def composer(temp_file_name):
"""
:param temp_file_name: path of a :class:`.tempfile` **.arb** that contains the information to generate a :class:`.Product` relative to the arborescense of a **.stp** file
For every node of the :class:`.Product` the attribute **doc_file_path** indicates where is store the file **.stp** that represents the node
"""
output = open(temp_file_name.encode(),"r")
product = Product.from_list(json.loads(output.read()))
output.close()
output = open(temp_file_name.encode(),"w+")# erase old data
output.close()
WS = XSControl_WorkSession()
my_step_importer = StepImporter(product.doc_path)
st = my_step_importer.shape_tool
lr = TDF_LabelSequence()
st.GetFreeShapes(lr)
add_labels(product, lr.Value(1), st)
writer = STEPCAFControl_Writer(WS.GetHandle(), False)
for i in range(lr.Length()):
writer.Transfer(lr.Value(i+1), STEPControl_AsIs)
writer.Write(temp_file_name)
def composer(temp_file_name):
"""
:param temp_file_name: path of a :class:`.tempfile` **.arb** that contains the information to generate a :class:`.Product` relative to the arborescense of a **.stp** file
For every node of the :class:`.Product` the attribute **doc_file_path** indicates where is store the file **.stp** that represents the node
"""
output = open(temp_file_name.encode(), "r")
product = Product.from_list(json.loads(output.read()))
output.close()
output = open(temp_file_name.encode(), "w+") # erase old data
output.close()
WS = XSControl_WorkSession()
my_step_importer = StepImporter(product.doc_path)
st = my_step_importer.shape_tool
lr = TDF_LabelSequence()
st.GetFreeShapes(lr)
add_labels(product, lr.Value(1), st)
writer = STEPCAFControl_Writer(WS.GetHandle(), False)
for i in range(lr.Length()):
writer.Transfer(lr.Value(i + 1), STEPControl_AsIs)
writer.Write(temp_file_name)
def dummy_compose(temp_file_name):
output = open(temp_file_name.encode(),"r")
product = Product.from_list(json.loads(output.read()))
output.close()
output = open(temp_file_name.encode(),"w+")# erase old data
output.close()
with open(temp_file_name, "w") as output:
c = Composer(product, output)
c.compose()
def dummy_compose(temp_file_name):
output = open(temp_file_name.encode(), "r")
product = Product.from_list(json.loads(output.read()))
output.close()
output = open(temp_file_name.encode(), "w+") # erase old data
output.close()
with open(temp_file_name, "w") as output:
c = Composer(product, output)
c.compose()
def decompose(path, temp_file_name):
"""
Decomposes a STEP file into several STEP files (one per unique assembly/part)
:param path: Path of a file **.stp**
:param temp_file_name: path of a :class:`.tempfile` **.arb** that contains the data required
to generate a :class:`.Product` relative to the arborescense of a **.stp** file
"""
output = open(temp_file_name.encode(), "r")
old_product = Product.from_list(json.loads(output.read()))
step_importer = StepImporter(path)
shape_tool = step_importer.shape_tool
product = step_importer.generate_product_arbre()
decompose_children(product, old_product, shape_tool)
write_step(product, old_product, shape_tool)
def decompose(path, temp_file_name):
"""
Decomposes a STEP file into several STEP files (one per unique assembly/part)
:param path: Path of a file **.stp**
:param temp_file_name: path of a :class:`.tempfile` **.arb** that contains the data required
to generate a :class:`.Product` relative to the arborescense of a **.stp** file
"""
output = open(temp_file_name.encode(),"r")
old_product = Product.from_list(json.loads(output.read()))
step_importer = StepImporter(path)
shape_tool = step_importer.shape_tool
product = step_importer.generate_product_arbre()
decompose_children(product, old_product, shape_tool)
write_step(product, old_product, shape_tool)
