def test():
from blenderneuron.quick import bn
with Blender(keep=False):
from neuron import h
h.load_file(test_hoc_file)
tc = h.TestCell()
ic = h.IClamp(0.5, sec=tc.soma)
ic.delay = 1
ic.dur = 3
ic.amp = 0.5
bn.prepare_for_collection()
h.run()
bn.to_blender()
bn.run_command("bpy.data.scenes['Scene'].frame_current = 1;")
self.assertTrue(
bn.run_command(
"return_value = bpy.data.materials['TestCell[0].dendrites[9][0]'].emit"
) == 0.0)
bn.run_command("bpy.data.scenes['Scene'].frame_current = 7;")
self.assertTrue(
bn.run_command(
"return_value = bpy.data.materials['TestCell[0].dendrites[9][0]'].emit"
) == 2.0)
def test():
from blenderneuron.quick import bn
with Blender(keep=False):
from neuron import h
h.load_file(test_hoc_file)
tc1 = h.TestCell()
tc2 = h.TestCell()
ic = h.IClamp(0.5, sec=tc1.soma)
ic.delay = 1
ic.dur = 3
ic.amp = 0.5
bn.prepare_for_collection()
bn.groups["all"]["3d_data"]["interaction_level"] = "Section"
bn.groups["all"]["3d_data"]["color_level"] = "Segment"
h.run()
bn.to_blender()
self.assertTrue(
bn.run_command(
"return_value = 'TestCell[0].soma' in bpy.data.objects"
))
self.assertTrue(
bn.run_command(
"return_value = 'TestCell[1].soma' in bpy.data.objects"
))
self.assertTrue(
bn.run_command(
"return_value = 'TestCell[0].soma[0]' in bpy.data.materials"
))
self.assertTrue(
bn.run_command(
"return_value = 'TestCell[1].soma[0]' in bpy.data.materials"
))
bn.run_command("bpy.data.scenes['Scene'].frame_current = 0")
self.assertEqual(
bn.run_command(
"return_value = bpy.data.materials['TestCell[0].soma[0]'].emit"
), 0.0)
self.assertEqual(
bn.run_command(
"return_value = bpy.data.materials['TestCell[1].soma[0]'].emit"
), 0.0)
bn.run_command("bpy.data.scenes['Scene'].frame_current = 7")
self.assertEqual(
bn.run_command(
"return_value = bpy.data.materials['TestCell[0].soma[0]'].emit"
), 2.0)
self.assertEqual(
bn.run_command(
"return_value = bpy.data.materials['TestCell[1].soma[0]'].emit"
), 0.0)