[p5sagit/p5-mst-13.2.git] / lib / Math / Trig.t

#!./perl 

#
# Regression tests for the Math::Trig package
#
# The tests here are quite modest as the Math::Complex tests exercise
# these interfaces quite vigorously.
# 
# -- Jarkko Hietaniemi, April 1997

BEGIN {
    if ($ENV{PERL_CORE}) {
	chdir 't' if -d 't';
	@INC = '../lib';
    }
}

BEGIN {
    eval { require Test::More };
    if ($@) {
	# We are willing to lose testing in e.g. 5.00504.
	print "1..0 # No Test::More, skipping\n";
	exit(0);
    } else {
	import Test::More;
    }
}

plan(tests => 69);

use Math::Trig 1.03;

my $pip2 = pi / 2;

use strict;

use vars qw($x $y $z);

my $eps = 1e-11;

if ($^O eq 'unicos') { # See lib/Math/Complex.pm and t/lib/complex.t.
    $eps = 1e-10;
}

sub near ($$;$) {
    my $e = defined $_[2] ? $_[2] : $eps;
    my $d = $_[1] ? abs($_[0]/$_[1] - 1) : abs($_[0]);
    print "# near? $_[0] $_[1] : $d : $e\n";
    $_[1] ? ($d < $e) : abs($_[0]) < $e;
}

$x = 0.9;
ok(near(tan($x), sin($x) / cos($x)));

ok(near(sinh(2), 3.62686040784702));

ok(near(acsch(0.1), 2.99822295029797));

$x = asin(2);
is(ref $x, 'Math::Complex');

# avoid using Math::Complex here
$x =~ /^([^-]+)(-[^i]+)i$/;
($y, $z) = ($1, $2);
ok(near($y,  1.5707963267949));
ok(near($z, -1.31695789692482));

ok(near(deg2rad(90), pi/2));

ok(near(rad2deg(pi), 180));

use Math::Trig ':radial';

{
    my ($r,$t,$z) = cartesian_to_cylindrical(1,1,1);

    ok(near($r, sqrt(2)));
    ok(near($t, deg2rad(45)));
    ok(near($z, 1));

    ($x,$y,$z) = cylindrical_to_cartesian($r, $t, $z);

    ok(near($x, 1));
    ok(near($y, 1));
    ok(near($z, 1));

    ($r,$t,$z) = cartesian_to_cylindrical(1,1,0);

    ok(near($r, sqrt(2)));
    ok(near($t, deg2rad(45)));
    ok(near($z, 0));

    ($x,$y,$z) = cylindrical_to_cartesian($r, $t, $z);

    ok(near($x, 1));
    ok(near($y, 1));
    ok(near($z, 0));
}

{
    my ($r,$t,$f) = cartesian_to_spherical(1,1,1);

    ok(near($r, sqrt(3)));
    ok(near($t, deg2rad(45)));
    ok(near($f, atan2(sqrt(2), 1)));

    ($x,$y,$z) = spherical_to_cartesian($r, $t, $f);

    ok(near($x, 1));
    ok(near($y, 1));
    ok(near($z, 1));
       
    ($r,$t,$f) = cartesian_to_spherical(1,1,0);

    ok(near($r, sqrt(2)));
    ok(near($t, deg2rad(45)));
    ok(near($f, deg2rad(90)));

    ($x,$y,$z) = spherical_to_cartesian($r, $t, $f);

    ok(near($x, 1));
    ok(near($y, 1));
    ok(near($z, 0));
}

{
    my ($r,$t,$z) = cylindrical_to_spherical(spherical_to_cylindrical(1,1,1));

    ok(near($r, 1));
    ok(near($t, 1));
    ok(near($z, 1));

    ($r,$t,$z) = spherical_to_cylindrical(cylindrical_to_spherical(1,1,1));

    ok(near($r, 1));
    ok(near($t, 1));
    ok(near($z, 1));
}

{
    use Math::Trig 'great_circle_distance';

    ok(near(great_circle_distance(0, 0, 0, pi/2), pi/2));

    ok(near(great_circle_distance(0, 0, pi, pi), pi));

    # London to Tokyo.
    my @L = (deg2rad(-0.5), deg2rad(90 - 51.3));
    my @T = (deg2rad(139.8),deg2rad(90 - 35.7));

    my $km = great_circle_distance(@L, @T, 6378);

    ok(near($km, 9605.26637021388));
}

{
    my $R2D = 57.295779513082320876798154814169;

    sub frac { $_[0] - int($_[0]) }

    my $lotta_radians = deg2rad(1E+20, 1);
    ok(near($lotta_radians,  1E+20/$R2D));

    my $negat_degrees = rad2deg(-1E20, 1);
    ok(near($negat_degrees, -1E+20*$R2D));

    my $posit_degrees = rad2deg(-10000, 1);
    ok(near($posit_degrees, -10000*$R2D));
}

{
    use Math::Trig 'great_circle_direction';

    ok(near(great_circle_direction(0, 0, 0, pi/2), pi));

# Retired test: Relies on atan2(0, 0), which is not portable.
#	ok(near(great_circle_direction(0, 0, pi, pi), -pi()/2));

    my @London  = (deg2rad(  -0.167), deg2rad(90 - 51.3));
    my @Tokyo   = (deg2rad( 139.5),   deg2rad(90 - 35.7));
    my @Berlin  = (deg2rad ( 13.417), deg2rad(90 - 52.533));
    my @Paris   = (deg2rad (  2.333), deg2rad(90 - 48.867));

    ok(near(rad2deg(great_circle_direction(@London, @Tokyo)),
	    31.791945393073));

    ok(near(rad2deg(great_circle_direction(@Tokyo, @London)),
	    336.069766430326));

    ok(near(rad2deg(great_circle_direction(@Berlin, @Paris)),
	    246.800348034667));
    
    ok(near(rad2deg(great_circle_direction(@Paris, @Berlin)),
	    58.2079877553156));

    use Math::Trig 'great_circle_bearing';

    ok(near(rad2deg(great_circle_bearing(@Paris, @Berlin)),
	    58.2079877553156));

    use Math::Trig 'great_circle_waypoint';
    use Math::Trig 'great_circle_midpoint';

    my ($lon, $lat);

    ($lon, $lat) = great_circle_waypoint(@London, @Tokyo, 0.0);

    ok(near($lon, $London[0]));

    ok(near($lat, $London[1]));

    ($lon, $lat) = great_circle_waypoint(@London, @Tokyo, 1.0);

    ok(near($lon, $Tokyo[0]));

    ok(near($lat, $Tokyo[1]));

    ($lon, $lat) = great_circle_waypoint(@London, @Tokyo, 0.5);

    ok(near($lon, 1.55609593577679)); # 89.16 E

    ok(near($lat, 0.36783532946162)); # 68.93 N

    ($lon, $lat) = great_circle_midpoint(@London, @Tokyo);

    ok(near($lon, 1.55609593577679)); # 89.16 E

    ok(near($lat, 0.367835329461615)); # 68.93 N

    ($lon, $lat) = great_circle_waypoint(@London, @Tokyo, 0.25);

    ok(near($lon, 0.516073562850837)); # 29.57 E

    ok(near($lat, 0.400231313403387)); # 67.07 N

    ($lon, $lat) = great_circle_waypoint(@London, @Tokyo, 0.75);

    ok(near($lon, 2.17494903805952)); # 124.62 E

    ok(near($lat, 0.617809294053591)); # 54.60 N

    use Math::Trig 'great_circle_destination';

    my $dir1 = great_circle_direction(@London, @Tokyo);
    my $dst1 = great_circle_distance(@London,  @Tokyo);

    ($lon, $lat) = great_circle_destination(@London, $dir1, $dst1);

    ok(near($lon, $Tokyo[0]));

    ok(near($lat, $pip2 - $Tokyo[1]));

    my $dir2 = great_circle_direction(@Tokyo, @London);
    my $dst2 = great_circle_distance(@Tokyo,  @London);

    ($lon, $lat) = great_circle_destination(@Tokyo, $dir2, $dst2);

    ok(near($lon, $London[0]));

    ok(near($lat, $pip2 - $London[1]));

    my $dir3 = (great_circle_destination(@London, $dir1, $dst1))[2];

    ok(near($dir3, 2.69379263839118)); # about 154.343 deg

    my $dir4 = (great_circle_destination(@Tokyo,  $dir2, $dst2))[2];

    ok(near($dir4, 3.6993902625701)); # about 211.959 deg

    ok(near($dst1, $dst2));
}

# eof
Commit	Line	Data
5aabfad6	1	#!./perl
	2
	3	#
	4	# Regression tests for the Math::Trig package
	5	#
bf5f1b4c	6	# The tests here are quite modest as the Math::Complex tests exercise
bf5f1b4c	7	# these interfaces quite vigorously.
5aabfad6	8	#
	9	# -- Jarkko Hietaniemi, April 1997
	10
	11	BEGIN {
bf5f1b4c	12	if ($ENV{PERL_CORE}) {
	13	chdir 't' if -d 't';
	14	@INC = '../lib';
	15	}
5aabfad6	16	}
5aabfad6	17
affad850	18	BEGIN {
	19	eval { require Test::More };
	20	if ($@) {
	21	# We are willing to lose testing in e.g. 5.00504.
	22	print "1..0 # No Test::More, skipping\n";
	23	exit(0);
	24	} else {
	25	import Test::More;
	26	}
	27	}
	28
	29	plan(tests => 69);
	30
bf5f1b4c	31	use Math::Trig 1.03;
	32
	33	my $pip2 = pi / 2;
5aabfad6	34
	35	use strict;
	36
	37	use vars qw($x $y $z);
	38
	39	my $eps = 1e-11;
	40
2f367121	41	if ($^O eq 'unicos') { # See lib/Math/Complex.pm and t/lib/complex.t.
	42	$eps = 1e-10;
	43	}
	44
5aabfad6	45	sub near ($$;$) {
e64f0054	46	my $e = defined $_[2] ? $_[2] : $eps;
affad850	47	my $d = $_[1] ? abs($_[0]/$_[1] - 1) : abs($_[0]);
	48	print "# near? $_[0] $_[1] : $d : $e\n";
	49	$_[1] ? ($d < $e) : abs($_[0]) < $e;
5aabfad6	50	}
5aabfad6	51
5aabfad6	52	$x = 0.9;
affad850	53	ok(near(tan($x), sin($x) / cos($x)));
5aabfad6	54
affad850	55	ok(near(sinh(2), 3.62686040784702));
5aabfad6	56
affad850	57	ok(near(acsch(0.1), 2.99822295029797));
5aabfad6	58
5aabfad6	59	$x = asin(2);
affad850	60	is(ref $x, 'Math::Complex');
5aabfad6	61
	62	# avoid using Math::Complex here
	63	$x =~ /^([^-]+)(-[^i]+)i$/;
	64	($y, $z) = ($1, $2);
affad850	65	ok(near($y, 1.5707963267949));
affad850	66	ok(near($z, -1.31695789692482));
5aabfad6	67
affad850	68	ok(near(deg2rad(90), pi/2));
5aabfad6	69
affad850	70	ok(near(rad2deg(pi), 180));
ace5de91	71
d54bf66f	72	use Math::Trig ':radial';
	73
	74	{
	75	my ($r,$t,$z) = cartesian_to_cylindrical(1,1,1);
	76
affad850	77	ok(near($r, sqrt(2)));
	78	ok(near($t, deg2rad(45)));
	79	ok(near($z, 1));
d54bf66f	80
	81	($x,$y,$z) = cylindrical_to_cartesian($r, $t, $z);
	82
affad850	83	ok(near($x, 1));
	84	ok(near($y, 1));
	85	ok(near($z, 1));
d54bf66f	86
	87	($r,$t,$z) = cartesian_to_cylindrical(1,1,0);
	88
affad850	89	ok(near($r, sqrt(2)));
	90	ok(near($t, deg2rad(45)));
	91	ok(near($z, 0));
d54bf66f	92
	93	($x,$y,$z) = cylindrical_to_cartesian($r, $t, $z);
	94
affad850	95	ok(near($x, 1));
	96	ok(near($y, 1));
	97	ok(near($z, 0));
d54bf66f	98	}
	99
	100	{
	101	my ($r,$t,$f) = cartesian_to_spherical(1,1,1);
	102
affad850	103	ok(near($r, sqrt(3)));
	104	ok(near($t, deg2rad(45)));
	105	ok(near($f, atan2(sqrt(2), 1)));
d54bf66f	106
	107	($x,$y,$z) = spherical_to_cartesian($r, $t, $f);
	108
affad850	109	ok(near($x, 1));
	110	ok(near($y, 1));
	111	ok(near($z, 1));
	112
d54bf66f	113	($r,$t,$f) = cartesian_to_spherical(1,1,0);
d54bf66f	114
affad850	115	ok(near($r, sqrt(2)));
	116	ok(near($t, deg2rad(45)));
	117	ok(near($f, deg2rad(90)));
d54bf66f	118
	119	($x,$y,$z) = spherical_to_cartesian($r, $t, $f);
	120
affad850	121	ok(near($x, 1));
	122	ok(near($y, 1));
	123	ok(near($z, 0));
d54bf66f	124	}
	125
	126	{
	127	my ($r,$t,$z) = cylindrical_to_spherical(spherical_to_cylindrical(1,1,1));
	128
affad850	129	ok(near($r, 1));
	130	ok(near($t, 1));
	131	ok(near($z, 1));
d54bf66f	132
	133	($r,$t,$z) = spherical_to_cylindrical(cylindrical_to_spherical(1,1,1));
	134
affad850	135	ok(near($r, 1));
	136	ok(near($t, 1));
	137	ok(near($z, 1));
d54bf66f	138	}
	139
	140	{
9db5a202	141	use Math::Trig 'great_circle_distance';
d54bf66f	142
affad850	143	ok(near(great_circle_distance(0, 0, 0, pi/2), pi/2));
d54bf66f	144
affad850	145	ok(near(great_circle_distance(0, 0, pi, pi), pi));
d54bf66f	146
9db5a202	147	# London to Tokyo.
	148	my @L = (deg2rad(-0.5), deg2rad(90 - 51.3));
	149	my @T = (deg2rad(139.8),deg2rad(90 - 35.7));
d54bf66f	150
9db5a202	151	my $km = great_circle_distance(@L, @T, 6378);
d54bf66f	152
affad850	153	ok(near($km, 9605.26637021388));
9db5a202	154	}
	155
	156	{
fdf27e67	157	my $R2D = 57.295779513082320876798154814169;
	158
	159	sub frac { $_[0] - int($_[0]) }
	160
9db5a202	161	my $lotta_radians = deg2rad(1E+20, 1);
affad850	162	ok(near($lotta_radians, 1E+20/$R2D));
9db5a202	163
9db5a202	164	my $negat_degrees = rad2deg(-1E20, 1);
affad850	165	ok(near($negat_degrees, -1E+20*$R2D));
9db5a202	166
9db5a202	167	my $posit_degrees = rad2deg(-10000, 1);
affad850	168	ok(near($posit_degrees, -10000*$R2D));
d54bf66f	169	}
d54bf66f	170
7e5f197a	171	{
	172	use Math::Trig 'great_circle_direction';
	173
affad850	174	ok(near(great_circle_direction(0, 0, 0, pi/2), pi));
7e5f197a	175
bf5f1b4c	176	# Retired test: Relies on atan2(0, 0), which is not portable.
affad850	177	# ok(near(great_circle_direction(0, 0, pi, pi), -pi()/2));
7e5f197a	178
d139edd6	179	my @London = (deg2rad( -0.167), deg2rad(90 - 51.3));
	180	my @Tokyo = (deg2rad( 139.5), deg2rad(90 - 35.7));
	181	my @Berlin = (deg2rad ( 13.417), deg2rad(90 - 52.533));
	182	my @Paris = (deg2rad ( 2.333), deg2rad(90 - 48.867));
7e5f197a	183
affad850	184	ok(near(rad2deg(great_circle_direction(@London, @Tokyo)),
affad850	185	31.791945393073));
bf5f1b4c	186
affad850	187	ok(near(rad2deg(great_circle_direction(@Tokyo, @London)),
affad850	188	336.069766430326));
d139edd6	189
affad850	190	ok(near(rad2deg(great_circle_direction(@Berlin, @Paris)),
affad850	191	246.800348034667));
d139edd6	192
affad850	193	ok(near(rad2deg(great_circle_direction(@Paris, @Berlin)),
affad850	194	58.2079877553156));
bf5f1b4c	195
	196	use Math::Trig 'great_circle_bearing';
	197
affad850	198	ok(near(rad2deg(great_circle_bearing(@Paris, @Berlin)),
affad850	199	58.2079877553156));
bf5f1b4c	200
	201	use Math::Trig 'great_circle_waypoint';
	202	use Math::Trig 'great_circle_midpoint';
	203
	204	my ($lon, $lat);
	205
	206	($lon, $lat) = great_circle_waypoint(@London, @Tokyo, 0.0);
	207
affad850	208	ok(near($lon, $London[0]));
bf5f1b4c	209
618e05e9	210	ok(near($lat, $London[1]));
bf5f1b4c	211
	212	($lon, $lat) = great_circle_waypoint(@London, @Tokyo, 1.0);
	213
affad850	214	ok(near($lon, $Tokyo[0]));
bf5f1b4c	215
618e05e9	216	ok(near($lat, $Tokyo[1]));
bf5f1b4c	217
	218	($lon, $lat) = great_circle_waypoint(@London, @Tokyo, 0.5);
	219
618e05e9	220	ok(near($lon, 1.55609593577679)); # 89.16 E
bf5f1b4c	221
618e05e9	222	ok(near($lat, 0.36783532946162)); # 68.93 N
bf5f1b4c	223
	224	($lon, $lat) = great_circle_midpoint(@London, @Tokyo);
	225
618e05e9	226	ok(near($lon, 1.55609593577679)); # 89.16 E
bf5f1b4c	227
618e05e9	228	ok(near($lat, 0.367835329461615)); # 68.93 N
bf5f1b4c	229
	230	($lon, $lat) = great_circle_waypoint(@London, @Tokyo, 0.25);
	231
618e05e9	232	ok(near($lon, 0.516073562850837)); # 29.57 E
affad850	233
618e05e9	234	ok(near($lat, 0.400231313403387)); # 67.07 N
bf5f1b4c	235
bf5f1b4c	236	($lon, $lat) = great_circle_waypoint(@London, @Tokyo, 0.75);
bf5f1b4c	237
618e05e9	238	ok(near($lon, 2.17494903805952)); # 124.62 E
bf5f1b4c	239
618e05e9	240	ok(near($lat, 0.617809294053591)); # 54.60 N
bf5f1b4c	241
	242	use Math::Trig 'great_circle_destination';
	243
	244	my $dir1 = great_circle_direction(@London, @Tokyo);
	245	my $dst1 = great_circle_distance(@London, @Tokyo);
	246
	247	($lon, $lat) = great_circle_destination(@London, $dir1, $dst1);
	248
affad850	249	ok(near($lon, $Tokyo[0]));
bf5f1b4c	250
affad850	251	ok(near($lat, $pip2 - $Tokyo[1]));
bf5f1b4c	252
	253	my $dir2 = great_circle_direction(@Tokyo, @London);
	254	my $dst2 = great_circle_distance(@Tokyo, @London);
	255
	256	($lon, $lat) = great_circle_destination(@Tokyo, $dir2, $dst2);
	257
affad850	258	ok(near($lon, $London[0]));
bf5f1b4c	259
affad850	260	ok(near($lat, $pip2 - $London[1]));
bf5f1b4c	261
	262	my $dir3 = (great_circle_destination(@London, $dir1, $dst1))[2];
	263
affad850	264	ok(near($dir3, 2.69379263839118)); # about 154.343 deg
bf5f1b4c	265
	266	my $dir4 = (great_circle_destination(@Tokyo, $dir2, $dst2))[2];
	267
affad850	268	ok(near($dir4, 3.6993902625701)); # about 211.959 deg
bf5f1b4c	269
affad850	270	ok(near($dst1, $dst2));
7e5f197a	271	}
7e5f197a	272
5aabfad6	273	# eof