(g,3, pf.points, pf.origin)
axes[0][0].insert(0,pf.origin)
t1=clock(); t, dt = t1, t1-t
print 'points in ', dt
scene=plantframe.build_scene(pf.g, pf.origin, axes, pf.points, diameters, 10000)
t1=clock(); t, dt = t1, t1-t
print 'scene in ', dt
return scene, pf
