/[thuban]/branches/WIP-pyshapelib-bramz/test/test_transientdb.py

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-trunk/thuban/test/test_transientdb.py
revision 805 by jan,
Fri May  2 16:42:35 2003 UTC
+branches/WIP-pyshapelib-bramz/test/test_transientdb.py
revision 2734 by bramz,
Thu Mar  1 12:42:59 2007 UTC
 Line 1
- # Copyright (c) 2002, 2003 by Intevation GmbH
+ # Copyright (c) 2002, 2003, 2006 by Intevation GmbH
  # Authors:
  # Bernhard Herzog <[email protected]>
  #
 Line 19 
 import unittest
  import support
  support.initthuban()
+ import dbflib
  from Thuban.Model.table import DBFTable, MemoryTable, FIELDTYPE_STRING, \
-                                FIELDTYPE_INT
+                                FIELDTYPE_INT, FIELDTYPE_DOUBLE, table_to_dbf
  from Thuban.Model.transientdb import TransientDatabase, TransientTable, \
       TransientJoinedTable, AutoTransientTable
-Line 42 
 class TestTransientTable(unittest.TestCa
+Line 43 
 class TestTransientTable(unittest.TestCa
          self.transientdb.close()
      def run_iceland_political_tests(self, table):
-         """Run some tests on tablte
+         """Run some tests on table
          Assume that table holds the data of the file
          ../Data/iceland/political.dbf sample file.
          """
-         self.assertEquals(table.record_count(), 156)
+         self.assertEquals(table.NumRows(), 156)
-         self.assertEquals(table.field_count(), 8)
+         self.assertEquals(table.NumColumns(), 8)
-         # Check one each of the possible field types. The width and
+         # Check one each of the possible field types.
-         # decimal precision is always 0.
+         columns = table.Columns()
-         self.assertEquals(table.field_info(0), ('double', 'AREA', 0, 0))
+         self.assertEquals(columns[0].name, 'AREA')
-         self.assertEquals(table.field_info(3), ('int', 'PONET_ID', 0, 0))
+         self.assertEquals(columns[0].type, FIELDTYPE_DOUBLE)
-         self.assertEquals(table.field_info(6), ('string', 'POPYCOUN', 0, 0))
+         self.assertEquals(columns[3].name, 'PONET_ID')
+         self.assertEquals(columns[3].type, FIELDTYPE_INT)
+         self.assertEquals(columns[6].name, 'POPYCOUN')
+         self.assertEquals(columns[6].type, FIELDTYPE_STRING)
+         # HasColumn
+         self.failUnless(table.HasColumn("AREA"))
+         self.failUnless(table.HasColumn(1))
+         # HasColumn for non-exisiting columns
+         self.failIf(table.HasColumn("non_existing_name"))
+         self.failIf(table.HasColumn(100))
-         # Read an `interesting' record
+         # Reading rows and values.
-         self.assertEquals(table.read_record(144),
+         self.assertEquals(table.ReadRowAsDict(144),
                            {'POPYCOUN': 'IC', 'POPYADMIN': '', 'PONET_': 146,
                             'AREA': 19.462,
                             'POPYTYPE': 1, 'PERIMETER': 88.518000000000001,
                             'POPYREG': '1',
                             'PONET_ID': 145})
+         self.assertEquals(table.ReadRowAsDict(144, row_is_ordinal = 1),
+                           {'POPYCOUN': 'IC', 'POPYADMIN': '', 'PONET_': 146,
+                            'AREA': 19.462,
+                            'POPYTYPE': 1, 'PERIMETER': 88.518000000000001,
+                            'POPYREG': '1',
+                            'PONET_ID': 145})
+         self.assertEquals(table.ReadValue(144, "AREA"), 19.462)
+         self.assertEquals(table.ReadValue(144, 3), 145)
+         self.assertEquals(table.ReadValue(144, "AREA", row_is_ordinal = 1),
+.462)
+         self.assertEquals(table.ReadValue(144, 3, row_is_ordinal = 1), 145)
-         # field_range may induce a copy to the transient database.
+         self.assertEquals(table.RowIdToOrdinal(23), 23)
+         self.assertEquals(table.RowOrdinalToId(23), 23)
+         # ValueRange may induce a copy to the transient database.
          # Therefore we put it last so that we can execute this method
          # twice to check whether the other methods still work after the
          # copy
-         self.assertEquals(table.field_range("AREA"),
+         self.assertEquals(table.ValueRange("AREA"), (0.0, 19.462))
-                           ((0.0, None), (19.462, None)))
-         unique = table.GetUniqueValues("PONET_ID")
+         unique = table.UniqueValues("PONET_ID")
          unique.sort()
          self.assertEquals(unique, range(1, 157))
-Line 89 
 class TestTransientTable(unittest.TestCa
+Line 113 
 class TestTransientTable(unittest.TestCa
          # The transient_table method should return the table itself
          self.assert_(table is table.transient_table())
+         # The title is simply copied over from the original table
+         self.assertEquals(table.Title(), orig_table.Title())
+         # The TransientTable class itself doesn't implement the
+         # Dependencies method, so we don't test it.
      def test_auto_transient_table(self):
          """Test AutoTransientTable(dbftable)
-Line 106 
 class TestTransientTable(unittest.TestCa
+Line 136 
 class TestTransientTable(unittest.TestCa
          # least one call to a method that copies to the transient db at
          # its end.
          self.run_iceland_political_tests(table)
+         # At this point the data has probably not been copied to the
+         # transient DB yet, so we force it by calling the
+         # transient_table method.
+         table.transient_table()
+         # Run the tests again.
          self.run_iceland_political_tests(table)
+     def test_auto_transient_table_query(self):
+         """Test AutoTransientTable.SimpleQuery()"""
+         orig_table = DBFTable(os.path.join("..", "Data", "iceland",
+                                            "political.dbf"))
+         table = AutoTransientTable(self.transientdb, orig_table)
+         # Only a simple test here. The AutoTransientTable simply
+         # delegates to its transient table so it should be OK that the
+         # real test for it is in test_transient_table_query. However,
+         # it's important to check that the column handling works
+         # correctly because the AutoTransientTable and it's underlying
+         # transient table use different column object types.
+         self.assertEquals(table.SimpleQuery(table.Column("AREA"), ">", 10.0),
+                           [144])
+         # test using a Column object as the right parameter
+         self.assertEquals(table.SimpleQuery(table.Column("POPYTYPE"),
+                                             "==",
+                                             table.Column("POPYREG")),
+                           range(156))
+     def test_auto_transient_table_dependencies(self):
+         """Test AutoTransientTable.Dependencies()"""
+         orig_table = DBFTable(os.path.join("..", "Data", "iceland",
+                                            "political.dbf"))
+         table = AutoTransientTable(self.transientdb, orig_table)
+         self.assertEquals(table.Dependencies(), (orig_table,))
+     def test_auto_transient_table_title(self):
+         """Test AutoTransientTable.Title()"""
+         orig_table = DBFTable(os.path.join("..", "Data", "iceland",
+                                            "political.dbf"))
+         table = AutoTransientTable(self.transientdb, orig_table)
+         # The title is of course the same as that of the original table
+         self.assertEquals(table.Title(), orig_table.Title())
      def test_transient_joined_table(self):
          """Test TransientJoinedTable"""
-Line 127 
 class TestTransientTable(unittest.TestCa
+Line 197 
 class TestTransientTable(unittest.TestCa
          table = TransientJoinedTable(self.transientdb, landmarks, "CLPTLABEL",
                                       auto, "type")
-         self.assertEquals(table.record_count(), 34)
+         self.assertEquals(table.NumRows(), 34)
-         self.assertEquals(table.field_count(), 8)
+         self.assertEquals(table.NumColumns(), 8)
-         self.assertEquals(table.field_info(0), ('double', 'AREA', 0, 0))
+         self.assertEquals(table.Column(0).type, FIELDTYPE_DOUBLE)
-         self.assertEquals(table.field_info(7), ('int', 'code', 0, 0))
+         self.assertEquals(table.Column(0).name, 'AREA')
-         self.assertEquals(table.field_info(4), ('string', 'CLPTLABEL', 0, 0))
+         self.assertEquals(table.Column(7).type, FIELDTYPE_INT)
+         self.assertEquals(table.Column(7).name, 'code')
+         self.assertEquals(table.Column(4).type, FIELDTYPE_STRING)
+         self.assertEquals(table.Column(4).name, 'CLPTLABEL')
+         # HasColumn
+         self.failUnless(table.HasColumn("AREA"))
+         self.failUnless(table.HasColumn(1))
+         # HasColumn for non-exisiting columns
+         self.failIf(table.HasColumn("non_existing_name"))
+         self.failIf(table.HasColumn(100))
-         # Read an `interesting' record
+         # Reading rows and values
-         self.assertEquals(table.read_record(22),
+         self.assertEquals(table.ReadRowAsDict(22),
                            {'PERIMETER': 0.0, 'CLPOINT_': 23,
                             'AREA': 0.0, 'CLPTLABEL': 'RUINS',
                             'CLPOINT_ID': 38, 'CLPTFLAG': 0,
                             'code': 1, 'type': 'RUINS'})
+         self.assertEquals(table.ReadValue(22, "type"), 'RUINS')
+         self.assertEquals(table.ReadValue(22, 7), 1)
+         self.assertEquals(table.ReadValue(22, "type", row_is_ordinal = 1),
+                           "RUINS")
+         self.assertEquals(table.ReadValue(22, 7, row_is_ordinal = 1), 1)
+         self.assertEquals(table.RowIdToOrdinal(23), 23)
+         self.assertEquals(table.RowOrdinalToId(23), 23)
          # The transient_table method should return the table itself
          self.assert_(table is table.transient_table())
+         # The TransientJoinedTable depends on both input tables
+         self.assertEquals(table.Dependencies(), (landmarks, auto))
+         # The title is constructed from the titles of the input tables.
+         self.assertEquals(table.Title(),
+                           "Join of %s and %s" % (landmarks.Title(),
+                                                  auto.Title()))
+     def test_transient_joined_table_same_column_name(self):
+         """Test TransientJoinedTable join on columns with same name
+         The transient DB maps the column names used by the tables to
+         another set of names used only inside the SQLite database. There
+         was a bug in the way this mapping was used when joining on
+         fields with the same names in both tables so that the joined
+         table ended up joining on the same column in the same table.
+         """
+         mem_stretches = MemoryTable([("stretch_id", FIELDTYPE_INT)],
+                                     [(i,) for i in range(4)])
+         stretches = AutoTransientTable(self.transientdb, mem_stretches)
+         mem_discharges = MemoryTable([("disch_id", FIELDTYPE_INT),
+                                       ("stretch_id", FIELDTYPE_INT)],
+                                      [(1, 0), (2, 3)])
+         discharges = AutoTransientTable(self.transientdb, mem_discharges)
+         table = TransientJoinedTable(self.transientdb, stretches, "stretch_id",
+                                      discharges, "stretch_id",
+                                      outer_join = True)
+         self.assertEquals(table.NumRows(), 4)
+         self.assertEquals(table.NumColumns(), 3)
+         # HasColumn
+         self.failUnless(table.HasColumn("stretch_id"))
+         self.failUnless(table.HasColumn("disch_id"))
+     def test_transient_joined_table_with_equal_column_names(self):
+         """Test TransientJoinedTable join on tables with equal column names
+         If a name collision occurs for the field names, underscores are
+         appended as long as any collision is resolved.
+         """
+         mem_stretches = MemoryTable([("stretch_id", FIELDTYPE_INT),
+                                      ("name", FIELDTYPE_INT)],
+                                     [(0, 10), (1, 11), (2, 12), (3, 13) ])
+         stretches = AutoTransientTable(self.transientdb, mem_stretches)
+         mem_discharges = MemoryTable([("disch_id", FIELDTYPE_INT),
+                                       ("stretch_id", FIELDTYPE_INT),
+                                       ("name", FIELDTYPE_INT)],
+                                      [(1, 0, 1), (2, 3, 2)])
+         discharges = AutoTransientTable(self.transientdb, mem_discharges)
+         table = TransientJoinedTable(self.transientdb, stretches, "stretch_id",
+                                      discharges, "stretch_id",
+                                      outer_join = True)
+         self.assertEquals(table.NumRows(), 4)
+         self.assertEquals(table.NumColumns(), 5)
+         # HasColumn
+         self.assertEquals([c.name for c in table.Columns()],
+                           ["stretch_id", "name", "disch_id", "stretch_id_",
+                            "name_"])
+     def test_transient_joined_table_name_collisions_dont_modify_in_place(self):
+         """Test TransientJoinedTable name-collisions do not modifying in place
+         The name collision work-around by appending underscores
+         accidentally modified the column objects in place. We do two
+         joins therefore in reverse order to detect this: The first join
+         will lead to a modified name in the column object of the right
+         table which is then used as the left table in the second join so
+         the underscored name will appear before the non-underscored one
+         in the list of column names after the second join.
+         """
+         mem1 = MemoryTable([("stretch_id", FIELDTYPE_INT),
+                             ("name", FIELDTYPE_INT)],
+                            [(0, 10), (1, 11), (2, 12), (3, 13) ])
+         table1 = AutoTransientTable(self.transientdb, mem1)
+         mem2 = MemoryTable([("stretch_id", FIELDTYPE_INT),
+                             ("name", FIELDTYPE_INT)],
+                            [(0, 10), (1, 11), (2, 12), (3, 13) ])
+         table2 = AutoTransientTable(self.transientdb, mem2)
+         table = TransientJoinedTable(self.transientdb, table1, "stretch_id",
+                                      table2, "stretch_id", outer_join = True)
+         table = TransientJoinedTable(self.transientdb, table2, "stretch_id",
+                                      table1, "stretch_id", outer_join = True)
+         self.assertEquals([c.name for c in table.Columns()],
+                           ["stretch_id", "name", "stretch_id_", "name_"])
      def test_transient_table_read_twice(self):
-         """Test TransientTable.read_record() reading the same record twice"""
+         """Test TransientTable.ReadRowAsDict() reading the same record twice"""
          simple = MemoryTable([("type", FIELDTYPE_STRING),
                                ("code", FIELDTYPE_INT)],
                               [("OTHER/UNKNOWN", 0),
-Line 161 
 class TestTransientTable(unittest.TestCa
+Line 343 
 class TestTransientTable(unittest.TestCa
          # unitialized local variable, so for passing the test it's
          # enough if reading simply succeeds. OTOH, while we're at it we
          # might as well check whether the results are equal anyway :)
-         result1 = table.read_record(3)
+         result1 = table.ReadRowAsDict(3)
-         result2 = table.read_record(3)
+         result2 = table.ReadRowAsDict(3)
          self.assertEquals(result1, result2)
+     def test_transient_table_query(self):
+         """Test TransientTable.SimpleQuery()"""
+         simple = MemoryTable([("type", FIELDTYPE_STRING),
+                               ("value", FIELDTYPE_DOUBLE),
+                               ("code", FIELDTYPE_INT)],
+                              [("OTHER/UNKNOWN", -1.5, 11),
+                               ("RUINS", 0.0, 1),
+                               ("FARM", 3.141, 2),
+                               ("BUILDING", 2.5, 3),
+                               ("HUT", 1e6, 4),
+                               ("LIGHTHOUSE", -0.01, 5)])
+         table = TransientTable(self.transientdb, simple)
+         # A column and a value
+         self.assertEquals(table.SimpleQuery(table.Column(0), "==", "RUINS"),
+                           [1])
+         self.assertEquals(table.SimpleQuery(table.Column(2), "!=", 2),
+                           [0, 1, 3, 4, 5])
+         self.assertEquals(table.SimpleQuery(table.Column(1), "<", 1.0),
+                           [0, 1, 5])
+         self.assertEquals(table.SimpleQuery(table.Column(1), "<=", -1.5),
+                           [0])
+         self.assertEquals(table.SimpleQuery(table.Column(2), ">", 3),
+                           [0, 4, 5])
+         self.assertEquals(table.SimpleQuery(table.Column(2), ">=", 3),
+                           [0, 3, 4, 5])
+         # Two columns as operands
+         self.assertEquals(table.SimpleQuery(table.Column(1),
+                                             "<=", table.Column(2)),
+                           [0, 1, 3, 5])
+         # Test whether invalid operators raise a ValueError
+         self.assertRaises(ValueError,
+                           table.SimpleQuery,
+                           table.Column(1), "<<", table.Column(2))
+     def test_transienttable_to_dbf(self):
+         memtable = MemoryTable([("type", FIELDTYPE_STRING),
+                                 ("value", FIELDTYPE_DOUBLE),
+                                 ("code", FIELDTYPE_INT)],
+                                [("UNKNOWN", 0.0, 0),
+                                 ("Foo", 0.5, -1),
+                                 ("Foo", 1.0/256, 100),
+                                 ("bar", 1e10, 17)])
+         table = TransientTable(self.transientdb, memtable)
+         filename = self.temp_file_name("test_transienttable_to_dbf.dbf")
+         table_to_dbf(table, filename)
+         dbf = dbflib.DBFFile(filename)
+         self.assertEquals(dbf.read_record(2),
+                           {'code': 100, 'type': 'Foo', 'value': 0.00390625})
+         self.assertEquals(dbf.field_count(), 3)
+         self.assertEquals(dbf.record_count(), 4)
+         self.assertEquals(dbf.field_info(0),
+                           (dbflib.FTString, "type", 7, 0))
+         self.assertEquals(dbf.field_info(1),
+                           (dbflib.FTDouble, "value", 24, 12))
+         self.assertEquals(dbf.field_info(2),
+                           (dbflib.FTInteger, "code", 3, 0))
  if __name__ == "__main__":
      support.run_tests()

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