source: issm/trunk-jpl/test/NightlyRun/test333.py@ 22900

Last change on this file since 22900 was 22900, checked in by bdef, 7 years ago

NEW:deactivation of hydrologydc for frozen elements
File size: 3.4 KB
Line 
1#Test Name: SquareSheetHydrologyDCTwoLayers
2import numpy as np
3from model import *
4from socket import gethostname
5from triangle import *
6from setmask import *
7from parameterize import *
8from transient import *
9from setflowequation import *
10from solve import *
11from generic import generic
12
13md=triangle(model(),'../Exp/Square.exp',100000.)
14md=setmask(md,'','')
15md=parameterize(md,'../Par/IceCube.py')
16
17md.transient=transient.setallnullparameters(md.transient)
18md.transient.ishydrology=True
19md.transient.issmb=True
20md=setflowequation(md,'SSA','all')
21md.cluster=generic('name',gethostname(),'np',1)
22md.hydrology=hydrologydc()
23md.hydrology=md.hydrology.initialize(md)
24
25md.hydrology.isefficientlayer=1
26md.hydrology.sedimentlimit_flag=1
27md.hydrology.sedimentlimit=800.0
28md.hydrology.mask_thawed_node=np.ones((md.mesh.numberofvertices))
29md.initialization.sediment_head=np.zeros((md.mesh.numberofvertices))
30md.hydrology.spcsediment_head=np.nan*np.ones((md.mesh.numberofvertices))
31
32md.basalforcings.groundedice_melting_rate = 2.0*np.ones((md.mesh.numberofvertices))
33md.basalforcings.floatingice_melting_rate = 0.0*np.ones((md.mesh.numberofvertices))
34md.hydrology.sediment_transmitivity= 3.0*np.ones((md.mesh.numberofvertices))
35
36md.initialization.epl_head=np.zeros((md.mesh.numberofvertices))
37md.initialization.epl_thickness=np.ones((md.mesh.numberofvertices))
38md.hydrology.spcepl_head=np.nan*np.ones((md.mesh.numberofvertices))
39md.hydrology.mask_eplactive_node=np.zeros((md.mesh.numberofvertices))
40md.hydrology.epl_conductivity=30
41md.hydrology.epl_initial_thickness=1
42md.hydrology.epl_colapse_thickness=1.0e-3
43md.hydrology.epl_thick_comp=1
44md.hydrology.epl_max_thickness=1
45md.hydrology.steps_per_step=10
46md.timestepping.time_step=2.0
47md.timestepping.final_time=2.0
48
49md=solve(md,'Transient')
50
51#re-run with no substeps
52mdfine=copy.deepcopy(md)
53mdfine.result=[]
54mdfine.hydrology.steps_per_step=1
55mdfine.timestepping.time_step=0.2
56mdfine=solve(mdfine,'Transient')
57
58
59sedmean=mdfine.results.TransientSolution[0].SedimentHeadHydrostep
60eplmean=mdfine.results.TransientSolution[0].EplHeadHydrostep
61for i in range(1,10):
62 sedmean=sedmean+(mdfine.results.TransientSolution[i].SedimentHeadHydrostep)
63 eplmean=eplmean+(mdfine.results.TransientSolution[i].EplHeadHydrostep)
64
65field_names=['SedimentWaterHead1','EplWaterHead1','SedimentHeadResidual1',
66 'SedimentWaterHead4','EplWaterHead4','SedimentHeadResidual4',
67 'SedimentWaterHead5','EplWaterHead5','SedimentHeadResidual5',
68 'SedimentWaterHead9','EplWaterHead9','SedimentHeadResidual9',
69 'EplWaterHead10']
70field_tolerances=[1e-13, 1e-13, 1e-13,
71 1e-13, 1e-13, 1e-13,
72 1e-13, 5e-12, 1e-11,
73 1e-13, 5e-12, 1e-11,
74 1e-13]
75field_values=[mdfine.results.TransientSolution[0].SedimentHeadHydrostep,
76 mdfine.results.TransientSolution[0].EplHeadHydrostep,
77 mdfine.results.TransientSolution[0].SedimentHeadResidual,
78 mdfine.results.TransientSolution[3].SedimentHeadHydrostep,
79 mdfine.results.TransientSolution[3].EplHeadHydrostep,
80 mdfine.results.TransientSolution[3].SedimentHeadResidual,
81 mdfine.results.TransientSolution[4].SedimentHeadHydrostep,
82 mdfine.results.TransientSolution[4].EplHeadHydrostep,
83 mdfine.results.TransientSolution[4].SedimentHeadResidual,
84 mdfine.results.TransientSolution[8].SedimentHeadHydrostep,
85 mdfine.results.TransientSolution[8].EplHeadHydrostep,
86 mdfine.results.TransientSolution[8].SedimentHeadResidual,
87 md.results.TransientSolution[-1].EplHead]
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