lib-python.2.7.test.test_trace.py Maven / Gradle / Ivy
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Jython is an implementation of the high-level, dynamic, object-oriented
language Python written in 100% Pure Java, and seamlessly integrated with
the Java platform. It thus allows you to run Python on any Java platform.
import os
import sys
from test.test_support import (run_unittest, TESTFN, rmtree, unlink,
captured_stdout)
import unittest
import trace
from trace import CoverageResults, Trace
from test.tracedmodules import testmod
#------------------------------- Utilities -----------------------------------#
def fix_ext_py(filename):
"""Given a .pyc/.pyo filename converts it to the appropriate .py"""
if filename.endswith(('.pyc', '.pyo')):
filename = filename[:-1]
return filename
def my_file_and_modname():
"""The .py file and module name of this file (__file__)"""
modname = os.path.splitext(os.path.basename(__file__))[0]
return fix_ext_py(__file__), modname
def get_firstlineno(func):
return func.__code__.co_firstlineno
#-------------------- Target functions for tracing ---------------------------#
#
# The relative line numbers of lines in these functions matter for verifying
# tracing. Please modify the appropriate tests if you change one of the
# functions. Absolute line numbers don't matter.
#
def traced_func_linear(x, y):
a = x
b = y
c = a + b
return c
def traced_func_loop(x, y):
c = x
for i in range(5):
c += y
return c
def traced_func_importing(x, y):
return x + y + testmod.func(1)
def traced_func_simple_caller(x):
c = traced_func_linear(x, x)
return c + x
def traced_func_importing_caller(x):
k = traced_func_simple_caller(x)
k += traced_func_importing(k, x)
return k
def traced_func_generator(num):
c = 5 # executed once
for i in range(num):
yield i + c
def traced_func_calling_generator():
k = 0
for i in traced_func_generator(10):
k += i
def traced_doubler(num):
return num * 2
def traced_caller_list_comprehension():
k = 10
mylist = [traced_doubler(i) for i in range(k)]
return mylist
class TracedClass(object):
def __init__(self, x):
self.a = x
def inst_method_linear(self, y):
return self.a + y
def inst_method_calling(self, x):
c = self.inst_method_linear(x)
return c + traced_func_linear(x, c)
@classmethod
def class_method_linear(cls, y):
return y * 2
@staticmethod
def static_method_linear(y):
return y * 2
#------------------------------ Test cases -----------------------------------#
class TestLineCounts(unittest.TestCase):
"""White-box testing of line-counting, via runfunc"""
def setUp(self):
self.tracer = Trace(count=1, trace=0, countfuncs=0, countcallers=0)
self.my_py_filename = fix_ext_py(__file__)
def test_traced_func_linear(self):
result = self.tracer.runfunc(traced_func_linear, 2, 5)
self.assertEqual(result, 7)
# all lines are executed once
expected = {}
firstlineno = get_firstlineno(traced_func_linear)
for i in range(1, 5):
expected[(self.my_py_filename, firstlineno + i)] = 1
self.assertEqual(self.tracer.results().counts, expected)
def test_traced_func_loop(self):
self.tracer.runfunc(traced_func_loop, 2, 3)
firstlineno = get_firstlineno(traced_func_loop)
expected = {
(self.my_py_filename, firstlineno + 1): 1,
(self.my_py_filename, firstlineno + 2): 6,
(self.my_py_filename, firstlineno + 3): 5,
(self.my_py_filename, firstlineno + 4): 1,
}
self.assertEqual(self.tracer.results().counts, expected)
def test_traced_func_importing(self):
self.tracer.runfunc(traced_func_importing, 2, 5)
firstlineno = get_firstlineno(traced_func_importing)
expected = {
(self.my_py_filename, firstlineno + 1): 1,
(fix_ext_py(testmod.__file__), 2): 1,
(fix_ext_py(testmod.__file__), 3): 1,
}
self.assertEqual(self.tracer.results().counts, expected)
def test_trace_func_generator(self):
self.tracer.runfunc(traced_func_calling_generator)
firstlineno_calling = get_firstlineno(traced_func_calling_generator)
firstlineno_gen = get_firstlineno(traced_func_generator)
expected = {
(self.my_py_filename, firstlineno_calling + 1): 1,
(self.my_py_filename, firstlineno_calling + 2): 11,
(self.my_py_filename, firstlineno_calling + 3): 10,
(self.my_py_filename, firstlineno_gen + 1): 1,
(self.my_py_filename, firstlineno_gen + 2): 11,
(self.my_py_filename, firstlineno_gen + 3): 10,
}
self.assertEqual(self.tracer.results().counts, expected)
def test_trace_list_comprehension(self):
self.tracer.runfunc(traced_caller_list_comprehension)
firstlineno_calling = get_firstlineno(traced_caller_list_comprehension)
firstlineno_called = get_firstlineno(traced_doubler)
expected = {
(self.my_py_filename, firstlineno_calling + 1): 1,
(self.my_py_filename, firstlineno_calling + 2): 11,
(self.my_py_filename, firstlineno_calling + 3): 1,
(self.my_py_filename, firstlineno_called + 1): 10,
}
self.assertEqual(self.tracer.results().counts, expected)
def test_linear_methods(self):
# XXX todo: later add 'static_method_linear' and 'class_method_linear'
# here, once issue1764286 is resolved
#
for methname in ['inst_method_linear',]:
tracer = Trace(count=1, trace=0, countfuncs=0, countcallers=0)
traced_obj = TracedClass(25)
method = getattr(traced_obj, methname)
tracer.runfunc(method, 20)
firstlineno = get_firstlineno(method)
expected = {
(self.my_py_filename, firstlineno + 1): 1,
}
self.assertEqual(tracer.results().counts, expected)
class TestRunExecCounts(unittest.TestCase):
"""A simple sanity test of line-counting, via runctx (exec)"""
def setUp(self):
self.my_py_filename = fix_ext_py(__file__)
def test_exec_counts(self):
self.tracer = Trace(count=1, trace=0, countfuncs=0, countcallers=0)
code = r'''traced_func_loop(2, 5)'''
code = compile(code, __file__, 'exec')
self.tracer.runctx(code, globals(), vars())
firstlineno = get_firstlineno(traced_func_loop)
expected = {
(self.my_py_filename, firstlineno + 1): 1,
(self.my_py_filename, firstlineno + 2): 6,
(self.my_py_filename, firstlineno + 3): 5,
(self.my_py_filename, firstlineno + 4): 1,
}
# When used through 'run', some other spurious counts are produced, like
# the settrace of threading, which we ignore, just making sure that the
# counts fo traced_func_loop were right.
#
for k in expected.keys():
self.assertEqual(self.tracer.results().counts[k], expected[k])
class TestFuncs(unittest.TestCase):
"""White-box testing of funcs tracing"""
def setUp(self):
self.tracer = Trace(count=0, trace=0, countfuncs=1)
self.filemod = my_file_and_modname()
def test_simple_caller(self):
self.tracer.runfunc(traced_func_simple_caller, 1)
expected = {
self.filemod + ('traced_func_simple_caller',): 1,
self.filemod + ('traced_func_linear',): 1,
}
self.assertEqual(self.tracer.results().calledfuncs, expected)
def test_loop_caller_importing(self):
self.tracer.runfunc(traced_func_importing_caller, 1)
expected = {
self.filemod + ('traced_func_simple_caller',): 1,
self.filemod + ('traced_func_linear',): 1,
self.filemod + ('traced_func_importing_caller',): 1,
self.filemod + ('traced_func_importing',): 1,
(fix_ext_py(testmod.__file__), 'testmod', 'func'): 1,
}
self.assertEqual(self.tracer.results().calledfuncs, expected)
def test_inst_method_calling(self):
obj = TracedClass(20)
self.tracer.runfunc(obj.inst_method_calling, 1)
expected = {
self.filemod + ('TracedClass.inst_method_calling',): 1,
self.filemod + ('TracedClass.inst_method_linear',): 1,
self.filemod + ('traced_func_linear',): 1,
}
self.assertEqual(self.tracer.results().calledfuncs, expected)
class TestCallers(unittest.TestCase):
"""White-box testing of callers tracing"""
def setUp(self):
self.tracer = Trace(count=0, trace=0, countcallers=1)
self.filemod = my_file_and_modname()
def test_loop_caller_importing(self):
self.tracer.runfunc(traced_func_importing_caller, 1)
expected = {
((os.path.splitext(trace.__file__)[0] + '.py', 'trace', 'Trace.runfunc'),
(self.filemod + ('traced_func_importing_caller',))): 1,
((self.filemod + ('traced_func_simple_caller',)),
(self.filemod + ('traced_func_linear',))): 1,
((self.filemod + ('traced_func_importing_caller',)),
(self.filemod + ('traced_func_simple_caller',))): 1,
((self.filemod + ('traced_func_importing_caller',)),
(self.filemod + ('traced_func_importing',))): 1,
((self.filemod + ('traced_func_importing',)),
(fix_ext_py(testmod.__file__), 'testmod', 'func')): 1,
}
self.assertEqual(self.tracer.results().callers, expected)
# Created separately for issue #3821
class TestCoverage(unittest.TestCase):
def tearDown(self):
rmtree(TESTFN)
unlink(TESTFN)
def _coverage(self, tracer,
cmd='from test import test_pprint; test_pprint.test_main()'):
tracer.run(cmd)
r = tracer.results()
r.write_results(show_missing=True, summary=True, coverdir=TESTFN)
def test_coverage(self):
tracer = trace.Trace(trace=0, count=1)
with captured_stdout() as stdout:
self._coverage(tracer)
stdout = stdout.getvalue()
self.assertTrue("pprint.py" in stdout)
self.assertTrue("case.py" in stdout) # from unittest
files = os.listdir(TESTFN)
self.assertTrue("pprint.cover" in files)
self.assertTrue("unittest.case.cover" in files)
def test_coverage_ignore(self):
# Ignore all files, nothing should be traced nor printed
libpath = os.path.normpath(os.path.dirname(os.__file__))
# sys.prefix does not work when running from a checkout
tracer = trace.Trace(ignoredirs=[sys.prefix, sys.exec_prefix, libpath],
trace=0, count=1)
with captured_stdout() as stdout:
self._coverage(tracer)
if os.path.exists(TESTFN):
files = os.listdir(TESTFN)
self.assertEqual(files, [])
def test_issue9936(self):
tracer = trace.Trace(trace=0, count=1)
modname = 'test.tracedmodules.testmod'
# Ensure that the module is executed in import
if modname in sys.modules:
del sys.modules[modname]
cmd = ("import test.tracedmodules.testmod as t;"
"t.func(0); t.func2();")
with captured_stdout() as stdout:
self._coverage(tracer, cmd)
stdout.seek(0)
stdout.readline()
coverage = {}
for line in stdout:
lines, cov, module = line.split()[:3]
coverage[module] = (int(lines), int(cov[:-1]))
# XXX This is needed to run regrtest.py as a script
modname = trace.fullmodname(sys.modules[modname].__file__)
self.assertIn(modname, coverage)
self.assertEqual(coverage[modname], (5, 100))
def test_main():
run_unittest(__name__)
if __name__ == '__main__':
test_main()