add new functions of executing the simulation according to the data from the front

main
ColsonZhang 2021-03-17 15:07:37 +08:00
parent 46d65a33b9
commit 5046ffb4cc
5 changed files with 89 additions and 16 deletions

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@ -59,6 +59,10 @@ app.py ----服务器的主程序
## 更新日志 ## 更新日志
* 2021年3月17号后端更新
* 新增根据前端传入的电路数据和仿真参数进行参数转换调用pyspice执行电路仿真
* 待解决:仿真结果传递回前端,进行可视化展示
* 2021年3月16号前端+后端更新 * 2021年3月16号前端+后端更新
* 新增成功将spice网表和simulation设置参数传入后端 * 新增成功将spice网表和simulation设置参数传入后端

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@ -1,4 +1,6 @@
import re
#----调用PySpice包---- #----调用PySpice包----
from PySpice.Doc.ExampleTools import find_libraries from PySpice.Doc.ExampleTools import find_libraries
from PySpice.Probe.Plot import plot from PySpice.Probe.Plot import plot
@ -19,35 +21,101 @@ class Simulator_CZ :
self.circuit = Circuit(title) self.circuit = Circuit(title)
def Get_Spice( spice ): def Get_Spice(self, spice ):
self.circuit.raw_spice += ".include D:\\Project_2020\\SPICE\\PySpice\\libraries\cmos\\180nm_cmos.mod" the_circuit = ".include D:\\Project_2020\\SPICE\\PySpice\\libraries\cmos\\180nm_cmos.mod \n"
self.circuit.raw_spice += spice the_circuit += spice
self.circuit.raw_spice = the_circuit
def Sim(sim_type,properties): def Sim(self, sim_type,properties):
parameter = self.Properties_Parse(sim_type,properties) parameter = self.Properties_Parse(sim_type,properties)
print("parameter:\n",parameter)
self.simulator = self.circuit.simulator(temperature=25, nominal_temperature=25) self.simulator = self.circuit.simulator(temperature=25, nominal_temperature=25)
# print('simulator:\n',self.simulator)
if(sim_type == 'transient'): if(sim_type == 'transient'):
self.analysis = self.simulator.transient(step_time = parameter['step_time'], self.analysis = self.simulator.transient(step_time = parameter['step_time'],
end_time = parameter['end_time'], end_time = parameter['end_time'],
start_time = parameter['start_time'], start_time = parameter['start_time'],
max_time = parameter['max_time'], max_time = parameter['max_time'],
use_initial_condition = parameter['use_initial_condition']) use_initial_condition = parameter['use_initial_condition'])
pass print(self.analysis)
return self.analysis
elif(sim_type == 'dc' ): elif(sim_type == 'dc' ):
pass pass
elif(sim_type == 'ac' ): elif(sim_type == 'ac' ):
pass pass
else: else:
pass pass
def Properties_Parse(sim_type,properties): # 属性解析
def Properties_Parse(self, sim_type,properties):
parameter = {} parameter = {}
if(sim_type == 'transient'): if(sim_type == 'transient'):
parameter["step_time"] = 0 parameter["step_time"] = self.unit_tran(properties["step_time"])
pass parameter["end_time"] = self.unit_tran(properties["end_time"])
parameter["start_time"] = self.unit_tran(properties["start_time"])
def unit_transform(value_raw): parameter["max_time"] = self.unit_tran(properties["max_time"])
parameter["use_initial_condition"] = self.unit_tran(properties["use_initial_condition"])
elif(sim_type == 'dc' ):
pass
elif(sim_type == 'ac' ):
pass
return parameter
# 单位转换函数
def unit_tran(self , value_raw):
# 匹配数字的正则表达式
regInt = '\d+'
regFloat = '^\d+\.\d+'
regNumber = regFloat + '|' + regInt
pattern_number = re.compile(regNumber)
# 匹配字符的正则表达式
regChars = '([a-z]+)'
pattern_char = re.compile(regChars, re.I)
# 进行数字和单位的提取
unit_chars = pattern_char.findall(value_raw)
unit_num = pattern_number.findall(value_raw)
# 进行格式转换
# 有单位时的情况
if(unit_chars != []):
the_unit = unit_chars[0]
if the_unit in ['true','TRUE','True']:
return True
elif the_unit in ['false','FALSE','False']:
return False
elif the_unit in ['none','NONE','None']:
return None
elif the_unit in ['us','US','uS','Us']:
if(unit_num != []):
the_num = float(unit_num[0])
else:
the_num = float(0)
return u_us(the_num)
elif the_unit in ['ms','MS','mS','Ms']:
if(unit_num != []):
the_num = float(unit_num[0])
else:
the_num = float(0)
return u_us(the_num)
# 无单位时的情况
else:
if(unit_num != []):
the_num = float(unit_num[0])
else:
the_num = float(0)
return the_num
pass pass

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@ -29,18 +29,19 @@ class SimulationHandler(AuthBaseHandler):
properties = properties_transform(properties_str) properties = properties_transform(properties_str)
print("sim type:",sim_type) # print("sim type:",sim_type)
print("property:",properties_str) # print("property:",properties_str)
print("spice :",spice) # print("spice :\n",spice)
# simulator = Simulator_CZ() simulator = Simulator_CZ()
# simulator.Get_Spice(spice) simulator.Get_Spice(spice)
analysis = simulator.Sim(sim_type,properties)
print('simulation finished !')
self.write("success") self.write("success")
def properties_transform(properties_str): def properties_transform(properties_str):
properties = {} properties = {}
attributes = properties_str.split(";") attributes = properties_str.split(";")