/usr/share/perl5/Math/PlanePath/Columns.pm is in libmath-planepath-perl 117-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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# This file is part of Math-PlanePath.
#
# Math-PlanePath 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 3, or (at your option) any later
# version.
#
# Math-PlanePath 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 Math-PlanePath. If not, see <http://www.gnu.org/licenses/>.
package Math::PlanePath::Columns;
use 5.004;
use strict;
use vars '$VERSION', '@ISA';
$VERSION = 117;
use Math::PlanePath;
@ISA = ('Math::PlanePath');
use Math::PlanePath::Base::Generic
'round_nearest',
'floor';
# uncomment this to run the ### lines
#use Devel::Comments;
use constant class_x_negative => 0;
use constant class_y_negative => 0;
use constant n_frac_discontinuity => .5;
use constant parameter_info_array =>
[ Math::PlanePath::Base::Generic::parameter_info_nstart1() ];
sub y_maximum {
my ($self) = @_;
return $self->{'height'} - 1;
}
sub diffxy_minimum {
my ($self) = @_;
if ($self->{'height'} == 0) {
return 0; # at X=0,Y=0
} else {
return 1 - $self->{'height'}; # at X=0,Y=height-1
}
}
sub dx_minimum {
my ($self) = @_;
return ($self->{'height'} <= 1
? 1 # single row only
: 0);
}
use constant dx_maximum => 1;
sub _UNDOCUMENTED__dxdy_list {
my ($self) = @_;
return (($self->{'height'} >= 2 ? (0,1) # N too
: ()),
1, 1-$self->{'height'});
}
sub _UNDOCUMENTED__dxdy_list_at_n {
my ($self) = @_;
return $self->n_start + $self->{'height'} - 1;
}
sub dy_minimum {
my ($self) = @_;
return - ($self->{'height'}-1);
}
sub dy_maximum {
my ($self) = @_;
return ($self->{'height'} <= 1
? 0 # single row only
: 1);
}
sub absdx_minimum {
my ($self) = @_;
return ($self->{'height'} <= 1
? 1 # single row only
: 0);
}
sub absdy_minimum {
my ($self) = @_;
return ($self->{'height'} <= 1 ? 0 : 1);
}
sub dsumxy_minimum {
my ($self) = @_;
return 2 - $self->{'height'}; # dX=+1 dY=-(height-1)
}
use constant dsumxy_maximum => 1;
sub ddiffxy_minimum {
my ($self) = @_;
return ($self->{'height'} == 1
? 1 # constant dX=1,dY=0
: -1); # straight N
}
sub ddiffxy_maximum {
my ($self) = @_;
return $self->{'height'}; # dX=+1 dY=-(height-1)
}
sub dir_minimum_dxdy {
my ($self) = @_;
return ($self->{'height'} == 1
? (1,0) # height=1 East only
: (0,1)); # height>1 North
}
sub dir_maximum_dxdy {
my ($self) = @_;
return (1, $self->dy_minimum);
}
#------------------------------------------------------------------------------
sub new {
my $self = shift->SUPER::new (@_);
if (! exists $self->{'height'}) {
$self->{'height'} = 1;
}
if (! defined $self->{'n_start'}) {
$self->{'n_start'} = $self->default_n_start;
}
return $self;
}
sub n_to_xy {
my ($self, $n) = @_;
# no division by zero, and negatives not meaningful for now
my $height;
if (($height = $self->{'height'}) <= 0) {
### no points for height<=0
return;
}
$n = $n - $self->{'n_start'}; # zero based
my $int = int($n); # BigFloat int() gives BigInt, use that
$n -= $int; # fraction part, preserve any BigFloat
if (2*$n >= 1) { # if $n >= 0.5, but BigInt friendly
$n -= 1;
$int += 1;
}
### $n
### $int
### assert: $n >= -0.5
### assert: $n < 0.5
my $x = int ($int / $height);
$int -= $x*$height;
if ($int < 0) { # ensure round down when $int negative
$int += $height;
$x -= 1;
}
### floor x: $x
### remainder: $int
return ($x,
$n + $int);
}
sub xy_to_n {
my ($self, $x, $y) = @_;
$y = round_nearest ($y);
if ($y < 0 || $y >= $self->{'height'}) {
return undef; # outside the oblong
}
$x = round_nearest ($x);
return $x * $self->{'height'} + $y + $self->{'n_start'};
}
# exact
sub rect_to_n_range {
my ($self, $x1,$y1, $x2,$y2) = @_;
my $height = $self->{'height'};
$y1 = round_nearest ($y1);
$y2 = round_nearest ($y2);
if ($y2 < $y1) { ($y1,$y2) = ($y2,$y1) } # swap to y1<y2
### assert: $y1<=$y2
if ($height<=0 || $y1 >= $height || $y2 < 0) {
### completely outside 0 to height-1, or height<=0 ...
return (1,0);
}
$x1 = round_nearest ($x1);
$x2 = round_nearest ($x2);
if ($x2 < $x1) { ($x1,$x2) = ($x2,$x1) } # swap to x1<x2
### assert: $x1<=$x2
if ($y1 < 0) { $y1 *= 0; } # preserve bignum
if ($y2 >= $height) { $y2 = ($y2*0) + $height-1; } # preserve bignum
# exact range bottom left to top right
return ($x1*$height + $y1 + $self->{'n_start'},
$x2*$height + $y2 + $self->{'n_start'});
}
1;
__END__
=for stopwords PlanePath Math-PlanePath Ryde
=head1 NAME
Math::PlanePath::Columns -- points in fixed-height columns
=head1 SYNOPSIS
use Math::PlanePath::Columns;
my $path = Math::PlanePath::Columns->new;
my ($x, $y) = $path->n_to_xy (123);
=head1 DESCRIPTION
This path is columns of a given fixed height. For example height 5 would be
|
4 | 5 10 15 20 <--- height==5
3 | 4 9 14 19
2 | 3 8 13 18
1 | 2 7 12 17 ...
Y=0 | 1 6 11 16 21
----------------------
X=0 1 2 3 4 ...
=head2 N Start
The default is to number points starting N=1 as shown above. An optional
C<n_start> can give a different start, with the same shape. For example to
start at 0,
=cut
# math-image --path=Columns,n_start=0,height=5 --all --output=numbers
=pod
n_start => 0, height => 5
4 | 4 9 14 19
3 | 3 8 13 18
2 | 2 7 12 17
1 | 1 6 11 16 ...
Y=0 | 0 5 10 15 20
----------------------
X=0 1 2 3 4 ...
The only effect is to push the N values around by a constant amount. It
might help match coordinates with something else zero-based.
=head1 FUNCTIONS
See L<Math::PlanePath/FUNCTIONS> for behaviour common to all path classes.
=over 4
=item C<$path = Math::PlanePath::Columns-E<gt>new (height =E<gt> $h)>
=item C<$path = Math::PlanePath::Columns-E<gt>new (height =E<gt> $h, n_start =E<gt> $n)>
Create and return a new path object. A C<height> parameter must be supplied.
=item C<($x,$y) = $path-E<gt>n_to_xy ($n)>
Return the X,Y coordinates of point number C<$n> in the path.
=item C<$n = $path-E<gt>xy_to_n ($x,$y)>
Return the point number for coordinates C<$x,$y>.
C<$x> and C<$y> are rounded to the nearest integers, which has the effect of
treating each point in the path as a square of side 1, so a rectangle $x >=
-0.5 and -0.5 <= y < height+0.5 is covered.
=item C<($n_lo, $n_hi) = $path-E<gt>rect_to_n_range ($x1,$y1, $x2,$y2)>
The returned range is exact, meaning C<$n_lo> and C<$n_hi> are the smallest
and biggest in the rectangle.
=back
=head1 SEE ALSO
L<Math::PlanePath>,
L<Math::PlanePath::Rows>,
L<Math::PlanePath::CoprimeColumns>
=head1 HOME PAGE
L<http://user42.tuxfamily.org/math-planepath/index.html>
=head1 LICENSE
Copyright 2010, 2011, 2012, 2013, 2014 Kevin Ryde
This file is part of Math-PlanePath.
Math-PlanePath 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 3, or (at your option) any later
version.
Math-PlanePath 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
Math-PlanePath. If not, see <http://www.gnu.org/licenses/>.
=cut
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