/[thuban]/branches/WIP-pyshapelib-bramz/Thuban/Model/postgisdb.py

Diff of /branches/WIP-pyshapelib-bramz/Thuban/Model/postgisdb.py

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-revision 1631 by bh,
Fri Aug 22 16:01:14 2003 UTC
+revision 2106 by bh,
Fri Mar 12 12:59:33 2004 UTC
 Line 1
- # Copyright (C) 2003 by Intevation GmbH
+ # Copyright (C) 2003, 2004 by Intevation GmbH
  # Authors:
  # Martin Mueller <[email protected]>
  # Bernhard Herzog <[email protected]>
 Line 32 
 def psycopg_version():
      return psycopg.__version__
  if psycopg is not None:
+     # type_map maps psycopg type objects.  It's a list of pairs since
+     # the psycopg type objects are unhashable.
      type_map = [(psycopg.STRING, table.FIELDTYPE_STRING),
                  (psycopg.INTEGER, table.FIELDTYPE_INT),
+                 (psycopg.ROWID, table.FIELDTYPE_INT),
                  (psycopg.FLOAT, table.FIELDTYPE_DOUBLE)]
+     # _raw_type_map maps the postgresql type constants to Thuban type
+     # constants.  This is very low level and postgresql specific and
+     # should be used only when necessary.
+     _raw_type_map = {}
+     def _fill_raw_type_map():
+         for psycopg_type, thuban_type in type_map:
+             for value in psycopg_type.values:
+                 _raw_type_map[value] = thuban_type
+     _fill_raw_type_map()
+ def quote_identifier(ident):
+     """Return a quoted version of the identifier ident.
+     The return value is a string that can be put directly into an SQL
+     statement.  The quoted identifier is surrounded by double quotes and
+     any double quotes already in the input value are converted to two
+     double quotes.  Examples:
+     >>> quote_identifier("abc\"def")
+     '"abc""def"'
+     >>> quote_identifier("abc def")
+     '"abc def"'
+     """
+     return '"' + '""'.join(ident.split('"')) + '"'
+ class ConnectionError(Exception):
+     """Class for exceptions occurring when establishing a Databse connection"""
  class PostGISConnection:
      """Represent a PostGIS database
-Line 67 
 class PostGISConnection:
+Line 102 
 class PostGISConnection:
              val = getattr(self, name)
              if val:
                  params.append("%s=%s" % (name, val))
-         self.connection = psycopg.connect(" ".join(params))
+         try:
+             self.connection = psycopg.connect(" ".join(params))
+         except psycopg.OperationalError, val:
+             raise ConnectionError(str(val))
          # determine the OID for the geometry type. This is PostGIS
          # specific.
-Line 90 
 class PostGISConnection:
+Line 128 
 class PostGISConnection:
          return ("postgis://%(user)s@%(host)s:%(port)s/%(dbname)s"
                  % self.__dict__)
+     def MatchesParameters(self, parameters):
+         """Return whether the connection matches the dictionary of parameters
+         Return whether instatiating the connection with the given
+         parameters would establish essentially the same connection as
+         self. The connection is essentially the same if the same
+         database (identified by host, port and databasename) is accessed
+         as the same user.
+         """
+         return (parameters["host"] == self.host
+                 and parameters["port"] == self.port
+                 and parameters["dbname"] == self.dbname
+                 and parameters["user"] == self.user)
      def Close(self):
          """Close the database connection"""
          self.connection.close()
      def GeometryTables(self):
          """Return a list with the names of all tables with a geometry column"""
+         # The query is basically taken from the psql v. 7.2.1.  When
+         # started with -E it prints the queries used for internal
+         # commands such as \d, which does mostly what we need here.
          cursor = self.connection.cursor()
-         cursor.execute("SELECT f_table_name FROM geometry_columns;")
+         cursor.execute("SELECT c.relname FROM pg_class c"
+                        " WHERE c.relkind IN ('r', 'v')"
+                              # Omit the system tables
+                              " AND c.relname !~ '^pg_'"
+                              # Omit the special PostGIS tables
+                              " AND c.relname NOT IN ('geometry_columns',"
+                                                    " 'spatial_ref_sys')"
+                             " AND %d in (SELECT a.atttypid FROM pg_attribute a"
+                                        " WHERE a.attrelid = c.oid)"
+                        " ORDER BY c.relname;", (self.geometry_type,))
          result = [row[0] for row in cursor.fetchall()]
          self.connection.commit()
          return result
+     def table_columns(self, tablename):
+         """Experimental: return information about the columns of a table
+         Return value is a list of (name, type) pairs where name is the
+         name of the column and type either one of the field type columns
+         or the string 'geometry' indicating a geometry column.
+         The intended use of this method is for table selection dialogs
+         which need to determine which columns are usable as id or
+         geometry columns respectively.  Suitable id columns will have
+         type FIELDTYPE_INT and geometry columns will have 'geometry'.
+         """
+         result = []
+         cursor = self.connection.cursor()
+         # This query is taken basically from the \d command of psql
+         # 7.2.1
+         cursor.execute("SELECT a.attname, a.atttypid, a.attnum"
+                        " FROM pg_class c, pg_attribute a"
+                             " WHERE c.relname = %s AND a.attrelid = c.oid"
+                        " ORDER BY a.attnum;", (tablename,))
+         for row in cursor.fetchall():
+             col_name, col_type, col_attnum = row
+             col = None
+             if col_attnum < 1:
+                 # It's a system column.  Only the OID is interesting
+                 # here
+                 if col_name == "oid":
+                     col = (col_name, _raw_type_map[col_type])
+             else:
+                 # If it's an integer
+                 thuban_type = _raw_type_map.get(col_type)
+                 if thuban_type is not None:
+                     col = (col_name, thuban_type)
+                 elif row[1] == self.geometry_type:
+                     col = (col_name, "geometry")
+             if col is not None:
+                 result.append(col)
+         return result
      def cursor(self):
          """Return a DB API 2.0 cursor for the database"""
          return self.connection.cursor()
-Line 110 
 class PostGISConnection:
+Line 217 
 class PostGISConnection:
  class PostGISColumn:
-     """Column description for a PostGISTable"""
+     """Column description for a PostGISTable
+     In addition to the normal column object attributes name, type and
+     index, PostGISColumn objects have a quoted_name attribute which
+     contains a quoted version of name for use in SQL statements. The
+     quoted_name attribute is mainly intended for internal use by the
+     PostGISTable class.
+     """
      def __init__(self, name, type, index):
          self.name = name
+         self.quoted_name = quote_identifier(name)
          self.type = type
          self.index = index
  class PostGISTable:
-     """A Table in a PostGIS database"""
+     """A Table in a PostGIS database
-     def __init__(self, db, tablename):
+     A PostgreSQL table may contain columns with types not (yet)
+     supported by Thuban. Instances of this class ignore those columns
+     and pretend they don't exist, i.e. they won't show up in the column
+     descriptions returned by Columns() and other methods.
+     """
+     def __init__(self, db, tablename, id_column = None):
          """Initialize the PostGISTable.
          The db parameter should be an instance of PostGISConnection and
          tablename the name of a table in the database represented by db.
+         The id_column parameter should be the name of a column in the
+         table that can be used to identify rows.  The column must have
+         the type integer and be unique and not null.
+         For backwards compatibility reasons, the id_column parameter is
+         optional.  If not given the table must have a column called
+         'gid' which is used as the id_column.  New code should always
+         provide this parameter.
          """
          self.db = db
          self.tablename = tablename
+         # Tablename quoted for use in SQL statements.
+         self.quoted_tablename = quote_identifier(tablename)
+         if not id_column:
+             id_column = "gid"
+         self.id_column = id_column
+         # id column name quoted for use in SQL statements.
+         self.quoted_id_column = quote_identifier(id_column)
+         # Map column names and indices to column objects.
          self.column_map = {}
          self._fetch_table_information()
      def _fetch_table_information(self):
          """Internal: Update information about the table"""
          self.columns = []
          cursor = self.db.cursor()
-         cursor.execute("SELECT * FROM %s WHERE 0=1" % self.tablename)
+         cursor.execute("SELECT * FROM %s WHERE 0=1" % self.quoted_tablename)
          description = cursor.description
          for i in range(len(description)):
-             for pgtyp, tabletyp in type_map:
+             col = self._create_col_from_description(i, description[i])
-                 if pgtyp == description[i][1]:
+             if col is not None:
-                     col = PostGISColumn(description[i][0], tabletyp, i)
+                 self.columns.append(col)
-                     break
-             else:
-                 if description[i][1] == self.db.geometry_type:
-                     self.geometry_column = description[i][0]
-                 # No matching table type. Ignore the column.
-                 # FIXME: We should at least print a warning about
-                 # ignored columns
-                 continue
-             self.columns.append(col)
          for col in self.columns:
              self.column_map[col.name] = col
-Line 160 
 class PostGISTable:
+Line 292 
 class PostGISTable:
          # Build query string for ReadRowAsDict
          self.query_stmt = ("SELECT %s from %s"
-                            % (", ".join([col.name for col in self.columns]),
+                            % (", ".join([col.quoted_name
-                               self.tablename))
+                                          for col in self.columns]),
+                               self.quoted_tablename))
+     def _create_col_from_description(self, index, description):
+         """Return the column object for the column described by description
+         The parameter index is the index of the column.  The description
+         is a sequence taken from the cursor's description attribute for
+         the column.  That means description[0] is the name of the column
+         and description[1] the type.
+         Return None if the column can't be represented for some reason,
+         e.g. because its type is not yet supported or needs to be
+         treated in some special way.  Derived classes may extend this
+         method.
+         """
+         for pgtyp, tabletyp in type_map:
+             if pgtyp == description[1]:
+                 return PostGISColumn(description[0], tabletyp,
+                                      len(self.columns))
+         return None
+     def DBConnection(self):
+         """Return the dbconnection used by the table"""
+         return self.db
+     def IDColumn(self):
+         """Return the column description object for the id column.
+         If the oid column was used as the id column, the return value is
+         not one of the regular column objects that would be returned by
+         e.g. the Column() method, but it still has meaningful name
+         attribute.
+         """
+         if self.id_column == "oid":
+             return PostGISColumn(self.id_column, table.FIELDTYPE_INT, None)
+         return self.column_map[self.id_column]
+     def TableName(self):
+         """Return the name of the table in the database"""
+         return self.tablename
+     def Title(self):
+         """Return the title of the table.
+         The title is currently fixed and equal to the tablename
+         """
+         return self.tablename
      def Dependencies(self):
          """Return an empty tuple because a PostGISTable depends on nothing else
-Line 182 
 class PostGISTable:
+Line 361 
 class PostGISTable:
      def NumRows(self):
          cursor = self.db.cursor()
-         cursor.execute("SELECT count(*) FROM %s" % self.tablename)
+         cursor.execute("SELECT count(*) FROM %s" % self.quoted_tablename)
+         return cursor.fetchone()[0]
+     def RowIdToOrdinal(self, gid):
+         """Return the row ordinal given its id"""
+         cursor = self.db.cursor()
+         cursor.execute("SELECT count(*) FROM %s WHERE %s < %d;"
+                        % (self.quoted_tablename, self.quoted_id_column, gid))
          return cursor.fetchone()[0]
-     def ReadRowAsDict(self, row):
+     def RowOrdinalToId(self, num):
+         """Return the rowid for given its ordinal"""
          cursor = self.db.cursor()
-         cursor.execute(self.query_stmt + " LIMIT 1 OFFSET %d" % row)
+         cursor.execute("SELECT %s FROM %s LIMIT 1 OFFSET %d;"
+                        % (self.quoted_id_column, self.quoted_tablename, num))
+         return cursor.fetchone()[0]
+     def ReadRowAsDict(self, row, row_is_ordinal = 0):
+         cursor = self.db.cursor()
+         if row_is_ordinal:
+             stmt = self.query_stmt + " LIMIT 1 OFFSET %d" % row
+         else:
+             stmt = self.query_stmt + " WHERE %s = %d" % (self.quoted_id_column,
+                                                          row)
+         cursor.execute(stmt)
          result = {}
          for col, value in zip(self.columns, cursor.fetchone()):
              result[col.name] = value
          return result
-     def ReadValue(self, row, col):
+     def ReadValue(self, row, col, row_is_ordinal = 0):
          cursor = self.db.cursor()
-         cursor.execute("SELECT %s FROM %s LIMIT 1 OFFSET %d" %
+         if row_is_ordinal:
-                        (self.column_map[col].name, self.tablename, row))
+             stmt = ("SELECT %s FROM %s LIMIT 1 OFFSET %d" %
+                     (self.column_map[col].quoted_name, self.quoted_tablename,
+                      row))
+         else:
+             stmt = ("SELECT %s FROM %s WHERE %s = %d" %
+                     (self.column_map[col].quoted_name, self.quoted_tablename,
+                      self.quoted_id_column, row))
+         cursor.execute(stmt)
          return cursor.fetchone()[0]
      def ValueRange(self, col):
          cursor = self.db.cursor()
-         name = self.column_map[col].name
+         name = self.column_map[col].quoted_name
          cursor.execute("SELECT min(%s), max(%s) FROM %s" %
-                        (name, name, self.tablename))
+                        (name, name, self.quoted_tablename))
          return tuple(cursor.fetchone())
      def UniqueValues(self, col):
          cursor = self.db.cursor()
-         name = self.column_map[col].name
+         name = self.column_map[col].quoted_name
          cursor.execute("SELECT %s FROM %s GROUP BY %s" %
-                        (name, self.tablename, name))
+                        (name, self.quoted_tablename, name))
          return [row[0] for row in cursor.fetchall()]
      def SimpleQuery(self, left, comparison, right):
-Line 221 
 class PostGISTable:
+Line 426 
 class PostGISTable:
              comparison = "="
          if isinstance(right, PostGISColumn):
-             right_template = right.name
+             right_template = right.quoted_name
              params = ()
          else:
              right_template = "%s"
              params = (right,)
-         query = "SELECT gid FROM %s WHERE %s %s %s ORDER BY gid;" \
+         query = "SELECT %s FROM %s WHERE %s %s %s ORDER BY %s;" \
-                 % (self.tablename, left.name, comparison, right_template)
+                 % (self.quoted_id_column, self.quoted_tablename,
+                    left.quoted_name, comparison, right_template,
+                    self.quoted_id_column)
          cursor = self.db.cursor()
          cursor.execute(query, params)
-Line 270 
 class PostGISShape:
+Line 477 
 class PostGISShape:
  shapetype_map = {"POLYGON": SHAPETYPE_POLYGON,
+                  "MULTIPOLYGON": SHAPETYPE_POLYGON,
                   "MULTILINESTRING": SHAPETYPE_ARC,
                   "POINT": SHAPETYPE_POINT}
-Line 278 
 class PostGISShapeStore(PostGISTable):
+Line 486 
 class PostGISShapeStore(PostGISTable):
      """Shapestore interface to a table in a PostGIS database"""
+     def __init__(self, db, tablename, id_column = "gid",
+                  geometry_column = None):
+         """Initialize the PostGISShapeStore.
+         The db parameter should be an instance of PostGISConnection and
+         tablename the name of a table in the database represented by db.
+         The id_column parameter should be the name of a column in the
+         table that can be used to identify rows.  The column must have
+         the type integer and be unique and not null.
+         The geometry_column paramter, if given, should be the name of
+         the geometry column to use.  If the name given is not a geometry
+         column, raise a ValueError.
+         If no geometry_column is given, the table must have exactly one
+         geometry column.  If it has more than one and the
+         geometry_column is not given, a ValueError will be raised.
+         """
+         self.geometry_column = geometry_column
+         self.geometry_column_was_given = geometry_column is not None
+         PostGISTable.__init__(self, db, tablename, id_column)
+         # For convenience, we have a quoted version of the geometry
+         # column in self.quoted_geo_col
+         self.quoted_geo_col = quote_identifier(self.geometry_column)
+     def _fetch_table_information(self):
+         """Extend inherited method to retrieve the SRID and shape type"""
+         PostGISTable._fetch_table_information(self)
+         # First, try to get it from the geometry_columns table.
+         cursor = self.db.cursor()
+         cursor.execute("SELECT srid, type FROM geometry_columns"
+                        " WHERE f_table_name = %s AND f_geometry_column=%s",
+                        (self.tablename, self.geometry_column))
+         row = cursor.fetchone()
+         if row is not None:
+             self.srid = row[0]
+             self.shape_type = shapetype_map.get(row[1])
+             return
+         # The table is probably really a view and thus not in
+         # geometry_columns.  Use a different approach
+         cursor = self.db.cursor()
+         cursor.execute("SELECT DISTINCT SRID(%s) FROM %s;" %
+                        (quote_identifier(self.geometry_column),
+                         self.tablename))
+         row = cursor.fetchone()
+         if row is not None:
+             self.srid = row[0]
+             # Try to see whether there's another one
+             row = cursor.fetchone()
+             if row is not None:
+                 # There are at least two different srids.  We don't
+                 # support that
+                 self.srid = None
+         cursor = self.db.cursor()
+         cursor.execute("SELECT DISTINCT GeometryType(%s) FROM %s;"
+                        % (quote_identifier(self.geometry_column),
+                           self.tablename))
+         row = cursor.fetchone()
+         if row is not None:
+             self.shape_type = shapetype_map.get(row[0])
+             # Try to see whether there's another one
+             row = cursor.fetchone()
+             if row is not None:
+                 # There are at least two different srids.  We don't
+                 # support that
+                 self.shape_type = None
+     def _create_col_from_description(self, index, description):
+         """Extend the inherited method to find geometry columns
+         If the column indicated by the parameters is a geometry column,
+         record its name in self.geometry_column and a quoted version in
+         self.quoted_geo_col.  In any case return the return value of the
+         inherited method.
+         """
+         col = PostGISTable._create_col_from_description(self, index,
+                                                         description)
+         col_name, col_type = description[:2]
+         if self.geometry_column_was_given:
+             if (col_name == self.geometry_column
+                 and col_type != self.db.geometry_type):
+                 raise TypeError("Column %s in %s is not a geometry column"
+                                 % (self.geometry_column, self.tablename))
+         else:
+             if col is None:
+                 if description[1] == self.db.geometry_type:
+                     # The column is a geometry column.  If the name of
+                     # the geometry column was not given to the
+                     # constructor, and we encounter two geometry
+                     # columns, raise a value error
+                     if self.geometry_column is None:
+                         self.geometry_column = description[0]
+                     else:
+                         raise TypeError("Table %s has two geometry columns"
+                                         " and no column name was given"
+                                         % (self.tablename,))
+         return col
      def Table(self):
          """Return self since a PostGISShapeStore is its own table."""
          return self
-Line 287 
 class PostGISShapeStore(PostGISTable):
+Line 598 
 class PostGISShapeStore(PostGISTable):
          """
          return None
+     def GeometryColumn(self):
+         """Return the column description object for the geometry column
+         There's currently no FIELDTYPE constant for this column, so the
+         return value is not a regular column object that could also be
+         returned from e.g. the Column() method.  Only the name attribute
+         of the return value is meaningful at the moment.
+         """
+         return PostGISColumn(self.geometry_column, None, None)
      def ShapeType(self):
          """Return the type of the shapes in the shapestore."""
-         cursor = self.db.cursor()
+         return self.shape_type
-         cursor.execute("SELECT type FROM geometry_columns WHERE"
-                        " f_table_name=%s", (self.tablename,))
-         result = cursor.fetchone()[0]
-         cursor.close()
-         return shapetype_map[result]
      def RawShapeFormat(self):
          """Return the raw data format of the shape data.
-Line 315 
 class PostGISShapeStore(PostGISTable):
+Line 631 
 class PostGISShapeStore(PostGISTable):
          y=[]
          cursor = self.db.cursor()
          try:
-             stmt = ("SELECT AsText(Envelope(%s)) FROM %s;"
+             # Using the extent function is postgis specific. An OGC
-                     % (self.geometry_column, self.tablename))
+             # Simple Features compliant solution would be to use a query
-             cursor.execute(stmt)
+             # like "SELECT AsText(Envelope(the_geom)) FROM mytable;" and
+             # calculate the bounding box by hand from that
+             cursor.execute("SELECT extent(%s) FROM %s;"
+                            % (self.quoted_geo_col, self.quoted_tablename))
              result = cursor.fetchone()
-             while result:
+             if result[0]:
-                 result = result[0]
+                 (minx, miny), (maxx, maxy) \
-                 # Here we must do some parsing through the result string
+                       = wellknowntext.parse_wkt_thuban(result[0])[0]
-                 # to get the points out of the polygon which representes
+                 return (minx, miny, maxx, maxy)
-                 # the bounding box The first and the last point of a
-                 # polygon are identical
-                 result = result.split("(")[2]
-                 result = result.split(")")[0]
-                 points = result.split(",")
-                 del points[4] # Remove the last point
-                 for point in points:
-                     px, py = point.split()
-                     x.append(float(px))
-                     y.append(float(py))
-                 result = cursor.fetchone()
          finally:
              cursor.close()
-         if not x:
-             # Empty table
-             return None
-         return (min(x), min(y), max(x), max(y))
      def Shape(self, shapeid):
          cursor = self.db.cursor()
-         cursor.execute("SELECT AsText(%s) FROM %s WHERE gid=%d"
+         cursor.execute("SELECT AsText(%s) FROM %s WHERE %s=%d"
-                        % (self.geometry_column, self.tablename, shapeid))
+                        % (self.quoted_geo_col, self.quoted_tablename,
+                           self.quoted_id_column, shapeid))
          wkt = cursor.fetchone()[0]
          cursor.close()
          return PostGISShape(shapeid, wkt)
+     def AllShapes(self):
+         cursor = self.db.cursor()
+         cursor.execute("SELECT %s, AsText(%s) FROM %s ORDER BY %s"
+                        % (self.quoted_id_column, self.quoted_geo_col,
+                           self.quoted_tablename, self.quoted_id_column))
+         while 1:
+             result = cursor.fetchone()
+             if result is None:
+                 return
+             yield PostGISShape(result[0], result[1])
      def ShapesInRegion(self, bbox):
          """Generate all shapes overlapping the region given by bbox."""
          # IMPORTANT:This will work for PostGIS < 0.8
-Line 357 
 class PostGISShapeStore(PostGISTable):
+Line 674 
 class PostGISShapeStore(PostGISTable):
                  % (left, bottom, left, top, right, top, right, bottom,
                     left, bottom))
          cursor = self.db.cursor()
-         cursor.execute("SELECT gid, AsText(%s) FROM %s"
+         cursor.execute("SELECT %(gid)s, AsText(%(geom)s) FROM %(table)s"
-                      " WHERE %s && GeometryFromText('%s', -1) ORDER BY gid"
+                      " WHERE %(geom)s && GeometryFromText('%(box)s', %(srid)d)"
-                        % (self.geometry_column, self.tablename,
+                        " ORDER BY %(gid)s"
-                           self.geometry_column, geom))
+                        % {"table": self.quoted_tablename,
+                           "geom": self.quoted_geo_col,
+                           "gid": self.quoted_id_column,
+                           "box": geom,
+                           "srid": self.srid})
          while 1:
              result = cursor.fetchone()
              if result is None:
-                 raise StopIteration
+                 return
              yield PostGISShape(result[0], result[1])

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Removed from v.1631
 


changed lines


 
Added in v.2106
 Legend:



Removed from v.1631
 


changed lines


 
Added in v.2106
-Removed from v.1631
+Added in v.2106

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