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libtqt-perl/cvs2cl.pl

2338 lines
73 KiB

#!/bin/sh
exec perl -w -x $0 ${1+"$@"}
#!perl -w
##############################################################
### ###
### cvs2cl.pl: produce ChangeLog(s) from `cvs log` output. ###
### ###
##############################################################
## $Revision: 1.1 $
## $Date: 2003/09/09 09:45:39 $
## $Author: germaingarand $
##
## (C) 2001,2002,2003 Martyn J. Pearce <fluffy@cpan.org>, under the GNU GPL.
## (C) 1999 Karl Fogel <kfogel@red-bean.com>, under the GNU GPL.
##
## (Extensively hacked on by Melissa O'Neill <oneill@cs.sfu.ca>.)
## (Gecos hacking by Robin Johnson <robbat2@orbis-terrarum.net>.)
##
## cvs2cl.pl is free software; you can redistribute it and/or modify
## it under the terms of the GNU General Public License as published by
## the Free Software Foundation; either version 2, or (at your option)
## any later version.
##
## cvs2cl.pl is distributed in the hope that it will be useful,
## but WITHOUT ANY WARRANTY; without even the implied warranty of
## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
## GNU General Public License for more details.
##
## You may have received a copy of the GNU General Public License
## along with cvs2cl.pl; see the file COPYING. If not, write to the
## Free Software Foundation, Inc., 59 Temple Place - Suite 330,
## Boston, MA 02111-1307, USA.
use strict;
use Text::Wrap;
use Time::Local;
use File::Basename qw( fileparse );
use User::pwent;
# The Plan:
#
# Read in the logs for multiple files, spit out a nice ChangeLog that
# mirrors the information entered during `cvs commit'.
#
# The problem presents some challenges. In an ideal world, we could
# detect files with the same author, log message, and checkin time --
# each <filelist, author, time, logmessage> would be a changelog entry.
# We'd sort them; and spit them out. Unfortunately, CVS is *not atomic*
# so checkins can span a range of times. Also, the directory structure
# could be hierarchical.
#
# Another question is whether we really want to have the ChangeLog
# exactly reflect commits. An author could issue two related commits,
# with different log entries, reflecting a single logical change to the
# source. GNU style ChangeLogs group these under a single author/date.
# We try to do the same.
#
# So, we parse the output of `cvs log', storing log messages in a
# multilevel hash that stores the mapping:
# directory => author => time => message => filelist
# As we go, we notice "nearby" commit times and store them together
# (i.e., under the same timestamp), so they appear in the same log
# entry.
#
# When we've read all the logs, we twist this mapping into
# a time => author => message => filelist mapping for each directory.
#
# If we're not using the `--distributed' flag, the directory is always
# considered to be `./', even as descend into subdirectories.
############### Globals ################
use constant MAILNAME => "/etc/mailname";
# What we run to generate it:
my $Log_Source_Command = "cvs log";
# In case we have to print it out:
my $VERSION = '$Revision: 1.1 $';
$VERSION =~ s/\S+\s+(\S+)\s+\S+/$1/;
## Vars set by options:
# Print debugging messages?
my $Debug = 0;
# Just show version and exit?
my $Print_Version = 0;
# Just print usage message and exit?
my $Print_Usage = 0;
# Single top-level ChangeLog, or one per subdirectory?
my $Distributed = 0;
# What file should we generate (defaults to "ChangeLog")?
my $Log_File_Name = "ChangeLog";
# Grab most recent entry date from existing ChangeLog file, just add
# to that ChangeLog.
my $Cumulative = 0;
# `cvs log -d`, this will repeat the last entry in the old log. This is OK,
# as it guarantees at least one entry in the update changelog, which means
# that there will always be a date to extract for the next update. The repeat
# entry can be removed in postprocessing, if necessary.
my $Update = 0;
# Expand usernames to email addresses based on a map file?
my $User_Map_File = "";
my $User_Passwd_File;
my $Mail_Domain;
# Output log in chronological order? [default is reverse chronological order]
my $Chronological_Order = 0;
# Grab user details via gecos
my $Gecos = 0;
# User domain for gecos email addresses
my $Domain = "";
# Output to a file or to stdout?
my $Output_To_Stdout = 0;
# Eliminate empty log messages?
my $Prune_Empty_Msgs = 0;
# Tags of which not to output
my %ignore_tags;
# Show only revisions with Tags
my %show_tags;
# Don't call Text::Wrap on the body of the message
my $No_Wrap = 0;
# Don't do any pretty print processing
my $Summary = 0;
# Separates header from log message. Code assumes it is either " " or
# "\n\n", so if there's ever an option to set it to something else,
# make sure to go through all conditionals that use this var.
my $After_Header = " ";
# XML Encoding
my $XML_Encoding = '';
# Format more for programs than for humans.
my $XML_Output = 0;
# Do some special tweaks for log data that was written in FSF
# ChangeLog style.
my $FSF_Style = 0;
# Show times in UTC instead of local time
my $UTC_Times = 0;
# Show times in output?
my $Show_Times = 1;
# Show day of week in output?
my $Show_Day_Of_Week = 0;
# Show revision numbers in output?
my $Show_Revisions = 0;
# Show dead files in output?
my $Show_Dead = 0;
# Show tags (symbolic names) in output?
my $Show_Tags = 0;
# Show tags separately in output?
my $Show_Tag_Dates = 0;
# Show branches by symbolic name in output?
my $Show_Branches = 0;
# Show only revisions on these branches or their ancestors.
my @Follow_Branches;
# Don't bother with files matching this regexp.
my @Ignore_Files;
# How exactly we match entries. We definitely want "o",
# and user might add "i" by using --case-insensitive option.
my $Case_Insensitive = 0;
# Maybe only show log messages matching a certain regular expression.
my $Regexp_Gate = "";
# Pass this global option string along to cvs, to the left of `log':
my $Global_Opts = "";
# Pass this option string along to the cvs log subcommand:
my $Command_Opts = "";
# Read log output from stdin instead of invoking cvs log?
my $Input_From_Stdin = 0;
# Don't show filenames in output.
my $Hide_Filenames = 0;
# Don't shorten directory names from filenames.
my $Common_Dir = 1;
# Max checkin duration. CVS checkin is not atomic, so we may have checkin
# times that span a range of time. We assume that checkins will last no
# longer than $Max_Checkin_Duration seconds, and that similarly, no
# checkins will happen from the same users with the same message less
# than $Max_Checkin_Duration seconds apart.
my $Max_Checkin_Duration = 180;
# What to put at the front of [each] ChangeLog.
my $ChangeLog_Header = "";
# Whether to enable 'delta' mode, and for what start/end tags.
my $Delta_Mode = 0;
my $Delta_From = "";
my $Delta_To = "";
my $TestCode;
# Whether to parse filenames from the RCS filename, and if so what
# prefix to strip.
my $RCS_Mode = 0;
my $RCS_Root = "";
## end vars set by options.
# latest observed times for the start/end tags in delta mode
my $Delta_StartTime = 0;
my $Delta_EndTime = 0;
# In 'cvs log' output, one long unbroken line of equal signs separates
# files:
my $file_separator = "======================================="
. "======================================";
# In 'cvs log' output, a shorter line of dashes separates log messages
# within a file:
my $logmsg_separator = "----------------------------";
my $No_Ancestors = 0;
############### End globals ############
&parse_options ();
if ( defined $TestCode ) {
eval $TestCode;
die "Eval failed: '$@'\n"
if $@;
} else {
&derive_change_log ();
}
### Everything below is subroutine definitions. ###
sub run_ext {
my ($cmd) = @_;
$cmd = [$cmd]
unless ref $cmd;
local $" = ' ';
my $out = qx"@$cmd 2>&1";
my $rv = $?;
my ($sig, $core, $exit) = ($? & 127, $? & 128, $? >> 8);
return $out, $exit, $sig, $core;
}
# If accumulating, grab the boundary date from pre-existing ChangeLog.
sub maybe_grab_accumulation_date ()
{
if (! $Cumulative || $Update) {
return "";
}
# else
open (LOG, "$Log_File_Name")
or die ("trouble opening $Log_File_Name for reading ($!)");
my $boundary_date;
while (<LOG>)
{
if (/^(\d\d\d\d-\d\d-\d\d\s+\d\d:\d\d)/)
{
$boundary_date = "$1";
last;
}
}
close (LOG);
return $boundary_date;
}
# Fills up a ChangeLog structure in the current directory.
sub derive_change_log ()
{
# See "The Plan" above for a full explanation.
my %grand_poobah;
my $file_full_path;
my $time;
my $revision;
my $author;
my $state;
my $lines;
my $cvsstate;
my $msg_txt;
my $detected_file_separator;
my %tag_date_printed;
# Might be adding to an existing ChangeLog
my $accumulation_date = &maybe_grab_accumulation_date ();
if ($accumulation_date) {
# Insert -d immediately after 'cvs log'
my $Log_Date_Command = "-d\'>${accumulation_date}\'";
$Log_Source_Command =~ s/(^.*log\S*)/$1 $Log_Date_Command/;
&debug ("(adding log msg starting from $accumulation_date)\n");
}
# We might be expanding usernames
my %usermap;
# In general, it's probably not very maintainable to use state
# variables like this to tell the loop what it's doing at any given
# moment, but this is only the first one, and if we never have more
# than a few of these, it's okay.
my $collecting_symbolic_names = 0;
my %symbolic_names; # Where tag names get stored.
my %branch_names; # We'll grab branch names while we're at it.
my %branch_numbers; # Save some revisions for @Follow_Branches
my @branch_roots; # For showing which files are branch ancestors.
# Bleargh. Compensate for a deficiency of custom wrapping.
if (($After_Header ne " ") and $FSF_Style)
{
$After_Header .= "\t";
}
if (! $Input_From_Stdin) {
&debug ("(run \"${Log_Source_Command}\")\n");
open (LOG_SOURCE, "$Log_Source_Command |")
or die "unable to run \"${Log_Source_Command}\"";
}
else {
open (LOG_SOURCE, "-") or die "unable to open stdin for reading";
}
binmode LOG_SOURCE;
%usermap = &maybe_read_user_map_file ();
while (<LOG_SOURCE>)
{
# Canonicalize line endings
s/\r$//;
my $new_full_path;
# If on a new file and don't see filename, skip until we find it, and
# when we find it, grab it.
if (! (defined $file_full_path))
{
if (/^Working file: (.*)/) {
$new_full_path = $1;
} elsif ($RCS_Mode && m|^RCS file: $RCS_Root/(.*),v$|) {
$new_full_path = $1;
}
}
if (defined $new_full_path)
{
$file_full_path = $new_full_path;
if (@Ignore_Files)
{
my $base;
($base, undef, undef) = fileparse ($file_full_path);
# Ouch, I wish trailing operators in regexps could be
# evaluated on the fly!
if ($Case_Insensitive) {
if (grep ($file_full_path =~ m|$_|i, @Ignore_Files)) {
undef $file_full_path;
}
}
elsif (grep ($file_full_path =~ m|$_|, @Ignore_Files)) {
undef $file_full_path;
}
}
next;
}
# Just spin wheels if no file defined yet.
next if (! $file_full_path);
# Collect tag names in case we're asked to print them in the output.
if (/^symbolic names:$/) {
$collecting_symbolic_names = 1;
next; # There's no more info on this line, so skip to next
}
if ($collecting_symbolic_names)
{
# All tag names are listed with whitespace in front in cvs log
# output; so if see non-whitespace, then we're done collecting.
if (/^\S/) {
$collecting_symbolic_names = 0;
}
else # we're looking at a tag name, so parse & store it
{
# According to the Cederqvist manual, in node "Tags", tag
# names must start with an uppercase or lowercase letter and
# can contain uppercase and lowercase letters, digits, `-',
# and `_'. However, it's not our place to enforce that, so
# we'll allow anything CVS hands us to be a tag:
/^\s+([^:]+): ([\d.]+)$/;
my $tag_name = $1;
my $tag_rev = $2;
# A branch number either has an odd number of digit sections
# (and hence an even number of dots), or has ".0." as the
# second-to-last digit section. Test for these conditions.
my $real_branch_rev = "";
if (($tag_rev =~ /^(\d+\.\d+\.)+\d+$/) # Even number of dots...
and (! ($tag_rev =~ /^(1\.)+1$/))) # ...but not "1.[1.]1"
{
$real_branch_rev = $tag_rev;
}
elsif ($tag_rev =~ /(\d+\.(\d+\.)+)0.(\d+)/) # Has ".0."
{
$real_branch_rev = $1 . $3;
}
# If we got a branch, record its number.
if ($real_branch_rev)
{
$branch_names{$real_branch_rev} = $tag_name;
if (@Follow_Branches) {
if (grep ($_ eq $tag_name, @Follow_Branches)) {
$branch_numbers{$tag_name} = $real_branch_rev;
}
}
}
else {
# Else it's just a regular (non-branch) tag.
push (@{$symbolic_names{$tag_rev}}, $tag_name);
}
}
}
# End of code for collecting tag names.
# If have file name, but not revision, and see revision, then grab
# it. (We collect unconditionally, even though we may or may not
# ever use it.)
if ((! (defined $revision)) and (/^revision (\d+\.[\d.]+)/))
{
$revision = $1;
if (@Follow_Branches)
{
foreach my $branch (@Follow_Branches)
{
# Special case for following trunk revisions
if (($branch =~ /^trunk$/i) and ($revision =~ /^[0-9]+\.[0-9]+$/))
{
goto dengo;
}
my $branch_number = $branch_numbers{$branch};
if ($branch_number)
{
# Are we on one of the follow branches or an ancestor of
# same?
#
# If this revision is a prefix of the branch number, or
# possibly is less in the minormost number, OR if this
# branch number is a prefix of the revision, then yes.
# Otherwise, no.
#
# So below, we determine if any of those conditions are
# met.
# Trivial case: is this revision on the branch?
# (Compare this way to avoid regexps that screw up Emacs
# indentation, argh.)
if ((substr ($revision, 0, ((length ($branch_number)) + 1)))
eq ($branch_number . "."))
{
goto dengo;
}
# Non-trivial case: check if rev is ancestral to branch
elsif ((length ($branch_number)) > (length ($revision))
and
$No_Ancestors)
{
$revision =~ /^((?:\d+\.)+)(\d+)$/;
my $r_left = $1; # still has the trailing "."
my $r_end = $2;
$branch_number =~ /^((?:\d+\.)+)(\d+)\.\d+$/;
my $b_left = $1; # still has trailing "."
my $b_mid = $2; # has no trailing "."
if (($r_left eq $b_left)
&& ($r_end <= $b_mid))
{
goto dengo;
}
}
}
}
}
else # (! @Follow_Branches)
{
next;
}
# Else we are following branches, but this revision isn't on the
# path. So skip it.
undef $revision;
dengo:
next;
}
# If we don't have a revision right now, we couldn't possibly
# be looking at anything useful.
if (! (defined ($revision))) {
$detected_file_separator = /^$file_separator$/o;
if ($detected_file_separator) {
# No revisions for this file; can happen, e.g. "cvs log -d DATE"
goto CLEAR;
}
else {
next;
}
}
# If have file name but not date and author, and see date or
# author, then grab them:
unless (defined $time)
{
if (/^date: .*/)
{
($time, $author, $state, $lines) =
&parse_date_author_and_state ($_);
if (defined ($usermap{$author}) and $usermap{$author}) {
$author = $usermap{$author};
} elsif($Domain ne "" or $Gecos == 1) {
my $email = $author;
if($Domain ne "") {
$email = $author."@".$Domain;
}
my $pw = getpwnam($author);
my $fullname;
my $office;
my $workphone;
my $homephone;
for (($fullname, $office, $workphone, $homephone) = split /\s*,\s*/, $pw->gecos) {
s/&/ucfirst(lc($pw->name))/ge;
}
if($fullname ne "") {
$author = $fullname . " <" . $email . ">";
}
}
}
else {
$detected_file_separator = /^$file_separator$/o;
if ($detected_file_separator) {
# No revisions for this file; can happen, e.g. "cvs log -d DATE"
goto CLEAR;
}
}
# If the date/time/author hasn't been found yet, we couldn't
# possibly care about anything we see. So skip:
next;
}
# A "branches: ..." line here indicates that one or more branches
# are rooted at this revision. If we're showing branches, then we
# want to show that fact as well, so we collect all the branches
# that this is the latest ancestor of and store them in
# @branch_roots. Just for reference, the format of the line we're
# seeing at this point is:
#
# branches: 1.5.2; 1.5.4; ...;
#
# Okay, here goes:
if (/^branches:\s+(.*);$/)
{
if ($Show_Branches)
{
my $lst = $1;
$lst =~ s/(1\.)+1;|(1\.)+1$//; # ignore the trivial branch 1.1.1
if ($lst) {
@branch_roots = split (/;\s+/, $lst);
}
else {
undef @branch_roots;
}
next;
}
else
{
# Ugh. This really bothers me. Suppose we see a log entry
# like this:
#
# ----------------------------
# revision 1.1
# date: 1999/10/17 03:07:38; author: jrandom; state: Exp;
# branches: 1.1.2;
# Intended first line of log message begins here.
# ----------------------------
#
# The question is, how we can tell the difference between that
# log message and a *two*-line log message whose first line is
#
# "branches: 1.1.2;"
#
# See the problem? The output of "cvs log" is inherently
# ambiguous.
#
# For now, we punt: we liberally assume that people don't
# write log messages like that, and just toss a "branches:"
# line if we see it but are not showing branches. I hope no
# one ever loses real log data because of this.
next;
}
}
# If have file name, time, and author, then we're just grabbing
# log message texts:
$detected_file_separator = /^$file_separator$/o;
if ($detected_file_separator && ! (defined $revision)) {
# No revisions for this file; can happen, e.g. "cvs log -d DATE"
goto CLEAR;
}
unless ($detected_file_separator || /^$logmsg_separator$/o)
{
$msg_txt .= $_; # Normally, just accumulate the message...
next;
}
# ... until a msg separator is encountered:
# Ensure the message contains something:
if ((! $msg_txt)
|| ($msg_txt =~ /^\s*\.\s*$|^\s*$/)
|| ($msg_txt =~ /\*\*\* empty log message \*\*\*/))
{
if ($Prune_Empty_Msgs) {
goto CLEAR;
}
# else
$msg_txt = "[no log message]\n";
}
### Store it all in the Grand Poobah:
{
my $dir_key; # key into %grand_poobah
my %qunk; # complicated little jobbie, see below
# Each revision of a file has a little data structure (a `qunk')
# associated with it. That data structure holds not only the
# file's name, but any additional information about the file
# that might be needed in the output, such as the revision
# number, tags, branches, etc. The reason to have these things
# arranged in a data structure, instead of just appending them
# textually to the file's name, is that we may want to do a
# little rearranging later as we write the output. For example,
# all the files on a given tag/branch will go together, followed
# by the tag in parentheses (so trunk or otherwise non-tagged
# files would go at the end of the file list for a given log
# message). This rearrangement is a lot easier to do if we
# don't have to reparse the text.
#
# A qunk looks like this:
#
# {
# filename => "hello.c",
# revision => "1.4.3.2",
# time => a timegm() return value (moment of commit)
# tags => [ "tag1", "tag2", ... ],
# branch => "branchname" # There should be only one, right?
# branchroots => [ "branchtag1", "branchtag2", ... ]
# }
if ($Distributed) {
# Just the basename, don't include the path.
($qunk{'filename'}, $dir_key, undef) = fileparse ($file_full_path);
}
else {
$dir_key = "./";
$qunk{'filename'} = $file_full_path;
}
# This may someday be used in a more sophisticated calculation
# of what other files are involved in this commit. For now, we
# don't use it much except for delta mode, because the
# common-commit-detection algorithm is hypothesized to be
# "good enough" as it stands.
$qunk{'time'} = $time;
# We might be including revision numbers and/or tags and/or
# branch names in the output. Most of the code from here to
# loop-end deals with organizing these in qunk.
$qunk{'revision'} = $revision;
$qunk{'state'} = $state;
if ( defined( $lines )) {
$qunk{'lines'} = $lines;
}
# Grab the branch, even though we may or may not need it:
$qunk{'revision'} =~ /((?:\d+\.)+)\d+/;
my $branch_prefix = $1;
$branch_prefix =~ s/\.$//; # strip off final dot
if ($branch_names{$branch_prefix}) {
$qunk{'branch'} = $branch_names{$branch_prefix};
}
# Keep a record of the file's cvs state.
$qunk{'cvsstate'} = $state;
# If there's anything in the @branch_roots array, then this
# revision is the root of at least one branch. We'll display
# them as branch names instead of revision numbers, the
# substitution for which is done directly in the array:
if (@branch_roots) {
my @roots = map { $branch_names{$_} } @branch_roots;
$qunk{'branchroots'} = \@roots;
}
# Save tags too.
if (defined ($symbolic_names{$revision})) {
$qunk{'tags'} = $symbolic_names{$revision};
delete $symbolic_names{$revision};
# If we're in 'delta' mode, update the latest observed
# times for the beginning and ending tags, and
# when we get around to printing output, we will simply restrict
# ourselves to that timeframe...
if ($Delta_Mode) {
if (($time > $Delta_StartTime) &&
(grep { $_ eq $Delta_From } @{$qunk{'tags'}}))
{
$Delta_StartTime = $time;
}
if (($time > $Delta_EndTime) &&
(grep { $_ eq $Delta_To } @{$qunk{'tags'}}))
{
$Delta_EndTime = $time;
}
}
}
# Add this file to the list
# (We use many spoonfuls of autovivication magic. Hashes and arrays
# will spring into existence if they aren't there already.)
&debug ("(pushing log msg for ${dir_key}$qunk{'filename'})\n");
# Store with the files in this commit. Later we'll loop through
# again, making sure that revisions with the same log message
# and nearby commit times are grouped together as one commit.
push (@{$grand_poobah{$dir_key}{$author}{$time}{$msg_txt}}, \%qunk);
}
CLEAR:
# Make way for the next message
undef $msg_txt;
undef $time;
undef $revision;
undef $author;
undef @branch_roots;
# Maybe even make way for the next file:
if ($detected_file_separator) {
undef $file_full_path;
undef %branch_names;
undef %branch_numbers;
undef %symbolic_names;
}
}
close (LOG_SOURCE);
### Process each ChangeLog
while (my ($dir,$authorhash) = each %grand_poobah)
{
&debug ("DOING DIR: $dir\n");
# Here we twist our hash around, from being
# author => time => message => filelist
# in %$authorhash to
# time => author => message => filelist
# in %changelog.
#
# This is also where we merge entries. The algorithm proceeds
# through the timeline of the changelog with a sliding window of
# $Max_Checkin_Duration seconds; within that window, entries that
# have the same log message are merged.
#
# (To save space, we zap %$authorhash after we've copied
# everything out of it.)
my %changelog;
while (my ($author,$timehash) = each %$authorhash)
{
my $lasttime;
my %stamptime;
foreach my $time (sort {$main::a <=> $main::b} (keys %$timehash))
{
my $msghash = $timehash->{$time};
while (my ($msg,$qunklist) = each %$msghash)
{
my $stamptime = $stamptime{$msg};
if ((defined $stamptime)
and (($time - $stamptime) < $Max_Checkin_Duration)
and (defined $changelog{$stamptime}{$author}{$msg}))
{
push(@{$changelog{$stamptime}{$author}{$msg}}, @$qunklist);
}
else {
$changelog{$time}{$author}{$msg} = $qunklist;
$stamptime{$msg} = $time;
}
}
}
}
undef (%$authorhash);
### Now we can write out the ChangeLog!
my ($logfile_here, $logfile_bak, $tmpfile);
if (! $Output_To_Stdout) {
$logfile_here = $dir . $Log_File_Name;
$logfile_here =~ s/^\.\/\//\//; # fix any leading ".//" problem
$tmpfile = "${logfile_here}.cvs2cl$$.tmp";
$logfile_bak = "${logfile_here}.bak";
open (LOG_OUT, ">$tmpfile") or die "Unable to open \"$tmpfile\"";
}
else {
open (LOG_OUT, ">-") or die "Unable to open stdout for writing";
}
print LOG_OUT $ChangeLog_Header;
if ($XML_Output) {
my $encoding =
length $XML_Encoding ? qq'encoding="$XML_Encoding"' : '';
my $version = 'version="1.0"';
my $declaration =
sprintf '<?xml %s?>', join ' ', grep length, $version, $encoding;
my $root =
'<changelog xmlns="http://www.red-bean.com/xmlns/cvs2cl/">';
print LOG_OUT "$declaration\n\n$root\n\n";
}
my @key_list = ();
if($Chronological_Order) {
@key_list = sort {$main::a <=> $main::b} (keys %changelog);
} else {
@key_list = sort {$main::b <=> $main::a} (keys %changelog);
}
foreach my $time (@key_list)
{
next if ($Delta_Mode &&
(($time <= $Delta_StartTime) ||
($time > $Delta_EndTime && $Delta_EndTime)));
# Set up the date/author line.
# kff todo: do some more XML munging here, on the header
# part of the entry:
my ($ignore,$min,$hour,$mday,$mon,$year,$wday)
= $UTC_Times ? gmtime($time) : localtime($time);
# XML output includes everything else, we might as well make
# it always include Day Of Week too, for consistency.
if ($Show_Day_Of_Week or $XML_Output) {
$wday = ("Sunday", "Monday", "Tuesday", "Wednesday",
"Thursday", "Friday", "Saturday")[$wday];
$wday = ($XML_Output) ? "<weekday>${wday}</weekday>\n" : " $wday";
}
else {
$wday = "";
}
my $authorhash = $changelog{$time};
if ($Show_Tag_Dates) {
my %tags;
while (my ($author,$mesghash) = each %$authorhash) {
while (my ($msg,$qunk) = each %$mesghash) {
foreach my $qunkref2 (@$qunk) {
if (defined ($$qunkref2{'tags'})) {
foreach my $tag (@{$$qunkref2{'tags'}}) {
$tags{$tag} = 1;
}
}
}
}
}
foreach my $tag (keys %tags) {
if (!defined $tag_date_printed{$tag}) {
$tag_date_printed{$tag} = $time;
if ($XML_Output) {
# NOT YET DONE
}
else {
if ($Show_Times) {
printf LOG_OUT ("%4u-%02u-%02u${wday} %02u:%02u tag %s\n\n",
$year+1900, $mon+1, $mday, $hour, $min, $tag);
} else {
printf LOG_OUT ("%4u-%02u-%02u${wday} tag %s\n\n",
$year+1900, $mon+1, $mday, $tag);
}
}
}
}
}
while (my ($author,$mesghash) = each %$authorhash)
{
# If XML, escape in outer loop to avoid compound quoting:
if ($XML_Output) {
$author = &xml_escape ($author);
}
FOOBIE:
# We sort here to enable predictable ordering for the testing porpoises
for my $msg (sort keys %$mesghash)
{
my $qunklist = $mesghash->{$msg};
## MJP: 19.xii.01 : Exclude @ignore_tags
for my $ignore_tag (keys %ignore_tags) {
next FOOBIE
if grep($_ eq $ignore_tag, map(@{$_->{tags}},
grep(defined $_->{tags},
@$qunklist)));
}
## MJP: 19.xii.01 : End exclude @ignore_tags
# show only files with tag --show-tag $show_tag
if ( keys %show_tags ) {
next FOOBIE
if !grep(exists $show_tags{$_}, map(@{$_->{tags}},
grep(defined $_->{tags},
@$qunklist)));
}
my $files = &pretty_file_list ($qunklist);
my $header_line; # date and author
my $body; # see below
my $wholething; # $header_line + $body
if ($XML_Output) {
$header_line =
sprintf ("<date>%4u-%02u-%02u</date>\n"
. "${wday}"
. "<time>%02u:%02u</time>\n"
. "<author>%s</author>\n",
$year+1900, $mon+1, $mday, $hour, $min, $author);
}
else {
if ($Show_Times) {
$header_line =
sprintf ("%4u-%02u-%02u${wday} %02u:%02u %s\n\n",
$year+1900, $mon+1, $mday, $hour, $min, $author);
} else {
$header_line =
sprintf ("%4u-%02u-%02u${wday} %s\n\n",
$year+1900, $mon+1, $mday, $author);
}
}
$Text::Wrap::huge = 'overflow'
if $Text::Wrap::VERSION >= 2001.0130;
# Reshape the body according to user preferences.
if ($XML_Output)
{
$msg = &preprocess_msg_text ($msg);
$body = $files . $msg;
}
elsif ($No_Wrap && !$Summary)
{
$msg = &preprocess_msg_text ($msg);
$files = wrap ("\t", " ", "$files");
$msg =~ s/\n(.*)/\n\t$1/g;
unless ($After_Header eq " ") {
$msg =~ s/^(.*)/\t$1/g;
}
$body = $files . $After_Header . $msg;
}
elsif ($Summary)
{
my( $filelist, $qunk );
my( @DeletedQunks, @AddedQunks, @ChangedQunks );
$msg = &preprocess_msg_text ($msg);
#
# Sort the files (qunks) according to the operation that was
# performed. Files which were added have no line change
# indicator, whereas deleted files have state dead.
#
foreach $qunk ( @$qunklist )
{
if ( "dead" eq $qunk->{'state'})
{
push( @DeletedQunks, $qunk );
}
elsif ( !exists( $qunk->{'lines'}))
{
push( @AddedQunks, $qunk );
}
else
{
push( @ChangedQunks, $qunk );
}
}
#
# The qunks list was originally in tree search order. Let's
# get that back. The lists, if they exist, will be reversed upon
# processing.
#
#
# Now write the three sections onto $filelist
#
if ( @DeletedQunks )
{
$filelist .= "\tDeleted:\n";
foreach $qunk ( @DeletedQunks )
{
$filelist .= "\t\t" . $qunk->{'filename'};
$filelist .= " (" . $qunk->{'revision'} . ")";
$filelist .= "\n";
}
undef( @DeletedQunks );
}
if ( @AddedQunks )
{
$filelist .= "\tAdded:\n";
foreach $qunk ( @AddedQunks )
{
$filelist .= "\t\t" . $qunk->{'filename'};
$filelist .= " (" . $qunk->{'revision'} . ")";
$filelist .= "\n";
}
undef( @AddedQunks );
}
if ( @ChangedQunks )
{
$filelist .= "\tChanged:\n";
foreach $qunk ( @ChangedQunks )
{
$filelist .= "\t\t" . $qunk->{'filename'};
$filelist .= " (" . $qunk->{'revision'} . ")";
$filelist .= ", \"" . $qunk->{'state'} . "\"";
$filelist .= ", lines: " . $qunk->{'lines'};
$filelist .= "\n";
}
undef( @ChangedQunks );
}
chomp( $filelist );
$msg =~ s/\n(.*)/\n\t$1/g;
unless ($After_Header eq " ") {
$msg =~ s/^(.*)/\t$1/g;
}
$body = $filelist . $After_Header . $msg;
}
else # do wrapping, either FSF-style or regular
{
if ($FSF_Style)
{
$files = wrap ("\t", " ", "$files");
my $files_last_line_len = 0;
if ($After_Header eq " ")
{
$files_last_line_len = &last_line_len ($files);
$files_last_line_len += 1; # for $After_Header
}
$msg = &wrap_log_entry
($msg, "\t", 69 - $files_last_line_len, 69);
$body = $files . $After_Header . $msg;
}
else # not FSF-style
{
$msg = &preprocess_msg_text ($msg);
$body = $files . $After_Header . $msg;
$body = wrap ("\t", " ", "$body");
}
}
$wholething = $header_line . $body;
if ($XML_Output) {
$wholething = "<entry>\n${wholething}</entry>\n";
}
# One last check: make sure it passes the regexp test, if the
# user asked for that. We have to do it here, so that the
# test can match against information in the header as well
# as in the text of the log message.
# How annoying to duplicate so much code just because I
# can't figure out a way to evaluate scalars on the trailing
# operator portion of a regular expression. Grrr.
if ($Case_Insensitive) {
unless ($Regexp_Gate && ($wholething !~ /$Regexp_Gate/oi)) {
print LOG_OUT "${wholething}\n";
}
}
else {
unless ($Regexp_Gate && ($wholething !~ /$Regexp_Gate/o)) {
print LOG_OUT "${wholething}\n";
}
}
}
}
}
if ($XML_Output) {
print LOG_OUT "</changelog>\n";
}
close (LOG_OUT);
if (! $Output_To_Stdout)
{
# If accumulating, append old data to new before renaming. But
# don't append the most recent entry, since it's already in the
# new log due to CVS's idiosyncratic interpretation of "log -d".
if ($Cumulative && -f $logfile_here)
{
open (NEW_LOG, ">>$tmpfile")
or die "trouble appending to $tmpfile ($!)";
open (OLD_LOG, "<$logfile_here")
or die "trouble reading from $logfile_here ($!)";
my $started_first_entry = 0;
my $passed_first_entry = 0;
while (<OLD_LOG>)
{
if (! $passed_first_entry)
{
if ((! $started_first_entry)
&& /^(\d\d\d\d-\d\d-\d\d\s+\d\d:\d\d)/) {
$started_first_entry = 1;
}
elsif (/^(\d\d\d\d-\d\d-\d\d\s+\d\d:\d\d)/) {
$passed_first_entry = 1;
print NEW_LOG $_;
}
}
else {
print NEW_LOG $_;
}
}
close (NEW_LOG);
close (OLD_LOG);
}
if (-f $logfile_here) {
rename ($logfile_here, $logfile_bak);
}
rename ($tmpfile, $logfile_here);
}
}
}
sub parse_date_author_and_state ()
{
# Parses the date/time and author out of a line like:
#
# date: 1999/02/19 23:29:05; author: apharris; state: Exp;
my $line = shift;
my ($year, $mon, $mday, $hours, $min, $secs, $author, $state, $rest) =
$line =~
m#(\d+)/(\d+)/(\d+)\s+(\d+):(\d+):(\d+);\s+author:\s+([^;]+);\s+state:\s+([^;]+);(.*)#
or die "Couldn't parse date ``$line''";
die "Bad date or Y2K issues" unless ($year > 1969 and $year < 2258);
# Kinda arbitrary, but useful as a sanity check
my $time = timegm($secs,$min,$hours,$mday,$mon-1,$year-1900);
my $lines;
if ( $rest =~ m#\s+lines:\s+(.*)# )
{
$lines =$1;
}
return ($time, $author, $state, $lines);
}
# Here we take a bunch of qunks and convert them into printed
# summary that will include all the information the user asked for.
sub pretty_file_list ()
{
if ($Hide_Filenames and (! $XML_Output)) {
return "";
}
my $qunksref = shift;
my @qunkrefs =
grep +((! exists $_->{'tags'} or
! grep exists $ignore_tags{$_}, @{$_->{'tags'}}) and
(! keys %show_tags or
(exists $_->{'tags'} and
grep exists $show_tags{$_}, @{$_->{'tags'}}))
),
@$qunksref;
my @filenames;
my $beauty = ""; # The accumulating header string for this entry.
my %non_unanimous_tags; # Tags found in a proper subset of qunks
my %unanimous_tags; # Tags found in all qunks
my %all_branches; # Branches found in any qunk
my $common_dir = undef; # Dir prefix common to all files ("" if none)
my $fbegun = 0; # Did we begin printing filenames yet?
# First, loop over the qunks gathering all the tag/branch names.
# We'll put them all in non_unanimous_tags, and take out the
# unanimous ones later.
TQUNKREF:
foreach my $qunkref (@qunkrefs)
{
# Keep track of whether all the files in this commit were in the
# same directory, and memorize it if so. We can make the output a
# little more compact by mentioning the directory only once.
if ($Common_Dir && (scalar (@qunkrefs)) > 1)
{
if (! (defined ($common_dir)))
{
my ($base, $dir);
($base, $dir, undef) = fileparse ($$qunkref{'filename'});
if ((! (defined ($dir))) # this first case is sheer paranoia
or ($dir eq "")
or ($dir eq "./")
or ($dir eq ".\\"))
{
$common_dir = "";
}
else
{
$common_dir = $dir;
}
}
elsif ($common_dir ne "")
{
# Already have a common dir prefix, so how much of it can we preserve?
$common_dir = &common_path_prefix ($$qunkref{'filename'}, $common_dir);
}
}
else # only one file in this entry anyway, so common dir not an issue
{
$common_dir = "";
}
if (defined ($$qunkref{'branch'})) {
$all_branches{$$qunkref{'branch'}} = 1;
}
if (defined ($$qunkref{'tags'})) {
foreach my $tag (@{$$qunkref{'tags'}}) {
$non_unanimous_tags{$tag} = 1;
}
}
}
# Any tag held by all qunks will be printed specially... but only if
# there are multiple qunks in the first place!
if ((scalar (@qunkrefs)) > 1) {
foreach my $tag (keys (%non_unanimous_tags)) {
my $everyone_has_this_tag = 1;
foreach my $qunkref (@qunkrefs) {
if ((! (defined ($$qunkref{'tags'})))
or (! (grep ($_ eq $tag, @{$$qunkref{'tags'}})))) {
$everyone_has_this_tag = 0;
}
}
if ($everyone_has_this_tag) {
$unanimous_tags{$tag} = 1;
delete $non_unanimous_tags{$tag};
}
}
}
if ($XML_Output)
{
# If outputting XML, then our task is pretty simple, because we
# don't have to detect common dir, common tags, branch prefixing,
# etc. We just output exactly what we have, and don't worry about
# redundancy or readability.
foreach my $qunkref (@qunkrefs)
{
my $filename = $$qunkref{'filename'};
my $cvsstate = $$qunkref{'cvsstate'};
my $revision = $$qunkref{'revision'};
my $tags = $$qunkref{'tags'};
my $branch = $$qunkref{'branch'};
my $branchroots = $$qunkref{'branchroots'};
$filename = &xml_escape ($filename); # probably paranoia
$revision = &xml_escape ($revision); # definitely paranoia
$beauty .= "<file>\n";
$beauty .= "<name>${filename}</name>\n";
$beauty .= "<cvsstate>${cvsstate}</cvsstate>\n";
$beauty .= "<revision>${revision}</revision>\n";
if ($branch) {
$branch = &xml_escape ($branch); # more paranoia
$beauty .= "<branch>${branch}</branch>\n";
}
foreach my $tag (@$tags) {
$tag = &xml_escape ($tag); # by now you're used to the paranoia
$beauty .= "<tag>${tag}</tag>\n";
}
foreach my $root (@$branchroots) {
$root = &xml_escape ($root); # which is good, because it will continue
$beauty .= "<branchroot>${root}</branchroot>\n";
}
$beauty .= "</file>\n";
}
# Theoretically, we could go home now. But as long as we're here,
# let's print out the common_dir and utags, as a convenience to
# the receiver (after all, earlier code calculated that stuff
# anyway, so we might as well take advantage of it).
if ((scalar (keys (%unanimous_tags))) > 1) {
foreach my $utag ((keys (%unanimous_tags))) {
$utag = &xml_escape ($utag); # the usual paranoia
$beauty .= "<utag>${utag}</utag>\n";
}
}
if ($common_dir) {
$common_dir = &xml_escape ($common_dir);
$beauty .= "<commondir>${common_dir}</commondir>\n";
}
# That's enough for XML, time to go home:
return $beauty;
}
# Else not XML output, so complexly compactify for chordate
# consumption. At this point we have enough global information
# about all the qunks to organize them non-redundantly for output.
if ($common_dir) {
# Note that $common_dir still has its trailing slash
$beauty .= "$common_dir: ";
}
if ($Show_Branches)
{
# For trailing revision numbers.
my @brevisions;
foreach my $branch (keys (%all_branches))
{
foreach my $qunkref (@qunkrefs)
{
if ((defined ($$qunkref{'branch'}))
and ($$qunkref{'branch'} eq $branch))
{
if ($fbegun) {
# kff todo: comma-delimited in XML too? Sure.
$beauty .= ", ";
}
else {
$fbegun = 1;
}
my $fname = substr ($$qunkref{'filename'}, length ($common_dir));
$beauty .= $fname;
$$qunkref{'printed'} = 1; # Just setting a mark bit, basically
if ($Show_Tags && (defined @{$$qunkref{'tags'}})) {
my @tags = grep ($non_unanimous_tags{$_}, @{$$qunkref{'tags'}});
if (@tags) {
$beauty .= " (tags: ";
$beauty .= join (', ', @tags);
$beauty .= ")";
}
}
if ($Show_Revisions) {
# Collect the revision numbers' last components, but don't
# print them -- they'll get printed with the branch name
# later.
$$qunkref{'revision'} =~ /.+\.([\d]+)$/;
push (@brevisions, $1);
# todo: we're still collecting branch roots, but we're not
# showing them anywhere. If we do show them, it would be
# nifty to just call them revision "0" on a the branch.
# Yeah, that's the ticket.
}
}
}
$beauty .= " ($branch";
if (@brevisions) {
if ((scalar (@brevisions)) > 1) {
$beauty .= ".[";
$beauty .= (join (',', @brevisions));
$beauty .= "]";
}
else {
# Square brackets are spurious here, since there's no range to
# encapsulate
$beauty .= ".$brevisions[0]";
}
}
$beauty .= ")";
}
}
# Okay; any qunks that were done according to branch are taken care
# of, and marked as printed. Now print everyone else.
my %fileinfo_printed;
foreach my $qunkref (@qunkrefs)
{
next if (defined ($$qunkref{'printed'})); # skip if already printed
my $b = substr ($$qunkref{'filename'}, length ($common_dir));
# todo: Shlomo's change was this:
# $beauty .= substr ($$qunkref{'filename'},
# (($common_dir eq "./") ? "" : length ($common_dir)));
$$qunkref{'printed'} = 1; # Set a mark bit.
if ($Show_Revisions || $Show_Tags || $Show_Dead)
{
my $started_addendum = 0;
if ($Show_Revisions) {
$started_addendum = 1;
$b .= " (";
$b .= "$$qunkref{'revision'}";
}
if ($Show_Dead && $$qunkref{'cvsstate'} =~ /dead/)
{
# Deliberately not using $started_addendum. Keeping it simple.
$b .= "[DEAD]";
}
if ($Show_Tags && (defined $$qunkref{'tags'})) {
my @tags = grep ($non_unanimous_tags{$_}, @{$$qunkref{'tags'}});
if ((scalar (@tags)) > 0) {
if ($started_addendum) {
$b .= ", ";
}
else {
$b .= " (tags: ";
}
$b .= join (', ', @tags);
$started_addendum = 1;
}
}
if ($started_addendum) {
$b .= ")";
}
}
unless ( exists $fileinfo_printed{$b} ) {
if ($fbegun) {
$beauty .= ", ";
} else {
$fbegun = 1;
}
$beauty .= $b, $fileinfo_printed{$b} = 1;
}
}
# Unanimous tags always come last.
if ($Show_Tags && %unanimous_tags)
{
$beauty .= " (utags: ";
$beauty .= join (', ', sort keys (%unanimous_tags));
$beauty .= ")";
}
# todo: still have to take care of branch_roots?
$beauty = "* $beauty:";
return $beauty;
}
sub min ($$) { $_[0] < $_[1] ? $_[0] : $_[1] }
sub common_path_prefix ($$)
{
my ($path1, $path2) = @_;
# For compatibility (with older versions of cvs2cl.pl), we think in UN*X
# terms, and mould windoze filenames to match. Is this really appropriate?
# If a file is checked in under UN*X, and cvs log run on windoze, which way
# do the path separators slope? Can we use fileparse as per the local
# conventions? If so, we should probably have a user option to specify an
# OS to emulate to handle stdin-fed logs. If we did this, we could avoid
# the nasty \-/ transmogrification below.
my ($dir1, $dir2) = map +(fileparse($_))[1], $path1, $path2;
# Transmogrify Windows filenames to look like Unix.
# (It is far more likely that someone is running cvs2cl.pl under
# Windows than that they would genuinely have backslashes in their
# filenames.)
tr!\\!/!
for $dir1, $dir2;
my ($accum1, $accum2, $last_common_prefix) = ('') x 3;
my @path1 = grep length($_), split qr!/!, $dir1;
my @path2 = grep length($_), split qr!/!, $dir2;
my @common_path;
for (0..min($#path1,$#path2)) {
if ( $path1[$_] eq $path2[$_]) {
push @common_path, $path1[$_];
} else {
last;
}
}
return join '', map "$_/", @common_path;
}
sub preprocess_msg_text ()
{
my $text = shift;
# Strip out carriage returns (as they probably result from DOSsy editors).
$text =~ s/\r\n/\n/g;
# If it *looks* like two newlines, make it *be* two newlines:
$text =~ s/\n\s*\n/\n\n/g;
if ($XML_Output)
{
$text = &xml_escape ($text);
$text = "<msg>${text}</msg>\n";
}
elsif (! $No_Wrap)
{
# Strip off lone newlines, but only for lines that don't begin with
# whitespace or a mail-quoting character, since we want to preserve
# that kind of formatting. Also don't strip newlines that follow a
# period; we handle those specially next. And don't strip
# newlines that precede an open paren.
1 while ($text =~ s/(^|\n)([^>\s].*[^.\n])\n([^>\n])/$1$2 $3/g);
# If a newline follows a period, make sure that when we bring up the
# bottom sentence, it begins with two spaces.
1 while ($text =~ s/(^|\n)([^>\s].*)\n([^>\n])/$1$2 $3/g);
}
return $text;
}
sub last_line_len ()
{
my $files_list = shift;
my @lines = split (/\n/, $files_list);
my $last_line = pop (@lines);
return length ($last_line);
}
# A custom wrap function, sensitive to some common constructs used in
# log entries.
sub wrap_log_entry ()
{
my $text = shift; # The text to wrap.
my $left_pad_str = shift; # String to pad with on the left.
# These do NOT take left_pad_str into account:
my $length_remaining = shift; # Amount left on current line.
my $max_line_length = shift; # Amount left for a blank line.
my $wrapped_text = ""; # The accumulating wrapped entry.
my $user_indent = ""; # Inherited user_indent from prev line.
my $first_time = 1; # First iteration of the loop?
my $suppress_line_start_match = 0; # Set to disable line start checks.
my @lines = split (/\n/, $text);
while (@lines) # Don't use `foreach' here, it won't work.
{
my $this_line = shift (@lines);
chomp $this_line;
if ($this_line =~ /^(\s+)/) {
$user_indent = $1;
}
else {
$user_indent = "";
}
# If it matches any of the line-start regexps, print a newline now...
if ($suppress_line_start_match)
{
$suppress_line_start_match = 0;
}
elsif (($this_line =~ /^(\s*)\*\s+[a-zA-Z0-9]/)
|| ($this_line =~ /^(\s*)\* [a-zA-Z0-9_\.\/\+-]+/)
|| ($this_line =~ /^(\s*)\([a-zA-Z0-9_\.\/\+-]+(\)|,\s*)/)
|| ($this_line =~ /^(\s+)(\S+)/)
|| ($this_line =~ /^(\s*)- +/)
|| ($this_line =~ /^()\s*$/)
|| ($this_line =~ /^(\s*)\*\) +/)
|| ($this_line =~ /^(\s*)[a-zA-Z0-9](\)|\.|\:) +/))
{
# Make a line break immediately, unless header separator is set
# and this line is the first line in the entry, in which case
# we're getting the blank line for free already and shouldn't
# add an extra one.
unless (($After_Header ne " ") and ($first_time))
{
if ($this_line =~ /^()\s*$/) {
$suppress_line_start_match = 1;
$wrapped_text .= "\n${left_pad_str}";
}
$wrapped_text .= "\n${left_pad_str}";
}
$length_remaining = $max_line_length - (length ($user_indent));
}
# Now that any user_indent has been preserved, strip off leading
# whitespace, so up-folding has no ugly side-effects.
$this_line =~ s/^\s*//;
# Accumulate the line, and adjust parameters for next line.
my $this_len = length ($this_line);
if ($this_len == 0)
{
# Blank lines should cancel any user_indent level.
$user_indent = "";
$length_remaining = $max_line_length;
}
elsif ($this_len >= $length_remaining) # Line too long, try breaking it.
{
# Walk backwards from the end. At first acceptable spot, break
# a new line.
my $idx = $length_remaining - 1;
if ($idx < 0) { $idx = 0 };
while ($idx > 0)
{
if (substr ($this_line, $idx, 1) =~ /\s/)
{
my $line_now = substr ($this_line, 0, $idx);
my $next_line = substr ($this_line, $idx);
$this_line = $line_now;
# Clean whitespace off the end.
chomp $this_line;
# The current line is ready to be printed.
$this_line .= "\n${left_pad_str}";
# Make sure the next line is allowed full room.
$length_remaining = $max_line_length - (length ($user_indent));
# Strip next_line, but then preserve any user_indent.
$next_line =~ s/^\s*//;
# Sneak a peek at the user_indent of the upcoming line, so
# $next_line (which will now precede it) can inherit that
# indent level. Otherwise, use whatever user_indent level
# we currently have, which might be none.
my $next_next_line = shift (@lines);
if ((defined ($next_next_line)) && ($next_next_line =~ /^(\s+)/)) {
$next_line = $1 . $next_line if (defined ($1));
# $length_remaining = $max_line_length - (length ($1));
$next_next_line =~ s/^\s*//;
}
else {
$next_line = $user_indent . $next_line;
}
if (defined ($next_next_line)) {
unshift (@lines, $next_next_line);
}
unshift (@lines, $next_line);
# Our new next line might, coincidentally, begin with one of
# the line-start regexps, so we temporarily turn off
# sensitivity to that until we're past the line.
$suppress_line_start_match = 1;
last;
}
else
{
$idx--;
}
}
if ($idx == 0)
{
# We bottomed out because the line is longer than the
# available space. But that could be because the space is
# small, or because the line is longer than even the maximum
# possible space. Handle both cases below.
if ($length_remaining == ($max_line_length - (length ($user_indent))))
{
# The line is simply too long -- there is no hope of ever
# breaking it nicely, so just insert it verbatim, with
# appropriate padding.
$this_line = "\n${left_pad_str}${this_line}";
}
else
{
# Can't break it here, but may be able to on the next round...
unshift (@lines, $this_line);
$length_remaining = $max_line_length - (length ($user_indent));
$this_line = "\n${left_pad_str}";
}
}
}
else # $this_len < $length_remaining, so tack on what we can.
{
# Leave a note for the next iteration.
$length_remaining = $length_remaining - $this_len;
if ($this_line =~ /\.$/)
{
$this_line .= " ";
$length_remaining -= 2;
}
else # not a sentence end
{
$this_line .= " ";
$length_remaining -= 1;
}
}
# Unconditionally indicate that loop has run at least once.
$first_time = 0;
$wrapped_text .= "${user_indent}${this_line}";
}
# One last bit of padding.
$wrapped_text .= "\n";
return $wrapped_text;
}
sub xml_escape ()
{
my $txt = shift;
$txt =~ s/&/&amp;/g;
$txt =~ s/</&lt;/g;
$txt =~ s/>/&gt;/g;
return $txt;
}
sub maybe_read_user_map_file ()
{
my %expansions;
if ($User_Map_File)
{
open (MAPFILE, "<$User_Map_File")
or die ("Unable to open $User_Map_File ($!)");
while (<MAPFILE>)
{
next if /^\s*#/; # Skip comment lines.
next if not /:/; # Skip lines without colons.
# It is now safe to split on ':'.
my ($username, $expansion) = split ':';
chomp $expansion;
$expansion =~ s/^'(.*)'$/$1/;
$expansion =~ s/^"(.*)"$/$1/;
# If it looks like the expansion has a real name already, then
# we toss the username we got from CVS log. Otherwise, keep
# it to use in combination with the email address.
if ($expansion =~ /^\s*<{0,1}\S+@.*/) {
# Also, add angle brackets if none present
if (! ($expansion =~ /<\S+@\S+>/)) {
$expansions{$username} = "$username <$expansion>";
}
else {
$expansions{$username} = "$username $expansion";
}
}
else {
$expansions{$username} = $expansion;
}
} # fi ($User_Map_File)
close (MAPFILE);
}
if (defined $User_Passwd_File)
{
if ( ! defined $Mail_Domain ) {
if ( -e MAILNAME ) {
chomp($Mail_Domain = slurp_file(MAILNAME));
} else {
MAILDOMAIN_CMD:
for ([qw(hostname -d)], 'dnsdomainname', 'domainname') {
my ($text, $exit, $sig, $core) = run_ext($_);
if ( $exit == 0 && $sig == 0 && $core == 0 ) {
chomp $text;
if ( length $text ) {
$Mail_Domain = $text;
last MAILDOMAIN_CMD;
}
}
}
}
}
die "No mail domain found\n"
unless defined $Mail_Domain;
open (MAPFILE, "<$User_Passwd_File")
or die ("Unable to open $User_Passwd_File ($!)");
while (<MAPFILE>)
{
# all lines are valid
my ($username, $pw, $uid, $gid, $gecos, $homedir, $shell) = split ':';
my $expansion = '';
($expansion) = split (',', $gecos)
if defined $gecos && length $gecos;
$expansions{$username} = "$expansion <$username\@$Mail_Domain>";
}
close (MAPFILE);
}
return %expansions;
}
sub parse_options ()
{
# Check this internally before setting the global variable.
my $output_file;
# If this gets set, we encountered unknown options and will exit at
# the end of this subroutine.
my $exit_with_admonishment = 0;
while (my $arg = shift (@ARGV))
{
if ($arg =~ /^-h$|^-help$|^--help$|^--usage$|^-?$/) {
$Print_Usage = 1;
}
elsif ($arg =~ /^--delta$/) {
my $narg = shift(@ARGV) || die "$arg needs argument.\n";
if ($narg =~ /^([A-Za-z][A-Za-z0-9_\-]*):([A-Za-z][A-Za-z0-9_\-]*)$/) {
$Delta_From = $1;
$Delta_To = $2;
$Delta_Mode = 1;
} else {
die "--delta FROM_TAG:TO_TAG is what you meant to say.\n";
}
}
elsif ($arg =~ /^--debug$/) { # unadvertised option, heh
$Debug = 1;
}
elsif ($arg =~ /^--version$/) {
$Print_Version = 1;
}
elsif ($arg =~ /^-g$|^--global-opts$/) {
my $narg = shift (@ARGV) || die "$arg needs argument.\n";
# Don't assume CVS is called "cvs" on the user's system:
$Log_Source_Command =~ s/(^\S*)/$1 $narg/;
}
elsif ($arg =~ /^-l$|^--log-opts$/) {
my $narg = shift (@ARGV) || die "$arg needs argument.\n";
$Log_Source_Command .= " $narg";
}
elsif ($arg =~ /^-f$|^--file$/) {
my $narg = shift (@ARGV) || die "$arg needs argument.\n";
$output_file = $narg;
}
elsif ($arg =~ /^--accum$/) {
$Cumulative = 1;
}
elsif ($arg =~ /^--update$/) {
$Update = 1;
}
elsif ($arg =~ /^--fsf$/) {
$FSF_Style = 1;
}
elsif ($arg =~ /^--FSF$/) {
$Show_Times = 0;
$Common_Dir = 0;
}
elsif ($arg =~ /^--rcs/) {
my $narg = shift (@ARGV) || die "$arg needs argument.\n";
$RCS_Root = $narg;
$RCS_Mode = 1;
}
elsif ($arg =~ /^-U$|^--usermap$/) {
my $narg = shift (@ARGV) || die "$arg needs argument.\n";
$User_Map_File = $narg;
}
elsif ($arg =~ /^--gecos$/) {
$Gecos = 1;
}
elsif ($arg =~ /^--domain$/) {
my $narg = shift (@ARGV) || die "$arg needs argument.\n";
$Domain = $narg;
}
elsif ($arg =~ /^--passwd$/) {
my $narg = shift (@ARGV) || die "$arg needs argument.\n";
$User_Passwd_File = $narg;
}
elsif ($arg =~ /^--mailname$/) {
my $narg = shift (@ARGV) || die "$arg needs argument.\n";
$Mail_Domain = $narg;
}
elsif ($arg =~ /^-W$|^--window$/) {
defined(my $narg = shift (@ARGV)) || die "$arg needs argument.\n";
$Max_Checkin_Duration = $narg;
}
elsif ($arg =~ /^--chrono$/) {
$Chronological_Order = 1;
}
elsif ($arg =~ /^-I$|^--ignore$/) {
my $narg = shift (@ARGV) || die "$arg needs argument.\n";
push (@Ignore_Files, $narg);
}
elsif ($arg =~ /^-C$|^--case-insensitive$/) {
$Case_Insensitive = 1;
}
elsif ($arg =~ /^-R$|^--regexp$/) {
my $narg = shift (@ARGV) || die "$arg needs argument.\n";
$Regexp_Gate = $narg;
}
elsif ($arg =~ /^--stdout$/) {
$Output_To_Stdout = 1;
}
elsif ($arg =~ /^--version$/) {
$Print_Version = 1;
}
elsif ($arg =~ /^-d$|^--distributed$/) {
$Distributed = 1;
}
elsif ($arg =~ /^-P$|^--prune$/) {
$Prune_Empty_Msgs = 1;
}
elsif ($arg =~ /^-S$|^--separate-header$/) {
$After_Header = "\n\n";
}
elsif ($arg =~ /^--no-wrap$/) {
$No_Wrap = 1;
}
elsif ($arg =~ /^--summary$/) {
$Summary = 1;
$After_Header = "\n\n"; # Summary implies --separate-header
}
elsif ($arg =~ /^--gmt$|^--utc$/) {
$UTC_Times = 1;
}
elsif ($arg =~ /^-w$|^--day-of-week$/) {
$Show_Day_Of_Week = 1;
}
elsif ($arg =~ /^--no-times$/) {
$Show_Times = 0;
}
elsif ($arg =~ /^-r$|^--revisions$/) {
$Show_Revisions = 1;
}
elsif ($arg =~ /^--show-dead$/) {
$Show_Dead = 1;
}
elsif ($arg =~ /^-t$|^--tags$/) {
$Show_Tags = 1;
}
elsif ($arg =~ /^-T$|^--tagdates$/) {
$Show_Tag_Dates = 1;
}
elsif ($arg =~ /^-b$|^--branches$/) {
$Show_Branches = 1;
}
elsif ($arg =~ /^-F$|^--follow$/) {
my $narg = shift (@ARGV) || die "$arg needs argument.\n";
push (@Follow_Branches, $narg);
}
elsif ($arg =~ /^--stdin$/) {
$Input_From_Stdin = 1;
}
elsif ($arg =~ /^--header$/) {
my $narg = shift (@ARGV) || die "$arg needs argument.\n";
$ChangeLog_Header = &slurp_file ($narg);
if (! defined ($ChangeLog_Header)) {
$ChangeLog_Header = "";
}
}
elsif ($arg =~ /^--xml-encoding$/) {
my $narg = shift (@ARGV) || die "$arg needs argument.\n";
$XML_Encoding = $narg ;
}
elsif ($arg =~ /^--xml$/) {
$XML_Output = 1;
}
elsif ($arg =~ /^--hide-filenames$/) {
$Hide_Filenames = 1;
$After_Header = "";
}
elsif ($arg =~ /^--no-common-dir$/) {
$Common_Dir = 0;
}
elsif ($arg =~ /^--ignore-tag$/ ) {
die "$arg needs argument.\n"
unless @ARGV;
$ignore_tags{shift @ARGV} = 1;
}
elsif ($arg =~ /^--show-tag$/ ) {
die "$arg needs argument.\n"
unless @ARGV;
$show_tags{shift @ARGV} = 1;
}
elsif ( lc ($arg) eq '--test-code' ) {
# Deliberately undocumented. This is not a public interface,
# and may change/disappear at any time.
die "$arg needs argument.\n"
unless @ARGV;
$TestCode = shift @ARGV;
}
elsif ($arg =~ /^--no-ancestors$/) {
$No_Ancestors = 1;
}
else {
# Just add a filename as argument to the log command
$Log_Source_Command .= " '$arg'";
}
}
## Check for contradictions...
if ($Output_To_Stdout && $Distributed) {
print STDERR "cannot pass both --stdout and --distributed\n";
$exit_with_admonishment = 1;
}
if ($Output_To_Stdout && $output_file) {
print STDERR "cannot pass both --stdout and --file\n";
$exit_with_admonishment = 1;
}
if ($XML_Output && $Cumulative) {
print STDERR "cannot pass both --xml and --accum\n";
$exit_with_admonishment = 1;
}
# Or if any other error message has already been printed out, we
# just leave now:
if ($exit_with_admonishment) {
&usage ();
exit (1);
}
elsif ($Print_Usage) {
&usage ();
exit (0);
}
elsif ($Print_Version) {
&version ();
exit (0);
}
## Else no problems, so proceed.
if ($output_file) {
$Log_File_Name = $output_file;
}
}
sub slurp_file ()
{
my $filename = shift || die ("no filename passed to slurp_file()");
my $retstr;
open (SLURPEE, "<${filename}") or die ("unable to open $filename ($!)");
my $saved_sep = $/;
undef $/;
$retstr = <SLURPEE>;
$/ = $saved_sep;
close (SLURPEE);
return $retstr;
}
sub debug ()
{
if ($Debug) {
my $msg = shift;
print STDERR $msg;
}
}
sub version ()
{
print "cvs2cl.pl version ${VERSION}; distributed under the GNU GPL.\n";
}
sub usage ()
{
&version ();
print <<'END_OF_INFO';
Generate GNU-style ChangeLogs in CVS working copies.
Notes about the output format(s):
The default output of cvs2cl.pl is designed to be compact, formally
unambiguous, but still easy for humans to read. It is largely
self-explanatory, I hope; the one abbreviation that might not be
obvious is "utags". That stands for "universal tags" -- a
universal tag is one held by all the files in a given change entry.
If you need output that's easy for a program to parse, use the
--xml option. Note that with XML output, just about all available
information is included with each change entry, whether you asked
for it or not, on the theory that your parser can ignore anything
it's not looking for.
Notes about the options and arguments (the actual options are listed
last in this usage message):
* The -I and -F options may appear multiple times.
* To follow trunk revisions, use "-F trunk" ("-F TRUNK" also works).
This is okay because no would ever, ever be crazy enough to name a
branch "trunk", right? Right.
* For the -U option, the UFILE should be formatted like
CVSROOT/users. That is, each line of UFILE looks like this
jrandom:jrandom@red-bean.com
or maybe even like this
jrandom:'Jesse Q. Random <jrandom@red-bean.com>'
Don't forget to quote the portion after the colon if necessary.
* Many people want to filter by date. To do so, invoke cvs2cl.pl
like this:
cvs2cl.pl -l "-d'DATESPEC'"
where DATESPEC is any date specification valid for "cvs log -d".
(Note that CVS 1.10.7 and below requires there be no space between
-d and its argument).
Options/Arguments:
-h, -help, --help, or -? Show this usage and exit
--version Show version and exit
-r, --revisions Show revision numbers in output
-b, --branches Show branch names in revisions when possible
-t, --tags Show tags (symbolic names) in output
-T, --tagdates Show tags in output on their first occurance
--show-dead Show dead files
--stdin Read from stdin, don't run cvs log
--stdout Output to stdout not to ChangeLog
-d, --distributed Put ChangeLogs in subdirs
-f FILE, --file FILE Write to FILE instead of "ChangeLog"
--fsf Use this if log data is in FSF ChangeLog style
--FSF Attempt strict FSF-standard compatible output
-W SECS, --window SECS Window of time within which log entries unify
-U UFILE, --usermap UFILE Expand usernames to email addresses from UFILE
--passwd PASSWORDFILE Use system passwd file for user name expansion
--mailname MAILDOMAIN Mail domainname to attach to user names for
email addresses. Only used with --passwd.
Defaults to contents, of /etc/mailname else
output of hostname -d / dnsdomainname /
domainname
--domain DOMAIN Domain to build email addresses from
--gecos Get user information from GECOS data
-R REGEXP, --regexp REGEXP Include only entries that match REGEXP
-I REGEXP, --ignore REGEXP Ignore files whose names match REGEXP
-C, --case-insensitive Any regexp matching is done case-insensitively
-F BRANCH, --follow BRANCH Show only revisions on or ancestral to BRANCH
--no-ancestors When using -F, only track changes since the
BRANCH started
-S, --separate-header Blank line between each header and log message
--summary Add CVS change summary information
--no-wrap Don't auto-wrap log message (recommend -S also)
--gmt, --utc Show times in GMT/UTC instead of local time
--accum Add to an existing ChangeLog (incompat w/ --xml)
--update As --accum, but lists only files changed since
last run
-w, --day-of-week Show day of week
--no-times Don't show times in output
--header FILE Get ChangeLog header from FILE ("-" means stdin)
--xml Output XML instead of ChangeLog format
--xml-encoding ENCODING Insert encoding clause in XML header
--hide-filenames Don't show filenames (ignored for XML output)
--no-common-dir Don't shorten directory names from filenames.
--rcs CVSROOT Handle filenames from raw RCS, for instance
those produced by "cvs rlog" output, stripping
the prefix CVSROOT.
-P, --prune Don't show empty log messages
--ignore-tag TAG Ignore individual changes that are associated
with a given tag. May be repeated, if so,
changes that are associated with any of the
given tags are ignored.
--show-tag TAG Log only individual changes that are associated
with a given tag. May be repeated, if so,
changes that are associated with any of the
given tags are logged.
--delta FROM_TAG:TO_TAG Attempt a delta between two tags (since FROM_TAG
up to & including TO_TAG). The algorithm is a
simple date-based one (this is a *hard* problem)
so results are imperfect
-g OPTS, --global-opts OPTS Invoke like this "cvs OPTS log ..."
-l OPTS, --log-opts OPTS Invoke like this "cvs ... log OPTS"
FILE1 [FILE2 ...] Show only log information for the named FILE(s)
See http://www.red-bean.com/cvs2cl for maintenance and bug info.
END_OF_INFO
}
__END__
=head1 NAME
cvs2cl.pl - produces GNU-style ChangeLogs in CVS working copies, by
running "cvs log" and parsing the output. Shared log entries are
unified in an intuitive way.
=head1 DESCRIPTION
This script generates GNU-style ChangeLog files from CVS log
information. Basic usage: just run it inside a working copy and a
ChangeLog will appear. It requires repository access (i.e., 'cvs log'
must work). Run "cvs2cl.pl --help" to see more advanced options.
See http://www.red-bean.com/cvs2cl for updates, and for instructions
on getting anonymous CVS access to this script.
Maintainer: Karl Fogel <kfogel@red-bean.com>
Please report bugs to <bug-cvs2cl@red-bean.com>.
=head1 README
This script generates GNU-style ChangeLog files from CVS log
information. Basic usage: just run it inside a working copy and a
ChangeLog will appear. It requires repository access (i.e., 'cvs log'
must work). Run "cvs2cl.pl --help" to see more advanced options.
See http://www.red-bean.com/cvs2cl for updates, and for instructions
on getting anonymous CVS access to this script.
Maintainer: Karl Fogel <kfogel@red-bean.com>
Please report bugs to <bug-cvs2cl@red-bean.com>.
13 years ago
=head1 PREREQUISITES
This script requires C<Text::Wrap>, C<Time::Local>, and
C<File::Basename>.
It also seems to require C<Perl 5.004_04> or higher.
=pod OSNAMES
any
=pod SCRIPT CATEGORIES
Version_Control/CVS
=cut
-*- -*- -*- -*- -*- -*- -*- -*- -*- -*- -*- -*- -*- -*- -*- -*- -*- -*-
Note about a bug-slash-opportunity:
-----------------------------------
There's a bug in Text::Wrap, which affects cvs2cl. This script
reveals it:
#!/usr/bin/perl -w
use Text::Wrap;
my $test_text =
"This script demonstrates a bug in Text::Wrap. The very long line
following this paragraph will be relocated relative to the surrounding
text:
====================================================================
See? When the bug happens, we'll get the line of equal signs below
this paragraph, even though it should be above.";
# Print out the test text with no wrapping:
print "$test_text";
print "\n";
print "\n";
# Now print it out wrapped, and see the bug:
print wrap ("\t", " ", "$test_text");
print "\n";
print "\n";
If the line of equal signs were one shorter, then the bug doesn't
happen. Interesting.
Anyway, rather than fix this in Text::Wrap, we might as well write a
new wrap() which has the following much-needed features:
* initial indentation, like current Text::Wrap()
* subsequent line indentation, like current Text::Wrap()
* user chooses among: force-break long words, leave them alone, or die()?
* preserve existing indentation: chopped chunks from an indented line
are indented by same (like this line, not counting the asterisk!)
* optional list of things to preserve on line starts, default ">"
Note that the last two are essentially the same concept, so unify in
implementation and give a good interface to controlling them.
And how about:
Optionally, when encounter a line pre-indented by same as previous
line, then strip the newline and refill, but indent by the same.
Yeah...