#Test Name: SquareShelfConstrainedEnthalpyTran
from model import *
from triangle import *
from setmask import *
from parameterize import *
from setflowequation import *
from EnumDefinitions import *
from solve import *
from MatlabFuncs import *

md=triangle(model(),'../Exp/Square.exp',180000)
md=setmask(md,'all','')
md=parameterize(md,'../Par/SquareShelfConstrained.py')
md.extrude(3,1.)
md=setflowequation(md,'SSA','all')
md.cluster=generic('name',oshostname(),'np',3);
md.initialization.waterfraction=numpy.zeros((md.mesh.numberofvertices,1))
md.initialization.watercolumn=numpy.zeros((md.mesh.numberofvertices,1))
md.transient.isstressbalance=False
md.transient.ismasstransport=False
md.transient.issmb=False
md.transient.isthermal=True
md.transient.isgroundingline=False
md.thermal.isenthalpy=1
md.thermal.isdynamicbasalspc=1
md=solve(md,TransientSolutionEnum())

#Fields and tolerances to track changes
field_names     =['Enthalpy1','Waterfraction1','Temperature1',\
	'Enthalpy2','Waterfraction2','Temperature2',\
	'Enthalpy3','Waterfraction3','Temperature3']
field_tolerances=[1e-13,1e-13,1e-13,1e-13,1e-13,1e-13,1e-13,1e-9,1e-13]
field_values=[\
	md.results.TransientSolution[0].Enthalpy,\
	md.results.TransientSolution[0].Waterfraction,\
	md.results.TransientSolution[0].Temperature,\
	md.results.TransientSolution[1].Enthalpy,\
	md.results.TransientSolution[1].Waterfraction,\
	md.results.TransientSolution[1].Temperature,\
	md.results.TransientSolution[2].Enthalpy,\
	md.results.TransientSolution[2].Waterfraction,\
	md.results.TransientSolution[2].Temperature,\
	]