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cpython/Lib/distutils/util.py
Greg Ward 585df89f60 Added 'get_platform()' to construct a string that identifies the current
platform, using 'os.uname()' or 'sys.platform'.
2000-03-01 14:40:15 +00:00

458 lines
15 KiB
Python

"""distutils.util
General-purpose utility functions used throughout the Distutils
(especially in command classes). Mostly filesystem manipulation, but
not limited to that. The functions in this module generally raise
DistutilsFileError when they have problems with the filesystem, because
os.error in pre-1.5.2 Python only gives the error message and not the
file causing it."""
# created 1999/03/08, Greg Ward
__rcsid__ = "$Id$"
import os, string
from distutils.errors import *
# cache for by mkpath() -- in addition to cheapening redundant calls,
# eliminates redundant "creating /foo/bar/baz" messages in dry-run mode
PATH_CREATED = {}
# I don't use os.makedirs because a) it's new to Python 1.5.2, and
# b) it blows up if the directory already exists (I want to silently
# succeed in that case).
def mkpath (name, mode=0777, verbose=0, dry_run=0):
"""Create a directory and any missing ancestor directories. If the
directory already exists, return silently. Raise
DistutilsFileError if unable to create some directory along the
way (eg. some sub-path exists, but is a file rather than a
directory). If 'verbose' is true, print a one-line summary of
each mkdir to stdout."""
global PATH_CREATED
# XXX what's the better way to handle verbosity? print as we create
# each directory in the path (the current behaviour), or only announce
# the creation of the whole path? (quite easy to do the latter since
# we're not using a recursive algorithm)
name = os.path.normpath (name)
if os.path.isdir (name):
return
if PATH_CREATED.get (name):
return
(head, tail) = os.path.split (name)
tails = [tail] # stack of lone dirs to create
while head and tail and not os.path.isdir (head):
#print "splitting '%s': " % head,
(head, tail) = os.path.split (head)
#print "to ('%s','%s')" % (head, tail)
tails.insert (0, tail) # push next higher dir onto stack
#print "stack of tails:", tails
# now 'head' contains the deepest directory that already exists
# (that is, the child of 'head' in 'name' is the highest directory
# that does *not* exist)
for d in tails:
#print "head = %s, d = %s: " % (head, d),
head = os.path.join (head, d)
if PATH_CREATED.get (head):
continue
if verbose:
print "creating", head
if not dry_run:
try:
os.mkdir (head)
except os.error, (errno, errstr):
raise DistutilsFileError, "%s: %s" % (head, errstr)
PATH_CREATED[head] = 1
# mkpath ()
def newer (source, target):
"""Return true if 'source' exists and is more recently modified than
'target', or if 'source' exists and 'target' doesn't. Return
false if both exist and 'target' is the same age or younger than
'source'. Raise DistutilsFileError if 'source' does not
exist."""
if not os.path.exists (source):
raise DistutilsFileError, "file '%s' does not exist" % source
if not os.path.exists (target):
return 1
from stat import ST_MTIME
mtime1 = os.stat(source)[ST_MTIME]
mtime2 = os.stat(target)[ST_MTIME]
return mtime1 > mtime2
# newer ()
def newer_pairwise (sources, targets):
"""Walk two filename lists in parallel, testing if each 'target' is
up-to-date relative to its corresponding 'source'. If so, both
are deleted from their respective lists. Return a list of tuples
containing the deleted (source,target) pairs."""
if len (sources) != len (targets):
raise ValueError, "'sources' and 'targets' must be same length"
goners = []
for i in range (len (sources)-1, -1, -1):
if not newer (sources[i], targets[i]):
goners.append ((sources[i], targets[i]))
del sources[i]
del targets[i]
goners.reverse()
return goners
# newer_pairwise ()
def newer_group (sources, target, missing='error'):
"""Return true if 'target' is out-of-date with respect to any
file listed in 'sources'. In other words, if 'target' exists and
is newer than every file in 'sources', return false; otherwise
return true. 'missing' controls what we do when a source file is
missing; the default ("error") is to blow up with an OSError from
inside 'stat()'; if it is "ignore", we silently drop any missing
source files; if it is "newer", any missing source files make us
assume that 'target' is out-of-date (this is handy in "dry-run"
mode: it'll make you pretend to carry out commands that wouldn't
work because inputs are missing, but that doesn't matter because
you're not actually going to run the commands)."""
# If the target doesn't even exist, then it's definitely out-of-date.
if not os.path.exists (target):
return 1
# Otherwise we have to find out the hard way: if *any* source file
# is more recent than 'target', then 'target' is out-of-date and
# we can immediately return true. If we fall through to the end
# of the loop, then 'target' is up-to-date and we return false.
from stat import ST_MTIME
target_mtime = os.stat (target)[ST_MTIME]
for source in sources:
if not os.path.exists (source):
if missing == 'error': # blow up when we stat() the file
pass
elif missing == 'ignore': # missing source dropped from
continue # target's dependency list
elif missing == 'newer': # missing source means target is
return 1 # out-of-date
source_mtime = os.stat(source)[ST_MTIME]
if source_mtime > target_mtime:
return 1
else:
return 0
# newer_group ()
# XXX this isn't used anywhere, and worse, it has the same name as a method
# in Command with subtly different semantics. (This one just has one
# source -> one dest; that one has many sources -> one dest.) Nuke it?
def make_file (src, dst, func, args,
verbose=0, update_message=None, noupdate_message=None):
"""Makes 'dst' from 'src' (both filenames) by calling 'func' with
'args', but only if it needs to: i.e. if 'dst' does not exist or
'src' is newer than 'dst'."""
if newer (src, dst):
if verbose and update_message:
print update_message
apply (func, args)
else:
if verbose and noupdate_message:
print noupdate_message
# make_file ()
def _copy_file_contents (src, dst, buffer_size=16*1024):
"""Copy the file 'src' to 'dst'; both must be filenames. Any error
opening either file, reading from 'src', or writing to 'dst',
raises DistutilsFileError. Data is read/written in chunks of
'buffer_size' bytes (default 16k). No attempt is made to handle
anything apart from regular files."""
# Stolen from shutil module in the standard library, but with
# custom error-handling added.
fsrc = None
fdst = None
try:
try:
fsrc = open(src, 'rb')
except os.error, (errno, errstr):
raise DistutilsFileError, "could not open %s: %s" % (src, errstr)
try:
fdst = open(dst, 'wb')
except os.error, (errno, errstr):
raise DistutilsFileError, "could not create %s: %s" % (dst, errstr)
while 1:
try:
buf = fsrc.read (buffer_size)
except os.error, (errno, errstr):
raise DistutilsFileError, \
"could not read from %s: %s" % (src, errstr)
if not buf:
break
try:
fdst.write(buf)
except os.error, (errno, errstr):
raise DistutilsFileError, \
"could not write to %s: %s" % (dst, errstr)
finally:
if fdst:
fdst.close()
if fsrc:
fsrc.close()
# _copy_file_contents()
def copy_file (src, dst,
preserve_mode=1,
preserve_times=1,
update=0,
verbose=0,
dry_run=0):
"""Copy a file 'src' to 'dst'. If 'dst' is a directory, then 'src'
is copied there with the same name; otherwise, it must be a
filename. (If the file exists, it will be ruthlessly clobbered.)
If 'preserve_mode' is true (the default), the file's mode (type
and permission bits, or whatever is analogous on the current
platform) is copied. If 'preserve_times' is true (the default),
the last-modified and last-access times are copied as well. If
'update' is true, 'src' will only be copied if 'dst' does not
exist, or if 'dst' does exist but is older than 'src'. If
'verbose' is true, then a one-line summary of the copy will be
printed to stdout.
Return true if the file was copied (or would have been copied),
false otherwise (ie. 'update' was true and the destination is
up-to-date)."""
# XXX doesn't copy Mac-specific metadata
from stat import *
if not os.path.isfile (src):
raise DistutilsFileError, \
"can't copy %s: not a regular file" % src
if os.path.isdir (dst):
dir = dst
dst = os.path.join (dst, os.path.basename (src))
else:
dir = os.path.dirname (dst)
if update and not newer (src, dst):
if verbose:
print "not copying %s (output up-to-date)" % src
return 0
if verbose:
print "copying %s -> %s" % (src, dir)
if dry_run:
return 1
_copy_file_contents (src, dst)
if preserve_mode or preserve_times:
st = os.stat (src)
# According to David Ascher <da@ski.org>, utime() should be done
# before chmod() (at least under NT).
if preserve_times:
os.utime (dst, (st[ST_ATIME], st[ST_MTIME]))
if preserve_mode:
os.chmod (dst, S_IMODE (st[ST_MODE]))
return 1
# copy_file ()
def copy_tree (src, dst,
preserve_mode=1,
preserve_times=1,
preserve_symlinks=0,
update=0,
verbose=0,
dry_run=0):
"""Copy an entire directory tree 'src' to a new location 'dst'. Both
'src' and 'dst' must be directory names. If 'src' is not a
directory, raise DistutilsFileError. If 'dst' does not exist, it
is created with 'mkpath()'. The end result of the copy is that
every file in 'src' is copied to 'dst', and directories under
'src' are recursively copied to 'dst'. Return the list of files
copied (under their output names) -- note that if 'update' is true,
this might be less than the list of files considered. Return
value is not affected by 'dry_run'.
'preserve_mode' and 'preserve_times' are the same as for
'copy_file'; note that they only apply to regular files, not to
directories. If 'preserve_symlinks' is true, symlinks will be
copied as symlinks (on platforms that support them!); otherwise
(the default), the destination of the symlink will be copied.
'update' and 'verbose' are the same as for 'copy_file'."""
if not dry_run and not os.path.isdir (src):
raise DistutilsFileError, \
"cannot copy tree %s: not a directory" % src
try:
names = os.listdir (src)
except os.error, (errno, errstr):
if dry_run:
names = []
else:
raise DistutilsFileError, \
"error listing files in %s: %s" % (src, errstr)
if not dry_run:
mkpath (dst, verbose=verbose)
outputs = []
for n in names:
src_name = os.path.join (src, n)
dst_name = os.path.join (dst, n)
if preserve_symlinks and os.path.islink (src_name):
link_dest = os.readlink (src_name)
if verbose:
print "linking %s -> %s" % (dst_name, link_dest)
if not dry_run:
os.symlink (link_dest, dst_name)
outputs.append (dst_name)
elif os.path.isdir (src_name):
outputs.extend (
copy_tree (src_name, dst_name,
preserve_mode, preserve_times, preserve_symlinks,
update, verbose, dry_run))
else:
if (copy_file (src_name, dst_name,
preserve_mode, preserve_times,
update, verbose, dry_run)):
outputs.append (dst_name)
return outputs
# copy_tree ()
# XXX I suspect this is Unix-specific -- need porting help!
def move_file (src, dst,
verbose=0,
dry_run=0):
"""Move a file 'src' to 'dst'. If 'dst' is a directory, the file
will be moved into it with the same name; otherwise, 'src' is
just renamed to 'dst'. Return the new full name of the file.
Handles cross-device moves on Unix using
'copy_file()'. What about other systems???"""
from os.path import exists, isfile, isdir, basename, dirname
if verbose:
print "moving %s -> %s" % (src, dst)
if dry_run:
return dst
if not isfile (src):
raise DistutilsFileError, \
"can't move '%s': not a regular file" % src
if isdir (dst):
dst = os.path.join (dst, basename (src))
elif exists (dst):
raise DistutilsFileError, \
"can't move '%s': destination '%s' already exists" % \
(src, dst)
if not isdir (dirname (dst)):
raise DistutilsFileError, \
"can't move '%s': destination '%s' not a valid path" % \
(src, dst)
copy_it = 0
try:
os.rename (src, dst)
except os.error, (num, msg):
if num == errno.EXDEV:
copy_it = 1
else:
raise DistutilsFileError, \
"couldn't move '%s' to '%s': %s" % (src, dst, msg)
if copy_it:
copy_file (src, dst)
try:
os.unlink (src)
except os.error, (num, msg):
try:
os.unlink (dst)
except os.error:
pass
raise DistutilsFileError, \
("couldn't move '%s' to '%s' by copy/delete: " +
"delete '%s' failed: %s") % \
(src, dst, src, msg)
return dst
# move_file ()
def write_file (filename, contents):
"""Create a file with the specified name and write 'contents' (a
sequence of strings without line terminators) to it."""
f = open (filename, "w")
for line in contents:
f.write (line + "\n")
f.close ()
def get_platform ():
"""Return a string (suitable for tacking onto directory names) that
identifies the current platform. Under Unix, identifies both the OS
and hardware architecture, e.g. "linux-i586", "solaris-sparc",
"irix-mips". For Windows and Mac OS, just returns 'sys.platform' --
i.e. "???" or "???"."""
if os.name == 'posix':
uname = os.uname()
OS = uname[0]
arch = uname[4]
return "%s-%s" % (string.lower (OS), string.lower (arch))
else:
return sys.platform
# get_platform()