llvm-6502/tools/llvm-config/find-cycles.pl
Reid Spencer f2722ca339 These changes are necessary to support the new llvm-config tool. llvm-config
is a handy tool for users of LLVM who want to be able to quickly get
information about LLVM's configuration. It is intended to be used in the
command line of other tools. Documentation will be forthcoming in a
subsequent patch.


git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@26952 91177308-0d34-0410-b5e6-96231b3b80d8
2006-03-22 15:59:55 +00:00

163 lines
4.7 KiB
Perl
Executable File

#!/usr/bin/perl
#
# Program: find-cycles.pl
#
# Synopsis: Given a list of possibly cyclic dependencies, merge all the
# cycles. This makes it possible to topologically sort the
# dependencies between different parts of LLVM.
#
# Syntax: find-cycles.pl < LibDeps.txt > FinalLibDeps.txt
#
# Input: cycmem1: cycmem2 dep1 dep2
# cycmem2: cycmem1 dep3 dep4
# boring: dep4
#
# Output: cycmem1 cycmem2: dep1 dep2 dep3 dep4
# boring: dep4
#
# This file was written by Eric Kidd, and is placed into the public domain.
#
use strict;
use warnings;
my %DEPS;
my @CYCLES;
sub find_all_cycles;
# Read our dependency information.
while (<>) {
chomp;
my ($module, $dependency_str) = /^([^:]*): ?(.*)$/;
die "Malformed data: $_" unless defined $dependency_str;
my @dependencies = split(/ /, $dependency_str);
$DEPS{$module} = \@dependencies;
}
# Partition our raw dependencies into sets of cyclically-connected nodes.
find_all_cycles();
# Print out the finished cycles, with their dependencies.
my @output;
foreach my $cycle (@CYCLES) {
my @modules = sort keys %{$cycle};
# Merge the dependencies of all modules in this cycle.
my %dependencies;
foreach my $module (@modules) {
@dependencies{@{$DEPS{$module}}} = 1;
}
# Prune the known cyclic dependencies.
foreach my $module (@modules) {
delete $dependencies{$module};
}
# Warn about possible linker problems.
my @archives = grep(/\.a$/, @modules);
if (@archives > 1) {
print STDERR "find-cycles.pl: Circular dependency between *.a files:\n";
print STDERR "find-cycles.pl: ", join(' ', @archives), "\n";
print STDERR "find-cycles.pl: Some linkers may have problems.\n";
push @modules, @archives; # WORKAROUND: Duplicate *.a files. Ick.
}
# Add to our output. (@modules is already as sorted as we need it to be.)
push @output, (join(' ', @modules) . ': ' .
join(' ', sort keys %dependencies) . "\n");
}
print sort @output;
#==========================================================================
# Depedency Cycle Support
#==========================================================================
# For now, we have cycles in our dependency graph. Ideally, each cycle
# would be collapsed down to a single *.a file, saving us all this work.
#
# To understand this code, you'll need a working knowledge of Perl 5,
# and possibly some quality time with 'man perlref'.
my %SEEN;
my %CYCLES;
sub find_cycles ($@);
sub found_cycles ($@);
sub find_all_cycles {
# Find all multi-item cycles.
my @modules = sort keys %DEPS;
foreach my $module (@modules) { find_cycles($module); }
# Build fake one-item "cycles" for the remaining modules, so we can
# treat them uniformly.
foreach my $module (@modules) {
unless (defined $CYCLES{$module}) {
my %cycle = ($module, 1);
$CYCLES{$module} = \%cycle;
}
}
# Find all our unique cycles. We have to do this the hard way because
# we apparently can't store hash references as hash keys without making
# 'strict refs' sad.
my %seen;
foreach my $cycle (values %CYCLES) {
unless ($seen{$cycle}) {
$seen{$cycle} = 1;
push @CYCLES, $cycle;
}
}
}
# Walk through our graph depth-first (keeping a trail in @path), and report
# any cycles we find.
sub find_cycles ($@) {
my ($module, @path) = @_;
if (str_in_list($module, @path)) {
found_cycle($module, @path);
} else {
return if defined $SEEN{$module};
$SEEN{$module} = 1;
foreach my $dep (@{$DEPS{$module}}) {
find_cycles($dep, @path, $module);
}
}
}
# Give a cycle, attempt to merge it with pre-existing cycle data.
sub found_cycle ($@) {
my ($module, @path) = @_;
# Pop any modules which aren't part of our cycle.
while ($path[0] ne $module) { shift @path; }
#print join("->", @path, $module) . "\n";
# Collect the modules in our cycle into a hash.
my %cycle;
foreach my $item (@path) {
$cycle{$item} = 1;
if (defined $CYCLES{$item}) {
# Looks like we intersect with an existing cycle, so merge
# all those in, too.
foreach my $old_item (keys %{$CYCLES{$item}}) {
$cycle{$old_item} = 1;
}
}
}
# Update our global cycle table.
my $cycle_ref = \%cycle;
foreach my $item (keys %cycle) {
$CYCLES{$item} = $cycle_ref;
}
#print join(":", sort keys %cycle) . "\n";
}
sub str_in_list ($@) {
my ($str, @list) = @_;
foreach my $item (@list) {
return 1 if ($item eq $str);
}
return 0;
}