def test_add_edge(self): createRegion = RegionDefinition(1) with self.assertRaises(TypeError): createRegion.addEdge("Poly1") with self.assertRaises(TypeError): createRegion.addEdge(112)
def test_update(self): reg1 = RegionDefinition(1) reg2 = RegionDefinition(2) self.assertTrue(not reg1.hasPolygon()) reg1.addEdge(self.poly1) reg2.addEdge(self.poly2) self.assertTrue(reg1.hasPolygon()) region_kw = EclKW.create("REGIONS", self.grid.getGlobalSize(), EclTypeEnum.ECL_INT_TYPE) region_kw.assign(0) block_list1 = [] block_list2 = [] with self.assertRaises(NotImplementedError): block_list1 = reg1.findInternalBlocks( self.grid, reg1.splitFaultBlocks(self.grid, self.fault_blocks[0])) with self.assertRaises(NotImplementedError): block_list2 = reg2.findInternalBlocks( self.grid, reg2.splitFaultBlocks(self.grid, self.fault_blocks[0])) if block_list1: for block in block_list1: region_id = reg1.getRegionID() block.assignToRegion(region_id) for g in block.getGlobalIndexList(): region_kw[g] = region_id if block_list2: for block in block_list2: region_id = reg2.getRegionID() block.assignToRegion(region_id) for g in block.getGlobalIndexList(): region_kw[g] = region_id for j in range(4): for i in range(4): g1 = i + j * self.grid.getNX() g2 = i + 12 + (j + 12) * self.grid.getNX()
def test_create(self): with self.assertRaises(TypeError): regionDef = RegionDefinition("GG") with self.assertRaises(ValueError): regionDef = RegionDefinition.create(1, self.faults, ["Test", 1]) regionDef = RegionDefinition.create( 1, self.faults, ["DF28_LC", self.poly_file1, self.poly_file2])