/usr/share/automake-1.11/Automake/DisjConditions.pm is in automake 1:1.11.3-1ubuntu2.
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# This program 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.
# This program 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 should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
package Automake::DisjConditions;
use Carp;
use strict;
use Automake::Condition qw/TRUE FALSE/;
=head1 NAME
Automake::DisjConditions - record a disjunction of Conditions
=head1 SYNOPSIS
use Automake::Condition;
use Automake::DisjConditions;
# Create a Condition to represent "COND1 and not COND2".
my $cond = new Automake::Condition "COND1_TRUE", "COND2_FALSE";
# Create a Condition to represent "not COND3".
my $other = new Automake::Condition "COND3_FALSE";
# Create a DisjConditions to represent
# "(COND1 and not COND2) or (not COND3)"
my $set = new Automake::DisjConditions $cond, $other;
# Return the list of Conditions involved in $set.
my @conds = $set->conds;
# Return one of the Condition involved in $set.
my $cond = $set->one_cond;
# Return true iff $set is always true (i.e. its subconditions
# cover all cases).
if ($set->true) { ... }
# Return false iff $set is always false (i.e. is empty, or contains
# only false conditions).
if ($set->false) { ... }
# Return a string representing the DisjConditions.
# "COND1_TRUE COND2_FALSE | COND3_FALSE"
my $str = $set->string;
# Return a human readable string representing the DisjConditions.
# "(COND1 and !COND2) or (!COND3)"
my $str = $set->human;
# Merge (OR) several DisjConditions.
my $all = $set->merge($set2, $set3, ...)
# Invert a DisjConditions, i.e., create a new DisjConditions
# that complements $set.
my $inv = $set->invert;
# Multiply two DisjConditions.
my $prod = $set1->multiply ($set2);
# Return the subconditions of a DisjConditions with respect to
# a Condition. See the description for a real example.
my $subconds = $set->sub_conditions ($cond);
# Check whether a new definition in condition $cond would be
# ambiguous w.r.t. existing definitions in $set.
($msg, $ambig_cond) = $set->ambiguous_p ($what, $cond);
=head1 DESCRIPTION
A C<DisjConditions> is a disjunction of C<Condition>s. In Automake
they are used to represent the conditions into which Makefile
variables and Makefile rules are defined.
If the variable C<VAR> is defined as
if COND1
if COND2
VAR = value1
endif
endif
if !COND3
if COND4
VAR = value2
endif
endif
then it will be associated a C<DisjConditions> created with
the following statement.
new Automake::DisjConditions
(new Automake::Condition ("COND1_TRUE", "COND2_TRUE"),
new Automake::Condition ("COND3_FALSE", "COND4_TRUE"));
As you can see, a C<DisjConditions> is made from a list of
C<Condition>s. Since C<DisjConditions> is a disjunction, and
C<Condition> is a conjunction, the above can be read as
follows.
(COND1 and COND2) or ((not COND3) and COND4)
That's indeed the condition in which C<VAR> has a value.
Like C<Condition> objects, a C<DisjConditions> object is unique
with respect to its conditions. Two C<DisjConditions> objects created
for the same set of conditions will have the same address. This makes
it easy to compare C<DisjConditions>s: just compare the references.
=head2 Methods
=over 4
=item C<$set = new Automake::DisjConditions [@conds]>
Create a C<DisjConditions> object from the list of C<Condition>
objects passed in arguments.
If the C<@conds> list is empty, the C<DisjConditions> is assumed to be
false.
As explained previously, the reference (object) returned is unique
with respect to C<@conds>. For this purpose, duplicate elements are
ignored.
=cut
# Keys in this hash are DisjConditions strings. Values are the
# associated object DisjConditions. This is used by `new' to reuse
# DisjConditions objects with identical conditions.
use vars '%_disjcondition_singletons';
sub new ($;@)
{
my ($class, @conds) = @_;
my @filtered_conds = ();
for my $cond (@conds)
{
confess "`$cond' isn't a reference" unless ref $cond;
confess "`$cond' isn't an Automake::Condition"
unless $cond->isa ("Automake::Condition");
# This is a disjunction of conditions, so we drop
# false conditions. We'll always treat an "empty"
# DisjConditions as false for this reason.
next if $cond->false;
push @filtered_conds, $cond;
}
my $string;
if (@filtered_conds)
{
@filtered_conds = sort { $a->string cmp $b->string } @filtered_conds;
$string = join (' | ', map { $_->string } @filtered_conds);
}
else
{
$string = 'FALSE';
}
# Return any existing identical DisjConditions.
my $me = $_disjcondition_singletons{$string};
return $me if $me;
# Else, create a new DisjConditions.
# Store conditions as keys AND as values, because blessed
# objects are converted to strings when used as keys (so
# at least we still have the value when we need to call
# a method).
my %h = map {$_ => $_} @filtered_conds;
my $self = {
hash => \%h,
string => $string,
conds => \@filtered_conds,
};
bless $self, $class;
$_disjcondition_singletons{$string} = $self;
return $self;
}
=item C<CLONE>
Internal special subroutine to fix up the self hashes in
C<%_disjcondition_singletons> upon thread creation. C<CLONE> is invoked
automatically with ithreads from Perl 5.7.2 or later, so if you use this
module with earlier versions of Perl, it is not thread-safe.
=cut
sub CLONE
{
foreach my $self (values %_disjcondition_singletons)
{
my %h = map { $_ => $_ } @{$self->{'conds'}};
$self->{'hash'} = \%h;
}
}
=item C<@conds = $set-E<gt>conds>
Return the list of C<Condition> objects involved in C<$set>.
=cut
sub conds ($ )
{
my ($self) = @_;
return @{$self->{'conds'}};
}
=item C<$cond = $set-E<gt>one_cond>
Return one C<Condition> object involved in C<$set>.
=cut
sub one_cond ($)
{
my ($self) = @_;
return (%{$self->{'hash'}},)[1];
}
=item C<$et = $set-E<gt>false>
Return 1 iff the C<DisjConditions> object is always false (i.e., if it
is empty, or if it contains only false C<Condition>s). Return 0
otherwise.
=cut
sub false ($ )
{
my ($self) = @_;
return 0 == keys %{$self->{'hash'}};
}
=item C<$et = $set-E<gt>true>
Return 1 iff the C<DisjConditions> object is always true (i.e. covers all
conditions). Return 0 otherwise.
=cut
sub true ($ )
{
my ($self) = @_;
return $self->invert->false;
}
=item C<$str = $set-E<gt>string>
Build a string which denotes the C<DisjConditions>.
=cut
sub string ($ )
{
my ($self) = @_;
return $self->{'string'};
}
=item C<$cond-E<gt>human>
Build a human readable string which denotes the C<DisjConditions>.
=cut
sub human ($ )
{
my ($self) = @_;
return $self->{'human'} if defined $self->{'human'};
my $res = '';
if ($self->false)
{
$res = 'FALSE';
}
else
{
my @c = $self->conds;
if (1 == @c)
{
$res = $c[0]->human;
}
else
{
$res = '(' . join (') or (', map { $_->human } $self->conds) . ')';
}
}
$self->{'human'} = $res;
return $res;
}
=item C<$newcond = $cond-E<gt>merge (@otherconds)>
Return a new C<DisjConditions> which is the disjunction of
C<$cond> and C<@otherconds>. Items in C<@otherconds> can be
@C<Condition>s or C<DisjConditions>.
=cut
sub merge ($@)
{
my ($self, @otherconds) = @_;
new Automake::DisjConditions (
map { $_->isa ("Automake::DisjConditions") ? $_->conds : $_ }
($self, @otherconds));
}
=item C<$prod = $set1-E<gt>multiply ($set2)>
Multiply two conditional sets.
my $set1 = new Automake::DisjConditions
(new Automake::Condition ("A_TRUE"),
new Automake::Condition ("B_TRUE"));
my $set2 = new Automake::DisjConditions
(new Automake::Condition ("C_FALSE"),
new Automake::Condition ("D_FALSE"));
C<$set1-E<gt>multiply ($set2)> will return
new Automake::DisjConditions
(new Automake::Condition ("A_TRUE", "C_FALSE"),
new Automake::Condition ("B_TRUE", "C_FALSE"),;
new Automake::Condition ("A_TRUE", "D_FALSE"),
new Automake::Condition ("B_TRUE", "D_FALSE"));
The argument can also be a C<Condition>.
=cut
# Same as multiply() but take a list of Conditionals as second argument.
# We use this in invert().
sub _multiply ($@)
{
my ($self, @set) = @_;
my @res = map { $_->multiply (@set) } $self->conds;
return new Automake::DisjConditions (Automake::Condition::reduce_or @res);
}
sub multiply ($$)
{
my ($self, $set) = @_;
return $self->_multiply ($set) if $set->isa('Automake::Condition');
return $self->_multiply ($set->conds);
}
=item C<$inv = $set-E<gt>invert>
Invert a C<DisjConditions>. Return a C<DisjConditions> which is true
when C<$set> is false, and vice-versa.
my $set = new Automake::DisjConditions
(new Automake::Condition ("A_TRUE", "B_TRUE"),
new Automake::Condition ("A_FALSE", "B_FALSE"));
Calling C<$set-E<gt>invert> will return the following C<DisjConditions>.
new Automake::DisjConditions
(new Automake::Condition ("A_TRUE", "B_FALSE"),
new Automake::Condition ("A_FALSE", "B_TRUE"));
We implement the inversion by a product-of-sums to sum-of-products
conversion using repeated multiplications. Because of the way we
implement multiplication, the result of inversion is in canonical
prime implicant form.
=cut
sub invert($ )
{
my ($self) = @_;
return $self->{'invert'} if defined $self->{'invert'};
# The invert of an empty DisjConditions is TRUE.
my $res = new Automake::DisjConditions TRUE;
# !((a.b)+(c.d)+(e.f))
# = (!a+!b).(!c+!d).(!e+!f)
# We develop this into a sum of product iteratively, starting from TRUE:
# 1) TRUE
# 2) TRUE.!a + TRUE.!b
# 3) TRUE.!a.!c + TRUE.!b.!c + TRUE.!a.!d + TRUE.!b.!d
# 4) TRUE.!a.!c.!e + TRUE.!b.!c.!e + TRUE.!a.!d.!e + TRUE.!b.!d.!e
# + TRUE.!a.!c.!f + TRUE.!b.!c.!f + TRUE.!a.!d.!f + TRUE.!b.!d.!f
foreach my $cond ($self->conds)
{
$res = $res->_multiply ($cond->not);
}
# Cache result.
$self->{'invert'} = $res;
# It's tempting to also set $res->{'invert'} to $self, but that
# is a bad idea as $self hasn't been normalized in any way.
# (Different inputs can produce the same inverted set.)
return $res;
}
=item C<$self-E<gt>simplify>
Return a C<Disjunction> which is a simplified canonical form of C<$self>.
This canonical form contains only prime implicants, but it can contain
non-essential prime implicants.
=cut
sub simplify ($)
{
my ($self) = @_;
return $self->invert->invert;
}
=item C<$self-E<gt>sub_conditions ($cond)>
Return the subconditions of C<$self> that contains C<$cond>, with
C<$cond> stripped. More formally, return C<$res> such that
C<$res-E<gt>multiply ($cond) == $self-E<gt>multiply ($cond)> and
C<$res> does not mention any of the variables in C<$cond>.
For instance, consider:
my $a = new Automake::DisjConditions
(new Automake::Condition ("A_TRUE", "B_TRUE"),
new Automake::Condition ("A_TRUE", "C_FALSE"),
new Automake::Condition ("A_TRUE", "B_FALSE", "C_TRUE"),
new Automake::Condition ("A_FALSE"));
my $b = new Automake::DisjConditions
(new Automake::Condition ("A_TRUE", "B_FALSE"));
Calling C<$a-E<gt>sub_conditions ($b)> will return the following
C<DisjConditions>.
new Automake::DisjConditions
(new Automake::Condition ("C_FALSE"), # From A_TRUE C_FALSE
new Automake::Condition ("C_TRUE")); # From A_TRUE B_FALSE C_TRUE"
=cut
sub sub_conditions ($$)
{
my ($self, $subcond) = @_;
# Make $subcond blindingly apparent in the DisjConditions.
# For instance `$b->multiply($a->conds)' (from the POD example) is:
# (new Automake::Condition ("FALSE"),
# new Automake::Condition ("A_TRUE", "B_FALSE", "C_FALSE"),
# new Automake::Condition ("A_TRUE", "B_FALSE", "C_TRUE"),
# new Automake::Condition ("FALSE"))
my @prodconds = $subcond->multiply ($self->conds);
# Now, strip $subcond from the remaining (i.e., non-false) Conditions.
my @res = map { $_->false ? () : $_->strip ($subcond) } @prodconds;
return new Automake::DisjConditions @res;
}
=item C<($string, $ambig_cond) = $condset-E<gt>ambiguous_p ($what, $cond)>
Check for an ambiguous condition. Return an error message and the
other condition involved if we have an ambiguity. Return an empty
string and FALSE otherwise.
C<$what> is the name of the thing being defined, to use in the error
message. C<$cond> is the C<Condition> under which it is being
defined. C<$condset> is the C<DisjConditions> under which it had
already been defined.
=cut
sub ambiguous_p ($$$)
{
my ($self, $var, $cond) = @_;
# Note that these rules don't consider the following
# example as ambiguous.
#
# if COND1
# FOO = foo
# endif
# if COND2
# FOO = bar
# endif
#
# It's up to the user to not define COND1 and COND2
# simultaneously.
return ("$var multiply defined in condition " . $cond->human, $cond)
if exists $self->{'hash'}{$cond};
foreach my $vcond ($self->conds)
{
return ("$var was already defined in condition " . $vcond->human
. ", which includes condition ". $cond->human, $vcond)
if $vcond->true_when ($cond);
return ("$var was already defined in condition " . $vcond->human
. ", which is included in condition " . $cond->human, $vcond)
if $cond->true_when ($vcond);
}
return ('', FALSE);
}
=head1 SEE ALSO
L<Automake::Condition>.
=head1 HISTORY
C<AM_CONDITIONAL>s and supporting code were added to Automake 1.1o by
Ian Lance Taylor <ian@cygnus.org> in 1997. Since then it has been
improved by Tom Tromey <tromey@redhat.com>, Richard Boulton
<richard@tartarus.org>, Raja R Harinath <harinath@cs.umn.edu>, Akim
Demaille <akim@epita.fr>, Pavel Roskin <proski@gnu.org>, and
Alexandre Duret-Lutz <adl@gnu.org>.
=cut
1;
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