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import unittest
from opm.io.parser import Parser
from opm.io.ecl_state import EclipseState
from opm.io.schedule import Schedule
from opm.io.summary import SummaryConfig
try:
from tests.utils import test_path
except ImportError:
from utils import test_path
class TestState2(unittest.TestCase):
FAULTS_DECK = """
RUNSPEC
DIMENS
10 10 10 /
GRID
DX
1000*0.25 /
DY
1000*0.25 /
DZ
1000*0.25 /
TOPS
100*0.25 /
PORO
1000*0.25 /
FAULTS
'F1' 1 1 1 4 1 4 'X' /
'F2' 5 5 1 4 1 4 'X-' /
/
MULTFLT
'F1' 0.50 /
'F2' 0.50 /
/
EDIT
MULTFLT /
'F2' 0.25 /
/
OIL
GAS
TITLE
The title
START
8 MAR 1998 /
PROPS
REGIONS
SWAT
1000*1 /
SATNUM
1000*2 /
\
"""
@classmethod
def setUpClass(cls):
parser = Parser()
cls.deck_cpa = parser.parse(test_path('data/CORNERPOINT_ACTNUM.DATA'))
cls.cp_state = EclipseState(cls.deck_cpa)
cls.deck_spe3 = parser.parse(test_path('spe3/SPE3CASE1.DATA'))
cls.state = EclipseState(cls.deck_spe3)
cls.schedule = Schedule(cls.deck_spe3, cls.state)
cls.summary_config = SummaryConfig(cls.deck_spe3, cls.state, cls.schedule)
def test_config(self):
cfg = self.state.config()
init = cfg.init()
self.assertTrue(init.hasEquil())
self.assertFalse(init.restartRequested())
self.assertEqual(0, init.getRestartStep())
def test_repr_title(self):
self.assertEqual('SPE 3 - CASE 1', self.state.title)
def test_state_nnc(self):
self.assertFalse(self.state.has_input_nnc())
def test_grid(self):
grid = self.state.grid()
self.assertEqual(9, grid.nx)
self.assertEqual(9, grid.ny)
self.assertEqual(4, grid.nz)
self.assertEqual(9*9*4, grid.nactive)
self.assertEqual(9*9*4, grid.cartesianSize)
g,i,j,k = 295,7,5,3
self.assertEqual(g, grid.globalIndex(i,j,k))
self.assertEqual((i,j,k), grid.getIJK(g))
def test_simulation(self):
sim = self.state.simulation()
self.assertFalse(sim.hasThresholdPressure())
self.assertFalse(sim.useCPR())
self.assertFalse(sim.useNONNC())
self.assertTrue(sim.hasDISGAS())
self.assertTrue(sim.hasVAPOIL())
def test_tables(self):
tables = self.state.tables()
self.assertTrue('SGOF' in tables)
self.assertTrue('SWOF' in tables)
self.assertFalse('SOF' in tables)
ct = self.cp_state.tables()
self.assertFalse('SGOF' in ct)
self.assertTrue('SWOF' in ct)
tab = 'SWOF'
col = 'KRW'
self.assertAlmostEqual(0.1345, self.state.tables().evaluate(tab, 0, col, 0.5))
self.assertAlmostEqual(0.39, self.state.tables().evaluate(tab, 0, col, 0.72))
with self.assertRaises(KeyError):
self.state.tables().evaluate(tab, 0, 'NO', 1)
def test_faults(self):
self.assertEqual([], self.state.faultNames())
parser = Parser()
faultdeck = parser.parse_string(self.FAULTS_DECK)
faultstate = EclipseState(faultdeck)
self.assertEqual(['F1', 'F2'], faultstate.faultNames())
# 'F2' 5 5 1 4 1 4 'X-' / \n"
f2 = faultstate.faultFaces('F2')
self.assertTrue((4,0,0,'X-') in f2)
self.assertFalse((3,0,0,'X-') in f2)
def test_jfunc(self):
# jf["FLAG"] = WATER; # set in deck
# jf["DIRECTION"] = XY; # default
# jf["ALPHA_FACTOR"] = 0.5 # default
# jf["BETA_FACTOR"] = 0.5 # default
# jf["OIL_WATER"] = 21.0 # set in deck
# jf["GAS_OIL"] = -1.0 # N/A
parser = Parser()
deck = parser.parse(test_path('data/JFUNC.DATA'))
js = EclipseState(deck)
self.assertEqual('JFUNC TEST', js.title)
jf = js.jfunc()
print(jf)
self.assertEqual(jf['FLAG'], 'WATER')
self.assertEqual(jf['DIRECTION'], 'XY')
self.assertFalse('GAS_OIL' in jf)
self.assertTrue('OIL_WATER' in jf)
self.assertEqual(jf['OIL_WATER'], 21.0)
self.assertEqual(jf["ALPHA_FACTOR"], 0.5) # default
self.assertEqual(jf["BETA_FACTOR"], 0.5) # default
jfunc_gas = """
DIMENS
10 10 10 /
ENDSCALE
/
GRID
DX
1000*0.25 /
DY
1000*0.25 /
DZ
1000*0.25 /
TOPS
100*0.25 /
PORO
1000*0.15 /
JFUNC
GAS * 13.0 0.6 0.7 Z /
PROPS\nREGIONS
"""
deck2 = parser.parse_string(jfunc_gas)
js_gas = EclipseState(deck2)
jf = js_gas.jfunc()
self.assertEqual(jf['FLAG'], 'GAS')
self.assertEqual(jf['DIRECTION'], 'Z')
self.assertTrue('GAS_OIL' in jf)
self.assertFalse('OIL_WATER' in jf)
self.assertEqual(jf['GAS_OIL'], 13.0)
self.assertEqual(jf["ALPHA_FACTOR"], 0.6) # default
self.assertEqual(jf["BETA_FACTOR"], 0.7) # default
def test_summary(self):
smry = self.summary_config
self.assertTrue('SummaryConfig' in repr(smry))
self.assertTrue('WOPR' in smry) # hasKeyword
self.assertFalse('NONO' in smry) # hasKeyword
if __name__ == "__main__":
unittest.main()
|
