now the program flow is working

2014-07-08 16:09:02 +00:00 · 2014-07-08 16:09:02 +00:00 · fdb4f2ffea
parent a1162e6fb4
commit fdb4f2ffea
1 changed files with 47 additions and 30 deletions
--- a/processing/misc/yieldSurface.py
+++ b/processing/misc/yieldSurface.py
@ -6,6 +6,8 @@ from scipy.optimize import curve_fit
 from scipy.linalg import svd
 import threading,time,os,subprocess,shlex
 import damask
 geomName='20grains16x16x16'
 popt1=np.ones(6,'d')
 def execute(cmd,dir='./'):
@ -30,11 +32,11 @@ def Hill48(x, F,G,H,L,M,N):
 def vonMises(x, S_y):
  sv=np.zeros(0,'d')
-  for i in xrange(np.shape(x)[1]):
+  for i in xrange(np.shape(x)[0]):
-    U, l, Vh = svd(np.array(x[:,i]).reshape(3,3))
+    U, l, Vh = svd(np.array(x[i,:]).reshape(3,3))
    sv = np.append(sv,l)
-  sv = sv.reshape(3,np.shape(x)[1])
+  sv = sv.reshape(np.shape(x)[0],3)
-  ooo= (sv[2,:]-sv[1,:])**2+(sv[1,:]-sv[0,:])**2+(sv[0,:]-sv[2,:])**2-2*S_y**2
+  ooo= (sv[:,2]-sv[:,1])**2+(sv[:,1]-sv[:,0])**2+(sv[:,0]-sv[:,2])**2-2*S_y**2
  return ooo
 #---------------------------------------------------------------------------------------------------
@ -85,13 +87,15 @@ class Criterion(object):
  def fit(self,stress):
    try:
-      popt, pcov = curve_fit(Hill48, stress, np.zeros(np.shape(stress)[1]))
+      spopt1, pcov = curve_fit(Hill48, stress, np.zeros(np.shape(stress)[1]),p0=popt1)
      popt = popt1
      print 'Hill 48', popt
      print Hill48(stress,popt[0],popt[1],popt[2],popt[3],popt[4],popt[5])
    except Exception as detail:
      print detail
      pass
-    popt, pcov = curve_fit(vonMises, stress, np.zeros(np.shape(stress)[1]))
+    #popt, pcov = curve_fit(vonMises, stress, np.zeros(np.shape(stress)[0]))
-    print 'von Mises', popt
+    #print 'von Mises', popt
 #---------------------------------------------------------------------------------------------------
@ -118,39 +122,53 @@ def doSim(delay,thread):
  s.acquire()
  me=getLoadcase()
-  print('generating loadcase for sim %i from %s'%(me,thread))
+  if not os.path.isfile('%s.load'%me):
-  f=open('%s.load'%me,'w')
+    print('generating loadcase for sim %s from %s'%(me,thread))
-  f.write(myLoad.getNext(me))
+    f=open('%s.load'%me,'w')
-  f.close()
+    f.write(myLoad.getNext(me))
-
+    f.close()
-  print('starting simulation %i from %s'%(me,thread))
+    s.release()
-  s.release()
+  else: s.release()
  execute('DAMASK_spectral -l %i -g 20grains16x16x16'%me)
  s.acquire()
-  print('startin post processing for sim %i from %s'%(me,thread))
+  if not os.path.isfile('%s_%s.spectralOut'%(geomName,me)):
    print('starting simulation %i from %s'%(me,thread))
    s.release()
    execute('DAMASK_spectral -l %i -g %i'%(me,geomName))
  else: s.release()
  s.acquire()
  if not os.path.isfile('./postProc/%s_%s.txt'%(geomName,me)):
    print('starting post processing for sim %i from %s'%(me,thread))
    s.release()
    execute('postResults --cr f,p %i_%i.spectralOut'%(geomName,me))
    execute('addCauchy ./postProc/%i_%i.txt'%(geomName,me))
    execute('addStrainTensors -l -v ./postProc/%i_%i.txt'%(geomName,me))
    execute('addMises -s Cauchy -e ln(V) ./postProc/%i_%i.txt'%(geomName,me))
  else: s.release()
  s.acquire()
  print('reading values for sim %i from %s'%(me,thread))
  s.release()
  execute('postResults --cr f,p 20grains16x16x16_%i.spectralOut'%me)
  execute('addCauchy ./postProc/20grains16x16x16_%i.txt'%me)
  execute('addStrainTensors -l -v ./postProc/20grains16x16x16_%i.txt'%me)
  execute('addMises -s Cauchy -e ln(V) ./postProc/20grains16x16x16_%i.txt'%me)
  refFile = open('./postProc/20grains16x16x16_%i.txt'%me)
  refFile = open('./postProc/20grains16x16x16_1.txt')
  table = damask.ASCIItable(refFile)
  table.head_read()
  for l in ['Mises(ln(V))','1_Cauchy']:
    if l not in table.labels: print '%s not found'%l
  while table.data_read():
    if float(table.data[table.labels.index('Mises(ln(V))')]) > 0.002:
-      yieldStress = np.array(table.data[table.labels.index('1_Cauchy'):table.labels.index('9_Cauchy')+1],'d').reshape(3,3)
+      yieldStress = np.array(table.data[table.labels.index('1_Cauchy'):table.labels.index('9_Cauchy')+1],'d')
  s.acquire()
-  print('startin fitting for sim %i from %s'%(me,thread))
+  print('starting fitting for sim %i from %s'%(me,thread))
  global stressAll
-  stressAll=np.append(stressAll,yieldStress.reshape(9))
+  stressAll=np.append(yieldStress,stressAll)
-  stressAll=stressAll.reshape(9,len(stressAll)//9)
+  for i in range(np.shape(stressAll.reshape(len(stressAll)//9,9).transpose())[1]):
-  myFit.fit(stressAll)
+    print i, stressAll.reshape(len(stressAll)//9,9).transpose()[:,i]
  myFit.fit(stressAll.reshape(len(stressAll)//9,9).transpose())
  s.release()
 def getLoadcase():
@ -169,13 +187,13 @@ def converged():
 # main
 minN_simulations=20
-maxN_simulations=20
+maxN_simulations=14
 N_simulations=0
 s=threading.Semaphore(1)
 scale = 0.02
 incs = 10
 duration = 10
-stressAll=np.zeros(0,'d')
+stressAll=np.zeros(0,'d').reshape(0,0)
 myLoad = Loadcase()
 myFit = Criterion('Hill48')
@ -189,5 +207,4 @@ for i in range(N_threads):
 for i in range(N_threads):
  t[i].join()
 print "Exiting Main Thread"