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FEM: ccx writer, use better var name because of typo

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This commit is contained in:
Bernd Hahnebach
2020-04-24 16:55:47 +02:00
parent 45dac67211
commit a2b8aa6b23
1 changed files with 22 additions and 22 deletions
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44
src/Mod/Fem/femsolver/calculix/writer.py
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@@ -179,9 +179,9 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
self.write_footer(inpfileMain)
inpfileMain.close()
def write_mesh(self, splitted=None):
def write_mesh(self, inpfile_split=None):
# write mesh to file
if splitted is True:
if inpfile_split is True:
write_name = "femesh"
file_name_splitt = self.mesh_name + "_" + write_name + ".inp"
split_mesh_file_path = join(self.dir_name, file_name_splitt)
@@ -317,7 +317,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
for elid in ccx_elset["ccx_elset"]:
f.write(str(elid) + ",\n")
def write_node_sets_constraints_fixed(self, f, splitted=None):
def write_node_sets_constraints_fixed(self, f, inpfile_split=None):
if not self.fixed_objects:
return
# write for all analysis types
@@ -330,7 +330,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("** written by {} function\n".format(sys._getframe().f_code.co_name))
if splitted is True:
if inpfile_split is True:
file_name_splitt = self.mesh_name + "_" + write_name + ".inp"
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("*INCLUDE,INPUT={}\n".format(file_name_splitt))
@@ -361,7 +361,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
for n in femobj["Nodes"]:
f.write(str(n) + ",\n")
def write_node_sets_constraints_displacement(self, f, splitted=None):
def write_node_sets_constraints_displacement(self, f, inpfile_split=None):
if not self.displacement_objects:
return
# write for all analysis types
@@ -374,7 +374,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("** written by {} function\n".format(sys._getframe().f_code.co_name))
if splitted is True:
if inpfile_split is True:
file_name_splitt = self.mesh_name + "_" + write_name + ".inp"
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("*INCLUDE,INPUT={}\n".format(file_name_splitt))
@@ -394,7 +394,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
for n in femobj["Nodes"]:
f.write(str(n) + ",\n")
def write_node_sets_constraints_planerotation(self, f, splitted=None):
def write_node_sets_constraints_planerotation(self, f, inpfile_split=None):
if not self.planerotation_objects:
return
# write for all analysis types
@@ -407,7 +407,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("** written by {} function\n".format(sys._getframe().f_code.co_name))
if splitted is True:
if inpfile_split is True:
file_name_splitt = self.mesh_name + "_" + write_name + ".inp"
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("*INCLUDE,INPUT={}\n".format(file_name_splitt))
@@ -459,7 +459,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
for i in range(len(MPC_nodes)):
f.write(str(MPC_nodes[i]) + ",\n")
def write_surfaces_constraints_contact(self, f, splitted=None):
def write_surfaces_constraints_contact(self, f, inpfile_split=None):
if not self.contact_objects:
return
# write for all analysis types
@@ -472,7 +472,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("** written by {} function\n".format(sys._getframe().f_code.co_name))
if splitted is True:
if inpfile_split is True:
file_name_splitt = self.mesh_name + "_" + write_name + ".inp"
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("*INCLUDE,INPUT={}\n".format(file_name_splitt))
@@ -497,7 +497,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
for i in femobj["ContactMasterFaces"]:
f.write("{},S{}\n".format(i[0], i[1]))
def write_surfaces_constraints_tie(self, f, splitted=None):
def write_surfaces_constraints_tie(self, f, inpfile_split=None):
if not self.tie_objects:
return
# write for all analysis types
@@ -510,7 +510,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("** written by {} function\n".format(sys._getframe().f_code.co_name))
if splitted is True:
if inpfile_split is True:
file_name_splitt = self.mesh_name + "_" + write_name + ".inp"
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("*INCLUDE,INPUT={}\n".format(file_name_splitt))
@@ -535,7 +535,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
for i in femobj["TieMasterFaces"]:
f.write("{},S{}\n".format(i[0], i[1]))
def write_node_sets_constraints_transform(self, f, splitted=None):
def write_node_sets_constraints_transform(self, f, inpfile_split=None):
if not self.transform_objects:
return
# write for all analysis types
@@ -548,7 +548,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("** written by {} function\n".format(sys._getframe().f_code.co_name))
if splitted is True:
if inpfile_split is True:
file_name_splitt = self.mesh_name + "_" + write_name + ".inp"
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("*INCLUDE,INPUT={}\n".format(file_name_splitt))
@@ -571,7 +571,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
for n in femobj["Nodes"]:
f.write(str(n) + ",\n")
def write_node_sets_constraints_temperature(self, f, splitted=None):
def write_node_sets_constraints_temperature(self, f, inpfile_split=None):
if not self.temperature_objects:
return
if not self.analysis_type == "thermomech":
@@ -585,7 +585,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("** written by {} function\n".format(sys._getframe().f_code.co_name))
if splitted is True:
if inpfile_split is True:
file_name_splitt = self.mesh_name + "_" + write_name + ".inp"
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("*INCLUDE,INPUT={}\n".format(file_name_splitt))
@@ -1115,7 +1115,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
# different element sets for different density
# are written in the material element sets already
def write_constraints_force(self, f, splitted=None):
def write_constraints_force(self, f, inpfile_split=None):
if not self.force_objects:
return
if not (self.analysis_type == "static" or self.analysis_type == "thermomech"):
@@ -1129,7 +1129,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("** written by {} function\n".format(sys._getframe().f_code.co_name))
if splitted is True:
if inpfile_split is True:
file_name_splitt = self.mesh_name + "_" + write_name + ".inp"
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("*INCLUDE,INPUT={}\n".format(file_name_splitt))
@@ -1162,7 +1162,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
f.write("\n")
f.write("\n")
def write_constraints_pressure(self, f, splitted=None):
def write_constraints_pressure(self, f, inpfile_split=None):
if not self.pressure_objects:
return
if not (self.analysis_type == "static" or self.analysis_type == "thermomech"):
@@ -1176,7 +1176,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("** written by {} function\n".format(sys._getframe().f_code.co_name))
if splitted is True:
if inpfile_split is True:
file_name_splitt = self.mesh_name + "_" + write_name + ".inp"
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("*INCLUDE,INPUT={}\n".format(file_name_splitt))
@@ -1237,7 +1237,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
))
f.write("\n")
def write_constraints_heatflux(self, f, splitted=None):
def write_constraints_heatflux(self, f, inpfile_split=None):
if not self.heatflux_objects:
return
if not self.analysis_type == "thermomech":
@@ -1248,7 +1248,7 @@ class FemInputWriterCcx(writerbase.FemInputWriter):
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("** written by {} function\n".format(sys._getframe().f_code.co_name))
if splitted is True:
if inpfile_split is True:
file_name_splitt = self.mesh_name + "_" + write_name + ".inp"
f.write("** {}\n".format(write_name.replace("_", " ")))
f.write("*INCLUDE,INPUT={}\n".format(file_name_splitt))