import unittest import opm.io from opm.io.parser import Parser from opm.io.ecl_state import EclipseState 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('tests/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)) if __name__ == "__main__": unittest.main()