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#
# Copyright (c) 2001 Steven Knight
#
# Permission is hereby granted, free of charge, to any person obtaining
# a copy of this software and associated documentation files (the
# "Software"), to deal in the Software without restriction, including
# without limitation the rights to use, copy, modify, merge, publish,
# distribute, sublicense, and/or sell copies of the Software, and to
# permit persons to whom the Software is furnished to do so, subject to
# the following conditions:
#
# The above copyright notice and this permission notice shall be included
# in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY
# KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE
# WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
# LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
# OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
# WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
#
__revision__ = "__FILE__ __REVISION__ __DATE__ __DEVELOPER__"
import sys
import unittest
from SCons.Environment import *
built_it = {}
class Builder:
"""A dummy Builder class for testing purposes. "Building"
a target is simply setting a value in the dictionary.
"""
def __init__(self, name = None):
self.name = name
def execute(self, target = None, **kw):
built_it[target] = 1
scanned_it = {}
class Scanner:
"""A dummy Scanner class for testing purposes. "Scanning"
a target is simply setting a value in the dictionary.
"""
def __init__(self, name, skeys=[]):
self.name = name
self.skeys = skeys
def scan(self, filename):
scanned_it[filename] = 1
def __cmp__(self, other):
return cmp(self.__dict__, other.__dict__)
class EnvironmentTestCase(unittest.TestCase):
def test_Builders(self):
"""Test Builder execution through different environments
One environment is initialized with a single
Builder object, one with a list of a single Builder
object, and one with a list of two Builder objects.
"""
global built_it
b1 = Builder(name = 'builder1')
b2 = Builder(name = 'builder2')
built_it = {}
env1 = Environment(BUILDERS = b1)
env1.builder1.execute(target = 'out1')
assert built_it['out1']
built_it = {}
env2 = Environment(BUILDERS = [b1])
env1.builder1.execute(target = 'out1')
assert built_it['out1']
built_it = {}
env3 = Environment()
env3.Update(BUILDERS = [b1, b2])
env3.builder1.execute(target = 'out1')
env3.builder2.execute(target = 'out2')
env3.builder1.execute(target = 'out3')
assert built_it['out1']
assert built_it['out2']
assert built_it['out3']
env4 = env3.Copy()
assert env4.builder1.env is env4
assert env4.builder2.env is env4
def test_Scanners(self):
"""Test Scanner execution through different environments
One environment is initialized with a single
Scanner object, one with a list of a single Scanner
object, and one with a list of two Scanner objects.
"""
global scanned_it
s1 = Scanner(name = 'scanner1', skeys = [".c", ".cc"])
s2 = Scanner(name = 'scanner2', skeys = [".m4"])
scanned_it = {}
env1 = Environment(SCANNERS = s1)
env1.scanner1.scan(filename = 'out1')
assert scanned_it['out1']
scanned_it = {}
env2 = Environment(SCANNERS = [s1])
env1.scanner1.scan(filename = 'out1')
assert scanned_it['out1']
scanned_it = {}
env3 = Environment()
env3.Update(SCANNERS = [s1, s2])
env3.scanner1.scan(filename = 'out1')
env3.scanner2.scan(filename = 'out2')
env3.scanner1.scan(filename = 'out3')
assert scanned_it['out1']
assert scanned_it['out2']
assert scanned_it['out3']
s = env3.get_scanner(".c")
assert s == s1, s
s = env3.get_scanner(skey=".m4")
assert s == s2, s
s = env3.get_scanner(".cxx")
assert s == None, s
def test_Command(self):
pass # XXX
def test_Copy(self):
"""Test construction Environment copying
Update the copy independently afterwards and check that
the original remains intact (that is, no dangling
references point to objects in the copied environment).
Copy the original with some construction variable
updates and check that the original remains intact
and the copy has the updated values.
"""
env1 = Environment(XXX = 'x', YYY = 'y')
env2 = env1.Copy()
env1copy = env1.Copy()
env2.Update(YYY = 'yyy')
assert env1 != env2
assert env1 == env1copy
env3 = env1.Copy(XXX = 'x3', ZZZ = 'z3')
assert env3.Dictionary('XXX') == 'x3'
assert env3.Dictionary('YYY') == 'y'
assert env3.Dictionary('ZZZ') == 'z3'
assert env1 == env1copy
# Ensure that lists and dictionaries are
# deep copied, but not instances.
class TestA:
pass
env1 = Environment(XXX=TestA(), YYY = [ 1, 2, 3 ],
ZZZ = { 1:2, 3:4 })
env2=env1.Copy()
env2.Dictionary('YYY').append(4)
env2.Dictionary('ZZZ')[5] = 6
assert env1.Dictionary('XXX') is env2.Dictionary('XXX')
assert 4 in env2.Dictionary('YYY')
assert not 4 in env1.Dictionary('YYY')
assert env2.Dictionary('ZZZ').has_key(5)
assert not env1.Dictionary('ZZZ').has_key(5)
def test_Dictionary(self):
"""Test retrieval of known construction variables
Fetch them from the Dictionary and check for well-known
defaults that get inserted.
"""
env = Environment(XXX = 'x', YYY = 'y', ZZZ = 'z')
assert env.Dictionary('XXX') == 'x'
assert env.Dictionary('YYY') == 'y'
assert env.Dictionary('XXX', 'ZZZ') == ['x', 'z']
xxx, zzz = env.Dictionary('XXX', 'ZZZ')
assert xxx == 'x'
assert zzz == 'z'
assert env.Dictionary().has_key('BUILDERS')
assert env.Dictionary().has_key('CC')
assert env.Dictionary().has_key('CCFLAGS')
assert env.Dictionary().has_key('ENV')
def test_ENV(self):
"""Test setting the external ENV in Environments
"""
env = Environment()
assert env.Dictionary().has_key('ENV')
env = Environment(ENV = { 'PATH' : '/foo:/bar' })
assert env.Dictionary('ENV')['PATH'] == '/foo:/bar'
def test_Environment(self):
"""Test construction Environments creation
Create two with identical arguments and check that
they compare the same.
"""
env1 = Environment(XXX = 'x', YYY = 'y')
env2 = Environment(XXX = 'x', YYY = 'y')
assert env1 == env2
def test_Install(self):
pass # XXX
def test_InstallAs(self):
pass # XXX
def test_Update(self):
"""Test updating an Environment with new construction variables
After creation of the Environment, of course.
"""
env1 = Environment(AAA = 'a', BBB = 'b')
env1.Update(BBB = 'bbb', CCC = 'ccc')
env2 = Environment(AAA = 'a', BBB = 'bbb', CCC = 'c')
assert env1 != env2
def test_Depends(self):
"""Test the explicit Depends method."""
env = Environment()
t = env.Depends(target='EnvironmentTest.py', dependency='Environment.py')
assert t.__class__.__name__ == 'File'
assert t.path == 'EnvironmentTest.py'
assert len(t.depends) == 1
d = t.depends[0]
assert d.__class__.__name__ == 'File'
assert d.path == 'Environment.py'
def test_Command(self):
"""Test the Command() method."""
env = Environment()
t = env.Command(target='foo.out', source=['foo1.in', 'foo2.in'],
action='buildfoo $target $source')
assert t.builder
assert t.builder.action.__class__.__name__ == 'CommandAction'
assert t.builder.action.command == 'buildfoo $target $source'
assert 'foo1.in' in map(lambda x: x.path, t.sources)
assert 'foo2.in' in map(lambda x: x.path, t.sources)
def testFunc(env, target, source):
assert target == 'foo.out'
assert 'foo1.in' in source and 'foo2.in' in source, source
return 0
t = env.Command(target='foo.out', source=['foo1.in','foo2.in'],
action=testFunc)
assert t.builder
assert t.builder.action.__class__.__name__ == 'FunctionAction'
t.build()
assert 'foo1.in' in map(lambda x: x.path, t.sources)
assert 'foo2.in' in map(lambda x: x.path, t.sources)
def test_subst(self):
"""Test substituting construction variables within strings
Check various combinations, including recursive expansion
of variables into other variables.
"""
env = Environment(AAA = 'a', BBB = 'b')
str = env.subst("$AAA ${AAA}A $BBBB $BBB")
assert str == "a aA b", str
env = Environment(AAA = '$BBB', BBB = 'b', BBBA = 'foo')
str = env.subst("$AAA ${AAA}A ${AAA}B $BBB")
assert str == "b foo b", str
env = Environment(AAA = '$BBB', BBB = '$CCC', CCC = 'c')
str = env.subst("$AAA ${AAA}A ${AAA}B $BBB")
assert str == "c c", str
if __name__ == "__main__":
suite = unittest.makeSuite(EnvironmentTestCase, 'test_')
if not unittest.TextTestRunner().run(suite).wasSuccessful():
sys.exit(1)
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