IMHO, not storing timestamps (and other metadata like permissions and ownership) is a big limitation of
Linus' rationale of timestamps being harmful just because it "confuses
make" is lame:
make clean is enough to fix any problems.
Applies only to projects that use
make, mostly C/C++. It is completely moot for scripts like Python, Perl, or documentation in general.
There is only harm if you apply the timestamps. There would be no harm in storing them in repo. Applying them could be a simple
--with-timestamps option for
git checkout and friends (
pull etc), at the user's discretion.
Both Bazaar and Mercurial stores metadata. Users can apply them or not when checking out. But in git, since original timestamps are not even available in the repo, there is no such option.
So, for a very small gain (not having to re-compile everything) that is specific to a subset of projects,
git as a general DVCS was crippled, some information from about files is lost, and, as Linus said, it's INFEASIBLE to do it now. Sad.
That said, may I offer 2 approaches?
1 - http://repo.or.cz/w/metastore.git , by David Härdeman. Tries to do what
git should have done in the first place: stores metadata (not only timestamps) in the repo when commiting (via pre-commit hook), and re-applies them when pulling (also via hooks).
2 - My humble version of a script I used before for generating release tarballs. As mentioned in other answers, the approach is a little different: to apply for each file the timestamp of the most recent commit where the file was modified.
Below is a really bare-bones version of the script. For actual usage I strongly suggest one of the more robust versions above:
# Bare-bones version. Current dir must be top-level of work tree.
# Usage: git-restore-mtime-bare [pathspecs...]
# By default update all files
# Example: to only update only the README and files in ./doc:
# git-restore-mtime-bare README doc
import subprocess, shlex
import sys, os.path
filelist = set()
for path in (sys.argv[1:] or [os.path.curdir]):
if os.path.isfile(path) or os.path.islink(path):
for root, subdirs, files in os.walk(path):
if '.git' in subdirs:
for file in files:
mtime = 0
gitobj = subprocess.Popen(shlex.split('git whatchanged --pretty=%at'),
for line in gitobj.stdout:
line = line.strip()
if not line: continue
file = line.split('\t')[-1]
if file in filelist:
#print mtime, file
os.utime(file, (mtime, mtime))
mtime = long(line)
# All files done?
if not filelist:
Performance is pretty impressive, even for monster projects
git or even the linux kernel:
# 0.27 seconds
# 5,750 log lines processed
# 62 commits evaluated
# 1,155 updated files
# 3.71 seconds
# 96,702 log lines processed
# 24,217 commits evaluated
# 2,495 updated files
# 13.53 seconds
# 443,979 log lines processed
# 91,703 commits evaluated
# 6,005 updated files
# 59.11 seconds
# 1,484,567 log lines processed
# 313,164 commits evaluated
# 40,902 updated files