Math-BigInt-Pari/xt/author/lib-arithmetic-binary-_log_int.t
# -*- mode: perl; -*-
use strict;
use warnings;
use Test::More tests => 27369;
###############################################################################
# Read and load configuration file and backend library.
use Config::Tiny ();
my $config_file = 'xt/author/lib.ini';
my $config = Config::Tiny -> read('xt/author/lib.ini')
or die Config::Tiny -> errstr();
# Read the library to test.
our $LIB = $config->{_}->{lib};
die "No library defined in file '$config_file'"
unless defined $LIB;
die "Invalid library name '$LIB' in file '$config_file'"
unless $LIB =~ /^[A-Za-z]\w*(::\w+)*\z/;
# Read the reference type(s) the library uses.
our $REF = $config->{_}->{ref};
die "No reference type defined in file '$config_file'"
unless defined $REF;
die "Invalid reference type '$REF' in file '$config_file'"
unless $REF =~ /^[A-Za-z]\w*(::\w+)*\z/;
# Load the library.
eval "require $LIB";
die $@ if $@;
###############################################################################
my $scalar_util_ok = eval { require Scalar::Util; };
Scalar::Util -> import('refaddr') if $scalar_util_ok;
diag "Skipping some tests since Scalar::Util is not installed."
unless $scalar_util_ok;
can_ok($LIB, '_log_int');
my @data;
# Small numbers.
for (my $x = 0; $x <= 1000 ; ++ $x) {
for (my $b = 0; $b <= 10 ; ++ $b) {
if ($x == 0 || $b <= 1) {
push @data, [ $x, $b, undef, undef ];
next;
}
my $y = int(log($x) / log($b));
$y++ while $b ** $y < $x;
$y-- while $b ** $y > $x;
my $status = $b ** $y == $x ? 1 : 0;
push @data, [ $x, $b, $y, $status ];
}
}
# Larger numbers.
for (my $b = 2 ; $b <= 100 ; $b++) {
my $bobj = $LIB -> _new($b);
for (my $y = 2 ; $y <= 10 ; $y++) {
my $x = $LIB -> _pow($LIB -> _copy($bobj), $LIB -> _new($y));
my $x_up = $LIB -> _inc($LIB -> _copy($x));
my $x_dn = $LIB -> _dec($LIB -> _copy($x));
push @data, [ $LIB -> _str($x), $b, $y, 1 ];
push @data, [ $LIB -> _str($x_up), $b, $y, 0 ];
push @data, [ $LIB -> _str($x_dn), $b, $y - 1, 0 ];
}
}
# List context.
for (my $i = 0 ; $i <= $#data ; ++ $i) {
my ($in0, $in1, $out0, $out1) = @{ $data[$i] };
my ($x, $y, @got);
my $test = qq|\$x = $LIB->_new("$in0"); |
. qq|\$y = $LIB->_new("$in1"); |
. qq|\@got = $LIB->_log_int(\$x, \$y);|;
diag("\n$test\n\n") if $ENV{AUTHOR_DEBUGGING};
eval $test;
is($@, "", "'$test' gives emtpy \$\@");
subtest "_log_int() in list context: $test", sub {
unless (defined $out0) {
plan tests => 1;
is($got[0], $out0,
"'$test' output arg has the right value");
return;
}
plan tests => 11;
# Number of input arguments.
cmp_ok(scalar @got, '==', 2,
"'$test' gives two output args");
# First output argument.
is(ref($got[0]), $REF,
"'$test' first output arg is a $REF");
is($LIB->_check($got[0]), 0,
"'$test' first output is valid");
is($LIB->_str($got[0]), $out0,
"'$test' output arg has the right value");
SKIP: {
skip "Scalar::Util not available", 1 unless $scalar_util_ok;
isnt(refaddr($got[0]), refaddr($y),
"'$test' first output arg is not the second input arg")
}
is(ref($x), $REF,
"'$test' first input arg is still a $REF");
ok($LIB->_str($x) eq $out0 || $LIB->_str($x) eq $in0,
"'$test' first input arg has the correct value");
is(ref($y), $REF,
"'$test' second input arg is still a $REF");
is($LIB->_str($y), $in1,
"'$test' second input arg is unmodified");
# Second output argument.
is(ref($got[1]), "",
"'$test' second output arg is a scalar");
is($got[1], $out1,
"'$test' second output arg has the right value");
};
}