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test_symbols.py
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test_symbols.py
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#!/usr/bin/env python
#
# Copyright 2007 Neal Norwitz
# Portions Copyright 2007 Google Inc.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Symbol Table test."""
from __future__ import absolute_import
import unittest
from cpp import symbols
__author__ = '[email protected] (Neal Norwitz)'
class SymbolTableTest(unittest.TestCase):
def _add_symbol(self, st, name, ns_stack):
"""Helper for the lookup_symbol test methods."""
node = object()
module = object()
st.add_symbol(name, ns_stack, node, module)
return node, module
def test_lookup_symbol_with_global_that_does_not_exist(self):
st = symbols.SymbolTable()
self.assertRaises(symbols.Error, st.lookup_symbol, 'foo', None)
def test_lookup_symbol_with_namespace_that_does_not_exist(self):
st = symbols.SymbolTable()
self.assertRaises(symbols.Error, st.lookup_symbol, 'foo', ['n'])
def test_lookup_symbol_with_global_that_exists(self):
st = symbols.SymbolTable()
node, module = self._add_symbol(st, 'foo', None)
self.assertEqual((node, module), st.lookup_symbol('foo', None))
def test_lookup_symbol_with_complex_global_that_exists(self):
st = symbols.SymbolTable()
node, module = self._add_symbol(st, 'foo', ['ns1', 'ns2'])
self.assertEqual((node, module),
st.lookup_symbol('::ns1::ns2::foo', None))
self.assertEqual((node, module),
st.lookup_symbol('ns1::ns2::foo', None))
def test_lookup_symbol_in_namespaces(self):
st = symbols.SymbolTable()
# 3 nested namespaces, all contain the same symbol (foo).
ns = ['ns1', 'ns2', 'ns3']
add_symbol = self._add_symbol
# Also add foo to the global namespace.
ns_symbols = [add_symbol(st, 'foo', None)] + \
[add_symbol(st, 'foo', ns[:i + 1])
for i in range(len(ns))]
# Verify global lookup works.
self.assertEqual(ns_symbols[0], st.lookup_symbol('::foo', ns))
# Verify looking up relative symbols work.
self.assertEqual(ns_symbols[1], st.lookup_symbol('foo', ns[:1]))
self.assertEqual(ns_symbols[2], st.lookup_symbol('foo', ns[:2]))
self.assertEqual(ns_symbols[3], st.lookup_symbol('foo', ns[:3]))
bigger = ns + ['ns4', 'ns5']
self.assertEqual(ns_symbols[3], st.lookup_symbol('foo', bigger))
# Remove ns2 and verify that when looking for foo in ns2 it finds ns1.
ns1 = st.namespaces['ns1']
del ns1['ns2']
self.assertEqual(ns_symbols[1], st.lookup_symbol('foo', ns[:2]))
def test_add(self):
st = symbols.SymbolTable()
node = object()
module = object()
namespace = {}
symbol_name = 'foo'
self.assertEqual(True, st._add(symbol_name, namespace, node, module))
self.assertEqual(1, len(namespace))
self.assertEqual(['foo'], list(namespace))
# Adding again should return False.
self.assertEqual(False, st._add(symbol_name, namespace, node, module))
def test_add_symbol_in_global_namespace(self):
st = symbols.SymbolTable()
node = object()
module = object()
ns_stack = None
name = 'foo'
self.assertEqual(True, st.add_symbol(name, ns_stack, node, module))
# Verify the symbol was added properly to the symbol table namespaces.
self.assertTrue('foo' in st.namespaces[None])
self.assertEqual((node, module), st.namespaces[None]['foo'])
# Already added, verify we get false.
self.assertEqual(False, st.add_symbol(name, ns_stack, node, module))
def test_add_symbol_in_namespace_with_one_level(self):
st = symbols.SymbolTable()
node = object()
module = object()
ns_stack = ['ns-foo']
name = 'foo'
self.assertEqual(True, st.add_symbol(name, ns_stack, node, module))
# Verify the symbol was added properly to the symbol table namespaces.
self.assertTrue('ns-foo' in st.namespaces)
self.assertTrue('foo' in st.namespaces['ns-foo'])
self.assertEqual((node, module), st.namespaces['ns-foo']['foo'])
# Already added, verify we get false.
self.assertEqual(False, st.add_symbol(name, ns_stack, node, module))
def test_add_symbol_in_namespace_with_three_levels(self):
st = symbols.SymbolTable()
node = object()
module = object()
ns_stack = ['ns1', 'ns2', 'ns3']
name = 'foo'
self.assertEqual(True, st.add_symbol(name, ns_stack, node, module))
# Verify the symbol was added properly to the symbol table namespaces.
self.assertTrue('ns1' in st.namespaces)
self.assertTrue('ns2' in st.namespaces['ns1'])
self.assertTrue('ns3' in st.namespaces['ns1']['ns2'])
self.assertTrue('foo' in st.namespaces['ns1']['ns2']['ns3'])
self.assertEqual((node, module),
st.namespaces['ns1']['ns2']['ns3']['foo'])
# Now add something to ns1 and verify.
ns_stack = ['ns1']
name = 'something'
self.assertEqual(True, st.add_symbol(name, ns_stack, node, module))
self.assertTrue('something' in st.namespaces['ns1'])
self.assertEqual((node, module), st.namespaces['ns1']['something'])
# Now add something to ns1::ns2 and verify.
ns_stack = ['ns1', 'ns2']
name = 'else'
self.assertEqual(True, st.add_symbol(name, ns_stack, node, module))
self.assertTrue('else' in st.namespaces['ns1']['ns2'])
self.assertEqual((node, module), st.namespaces['ns1']['ns2']['else'])
# Now add something to the global namespace and verify.
ns_stack = None
name = 'global'
self.assertEqual(True, st.add_symbol(name, ns_stack, node, module))
self.assertTrue('global' in st.namespaces[None])
self.assertEqual((node, module), st.namespaces[None]['global'])
# Verify table still has 2 elements (global namespace and ::ns1).
self.assertEqual(2, len(st.namespaces))
# Verify ns1 still has 2 elements (ns2 and 'something').
self.assertEqual(2, len(st.namespaces['ns1']))
# Verify ns2 still has 2 elements (ns3 and 'else').
self.assertEqual(2, len(st.namespaces['ns1']['ns2']))
# Verify ns3 still has 1 element ('foo').
self.assertEqual(1, len(st.namespaces['ns1']['ns2']['ns3']))
def test_get_namespace(self):
# Setup.
st = symbols.SymbolTable()
node = object()
module = object()
ns_stack = ['ns1', 'ns2', 'ns3']
name = 'foo'
self.assertEqual(True, st.add_symbol(name, ns_stack, node, module))
# Verify.
self.assertEqual([], st.get_namespace([]))
self.assertEqual(['ns1'], st.get_namespace(['ns1']))
self.assertEqual(['ns1'], st.get_namespace(['ns1', 'foo']))
self.assertEqual(['ns1'], st.get_namespace(['ns1', 'foo']))
self.assertEqual(['ns1'], st.get_namespace(['ns1', 'foo', 'ns2']))
self.assertEqual(['ns1', 'ns2'], st.get_namespace(['ns1', 'ns2']))
self.assertEqual(['ns1', 'ns2'], st.get_namespace(['ns1', 'ns2', 'f']))
self.assertEqual(['ns1', 'ns2'], st.get_namespace(['ns1', 'ns2', 'f']))
self.assertEqual(['ns1', 'ns2', 'ns3'],
st.get_namespace(['ns1', 'ns2', 'ns3', 'f']))
if __name__ == '__main__':
unittest.main()