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/usr/share/perl5/Math/PlanePath/AlternatePaperMidpoint.pm is in libmath-planepath-perl 113-1.

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The actual contents of the file can be viewed below.

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# Copyright 2011, 2012, 2013 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/>.


# math-image --path=AlternatePaperMidpoint,arms=8 --all --output=numbers_dash
# math-image --path=AlternatePaperMidpoint --lines --scale=20


package Math::PlanePath::AlternatePaperMidpoint;
use 5.004;
use strict;
use List::Util 'min'; # 'max'
*max = \&Math::PlanePath::_max;

use vars '$VERSION', '@ISA';
$VERSION = 113;
use Math::PlanePath;
@ISA = ('Math::PlanePath');
*_divrem_mutate = \&Math::PlanePath::_divrem_mutate;

use Math::PlanePath::Base::Generic
  'is_infinite',
  'round_nearest';
use Math::PlanePath::Base::Digits
  'round_down_pow',
  'digit_split_lowtohigh',
  'digit_join_lowtohigh';
use Math::PlanePath::AlternatePaper;

# uncomment this to run the ### lines
#use Smart::Comments;


use constant parameter_info_array => [ { name      => 'arms',
                                         share_key => 'arms_8',
                                         display   => 'Arms',
                                         type      => 'integer',
                                         minimum   => 1,
                                         maximum   => 8,
                                         default   => 1,
                                         width     => 1,
                                         description => 'Arms',
                                       } ];

use constant n_start => 0;

sub x_negative {
  my ($self) = @_;
  return ($self->{'arms'} >= 3);
}
sub y_negative {
  my ($self) = @_;
  return ($self->{'arms'} >= 5);
}

sub sumxy_minimum {
  my ($self) = @_;
  return ($self->arms_count <= 3
          ? 0        # 1,2,3 arms above X=-Y diagonal
          : undef);
}
sub diffxy_minimum {
  my ($self) = @_;
  return ($self->arms_count == 1
          ? 0        # 1 arms right of X=Y diagonal
          : undef);
}

use constant dx_minimum => -1;
use constant dx_maximum => 1;
use constant dy_minimum => -1;
use constant dy_maximum => 1;
use constant dsumxy_minimum => -1; # straight only
use constant dsumxy_maximum => 1;
use constant ddiffxy_minimum => -1;
use constant ddiffxy_maximum => 1;
use constant dir_maximum_dxdy => (0,-1); # South


#------------------------------------------------------------------------------

sub new {
  my $self = shift->SUPER::new(@_);
  $self->{'arms'} = max(1, min(8, $self->{'arms'} || 1));
  return $self;
}

#    +-----------+      states
#    |\  -------/|
#    | \ \ 4   / |
#    |^ \ \   /  |
#    ||  \ v / /||
#    ||   \ / / ||
#    ||8 / * /12||
#    || / / \   ||
#    ||/ / ^ \  ||
#    |  /   \ \ v|
#    | /   0 \ \ |
#    |/ ------  \|
#    +-----------+
#
#           +           state=0 digits
#          /|\
#         / | \
#        /  |  \
#       /\ 1|3 /\
#      /  \ | /  \
#     /  0 \|/  2 \
#    +------+------+

my @next_state = (0, 12, 0,  8,   # 0 forward
                  4,  8, 4, 12,   # 4 forward NW
                  4,  8, 0,  8,   # 8 reverse
                  0, 12, 4, 12,   # 12 reverse NE
                 );
my @digit_to_x = (0,0,1,1,
                  1,1,0,0,
                  0,0,0,0,
                  1,1,1,1,
                 );
my @digit_to_y = (0,0,0,0,
                  1,1,1,1,
                  0,0,1,1,
                  1,1,0,0,
                 );

sub n_to_xy {
  my ($self, $n) = @_;
  ### AlternatePaperMidpoint n_to_xy(): $n

  if ($n < 0) { return; }
  if (is_infinite($n)) { return ($n, $n); }

  {
    my $int = int($n);
    if ($n != $int) {
      my ($x1,$y1) = $self->n_to_xy($int);
      my ($x2,$y2) = $self->n_to_xy($int+$self->{'arms'});
      my $frac = $n - $int;  # inherit possible BigFloat
      my $dx = $x2-$x1;
      my $dy = $y2-$y1;
      return ($frac*$dx + $x1, $frac*$dy + $y1);
    }
    $n = $int; # BigFloat int() gives BigInt, use that
  }

  my $zero = ($n * 0);  # inherit bignum 0
  my $arm = _divrem_mutate ($n, $self->{'arms'});
  ### $arm
  ### $n

  my @digits = digit_split_lowtohigh($n,4);
  my $state = my $dirstate = 0;

  my @x;
  my @y;
  foreach my $i (reverse 1 .. scalar(@digits)) {
    my $digit = $digits[$i-1];   # high to low, all digits
    $state += $digit;
    if ($digit != 3) {
      $dirstate = $state;
    }
    $x[$i] = $digit_to_x[$state];  # high to low, leaving one lowest
    $y[$i] = $digit_to_y[$state];
    $state = $next_state[$state];
  }

  $x[0] = $digit_to_x[$state];      # state=4,12 increment
  $y[0] = $digit_to_y[$state + 3];  # state=4,8 increment

  my $x = digit_join_lowtohigh(\@x,2,$zero);
  my $y = digit_join_lowtohigh(\@y,2,$zero);

  ### final: "x=$x,y=$y state=$state"

  if ($arm & 1) {
    ($x,$y) = ($y+1,$x+1);  # transpose and offset
  }
  if ($arm & 2) {
    ($x,$y) = (-$y,$x+1);   # rotate +90 and offset
  }
  if ($arm & 4) {
    $x = -1 - $x;           # rotate 180 and offset
    $y = 1 - $y;
  }

  # ### rotated return: "$x,$y"
  return ($x,$y);
}

  #                                   |           |
  #                         64-65-66 71-72-73-74 95
  #                          |                    |
  #                         63             98-97-96
  #                          |              |
  #                   20-21 62             99
  #                    |  |  |
  #                   19 22 61-60-59
  #                    |  |        |
  #             16-17-18 23 56-57-58
  #              |        |  |
  #             15 26-25-24 55 50-49-48-47
  #              |  |        |  |        |
  #        4--5 14 27-28-29 54 51 36-37 46
  #        |  |  |        |  |  |  |  |  |
  #        3  6 13-12-11 30 53-52 35 38 45-44-43
  #        |  |        |  |        |  |        |
  #  0--1--2  7--8--9-10 31-32-33-34 39-40-41-42
  #
  #  0  1  2  3  4  5  6  7  8  9 10 11 12 13 14 15 16

#          43-35 42-50-58 57-49-41
#           |  |  |              |
# 91-99    51 27 34-26-18 17-25-33
#  |        |  |        |  |
# 83-75-67-59 19-11--3 10  9 32-40
#                       |  |  |  |
# 84-76-68-60 20-12--4  2  1 24 48    96-88
#  |        |  |              |  |        |
# 92       52 28  5  6  0--8-16 56-64-72-80
#           |  |  |  |
#          44-36 13 14  7-15-23 63-71-79-87
#                 |  |        |  |        |
#          37-29-21 22-30-38 31 55       95
#           |              |  |  |
#          45-53-61 62-54-46 39-47
#                 |  |
#                69 70

sub xy_to_n {
  my ($self, $x, $y) = @_;
  ### AlternatePaperMidpoint xy_to_n(): "$x, $y"

  $x = round_nearest($x);
  $y = round_nearest($y);

  if (is_infinite($x)) {
    return $x;  # infinity
  }
  if (is_infinite($y)) {
    return $y;  # infinity
  }

  # arm in various octants, rotate/transpose to first
  my $arm;
  if ($y >= ($x>=0?0:2)) {   # Y>=0 when X positive, Y>=2 when X negative
    $arm = 0;
  } else {
    # lower arms 4,5,6,7 ...
    $arm = 4;
    $x = -1 - $x;   # rotate 180, offset
    $y = 1 - $y;
  }
  if ($x < ($y>0?1:0)) {
    ### second quad arms 2,3 ...
    ($x,$y) = ($y-1,-$x);  # rotate -90, offset
    $arm += 2;
  }
  if ($y > $x-($x%2)) {
    ### above diagonal, arm 1 ...
    ($x,$y) = ($y-1,$x-1);   # offset and transpose
    $arm++;
  }
  ### assert: $x >= 0
  ### assert: $y >= 0
  ### assert: $y <= $x - ($x%2)

  if ($arm >= $self->{'arms'}) {
    return undef;
  }

  my ($len, $level) = round_down_pow ($x, 2);
  if (is_infinite($level)) {
    return ($level);
  }

  #           +           state=0 digits
  #          /|\
  #         / | \
  #        /  |  \
  #       /\ 1|3 /\
  #      /  \ | /  \
  #     /  0 \|/  2 \
  #    +------+------+

  #           +           state=0 digits
  #          /|\
  #         / | \
  #        /  |  \
  #       /\ 2|0 /\
  #      /  \ | /  \
  #     /  3 \|/  1 \
  #    +------+------+

  my $n = ($x * 0 * $y); # inherit bignum 0
  my $rev = 0;

  $len *= 2;
  while ($level-- >= 0) {
    ### at: "xy=$x,$y  rev=$rev  len=$len  n=".sprintf('%#x',$n)

    ### assert: $x >= 0
    ### assert: $y >= 0
    ### assert: $y <= $x - ($x%2)
    ### assert: $x+$y+($x%2) < 2*$len

    my $digit;
    if ($x < $len) {
      ### diagonal: $x+$y+($x%2), $len
      if ($x+$y+($x%2) < $len) {
        ### part 0 ...
        $digit = 0;
      } else {
        ### part 1 ...
        ($x,$y) = ($y,$len-1-$x); # shift, rotate -90
        $rev ^= 3;
        $digit = 2;  # becoming digit=1 with reverse
      }
    } else {
      $x -= $len;
      ### 2,3 ycmp: $y, $x-($x%2)
      if ($y <= $x-($x%2)) {
        ### part 2 ...
        $digit = 2;
      } else {
        ### part 3 ...
        ($x,$y) = ($len-1-$y,$x); # shift, rotate +90
        $rev ^= 3;
        $digit = 0;  # becoming digit=3 with reverse
      }
    }
    ### $digit

    $digit ^= $rev;   # $digit = 3-$digit if reverse
    ### reversed digit: $digit

    $n *= 4;
    $n += $digit;
    $len /= 2;
  }
  ### final: "xy=$x,$y rev=$rev"

  ### assert: $x == 0
  ### assert: $y == 0

  return $n*$self->{'arms'} + $arm;
}


# not exact
sub rect_to_n_range {
  my ($self, $x1,$y1, $x2,$y2) = @_;
  ### AlternatePaperMidpoint rect_to_n_range(): "$x1,$y1  $x2,$y2  arms=$self->{'arms'}"

  $x1 = round_nearest($x1);
  $x2 = round_nearest($x2);
  $y1 = round_nearest($y1);
  $y2 = round_nearest($y2);

  ($x1,$x2) = ($x2,$x1) if $x1 > $x2;
  ($y1,$y2) = ($y2,$y1) if $y1 > $y2;

  my $arms = $self->{'arms'};
  if (($arms == 1 && $y1 > $x2)       # x2,y1 bottom right corner
      || ($arms <= 2 && $x2 < 0)
      || ($arms <= 4 && $y2 < 0)) {
    ### outside ...
    return (1,0);
  }

  my ($len) = round_down_pow (max ($x2,
                                   ($arms >= 2 ? $y2-1  : ()),
                                   ($arms >= 4 ? -1-$x1 : ()),
                                   ($arms >= 6 ? -$y1   : ())),
                              2);
  return (0, 2*$arms*$len*$len-1);
}

1;
__END__

=for stopwords Math-PlanePath eg Ryde OEIS

=head1 NAME

Math::PlanePath::AlternatePaperMidpoint -- alternate paper folding midpoints

=head1 SYNOPSIS

 use Math::PlanePath::AlternatePaperMidpoint;
 my $path = Math::PlanePath::AlternatePaperMidpoint->new;
 my ($x, $y) = $path->n_to_xy (123);

=head1 DESCRIPTION

This is the midpoints of each alternate paper folding curve
(L<Math::PlanePath::AlternatePaper>).

     8  |                        64-65-...
        |                         |
     7  |                        63
        |                         |
     6  |                  20-21 62
        |                   |  |  |
     5  |                  19 22 61-60-59
        |                   |  |        |
     4  |            16-17-18 23 56-57-58
        |             |        |  |
     3  |            15 26-25-24 55 50-49-48-47
        |             |  |        |  |        |
     2  |       4--5 14 27-28-29 54 51 36-37 46
        |       |  |  |        |  |  |  |  |  |
     1  |       3  6 13-12-11 30 53-52 35 38 45-44-43
        |       |  |        |  |        |  |        |
    Y=0 | 0--1--2  7--8--9-10 31-32-33-34 39-40-41-42
        +----------------------------------------------
        X=0  1  2  3  4  5  6  7  8  9 10 11 12 13 14

The C<AlternatePaper> curve begins as follows and the midpoints are numbered
from 0,

                      |
                      9
                      |
                 --8--
                |     |
                7     |
                |     |
           --2-- --6--
          |     |     |
          1     3     5
          |     |     |
    *--0--       --4--

These midpoints are on fractions X=0.5,Y=0, X=1,Y=0.5, etc.  For this
C<AlternatePaperMidpoint> they're turned 45 degrees and mirrored so the
0,1,2 upward diagonal becomes horizontal along the X axis, and the 2,3,4
downward diagonal becomes a vertical at X=2, extending to X=2,Y=2 at N=4.

The midpoints are distinct X,Y positions because the alternate paper curve
traverses each edge only once.

The curve is self-similar in 2^level sections due to its unfolding.  This
can be seen in the midpoints as for example N=0 to N=16 above is the same
shape as N=16 to N=32, but the latter rotated +90 degrees and numbered in
reverse.

=head2 Arms

The midpoints fill an eighth of the plane and eight copies can mesh together
perfectly when mirrored and rotated by 90, 180 and 270 degrees.  The C<arms>
parameter can choose 1 to 8 curve arms successively advancing.

For example C<arms =E<gt> 8> begins as follows.  N=0,8,16,24,etc is the
first arm, the same as the plain curve above.  N=1,9,17,25 is the second,
N=2,10,18,26 the third, etc.

                      90-82 81-89                       7
    arms => 8          |  |  |  |
                     ... 74 73 ...                      6
                          |  |
                         66 65                          5
                          |  |
             43-35 42-50-58 57-49-41                    4
              |  |  |              |
    91-..    51 27 34-26-18 17-25-33                    3
     |        |  |        |  |
    83-75-67-59 19-11--3 10  9 32-40                    2
                          |  |  |  |
    84-76-68-60 20-12--4  2  1 24 48    ..-88           1
     |        |  |              |  |        |
    92-..    52 28  5  6  0--8-16 56-64-72-80      <- Y=0
              |  |  |  |
             44-36 13 14  7-15-23 63-71-79-87          -1
                    |  |        |  |        |
             37-29-21 22-30-38 31 55    ..-95          -2
              |              |  |  |
             45-53-61 62-54-46 39-47                   -3
                    |  |
                   69 70                               -4
                    |  |
               ... 77 78 ...                           -5
                 |  |  |  |
                93-85 86-94                            -6

     ^  ^  ^  ^  ^  ^  ^  ^  ^  ^  ^  ^  ^  ^
    -7 -6 -5 -4 -3 -2 -1 X=0 1  2  3  4  5  6

With eight arms like this every X,Y point is visited exactly once, because
the 8-arm C<AlternatePaper> traverses every edge exactly once
(L<Math::PlanePath::AlternatePaper/Arms>).

The arm numbering doesn't correspond to the C<AlternatePaper>, due to the
rotate and reflect of the first arm.  It ends up arms 0 and 1 of the
C<AlternatePaper> corresponding to arms 7 and 0 of the midpoints here, those
two being a pair going horizontally corresponding to a pair in the
C<AlternatePaper> going diagonally into a quadrant.

=head1 FUNCTIONS

See L<Math::PlanePath/FUNCTIONS> for behaviour common to all path classes.

=over 4

=item C<$path = Math::PlanePath::AlternatePaperMidpoint-E<gt>new ()>

Create and return a new path object.

=item C<($x,$y) = $path-E<gt>n_to_xy ($n)>

Return the X,Y coordinates of point number C<$n> on the path.  Points begin
at 0 and if C<$n E<lt> 0> then the return is an empty list.

Fractional positions give an X,Y position along a straight line between the
integer positions.

=item C<$n = $path-E<gt>n_start()>

Return 0, the first N in the path.

=back

=head1 SEE ALSO

L<Math::PlanePath>,
L<Math::PlanePath::AlternatePaper>

L<Math::PlanePath::DragonMidpoint>,
L<Math::PlanePath::R5DragonMidpoint>,
L<Math::PlanePath::TerdragonMidpoint>

=head1 HOME PAGE

L<http://user42.tuxfamily.org/math-planepath/index.html>

=head1 LICENSE

Copyright 2012, 2013 Kevin Ryde

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