#!/usr/bin/perl
# $Id: //depot/main/p4-contrib/misc/p4pr.perl#2$
# Interpolate change information into a source listing of a p4 file.
# Takes a file name or depot filename, with #<ref> or @<change>.
# Contributed by Bob Sidebotham.
# Simplify program name, if it is a path.
$0 =~ s#.*/##;
###
### Small change:
###
my $P4="/usr/local/bin/p4" ;
# Execute a command, keeping the output of the command in an array.
# Returns the array, unless an error occured, in which case the an
# exception is thrown (via die) with an appropriate message.
sub command {
my($command) = @_;
my(@results) = `$command`;
if ($?) {
my($err) = ($? >> 8);
print STDERR @results;
die qq($0: "$command" exited with status $err.\n);
}
@results
}
# Fatal usage error
sub usage {
my($err) = @_;
die
"$0: $err\n" .
"usage: $0 <file> | <file>#<rev> | <file>\@<change>\n" .
" <file> may be a client file name or depot file name.\n";
}
# Default options
$showauthor = 1;
$showchange = 1;
$showrev = 1;
#print STDERR "PATH: $ENV{PATH}\n" ;
# Undocumented options
if (@ARGV && $ARGV[0] =~ /^-/) {
$showchange = 0;
}
# Parse options
while (@ARGV && $ARGV[0] =~ /^-/) {
$opt = shift;
if ($opt eq '-r') {
$showrev = 1; # Show revision numbers instead of changes.
} elsif ($opt eq '-c') {
$showchange = 1;
} else {
usage("invalid option $opt");
}
}
# Get file argument.
usage("file name expected") if !@ARGV;
usage("invalid argument") if @ARGV > 1;
$file = shift;
# Handle # and @ notation (only for numeric changes and revisions).
$change = $1 if $file =~ s/@(\d+)//;
$head = $1 if $file =~ s/#(\d+)//;
# Check that the file specification maps to exactly one file.
@list = command qq($P4 files $file);
if (@list > 1) {
die("$0: the specified file pattern maps to more than one file.\n");
}
# Check that the revision is not deleted.
if ($list[0] =~ /(.*#\d+) - delete change/) {
die("$0: revision $1 is deleted.\n")
}
# Get the fullname of the file and the history, all from
# the filelog for the file.
($fullname, @history) = command qq($P4 filelog $file);
chop($fullname);
$fullname =~ s/#.*//;
@fullname = split(m#/#, $fullname);
# Extract the revision to change number mapping. Also
# get the author of each revision, and for merged
# or copied revisions, the "branch name", which we
# use instead of an author.
for (@history) {
if (/^\.\.\. #(\d+) change (\d+)\s+(\w+) .*? by (.*?)@/) {
# If a change number or revision is specified, then ignore
# later revisions.
last if $3 eq "delete" ; # Small bug fix by Fredric Fredricson
next if $change && $change < $2;
next if $head && $head < $1;
$change{$1} = $2;
$author{$1} = $4;
$head = $1 if !$head;
$thisrev = $1;
$headseen = 1;
} else {
# If we see a branch from, then we know that
# previous revisions did not contribute to the current
# revision. Don't do this, however, if we haven't seen
# the revision we've been requested to print, yet.
# We used to do this for copy from, but I think
# it's better not to.
next unless $headseen;
if (/^\.\.\. \.\.\. (copy|branch|merge) from (\/\/.*)#/) {
# If merged or copied from another part of the
# tree, then we use the first component of the
# name that is different, and call that the "branch"
# Further, we make the "author" be the name of the
# branch.
my($type) = $1;
my(@from) = split(m#/#, $2);
for ($i = 0; $i < @from; $i++) {
if ($from[$i] ne $fullname[$i]) {
$author{$thisrev} = $from[$i] if $from[$i];
last;
}
}
# If branched, we don't bother getting any more
# history. We treat this as starting with the branch.
last if $type eq 'branch';
}
}
}
# Get first revision, and list of remaining revisions
($base, @revs) = sort {$a <=> $b} keys %change;
# Get the contents of the base revision of the file,
# purely for the purposes of counting the lines.
@text = command qq($P4 print -q $file#$base);
# For each line in the file, set the change revision
# to be the base revision.
@lines = ($base) x @text;
# For each revision from the base to the selected revision
# "apply" the diffs by manipulating the array of revision
# numbers. If lines are added, we add a corresponding
# set of entries with the revision number that added it.
# We ignore the actual revision text--that will be merged
# with the change information later.
for $rev (@revs) {
my($r1) = $rev - 1;
# Apply the diffs in reverse order to maintain correctness
# of line numbers for each range as we apply it.
for (reverse command qq($P4 diff2 $file\#$r1 $file\#$rev)) {
my( $la, $lb, $op, $ra, $rb ) = /(\d+),?(\d*)([acd])(\d+),?(\d*)/;
next unless defined($ra);
$lb = $la if ! $lb;
++$la if $op eq 'a';
$rb = $ra if ! $rb;
++$ra if $op eq 'd';
splice @lines, $la - 1, $lb - $la + 1, ($rev) x ($rb - $ra + 1);
}
}
# Get the text of the selected revision. The number of lines
# resulting from applying the diffs should equal the number of
# of lines in this revision.
($header, @text) = command qq($P4 print $file#$head);
if (@text != @lines) {
die("$0: internal error applying diffs - please contact the author\n")
}
# Print a pretty header. Note that the interpolated information
# at the beginning of the line is a multiple of 8 bytes (currently 24)
# so that the default tabbing of 8 characters works correctly.
my($fmt) = "%5s %15s %6s %4s %s";
@fields = ("line", "author/branch", "change", "rev", $header);
printf($fmt, @fields);
printf("$fmt\n", map('-' x length($_), @fields));
# Interpolate the change author and number into the text.
my($line) = 1;
while (@text) {
my($rev) = shift(@lines);
printf($fmt, $line++, $author{$rev}, $change{$rev}, $rev, shift @text);
}