Thuban/Model/transientdb.py

# Copyright (C) 2003 by Intevation GmbH
# Authors:
# Bernhard Herzog <[email protected]>
#
# This program is free software under the GPL (>=v2)
# Read the file COPYING coming with the software for details.

"""Database for transient data

This database is intended for data representations needed during the
lifetime of a Thuban session but which is not permanent. Examples of
this are for instance a join of two DBF files where the DBF files are
the permanent representation of the data and the join only exists in the
Thuban session and is reconstructed when the session is opened.
"""

__version__ = "$Revision$"
# $Source$
# $Id$

import os
import weakref
from sqlite import connect

from base import TitledObject

import table

sql_type_map = {
    table.FIELDTYPE_INT: "INTEGER",
    table.FIELDTYPE_STRING: "VARCHAR",
    table.FIELDTYPE_DOUBLE: "FLOAT",
    }

type_converter_map = {
    table.FIELDTYPE_INT: int,
    table.FIELDTYPE_STRING: str,
    table.FIELDTYPE_DOUBLE: float,
    }

class TransientDatabase:

    def __init__(self, filename):
        self.filename = filename
        self.conn = connect(filename)
        # Counters to produce unique table and column names
        self.num_tables = 0
        self.num_cols = 0
        # Since there's only once process using the SQLite database, we
        # might be able to get a tad more speed with default_synchronous
        # OFF. So far I haven't seen any measurable speedup, though.
        #self.execute("PRAGMA default_synchronous = OFF")

    def __del__(self):
        self.close()

    def close(self):
        if self.conn is not None:
            self.conn.close()
            self.conn = None

    def new_table_name(self):
        self.num_tables += 1
        return "Table%03d" % self.num_tables

    def new_column_name(self):
        self.num_cols += 1
        return "Col%03d" % self.num_cols

    def execute(self, *args):
        """execute the SQL statement in the database and return the result"""
        cursor = self.conn.cursor()
        cursor.execute(*args)
        result = cursor.fetchone()
        self.conn.commit()
        return result

    def cursor(self):
        return self.conn.cursor()


class ColumnReference:

    def __init__(self, name, type, internal_name):
        self.name = name
        self.type = type
        self.internal_name = internal_name


class TransientTableBase(table.OldTableInterfaceMixin):

    """Base class for tables in the transient database"""

    def __init__(self, transient_db):
        """Initialize the table for use with the given transient db"""
        self.db = transient_db
        self.tablename = self.db.new_table_name()
        self.indexed_columns = {}
        self.read_record_cursor = None
        self.read_record_last_row = None
        self.read_record_last_result = None

    def create(self, columns):
        self.columns = columns
        self.name_to_column = {}
        self.orig_names = []
        self.internal_to_orig = {}
        self.orig_to_internal = {}
        self.column_map = {}

        # Create the column objects and fill various maps and lists
        for index in range(len(self.columns)):
            col = self.columns[index]
            self.name_to_column[col.name] = col
            self.orig_names.append(col.name)
            self.internal_to_orig[col.internal_name] = col.name
            self.orig_to_internal[col.name] = col.internal_name
            self.column_map[col.name] = col
            self.column_map[index] = col

        # Build the CREATE TABLE statement and create the table in the
        # database
        table_types = ["id INTEGER PRIMARY KEY"]
        for col in self.columns:
            table_types.append("%s %s" % (col.internal_name,
                                          sql_type_map[col.type]))
        table_stmt = "CREATE TABLE %s (\n    %s\n);" % (self.tablename,
                                                   ",\n    ".join(table_types))
        self.db.execute(table_stmt)

    def transient_table(self):
        """
        Return a table whose underlying implementation is in the transient db
        """
        return self

    def ensure_index(self, column):
        """Ensure that there's an index on the given column"""
        if not column in self.indexed_columns:
            internal_name = self.orig_to_internal[column]
            indexname = "Index_%s_%s" % (self.tablename, internal_name)
            stmt = "CREATE INDEX %s ON %s (%s);" % (indexname, self.tablename,
                                                    internal_name)
            self.db.execute(stmt)
            self.indexed_columns[column] = 1

    def NumColumns(self):
        return len(self.columns)

    def NumRows(self):
        result = self.db.execute("SELECT count(*) FROM %s;" % self.tablename)
        return int(result[0])

    def Columns(self):
        return self.columns

    def Column(self, col):
        return self.column_map[col]

    def HasColumn(self, col):
        """Return whether the table has a column with the given name or index
        """
        return self.column_map.has_key(col)

    def ReadRowAsDict(self, index):
        # Implementation Strategy: Executing a completely new select
        # statement every time this method is called is too slow. The
        # most important usage is to read the records more or less
        # sequentially. This happens e.g. when drawing a layer with a
        # classification where the shapes are drawn in order of the
        # shape ids. Another pattern is that the same row is requested
        # several times in a row. This happens in the table view, for
        # instance.

        # We can exploit this to make access faster by having one cursor
        # open all the time and keeping the last row read around in case
        # the same row is accessed again the next time and if the row
        # index is larger than the row we have read last we simply fetch
        # rows from the cursor until we've reached the requested row. If
        # the requested row index is smaller then we start a new cursor.

        # FIXME: So far this scheme seems to work well enough. Obvious
        # improvements would be to start the cursor at exactly the
        # requested row (should be efficient and easy to do now that the
        # id is the primary key) and to perhaps to also start a new
        # cursor if the requested index is much larger than the last row
        # so that we don't read and discard lots of the rows.

        # Check whether we have to start a new cursor
        if self.read_record_cursor is None or index <self.read_record_last_row:
            stmt = ("SELECT %s FROM %s;"
                    % (", ".join([c.internal_name for c in self.columns]),
                       self.tablename))
            self.read_record_cursor = self.db.cursor()
            self.read_record_cursor.execute(stmt)
            self.read_record_last_row = -1
            self.read_record_last_result = None

        # Now we should have a cursor at a position less than or equal
        # to the index so the following if statement will always set
        # result to a suitable value
        assert index >= self.read_record_last_row

        if index == self.read_record_last_row:
            result = self.read_record_last_result
        else:
            for i in range(index - self.read_record_last_row):
                result = self.read_record_cursor.fetchone()
                self.read_record_last_result = result
        self.read_record_last_row = index
        return dict(zip(self.orig_names, result))

    def ReadValue(self, row, col):
        """Return the value of the specified row and column

        The col parameter may be the index of the column or its name.
        """
        # Depending on the actual access patterns of the table data, it
        # might be a bit faster in some circumstances to not implement
        # this via ReadRowAsDict, but this simple implementation should
        # be fast enough for most purposes.
        return self.ReadRowAsDict(row)[self.column_map[col].name]

    def ValueRange(self, col):
        col = self.column_map[col]
        iname = col.internal_name
        min, max = self.db.execute("SELECT min(%s), max(%s) FROM %s;"
                                   % (iname, iname, self.tablename))
        converter = type_converter_map[col.type]
        return (converter(min), converter(max))

    def UniqueValues(self, col):
        iname = self.column_map[col].internal_name
        cursor = self.db.cursor()
        cursor.execute("SELECT %s FROM %s GROUP BY %s;"
                       % (iname, self.tablename, iname))
        result = []
        while 1:
            row = cursor.fetchone()
            if row is None:
                break
            result.append(row[0])
        return result

    def SimpleQuery(self, left, comparison, right):
        """Return the indices of all rows that matching a condition.

        Parameters:
           left -- The column object for the left side of the comparison

           comparison -- The comparison operator as a string. It must be
                         one of '==', '!=', '<', '<=', '>=', '>'

           right -- The right hand side of the comparison. It must be
                    either a column object or a value, i.e. a string,
                    int or float.

        The return value is a sorted list of the indices of the rows
        where the condition is true.
        """
        if comparison not in ("==", "!=", "<", "<=", ">=", ">"):
            raise ValueError("Comparison operator %r not allowed" % comparison)

        if hasattr(right, "internal_name"):
            right_template = right.internal_name
            params = ()
        else:
            right_template = "%s"
            params = (right,)

        query = "SELECT id FROM %s WHERE %s %s %s ORDER BY id;" \
                % (self.tablename, left.internal_name, comparison,
                   right_template)

        cursor = self.db.cursor()
        cursor.execute(query, params)
        result = []
        while 1:
            row = cursor.fetchone()
            if row is None:
                break
            result.append(row[0])
        return result

    def Dependencies(self):
        """Placeholder for a method in a derived class.

        Return a sequence with the tables and other data objects that
        self depends on.
        """
        raise NotImplementedError


class TransientTable(TitledObject, TransientTableBase):

    """A Table in a transient DB that starts as the copy of a Thuban Table."""

    def __init__(self, transient_db, table):
        """Create a new table in the given transient DB as a copy of table

        The table argument can be any object implementing the Table
        interface.
        """
        TransientTableBase.__init__(self, transient_db)
        TitledObject.__init__(self, table.Title())
        self.create(table)

    def create(self, table):
        columns = []
        for col in table.Columns():
            columns.append(ColumnReference(col.name, col.type,
                                           self.db.new_column_name()))
        TransientTableBase.create(self, columns)

        # copy the input table to the transient db

        # A key to insert to use for the formatting of the insert
        # statement. The key must not be equal to any of the column
        # names so we construct one by building a string of x's that is
        # longer than any of the column names
        id_key = max([len(col.name) for col in self.columns]) * "x"

        insert_template = "INSERT INTO %s (id, %s) VALUES (%%(%s)s, %s);" \
                               % (self.tablename,
                                  ", ".join([col.internal_name
                                             for col in self.columns]),
                                  id_key,
                                  ", ".join(["%%(%s)s" % col.name
                                             for col in self.columns]))
        cursor = self.db.cursor()
        for i in range(table.NumRows()):
            row = table.ReadRowAsDict(i)
            row[id_key] = i
            cursor.execute(insert_template, row)
        self.db.conn.commit()


class TransientJoinedTable(TitledObject, TransientTableBase):

    """A Table in the transient DB that contains a join of two tables"""

    def __init__(self, transient_db, left_table, left_field,
                 right_table, right_field = None, outer_join = False):
        """Create a new table in the transient DB as a join of two tables.

        Both input tables, left_table and right_table must have a
        transient_table method that returns a table object for a table
        in the transient database. The join is performed on the condition
        that the value of the left_field column the the left table is
        equal to the value of the right_field in the right_table.

        The joined table contains all columns of the input tables with
        one exception: Any column in the right_table with the same name
        as one of the columns in the left_table will be omitted. This is
        somewhat of an implementation detail, but is done so that the
        column names of the joined table can be the same as the column
        names of the input tables without having to create prefixes.
        """
        TransientTableBase.__init__(self, transient_db)
        self.dependencies = (left_table, right_table)
        self.left_table = left_table.transient_table()
        self.left_field = left_field
        self.right_table = right_table.transient_table()
        if right_field:
            self.right_field = right_field
        else:
            self.right_field = self.left_field
        self.outer_join = outer_join

        title = "Join of %(left)s and %(right)s" \
                % {"left": self.left_table.Title(),
                   "right": self.right_table.Title()}
        TitledObject.__init__(self, title)

        self.create()

    def create(self):
        """Internal: Create the table with the joined data"""
        self.tablename = self.db.new_table_name()

        self.right_table.ensure_index(self.right_field)

        # Coalesce the column information
        visited = {}
        columns = []
        for col in self.left_table.columns + self.right_table.columns:
            if col.name in visited:
                # We can't allow multiple columns with the same original
                # name, so omit this one. FIXME: There should be a
                # better solution.
                continue
            columns.append(col)
        TransientTableBase.create(self, columns)

        # Copy the joined data to the table.
        internal_names = [col.internal_name for col in self.columns]
        if self.outer_join:
            join_operator = 'LEFT OUTER JOIN'
        else:
            join_operator = 'JOIN'
        stmt = ("INSERT INTO %s (id, %s) SELECT %s.id, %s FROM %s"
                " %s %s ON %s = %s;"
                % (self.tablename,
                   ", ".join(internal_names),
                   self.left_table.tablename,
                   ", ".join(internal_names),
                   self.left_table.tablename,
                   join_operator,
                   self.right_table.tablename,
                   self.orig_to_internal[self.left_field],
                   self.orig_to_internal[self.right_field]))
        self.db.execute(stmt)

    def Dependencies(self):
        """Return a tuple with the two tables the join depends on."""
        return self.dependencies


class AutoTransientTable(TitledObject, table.OldTableInterfaceMixin):

    """Table that copies data to a transient table on demand.

    The AutoTransientTable takes another table as input and copies data
    to a table in a TransientDatabase instance on demand.
    """

    def __init__(self, transient_db, table):
        TitledObject.__init__(self, table.Title())
        self.transient_db = transient_db
        self.table = table
        self.t_table = None

    def Columns(self):
        return self.table.Columns()

    def Column(self, col):
        return self.table.Column(col)

    def HasColumn(self, col):
        """Return whether the table has a column with the given name or index
        """
        return self.table.HasColumn(col)

    def NumRows(self):
        return self.table.NumRows()

    def NumColumns(self):
        return self.table.NumColumns()

    def ReadRowAsDict(self, record):
        """Return the record no. record as a dict mapping field names to values
        """
        if self.t_table is not None:
            return self.t_table.ReadRowAsDict(record)
        else:
            return self.table.ReadRowAsDict(record)

    def ReadValue(self, row, col):
        """Return the value of the specified row and column

        The col parameter may be the index of the column or its name.
        """
        if self.t_table is not None:
            return self.t_table.ReadValue(row, col)
        else:
            return self.table.ReadValue(row, col)

    def copy_to_transient(self):
        """Internal: Create a transient table and copy the data into it"""
        self.t_table = TransientTable(self.transient_db, self)

    def transient_table(self):
        """
        Return a table whose underlying implementation is in the transient db
        """
        if self.t_table is None:
            self.copy_to_transient()
        return self.t_table

    def ValueRange(self, col):
        if self.t_table is None:
            self.copy_to_transient()
        return self.t_table.ValueRange(col)

    def UniqueValues(self, col):
        if self.t_table is None:
            self.copy_to_transient()
        return self.t_table.UniqueValues(col)

    def SimpleQuery(self, left, comparison, right):
        if self.t_table is None:
            self.copy_to_transient()
        # Make sure to use the column object of the transient table. The
        # left argument is always a column object so we can just ask the
        # t_table for the right object.
        if hasattr(right, "name"):
            return self.t_table.SimpleQuery(self.t_table.Column(left.name),
                                            comparison, 
                                            self.t_table.Column(right.name))
        else:
            return self.t_table.SimpleQuery(self.t_table.Column(left.name),
                                            comparison, right)

    def Dependencies(self):
        """Return a tuple containing the original table"""
        return (self.table,)
1	bh	765	# Copyright (C) 2003 by Intevation GmbH
2			# Authors:
3			# Bernhard Herzog <[email protected]>
4			#
5			# This program is free software under the GPL (>=v2)
6			# Read the file COPYING coming with the software for details.
7
8			"""Database for transient data
9
10			This database is intended for data representations needed during the
11			lifetime of a Thuban session but which is not permanent. Examples of
12			this are for instance a join of two DBF files where the DBF files are
13			the permanent representation of the data and the join only exists in the
14			Thuban session and is reconstructed when the session is opened.
15			"""
16
17			__version__ = "$Revision$"
18			# $Source$
19			# $Id$
20
21			import os
22			import weakref
23			from sqlite import connect
24
25	jan	1020	from base import TitledObject
26
27	bh	765	import table
28
29			sql_type_map = {
30			table.FIELDTYPE_INT: "INTEGER",
31			table.FIELDTYPE_STRING: "VARCHAR",
32			table.FIELDTYPE_DOUBLE: "FLOAT",
33			}
34
35			type_converter_map = {
36			table.FIELDTYPE_INT: int,
37			table.FIELDTYPE_STRING: str,
38			table.FIELDTYPE_DOUBLE: float,
39			}
40
41			class TransientDatabase:
42
43			def __init__(self, filename):
44			self.filename = filename
45			self.conn = connect(filename)
46			# Counters to produce unique table and column names
47			self.num_tables = 0
48			self.num_cols = 0
49			# Since there's only once process using the SQLite database, we
50			# might be able to get a tad more speed with default_synchronous
51			# OFF. So far I haven't seen any measurable speedup, though.
52			#self.execute("PRAGMA default_synchronous = OFF")
53
54			def __del__(self):
55			self.close()
56
57			def close(self):
58	bh	777	if self.conn is not None:
59	bh	765	self.conn.close()
60	bh	777	self.conn = None
61	bh	765
62			def new_table_name(self):
63			self.num_tables += 1
64			return "Table%03d" % self.num_tables
65
66			def new_column_name(self):
67			self.num_cols += 1
68			return "Col%03d" % self.num_cols
69
70			def execute(self, *args):
71			"""execute the SQL statement in the database and return the result"""
72			cursor = self.conn.cursor()
73			cursor.execute(*args)
74			result = cursor.fetchone()
75			self.conn.commit()
76			return result
77
78			def cursor(self):
79			return self.conn.cursor()
80
81
82			class ColumnReference:
83
84			def __init__(self, name, type, internal_name):
85			self.name = name
86			self.type = type
87			self.internal_name = internal_name
88
89
90	bh	818	class TransientTableBase(table.OldTableInterfaceMixin):
91	bh	765
92			"""Base class for tables in the transient database"""
93
94			def __init__(self, transient_db):
95			"""Initialize the table for use with the given transient db"""
96			self.db = transient_db
97			self.tablename = self.db.new_table_name()
98			self.indexed_columns = {}
99			self.read_record_cursor = None
100			self.read_record_last_row = None
101	bh	785	self.read_record_last_result = None
102	bh	765
103			def create(self, columns):
104			self.columns = columns
105			self.name_to_column = {}
106			self.orig_names = []
107			self.internal_to_orig = {}
108			self.orig_to_internal = {}
109	bh	818	self.column_map = {}
110	bh	765
111			# Create the column objects and fill various maps and lists
112	bh	818	for index in range(len(self.columns)):
113			col = self.columns[index]
114	bh	765	self.name_to_column[col.name] = col
115			self.orig_names.append(col.name)
116			self.internal_to_orig[col.internal_name] = col.name
117			self.orig_to_internal[col.name] = col.internal_name
118	bh	818	self.column_map[col.name] = col
119			self.column_map[index] = col
120	bh	765
121			# Build the CREATE TABLE statement and create the table in the
122			# database
123	bh	841	table_types = ["id INTEGER PRIMARY KEY"]
124	bh	765	for col in self.columns:
125			table_types.append("%s %s" % (col.internal_name,
126			sql_type_map[col.type]))
127			table_stmt = "CREATE TABLE %s (\n %s\n);" % (self.tablename,
128			",\n ".join(table_types))
129			self.db.execute(table_stmt)
130
131			def transient_table(self):
132			"""
133			Return a table whose underlying implementation is in the transient db
134			"""
135			return self
136
137			def ensure_index(self, column):
138			"""Ensure that there's an index on the given column"""
139			if not column in self.indexed_columns:
140			internal_name = self.orig_to_internal[column]
141			indexname = "Index_%s_%s" % (self.tablename, internal_name)
142			stmt = "CREATE INDEX %s ON %s (%s);" % (indexname, self.tablename,
143			internal_name)
144			self.db.execute(stmt)
145			self.indexed_columns[column] = 1
146
147	bh	818	def NumColumns(self):
148	bh	765	return len(self.columns)
149
150	bh	818	def NumRows(self):
151	bh	765	result = self.db.execute("SELECT count(*) FROM %s;" % self.tablename)
152			return int(result[0])
153
154	bh	818	def Columns(self):
155			return self.columns
156
157			def Column(self, col):
158			return self.column_map[col]
159
160	bh	839	def HasColumn(self, col):
161			"""Return whether the table has a column with the given name or index
162			"""
163			return self.column_map.has_key(col)
164
165	bh	818	def ReadRowAsDict(self, index):
166	bh	849	# Implementation Strategy: Executing a completely new select
167			# statement every time this method is called is too slow. The
168			# most important usage is to read the records more or less
169			# sequentially. This happens e.g. when drawing a layer with a
170			# classification where the shapes are drawn in order of the
171			# shape ids. Another pattern is that the same row is requested
172			# several times in a row. This happens in the table view, for
173			# instance.
174
175			# We can exploit this to make access faster by having one cursor
176			# open all the time and keeping the last row read around in case
177			# the same row is accessed again the next time and if the row
178			# index is larger than the row we have read last we simply fetch
179			# rows from the cursor until we've reached the requested row. If
180			# the requested row index is smaller then we start a new cursor.
181
182			# FIXME: So far this scheme seems to work well enough. Obvious
183			# improvements would be to start the cursor at exactly the
184			# requested row (should be efficient and easy to do now that the
185			# id is the primary key) and to perhaps to also start a new
186			# cursor if the requested index is much larger than the last row
187			# so that we don't read and discard lots of the rows.
188
189			# Check whether we have to start a new cursor
190	bh	765	if self.read_record_cursor is None or index <self.read_record_last_row:
191			stmt = ("SELECT %s FROM %s;"
192			% (", ".join([c.internal_name for c in self.columns]),
193			self.tablename))
194			self.read_record_cursor = self.db.cursor()
195			self.read_record_cursor.execute(stmt)
196			self.read_record_last_row = -1
197	bh	785	self.read_record_last_result = None
198
199			# Now we should have a cursor at a position less than or equal
200			# to the index so the following if statement will always set
201			# result to a suitable value
202			assert index >= self.read_record_last_row
203
204			if index == self.read_record_last_row:
205	bh	818	result = self.read_record_last_result
206	bh	785	else:
207			for i in range(index - self.read_record_last_row):
208			result = self.read_record_cursor.fetchone()
209			self.read_record_last_result = result
210	bh	765	self.read_record_last_row = index
211	bh	785	return dict(zip(self.orig_names, result))
212	bh	765
213	bh	849	def ReadValue(self, row, col):
214			"""Return the value of the specified row and column
215
216			The col parameter may be the index of the column or its name.
217			"""
218			# Depending on the actual access patterns of the table data, it
219			# might be a bit faster in some circumstances to not implement
220			# this via ReadRowAsDict, but this simple implementation should
221			# be fast enough for most purposes.
222			return self.ReadRowAsDict(row)[self.column_map[col].name]
223
224	bh	818	def ValueRange(self, col):
225			col = self.column_map[col]
226	bh	765	iname = col.internal_name
227			min, max = self.db.execute("SELECT min(%s), max(%s) FROM %s;"
228			% (iname, iname, self.tablename))
229			converter = type_converter_map[col.type]
230	bh	818	return (converter(min), converter(max))
231	bh	765
232	bh	818	def UniqueValues(self, col):
233			iname = self.column_map[col].internal_name
234	bh	765	cursor = self.db.cursor()
235			cursor.execute("SELECT %s FROM %s GROUP BY %s;"
236			% (iname, self.tablename, iname))
237			result = []
238			while 1:
239			row = cursor.fetchone()
240			if row is None:
241			break
242			result.append(row[0])
243			return result
244
245	bh	841	def SimpleQuery(self, left, comparison, right):
246			"""Return the indices of all rows that matching a condition.
247	bh	765
248	bh	841	Parameters:
249			left -- The column object for the left side of the comparison
250
251			comparison -- The comparison operator as a string. It must be
252			one of '==', '!=', '<', '<=', '>=', '>'
253
254			right -- The right hand side of the comparison. It must be
255			either a column object or a value, i.e. a string,
256			int or float.
257
258			The return value is a sorted list of the indices of the rows
259			where the condition is true.
260			"""
261			if comparison not in ("==", "!=", "<", "<=", ">=", ">"):
262			raise ValueError("Comparison operator %r not allowed" % comparison)
263
264			if hasattr(right, "internal_name"):
265			right_template = right.internal_name
266			params = ()
267			else:
268			right_template = "%s"
269			params = (right,)
270
271			query = "SELECT id FROM %s WHERE %s %s %s ORDER BY id;" \
272			% (self.tablename, left.internal_name, comparison,
273			right_template)
274
275			cursor = self.db.cursor()
276			cursor.execute(query, params)
277			result = []
278			while 1:
279			row = cursor.fetchone()
280			if row is None:
281			break
282			result.append(row[0])
283			return result
284
285	bh	984	def Dependencies(self):
286			"""Placeholder for a method in a derived class.
287	bh	841
288	bh	984	Return a sequence with the tables and other data objects that
289			self depends on.
290			"""
291			raise NotImplementedError
292
293
294	jan	1020	class TransientTable(TitledObject, TransientTableBase):
295	bh	765
296			"""A Table in a transient DB that starts as the copy of a Thuban Table."""
297
298			def __init__(self, transient_db, table):
299			"""Create a new table in the given transient DB as a copy of table
300
301			The table argument can be any object implementing the Table
302			interface.
303			"""
304			TransientTableBase.__init__(self, transient_db)
305	jan	1020	TitledObject.__init__(self, table.Title())
306	bh	765	self.create(table)
307
308			def create(self, table):
309			columns = []
310	bh	818	for col in table.Columns():
311			columns.append(ColumnReference(col.name, col.type,
312	bh	765	self.db.new_column_name()))
313			TransientTableBase.create(self, columns)
314
315			# copy the input table to the transient db
316	bh	841
317			# A key to insert to use for the formatting of the insert
318			# statement. The key must not be equal to any of the column
319			# names so we construct one by building a string of x's that is
320			# longer than any of the column names
321			id_key = max([len(col.name) for col in self.columns]) * "x"
322
323			insert_template = "INSERT INTO %s (id, %s) VALUES (%%(%s)s, %s);" \
324	bh	765	% (self.tablename,
325			", ".join([col.internal_name
326			for col in self.columns]),
327	bh	841	id_key,
328	bh	765	", ".join(["%%(%s)s" % col.name
329			for col in self.columns]))
330			cursor = self.db.cursor()
331	bh	818	for i in range(table.NumRows()):
332	bh	841	row = table.ReadRowAsDict(i)
333			row[id_key] = i
334			cursor.execute(insert_template, row)
335	bh	765	self.db.conn.commit()
336
337
338
339	jan	1020	class TransientJoinedTable(TitledObject, TransientTableBase):
340	bh	765
341			"""A Table in the transient DB that contains a join of two tables"""
342
343			def __init__(self, transient_db, left_table, left_field,
344	frank	1009	right_table, right_field = None, outer_join = False):
345	bh	765	"""Create a new table in the transient DB as a join of two tables.
346
347			Both input tables, left_table and right_table must have a
348			transient_table method that returns a table object for a table
349	frank	1002	in the transient database. The join is performed on the condition
350	bh	765	that the value of the left_field column the the left table is
351			equal to the value of the right_field in the right_table.
352
353			The joined table contains all columns of the input tables with
354			one exception: Any column in the right_table with the same name
355			as one of the columns in the left_table will be omitted. This is
356			somewhat of an implementation detail, but is done so that the
357			column names of the joined table can be the same as the column
358			names of the input tables without having to create prefixes.
359			"""
360			TransientTableBase.__init__(self, transient_db)
361	bh	984	self.dependencies = (left_table, right_table)
362	bh	765	self.left_table = left_table.transient_table()
363			self.left_field = left_field
364			self.right_table = right_table.transient_table()
365			if right_field:
366			self.right_field = right_field
367			else:
368			self.right_field = self.left_field
369	frank	1009	self.outer_join = outer_join
370	jan	1020
371			title = "Join of %(left)s and %(right)s" \
372			% {"left": self.left_table.Title(),
373			"right": self.right_table.Title()}
374			TitledObject.__init__(self, title)
375
376	bh	765	self.create()
377
378			def create(self):
379			"""Internal: Create the table with the joined data"""
380			self.tablename = self.db.new_table_name()
381
382			self.right_table.ensure_index(self.right_field)
383
384			# Coalesce the column information
385			visited = {}
386			columns = []
387			for col in self.left_table.columns + self.right_table.columns:
388			if col.name in visited:
389	bh	841	# We can't allow multiple columns with the same original
390			# name, so omit this one. FIXME: There should be a
391			# better solution.
392	bh	765	continue
393			columns.append(col)
394			TransientTableBase.create(self, columns)
395
396			# Copy the joined data to the table.
397			internal_names = [col.internal_name for col in self.columns]
398	frank	1009	if self.outer_join:
399			join_operator = 'LEFT OUTER JOIN'
400			else:
401			join_operator = 'JOIN'
402	bh	841	stmt = ("INSERT INTO %s (id, %s) SELECT %s.id, %s FROM %s"
403	frank	1009	" %s %s ON %s = %s;"
404	bh	841	% (self.tablename,
405			", ".join(internal_names),
406			self.left_table.tablename,
407			", ".join(internal_names),
408			self.left_table.tablename,
409	frank	1009	join_operator,
410	bh	841	self.right_table.tablename,
411			self.orig_to_internal[self.left_field],
412			self.orig_to_internal[self.right_field]))
413	bh	765	self.db.execute(stmt)
414
415	bh	984	def Dependencies(self):
416			"""Return a tuple with the two tables the join depends on."""
417			return self.dependencies
418	bh	765
419	bh	984
420	jan	1020	class AutoTransientTable(TitledObject, table.OldTableInterfaceMixin):
421	bh	765
422			"""Table that copies data to a transient table on demand.
423
424			The AutoTransientTable takes another table as input and copies data
425			to a table in a TransientDatabase instance on demand.
426			"""
427
428			def __init__(self, transient_db, table):
429	jan	1020	TitledObject.__init__(self, table.Title())
430	bh	765	self.transient_db = transient_db
431			self.table = table
432			self.t_table = None
433
434	bh	818	def Columns(self):
435			return self.table.Columns()
436	bh	765
437	bh	818	def Column(self, col):
438			return self.table.Column(col)
439	bh	765
440	bh	839	def HasColumn(self, col):
441			"""Return whether the table has a column with the given name or index
442			"""
443			return self.table.HasColumn(col)
444
445	bh	818	def NumRows(self):
446			return self.table.NumRows()
447	bh	765
448	bh	818	def NumColumns(self):
449			return self.table.NumColumns()
450	bh	765
451	bh	818	def ReadRowAsDict(self, record):
452	bh	765	"""Return the record no. record as a dict mapping field names to values
453			"""
454			if self.t_table is not None:
455	bh	839	return self.t_table.ReadRowAsDict(record)
456	bh	765	else:
457	bh	818	return self.table.ReadRowAsDict(record)
458	bh	765
459	bh	849	def ReadValue(self, row, col):
460			"""Return the value of the specified row and column
461
462			The col parameter may be the index of the column or its name.
463			"""
464			if self.t_table is not None:
465			return self.t_table.ReadValue(row, col)
466			else:
467			return self.table.ReadValue(row, col)
468
469	bh	765	def copy_to_transient(self):
470			"""Internal: Create a transient table and copy the data into it"""
471			self.t_table = TransientTable(self.transient_db, self)
472
473			def transient_table(self):
474			"""
475			Return a table whose underlying implementation is in the transient db
476			"""
477			if self.t_table is None:
478			self.copy_to_transient()
479			return self.t_table
480
481	bh	818	def ValueRange(self, col):
482	bh	765	if self.t_table is None:
483			self.copy_to_transient()
484	bh	839	return self.t_table.ValueRange(col)
485	bh	765
486	bh	839	def UniqueValues(self, col):
487	bh	765	if self.t_table is None:
488			self.copy_to_transient()
489	bh	839	return self.t_table.UniqueValues(col)
490	bh	844
491			def SimpleQuery(self, left, comparison, right):
492			if self.t_table is None:
493			self.copy_to_transient()
494			# Make sure to use the column object of the transient table. The
495			# left argument is always a column object so we can just ask the
496			# t_table for the right object.
497	jonathan	933	if hasattr(right, "name"):
498			return self.t_table.SimpleQuery(self.t_table.Column(left.name),
499			comparison,
500			self.t_table.Column(right.name))
501			else:
502			return self.t_table.SimpleQuery(self.t_table.Column(left.name),
503			comparison, right)
504	bh	984
505			def Dependencies(self):
506			"""Return a tuple containing the original table"""
507			return (self.table,)
Name	Value
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