Commit a4e03edf authored by Bichen Li's avatar Bichen Li

-Correct the file name, use comparison as function

parent 00cc7059
#!/usr/bin/python
# -*- coding: UTF-8 -*-
import re
from dataprocessing.readtools import *
from readin import read_timeseries_NEPLAN_loadflow1
# Read in original nepaln result file
file_Neplan = r"C:\Users\admin\Desktop\Slack_RxLine_PVNode\Slack_RxLine_PVNode.rlf"
# Read in original Modeliac result file
file_Modelica = r"C:\Users\admin\Desktop\Slack_RxLine_PVNode\Slack_RxLine_PVNode.mat"
result_neplan = read_timeseries_NEPLAN_loadflow1(file_Neplan)
result_modelica = read_timeseries_Modelica(file_Modelica)
# neplan result output
f_neplan = open(r"C:\Users\admin\Desktop\Slack_RxLine_PVNode\Slack_RxLine_PVNode_neplan.txt", "w")
# modelica result output
f_modelica = open(r"C:\Users\admin\Desktop\Slack_RxLine_PVNode\Slack_RxLine_PVNode_modelica.txt", "w")
# error result output
f_error = open(r"C:\Users\admin\Desktop\Slack_RxLine_PVNode\output_error_modelica-neplan.txt", "w")
list_del = []
for i in range(len(result_neplan)):
result_neplan[i].name = result_neplan[i].name.replace(' ', '')
result_neplan[i].name = result_neplan[i].name.upper()
if 'ANGLE' in result_neplan[i].name:
pass
else:
result_neplan[i].values = result_neplan[i].values * 1000 # unification of the unit,which is kV/kA in neplan
f_neplan.write('%s is %s \n' % (result_neplan[i].name, result_neplan[i].values[0])) # result as list of TimeSeries
for i in range(len(result_modelica)):
result_modelica[i].name = result_modelica[i].name.upper()
if 'ANGLE' in result_modelica[i].name:
result_modelica[i].values = result_modelica[i].values / cmath.pi * 180 # unification of the unit
f_modelica.write('%s is %s \n' % (result_modelica[i].name, result_modelica[i].values[1]))
timeseries_error = [] # list for error
len_limit = len(result_modelica)
for i in range(len(result_neplan)):
flag_NOT_found = False
for j in range(len_limit):
if result_neplan[i].name == result_modelica[j].name: # Find the same variable
timeseries_error.append(TimeSeries(result_neplan[i].name, result_modelica[j].time,
TimeSeries.rmse(result_modelica[j], result_neplan[i])))
j = len_limit + 1
flag_NOT_found = True
if not flag_NOT_found:
timeseries_error.append(TimeSeries(result_neplan[i].name, 0, -1))
# No such variable in Modelica model, set the error to -1
f_error.write('Error of %s is %f \n Base value'
' of %s is %s \n\n' % (timeseries_error[i].name, timeseries_error[i].values,
timeseries_error[i].name, result_neplan[i].values[0]))
#!/usr/bin/python
# -*- coding: UTF-8 -*-
import re
from dataprocessing.readtools import *
def compare_modelica_neplan(Net_Name):
# Read in original nepaln result file
file_Neplan = os.path.abspath("C:/Users/admin/Desktop/" + Net_Name + "/" + Net_Name + ".rlf")
# Read in original Modelica result file
file_Modelica = os.path.abspath("C:/Users/admin/Desktop/" + Net_Name + "/" + Net_Name + ".mat")
result_neplan = read_timeseries_NEPLAN_loadflow(file_Neplan)
result_modelica = read_timeseries_Modelica(file_Modelica)
# neplan result output
f_neplan = open(os.path.abspath("C:/Users/admin/Desktop/" + Net_Name + "/" + Net_Name + "_neplan.txt"), "w")
# modelica result output
f_modelica = open(os.path.abspath("C:/Users/admin/Desktop/" + Net_Name + "/" + Net_Name + "_modelica.txt"), "w")
# error result output
f_error = open(os.path.abspath("C:/Users/admin/Desktop/" + Net_Name + "/" + Net_Name +
"_error_modelica_neplan.txt"), "w")
list_del = []
for i in range(len(result_neplan)):
result_neplan[i].name = result_neplan[i].name.replace(' ', '')
result_neplan[i].name = result_neplan[i].name.upper()
if 'ANGLE' in result_neplan[i].name:
pass
else:
result_neplan[i].values = result_neplan[i].values * 1000 # unification of the unit,which is kV/kA in neplan
f_neplan.write(
'%s is %s \n' % (result_neplan[i].name, result_neplan[i].values[0])) # result as list of TimeSeries
for i in range(len(result_modelica)):
result_modelica[i].name = result_modelica[i].name.upper()
if 'ANGLE' in result_modelica[i].name:
result_modelica[i].values = result_modelica[i].values / cmath.pi * 180 # unification of the unit
f_modelica.write('%s is %s \n' % (result_modelica[i].name, result_modelica[i].values[1]))
timeseries_error = [] # list for error
len_limit = len(result_modelica)
for i in range(len(result_neplan)):
flag_NOT_found = False
for j in range(len_limit):
if result_neplan[i].name == result_modelica[j].name: # Find the same variable
timeseries_error.append(TimeSeries(result_neplan[i].name, result_modelica[j].time,
TimeSeries.rmse(result_modelica[j], result_neplan[i])))
j = len_limit + 1
flag_NOT_found = True
if not flag_NOT_found:
timeseries_error.append(TimeSeries(result_neplan[i].name, 0, -1))
# No such variable in Modelica model, set the error to -1
f_error.write('Error of %s is %f \n Base value'
' of %s is %s \n\n' % (timeseries_error[i].name, timeseries_error[i].values,
timeseries_error[i].name, result_neplan[i].values[0]))
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