# # __COPYRIGHT__ # # 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 os import os.path import string import StringIO import sys import types import unittest from UserDict import UserDict import TestCmd import SCons.Errors from SCons.Util import * class OutBuffer: def __init__(self): self.buffer = "" def write(self, str): self.buffer = self.buffer + str class dictifyTestCase(unittest.TestCase): def test_dictify(self): """Test the dictify() function""" r = SCons.Util.dictify(['a', 'b', 'c'], [1, 2, 3]) assert r == {'a':1, 'b':2, 'c':3}, r r = {} SCons.Util.dictify(['a'], [1], r) SCons.Util.dictify(['b'], [2], r) SCons.Util.dictify(['c'], [3], r) assert r == {'a':1, 'b':2, 'c':3}, r class UtilTestCase(unittest.TestCase): def test_splitext(self): assert splitext('foo') == ('foo','') assert splitext('foo.bar') == ('foo','.bar') assert splitext(os.path.join('foo.bar', 'blat')) == (os.path.join('foo.bar', 'blat'),'') class Node: def __init__(self, name, children=[]): self.children = children self.name = name self.nocache = None def __str__(self): return self.name def exists(self): return 1 def rexists(self): return 1 def has_builder(self): return 1 def has_explicit_builder(self): return 1 def side_effect(self): return 1 def precious(self): return 1 def always_build(self): return 1 def is_up_to_date(self): return 1 def noclean(self): return 1 def tree_case_1(self): """Fixture for the render_tree() and print_tree() tests.""" windows_h = self.Node("windows.h") stdlib_h = self.Node("stdlib.h") stdio_h = self.Node("stdio.h") bar_c = self.Node("bar.c", [stdlib_h, windows_h]) bar_o = self.Node("bar.o", [bar_c]) foo_c = self.Node("foo.c", [stdio_h]) foo_o = self.Node("foo.o", [foo_c]) foo = self.Node("foo", [foo_o, bar_o]) expect = """\ +-foo +-foo.o | +-foo.c | +-stdio.h +-bar.o +-bar.c +-stdlib.h +-windows.h """ lines = string.split(expect, '\n')[:-1] lines = map(lambda l: '[E BSPACN ]'+l, lines) withtags = string.join(lines, '\n') + '\n' return foo, expect, withtags def tree_case_2(self, prune=1): """Fixture for the render_tree() and print_tree() tests.""" stdlib_h = self.Node("stdlib.h") bar_h = self.Node('bar.h', [stdlib_h]) blat_h = self.Node('blat.h', [stdlib_h]) blat_c = self.Node('blat.c', [blat_h, bar_h]) blat_o = self.Node('blat.o', [blat_c]) expect = """\ +-blat.o +-blat.c +-blat.h | +-stdlib.h +-bar.h +-[stdlib.h] """ if not prune: expect = string.replace(expect, '[', '') expect = string.replace(expect, ']', '') lines = string.split(expect, '\n')[:-1] lines = map(lambda l: '[E BSPACN ]'+l, lines) withtags = string.join(lines, '\n') + '\n' return blat_o, expect, withtags def test_render_tree(self): """Test the render_tree() function""" def get_children(node): return node.children node, expect, withtags = self.tree_case_1() actual = render_tree(node, get_children) assert expect == actual, (expect, actual) node, expect, withtags = self.tree_case_2() actual = render_tree(node, get_children, 1) assert expect == actual, (expect, actual) def test_print_tree(self): """Test the print_tree() function""" def get_children(node): return node.children save_stdout = sys.stdout try: node, expect, withtags = self.tree_case_1() sys.stdout = StringIO.StringIO() print_tree(node, get_children) actual = sys.stdout.getvalue() assert expect == actual, (expect, actual) sys.stdout = StringIO.StringIO() print_tree(node, get_children, showtags=1) actual = sys.stdout.getvalue() assert withtags == actual, (withtags, actual) node, expect, withtags = self.tree_case_2(prune=0) sys.stdout = StringIO.StringIO() print_tree(node, get_children, 1) actual = sys.stdout.getvalue() assert expect == actual, (expect, actual) sys.stdout = StringIO.StringIO() # The following call should work here: # print_tree(node, get_children, 1, showtags=1) # For some reason I don't understand, though, *this* # time that we call print_tree, the visited dictionary # is still populated with the values from the last call! # I can't see why this would be, short of a bug in Python, # and rather than continue banging my head against the # brick wall for a *test*, we're going to going with # the cheap, easy workaround: print_tree(node, get_children, 1, showtags=1, visited={}) actual = sys.stdout.getvalue() assert withtags == actual, (withtags, actual) finally: sys.stdout = save_stdout def test_is_Dict(self): assert is_Dict({}) assert is_Dict(UserDict()) assert not is_Dict([]) assert not is_Dict(()) assert not is_Dict("") if hasattr(types, 'UnicodeType'): exec "assert not is_Dict(u'')" def test_is_List(self): assert is_List([]) import UserList assert is_List(UserList.UserList()) assert not is_List(()) assert not is_List({}) assert not is_List("") if hasattr(types, 'UnicodeType'): exec "assert not is_List(u'')" def test_is_String(self): assert is_String("") if hasattr(types, 'UnicodeType'): exec "assert is_String(u'')" try: import UserString except: pass else: assert is_String(UserString.UserString('')) assert not is_String({}) assert not is_String([]) assert not is_String(()) def test_is_Tuple(self): assert is_Tuple(()) assert not is_Tuple([]) assert not is_Tuple({}) assert not is_Tuple("") if hasattr(types, 'UnicodeType'): exec "assert not is_Tuple(u'')" def test_to_String(self): """Test the to_String() method.""" assert to_String(1) == "1", to_String(1) assert to_String([ 1, 2, 3]) == str([1, 2, 3]), to_String([1,2,3]) assert to_String("foo") == "foo", to_String("foo") try: import UserString s1=UserString.UserString('blah') assert to_String(s1) == s1, s1 assert to_String(s1) == 'blah', s1 class Derived(UserString.UserString): pass s2 = Derived('foo') assert to_String(s2) == s2, s2 assert to_String(s2) == 'foo', s2 if hasattr(types, 'UnicodeType'): s3=UserString.UserString(unicode('bar')) assert to_String(s3) == s3, s3 assert to_String(s3) == unicode('bar'), s3 assert type(to_String(s3)) is types.UnicodeType, \ type(to_String(s3)) except ImportError: pass if hasattr(types, 'UnicodeType'): s4 = unicode('baz') assert to_String(s4) == unicode('baz'), to_String(s4) assert type(to_String(s4)) is types.UnicodeType, \ type(to_String(s4)) def test_WhereIs(self): test = TestCmd.TestCmd(workdir = '') sub1_xxx_exe = test.workpath('sub1', 'xxx.exe') sub2_xxx_exe = test.workpath('sub2', 'xxx.exe') sub3_xxx_exe = test.workpath('sub3', 'xxx.exe') sub4_xxx_exe = test.workpath('sub4', 'xxx.exe') test.subdir('subdir', 'sub1', 'sub2', 'sub3', 'sub4') if sys.platform != 'win32': test.write(sub1_xxx_exe, "\n") os.mkdir(sub2_xxx_exe) test.write(sub3_xxx_exe, "\n") os.chmod(sub3_xxx_exe, 0777) test.write(sub4_xxx_exe, "\n") os.chmod(sub4_xxx_exe, 0777) env_path = os.environ['PATH'] try: pathdirs_1234 = [ test.workpath('sub1'), test.workpath('sub2'), test.workpath('sub3'), test.workpath('sub4'), ] + string.split(env_path, os.pathsep) pathdirs_1243 = [ test.workpath('sub1'), test.workpath('sub2'), test.workpath('sub4'), test.workpath('sub3'), ] + string.split(env_path, os.pathsep) os.environ['PATH'] = string.join(pathdirs_1234, os.pathsep) wi = WhereIs('xxx.exe') assert wi == test.workpath(sub3_xxx_exe), wi wi = WhereIs('xxx.exe', pathdirs_1243) assert wi == test.workpath(sub4_xxx_exe), wi wi = WhereIs('xxx.exe', string.join(pathdirs_1243, os.pathsep)) assert wi == test.workpath(sub4_xxx_exe), wi wi = WhereIs('xxx.exe',reject = sub3_xxx_exe) assert wi == test.workpath(sub4_xxx_exe), wi wi = WhereIs('xxx.exe', pathdirs_1243, reject = sub3_xxx_exe) assert wi == test.workpath(sub4_xxx_exe), wi os.environ['PATH'] = string.join(pathdirs_1243, os.pathsep) wi = WhereIs('xxx.exe') assert wi == test.workpath(sub4_xxx_exe), wi wi = WhereIs('xxx.exe', pathdirs_1234) assert wi == test.workpath(sub3_xxx_exe), wi wi = WhereIs('xxx.exe', string.join(pathdirs_1234, os.pathsep)) assert wi == test.workpath(sub3_xxx_exe), wi if sys.platform == 'win32': wi = WhereIs('xxx', pathext = '') assert wi is None, wi wi = WhereIs('xxx', pathext = '.exe') assert wi == test.workpath(sub4_xxx_exe), wi wi = WhereIs('xxx', path = pathdirs_1234, pathext = '.BAT;.EXE') assert string.lower(wi) == string.lower(test.workpath(sub3_xxx_exe)), wi # Test that we return a normalized path even when # the path contains forward slashes. forward_slash = test.workpath('') + '/sub3' wi = WhereIs('xxx', path = forward_slash, pathext = '.EXE') assert string.lower(wi) == string.lower(test.workpath(sub3_xxx_exe)), wi del os.environ['PATH'] wi = WhereIs('xxx.exe') assert wi is None, wi finally: os.environ['PATH'] = env_path def test_is_valid_construction_var(self): """Testing is_valid_construction_var()""" r = is_valid_construction_var("_a") assert not r is None, r r = is_valid_construction_var("z_") assert not r is None, r r = is_valid_construction_var("X_") assert not r is None, r r = is_valid_construction_var("2a") assert r is None, r r = is_valid_construction_var("a2_") assert not r is None, r r = is_valid_construction_var("/") assert r is None, r r = is_valid_construction_var("_/") assert r is None, r r = is_valid_construction_var("a/") assert r is None, r r = is_valid_construction_var(".b") assert r is None, r r = is_valid_construction_var("_.b") assert r is None, r r = is_valid_construction_var("b1._") assert r is None, r r = is_valid_construction_var("-b") assert r is None, r r = is_valid_construction_var("_-b") assert r is None, r r = is_valid_construction_var("b1-_") assert r is None, r def test_get_env_var(self): """Testing get_environment_var().""" assert get_environment_var("$FOO") == "FOO", get_environment_var("$FOO") assert get_environment_var("${BAR}") == "BAR", get_environment_var("${BAR}") assert get_environment_var("$FOO_BAR1234") == "FOO_BAR1234", get_environment_var("$FOO_BAR1234") assert get_environment_var("${BAR_FOO1234}") == "BAR_FOO1234", get_environment_var("${BAR_FOO1234}") assert get_environment_var("${BAR}FOO") == None, get_environment_var("${BAR}FOO") assert get_environment_var("$BAR ") == None, get_environment_var("$BAR ") assert get_environment_var("FOO$BAR") == None, get_environment_var("FOO$BAR") assert get_environment_var("$FOO[0]") == None, get_environment_var("$FOO[0]") assert get_environment_var("${some('complex expression')}") == None, get_environment_var("${some('complex expression')}") def test_Proxy(self): """Test generic Proxy class.""" class Subject: def foo(self): return 1 def bar(self): return 2 s=Subject() s.baz = 3 class ProxyTest(Proxy): def bar(self): return 4 p=ProxyTest(s) assert p.foo() == 1, p.foo() assert p.bar() == 4, p.bar() assert p.baz == 3, p.baz p.baz = 5 s.baz = 6 assert p.baz == 5, p.baz assert p.get() == s, p.get() def test_display(self): old_stdout = sys.stdout sys.stdout = OutBuffer() display("line1") display.set_mode(0) display("line2") display.set_mode(1) display("line3") display("line4\n", append_newline=0) display.set_mode(0) display("dont print1") display("dont print2\n", append_newline=0) display.set_mode(1) assert sys.stdout.buffer == "line1\nline3\nline4\n" sys.stdout = old_stdout def test_get_native_path(self): """Test the get_native_path() function.""" import tempfile filename = tempfile.mktemp() str = '1234567890 ' + filename try: open(filename, 'w').write(str) assert open(get_native_path(filename)).read() == str finally: try: os.unlink(filename) except OSError: pass def test_PrependPath(self): """Test prepending to a path""" p1 = r'C:\dir\num\one;C:\dir\num\two' p2 = r'C:\mydir\num\one;C:\mydir\num\two' # have to include the pathsep here so that the test will work on UNIX too. p1 = PrependPath(p1,r'C:\dir\num\two',sep = ';') p1 = PrependPath(p1,r'C:\dir\num\three',sep = ';') p2 = PrependPath(p2,r'C:\mydir\num\three',sep = ';') p2 = PrependPath(p2,r'C:\mydir\num\one',sep = ';') assert(p1 == r'C:\dir\num\three;C:\dir\num\two;C:\dir\num\one') assert(p2 == r'C:\mydir\num\one;C:\mydir\num\three;C:\mydir\num\two') def test_AppendPath(self): """Test appending to a path.""" p1 = r'C:\dir\num\one;C:\dir\num\two' p2 = r'C:\mydir\num\one;C:\mydir\num\two' # have to include the pathsep here so that the test will work on UNIX too. p1 = AppendPath(p1,r'C:\dir\num\two',sep = ';') p1 = AppendPath(p1,r'C:\dir\num\three',sep = ';') p2 = AppendPath(p2,r'C:\mydir\num\three',sep = ';') p2 = AppendPath(p2,r'C:\mydir\num\one',sep = ';') assert(p1 == r'C:\dir\num\one;C:\dir\num\two;C:\dir\num\three') assert(p2 == r'C:\mydir\num\two;C:\mydir\num\three;C:\mydir\num\one') def test_NodeList(self): """Test NodeList class""" class TestClass: def __init__(self, name, child=None): self.child = child self.bar = name def foo(self): return self.bar + "foo" def getself(self): return self t1 = TestClass('t1', TestClass('t1child')) t2 = TestClass('t2', TestClass('t2child')) t3 = TestClass('t3') nl = NodeList([t1, t2, t3]) assert nl.foo() == [ 't1foo', 't2foo', 't3foo' ], nl.foo() assert nl.bar == [ 't1', 't2', 't3' ], nl.bar assert nl.getself().bar == [ 't1', 't2', 't3' ], nl.getself().bar assert nl[0:2].child.foo() == [ 't1childfoo', 't2childfoo' ], \ nl[0:2].child.foo() assert nl[0:2].child.bar == [ 't1child', 't2child' ], \ nl[0:2].child.bar def test_CLVar(self): """Test the command-line construction variable class""" f = SCons.Util.CLVar('a b') r = f + 'c d' assert isinstance(r, SCons.Util.CLVar), type(r) assert r.data == ['a', 'b', 'c', 'd'], r.data assert str(r) == 'a b c d', str(r) r = f + ' c d' assert isinstance(r, SCons.Util.CLVar), type(r) assert r.data == ['a', 'b', 'c', 'd'], r.data assert str(r) == 'a b c d', str(r) r = f + ['c d'] assert isinstance(r, SCons.Util.CLVar), type(r) assert r.data == ['a', 'b', 'c d'], r.data assert str(r) == 'a b c d', str(r) r = f + [' c d'] assert isinstance(r, SCons.Util.CLVar), type(r) assert r.data == ['a', 'b', ' c d'], r.data assert str(r) == 'a b c d', str(r) r = f + ['c', 'd'] assert isinstance(r, SCons.Util.CLVar), type(r) assert r.data == ['a', 'b', 'c', 'd'], r.data assert str(r) == 'a b c d', str(r) r = f + [' c', 'd'] assert isinstance(r, SCons.Util.CLVar), type(r) assert r.data == ['a', 'b', ' c', 'd'], r.data assert str(r) == 'a b c d', str(r) f = SCons.Util.CLVar(['a b']) r = f + 'c d' assert isinstance(r, SCons.Util.CLVar), type(r) assert r.data == ['a b', 'c', 'd'], r.data assert str(r) == 'a b c d', str(r) r = f + ' c d' assert isinstance(r, SCons.Util.CLVar), type(r) assert r.data == ['a b', 'c', 'd'], r.data assert str(r) == 'a b c d', str(r) r = f + ['c d'] assert isinstance(r, SCons.Util.CLVar), type(r) assert r.data == ['a b', 'c d'], r.data assert str(r) == 'a b c d', str(r) r = f + [' c d'] assert isinstance(r, SCons.Util.CLVar), type(r) assert r.data == ['a b', ' c d'], r.data assert str(r) == 'a b c d', str(r) r = f + ['c', 'd'] assert isinstance(r, SCons.Util.CLVar), type(r) assert r.data == ['a b', 'c', 'd'], r.data assert str(r) == 'a b c d', str(r) r = f + [' c', 'd'] assert isinstance(r, SCons.Util.CLVar), type(r) assert r.data == ['a b', ' c', 'd'], r.data assert str(r) == 'a b c d', str(r) f = SCons.Util.CLVar(['a', 'b']) r = f + 'c d' assert isinstance(r, SCons.Util.CLVar), type(r) assert r.data == ['a', 'b', 'c', 'd'], r.data assert str(r) == 'a b c d', str(r) r = f + ' c d' assert isinstance(r, SCons.Util.CLVar), type(r) assert r.data == ['a', 'b', 'c', 'd'], r.data assert str(r) == 'a b c d', str(r) r = f + ['c d'] assert isinstance(r, SCons.Util.CLVar), type(r) assert r.data == ['a', 'b', 'c d'], r.data assert str(r) == 'a b c d', str(r) r = f + [' c d'] assert isinstance(r, SCons.Util.CLVar), type(r) assert r.data == ['a', 'b', ' c d'], r.data assert str(r) == 'a b c d', str(r) r = f + ['c', 'd'] assert isinstance(r, SCons.Util.CLVar), type(r) assert r.data == ['a', 'b', 'c', 'd'], r.data assert str(r) == 'a b c d', str(r) r = f + [' c', 'd'] assert isinstance(r, SCons.Util.CLVar), type(r) assert r.data == ['a', 'b', ' c', 'd'], r.data assert str(r) == 'a b c d', str(r) def test_Selector(self): """Test the Selector class""" s = Selector({'a' : 'AAA', 'b' : 'BBB'}) assert s['a'] == 'AAA', s['a'] assert s['b'] == 'BBB', s['b'] exc_caught = None try: x = s['c'] except KeyError: exc_caught = 1 assert exc_caught, "should have caught a KeyError" s['c'] = 'CCC' assert s['c'] == 'CCC', s['c'] class DummyEnv(UserDict): def subst(self, key): if key[0] == '$': return self[key[1:]] return key env = DummyEnv() s = Selector({'.d' : 'DDD', '.e' : 'EEE'}) ret = s(env, []) assert ret == None, ret ret = s(env, ['foo.d']) assert ret == 'DDD', ret ret = s(env, ['bar.e']) assert ret == 'EEE', ret ret = s(env, ['bar.x']) assert ret == None, ret s[None] = 'XXX' ret = s(env, ['bar.x']) assert ret == 'XXX', ret env = DummyEnv({'FSUFF' : '.f', 'GSUFF' : '.g'}) s = Selector({'$FSUFF' : 'FFF', '$GSUFF' : 'GGG'}) ret = s(env, ['foo.f']) assert ret == 'FFF', ret ret = s(env, ['bar.g']) assert ret == 'GGG', ret def test_adjustixes(self): """Test the adjustixes() function""" r = adjustixes('file', 'pre-', '-suf') assert r == 'pre-file-suf', r r = adjustixes('pre-file', 'pre-', '-suf') assert r == 'pre-file-suf', r r = adjustixes('file-suf', 'pre-', '-suf') assert r == 'pre-file-suf', r r = adjustixes('pre-file-suf', 'pre-', '-suf') assert r == 'pre-file-suf', r r = adjustixes('pre-file.xxx', 'pre-', '-suf') assert r == 'pre-file.xxx', r r = adjustixes('dir/file', 'pre-', '-suf') assert r == os.path.join('dir', 'pre-file-suf'), r def test_containsAny(self): """Test the containsAny() function""" assert containsAny('*.py', '*?[]') assert not containsAny('file.txt', '*?[]') def test_containsAll(self): """Test the containsAll() function""" assert containsAll('43221', '123') assert not containsAll('134', '123') def test_containsOnly(self): """Test the containsOnly() function""" assert containsOnly('.83', '0123456789.') assert not containsOnly('43221', '123') def test_LogicalLines(self): """Test the LogicalLines class""" fobj = StringIO.StringIO(r""" foo \ bar \ baz foo bling \ bling \ bling bling """) lines = LogicalLines(fobj).readlines() assert lines == [ '\n', 'foo bar baz\n', 'foo\n', 'bling bling \\ bling\n', 'bling\n', ], lines class MD5TestCase(unittest.TestCase): def test_collect(self): """Test collecting a list of signatures into a new signature value """ s = map(MD5signature, ('111', '222', '333')) assert '698d51a19d8a121ce581499d7b701668' == MD5collect(s[0:1]) assert '8980c988edc2c78cc43ccb718c06efd5' == MD5collect(s[0:2]) assert '53fd88c84ff8a285eb6e0a687e55b8c7' == MD5collect(s) def test_MD5signature(self): """Test generating a signature""" s = MD5signature('111') assert '698d51a19d8a121ce581499d7b701668' == s, s s = MD5signature('222') assert 'bcbe3365e6ac95ea2c0343a2395834dd' == s, s if __name__ == "__main__": suite = unittest.TestSuite() tclasses = [ dictifyTestCase, MD5TestCase, UtilTestCase, ] for tclass in tclasses: names = unittest.getTestCaseNames(tclass, 'test_') suite.addTests(map(tclass, names)) if not unittest.TextTestRunner().run(suite).wasSuccessful(): sys.exit(1)