no strict 'refs';

ok_undef (${"$mbi\::accuracy"});

ok_undef (${"$mbi\::precision"});

ok_undef ($mbi->accuracy());

ok_undef ($mbi->precision());

ok (${"$mbi\::div_scale"},40);

ok (${"$mbi\::round_mode"},'even');

ok ($mbi->round_mode(),'even');

ok_undef (${"$mbf\::accuracy"});

ok_undef (${"$mbf\::precision"});

ok_undef ($mbf->precision());

ok_undef ($mbf->precision());

ok (${"$mbf\::div_scale"},40);

ok (${"$mbf\::round_mode"},'even');

ok ($mbf->round_mode(),'even');

{

ok_undef ($class->accuracy());

ok_undef ($class->precision());

ok ($class->round_mode(),'even');

ok ($class->div_scale(),40);

ok ($class->div_scale(20),20);

$class->div_scale(40); ok ($class->div_scale(),40);

ok ($class->round_mode('odd'),'odd');

$class->round_mode('even'); ok ($class->round_mode(),'even');

ok ($class->accuracy(2),2);

$class->accuracy(3); ok ($class->accuracy(),3);

ok_undef ($class->accuracy(undef));

ok ($class->precision(2),2);

ok ($class->precision(-2),-2);

$class->precision(3); ok ($class->precision(),3);

ok_undef ($class->precision(undef));

}

no strict 'refs';

# accuracy

foreach (qw/5 42 -1 0/)

{

ok (${"$mbf\::accuracy"} = $_,$_);

ok (${"$mbi\::accuracy"} = $_,$_);

}

ok_undef (${"$mbf\::accuracy"} = undef);

ok_undef (${"$mbi\::accuracy"} = undef);

# precision

foreach (qw/5 42 -1 0/)

{

ok (${"$mbf\::precision"} = $_,$_);

ok (${"$mbi\::precision"} = $_,$_);

}

ok_undef (${"$mbf\::precision"} = undef);

ok_undef (${"$mbi\::precision"} = undef);

# fallback

foreach (qw/5 42 1/)

{

ok (${"$mbf\::div_scale"} = $_,$_);

ok (${"$mbi\::div_scale"} = $_,$_);

}

# illegal values are possible for fallback due to no accessor

# round_mode

foreach (qw/odd even zero trunc +inf -inf/)

{

ok (${"$mbf\::round_mode"} = $_,$_);

ok (${"$mbi\::round_mode"} = $_,$_);

}

${"$mbf\::round_mode"} = 'zero';

ok (${"$mbf\::round_mode"},'zero');

ok (${"$mbi\::round_mode"},'-inf'); # from above

# reset for further tests

${"$mbi\::accuracy"} = undef;

${"$mbi\::precision"} = undef;

${"$mbf\::div_scale"} = 40;

no strict 'refs';

# see if MBF changes MBIs values

ok (${"$mbi\::accuracy"} = 42,42);

ok (${"$mbf\::accuracy"} = 64,64);

ok (${"$mbi\::accuracy"},42); # should be still 42

ok (${"$mbf\::accuracy"},64); # should be now 64

no strict 'refs';

${"$mbi\::accuracy"} = 4;

${"$mbi\::precision"} = undef;

ok ($mbi->new(123456),123500); # with A

${"$mbi\::accuracy"} = undef;

${"$mbi\::precision"} = 3;

ok ($mbi->new(123456),123000); # with P

${"$mbf\::accuracy"} = 4;

${"$mbf\::precision"} = undef;

${"$mbi\::precision"} = undef;

ok ($mbf->new('123.456'),'123.5'); # with A

${"$mbf\::accuracy"} = undef;

${"$mbf\::precision"} = -1;

ok ($mbf->new('123.456'),'123.5'); # with P from MBF, not MBI!

${"$mbf\::precision"} = undef; # reset

no strict 'refs';

${"$mbi\::precision"} = undef; ${"$mbf\::precision"} = undef;

${"$mbi\::accuracy"} = 4; ${"$mbf\::accuracy"} = undef;

ok ($mbf->new('123.456'),'123.456');

${"$mbi\::accuracy"} = undef; # reset

{

print "# Tried: $x->bdiv(3,$e)\n"

unless ok (scalar $x->copy()->bdiv(3,$e), '0.002' . ('6' x ($e-2)) . '7');

}

{

$x = $c->bzero(); $x->accuracy(5); ok ($x->{_a},5);

$x = $c->bzero(); $x->precision(5); ok ($x->{_p},5);

$x = $c->new(0); $x->accuracy(5); ok ($x->{_a},5);

$x = $c->new(0); $x->precision(5); ok ($x->{_p},5);

$x = $c->bzero(); $x->round(5); ok ($x->{_a},5);

$x = $c->bzero(); $x->round(undef,5); ok ($x->{_p},5);

$x = $c->new(0); $x->round(5); ok ($x->{_a},5);

$x = $c->new(0); $x->round(undef,5); ok ($x->{_p},5);

# see if trying to increasing A in bzero() doesn't do something

# statement in the op's. But heh, it's better than nothing...

# not: $z = -$x; ok ($z,'-123.46'); ok ($x,'123.456');

# both babs() and bneg() don't need to round, since the input will already

no strict 'refs';

${"$mbf\::accuracy"} = undef;

${"$mbf\::precision"} = undef;

${"$mbf\::div_scale"} = 40;

$x = $mbf->new(10); $x->{_a} = 4;

ok ($x->bdiv(3),'3.333');

ok ($x->{_a},4); # set's it since no fallback

ok ($x->{_a},4); # set's it since no fallback

no strict 'refs';

${"$mbf\::div_scale"} = 5;

$x = $mbf->new(10);

ok ($x->bdiv(3,undef,-8),'3.33333333');

${"$mbf\::div_scale"} = 40;

ok ($y->{_p},-2);

no strict 'refs';

${"$mbi\::accuracy"} = undef;

${"$mbi\::precision"} = undef;

${"$mbi\::div_scale"} = 40;

${"$mbi\::round_mode"} = 'odd';

no strict 'refs';

${"$mbi\::accuracy"} = 1;

@params = $x->_find_round_parameters(undef,-2);

ok (scalar @params,1); # error, A and P defined

ok ($params[0],$x); # self

ok ($x->is_nan(),1); # and must be NaN

${"$mbi\::accuracy"} = undef;

${"$mbi\::precision"} = 1;

@params = $x->_find_round_parameters(1,undef);

ok (scalar @params,1); # error, A and P defined

ok ($params[0],$x); # self

ok ($x->is_nan(),1); # and must be NaN

${"$mbi\::precision"} = undef; # reset

{

$x = $c->new(2)->bzero(); ok_undef ($x->{_a}); ok_undef ($x->{_p});

$x = $c->new(2)->bone(); ok_undef ($x->{_a}); ok_undef ($x->{_p});

$x = $c->new(2)->binf(); ok_undef ($x->{_a}); ok_undef ($x->{_p});

$x = $c->new(2)->bnan(); ok_undef ($x->{_a}); ok_undef ($x->{_p});

$x = $c->new(2); $x->{_a} = 1; $x->{_p} = 2; $x->bnan();

ok_undef ($x->{_a}); ok_undef ($x->{_p});

$x = $c->new(2); $x->{_a} = 1; $x->{_p} = 2; $x->binf();

ok_undef ($x->{_a}); ok_undef ($x->{_p});

$x = $c->new(2,1); ok ($x->{_a},1); ok_undef ($x->{_p});

$x = $c->new(2,undef,1); ok_undef ($x->{_a}); ok ($x->{_p},1);

$x = $c->new(2,1)->bzero(); ok ($x->{_a},1); ok_undef ($x->{_p});

$x = $c->new(2,undef,1)->bzero(); ok_undef ($x->{_a}); ok ($x->{_p},1);

$x = $c->new(2,1)->bone(); ok ($x->{_a},1); ok_undef ($x->{_p});

$x = $c->new(2,undef,1)->bone(); ok_undef ($x->{_a}); ok ($x->{_p},1);

$x = $c->new(2); $x->bone('+',2,undef); ok ($x->{_a},2); ok_undef ($x->{_p});

$x = $c->new(2); $x->bone('+',undef,2); ok_undef ($x->{_a}); ok ($x->{_p},2);

$x = $c->new(2); $x->bone('-',2,undef); ok ($x->{_a},2); ok_undef ($x->{_p});

$x = $c->new(2); $x->bone('-',undef,2); ok_undef ($x->{_a}); ok ($x->{_p},2);

$x = $c->new(2); $x->bzero(2,undef); ok ($x->{_a},2); ok_undef ($x->{_p});

$x = $c->new(2); $x->bzero(undef,2); ok_undef ($x->{_a}); ok ($x->{_p},2);

}

{

$c->accuracy(2);

$x = $c->bone(); ok ($x->accuracy(),2);

$x = $c->bzero(); ok ($x->accuracy(),2);

$c->accuracy(undef);

$c->precision(-2);

$x = $c->bone(); ok ($x->precision(),-2);

$x = $c->bzero(); ok ($x->precision(),-2);

$c->precision(undef);

}

no strict 'refs';

foreach my $c ($mbi,$mbf)

{

ok ($c->new(123,4,-3),'NaN'); # with parameters

${"$c\::accuracy"} = 42;

${"$c\::precision"} = 2;

ok ($c->new(123),'NaN'); # with globals

${"$c\::accuracy"} = undef;

${"$c\::precision"} = undef;

}

{

foreach (qw/add sub mul pow mod/)

#foreach (qw/add sub mul div pow mod/)

{

my $try = "my \$x = $class->new(1234); \$x->accuracy(5); ";

$try .= "my \$y = $class->new(12); \$y->precision(-3); ";

$try .= "\$x->b$_(\$y);";

$rc = eval $try;

print "# Tried: '$try'\n" if !ok ($rc, 'NaN');

}

}

{

my $try = 'my $x = $mbi->$_(1234,5,-3); ';

$rc = eval $try;

print "# Tried: '$try'\n" if !ok ($rc, 'NaN');

}

{

$x = $class->new(123); $class->accuracy(2); $x->bsub(0);

ok ($x,120);

$class->accuracy(undef);

$x = $class->new(123); $class->accuracy(2); $x->badd(0);

ok ($x,120);

$class->accuracy(undef);

}

{

chomp;

next if /^\s*(#|$)/; # skip comments and empty lines

if (s/^&//)

{

$f = $_; next; # function

}

@args = split(/:/,$_,99);

my $ans = pop(@args);

($x,$xa,$xp) = split (/,/,$args[0]);

$xa = $xa || ''; $xp = $xp || '';

$try = "\$x = $mbi->new('$x'); ";

$try .= "\$x->accuracy($xa); " if $xa ne '';

$try .= "\$x->precision($xp); " if $xp ne '';

($y,$ya,$yp) = split (/,/,$args[1]);

$ya = $ya || ''; $yp = $yp || '';

$try .= "\$y = $mbi->new('$y'); ";

$try .= "\$y->accuracy($ya); " if $ya ne '';

$try .= "\$y->precision($yp); " if $yp ne '';

$try .= "\$x->$f(\$y);";

# print "trying $try\n";

$rc = eval $try;

# convert hex/binary targets to decimal

if ($ans =~ /^(0x0x|0b0b)/)

{

$ans =~ s/^0[xb]//;

$ans = $mbi->new($ans)->bstr();

}

print "# Tried: '$try'\n" if !ok ($rc, $ans);

# check internal state of number objects

is_valid($rc,$f) if ref $rc;

# now check whether A and P are set correctly

# only one of $a or $p will be set (no crossing here)

$a = $xa || $ya; $p = $xp || $yp;

# print "Check a=$a p=$p\n";

# print "# Tried: '$try'\n";

if ($a ne '')

{

if (!(ok ($x->{_a}, $a) && ok_undef ($x->{_p})))

{

print "# Check: A=$a and P=undef\n";

print "# Tried: '$try'\n";

}

}

if ($p ne '')

{

if (!(ok ($x->{_p}, $p) && ok_undef ($x->{_a})))

{

print "# Check: A=undef and P=$p\n";

print "# Tried: '$try'\n";

}

}

}

{

my $x = shift;

ok (1,1) and return 1 if !defined $x;

ok ($x,'undef');

print "# Called from ",join(' ',caller()),"\n";

return 0;

}

{

my ($x,$f) = @_;

my $e = 0; # error?

# ok as reference?

$e = 'Not a reference' if !ref($x);

# has ok sign?

$e = "Illegal sign $x->{sign} (expected: '+', '-', '-inf', '+inf' or 'NaN'"

if $e eq '0' && $x->{sign} !~ /^(\+|-|\+inf|-inf|NaN)$/;

$e = "-0 is invalid!" if $e ne '0' && $x->{sign} eq '-' && $x == 0;

$e = $CALC->_check($x->{value}) if $e eq '0';

# test done, see if error did crop up

ok (1,1), return if ($e eq '0');

ok (1,$e." after op '$f'");

}