def setUp(self):
parser = Parser()
deck = parser.parse(test_path('spe3/SPE3CASE1.DATA'))
int_array = np.ones(324)
actnum_kw = DeckKeyword(parser["ACTNUM"], int_array)
deck.add(actnum_kw)
self.spe3 = EclipseState(deck)
self.props = self.spe3.field_props()
def test_parse_norne(self):
parse_context = ParseContext( [('PARSE_RANDOM_SLASH', opm.io.action.ignore)] )
deck = Parser().parse(self.norne_fname, parse_context)
es = EclipseState( deck )
self.assertEqual(46, es.grid().nx)
self.assertEqual(112, es.grid().ny)
self.assertEqual(22, es.grid().nz)
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_faults(self):
self.assertEquals([], 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 setUpClass(cls):
deck = Parser().parse(test_path('spe3/SPE3CASE1.DATA'))
print("Creating state")
cls.state = EclipseState(deck)
print("State OK")
cls.sch = Schedule(deck, cls.state)
cls.timesteps = cls.sch.timesteps
def test_all(self):
with pushd(self.data_dir):
self.deck = Parser().parse('SPE1CASE1.DATA')
state = EclipseState(self.deck)
self.schedule = Schedule(self.deck, state)
summary_config = SummaryConfig(self.deck, state, self.schedule)
self.unit_system = self.deck.active_unit_system()
self.assertTrue('PROD' in self.schedule)
self.assertTrue('INJ' in self.schedule)
self.assertEqual(dt.datetime(2015, 1, 1), self.schedule.start)
self.assertEqual(dt.datetime(2016, 1, 1), self.schedule.end)
self.sim = BlackOilSimulator(self.deck, state, self.schedule,
summary_config)
tsteps = self.schedule.timesteps
self.assertEqual(dt.datetime(2015, 1, 1), tsteps[0])
last_step = len(tsteps) - 1
self.assertEqual(dt.datetime(2016, 1, 1), tsteps[last_step])
self.sim.step_init()
report_step = 4
self.sim.advance(report_step=report_step)
well_name = "PROD"
prod = self.schedule.get_well(well_name, 2)
self.assertEqual(prod.status(), "OPEN")
#schedule.shut_well("PROD", 3)
#prod = schedule.get_well("PROD", 3)
#self.assertEqual(prod.status(), "SHUT")
self.subtest_modify_prod_weltarg_dynamically(
well_name, report_step)
self.sim.step()
report_step = self.sim.current_step()
well_name = "INJ"
self.subtest_modify_inj_weltarg_dynamically(well_name, report_step)
self.sim.advance(report_step=last_step)
self.sim.step_cleanup()
def test_well_names(self):
deck = Parser().parse(test_path('spe3/SPE3CASE1.DATA'))
state = EclipseState(deck)
sch = Schedule(deck, state)
wnames = sch.well_names("*")
self.assertTrue("PROD" in wnames)
self.assertTrue("INJ" in wnames)
self.assertEqual(len(wnames), 2)
def test_parse_with_multiple_recoveries(self):
recoveries = [("PARSE_RANDOM_SLASH", opm.io.action.ignore),
("FOO", opm.io.action.warn),
("PARSE_RANDOM_TEXT", opm.io.action.throw)]
parse_context = ParseContext(recoveries)
deck = Parser().parse(self.spe3fn, parse_context)
state = EclipseState(deck)
def parse(fname):
s = dt.now()
ps = ParseContext([('PARSE_RANDOM_SLASH', opm.io.action.ignore)])
deck = Parser().parse(fname, ps)
es = EclipseState(deck)
e = dt.now()
print('Parsing took %s sec' % (e - s).seconds)
return es
def main():
deck = parse(join(opmdatadir(), 'norne/NORNE_ATW2013.DATA'))
es = EclipseState(deck)
sc = Schedule(deck, es)
wp = sc.get_wells(100)[20]
wi = sc.get_wells(100)[19]
fn = es.faultNames()
f0 = fn[0]
fl = es.faultFaces(f0)
print('state: %s' % es)
print('schedule: %s' % sc)
print('the grid: %s' % es.grid())
print('at timestep 100 (%s)' % sc.timesteps[100])
print('prod well: %s' % wp)
print('inj well: %s' % wi)
print('pos: %s' % list(wp.pos()))
print('fault: %s' % f0)
print(' comprised of %d cells' % len(fl))
swof_krw(es)
def test_open_shut(self):
deck = Parser().parse(test_path('spe3/SPE3CASE1.DATA'))
state = EclipseState(deck)
sch = Schedule(deck, state)
prod = sch.get_well("PROD", 1)
self.assertEqual(prod.status(), "OPEN")
sch.shut_well("PROD", 10)
prod = sch.get_well("PROD", 10)
self.assertEqual(prod.status(), "SHUT")
def test_getitem(self):
deck = Parser().parse(test_path('spe3/SPE3CASE1.DATA'))
state = EclipseState(deck)
sch = Schedule(deck, state)
self.assertEqual(len(sch), 176)
with self.assertRaises(IndexError):
a = sch[200]
st100 = sch[100]
nupcol = st100.nupcol
def test_production_properties(self):
deck = Parser().parse(test_path('spe3/SPE3CASE1.DATA'))
state = EclipseState(deck)
sch = Schedule(deck, state)
report_step = 4
well_name = 'PROD'
prop = sch.get_production_properties(well_name, report_step)
self.assertEqual(prop['alq_value'], 0.0)
self.assertEqual(prop['bhp_target'], 500.0)
self.assertEqual(prop['gas_rate'], 6200.0)
self.assertEqual(prop['liquid_rate'], 0.0)
self.assertEqual(prop['oil_rate'], 0.0)
self.assertEqual(prop['resv_rate'], 0.0)
self.assertEqual(prop['thp_target'], 0.0)
self.assertEqual(prop['water_rate'], 0.0)
def main():
deck = Parser().parse('../tests/spe3/SPE3CASE1.DATA')
es = EclipseState(deck)
sc = Schedule(deck, es)
wp = sc.get_wells(0)[0] # producer
wi = sc.get_wells(0)[1] # injector
print('state: %s' % es)
print('schedule: %s' % sc)
print('prod well: %s' % wp)
print('inj well: %s' % wi)
for i in range(len(sc.timesteps)):
if not sc.get_wells(i)[0].isproducer() or sc.get_wells(i)[0].isinjector():
print('wp is not producer in step %s' % sc.timesteps[i])
if not sc.get_wells(i)[1].isinjector() or sc.get_wells(i)[1].isproducer():
print('wi is not injector in step %s' % sc.timesteps[i])
def test_injection_properties(self):
deck = Parser().parse(test_path('spe3/SPE3CASE1.DATA'))
state = EclipseState(deck)
sch = Schedule(deck, state)
report_step = 4
well_name = 'INJ'
prop = sch.get_injection_properties(well_name, report_step)
self.assertEqual(prop['surf_inj_rate'], 4700.0) # Mscf/day
self.assertEqual(prop['resv_inj_rate'], 0.0) # rb/day
self.assertEqual(prop['bhp_target'], 4000.0) # psi
self.assertEqual(prop['thp_target'], 0.0)
with self.assertRaises(IndexError):
prop = sch.get_injection_properties("UNDEF", report_step)
with self.assertRaises(KeyError):
prop = sch.get_injection_properties("PROD", report_step)
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_all(self):
with pushd(self.data_dir):
deck = Parser().parse('SPE1CASE1.DATA')
state = EclipseState(deck)
schedule = Schedule(deck, state)
summary_config = SummaryConfig(deck, state, schedule)
self.assertTrue('PROD' in schedule)
self.assertTrue('INJ' in schedule)
self.assertEqual(dt.datetime(2015, 1, 1), schedule.start)
self.assertEqual(dt.datetime(2016, 1, 1), schedule.end)
sim = BlackOilSimulator(deck, state, schedule, summary_config)
sim.step_init()
sim.step()
prod = schedule.get_well("PROD", 2)
self.assertEqual(prod.status(), "OPEN")
#schedule.shut_well("PROD", 3)
#prod = schedule.get_well("PROD", 3)
#self.assertEqual(prod.status(), "SHUT")
sim.step()
sim.step()
def setUp(self):
parser = Parser()
deck = parser.parse(test_path('spe3/SPE3CASE1.DATA'))
self.spe3 = EclipseState(deck)
self.props = self.spe3.props()
class TestProps(unittest.TestCase):
def assertClose(self, expected, observed, epsilon=1e-08):
diff = abs(expected - observed)
err_msg = '|%g - %g| = %g > %g' % (expected, observed, diff, epsilon)
self.assertTrue(diff <= epsilon, msg=err_msg)
def setUp(self):
parser = Parser()
deck = parser.parse(test_path('spe3/SPE3CASE1.DATA'))
self.spe3 = EclipseState(deck)
self.props = self.spe3.props()
def test_contains(self):
p = self.props
self.assertTrue('PORO' in p)
self.assertFalse('NONO' in p)
self.assertTrue('PORV' in p) # auto generated
def test_getitem(self):
p = self.props
poro = p['PORO']
self.assertEqual(324, len(poro))
self.assertEqual(0.13, poro[0])
self.assertTrue('PERMX' in p)
px = p['PERMX']
print(len(px))
self.assertEqual(324, len(px))
def test_permx_values(self):
def md2si(md):
#millidarcy->SI
return md * 1e-3 * 9.869233e-13
e3dp = self.props
grid = self.spe3.grid()
permx = e3dp['PERMX']
print('set(PERMX) = %s' % set(permx))
# 130mD, 40mD, 20mD, and 150mD, respectively, top to bottom
darcys = {0: md2si(130), 1: md2si(40), 2: md2si(20), 3: md2si(150)}
for i in range(grid.nx):
for j in range(grid.ny):
for k in range(grid.nz):
g_idx = grid.globalIndex(i, j, k)
perm = permx[g_idx]
darcy = darcys[k]
self.assertClose(darcy, perm)
def test_volume(self):
e3dp = self.props
grid = self.spe3.grid()
for i in range(grid.nx):
for j in range(grid.ny):
for k in range(grid.nz):
g_idx = grid.globalIndex(i, j, k)
exp = 293.3 * 293.3 * 30 # cubicfeet = 73 078.6084 cubic meter
exp *= (12 * 0.0254)**3 # cubic feet to cubic meter
if k == 0:
self.assertClose(exp, grid.getCellVolume(g_idx))
self.assertEqual(grid.getCellVolume(g_idx),
grid.getCellVolume(i, j, k))
def test_parse_with_recovery(self):
recovery = [("PARSE_RANDOM_SLASH", opm.io.action.ignore)]
parse_context = ParseContext(recovery)
deck = Parser().parse(self.spe3fn, parse_context)
state = EclipseState(deck)
def test_parse(self):
deck = Parser().parse(self.spe3fn)
state = EclipseState(deck)
self.assertEqual('SPE 3 - CASE 1', state.title)
def setUpClass(cls):
deck = Parser().parse(test_path('spe3/SPE3CASE1.DATA'))
state = EclipseState(deck)
cls.sch = Schedule(deck, state)
cls.timesteps = cls.sch.timesteps
def test_restart(self):
deck = Parser().parse(test_path('spe3/SPE3CASE1.DATA'))
state = EclipseState(deck)
sch = Schedule(deck, state)
rst = sch.restart
def test_open_shut(self):
deck = Parser().parse(test_path('spe3/SPE3CASE1.DATA'))
state = EclipseState(deck)
sch = Schedule(deck, state)
