def mats_to_alara(inp, output):
"""This function reads in MCNP inp file and prints out an ALARA matlib.
"""
if output in os.listdir("."):
os.remove(output)
mats = read_mcnp_inp(inp)
mat_count = 0 # number material objects
multi_count = 0 # number of mulimaterial objects
for mat in mats:
if isinstance(mat, Material):
mat.write_alara(output)
mat_count += 1
elif isinstance(mat, MultiMaterial):
for submat in mat._mats:
submat.write_alara(output)
multi_count += 1
# print out pseudovoid entry
with open(output, "a") as f:
f.write("pseudo_void 0 1\nhe 1 2")
print "{0} single density mats and {1} multi-density mats printed".format(mat_count, multi_count)
def mats_to_alara(inp, output):
"""This function reads in MCNP inp file and prints out an ALARA matlib.
"""
if output in os.listdir('.'):
os.remove(output)
mats = read_mcnp_inp(inp)
mat_count = 0 # number material objects
multi_count = 0 # number of mulimaterial objects
for mat in mats:
if isinstance(mat, Material):
mat.write_alara(output)
mat_count += 1
elif isinstance(mat, MultiMaterial):
for submat in mat._mats:
submat.write_alara(output)
multi_count += 1
#print out pseudovoid entry
with open(output, 'a') as f:
f.write('pseudo_void 0 1\nhe 1 2')
print '{0} single density mats and {1} multi-density mats printed'\
.format(mat_count, multi_count)
def test_read_mcnp():
expected_material = Material(nucvec={922350000: 0.04, 922380000: 0.96},
mass=-1.0,
density=19.1,
metadata={"comments": (
" first line of comments second line of "
"comments third line of comments forth "
"line of comments"),
"mat_number": "1",
"name": " leu",
"source": " Some http://URL.com",
"table_ids": {'922350': "15c"}})
expected_material.mass = -1.0 # to avoid reassignment to +1.0
expected_multimaterial = MultiMaterial({
Material(
{10000000: 0.11189838783149784, 80000000: 0.8881016121685023},
-1.0, 0.9, 3,
{"comments":
(" Here are comments the comments "
"continue here are more even more"),
"mat_number": "2",
"name": " water",
"source": " internet",
"table_ids": {'10000': "05c"}}): 1,
Material(
{10000000: 0.11189838783149784, 80000000: 0.8881016121685023},
-1.0,
1.0021552889223864, 3,
{"comments":
(" Here are comments the comments "
"continue here are more even more"),
"mat_number": "2",
"name": " water",
"source": " internet",
"table_ids": {'10000': "05c"}}): 1})
read_materials = read_mcnp_inp('mcnp_inp.txt')
assert_equal(expected_material, read_materials[0])
assert_equal(
list(expected_multimaterial._mats.keys())[0].comp,
list(read_materials[1]._mats.keys())[0].comp)
assert_equal(
list(expected_multimaterial._mats.keys())[0].mass,
list(read_materials[1]._mats.keys())[0].mass)
assert_equal(
list(expected_multimaterial._mats.keys())[0].density,
list(read_materials[1]._mats.keys())[0].density)
assert_equal(
list(expected_multimaterial._mats.keys())[0].atoms_per_molecule,
list(read_materials[1]._mats.keys())[0].atoms_per_molecule)
assert_equal(
list(expected_multimaterial._mats.keys())[0].metadata,
list(read_materials[1]._mats.keys())[0].metadata)
assert_equal(
list(expected_multimaterial._mats.keys())[1].comp,
list(read_materials[1]._mats.keys())[1].comp)
assert_equal(
list(expected_multimaterial._mats.keys())[1].mass,
list(read_materials[1]._mats.keys())[1].mass)
assert_equal(
list(expected_multimaterial._mats.keys())[1].density,
list(read_materials[1]._mats.keys())[1].density)
assert_equal(
list(expected_multimaterial._mats.keys())[1].atoms_per_molecule,
list(read_materials[1]._mats.keys())[1].atoms_per_molecule)
assert_equal(
list(expected_multimaterial._mats.keys())[1].metadata,
list(read_materials[1]._mats.keys())[1].metadata)
def test_read_mcnp():
expected_material = Material(nucvec={
922350000: 0.04,
922380000: 0.96
},
mass=-1.0,
density=19.1,
metadata={
"comments":
(" first line of comments second line of "
"comments third line of comments forth "
"line of comments"),
"mat_number":
"1",
"name":
" leu",
"source":
" Some http://URL.com",
"table_ids": {
'922350': "15c"
}
})
expected_material.mass = -1.0 # to avoid reassignment to +1.0
expected_multimaterial = MultiMaterial({
Material({
10000000: 0.11189838783149784,
80000000: 0.8881016121685023
}, -1.0, 0.9, 3, {
"comments": (" Here are comments the comments "
"continue here are more even more"),
"mat_number":
"2",
"name":
" water",
"source":
" internet",
"table_ids": {
'10000': "05c"
}
}):
1,
Material({
10000000: 0.11189838783149784,
80000000: 0.8881016121685023
}, -1.0, 1.0021552889223864, 3, {
"comments": (" Here are comments the comments "
"continue here are more even more"),
"mat_number":
"2",
"name":
" water",
"source":
" internet",
"table_ids": {
'10000': "05c"
}
}):
1
})
read_materials = read_mcnp_inp('mcnp_inp.txt')
assert_equal(expected_material, read_materials[0])
assert_equal(
list(expected_multimaterial._mats.keys())[0].comp,
list(read_materials[1]._mats.keys())[0].comp)
assert_equal(
list(expected_multimaterial._mats.keys())[0].mass,
list(read_materials[1]._mats.keys())[0].mass)
assert_equal(
list(expected_multimaterial._mats.keys())[0].density,
list(read_materials[1]._mats.keys())[0].density)
assert_equal(
list(expected_multimaterial._mats.keys())[0].atoms_per_molecule,
list(read_materials[1]._mats.keys())[0].atoms_per_molecule)
assert_equal(
list(expected_multimaterial._mats.keys())[0].metadata,
list(read_materials[1]._mats.keys())[0].metadata)
assert_equal(
list(expected_multimaterial._mats.keys())[1].comp,
list(read_materials[1]._mats.keys())[1].comp)
assert_equal(
list(expected_multimaterial._mats.keys())[1].mass,
list(read_materials[1]._mats.keys())[1].mass)
assert_equal(
list(expected_multimaterial._mats.keys())[1].density,
list(read_materials[1]._mats.keys())[1].density)
assert_equal(
list(expected_multimaterial._mats.keys())[1].atoms_per_molecule,
list(read_materials[1]._mats.keys())[1].atoms_per_molecule)
assert_equal(
list(expected_multimaterial._mats.keys())[1].metadata,
list(read_materials[1]._mats.keys())[1].metadata)
