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fabricate.py
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fabricate.py
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#!/usr/bin/env python
"""Build tool that finds dependencies automatically for any language.
fabricate is a build tool that finds dependencies automatically for any
language. It's small and just works. No hidden stuff behind your back. It was
inspired by Bill McCloskey's make replacement, memoize, but fabricate works on
Windows as well as Linux.
Read more about how to use it and how it works on the project page:
http://code.google.com/p/fabricate/
Like memoize, fabricate is released under a "New BSD license". fabricate is
copyright (c) 2009 Brush Technology. Full text of the license is here:
http://code.google.com/p/fabricate/wiki/License
To get help on fabricate functions:
from fabricate import *
help(function)
"""
# fabricate version number
__version__ = '1.18'
# if version of .deps file has changed, we know to not use it
deps_version = 2
import atexit
import optparse
import os
import platform
import re
import shlex
import stat
import subprocess
import sys
import tempfile
import time
import threading # NB uses old camelCase names for backward compatibility
# multiprocessing module only exists on Python >= 2.6
try:
import multiprocessing
except ImportError:
class MultiprocessingModule(object):
def __getattr__(self, name):
raise NotImplementedError("multiprocessing module not available, can't do parallel builds")
multiprocessing = MultiprocessingModule()
# so you can do "from fabricate import *" to simplify your build script
__all__ = ['setup', 'run', 'autoclean', 'main', 'shell', 'fabricate_version',
'memoize', 'outofdate', 'parse_options', 'after',
'ExecutionError', 'md5_hasher', 'mtime_hasher',
'Runner', 'AtimesRunner', 'StraceRunner', 'AlwaysRunner',
'SmartRunner', 'Builder']
import textwrap
__doc__ += "Exported functions are:\n" + ' ' + '\n '.join(textwrap.wrap(', '.join(__all__), 80))
FAT_atime_resolution = 24*60*60 # resolution on FAT filesystems (seconds)
FAT_mtime_resolution = 2
# NTFS resolution is < 1 ms
# We assume this is considerably more than time to run a new process
NTFS_atime_resolution = 0.0002048 # resolution on NTFS filesystems (seconds)
NTFS_mtime_resolution = 0.0002048 # is actually 0.1us but python's can be
# as low as 204.8us due to poor
# float precision when storing numbers
# as big as NTFS file times can be
# (float has 52-bit precision and NTFS
# FILETIME has 63-bit precision, so
# we've lost 11 bits = 2048)
# So we can use md5func in old and new versions of Python without warnings
try:
import hashlib
md5func = hashlib.md5
except ImportError:
import md5
md5func = md5.new
# Use json, or pickle on older Python versions if simplejson not installed
try:
import json
except ImportError:
try:
import simplejson as json
except ImportError:
import cPickle
# needed to ignore the indent= argument for pickle's dump()
class PickleJson:
def load(self, f):
return cPickle.load(f)
def dump(self, obj, f, indent=None, sort_keys=None):
return cPickle.dump(obj, f)
json = PickleJson()
def printerr(message):
""" Print given message to stderr with a line feed. """
print >>sys.stderr, message
class PathError(Exception):
pass
class ExecutionError(Exception):
""" Raised by shell() and run() if command returns non-zero exit code. """
pass
def args_to_list(args):
""" Return a flat list of the given arguments for shell(). """
arglist = []
for arg in args:
if arg is None:
continue
if hasattr(arg, '__iter__'):
arglist.extend(args_to_list(arg))
else:
if not isinstance(arg, basestring):
arg = str(arg)
arglist.append(arg)
return arglist
def shell(*args, **kwargs):
r""" Run a command: program name is given in first arg and command line
arguments in the rest of the args. Iterables (lists and tuples) in args
are recursively converted to separate arguments, non-string types are
converted with str(arg), and None is ignored. For example:
>>> def tail(input, n=3, flags=None):
>>> args = ['-n', n]
>>> return shell('tail', args, flags, input=input)
>>> tail('a\nb\nc\nd\ne\n')
'c\nd\ne\n'
>>> tail('a\nb\nc\nd\ne\n', 2, ['-v'])
'==> standard input <==\nd\ne\n'
Keyword arguments kwargs are interpreted as follows:
"input" is a string to pass standard input into the process (or the
default of None to use parent's stdin, eg: the keyboard)
"silent" is True (default) to return process's standard output as a
string, or False to print it as it comes out
"shell" set to True will run the command via the shell (/bin/sh or
COMSPEC) instead of running the command directly (the default)
"ignore_status" set to True means ignore command status code -- i.e.,
don't raise an ExecutionError on nonzero status code
Raises ExecutionError(message, output, status) if the command returns
a non-zero status code. """
return _shell(args, **kwargs)
def _shell(args, input=None, silent=True, shell=False, ignore_status=False):
if input:
stdin = subprocess.PIPE
else:
stdin = None
if silent:
stdout = subprocess.PIPE
else:
stdout = None
arglist = args_to_list(args)
if not arglist:
raise TypeError('shell() takes at least 1 argument (0 given)')
if shell:
# handle subprocess.Popen quirk where subsequent args are passed
# to bash instead of to our command
command = subprocess.list2cmdline(arglist)
else:
command = arglist
try:
proc = subprocess.Popen(command, stdin=stdin, stdout=stdout,
stderr=subprocess.STDOUT, shell=shell)
except OSError, e:
# Work around the problem that Windows Popen doesn't say what file it couldn't find
if platform.system() == 'Windows' and e.errno == 2 and e.filename is None:
e.filename = arglist[0]
raise e
output, stderr = proc.communicate(input)
status = proc.wait()
if status and not ignore_status:
raise ExecutionError('%r exited with status %d'
% (os.path.basename(arglist[0]), status),
output, status)
if silent:
return output
def md5_hasher(filename):
""" Return MD5 hash of given filename, or None if file doesn't exist. """
try:
f = open(filename, 'rb')
try:
return md5func(f.read()).hexdigest()
finally:
f.close()
except IOError:
return None
def mtime_hasher(filename):
""" Return modification time of file, or None if file doesn't exist. """
try:
st = os.stat(filename)
return repr(st.st_mtime)
except (IOError, OSError):
return None
class RunnerUnsupportedException(Exception):
""" Exception raise by Runner constructor if it is not supported
on the current platform."""
pass
class Runner(object):
def __call__(self, *args, **kwargs):
""" Run command and return (dependencies, outputs), where
dependencies is a list of the filenames of files that the
command depended on, and output is a list of the filenames
of files that the command modified. The input is passed
to shell()"""
raise NotImplementedError("Runner subclass called but subclass didn't define __call__")
def is_runner(self):
""" Returns the actual runner object """
return self
def ignore(self, name):
return self._builder.ignore.search(name)
class AtimesRunner(Runner):
def __init__(self, builder):
self._builder = builder
self.atimes = AtimesRunner.has_atimes(self._builder.dirs)
if self.atimes == 0:
raise RunnerUnsupportedException(
'atimes are not supported on this platform')
@staticmethod
def file_has_atimes(filename):
""" Return whether the given filesystem supports access time updates for
this file. Return:
- 0 if no a/mtimes not updated
- 1 if the atime resolution is at least one day and
the mtime resolution at least 2 seconds (as on FAT filesystems)
- 2 if the atime and mtime resolutions are both < ms
(NTFS filesystem has 100 ns resolution). """
def access_file(filename):
""" Access (read a byte from) file to try to update its access time. """
f = open(filename)
f.read(1)
f.close()
initial = os.stat(filename)
os.utime(filename, (
initial.st_atime-FAT_atime_resolution,
initial.st_mtime-FAT_mtime_resolution))
adjusted = os.stat(filename)
access_file(filename)
after = os.stat(filename)
# Check that a/mtimes actually moved back by at least resolution and
# updated by a file access.
# add NTFS_atime_resolution to account for float resolution factors
# Comment on resolution/2 in atimes_runner()
if initial.st_atime-adjusted.st_atime > FAT_atime_resolution+NTFS_atime_resolution or \
initial.st_mtime-adjusted.st_mtime > FAT_mtime_resolution+NTFS_atime_resolution or \
initial.st_atime==adjusted.st_atime or \
initial.st_mtime==adjusted.st_mtime or \
not after.st_atime-FAT_atime_resolution/2 > adjusted.st_atime:
return 0
os.utime(filename, (
initial.st_atime-NTFS_atime_resolution,
initial.st_mtime-NTFS_mtime_resolution))
adjusted = os.stat(filename)
# Check that a/mtimes actually moved back by at least resolution
# Note: != comparison here fails due to float rounding error
# double NTFS_atime_resolution to account for float resolution factors
if initial.st_atime-adjusted.st_atime > NTFS_atime_resolution*2 or \
initial.st_mtime-adjusted.st_mtime > NTFS_mtime_resolution*2 or \
initial.st_atime==adjusted.st_atime or \
initial.st_mtime==adjusted.st_mtime:
return 1
return 2
@staticmethod
def exists(path):
if not os.path.exists(path):
# Note: in linux, error may not occur: strace runner doesn't check
raise PathError("build dirs specified a non-existant path '%s'" % path)
@staticmethod
def has_atimes(paths):
""" Return whether a file created in each path supports atimes and mtimes.
Return value is the same as used by file_has_atimes
Note: for speed, this only tests files created at the top directory
of each path. A safe assumption in most build environments.
In the unusual case that any sub-directories are mounted
on alternate file systems that don't support atimes, the build may
fail to identify a dependency """
atimes = 2 # start by assuming we have best atimes
for path in paths:
AtimesRunner.exists(path)
handle, filename = tempfile.mkstemp(dir=path)
try:
try:
f = os.fdopen(handle, 'wb')
except:
os.close(handle)
raise
try:
f.write('x') # need a byte in the file for access test
finally:
f.close()
atimes = min(atimes, AtimesRunner.file_has_atimes(filename))
finally:
os.remove(filename)
return atimes
def _file_times(self, path, depth):
""" Helper function for file_times().
Return a dict of file times, recursing directories that don't
start with self._builder.ignoreprefix """
AtimesRunner.exists(path)
names = os.listdir(path)
times = {}
ignoreprefix = self._builder.ignoreprefix
for name in names:
if ignoreprefix and name.startswith(ignoreprefix):
continue
if path == '.':
fullname = name
else:
fullname = os.path.join(path, name)
st = os.stat(fullname)
if stat.S_ISDIR(st.st_mode):
if depth > 1:
times.update(self._file_times(fullname, depth-1))
elif stat.S_ISREG(st.st_mode):
times[fullname] = st.st_atime, st.st_mtime
return times
def file_times(self):
""" Return a dict of "filepath: (atime, mtime)" entries for each file
in self._builder.dirs. "filepath" is the absolute path, "atime" is
the access time, "mtime" the modification time.
Recurse directories that don't start with
self._builder.ignoreprefix and have depth less than
self._builder.dirdepth. """
times = {}
for path in self._builder.dirs:
times.update(self._file_times(path, self._builder.dirdepth))
return times
def _utime(self, filename, atime, mtime):
""" Call os.utime but ignore permission errors """
try:
os.utime(filename, (atime, mtime))
except OSError, e:
# ignore permission errors -- we can't build with files
# that we can't access anyway
if e.errno != 1:
raise
def _age_atimes(self, filetimes):
""" Age files' atimes and mtimes to be at least FAT_xx_resolution old.
Only adjust if the given filetimes dict says it isn't that old,
and return a new dict of filetimes with the ages adjusted. """
adjusted = {}
now = time.time()
for filename, entry in filetimes.iteritems():
if now-entry[0] < FAT_atime_resolution or now-entry[1] < FAT_mtime_resolution:
entry = entry[0] - FAT_atime_resolution, entry[1] - FAT_mtime_resolution
self._utime(filename, entry[0], entry[1])
adjusted[filename] = entry
return adjusted
def __call__(self, *args, **kwargs):
""" Run command and return its dependencies and outputs, using before
and after access times to determine dependencies. """
# For Python pre-2.5, ensure os.stat() returns float atimes
old_stat_float = os.stat_float_times()
os.stat_float_times(True)
originals = self.file_times()
if self.atimes == 2:
befores = originals
atime_resolution = 0
mtime_resolution = 0
else:
befores = self._age_atimes(originals)
atime_resolution = FAT_atime_resolution
mtime_resolution = FAT_mtime_resolution
shell_keywords = dict(silent=False)
shell_keywords.update(kwargs)
shell(*args, **shell_keywords)
afters = self.file_times()
deps = []
outputs = []
for name in afters:
if name in befores:
# if file exists before+after && mtime changed, add to outputs
# Note: Can't just check that atimes > than we think they were
# before because os might have rounded them to a later
# date than what we think we set them to in befores.
# So we make sure they're > by at least 1/2 the
# resolution. This will work for anything with a
# resolution better than FAT.
if afters[name][1]-mtime_resolution/2 > befores[name][1]:
outputs.append(name)
elif afters[name][0]-atime_resolution/2 > befores[name][0]:
# otherwise add to deps if atime changed
if not self.ignore(name):
deps.append(name)
else:
# file created (in afters but not befores), add as output
if not self.ignore(name):
outputs.append(name)
if self.atimes < 2:
# Restore atimes of files we didn't access: not for any functional
# reason -- it's just to preserve the access time for the user's info
for name in deps:
originals.pop(name)
for name in originals:
original = originals[name]
if original != afters.get(name, None):
self._utime(name, original[0], original[1])
os.stat_float_times(old_stat_float) # restore stat_float_times value
return deps, outputs
class StraceProcess(object):
def __init__(self, cwd='.'):
self.cwd = cwd
self.deps = set()
self.outputs = set()
def add_dep(self, dep):
self.deps.add(dep)
def add_output(self, output):
self.outputs.add(output)
def __str__(self):
return '<StraceProcess cwd=%s deps=%s outputs=%s>' % \
(self.cwd, self.deps, self.outputs)
def _call_strace(self, *args, **kwargs):
""" Top level function call for Strace that can be run in parallel """
return self(*args, **kwargs)
class StraceRunner(Runner):
keep_temps = False
def __init__(self, builder, build_dir=None):
self.strace_version = StraceRunner.get_strace_version()
if self.strace_version == 0:
raise RunnerUnsupportedException('strace is not available')
if self.strace_version == 32:
self._stat_re = self._stat32_re
self._stat_func = 'stat'
else:
self._stat_re = self._stat64_re
self._stat_func = 'stat64'
self._builder = builder
self.temp_count = 0
self.build_dir = os.path.abspath(build_dir or os.getcwd())
@staticmethod
def get_strace_version():
""" Return 0 if this system doesn't have strace, nonzero otherwise
(64 if strace supports stat64, 32 otherwise). """
if platform.system() == 'Windows':
# even if windows has strace, it's probably a dodgy cygwin one
return 0
try:
proc = subprocess.Popen(['strace', '-e', 'trace=stat64'], stderr=subprocess.PIPE)
stdout, stderr = proc.communicate()
proc.wait()
if 'invalid system call' in stderr:
return 32
else:
return 64
except OSError:
return 0
# Regular expressions for parsing of strace log
_open_re = re.compile(r'(?P<pid>\d+)\s+open\("(?P<name>[^"]*)", (?P<mode>[^,)]*)')
_stat32_re = re.compile(r'(?P<pid>\d+)\s+stat\("(?P<name>[^"]*)", .*')
_stat64_re = re.compile(r'(?P<pid>\d+)\s+stat64\("(?P<name>[^"]*)", .*')
_execve_re = re.compile(r'(?P<pid>\d+)\s+execve\("(?P<name>[^"]*)", .*')
_mkdir_re = re.compile(r'(?P<pid>\d+)\s+mkdir\("(?P<name>[^"]*)", .*')
_rename_re = re.compile(r'(?P<pid>\d+)\s+rename\("[^"]*", "(?P<name>[^"]*)"\)')
_kill_re = re.compile(r'(?P<pid>\d+)\s+killed by.*')
_chdir_re = re.compile(r'(?P<pid>\d+)\s+chdir\("(?P<cwd>[^"]*)"\)')
_exit_group_re = re.compile(r'(?P<pid>\d+)\s+exit_group\((?P<status>.*)\).*')
_clone_re = re.compile(r'(?P<pid_clone>\d+)\s+(clone|fork|vfork)\(.*\)\s*=\s*(?P<pid>\d*)')
# Regular expressions for detecting interrupted lines in strace log
# 3618 clone( <unfinished ...>
# 3618 <... clone resumed> child_stack=0, flags=CLONE, child_tidptr=0x7f83deffa780) = 3622
_unfinished_start_re = re.compile(r'(?P<pid>\d+)(?P<body>.*)<unfinished ...>$')
_unfinished_end_re = re.compile(r'(?P<pid>\d+)\s+\<\.\.\..*\>(?P<body>.*)')
def _do_strace(self, args, kwargs, outfile, outname):
""" Run strace on given command args/kwargs, sending output to file.
Return (status code, list of dependencies, list of outputs). """
shell_keywords = dict(silent=False)
shell_keywords.update(kwargs)
shell('strace', '-fo', outname, '-e',
'trace=open,%s,execve,exit_group,chdir,mkdir,rename,clone,vfork,fork' % self._stat_func,
args, **shell_keywords)
cwd = '.'
status = 0
processes = {} # dictionary of processes (key = pid)
unfinished = {} # list of interrupted entries in strace log
for line in outfile:
# look for split lines
unfinished_start_match = self._unfinished_start_re.match(line)
unfinished_end_match = self._unfinished_end_re.match(line)
if unfinished_start_match:
pid = unfinished_start_match.group('pid')
body = unfinished_start_match.group('body')
unfinished[pid] = pid + ' ' + body
continue
elif unfinished_end_match:
pid = unfinished_end_match.group('pid')
body = unfinished_end_match.group('body')
line = unfinished[pid] + body
del unfinished[pid]
is_output = False
open_match = self._open_re.match(line)
stat_match = self._stat_re.match(line)
execve_match = self._execve_re.match(line)
mkdir_match = self._mkdir_re.match(line)
rename_match = self._rename_re.match(line)
clone_match = self._clone_re.match(line)
kill_match = self._kill_re.match(line)
if kill_match:
return None, None, None
match = None
if execve_match:
pid = execve_match.group('pid')
if pid not in processes:
processes[pid] = StraceProcess()
match = execve_match
elif clone_match:
pid = clone_match.group('pid')
pid_clone = clone_match.group('pid_clone')
processes[pid] = StraceProcess(processes[pid_clone].cwd)
elif open_match:
match = open_match
mode = match.group('mode')
if 'O_WRONLY' in mode or 'O_RDWR' in mode:
# it's an output file if opened for writing
is_output = True
elif stat_match:
match = stat_match
elif mkdir_match:
match = mkdir_match
elif rename_match:
match = rename_match
# the destination of a rename is an output file
is_output = True
if match:
name = match.group('name')
pid = match.group('pid')
cwd = processes[pid].cwd
if cwd != '.':
name = os.path.join(cwd, name)
# normalise path name to ensure files are only listed once
name = os.path.normpath(name)
# if it's an absolute path name under the build directory,
# make it relative to build_dir before saving to .deps file
if os.path.isabs(name) and name.startswith(self.build_dir):
name = name[len(self.build_dir):]
name = name.lstrip(os.path.sep)
if (self._builder._is_relevant(name)
and not self.ignore(name)
and (os.path.isfile(name)
or os.path.isdir(name)
or not os.path.lexists(name))):
if is_output:
processes[pid].add_output(name)
else:
processes[pid].add_dep(name)
match = self._chdir_re.match(line)
if match:
processes[pid].cwd = os.path.join(processes[pid].cwd, match.group('cwd'))
match = self._exit_group_re.match(line)
if match:
status = int(match.group('status'))
# collect outputs and dependencies from all processes
deps = set()
outputs = set()
for pid, process in processes.items():
deps = deps.union(process.deps)
outputs = outputs.union(process.outputs)
return status, list(deps), list(outputs)
def __call__(self, *args, **kwargs):
""" Run command and return its dependencies and outputs, using strace
to determine dependencies (by looking at what files are opened or
modified). """
ignore_status = kwargs.pop('ignore_status', False)
if self.keep_temps:
outname = 'strace%03d.txt' % self.temp_count
self.temp_count += 1
handle = os.open(outname, os.O_CREAT)
else:
handle, outname = tempfile.mkstemp()
try:
try:
outfile = os.fdopen(handle, 'r')
except:
os.close(handle)
raise
try:
status, deps, outputs = self._do_strace(args, kwargs, outfile, outname)
if status is None:
raise ExecutionError(
'%r was killed unexpectedly' % args[0], '', -1)
finally:
outfile.close()
finally:
if not self.keep_temps:
os.remove(outname)
if status and not ignore_status:
raise ExecutionError('%r exited with status %d'
% (os.path.basename(args[0]), status),
'', status)
return list(deps), list(outputs)
class AlwaysRunner(Runner):
def __init__(self, builder):
pass
def __call__(self, *args, **kwargs):
""" Runner that always runs given command, used as a backup in case
a system doesn't have strace or atimes. """
shell_keywords = dict(silent=False)
shell_keywords.update(kwargs)
shell(*args, **shell_keywords)
return None, None
class SmartRunner(Runner):
""" Smart command runner that uses StraceRunner if it can,
otherwise AtimesRunner if available, otherwise AlwaysRunner. """
def __init__(self, builder):
self._builder = builder
try:
self._runner = StraceRunner(self._builder)
except RunnerUnsupportedException:
try:
self._runner = AtimesRunner(self._builder)
except RunnerUnsupportedException:
self._runner = AlwaysRunner(self._builder)
def is_runner(self):
return self._runner
def __call__(self, *args, **kwargs):
return self._runner(*args, **kwargs)
class _running(object):
""" Represents a task put on the parallel pool
and its results when complete """
def __init__(self, async, command):
""" "async" is the AsyncResult object returned from pool.apply_async
"command" is the command that was run """
self.async = async
self.command = command
self.results = None
class _after(object):
""" Represents something waiting on completion of some previous commands """
def __init__(self, afters, do):
""" "afters" is a group id or a iterable of group ids to wait on
"do" is either a tuple representing a command (group, command,
arglist, kwargs) or a threading.Condition to be released """
self.afters = afters
self.do = do
class _Groups(object):
""" Thread safe mapping object whose values are lists of _running
or _after objects and a count of how many have *not* completed """
class value(object):
""" the value type in the map """
def __init__(self, val=None):
self.count = 0 # count of items not yet completed
self.items = [] # items in this group
if val is not None:
self.items.append(val)
self.ok = True # True if no error from any command in group so far
def __init__(self):
self.groups = { False: self.value() }
self.lock = threading.Lock()
def item_list(self, id):
""" Return copy of the value list """
with self.lock:
return self.groups[id].items[:]
def remove(self, id):
""" Remove the group """
with self.lock:
del self.groups[id]
def remove_item(self, id, val):
with self.lock:
self.groups[id].items.remove(val)
def add(self, id, val):
with self.lock:
if id in self.groups:
self.groups[id].items.append(val)
else:
self.groups[id] = self.value(val)
self.groups[id].count += 1
def get_count(self, id):
with self.lock:
if id not in self.groups:
return 0
return self.groups[id].count
def dec_count(self, id):
with self.lock:
c = self.groups[id].count - 1
if c < 0:
raise ValueError
self.groups[id].count = c
return c
def get_ok(self, id):
with self.lock:
return self.groups[id].ok
def set_ok(self, id, to):
with self.lock:
self.groups[id].ok = to
def ids(self):
with self.lock:
return self.groups.keys()
# pool of processes to run parallel jobs, must not be part of any object that
# is pickled for transfer to these processes, ie it must be global
_pool = None
# object holding results, must also be global
_groups = _Groups()
# results collecting thread
_results = None
_stop_results = threading.Event()
class _todo(object):
""" holds the parameters for commands waiting on others """
def __init__(self, group, command, arglist, kwargs):
self.group = group # which group it should run as
self.command = command # string command
self.arglist = arglist # command arguments
self.kwargs = kwargs # keywork args for the runner
def _results_handler( builder, delay=0.01):
""" Body of thread that stores results in .deps and handles 'after'
conditions
"builder" the builder used """
global _groups, _pools, _stop_results
try:
while not _stop_results.isSet():
# go through the lists and check any results available
for id in _groups.ids():
if id is False: continue # key of False is _afters not _runnings
for r in _groups.item_list(id):
if r.results is None and r.async.ready():
try:
d, o = r.async.get()
except Exception as e:
r.results = e
_groups.set_ok(False)
else:
builder.done(r.command, d, o) # save deps
r.results = (r.command, d, o)
_groups.dec_count(id)
# check if can now schedule things waiting on the after queue
for a in _groups.item_list(False):
still_to_do = sum(_groups.get_count(g) for g in a.afters)
no_error = all(_groups.get_ok(g) for g in a.afters)
if False in a.afters:
still_to_do -= 1 # don't count yourself of course
if still_to_do == 0:
if isinstance(a.do, tuple):
if no_error:
async = _pool.apply_async(_call_strace, a.do.arglist,
a.do.kwargs)
_groups.add(a.do.group, _running(async, a.do.command))
else:
a.do.acquire()
a.do.notify()
a.do.release()
_groups.remove_item(False, a)
_groups.dec_count(False)
_stop_results.wait(delay)
except Exception as e:
printerr("Error: exception " + str(e))
finally:
if not _stop_results.isSet():
# oh dear, I am about to die for unexplained reasons, stop the whole
# app otherwise the main thread hangs waiting on non-existant me,
# Note: sys.exit() only kills me
printerr("Error: unexpected results handler exit")
os._exit(1)
class Builder(object):
""" The Builder.
You may supply a "runner" class to change the way commands are run
or dependencies are determined. For an example, see:
http://code.google.com/p/fabricate/wiki/HowtoMakeYourOwnRunner
A "runner" must be a subclass of Runner and must have a __call__()
function that takes a command as a list of args and returns a tuple of
(deps, outputs), where deps is a list of rel-path'd dependency files
and outputs is a list of rel-path'd output files. The default runner
is SmartRunner, which automatically picks one of StraceRunner,
AtimesRunner, or AlwaysRunner depending on your system.
A "runner" class may have an __init__() function that takes the
builder as a parameter.
"""
def __init__(self, runner=None, dirs=None, dirdepth=100, ignoreprefix='.',
ignore=None, hasher=md5_hasher, depsname='.deps',
quiet=False, debug=False, inputs_only=False, parallel_ok=False):
""" Initialise a Builder with the given options.
"runner" specifies how programs should be run. It is either a
callable compatible with the Runner class, or a string selecting
one of the standard runners ("atimes_runner", "strace_runner",
"always_runner", or "smart_runner").
"dirs" is a list of paths to look for dependencies (or outputs) in
if using the strace or atimes runners.
"dirdepth" is the depth to recurse into the paths in "dirs" (default
essentially means infinitely). Set to 1 to just look at the
immediate paths in "dirs" and not recurse at all. This can be
useful to speed up the AtimesRunner if you're building in a large
tree and you don't care about all of the subdirectories.
"ignoreprefix" prevents recursion into directories that start with
prefix. It defaults to '.' to ignore svn directories.
Change it to '_svn' if you use _svn hidden directories.
"ignore" is a regular expression. Any dependency that contains a
regex match is ignored and not put into the dependency list.
Note that the regex may be VERBOSE (spaces are ignored and # line
comments allowed -- use \ prefix to insert these characters)
"hasher" is a function which returns a string which changes when
the contents of its filename argument changes, or None on error.
Default is md5_hasher, but can also be mtime_hasher.
"depsname" is the name of the JSON dependency file to load/save.
"quiet" set to True tells the builder to not display the commands being
executed (or other non-error output).
"debug" set to True makes the builder print debug output, such as why
particular commands are being executed
"inputs_only" set to True makes builder only re-build if input hashes
have changed (ignores output hashes); use with tools that touch
files that shouldn't cause a rebuild; e.g. g++ collect phase
"parallel_ok" set to True to indicate script is safe for parallel running
"""
if runner is not None:
self.set_runner(runner)
elif hasattr(self, 'runner'):
# For backwards compatibility, if a derived class has
# defined a "runner" method then use it:
pass
else:
self.runner = SmartRunner(self)
if dirs is None:
dirs = ['.']
self.dirs = dirs
self.dirdepth = dirdepth
self.ignoreprefix = ignoreprefix
if ignore is None:
ignore = r'$x^' # something that can't match
self.ignore = re.compile(ignore, re.VERBOSE)
self.depsname = depsname
self.hasher = hasher
self.quiet = quiet
self.debug = debug
self.inputs_only = inputs_only
self.checking = False
self.hash_cache = {}
global _pool
is_strace = isinstance(self.runner.is_runner(), StraceRunner)
self.parallel_ok = parallel_ok and is_strace and _pool is not None
if self.parallel_ok:
_results = threading.Thread(target=_results_handler,
args=[self])
_results.setDaemon(True)
_results.start()
StraceRunner.keep_temps = False # unsafe for parallel execution
def echo(self, message):
""" Print message, but only if builder is not in quiet mode. """
if not self.quiet:
print message
def echo_command(self, command):
""" Show a command being executed. """
self.echo(command)
def echo_delete(self, filename, error=None):
""" Show a file being deleted. For subclassing Builder and overriding
this function, the exception is passed in if an OSError occurs
while deleting a file. """
if error is None:
self.echo('deleting %s' % filename)
def echo_debug(self, message):
""" Print message, but only if builder is in debug mode. """
if self.debug:
print 'DEBUG:', message
def run(self, *args, **kwargs):
""" Run command given in args with kwargs per shell(), but only if its
dependencies or outputs have changed or don't exist. Return tuple
of (command_line, deps_list, outputs_list) so caller or subclass
can use them.
Parallel operation keyword args "after" specifies a group or
iterable of groups to wait for after they finish, "group" specifies
the group to add this command to """
after = kwargs.pop('after', None)
group = kwargs.pop('group', True)
arglist = args_to_list(args)
if not arglist:
raise TypeError('run() takes at least 1 argument (0 given)')
# we want a command line string for the .deps file key and for display
command = subprocess.list2cmdline(arglist)
if not self.cmdline_outofdate(command):
return command, None, None
# if just checking up-to-date-ness, set flag and do nothing more
self.outofdate_flag = True
if self.checking:
return command, None, None
# use runner to run command and collect dependencies
self.echo_command(command)
if self.parallel_ok:
arglist.insert(0, self.runner)
if after is not None:
if not hasattr(after, '__iter__'):
after = [after]
_groups.add(False,
_after(after, _todo(group, command, arglist, kwargs)))
else:
async = _pool.apply_async(_call_strace, arglist, kwargs)
_groups.add(group, _running(async, command))
return None
else:
deps, outputs = self.runner(*arglist, **kwargs)
return self.done(command, deps, outputs)
def done(self, command, deps, outputs):
""" Store the results in the .deps file when they are available """
if deps is not None or outputs is not None:
deps_dict = {}
# hash the dependency inputs and outputs
for dep in deps:
if dep in self.hash_cache:
# already hashed so don't repeat hashing work
hashed = self.hash_cache[dep]
else:
hashed = self.hasher(dep)
if hashed is not None:
deps_dict[dep] = "input-" + hashed
# store hash in hash cache as it may be a new file
self.hash_cache[dep] = hashed