def _schema(self, bdb, generator_id):
# Probe the cache.
cache = self._cache(bdb)
if cache is not None:
if generator_id in cache.schema:
return cache.schema[generator_id]
# Not cached. Load the schema from the database.
cursor = bdb.sql_execute(
'''
SELECT schema_json FROM bayesdb_cgpm_generator
WHERE generator_id = ?
''', (generator_id, ))
schema_json = cursor_value(cursor, nullok=True)
if schema_json is None:
generator = core.bayesdb_generator_name(bdb, generator_id)
raise BQLError(bdb, 'No such CGPM generator: %r' % (generator, ))
# Deserialize the schema.
schema = json.loads(schema_json)
# Cache it, if we can.
if cache is not None:
cache.schema[generator_id] = schema
return schema
def _engine(self, bdb, generator_id):
# Probe the cache.
cache = self._cache(bdb)
if cache is not None and generator_id in cache.engine:
return cache.engine[generator_id]
# Not cached. Load the engine from the database.
cursor = bdb.sql_execute(
'''
SELECT engine_json FROM bayesdb_cgpm_generator
WHERE generator_id = ?
''', (generator_id, ))
engine_json = cursor_value(cursor)
if engine_json is None:
generator = core.bayesdb_generator_name(bdb, generator_id)
raise BQLError(
bdb, 'No models initialized for generator: %r' % (generator, ))
# Deserialize the engine.
engine = Engine.from_metadata(json.loads(engine_json),
rng=bdb.np_prng,
multiprocess=self._ncpu)
# Cache it, if we can.
if cache is not None:
cache.engine[generator_id] = engine
return engine
def drop_generator(self, bdb, genid):
with bdb.savepoint():
# Clear caches.
keys = [k for k in self._predictor_cache(bdb) if k[0] == genid]
for k in keys:
del self._predictor_cache(bdb)[k]
# Obtain before losing references.
cc_name = core.bayesdb_generator_name(bdb, self.cc_id(bdb, genid))
# Delete tables reverse order of insertion.
bdb.sql_execute('''
DELETE FROM bayesdb_composer_column_foreign_predictor
WHERE generator_id = ?
''', (genid,))
bdb.sql_execute('''
DELETE FROM bayesdb_composer_cc_id
WHERE generator_id = ?
''', (genid,))
bdb.sql_execute('''
DELETE FROM bayesdb_composer_column_toposort
WHERE generator_id = ?
''', (genid,))
bdb.sql_execute('''
DELETE FROM bayesdb_composer_column_parents
WHERE generator_id = ?
''', (genid,))
bdb.sql_execute('''
DELETE FROM bayesdb_composer_column_owner
WHERE generator_id = ?
''', (genid,))
# Drop internal crosscat.
bdb.execute('''
DROP GENERATOR {}
'''.format(quote(cc_name)))
def drop_models(self, bdb, genid, modelnos=None):
qg = quote(core.bayesdb_generator_name(bdb, self.cc_id(bdb, genid)))
if modelnos is not None:
models = ",".join(str(modelno) for modelno in modelnos)
bql = 'DROP MODELS {} FROM {};'.format(models, qg)
else:
bql = 'DROP MODELS FROM {};'.format(qg)
bdb.execute(bql)
def analyzed_bayesdb_population(mkbdb, nmodels, nsteps, max_seconds=None):
with mkbdb as (bdb, population_id, generator_id):
generator = core.bayesdb_generator_name(bdb, generator_id)
qg = bql_quote_name(generator)
bql = 'INITIALIZE %d MODELS FOR %s' % (nmodels, qg)
bdb.execute(bql)
# XXX Syntax currently doesn't support both nsteps and
# max_seconds.
duration = None
if max_seconds:
duration = '%d SECONDS' % (max_seconds, )
else:
duration = '%d ITERATIONS' % (nsteps, )
bql = 'ANALYZE %s FOR %s' % (qg, duration)
bdb.execute(bql)
yield bdb, population_id, generator_id
def analyzed_bayesdb_generator(mkbdb, nmodels, nsteps, max_seconds=None):
with mkbdb as (bdb, generator_id):
generator = core.bayesdb_generator_name(bdb, generator_id)
qg = bql_quote_name(generator)
bql = 'INITIALIZE %d MODELS FOR %s' % (nmodels, qg)
bdb.execute(bql)
# XXX Syntax currently doesn't support both nsteps and
# max_seconds.
duration = None
if max_seconds:
duration = '%d SECONDS' % (max_seconds,)
else:
duration = '%d ITERATIONS' % (nsteps,)
bql = 'ANALYZE %s FOR %s WAIT' % (qg, duration)
bdb.execute(bql)
yield bdb, generator_id
def initialize_models(self, bdb, genid, modelnos, model_config):
# Initialize internal crosscat, maintaining equality of model numbers.
# The semantics of INITIALIZE are that it guarantees the existence
# of a sequence of models up to the requested number of them,
# and BayesDB computes the numbers that need to be filled in.
# The inverse of that computation is max(modelnos)+1.
qg = quote(core.bayesdb_generator_name(bdb, self.cc_id(bdb, genid)))
bql = 'INITIALIZE {} MODELS FOR {};'.format(max(modelnos)+1, qg)
bdb.execute(bql)
# Initialize the foriegn predictors.
for fcol in self.fcols(bdb, genid):
# Convert column numbers to names.
targets = \
[(core.bayesdb_generator_column_name(bdb, genid, fcol),
core.bayesdb_generator_column_stattype(bdb, genid, fcol))]
conditions = \
[(core.bayesdb_generator_column_name(bdb, genid, pcol),
core.bayesdb_generator_column_stattype(bdb, genid, pcol))
for pcol in self.pcols(bdb, genid, fcol)]
# Initialize the foreign predictor.
table_name = core.bayesdb_generator_table(bdb, genid)
predictor_name = self.predictor_name(bdb, genid, fcol)
builder = self.predictor_builder[predictor_name]
predictor = builder.create(bdb, table_name, targets, conditions)
# Store in the database.
with bdb.savepoint():
sql = '''
UPDATE bayesdb_composer_column_foreign_predictor SET
predictor_binary = :predictor_binary
WHERE generator_id = :genid AND colno = :colno
'''
predictor_binary = builder.serialize(bdb, predictor)
bdb.sql_execute(sql, {
'genid': genid,
'predictor_binary': sqlite3.Binary(predictor_binary),
'colno': fcol
})
def _generate_name(self, bdb, generator_id):
generator_name = bayesdb_generator_name(bdb, generator_id)
timestamp = datetime.now().strftime('%Y%m%d-%H%M%S')
return '%s_%s' % (timestamp, generator_name)
def execute_phrase(bdb, phrase, bindings=()):
"""Execute the BQL AST phrase `phrase` and return a cursor of results."""
if isinstance(phrase, ast.Parametrized):
n_numpar = phrase.n_numpar
nampar_map = phrase.nampar_map
phrase = phrase.phrase
assert 0 < n_numpar
else:
n_numpar = 0
nampar_map = None
# Ignore extraneous bindings. XXX Bad idea?
if ast.is_query(phrase):
# Compile the query in the transaction in case we need to
# execute subqueries to determine column lists. Compiling is
# a quick tree descent, so this should be fast.
out = compiler.Output(n_numpar, nampar_map, bindings)
with bdb.savepoint():
compiler.compile_query(bdb, phrase, out)
winders, unwinders = out.getwindings()
return execute_wound(bdb, winders, unwinders, out.getvalue(),
out.getbindings())
if isinstance(phrase, ast.Begin):
txn.bayesdb_begin_transaction(bdb)
return empty_cursor(bdb)
if isinstance(phrase, ast.Rollback):
txn.bayesdb_rollback_transaction(bdb)
return empty_cursor(bdb)
if isinstance(phrase, ast.Commit):
txn.bayesdb_commit_transaction(bdb)
return empty_cursor(bdb)
if isinstance(phrase, ast.CreateTabAs):
assert ast.is_query(phrase.query)
with bdb.savepoint():
if core.bayesdb_has_table(bdb, phrase.name):
if phrase.ifnotexists:
return empty_cursor(bdb)
else:
raise BQLError(bdb,
'Name already defined as table: %s' %
(repr(phrase.name),))
out = compiler.Output(n_numpar, nampar_map, bindings)
qt = sqlite3_quote_name(phrase.name)
temp = 'TEMP ' if phrase.temp else ''
ifnotexists = 'IF NOT EXISTS ' if phrase.ifnotexists else ''
out.write('CREATE %sTABLE %s%s AS ' % (temp, ifnotexists, qt))
compiler.compile_query(bdb, phrase.query, out)
winders, unwinders = out.getwindings()
with compiler.bayesdb_wind(bdb, winders, unwinders):
bdb.sql_execute(out.getvalue(), out.getbindings())
return empty_cursor(bdb)
if isinstance(phrase, ast.CreateTabCsv):
with bdb.savepoint():
table_exists = core.bayesdb_has_table(bdb, phrase.name)
if table_exists:
if phrase.ifnotexists:
return empty_cursor(bdb)
else:
raise BQLError(bdb, 'Table already exists: %s' %
(repr(phrase.name),))
bayesdb_read_csv_file(
bdb, phrase.name, phrase.csv, header=True, create=True)
return empty_cursor(bdb)
if isinstance(phrase, ast.DropTab):
with bdb.savepoint():
sql = 'SELECT COUNT(*) FROM bayesdb_population WHERE tabname = ?'
cursor = bdb.sql_execute(sql, (phrase.name,))
if 0 < cursor_value(cursor):
raise BQLError(bdb, 'Table still in use by populations: %s' %
(repr(phrase.name),))
bdb.sql_execute('DELETE FROM bayesdb_column WHERE tabname = ?',
(phrase.name,))
ifexists = 'IF EXISTS ' if phrase.ifexists else ''
qt = sqlite3_quote_name(phrase.name)
return bdb.sql_execute('DROP TABLE %s%s' % (ifexists, qt))
if isinstance(phrase, ast.AlterTab):
with bdb.savepoint():
table = phrase.table
if not core.bayesdb_has_table(bdb, table):
raise BQLError(bdb, 'No such table: %s' % (repr(table),))
for cmd in phrase.commands:
if isinstance(cmd, ast.AlterTabRenameTab):
# If the names differ only in case, we have to do
# some extra work because SQLite will reject the
# table rename. Note that we may even have table
# == cmd.name here, but if the stored table name
# differs in case from cmd.name, we want to update
# it anyway.
if casefold(table) == casefold(cmd.name):
# Go via a temporary table.
temp = table + '_temp'
while core.bayesdb_has_table(bdb, temp):
temp += '_temp'
rename_table(bdb, table, temp)
rename_table(bdb, temp, cmd.name)
else:
# Make sure nothing else has this name and
# rename it.
if core.bayesdb_has_table(bdb, cmd.name):
raise BQLError(bdb,
'Name already defined as table: %s'
% (repr(cmd.name),))
rename_table(bdb, table, cmd.name)
# If table has implicit population, rename it too.
if core.bayesdb_table_has_implicit_population(
bdb, cmd.name):
populations = \
core.bayesdb_table_populations(bdb, cmd.name)
assert len(populations) == 1
population_name = core.bayesdb_population_name(
bdb, populations[0])
qt = sqlite3_quote_name(cmd.name)
qp = sqlite3_quote_name(population_name)
bdb.execute('ALTER POPULATION %s RENAME TO %s'
% (qp, qt))
# Remember the new name for subsequent commands.
table = cmd.name
elif isinstance(cmd, ast.AlterTabRenameCol):
# XXX Need to deal with this in the compiler.
raise NotImplementedError('Renaming columns'
' not yet implemented.')
# Make sure the old name exist and the new name does not.
old_folded = casefold(cmd.old)
new_folded = casefold(cmd.new)
if old_folded != new_folded:
if not core.bayesdb_table_has_column(bdb, table,
cmd.old):
raise BQLError(bdb, 'No such column in table %s'
': %s' %
(repr(table), repr(cmd.old)))
if core.bayesdb_table_has_column(bdb, table, cmd.new):
raise BQLError(bdb, 'Column already exists'
' in table %s: %s' %
(repr(table), repr(cmd.new)))
# Update bayesdb_column. Everything else refers
# to columns by (tabname, colno) pairs rather than
# by names.
update_column_sql = '''
UPDATE bayesdb_column SET name = :new
WHERE tabname = :table AND name = :old
'''
total_changes = bdb._sqlite3.totalchanges()
bdb.sql_execute(update_column_sql, {
'table': table,
'old': cmd.old,
'new': cmd.new,
})
assert bdb._sqlite3.totalchanges() - total_changes == 1
# ...except backends may have the (case-folded) name cached.
if old_folded != new_folded:
populations_sql = '''
SELECT id FROM bayesdb_population WHERE tabname = ?
'''
cursor = bdb.sql_execute(populations_sql, (table,))
generators = [
core.bayesdb_population_generators(
bdb, population_id)
for (population_id,) in cursor
]
for generator_id in set(generators):
backend = core.bayesdb_generator_backend(bdb,
generator_id)
backend.rename_column(bdb, generator_id,
old_folded, new_folded)
else:
assert False, 'Invalid alter table command: %s' % \
(cmd,)
return empty_cursor(bdb)
if isinstance(phrase, ast.GuessSchema):
if not core.bayesdb_has_table(bdb, phrase.table):
raise BQLError(bdb, 'No such table : %s' % phrase.table)
out = compiler.Output(0, {}, {})
with bdb.savepoint():
qt = sqlite3_quote_name(phrase.table)
temptable = bdb.temp_table_name()
qtt = sqlite3_quote_name(temptable)
cursor = bdb.sql_execute('SELECT * FROM %s' % (qt,))
column_names = [d[0] for d in cursor.description]
rows = cursor.fetchall()
stattypes = bayesdb_guess_stattypes(column_names, rows)
distinct_value_counts = [
len(set([row[i] for row in rows]))
for i in range(len(column_names))
]
out.winder('''
CREATE TEMP TABLE %s (
column TEXT,
stattype TEXT,
num_distinct INTEGER,
reason TEXT
)
''' % (qtt,), ())
for cn, st, ct in zip(column_names, stattypes, distinct_value_counts):
out.winder('''
INSERT INTO %s VALUES (?, ?, ?, ?)
''' % (qtt), (cn, st[0], ct, st[1]))
out.write('SELECT * FROM %s' % (qtt,))
out.unwinder('DROP TABLE %s' % (qtt,), ())
winders, unwinders = out.getwindings()
return execute_wound(
bdb, winders, unwinders, out.getvalue(), out.getbindings())
if isinstance(phrase, ast.CreatePop):
with bdb.savepoint():
_create_population(bdb, phrase)
return empty_cursor(bdb)
if isinstance(phrase, ast.DropPop):
with bdb.savepoint():
if not core.bayesdb_has_population(bdb, phrase.name):
if phrase.ifexists:
return empty_cursor(bdb)
raise BQLError(bdb, 'No such population: %r' % (phrase.name,))
population_id = core.bayesdb_get_population(bdb, phrase.name)
generator_ids = core.bayesdb_population_generators(
bdb, population_id)
if generator_ids:
generators = [core.bayesdb_generator_name(bdb, gid)
for gid in generator_ids]
raise BQLError(bdb, 'Population %r still has generators: %r' %
(phrase.name, generators))
# XXX helpful error checking if generators still exist
# XXX check change counts
bdb.sql_execute('''
DELETE FROM bayesdb_variable WHERE population_id = ?
''', (population_id,))
bdb.sql_execute('''
DELETE FROM bayesdb_population WHERE id = ?
''', (population_id,))
return empty_cursor(bdb)
if isinstance(phrase, ast.AlterPop):
with bdb.savepoint():
population = phrase.population
if not core.bayesdb_has_population(bdb, population):
raise BQLError(bdb, 'No such population: %s' %
(repr(population),))
population_id = core.bayesdb_get_population(bdb, population)
for cmd in phrase.commands:
if isinstance(cmd, ast.AlterPopRenamePop):
table = core.bayesdb_population_table(bdb, population_id)
# Prevent renaming of implicit population directly, unless
# being called by ast.AlterTabRenameTab in which case the
# table name and population name will not be matching.
if core.bayesdb_population_is_implicit(bdb, population_id) \
and casefold(population) == casefold(table):
raise BQLError(bdb, 'Cannot rename implicit'
'population %s; rename base table instead'
% (population,))
# Make sure nothing else has this name.
if casefold(population) != casefold(cmd.name):
if core.bayesdb_has_population(bdb, cmd.name):
raise BQLError(bdb,
'Name already defined as population' ': %s'
% (repr(cmd.name),))
# Update bayesdb_population. Everything else
# refers to it by id.
update_generator_sql = '''
UPDATE bayesdb_population SET name = ? WHERE id = ?
'''
total_changes = bdb._sqlite3.totalchanges()
bdb.sql_execute(update_generator_sql,
(cmd.name, population_id))
assert bdb._sqlite3.totalchanges() - total_changes == 1
# If population has implicit generator, rename it too.
if core.bayesdb_population_has_implicit_generator(
bdb, population_id):
generators = core.bayesdb_population_generators(
bdb, population_id)
assert len(generators) == 1
generator_name = core.bayesdb_generator_name(
bdb, generators[0])
qp = sqlite3_quote_name(cmd.name)
qg = sqlite3_quote_name(generator_name)
bdb.execute('ALTER GENERATOR %s RENAME TO %s'
% (qg, qp,))
# Remember the new name for subsequent commands.
population = cmd.name
elif isinstance(cmd, ast.AlterPopAddVar):
# Ensure column exists in base table.
table = core.bayesdb_population_table(bdb, population_id)
if not core.bayesdb_table_has_column(
bdb, table, cmd.name):
raise BQLError(bdb,
'No such variable in base table: %s'
% (cmd.name))
# Ensure variable not already in population.
if core.bayesdb_has_variable(
bdb, population_id, None, cmd.name):
raise BQLError(bdb,
'Variable already in population: %s'
% (cmd.name))
# Ensure there is at least observation in the column.
qt = sqlite3_quote_name(table)
qc = sqlite3_quote_name(cmd.name)
cursor = bdb.sql_execute(
'SELECT COUNT(*) FROM %s WHERE %s IS NOT NULL' %
(qt, qc))
if cursor_value(cursor) == 0:
raise BQLError(bdb,
'Cannot add variable without any values: %s'
% (cmd.name))
# If stattype is None, guess.
if cmd.stattype is None:
cursor = bdb.sql_execute(
'SELECT %s FROM %s' % (qc, qt))
rows = cursor.fetchall()
[stattype, reason] = bayesdb_guess_stattypes(
[cmd.name], rows)[0]
# Fail if trying to model a key.
if stattype == 'key':
raise BQLError(bdb,
'Values in column %s appear to be keys.'
% (cmd.name,))
# Fail if cannot determine a stattype.
elif stattype == 'ignore':
raise BQLError(bdb,
'Failed to determine a stattype for %s, '
'please specify one manually.' % (cmd.name,))
# If user specified stattype, ensure it exists.
elif not core.bayesdb_has_stattype(bdb, cmd.stattype):
raise BQLError(bdb,
'Invalid stattype: %s' % (cmd.stattype))
else:
stattype = cmd.stattype
# Check that strings are not being modeled as numerical.
if stattype == 'numerical' \
and _column_contains_string(bdb, table, cmd.name):
raise BQLError(bdb,
'Numerical column contains string values: %r '
% (qc,))
with bdb.savepoint():
# Add the variable to the population.
core.bayesdb_add_variable(
bdb, population_id, cmd.name, stattype)
colno = core.bayesdb_variable_number(
bdb, population_id, None, cmd.name)
# Add the variable to each (initialized) generator in
# the population.
generator_ids = filter(
lambda g: core.bayesdb_generator_modelnos(bdb, g),
core.bayesdb_population_generators(
bdb, population_id),
)
for generator_id in generator_ids:
backend = core.bayesdb_generator_backend(
bdb, generator_id)
backend.add_column(bdb, generator_id, colno)
elif isinstance(cmd, ast.AlterPopStatType):
# Check the no generators are defined for this population.
generators = core.bayesdb_population_generators(
bdb, population_id)
if generators:
raise BQLError(bdb,
'Cannot update statistical types for population '
'%s, it has generators: %s'
% (repr(population), repr(generators),))
# Check all the variables are in the population.
unknown = [
c for c in cmd.names if not
core.bayesdb_has_variable(bdb, population_id, None, c)
]
if unknown:
raise BQLError(bdb,
'No such variables in population: %s'
% (repr(unknown)))
# Check the statistical type is valid.
if not core.bayesdb_has_stattype(bdb, cmd.stattype):
raise BQLError(bdb,
'Invalid statistical type: %r'
% (repr(cmd.stattype),))
# Check that strings are not being modeled as numerical.
if cmd.stattype == 'numerical':
table = core.bayesdb_population_table(
bdb, population_id)
numerical_string_vars = [
col for col in cmd.names
if _column_contains_string(bdb, table, col)
]
if numerical_string_vars:
raise BQLError(bdb,
'Columns with string values modeled as '
'numerical: %r' % (numerical_string_vars,))
# Perform the stattype update.
colnos = [
core.bayesdb_variable_number(
bdb, population_id, None, c) for c in cmd.names
]
qcolnos = ','.join('%d' % (colno,) for colno in colnos)
update_stattype_sql = '''
UPDATE bayesdb_variable SET stattype = ?
WHERE population_id = ? AND colno IN (%s)
''' % (qcolnos,)
bdb.sql_execute(
update_stattype_sql,
(casefold(cmd.stattype), population_id,))
else:
assert False, 'Invalid ALTER POPULATION command: %s' % \
(repr(cmd),)
return empty_cursor(bdb)
if isinstance(phrase, ast.CreateGen):
# Find the population.
if not core.bayesdb_has_population(bdb, phrase.population):
raise BQLError(bdb, 'No such population: %r' %
(phrase.population,))
population_id = core.bayesdb_get_population(bdb, phrase.population)
# Find the backend, or use the default.
backend_name = phrase.backend
if phrase.backend is None:
backend_name = 'cgpm'
if backend_name not in bdb.backends:
raise BQLError(bdb, 'No such backend: %s' %
(repr(backend_name),))
backend = bdb.backends[backend_name]
# Retrieve the (possibility implicit) generator name.
generator_name = phrase.name or phrase.population
implicit = 1 if phrase.name is None else 0
with bdb.savepoint():
if core.bayesdb_has_generator(bdb, population_id, generator_name):
if not phrase.ifnotexists:
raise BQLError(
bdb, 'Name already defined as generator: %s' %
(repr(generator_name),))
else:
# Insert a record into bayesdb_generator and get the
# assigned id.
bdb.sql_execute('''
INSERT INTO bayesdb_generator
(name, population_id, backend, implicit)
VALUES (?, ?, ?, ?)
''', (generator_name, population_id, backend.name(), implicit))
generator_id = core.bayesdb_get_generator(
bdb, population_id, generator_name)
# Do any backend-specific initialization.
backend.create_generator(bdb, generator_id, phrase.schema)
# All done. Nothing to return.
return empty_cursor(bdb)
if isinstance(phrase, ast.DropGen):
with bdb.savepoint():
if not core.bayesdb_has_generator(bdb, None, phrase.name):
if phrase.ifexists:
return empty_cursor(bdb)
raise BQLError(bdb, 'No such generator: %s' %
(repr(phrase.name),))
generator_id = core.bayesdb_get_generator(bdb, None, phrase.name)
backend = core.bayesdb_generator_backend(bdb, generator_id)
# Backend-specific destruction.
backend.drop_generator(bdb, generator_id)
# Drop latent variables, models, and, finally, generator.
drop_columns_sql = '''
DELETE FROM bayesdb_variable WHERE generator_id = ?
'''
bdb.sql_execute(drop_columns_sql, (generator_id,))
drop_model_sql = '''
DELETE FROM bayesdb_generator_model WHERE generator_id = ?
'''
bdb.sql_execute(drop_model_sql, (generator_id,))
drop_generator_sql = '''
DELETE FROM bayesdb_generator WHERE id = ?
'''
bdb.sql_execute(drop_generator_sql, (generator_id,))
return empty_cursor(bdb)
if isinstance(phrase, ast.AlterGen):
with bdb.savepoint():
generator = phrase.generator
if not core.bayesdb_has_generator(bdb, None, generator):
raise BQLError(bdb, 'No such generator: %s' %
(repr(generator),))
generator_id = core.bayesdb_get_generator(bdb, None, generator)
cmds_generic = []
for cmd in phrase.commands:
if isinstance(cmd, ast.AlterGenRenameGen):
population_id = core.bayesdb_generator_population(
bdb, generator_id)
population = core.bayesdb_population_name(
bdb, population_id)
# Prevent renaming of implicit generator directly, unless
# being called by ast.AlterPopRenamePop in which case the
# population name and generator name will not be matching.
if core.bayesdb_population_is_implicit(bdb, generator_id) \
and casefold(generator) == casefold(population):
raise BQLError(bdb, 'Cannot rename implicit '
'generator; rename base population instead')
# Disable modelnos with AlterGenRenameGen.
if phrase.modelnos is not None:
raise BQLError(bdb, 'Cannot specify models for RENAME')
# Make sure nothing else has this name.
if casefold(generator) != casefold(cmd.name):
if core.bayesdb_has_generator(bdb, None, cmd.name):
raise BQLError(bdb, 'Name already defined'
' as generator: %s' %
(repr(cmd.name),))
# Update bayesdb_generator. Everything else
# refers to it by id.
update_generator_sql = '''
UPDATE bayesdb_generator SET name = ? WHERE id = ?
'''
total_changes = bdb._sqlite3.totalchanges()
bdb.sql_execute(update_generator_sql,
(cmd.name, generator_id))
assert bdb._sqlite3.totalchanges() - total_changes == 1
# Remember the new name for subsequent commands.
generator = cmd.name
elif isinstance(cmd, ast.AlterGenGeneric):
cmds_generic.append(cmd.command)
else:
assert False, 'Invalid ALTER GENERATOR command: %s' % \
(repr(cmd),)
if cmds_generic:
modelnos = phrase.modelnos
modelnos_invalid = None if modelnos is None else [
modelno for modelno in modelnos if not
core.bayesdb_generator_has_model(bdb, generator_id, modelno)
]
if modelnos_invalid:
raise BQLError(bdb,
'No such models in generator %s: %s' %
(repr(phrase.generator), repr(modelnos)))
# Call generic alternations on the backend.
backend = core.bayesdb_generator_backend(bdb, generator_id)
backend.alter(bdb, generator_id, modelnos, cmds_generic)
return empty_cursor(bdb)
if isinstance(phrase, ast.InitModels):
if not core.bayesdb_has_generator(bdb, None, phrase.generator):
raise BQLError(bdb, 'No such generator: %s' %
(phrase.generator,))
generator_id = core.bayesdb_get_generator(bdb, None, phrase.generator)
modelnos = range(phrase.nmodels)
with bdb.savepoint():
# Find the model numbers. Omit existing ones for
# ifnotexists; reject existing ones otherwise.
if phrase.ifnotexists:
modelnos = set(modelno for modelno in modelnos
if not core.bayesdb_generator_has_model(bdb, generator_id,
modelno))
else:
existing = set(modelno for modelno in modelnos
if core.bayesdb_generator_has_model(bdb, generator_id,
modelno))
if 0 < len(existing):
raise BQLError(bdb, 'Generator %s already has models: %s' %
(repr(phrase.generator), sorted(existing)))
# Stop now if there's nothing to initialize.
if len(modelnos) == 0:
return
# Create the bayesdb_generator_model records.
modelnos = sorted(modelnos)
insert_model_sql = '''
INSERT INTO bayesdb_generator_model
(generator_id, modelno)
VALUES (:generator_id, :modelno)
'''
for modelno in modelnos:
bdb.sql_execute(insert_model_sql, {
'generator_id': generator_id,
'modelno': modelno,
})
# Do backend-specific initialization.
backend = core.bayesdb_generator_backend(bdb, generator_id)
backend.initialize_models(bdb, generator_id, modelnos)
return empty_cursor(bdb)
if isinstance(phrase, ast.AnalyzeModels):
# WARNING: It is the backend's responsibility to work in a
# transaction.
#
# WARNING: It is the backend's responsibility to update the
# iteration count in bayesdb_generator_model records.
#
# We do this so that the backend can save incremental
# progress in case of ^C in the middle.
#
# XXX Put these warning somewhere more appropriate.
if not core.bayesdb_has_generator(bdb, None, phrase.generator):
raise BQLError(bdb, 'No such generator: %s' %
(phrase.generator,))
generator_id = core.bayesdb_get_generator(bdb, None, phrase.generator)
backend = core.bayesdb_generator_backend(bdb, generator_id)
# XXX Should allow parameters for iterations and ckpt/iter.
backend.analyze_models(bdb, generator_id,
modelnos=phrase.modelnos,
iterations=phrase.iterations,
max_seconds=phrase.seconds,
ckpt_iterations=phrase.ckpt_iterations,
ckpt_seconds=phrase.ckpt_seconds,
program=phrase.program)
return empty_cursor(bdb)
if isinstance(phrase, ast.DropModels):
with bdb.savepoint():
generator_id = core.bayesdb_get_generator(
bdb, None, phrase.generator)
backend = core.bayesdb_generator_backend(bdb, generator_id)
modelnos = None
if phrase.modelnos is not None:
lookup_model_sql = '''
SELECT COUNT(*) FROM bayesdb_generator_model
WHERE generator_id = :generator_id
AND modelno = :modelno
'''
modelnos = sorted(list(phrase.modelnos))
for modelno in modelnos:
cursor = bdb.sql_execute(lookup_model_sql, {
'generator_id': generator_id,
'modelno': modelno,
})
if cursor_value(cursor) == 0:
raise BQLError(bdb, 'No such model'
' in generator %s: %s' %
(repr(phrase.generator), repr(modelno)))
backend.drop_models(bdb, generator_id, modelnos=modelnos)
if modelnos is None:
drop_models_sql = '''
DELETE FROM bayesdb_generator_model WHERE generator_id = ?
'''
bdb.sql_execute(drop_models_sql, (generator_id,))
else:
drop_model_sql = '''
DELETE FROM bayesdb_generator_model
WHERE generator_id = :generator_id
AND modelno = :modelno
'''
for modelno in modelnos:
bdb.sql_execute(drop_model_sql, {
'generator_id': generator_id,
'modelno': modelno,
})
return empty_cursor(bdb)
if isinstance(phrase, ast.Regress):
# Retrieve the population.
if not core.bayesdb_has_population(bdb, phrase.population):
raise BQLError(bdb, 'No such population: %r' % (phrase.population,))
population_id = core.bayesdb_get_population(bdb, phrase.population)
# Retrieve the generator
generator_id = None
if phrase.generator:
if not core.bayesdb_has_generator(bdb, population_id,
phrase.generator):
raise BQLError(bdb,
'No such generator: %r' % (phrase.generator,))
generator_id = core.bayesdb_get_generator(
bdb, population_id, phrase.generator)
# Retrieve the target variable.
if not core.bayesdb_has_variable(
bdb, population_id, None, phrase.target):
raise BQLError(bdb, 'No such variable: %r' % (phrase.target,))
colno_target = core.bayesdb_variable_number(
bdb, population_id, None, phrase.target)
stattype = core.bayesdb_variable_stattype(bdb, population_id,
generator_id, colno_target)
if stattype != 'numerical':
raise BQLError(bdb,
'Target variable is not numerical: %r' % (phrase.target,))
# Build the given variables.
if any(isinstance(col, ast.SelColAll) for col in phrase.givens):
# Using * is not allowed to be mixed with other variables.
if len(phrase.givens) > 1:
raise BQLError(bdb, 'Cannot use (*) with other givens.')
colno_givens = core.bayesdb_variable_numbers(
bdb, population_id, None)
else:
if any(isinstance(col, ast.SelColSub) for col in phrase.givens):
# Subexpression needs special compiling.
out = compiler.Output(n_numpar, nampar_map, bindings)
bql_compiler = compiler.BQLCompiler_None()
givens = compiler.expand_select_columns(
bdb, phrase.givens, True, bql_compiler, out)
else:
givens = phrase.givens
colno_givens = [
core.bayesdb_variable_number(
bdb, population_id, None, given.expression.column)
for given in givens
]
# Build the arguments to bqlfn.bayesdb_simulate.
colno_givens_unique = set(
colno for colno in colno_givens if colno!= colno_target
)
if len(colno_givens_unique) == 0:
raise BQLError(bdb, 'No matching given columns.')
constraints = []
colnos = [colno_target] + list(colno_givens_unique)
nsamp = 100 if phrase.nsamp is None else phrase.nsamp.value.value
modelnos = None if phrase.modelnos is None else str(phrase.modelnos)
rows = bqlfn.bayesdb_simulate(
bdb, population_id, generator_id, modelnos, constraints,
colnos, numpredictions=nsamp)
# Retrieve the stattypes.
stattypes = [
core.bayesdb_variable_stattype(
bdb, population_id, generator_id, colno_given)
for colno_given in colno_givens_unique
]
# Separate the target values from the given values.
target_values = [row[0] for row in rows]
given_values = [row[1:] for row in rows]
given_names = [
core.bayesdb_variable_name(bdb, population_id, generator_id, given)
for given in colno_givens_unique
]
# Compute the coefficients. The import to regress_ols is here since the
# feature depends on pandas + sklearn, so avoid module-wide import.
from bayeslite.regress import regress_ols
coefficients = regress_ols(
target_values, given_values, given_names, stattypes)
# Store the results in a winder.
temptable = bdb.temp_table_name()
qtt = sqlite3_quote_name(temptable)
out = compiler.Output(0, {}, {})
out.winder('''
CREATE TEMP TABLE %s (variable TEXT, coefficient REAL);
''' % (qtt,), ())
for variable, coef in coefficients:
out.winder('''
INSERT INTO %s VALUES (?, ?)
''' % (qtt), (variable, coef,))
out.write('SELECT * FROM %s ORDER BY variable' % (qtt,))
out.unwinder('DROP TABLE %s' % (qtt,), ())
winders, unwinders = out.getwindings()
return execute_wound(
bdb, winders, unwinders, out.getvalue(), out.getbindings())
assert False # XXX
def execute_phrase(bdb, phrase, bindings=()):
"""Execute the BQL AST phrase `phrase` and return a cursor of results."""
if isinstance(phrase, ast.Parametrized):
n_numpar = phrase.n_numpar
nampar_map = phrase.nampar_map
phrase = phrase.phrase
assert 0 < n_numpar
else:
n_numpar = 0
nampar_map = None
# Ignore extraneous bindings. XXX Bad idea?
if ast.is_query(phrase):
# Compile the query in the transaction in case we need to
# execute subqueries to determine column lists. Compiling is
# a quick tree descent, so this should be fast.
out = compiler.Output(n_numpar, nampar_map, bindings)
with bdb.savepoint():
compiler.compile_query(bdb, phrase, out)
winders, unwinders = out.getwindings()
return execute_wound(bdb, winders, unwinders, out.getvalue(),
out.getbindings())
if isinstance(phrase, ast.Begin):
txn.bayesdb_begin_transaction(bdb)
return empty_cursor(bdb)
if isinstance(phrase, ast.Rollback):
txn.bayesdb_rollback_transaction(bdb)
return empty_cursor(bdb)
if isinstance(phrase, ast.Commit):
txn.bayesdb_commit_transaction(bdb)
return empty_cursor(bdb)
if isinstance(phrase, ast.CreateTabAs):
assert ast.is_query(phrase.query)
with bdb.savepoint():
if core.bayesdb_has_table(bdb, phrase.name):
if phrase.ifnotexists:
return empty_cursor(bdb)
else:
raise BQLError(
bdb, 'Name already defined as table: %s' %
(repr(phrase.name), ))
out = compiler.Output(n_numpar, nampar_map, bindings)
qt = sqlite3_quote_name(phrase.name)
temp = 'TEMP ' if phrase.temp else ''
ifnotexists = 'IF NOT EXISTS ' if phrase.ifnotexists else ''
out.write('CREATE %sTABLE %s%s AS ' % (temp, ifnotexists, qt))
compiler.compile_query(bdb, phrase.query, out)
winders, unwinders = out.getwindings()
with compiler.bayesdb_wind(bdb, winders, unwinders):
bdb.sql_execute(out.getvalue(), out.getbindings())
return empty_cursor(bdb)
if isinstance(phrase, ast.CreateTabCsv):
with bdb.savepoint():
table_exists = core.bayesdb_has_table(bdb, phrase.name)
if table_exists:
if phrase.ifnotexists:
return empty_cursor(bdb)
else:
raise BQLError(
bdb,
'Table already exists: %s' % (repr(phrase.name), ))
bayesdb_read_csv_file(bdb,
phrase.name,
phrase.csv,
header=True,
create=True)
return empty_cursor(bdb)
if isinstance(phrase, ast.DropTab):
with bdb.savepoint():
sql = 'SELECT COUNT(*) FROM bayesdb_population WHERE tabname = ?'
cursor = bdb.sql_execute(sql, (phrase.name, ))
if 0 < cursor_value(cursor):
raise BQLError(
bdb, 'Table still in use by populations: %s' %
(repr(phrase.name), ))
bdb.sql_execute('DELETE FROM bayesdb_column WHERE tabname = ?',
(phrase.name, ))
ifexists = 'IF EXISTS ' if phrase.ifexists else ''
qt = sqlite3_quote_name(phrase.name)
return bdb.sql_execute('DROP TABLE %s%s' % (ifexists, qt))
if isinstance(phrase, ast.AlterTab):
with bdb.savepoint():
table = phrase.table
if not core.bayesdb_has_table(bdb, table):
raise BQLError(bdb, 'No such table: %s' % (repr(table), ))
for cmd in phrase.commands:
if isinstance(cmd, ast.AlterTabRenameTab):
# If the names differ only in case, we have to do
# some extra work because SQLite will reject the
# table rename. Note that we may even have table
# == cmd.name here, but if the stored table name
# differs in case from cmd.name, we want to update
# it anyway.
if casefold(table) == casefold(cmd.name):
# Go via a temporary table.
temp = table + '_temp'
while core.bayesdb_has_table(bdb, temp):
temp += '_temp'
rename_table(bdb, table, temp)
rename_table(bdb, temp, cmd.name)
else:
# Make sure nothing else has this name and
# rename it.
if core.bayesdb_has_table(bdb, cmd.name):
raise BQLError(
bdb, 'Name already defined as table'
': %s' % (repr(cmd.name), ))
rename_table(bdb, table, cmd.name)
# Remember the new name for subsequent commands.
table = cmd.name
elif isinstance(cmd, ast.AlterTabRenameCol):
# XXX Need to deal with this in the compiler.
raise NotImplementedError('Renaming columns'
' not yet implemented.')
# Make sure the old name exist and the new name does not.
old_folded = casefold(cmd.old)
new_folded = casefold(cmd.new)
if old_folded != new_folded:
if not core.bayesdb_table_has_column(
bdb, table, cmd.old):
raise BQLError(
bdb, 'No such column in table %s'
': %s' % (repr(table), repr(cmd.old)))
if core.bayesdb_table_has_column(bdb, table, cmd.new):
raise BQLError(
bdb, 'Column already exists'
' in table %s: %s' %
(repr(table), repr(cmd.new)))
# Update bayesdb_column. Everything else refers
# to columns by (tabname, colno) pairs rather than
# by names.
update_column_sql = '''
UPDATE bayesdb_column SET name = :new
WHERE tabname = :table AND name = :old
'''
total_changes = bdb._sqlite3.totalchanges()
bdb.sql_execute(update_column_sql, {
'table': table,
'old': cmd.old,
'new': cmd.new,
})
assert bdb._sqlite3.totalchanges() - total_changes == 1
# ...except metamodels may have the (case-folded)
# name cached.
if old_folded != new_folded:
generators_sql = '''
SELECT id FROM bayesdb_generator WHERE tabname = ?
'''
cursor = bdb.sql_execute(generators_sql, (table, ))
for (generator_id, ) in cursor:
metamodel = core.bayesdb_generator_metamodel(
bdb, generator_id)
metamodel.rename_column(bdb, generator_id,
old_folded, new_folded)
else:
assert False, 'Invalid alter table command: %s' % \
(cmd,)
return empty_cursor(bdb)
if isinstance(phrase, ast.GuessSchema):
if not core.bayesdb_has_table(bdb, phrase.table):
raise BQLError(bdb, 'No such table : %s' % phrase.table)
out = compiler.Output(0, {}, {})
with bdb.savepoint():
qt = sqlite3_quote_name(phrase.table)
temptable = bdb.temp_table_name()
qtt = sqlite3_quote_name(temptable)
cursor = bdb.sql_execute('SELECT * FROM %s' % (qt, ))
column_names = [d[0] for d in cursor.description]
rows = cursor.fetchall()
stattypes = bayesdb_guess_stattypes(column_names, rows)
distinct_value_counts = [
len(set([row[i] for row in rows]))
for i in range(len(column_names))
]
out.winder(
'''
CREATE TEMP TABLE %s (column TEXT, stattype TEXT, num_distinct INTEGER, reason TEXT)
''' % (qtt), ())
for cn, st, ct in zip(column_names, stattypes,
distinct_value_counts):
out.winder(
'''
INSERT INTO %s VALUES (?, ?, ?, ?)
''' % (qtt), (cn, st[0], ct, st[1]))
out.write('SELECT * FROM %s' % (qtt, ))
out.unwinder('DROP TABLE %s' % (qtt, ), ())
winders, unwinders = out.getwindings()
return execute_wound(bdb, winders, unwinders, out.getvalue(),
out.getbindings())
if isinstance(phrase, ast.CreatePop):
with bdb.savepoint():
_create_population(bdb, phrase)
return empty_cursor(bdb)
if isinstance(phrase, ast.DropPop):
with bdb.savepoint():
if not core.bayesdb_has_population(bdb, phrase.name):
if phrase.ifexists:
return empty_cursor(bdb)
raise BQLError(bdb, 'No such population: %r' % (phrase.name, ))
population_id = core.bayesdb_get_population(bdb, phrase.name)
generator_ids = core.bayesdb_population_generators(
bdb, population_id)
if generator_ids:
generators = [
core.bayesdb_generator_name(bdb, gid)
for gid in generator_ids
]
raise BQLError(
bdb, 'Population %r still has metamodels: %r' %
(phrase.name, generators))
# XXX helpful error checking if generators still exist
# XXX check change counts
bdb.sql_execute(
'''
DELETE FROM bayesdb_variable WHERE population_id = ?
''', (population_id, ))
bdb.sql_execute(
'''
DELETE FROM bayesdb_population WHERE id = ?
''', (population_id, ))
return empty_cursor(bdb)
if isinstance(phrase, ast.AlterPop):
with bdb.savepoint():
population = phrase.population
if not core.bayesdb_has_population(bdb, population):
raise BQLError(bdb,
'No such population: %s' % (repr(population), ))
population_id = core.bayesdb_get_population(bdb, population)
for cmd in phrase.commands:
if isinstance(cmd, ast.AlterPopAddVar):
# Ensure column exists in base table.
table = core.bayesdb_population_table(bdb, population_id)
if not core.bayesdb_table_has_column(bdb, table, cmd.name):
raise BQLError(
bdb,
'No such variable in base table: %s' % (cmd.name))
# Ensure variable not already in population.
if core.bayesdb_has_variable(bdb, population_id, None,
cmd.name):
raise BQLError(
bdb,
'Variable already in population: %s' % (cmd.name))
# Ensure there is at least observation in the column.
qt = sqlite3_quote_name(table)
qc = sqlite3_quote_name(cmd.name)
cursor = bdb.sql_execute(
'SELECT COUNT(*) FROM %s WHERE %s IS NOT NULL' %
(qt, qc))
if cursor_value(cursor) == 0:
raise BQLError(
bdb, 'Cannot add variable without any values: %s' %
(cmd.name))
# If stattype is None, guess.
if cmd.stattype is None:
cursor = bdb.sql_execute('SELECT %s FROM %s' %
(qc, qt))
rows = cursor.fetchall()
[stattype,
reason] = bayesdb_guess_stattypes([cmd.name], rows)[0]
# Fail if trying to model a key.
if stattype == 'key':
raise BQLError(
bdb, 'Values in column %s appear to be keys.' %
(cmd.name, ))
# Fail if cannot determine a stattype.
elif stattype == 'ignore':
raise BQLError(
bdb, 'Failed to determine a stattype for %s, '
'please specify one manually.' % (cmd.name, ))
# If user specified stattype, ensure it exists.
elif not core.bayesdb_has_stattype(bdb, cmd.stattype):
raise BQLError(bdb,
'Invalid stattype: %s' % (cmd.stattype))
else:
stattype = cmd.stattype
# Check that strings are not being modeled as numerical.
if stattype == 'numerical' \
and _column_contains_string(bdb, table, cmd.name):
raise BQLError(
bdb,
'Numerical column contains string values: %r ' %
(qc, ))
with bdb.savepoint():
# Add the variable to the population.
core.bayesdb_add_variable(bdb, population_id, cmd.name,
stattype)
colno = core.bayesdb_variable_number(
bdb, population_id, None, cmd.name)
# Add the variable to each (initialized) metamodel in
# the population.
generator_ids = filter(
lambda g: core.bayesdb_generator_modelnos(bdb, g),
core.bayesdb_population_generators(
bdb, population_id),
)
for generator_id in generator_ids:
# XXX Omit needless bayesdb_generator_column table
# Github issue #441.
bdb.sql_execute(
'''
INSERT INTO bayesdb_generator_column
VALUES (:generator_id, :colno, :stattype)
''', {
'generator_id': generator_id,
'colno': colno,
'stattype': stattype,
})
metamodel = core.bayesdb_generator_metamodel(
bdb, generator_id)
metamodel.add_column(bdb, generator_id, colno)
elif isinstance(cmd, ast.AlterPopStatType):
# Check the no metamodels are defined for this population.
generators = core.bayesdb_population_generators(
bdb, population_id)
if generators:
raise BQLError(
bdb,
'Cannot update statistical types for population '
'%s, it has metamodels: %s' % (
repr(population),
repr(generators),
))
# Check all the variables are in the population.
unknown = [
c for c in cmd.names if not core.bayesdb_has_variable(
bdb, population_id, None, c)
]
if unknown:
raise BQLError(
bdb, 'No such variables in population: %s' %
(repr(unknown)))
# Check the statistical type is valid.
if not core.bayesdb_has_stattype(bdb, cmd.stattype):
raise BQLError(
bdb, 'Invalid statistical type: %r' %
(repr(cmd.stattype), ))
# Check that strings are not being modeled as numerical.
if cmd.stattype == 'numerical':
table = core.bayesdb_population_table(
bdb, population_id)
numerical_string_vars = [
col for col in cmd.names
if _column_contains_string(bdb, table, col)
]
if numerical_string_vars:
raise BQLError(
bdb, 'Columns with string values modeled as '
'numerical: %r' % (numerical_string_vars, ))
# Perform the stattype update.
colnos = [
core.bayesdb_variable_number(bdb, population_id, None,
c) for c in cmd.names
]
qcolnos = ','.join('%d' % (colno, ) for colno in colnos)
update_stattype_sql = '''
UPDATE bayesdb_variable SET stattype = ?
WHERE population_id = ? AND colno IN (%s)
''' % (qcolnos, )
bdb.sql_execute(update_stattype_sql, (
casefold(cmd.stattype),
population_id,
))
else:
assert False, 'Invalid ALTER POPULATION command: %s' % \
(repr(cmd),)
return empty_cursor(bdb)
if isinstance(phrase, ast.CreateGen):
# Find the population.
if not core.bayesdb_has_population(bdb, phrase.population):
raise BQLError(bdb,
'No such population: %r' % (phrase.population, ))
population_id = core.bayesdb_get_population(bdb, phrase.population)
table = core.bayesdb_population_table(bdb, population_id)
# Find the metamodel, or use the default.
metamodel_name = phrase.metamodel
if phrase.metamodel is None:
metamodel_name = 'cgpm'
if metamodel_name not in bdb.metamodels:
raise BQLError(bdb,
'No such metamodel: %s' % (repr(metamodel_name), ))
metamodel = bdb.metamodels[metamodel_name]
with bdb.savepoint():
if core.bayesdb_has_generator(bdb, population_id, phrase.name):
if not phrase.ifnotexists:
raise BQLError(
bdb, 'Name already defined as generator: %s' %
(repr(phrase.name), ))
else:
# Insert a record into bayesdb_generator and get the
# assigned id.
bdb.sql_execute(
'''
INSERT INTO bayesdb_generator
(name, tabname, population_id, metamodel)
VALUES (?, ?, ?, ?)
''', (phrase.name, table, population_id, metamodel.name()))
generator_id = core.bayesdb_get_generator(
bdb, population_id, phrase.name)
# Populate bayesdb_generator_column.
#
# XXX Omit needless bayesdb_generator_column table --
# Github issue #441.
bdb.sql_execute(
'''
INSERT INTO bayesdb_generator_column
(generator_id, colno, stattype)
SELECT :generator_id, colno, stattype
FROM bayesdb_variable
WHERE population_id = :population_id
AND generator_id IS NULL
''', {
'generator_id': generator_id,
'population_id': population_id,
})
# Do any metamodel-specific initialization.
metamodel.create_generator(bdb,
generator_id,
phrase.schema,
baseline=phrase.baseline)
# Populate bayesdb_generator_column with any latent
# variables that metamodel.create_generator has added
# with bayesdb_add_latent.
bdb.sql_execute(
'''
INSERT INTO bayesdb_generator_column
(generator_id, colno, stattype)
SELECT :generator_id, colno, stattype
FROM bayesdb_variable
WHERE population_id = :population_id
AND generator_id = :generator_id
''', {
'generator_id': generator_id,
'population_id': population_id,
})
# All done. Nothing to return.
return empty_cursor(bdb)
if isinstance(phrase, ast.DropGen):
with bdb.savepoint():
if not core.bayesdb_has_generator(bdb, None, phrase.name):
if phrase.ifexists:
return empty_cursor(bdb)
raise BQLError(bdb,
'No such generator: %s' % (repr(phrase.name), ))
generator_id = core.bayesdb_get_generator(bdb, None, phrase.name)
metamodel = core.bayesdb_generator_metamodel(bdb, generator_id)
# Metamodel-specific destruction.
metamodel.drop_generator(bdb, generator_id)
# Drop the columns, models, and, finally, generator.
drop_columns_sql = '''
DELETE FROM bayesdb_generator_column WHERE generator_id = ?
'''
bdb.sql_execute(drop_columns_sql, (generator_id, ))
drop_model_sql = '''
DELETE FROM bayesdb_generator_model WHERE generator_id = ?
'''
bdb.sql_execute(drop_model_sql, (generator_id, ))
drop_generator_sql = '''
DELETE FROM bayesdb_generator WHERE id = ?
'''
bdb.sql_execute(drop_generator_sql, (generator_id, ))
return empty_cursor(bdb)
if isinstance(phrase, ast.AlterGen):
with bdb.savepoint():
generator = phrase.generator
if not core.bayesdb_has_generator(bdb, None, generator):
raise BQLError(bdb,
'No such generator: %s' % (repr(generator), ))
generator_id = core.bayesdb_get_generator(bdb, None, generator)
cmds_generic = []
for cmd in phrase.commands:
if isinstance(cmd, ast.AlterGenRenameGen):
# Disable modelnos with AlterGenRenameGen.
if phrase.modelnos is not None:
raise BQLError(bdb, 'Cannot specify models for RENAME')
# Make sure nothing else has this name.
if casefold(generator) != casefold(cmd.name):
if core.bayesdb_has_table(bdb, cmd.name):
raise BQLError(
bdb, 'Name already defined as table'
': %s' % (repr(cmd.name), ))
if core.bayesdb_has_generator(bdb, None, cmd.name):
raise BQLError(
bdb, 'Name already defined'
' as generator: %s' % (repr(cmd.name), ))
# Update bayesdb_generator. Everything else
# refers to it by id.
update_generator_sql = '''
UPDATE bayesdb_generator SET name = ? WHERE id = ?
'''
total_changes = bdb._sqlite3.totalchanges()
bdb.sql_execute(update_generator_sql,
(cmd.name, generator_id))
assert bdb._sqlite3.totalchanges() - total_changes == 1
# Remember the new name for subsequent commands.
generator = cmd.name
elif isinstance(cmd, ast.AlterGenGeneric):
cmds_generic.append(cmd.command)
else:
assert False, 'Invalid ALTER GENERATOR command: %s' % \
(repr(cmd),)
if cmds_generic:
modelnos = phrase.modelnos
modelnos_invalid = None if modelnos is None else [
modelno for modelno in modelnos
if not core.bayesdb_generator_has_model(
bdb, generator_id, modelno)
]
if modelnos_invalid:
raise BQLError(
bdb, 'No such models in generator %s: %s' %
(repr(phrase.generator), repr(modelnos)))
# Call generic alternations on the metamodel.
metamodel = core.bayesdb_generator_metamodel(bdb, generator_id)
metamodel.alter(bdb, generator_id, modelnos, cmds_generic)
return empty_cursor(bdb)
if isinstance(phrase, ast.InitModels):
if not core.bayesdb_has_generator(bdb, None, phrase.generator):
raise BQLError(bdb, 'No such generator: %s' % (phrase.generator, ))
generator_id = core.bayesdb_get_generator(bdb, None, phrase.generator)
modelnos = range(phrase.nmodels)
with bdb.savepoint():
# Find the model numbers. Omit existing ones for
# ifnotexists; reject existing ones otherwise.
if phrase.ifnotexists:
modelnos = set(modelno for modelno in modelnos
if not core.bayesdb_generator_has_model(
bdb, generator_id, modelno))
else:
existing = set(modelno for modelno in modelnos
if core.bayesdb_generator_has_model(
bdb, generator_id, modelno))
if 0 < len(existing):
raise BQLError(
bdb, 'Generator %s already has models: %s' %
(repr(phrase.generator), sorted(existing)))
# Stop now if there's nothing to initialize.
if len(modelnos) == 0:
return
# Create the bayesdb_generator_model records.
modelnos = sorted(modelnos)
insert_model_sql = '''
INSERT INTO bayesdb_generator_model
(generator_id, modelno, iterations)
VALUES (:generator_id, :modelno, :iterations)
'''
for modelno in modelnos:
bdb.sql_execute(
insert_model_sql, {
'generator_id': generator_id,
'modelno': modelno,
'iterations': 0,
})
# Do metamodel-specific initialization.
metamodel = core.bayesdb_generator_metamodel(bdb, generator_id)
metamodel.initialize_models(bdb, generator_id, modelnos)
return empty_cursor(bdb)
if isinstance(phrase, ast.AnalyzeModels):
if not phrase.wait:
raise NotImplementedError('No background analysis -- use WAIT.')
# WARNING: It is the metamodel's responsibility to work in a
# transaction.
#
# WARNING: It is the metamodel's responsibility to update the
# iteration count in bayesdb_generator_model records.
#
# We do this so that the metamodel can save incremental
# progress in case of ^C in the middle.
#
# XXX Put these warning somewhere more appropriate.
if not core.bayesdb_has_generator(bdb, None, phrase.generator):
raise BQLError(bdb, 'No such generator: %s' % (phrase.generator, ))
generator_id = core.bayesdb_get_generator(bdb, None, phrase.generator)
metamodel = core.bayesdb_generator_metamodel(bdb, generator_id)
# XXX Should allow parameters for iterations and ckpt/iter.
metamodel.analyze_models(bdb,
generator_id,
modelnos=phrase.modelnos,
iterations=phrase.iterations,
max_seconds=phrase.seconds,
ckpt_iterations=phrase.ckpt_iterations,
ckpt_seconds=phrase.ckpt_seconds,
program=phrase.program)
return empty_cursor(bdb)
if isinstance(phrase, ast.DropModels):
with bdb.savepoint():
generator_id = core.bayesdb_get_generator(bdb, None,
phrase.generator)
metamodel = core.bayesdb_generator_metamodel(bdb, generator_id)
modelnos = None
if phrase.modelnos is not None:
lookup_model_sql = '''
SELECT COUNT(*) FROM bayesdb_generator_model
WHERE generator_id = :generator_id
AND modelno = :modelno
'''
modelnos = sorted(list(phrase.modelnos))
for modelno in modelnos:
cursor = bdb.sql_execute(lookup_model_sql, {
'generator_id': generator_id,
'modelno': modelno,
})
if cursor_value(cursor) == 0:
raise BQLError(
bdb, 'No such model'
' in generator %s: %s' %
(repr(phrase.generator), repr(modelno)))
metamodel.drop_models(bdb, generator_id, modelnos=modelnos)
if modelnos is None:
drop_models_sql = '''
DELETE FROM bayesdb_generator_model WHERE generator_id = ?
'''
bdb.sql_execute(drop_models_sql, (generator_id, ))
else:
drop_model_sql = '''
DELETE FROM bayesdb_generator_model
WHERE generator_id = :generator_id
AND modelno = :modelno
'''
for modelno in modelnos:
bdb.sql_execute(drop_model_sql, {
'generator_id': generator_id,
'modelno': modelno,
})
return empty_cursor(bdb)
if isinstance(phrase, ast.Regress):
# Retrieve the population.
if not core.bayesdb_has_population(bdb, phrase.population):
raise BQLError(bdb,
'No such population: %r' % (phrase.population, ))
population_id = core.bayesdb_get_population(bdb, phrase.population)
# Retrieve the metamodel.
generator_id = None
if phrase.metamodel:
if not core.bayesdb_has_generator(bdb, population_id,
phrase.metamodel):
raise BQLError(bdb,
'No such metamodel: %r' % (phrase.population, ))
generator_id = core.bayesdb_get_generator(bdb, population_id,
phrase.metamodel)
# Retrieve the target variable.
if not core.bayesdb_has_variable(bdb, population_id, None,
phrase.target):
raise BQLError(bdb, 'No such variable: %r' % (phrase.target, ))
colno_target = core.bayesdb_variable_number(bdb, population_id, None,
phrase.target)
if core.bayesdb_variable_stattype(bdb, population_id, colno_target) != \
'numerical':
raise BQLError(
bdb,
'Target variable is not numerical: %r' % (phrase.target, ))
# Build the given variables.
if any(isinstance(col, ast.SelColAll) for col in phrase.givens):
# Using * is not allowed to be mixed with other variables.
if len(phrase.givens) > 1:
raise BQLError(bdb, 'Cannot use (*) with other givens.')
colno_givens = core.bayesdb_variable_numbers(
bdb, population_id, None)
else:
if any(isinstance(col, ast.SelColSub) for col in phrase.givens):
# Subexpression needs special compiling.
out = compiler.Output(n_numpar, nampar_map, bindings)
bql_compiler = compiler.BQLCompiler_None()
givens = compiler.expand_select_columns(
bdb, phrase.givens, True, bql_compiler, out)
else:
givens = phrase.givens
colno_givens = [
core.bayesdb_variable_number(bdb, population_id, None,
given.expression.column)
for given in givens
]
# Build the arguments to bqlfn.bayesdb_simulate.
colno_givens_unique = set(colno for colno in colno_givens
if colno != colno_target)
if len(colno_givens_unique) == 0:
raise BQLError(bdb, 'No matching given columns.')
constraints = []
colnos = [colno_target] + list(colno_givens_unique)
nsamp = 100 if phrase.nsamp is None else phrase.nsamp.value.value
modelnos = None if phrase.modelnos is None else str(phrase.modelnos)
rows = bqlfn.bayesdb_simulate(bdb,
population_id,
generator_id,
modelnos,
constraints,
colnos,
numpredictions=nsamp)
# Retrieve the stattypes.
stattypes = [
core.bayesdb_variable_stattype(bdb, population_id, colno_given)
for colno_given in colno_givens_unique
]
# Separate the target values from the given values.
target_values = [row[0] for row in rows]
given_values = [row[1:] for row in rows]
given_names = [
core.bayesdb_variable_name(bdb, population_id, given)
for given in colno_givens_unique
]
# Compute the coefficients. The import to regress_ols is here since the
# feature depends on pandas + sklearn, so avoid module-wide import.
from bayeslite.regress import regress_ols
coefficients = regress_ols(target_values, given_values, given_names,
stattypes)
# Store the results in a winder.
temptable = bdb.temp_table_name()
qtt = sqlite3_quote_name(temptable)
out = compiler.Output(0, {}, {})
out.winder(
'''
CREATE TEMP TABLE %s (variable TEXT, coefficient REAL);
''' % (qtt, ), ())
for variable, coef in coefficients:
out.winder(
'''
INSERT INTO %s VALUES (?, ?)
''' % (qtt), (
variable,
coef,
))
out.write('SELECT * FROM %s ORDER BY variable' % (qtt, ))
out.unwinder('DROP TABLE %s' % (qtt, ), ())
winders, unwinders = out.getwindings()
return execute_wound(bdb, winders, unwinders, out.getvalue(),
out.getbindings())
assert False # XXX
def _generate_name(self, bdb, generator_id):
generator_name = bayesdb_generator_name(bdb, generator_id)
timestamp = datetime.now().strftime('%Y%m%d-%H%M%S')
return '%s_%s' % (timestamp, generator_name)
