#!/usr/bin/perl -w
# Copyright 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/>.
use 5.004;
use strict;
use Test;
plan tests => 1236;
use lib 't';
use MyTestHelpers;
BEGIN { MyTestHelpers::nowarnings(); }
# uncomment this to run the ### lines
#use Smart::Comments;
require Math::PlanePath::SierpinskiCurve;
#------------------------------------------------------------------------------
# VERSION
{
my $want_version = 115;
ok ($Math::PlanePath::SierpinskiCurve::VERSION, $want_version,
'VERSION variable');
ok (Math::PlanePath::SierpinskiCurve->VERSION, $want_version,
'VERSION class method');
ok (eval { Math::PlanePath::SierpinskiCurve->VERSION($want_version); 1 },
1,
"VERSION class check $want_version");
my $check_version = $want_version + 1000;
ok (! eval { Math::PlanePath::SierpinskiCurve->VERSION($check_version); 1 },
1,
"VERSION class check $check_version");
my $path = Math::PlanePath::SierpinskiCurve->new;
ok ($path->VERSION, $want_version, 'VERSION object method');
ok (eval { $path->VERSION($want_version); 1 },
1,
"VERSION object check $want_version");
ok (! eval { $path->VERSION($check_version); 1 },
1,
"VERSION object check $check_version");
}
#------------------------------------------------------------------------------
# n_start()
{
my $path = Math::PlanePath::SierpinskiCurve->new();
ok ($path->n_start, 0, 'n_start()');
}
#------------------------------------------------------------------------------
# x_negative(), y_negative()
{
foreach my $elem ([1, 0,0],
[2, 0,0],
[3, 1,0],
[4, 1,0],
[5, 1,1],
[6, 1,1],
[7, 1,1],
[8, 1,1]) {
my ($arms, $want_x_negative, $want_y_negative) = @$elem;
my $path = Math::PlanePath::SierpinskiCurve->new (arms => $arms);
ok (!!$path->x_negative, !!$want_x_negative, 'x_negative()');
ok (!!$path->y_negative, !!$want_y_negative, 'y_negative()');
}
}
#------------------------------------------------------------------------------
# rect_to_n_range() samples
{
foreach my $elem (
[7, 0,-1, 0,-2, 0,27 ],
# edges
[1, 0,0, 0,0, 1,0],
[2, 0,0, 0,0, 0,7],
[2, -100,0, -1,0, 1,0],
[3, -1,0, -1,0, 1,0],
[3, -1,1, -1,1, 0,11],
[3, -2,1, -2,1, 1,0],
[4, -2,1, -2,1, 0,15],
[4, -1,-1, -1,-1, 1,0],
[5, -2,-1, -2,-1, 0,19],
[5, 0,-2, 0,-2, 1,0],
[5, -1,-2, -1,-2, 1,0],
[6, -1,-2, -1,-2, 0,23],
[6, 0,-2, 0,-2, 1,0],
[7, 0,-2, 0,-2, 0,27],
[7, 1,-2, 1,-2, 1,0],
[8, 1,-2, 1,-2, 0,31],
) {
my ($arms, $x1,$y1,$x2,$y2, $want_n_lo,$want_n_hi) = @$elem;
my $path = Math::PlanePath::SierpinskiCurve->new (arms => $arms);
my ($n_lo, $n_hi) = $path->rect_to_n_range ($x1,$y1, $x2,$y2);
ok ($n_hi, $want_n_hi, "arms=$arms $x1,$y1, $x2,$y2");
ok ($n_lo, $want_n_lo);
}
}
#------------------------------------------------------------------------------
# rect_to_n_range() near origin
{
my $bad = 0;
foreach my $arms (1 .. 8) {
my $path = Math::PlanePath::SierpinskiCurve->new (arms => $arms);
foreach my $n (0 .. 8*$arms) {
my ($x,$y) = $path->n_to_xy ($n);
my ($n_lo, $n_hi) = $path->rect_to_n_range ($x,$y, $x,$y);
unless ($n_lo <= $n) {
$bad++;
}
unless ($n_hi >= $n) {
$bad++;
}
}
}
ok ($bad, 0);
}
#------------------------------------------------------------------------------
# first few points
{
my @data = (
[ 0.25, 1.25, 0.25 ],
[ 1.25, 2.25, 1 ],
[ 2.25, 3.25, 0.75 ],
[ 3.25, 4.25, 0.25 ],
[ 4.25, 4.75, 1.25 ],
[ 0, 1,0 ],
[ 1, 2,1 ],
[ 2, 3,1 ],
[ 3, 4,0 ],
[ 4, 5,1 ],
);
my $path = Math::PlanePath::SierpinskiCurve->new;
foreach my $elem (@data) {
my ($n, $x, $y) = @$elem;
{
# n_to_xy()
my ($got_x, $got_y) = $path->n_to_xy ($n);
if ($got_x == 0) { $got_x = 0 } # avoid "-0"
if ($got_y == 0) { $got_y = 0 }
ok ($got_x, $x, "n_to_xy() x at n=$n");
ok ($got_y, $y, "n_to_xy() y at n=$n");
}
if ($n==int($n)) {
# xy_to_n()
my $got_n = $path->xy_to_n ($x, $y);
ok ($got_n, $n, "xy_to_n() n at x=$x,y=$y");
}
{
$n = int($n);
my ($got_nlo, $got_nhi) = $path->rect_to_n_range (0,0, $x,$y);
ok ($got_nlo <= $n, 1, "rect_to_n_range() nlo=$got_nlo at n=$n,x=$x,y=$y");
ok ($got_nhi >= $n, 1, "rect_to_n_range() nhi=$got_nhi at n=$n,x=$x,y=$y");
}
}
}
#------------------------------------------------------------------------------
# random rect_to_n_range()
foreach my $arms (1 .. 8) {
my $path = Math::PlanePath::SierpinskiCurve->new (arms => $arms);
for (1 .. 5) {
my $bits = int(rand(25)); # 0 to 25, inclusive
my $n = int(rand(2**$bits)); # 0 to 2^bits, inclusive
my ($x,$y) = $path->n_to_xy ($n);
my $rev_n = $path->xy_to_n ($x,$y);
ok (defined $rev_n, 1, "xy_to_n($x,$y) arms=$arms reverse n, got undef");
my ($n_lo, $n_hi) = $path->rect_to_n_range ($x,$y, $x,$y);
ok ($n_lo <= $n, 1,
"rect_to_n_range() arms=$arms n=$n at xy=$x,$y cf got n_lo=$n_lo");
ok ($n_hi >= $n, 1,
"rect_to_n_range() arms=$arms n=$n at xy=$x,$y cf got n_hi=$n_hi");
}
}
#------------------------------------------------------------------------------
# random n_to_xy() fracs
foreach my $arms (1 .. 8) {
my $path = Math::PlanePath::SierpinskiCurve->new (arms => $arms);
for (1 .. 20) {
my $bits = int(rand(25)); # 0 to 25, inclusive
my $n = int(rand(2**$bits)) + 1; # 1 to 2^bits, inclusive
my $nhex = sprintf '0x%X', $n;
my ($x1,$y1) = $path->n_to_xy ($n);
my ($x2,$y2) = $path->n_to_xy ($n+$arms);
foreach my $frac (0.25, 0.5, 0.75) {
my $want_xf = $x1 + ($x2-$x1)*$frac;
my $want_yf = $y1 + ($y2-$y1)*$frac;
my $nf = $n + $frac;
my ($got_xf,$got_yf) = $path->n_to_xy ($nf);
ok ($got_xf, $want_xf,
"n_to_xy($nf) arms=$arms frac $frac, X (n hex $nhex)");
ok ($got_yf, $want_yf,
"n_to_xy($nf) arms=$arms frac $frac, X (n hex $nhex)");
}
}
}
#------------------------------------------------------------------------------
# xy_to_n() near origin
{
my $bad = 0;
OUTER: foreach my $d (0 .. 4) {
foreach my $s (0 .. 4) {
foreach my $arms (1 .. 8) {
my $path = Math::PlanePath::SierpinskiCurve->new
(arms => $arms,
straight_spacing => $s,
diagonal_spacing => $d);
foreach my $x (-8 .. 8) {
foreach my $y (-8 .. 8) {
my $n = $path->xy_to_n ($x,$y);
next unless defined $n;
my ($nx,$ny) = $path->n_to_xy ($n);
if ($nx != $x || $ny != $y) {
MyTestHelpers::diag("xy_to_n($x,$y) arms=$arms gives n=$n, which is $nx,$ny");
last OUTER if ++$bad > 10;
}
}
}
}
}
}
ok ($bad, 0);
}
#------------------------------------------------------------------------------
# X axis base 4 digits 0 and 3 only
{
my $path = Math::PlanePath::SierpinskiCurve->new;
foreach my $i (0 .. 50) {
my $x = 3*$i + 1;
my $want_n = duplicate_bits($i);
my $got_n = $path->xy_to_n ($x,0);
ok ($got_n, $want_n, "i=$i N at X=$x,Y=0");
}
}
sub duplicate_bits {
my ($n) = @_;
my $bits = sprintf '%b',$n;
$bits =~ s/(.)/$1$1/g;
return oct("0b$bits");
}
exit 0;