-import sys
-import os
-import os.path
-import subprocess
-import io
-import time
-import math
-import shutil
-import datetime
-
-
-#Parameter:
-#a = 7.5, b = 237.3 fuer T >= 0
-#a = 7.6, b = 240.7 fuer T < 0 ueber Wasser (Taupunkt)
-#a = 9.5, b = 265.5 fuer T < 0 ueber Eis (Frostpunkt)
-a=7.5
-b=237.3
-Rs = 8314.3 #J/(kmol*K) (universelle Gaskonstante)
-mw = 18.016 #kg/kmol (Molekulargewicht des Wasserdampfes)
-
-def SDD(T):
- return 6.1078 * 10**((a*T)/(b+T))
-
-def AF1(r,T):
- return r/100.0*SDD(T)/(T+273.15)*mw/Rs*10000
-
-def RF1(a,T):
- return a*100/(SDD(T)/(T+273.15)*mw/Rs*10000)
-#print(0.5*SDD(20)/(20+273.15)*mw/Rs*10000)
-
-def rdiff(r1,t1,t2):
- return (r1)-RF1(AF1(r1,t1),t2)
-
-
-def calcDerivation(Name,Valuetype,Value,T):
- return [0.5,0.5]
-
-
-devdict={}
-devwholist=[]
-f=open("DEVLIST.txt","r")
-for l in f.readlines():
- ls=l.split(" ")
- if (len(ls)>1):
- devdict[ls[0]]=l.replace("\n","").split(",")[0].split(" ")[1]
- devwholist.append(ls[0])
-f.close()
-
-sel_list=["Temperatur","Luftfeuchte","Beleuchtungsstaerke","R0","VOC","RS","Corr"]
-data=[]
-for s in sel_list:
- data.append(["Time"])
-
-for ds in devwholist: #fuer Jedes Geraet in DEVLIST.txt
- fname="log_%s.ow1" %(ds) #Sind Daten da?
- if os.path.exists(fname):
- f=open(fname,"r") #Lesen
- lines=f.readlines()
- ti=lines[0][:-1].split("\t") #Ueberschriften aufteilen
- i=0
- if ("Temperatur" in ti):
- tempindex=ti.index("Temperatur")
- for t in ti: #fuer jedes Element in der Ueberschrift
- if t in sel_list: #schauen ob es Uebernommen werden soll
- p=sel_list.index(t) #schaue nach Nummer in der Datenbank
- data[p][0]=data[p][0]+","+ds+" "+devdict[ds] #hinzufuegen der Ueberschrift in der Tabelle
- if len(data[p])==1: #erstes Element, Time einfuegen und neue zeile anlegen
- for l in lines[1:]:
- l=l[:-1]
- ll=l.split("\t")
- la=ll[0].split(" ")
- lb=la[0].split(".")
- ts=lb[2]+"/"+lb[1]+"/"+lb[0]+" "+la[1]
- data[p].append(ts)
- j=1;
- for l in lines[1:]:
- #print(ll)
- l=l[:-1] #\n wegmachen
- ll=l.split("\t") #telen
- fl=float(ll[i].replace(",","."))
- if "VOC" in devdict[ds] or "Lum" in devdict[ds]:
- if (t=="Temperatur"):
- ltemp=fl
- fl=fl-1
- if (t=="Luftfeuchte"):
- ltemp=float(ll[tempindex].replace(",","."))
- fl=fl-rdiff(fl,ltemp,ltemp-1)
- data[p][j]=data[p][j]+",%0.2f" % (fl)
- j=j+1
- i=i+1
- f.close()
-
-
-#print data
-
-for i in range(len(sel_list)):
- f=open("/var/www/html/"+sel_list[i]+".csv","w")
- for l in data[i]:
- f.write(l+"\n")
- f.close()
-
-
-
+import sys\r
+import os\r
+import os.path\r
+import subprocess\r
+import io\r
+import time\r
+import math\r
+import shutil\r
+import datetime\r
+\r
+\r
+#Parameter:\r
+#a = 7.5, b = 237.3 fuer T >= 0\r
+#a = 7.6, b = 240.7 fuer T < 0 ueber Wasser (Taupunkt)\r
+#a = 9.5, b = 265.5 fuer T < 0 ueber Eis (Frostpunkt)\r
+a=7.5\r
+b=237.3\r
+Rs = 8314.3 #J/(kmol*K) (universelle Gaskonstante)\r
+mw = 18.016 #kg/kmol (Molekulargewicht des Wasserdampfes)\r
+\r
+def SDD(T):\r
+ return 6.1078 * 10**((a*T)/(b+T))\r
+ \r
+def AF1(r,T):\r
+ return r/100.0*SDD(T)/(T+273.15)*mw/Rs*10000\r
+\r
+def RF1(a,T):\r
+ return a*100/(SDD(T)/(T+273.15)*mw/Rs*10000) \r
+#print(0.5*SDD(20)/(20+273.15)*mw/Rs*10000)\r
+\r
+def rdiff(r1,t1,t2):\r
+ return (r1)-RF1(AF1(r1,t1),t2)\r
+\r
+\r
+def calcDerivation(Name,Valuetype,Value,T):\r
+ return [0.5,0.5]\r
+\r
+\r
+devdict={}\r
+devwholist=[]\r
+f=open("DEVLIST.txt","r")\r
+for l in f.readlines():\r
+ ls=l.split(" ")\r
+ if (len(ls)>1):\r
+ devdict[ls[0]]=l.replace("\n","").split(",")[0].split(" ")[1]\r
+ devwholist.append(ls[0])\r
+f.close()\r
+\r
+sel_list=["Temperatur","Luftfeuchte","Beleuchtungsstaerke","R0","VOC","RS","Corr"]\r
+data=[]\r
+for s in sel_list:\r
+ data.append(["Time"])\r
+\r
+for ds in devwholist: #fuer Jedes Geraet in DEVLIST.txt\r
+ fname="log_%s.ow1" %(ds) #Sind Daten da?\r
+ if os.path.exists(fname):\r
+ f=open(fname,"r") #Lesen\r
+ lines=f.readlines()\r
+ ti=lines[0][:-1].split("\t") #Ueberschriften aufteilen\r
+ i=0\r
+ if ("Temperatur" in ti):\r
+ tempindex=ti.index("Temperatur")\r
+ for t in ti: #fuer jedes Element in der Ueberschrift\r
+ if t in sel_list: #schauen ob es Uebernommen werden soll\r
+ p=sel_list.index(t) #schaue nach Nummer in der Datenbank\r
+ data[p][0]=data[p][0]+","+ds+" "+devdict[ds] #hinzufuegen der Ueberschrift in der Tabelle\r
+ if len(data[p])==1: #erstes Element, Time einfuegen und neue zeile anlegen\r
+ for l in lines[1:]:\r
+ l=l[:-1]\r
+ ll=l.split("\t")\r
+ la=ll[0].split(" ")\r
+ lb=la[0].split(".")\r
+ ts=lb[2]+"/"+lb[1]+"/"+lb[0]+" "+la[1]\r
+ data[p].append(ts)\r
+ j=1;\r
+ for l in lines[1:]:\r
+ #print(ll)\r
+ l=l[:-1] #\n wegmachen\r
+ ll=l.split("\t") #telen\r
+ fl=float(ll[i].replace(",","."))\r
+ if "VOC" in devdict[ds] or "Lum" in devdict[ds]:\r
+ if (t=="Temperatur"):\r
+ ltemp=fl\r
+ fl=fl-1\r
+ if (t=="Luftfeuchte"):\r
+ ltemp=float(ll[tempindex].replace(",","."))\r
+ fl=fl-rdiff(fl,ltemp,ltemp-1)\r
+ data[p][j]=data[p][j]+",%0.2f" % (fl)\r
+ j=j+1\r
+ i=i+1\r
+ f.close() \r
+ \r
+ \r
+#print data\r
+\r
+for i in range(len(sel_list)):\r
+ f=open("/var/www/html/"+sel_list[i]+".csv","w")\r
+ for l in data[i]:\r
+ f.write(l+"\n")\r
+ f.close()\r
+\r
+ \r
+\r