if f.LorY == 3:
print 'Paramenters: E = %f, thickness a = %f' % (membrane_param.mem_E,
membrane_param.mem_a)
print '\nTotal elements : %i' % param.N
print 'Total equations: %i' % param.Neq
JtoCal = 4.184
#### Compute interactions
print '\nCompute interactions'
computeInter(surf_array, field_array, param, membrane_param)
#### Generate RHS
print '\nGenerate RHS'
F, F_sym, X_sym, Nblock = generateRHS(surf_array, field_array, membrane_param,
Neq, electricField)
print '\nRHS generated...'
#### Generate matrix
M, M_sym = generateMatrix(surf_array, Neq)
print '\nSymbolic system:\n'
counter = 0
for i in range(len(M_sym)):
for j in range(len(M_sym[i])):
counter += 1
buff = ''
for k in range(len(M_sym[i][j])):
for l in range(len(M_sym[i][j][k])):
buff += M_sym[i][j][k][l]
f.E.imag)
else:
print 'Parameters: kappa: %f, E: %f' % (f.kappa, f.E)
print '\nTotal elements : %i' % param.N
print 'Total equations: %i' % param.Neq
JtoCal = 4.184
#### Compute interactions
print '\nCompute interactions'
computeInter(surf_array, field_array, param)
#### Generate RHS
print '\nGenerate RHS'
F, F_sym, X_sym, Nblock = generateRHS(surf_array, field_array, Neq,
electricField)
print '\nRHS generated...'
#### Generate matrix
M, M_sym = generateMatrix(surf_array, Neq)
print '\nSymbolic system:\n'
counter = 0
for i in range(len(M_sym)):
for j in range(len(M_sym[i])):
counter += 1
buff = ''
for k in range(len(M_sym[i][j])):
for l in range(len(M_sym[i][j][k])):
buff += M_sym[i][j][k][l]
else:
print 'Parameters: kappa: %f, E: %f'%(f.kappa, f.E)
print '\nTotal elements : %i'%param.N
print 'Total equations: %i'%param.Neq
JtoCal = 4.184
#### Compute interactions
print '\nCompute interactions'
computeInter(surf_array, field_array, param)
#### Generate RHS
print '\nGenerate RHS'
F, F_sym, X_sym, Nblock = generateRHS(surf_array, field_array, Neq, electricField)
print '\nRHS generated...'
#### Generate matrix
M, M_sym = generateMatrix(surf_array, Neq)
print '\nSymbolic system:\n'
counter = 0
for i in range(len(M_sym)):
for j in range(len(M_sym[i])):
counter += 1
buff = ''
for k in range(len(M_sym[i][j])):
for l in range(len(M_sym[i][j][k])):
print 'Is an inner-most region'
print 'Parameters: kappa: %f, E: %f'%(f.kappa, f.E)
print '\nTotal elements : %i'%param.N
print 'Total equations: %i'%param.Neq
JtoCal = 4.184
#### Compute interactions
print '\nCompute interactions'
computeInter(surf_array, field_array, param)
#### Generate RHS
print '\nGenerate RHS'
F, F_sym, X_sym, Nblock = generateRHS(surf_array, field_array, Neq)
print '\nRHS generated...'
#### Generate matrix
M, M_sym = generateMatrix(surf_array, Neq)
print '\nSymbolic system:\n'
counter = 0
for i in range(len(M_sym)):
for j in range(len(M_sym[i])):
counter += 1
buff = ''
for k in range(len(M_sym[i][j])):
for l in range(len(M_sym[i][j][k])):
