/[escript]/trunk/esys2/finley/test/python/SimpleSolve.py
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revision 108 by jgs, Thu Jan 27 06:21:59 2005 UTC revision 148 by jgs, Tue Aug 23 01:24:31 2005 UTC
# Line 4  import sys Line 4  import sys
4  import os  import os
5  import unittest  import unittest
6    
7  from esys.escript import *  from escript.escript import *
8  from esys.linearPDEs import *  from escript.linearPDEs import *
9  from esys import finley  from finley import finley
10    
11  print "\nSimpleSolve.py"  print "\nSimpleSolve.py"
12  print "--------------"  print "--------------"
13    
14  alpha=0.01  alpha=0.07
15    error_tol=1.e-5
16    
17  # generate mesh  # generate mesh
18    
19  # print "\nGenerate mesh: finley.Rectangle(9,12,1)=>"  # print "\nGenerate mesh: finley.Rectangle(9,12,1)=>"
20  # mydomain=finley.Rectangle(1,1)  # mydomain=finley.Rectangle(140,140)
21    
22  # print "\nGenerate mesh: finley.Rectangle(4,4,1)=>"  # print "\nGenerate mesh: finley.Rectangle(4,4,1)=>"
23  # mydomain=finley.Rectangle(4,4,1)  mydomain=finley.Rectangle(190,190,1)
24    
25  print "\nGenerate mesh: finley.Rectangle(151,151,1)=>"  print "\nGenerate mesh: finley.Rectangle(151,151,1)=>"
26  mydomain=finley.Rectangle(151,151,1)  # mydomain=finley.Rectangle(151,151,1)
27    # mydomain=finley.Rectangle(128,128,1)
28    
29  print "\nSetup domain and functions"  print "\nSetup domain and functions"
30  print "--------------------------"  print "--------------------------"
# Line 59  print "mypde.checkSymmetry()" Line 61  print "mypde.checkSymmetry()"
61  print mypde.checkSymmetry()  print mypde.checkSymmetry()
62    
63  print "\nIterative Solver (1)=>"  print "\nIterative Solver (1)=>"
64  u_i=mypde.getSolution()  # u_i=mypde.getSolution(preconditioner=ILU0,iter_max=3000)
65    u_i=mypde.getSolution(iter_max=3000)
66    
67  print "\nDirect Solver (1)=>"  print "\nDirect Solver (1)=>"
68  mypde.setSolverMethod(DIRECT)  mypde.setSolverMethod(mypde.DIRECT)
69  u_d=mypde.getSolution()  u_d=mypde.getSolution()
70    
   
71  print "\n***************************************************************"  print "\n***************************************************************"
72  error=u_ex-u_d  error=u_ex-u_d
73  print "norm of the error for direct solver is   : ",error.Lsup()/norm_u_ex  error_norm=error.Lsup()/norm_u_ex
74    print "norm of the error for direct solver is   : ",error_norm
75    if error_norm > error_tol:
76      print "### error norm exceeded maximum tolerance ###"
77      sys.exit(1)
78  error=u_ex-u_i  error=u_ex-u_i
79  print "norm of the error for iterative solver is: ",error.Lsup()/norm_u_ex  error_norm=error.Lsup()/norm_u_ex
80    print "norm of the error for iterative solver is: ",error_norm
81    if error_norm > error_tol:
82      print "### error norm exceeded maximum tolerance ###"
83      sys.exit(1)
84  print "***************************************************************"  print "***************************************************************"
85    
86  # get handles to nodes and elements 2  # get handles to nodes and elements 2
# Line 99  print "----------------------------" Line 109  print "----------------------------"
109    
110  print "\nDirect Solver (2)=>"  print "\nDirect Solver (2)=>"
111    
112    #mypde.setSymmetryOn()
113    mypde.setTolerance(1.e-13)
114    
115  # mypde.setSymmetryOn() : is not woking yet!  # mypde.setSymmetryOn() : is not woking yet!
116  mypde.setSolverMethod(mypde.DIRECT)  mypde.setSolverMethod(mypde.DIRECT)
117  u_d=mypde.getSolution()  u_d=mypde.getSolution()
# Line 106  u_d=mypde.getSolution() Line 119  u_d=mypde.getSolution()
119  print "\nIterative Solver (2)=>"  print "\nIterative Solver (2)=>"
120    
121  mypde.setSymmetryOn()  mypde.setSymmetryOn()
122  mypde.setSolverMethod(DEFAULT_METHOD)  mypde.setSolverMethod(mypde.DEFAULT_METHOD)
123  u_i=mypde.getSolution()  u_i=mypde.getSolution(iter_max=3000)
124    
125  print "\n******************************************************************"  print "\n******************************************************************"
126  error=u_ex-u_d  error=u_ex-u_d
127  print "norm of the error for direct solver is   : ",error.Lsup()/norm_u_ex  error_norm=error.Lsup()/norm_u_ex
128    print "norm of the error for direct solver is   : ",error_norm
129    if error_norm > error_tol:
130      print "### error norm exceeded maximum tolerance ###"
131      sys.exit(1)
132  error=u_ex-u_i  error=u_ex-u_i
133  print "norm of the error for iterative solver is: ",error.Lsup()/norm_u_ex  error_norm=error.Lsup()/norm_u_ex
134    print "norm of the error for iterative solver is: ",error_norm
135    if error_norm >  error_tol:
136      print "### error norm exceeded maximum tolerance ###"
137      sys.exit(1)
138  print "******************************************************************"  print "******************************************************************"
139    
140  print "\n-----"  print "\n-----"
141  print "Done."  print "Done."
142  print "-----"  print "-----"
143    
144    sys.exit(0)

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