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v0.5.1
v0.5.1
https://github.com/python/cpython
Revision 4f96f5ffc6dd0b171bb14666d134af84ae307752 authored by Mark Dickinson on 04 May 2010, 14:25:50 UTC, committed by Mark Dickinson on 04 May 2010, 14:25:50 UTC
When a Decimal operation raises multiple signals and more than one of those signals is trapped, the specification determines the order in which the signals should be handled. In many cases this order wasn't being followed, leading to the wrong Python exception being raised. This commit fixes those cases, and adds extra tests. The tests are only enabled when EXTENDEDERRORTESTS is True, since they involve rerunning each Decimal testcase several times.
1 parent 7120219
Tip revision: 4f96f5ffc6dd0b171bb14666d134af84ae307752 authored by Mark Dickinson on 04 May 2010, 14:25:50 UTC
Issue #8567: Fix incorrect precedence of signals in Decimal module.
Issue #8567: Fix incorrect precedence of signals in Decimal module.
Tip revision: 4f96f5f
trace.py
#!/usr/bin/env python
# portions copyright 2001, Autonomous Zones Industries, Inc., all rights...
# err... reserved and offered to the public under the terms of the
# Python 2.2 license.
# Author: Zooko O'Whielacronx
# http://zooko.com/
# mailto:zooko@zooko.com
#
# Copyright 2000, Mojam Media, Inc., all rights reserved.
# Author: Skip Montanaro
#
# Copyright 1999, Bioreason, Inc., all rights reserved.
# Author: Andrew Dalke
#
# Copyright 1995-1997, Automatrix, Inc., all rights reserved.
# Author: Skip Montanaro
#
# Copyright 1991-1995, Stichting Mathematisch Centrum, all rights reserved.
#
#
# Permission to use, copy, modify, and distribute this Python software and
# its associated documentation for any purpose without fee is hereby
# granted, provided that the above copyright notice appears in all copies,
# and that both that copyright notice and this permission notice appear in
# supporting documentation, and that the name of neither Automatrix,
# Bioreason or Mojam Media be used in advertising or publicity pertaining to
# distribution of the software without specific, written prior permission.
#
"""program/module to trace Python program or function execution
Sample use, command line:
trace.py -c -f counts --ignore-dir '$prefix' spam.py eggs
trace.py -t --ignore-dir '$prefix' spam.py eggs
trace.py --trackcalls spam.py eggs
Sample use, programmatically
import sys
# create a Trace object, telling it what to ignore, and whether to
# do tracing or line-counting or both.
tracer = trace.Trace(ignoredirs=[sys.prefix, sys.exec_prefix,], trace=0,
count=1)
# run the new command using the given tracer
tracer.run('main()')
# make a report, placing output in /tmp
r = tracer.results()
r.write_results(show_missing=True, coverdir="/tmp")
"""
import linecache
import os
import re
import sys
import threading
import time
import token
import tokenize
import types
import gc
try:
import cPickle
pickle = cPickle
except ImportError:
import pickle
def usage(outfile):
outfile.write("""Usage: %s [OPTIONS] <file> [ARGS]
Meta-options:
--help Display this help then exit.
--version Output version information then exit.
Otherwise, exactly one of the following three options must be given:
-t, --trace Print each line to sys.stdout before it is executed.
-c, --count Count the number of times each line is executed
and write the counts to <module>.cover for each
module executed, in the module's directory.
See also `--coverdir', `--file', `--no-report' below.
-l, --listfuncs Keep track of which functions are executed at least
once and write the results to sys.stdout after the
program exits.
-T, --trackcalls Keep track of caller/called pairs and write the
results to sys.stdout after the program exits.
-r, --report Generate a report from a counts file; do not execute
any code. `--file' must specify the results file to
read, which must have been created in a previous run
with `--count --file=FILE'.
Modifiers:
-f, --file=<file> File to accumulate counts over several runs.
-R, --no-report Do not generate the coverage report files.
Useful if you want to accumulate over several runs.
-C, --coverdir=<dir> Directory where the report files. The coverage
report for <package>.<module> is written to file
<dir>/<package>/<module>.cover.
-m, --missing Annotate executable lines that were not executed
with '>>>>>> '.
-s, --summary Write a brief summary on stdout for each file.
(Can only be used with --count or --report.)
-g, --timing Prefix each line with the time since the program started.
Only used while tracing.
Filters, may be repeated multiple times:
--ignore-module=<mod> Ignore the given module(s) and its submodules
(if it is a package). Accepts comma separated
list of module names
--ignore-dir=<dir> Ignore files in the given directory (multiple
directories can be joined by os.pathsep).
""" % sys.argv[0])
PRAGMA_NOCOVER = "#pragma NO COVER"
# Simple rx to find lines with no code.
rx_blank = re.compile(r'^\s*(#.*)?$')
class Ignore:
def __init__(self, modules = None, dirs = None):
self._mods = modules or []
self._dirs = dirs or []
self._dirs = map(os.path.normpath, self._dirs)
self._ignore = { '<string>': 1 }
def names(self, filename, modulename):
if modulename in self._ignore:
return self._ignore[modulename]
# haven't seen this one before, so see if the module name is
# on the ignore list. Need to take some care since ignoring
# "cmp" musn't mean ignoring "cmpcache" but ignoring
# "Spam" must also mean ignoring "Spam.Eggs".
for mod in self._mods:
if mod == modulename: # Identical names, so ignore
self._ignore[modulename] = 1
return 1
# check if the module is a proper submodule of something on
# the ignore list
n = len(mod)
# (will not overflow since if the first n characters are the
# same and the name has not already occurred, then the size
# of "name" is greater than that of "mod")
if mod == modulename[:n] and modulename[n] == '.':
self._ignore[modulename] = 1
return 1
# Now check that __file__ isn't in one of the directories
if filename is None:
# must be a built-in, so we must ignore
self._ignore[modulename] = 1
return 1
# Ignore a file when it contains one of the ignorable paths
for d in self._dirs:
# The '+ os.sep' is to ensure that d is a parent directory,
# as compared to cases like:
# d = "/usr/local"
# filename = "/usr/local.py"
# or
# d = "/usr/local.py"
# filename = "/usr/local.py"
if filename.startswith(d + os.sep):
self._ignore[modulename] = 1
return 1
# Tried the different ways, so we don't ignore this module
self._ignore[modulename] = 0
return 0
def modname(path):
"""Return a plausible module name for the patch."""
base = os.path.basename(path)
filename, ext = os.path.splitext(base)
return filename
def fullmodname(path):
"""Return a plausible module name for the path."""
# If the file 'path' is part of a package, then the filename isn't
# enough to uniquely identify it. Try to do the right thing by
# looking in sys.path for the longest matching prefix. We'll
# assume that the rest is the package name.
comparepath = os.path.normcase(path)
longest = ""
for dir in sys.path:
dir = os.path.normcase(dir)
if comparepath.startswith(dir) and comparepath[len(dir)] == os.sep:
if len(dir) > len(longest):
longest = dir
if longest:
base = path[len(longest) + 1:]
else:
base = path
base = base.replace(os.sep, ".")
if os.altsep:
base = base.replace(os.altsep, ".")
filename, ext = os.path.splitext(base)
return filename
class CoverageResults:
def __init__(self, counts=None, calledfuncs=None, infile=None,
callers=None, outfile=None):
self.counts = counts
if self.counts is None:
self.counts = {}
self.counter = self.counts.copy() # map (filename, lineno) to count
self.calledfuncs = calledfuncs
if self.calledfuncs is None:
self.calledfuncs = {}
self.calledfuncs = self.calledfuncs.copy()
self.callers = callers
if self.callers is None:
self.callers = {}
self.callers = self.callers.copy()
self.infile = infile
self.outfile = outfile
if self.infile:
# Try to merge existing counts file.
try:
counts, calledfuncs, callers = \
pickle.load(open(self.infile, 'rb'))
self.update(self.__class__(counts, calledfuncs, callers))
except (IOError, EOFError, ValueError), err:
print >> sys.stderr, ("Skipping counts file %r: %s"
% (self.infile, err))
def update(self, other):
"""Merge in the data from another CoverageResults"""
counts = self.counts
calledfuncs = self.calledfuncs
callers = self.callers
other_counts = other.counts
other_calledfuncs = other.calledfuncs
other_callers = other.callers
for key in other_counts.keys():
counts[key] = counts.get(key, 0) + other_counts[key]
for key in other_calledfuncs.keys():
calledfuncs[key] = 1
for key in other_callers.keys():
callers[key] = 1
def write_results(self, show_missing=True, summary=False, coverdir=None):
"""
@param coverdir
"""
if self.calledfuncs:
print
print "functions called:"
calls = self.calledfuncs.keys()
calls.sort()
for filename, modulename, funcname in calls:
print ("filename: %s, modulename: %s, funcname: %s"
% (filename, modulename, funcname))
if self.callers:
print
print "calling relationships:"
calls = self.callers.keys()
calls.sort()
lastfile = lastcfile = ""
for ((pfile, pmod, pfunc), (cfile, cmod, cfunc)) in calls:
if pfile != lastfile:
print
print "***", pfile, "***"
lastfile = pfile
lastcfile = ""
if cfile != pfile and lastcfile != cfile:
print " -->", cfile
lastcfile = cfile
print " %s.%s -> %s.%s" % (pmod, pfunc, cmod, cfunc)
# turn the counts data ("(filename, lineno) = count") into something
# accessible on a per-file basis
per_file = {}
for filename, lineno in self.counts.keys():
lines_hit = per_file[filename] = per_file.get(filename, {})
lines_hit[lineno] = self.counts[(filename, lineno)]
# accumulate summary info, if needed
sums = {}
for filename, count in per_file.iteritems():
# skip some "files" we don't care about...
if filename == "<string>":
continue
if filename.startswith("<doctest "):
continue
if filename.endswith((".pyc", ".pyo")):
filename = filename[:-1]
if coverdir is None:
dir = os.path.dirname(os.path.abspath(filename))
modulename = modname(filename)
else:
dir = coverdir
if not os.path.exists(dir):
os.makedirs(dir)
modulename = fullmodname(filename)
# If desired, get a list of the line numbers which represent
# executable content (returned as a dict for better lookup speed)
if show_missing:
lnotab = find_executable_linenos(filename)
else:
lnotab = {}
source = linecache.getlines(filename)
coverpath = os.path.join(dir, modulename + ".cover")
n_hits, n_lines = self.write_results_file(coverpath, source,
lnotab, count)
if summary and n_lines:
percent = int(100 * n_hits / n_lines)
sums[modulename] = n_lines, percent, modulename, filename
if summary and sums:
mods = sums.keys()
mods.sort()
print "lines cov% module (path)"
for m in mods:
n_lines, percent, modulename, filename = sums[m]
print "%5d %3d%% %s (%s)" % sums[m]
if self.outfile:
# try and store counts and module info into self.outfile
try:
pickle.dump((self.counts, self.calledfuncs, self.callers),
open(self.outfile, 'wb'), 1)
except IOError, err:
print >> sys.stderr, "Can't save counts files because %s" % err
def write_results_file(self, path, lines, lnotab, lines_hit):
"""Return a coverage results file in path."""
try:
outfile = open(path, "w")
except IOError, err:
print >> sys.stderr, ("trace: Could not open %r for writing: %s"
"- skipping" % (path, err))
return 0, 0
n_lines = 0
n_hits = 0
for i, line in enumerate(lines):
lineno = i + 1
# do the blank/comment match to try to mark more lines
# (help the reader find stuff that hasn't been covered)
if lineno in lines_hit:
outfile.write("%5d: " % lines_hit[lineno])
n_hits += 1
n_lines += 1
elif rx_blank.match(line):
outfile.write(" ")
else:
# lines preceded by no marks weren't hit
# Highlight them if so indicated, unless the line contains
# #pragma: NO COVER
if lineno in lnotab and not PRAGMA_NOCOVER in lines[i]:
outfile.write(">>>>>> ")
n_lines += 1
else:
outfile.write(" ")
outfile.write(lines[i].expandtabs(8))
outfile.close()
return n_hits, n_lines
def find_lines_from_code(code, strs):
"""Return dict where keys are lines in the line number table."""
linenos = {}
line_increments = [ord(c) for c in code.co_lnotab[1::2]]
table_length = len(line_increments)
docstring = False
lineno = code.co_firstlineno
for li in line_increments:
lineno += li
if lineno not in strs:
linenos[lineno] = 1
return linenos
def find_lines(code, strs):
"""Return lineno dict for all code objects reachable from code."""
# get all of the lineno information from the code of this scope level
linenos = find_lines_from_code(code, strs)
# and check the constants for references to other code objects
for c in code.co_consts:
if isinstance(c, types.CodeType):
# find another code object, so recurse into it
linenos.update(find_lines(c, strs))
return linenos
def find_strings(filename):
"""Return a dict of possible docstring positions.
The dict maps line numbers to strings. There is an entry for
line that contains only a string or a part of a triple-quoted
string.
"""
d = {}
# If the first token is a string, then it's the module docstring.
# Add this special case so that the test in the loop passes.
prev_ttype = token.INDENT
f = open(filename)
for ttype, tstr, start, end, line in tokenize.generate_tokens(f.readline):
if ttype == token.STRING:
if prev_ttype == token.INDENT:
sline, scol = start
eline, ecol = end
for i in range(sline, eline + 1):
d[i] = 1
prev_ttype = ttype
f.close()
return d
def find_executable_linenos(filename):
"""Return dict where keys are line numbers in the line number table."""
try:
prog = open(filename, "rU").read()
except IOError, err:
print >> sys.stderr, ("Not printing coverage data for %r: %s"
% (filename, err))
return {}
code = compile(prog, filename, "exec")
strs = find_strings(filename)
return find_lines(code, strs)
class Trace:
def __init__(self, count=1, trace=1, countfuncs=0, countcallers=0,
ignoremods=(), ignoredirs=(), infile=None, outfile=None,
timing=False):
"""
@param count true iff it should count number of times each
line is executed
@param trace true iff it should print out each line that is
being counted
@param countfuncs true iff it should just output a list of
(filename, modulename, funcname,) for functions
that were called at least once; This overrides
`count' and `trace'
@param ignoremods a list of the names of modules to ignore
@param ignoredirs a list of the names of directories to ignore
all of the (recursive) contents of
@param infile file from which to read stored counts to be
added into the results
@param outfile file in which to write the results
@param timing true iff timing information be displayed
"""
self.infile = infile
self.outfile = outfile
self.ignore = Ignore(ignoremods, ignoredirs)
self.counts = {} # keys are (filename, linenumber)
self.blabbed = {} # for debugging
self.pathtobasename = {} # for memoizing os.path.basename
self.donothing = 0
self.trace = trace
self._calledfuncs = {}
self._callers = {}
self._caller_cache = {}
self.start_time = None
if timing:
self.start_time = time.time()
if countcallers:
self.globaltrace = self.globaltrace_trackcallers
elif countfuncs:
self.globaltrace = self.globaltrace_countfuncs
elif trace and count:
self.globaltrace = self.globaltrace_lt
self.localtrace = self.localtrace_trace_and_count
elif trace:
self.globaltrace = self.globaltrace_lt
self.localtrace = self.localtrace_trace
elif count:
self.globaltrace = self.globaltrace_lt
self.localtrace = self.localtrace_count
else:
# Ahem -- do nothing? Okay.
self.donothing = 1
def run(self, cmd):
import __main__
dict = __main__.__dict__
if not self.donothing:
sys.settrace(self.globaltrace)
threading.settrace(self.globaltrace)
try:
exec cmd in dict, dict
finally:
if not self.donothing:
sys.settrace(None)
threading.settrace(None)
def runctx(self, cmd, globals=None, locals=None):
if globals is None: globals = {}
if locals is None: locals = {}
if not self.donothing:
sys.settrace(self.globaltrace)
threading.settrace(self.globaltrace)
try:
exec cmd in globals, locals
finally:
if not self.donothing:
sys.settrace(None)
threading.settrace(None)
def runfunc(self, func, *args, **kw):
result = None
if not self.donothing:
sys.settrace(self.globaltrace)
try:
result = func(*args, **kw)
finally:
if not self.donothing:
sys.settrace(None)
return result
def file_module_function_of(self, frame):
code = frame.f_code
filename = code.co_filename
if filename:
modulename = modname(filename)
else:
modulename = None
funcname = code.co_name
clsname = None
if code in self._caller_cache:
if self._caller_cache[code] is not None:
clsname = self._caller_cache[code]
else:
self._caller_cache[code] = None
## use of gc.get_referrers() was suggested by Michael Hudson
# all functions which refer to this code object
funcs = [f for f in gc.get_referrers(code)
if hasattr(f, "func_doc")]
# require len(func) == 1 to avoid ambiguity caused by calls to
# new.function(): "In the face of ambiguity, refuse the
# temptation to guess."
if len(funcs) == 1:
dicts = [d for d in gc.get_referrers(funcs[0])
if isinstance(d, dict)]
if len(dicts) == 1:
classes = [c for c in gc.get_referrers(dicts[0])
if hasattr(c, "__bases__")]
if len(classes) == 1:
# ditto for new.classobj()
clsname = str(classes[0])
# cache the result - assumption is that new.* is
# not called later to disturb this relationship
# _caller_cache could be flushed if functions in
# the new module get called.
self._caller_cache[code] = clsname
if clsname is not None:
# final hack - module name shows up in str(cls), but we've already
# computed module name, so remove it
clsname = clsname.split(".")[1:]
clsname = ".".join(clsname)
funcname = "%s.%s" % (clsname, funcname)
return filename, modulename, funcname
def globaltrace_trackcallers(self, frame, why, arg):
"""Handler for call events.
Adds information about who called who to the self._callers dict.
"""
if why == 'call':
# XXX Should do a better job of identifying methods
this_func = self.file_module_function_of(frame)
parent_func = self.file_module_function_of(frame.f_back)
self._callers[(parent_func, this_func)] = 1
def globaltrace_countfuncs(self, frame, why, arg):
"""Handler for call events.
Adds (filename, modulename, funcname) to the self._calledfuncs dict.
"""
if why == 'call':
this_func = self.file_module_function_of(frame)
self._calledfuncs[this_func] = 1
def globaltrace_lt(self, frame, why, arg):
"""Handler for call events.
If the code block being entered is to be ignored, returns `None',
else returns self.localtrace.
"""
if why == 'call':
code = frame.f_code
filename = frame.f_globals.get('__file__', None)
if filename:
# XXX modname() doesn't work right for packages, so
# the ignore support won't work right for packages
modulename = modname(filename)
if modulename is not None:
ignore_it = self.ignore.names(filename, modulename)
if not ignore_it:
if self.trace:
print (" --- modulename: %s, funcname: %s"
% (modulename, code.co_name))
return self.localtrace
else:
return None
def localtrace_trace_and_count(self, frame, why, arg):
if why == "line":
# record the file name and line number of every trace
filename = frame.f_code.co_filename
lineno = frame.f_lineno
key = filename, lineno
self.counts[key] = self.counts.get(key, 0) + 1
if self.start_time:
print '%.2f' % (time.time() - self.start_time),
bname = os.path.basename(filename)
print "%s(%d): %s" % (bname, lineno,
linecache.getline(filename, lineno)),
return self.localtrace
def localtrace_trace(self, frame, why, arg):
if why == "line":
# record the file name and line number of every trace
filename = frame.f_code.co_filename
lineno = frame.f_lineno
if self.start_time:
print '%.2f' % (time.time() - self.start_time),
bname = os.path.basename(filename)
print "%s(%d): %s" % (bname, lineno,
linecache.getline(filename, lineno)),
return self.localtrace
def localtrace_count(self, frame, why, arg):
if why == "line":
filename = frame.f_code.co_filename
lineno = frame.f_lineno
key = filename, lineno
self.counts[key] = self.counts.get(key, 0) + 1
return self.localtrace
def results(self):
return CoverageResults(self.counts, infile=self.infile,
outfile=self.outfile,
calledfuncs=self._calledfuncs,
callers=self._callers)
def _err_exit(msg):
sys.stderr.write("%s: %s\n" % (sys.argv[0], msg))
sys.exit(1)
def main(argv=None):
import getopt
if argv is None:
argv = sys.argv
try:
opts, prog_argv = getopt.getopt(argv[1:], "tcrRf:d:msC:lTg",
["help", "version", "trace", "count",
"report", "no-report", "summary",
"file=", "missing",
"ignore-module=", "ignore-dir=",
"coverdir=", "listfuncs",
"trackcalls", "timing"])
except getopt.error, msg:
sys.stderr.write("%s: %s\n" % (sys.argv[0], msg))
sys.stderr.write("Try `%s --help' for more information\n"
% sys.argv[0])
sys.exit(1)
trace = 0
count = 0
report = 0
no_report = 0
counts_file = None
missing = 0
ignore_modules = []
ignore_dirs = []
coverdir = None
summary = 0
listfuncs = False
countcallers = False
timing = False
for opt, val in opts:
if opt == "--help":
usage(sys.stdout)
sys.exit(0)
if opt == "--version":
sys.stdout.write("trace 2.0\n")
sys.exit(0)
if opt == "-T" or opt == "--trackcalls":
countcallers = True
continue
if opt == "-l" or opt == "--listfuncs":
listfuncs = True
continue
if opt == "-g" or opt == "--timing":
timing = True
continue
if opt == "-t" or opt == "--trace":
trace = 1
continue
if opt == "-c" or opt == "--count":
count = 1
continue
if opt == "-r" or opt == "--report":
report = 1
continue
if opt == "-R" or opt == "--no-report":
no_report = 1
continue
if opt == "-f" or opt == "--file":
counts_file = val
continue
if opt == "-m" or opt == "--missing":
missing = 1
continue
if opt == "-C" or opt == "--coverdir":
coverdir = val
continue
if opt == "-s" or opt == "--summary":
summary = 1
continue
if opt == "--ignore-module":
for mod in val.split(","):
ignore_modules.append(mod.strip())
continue
if opt == "--ignore-dir":
for s in val.split(os.pathsep):
s = os.path.expandvars(s)
# should I also call expanduser? (after all, could use $HOME)
s = s.replace("$prefix",
os.path.join(sys.prefix, "lib",
"python" + sys.version[:3]))
s = s.replace("$exec_prefix",
os.path.join(sys.exec_prefix, "lib",
"python" + sys.version[:3]))
s = os.path.normpath(s)
ignore_dirs.append(s)
continue
assert 0, "Should never get here"
if listfuncs and (count or trace):
_err_exit("cannot specify both --listfuncs and (--trace or --count)")
if not (count or trace or report or listfuncs or countcallers):
_err_exit("must specify one of --trace, --count, --report, "
"--listfuncs, or --trackcalls")
if report and no_report:
_err_exit("cannot specify both --report and --no-report")
if report and not counts_file:
_err_exit("--report requires a --file")
if no_report and len(prog_argv) == 0:
_err_exit("missing name of file to run")
# everything is ready
if report:
results = CoverageResults(infile=counts_file, outfile=counts_file)
results.write_results(missing, summary=summary, coverdir=coverdir)
else:
sys.argv = prog_argv
progname = prog_argv[0]
sys.path[0] = os.path.split(progname)[0]
t = Trace(count, trace, countfuncs=listfuncs,
countcallers=countcallers, ignoremods=ignore_modules,
ignoredirs=ignore_dirs, infile=counts_file,
outfile=counts_file, timing=timing)
try:
t.run('execfile(%r)' % (progname,))
except IOError, err:
_err_exit("Cannot run file %r because: %s" % (sys.argv[0], err))
except SystemExit:
pass
results = t.results()
if not no_report:
results.write_results(missing, summary=summary, coverdir=coverdir)
if __name__=='__main__':
main()
Computing file changes ...
