Difference between revisions of "Math::BigInt"

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Line 15: Line 15:
 
  use Math::BigInt;
 
  use Math::BigInt;
 
   
 
   
# This reblessing isn't fail-safe
 
# but it works for this example
 
sub same_object ($$) {
 
    my $pa = ref($_[0]) or return undef;
 
    my $pb = ref($_[1]) or return undef;
 
    my $v;
 
    bless $_[0], 'Xana::Fake';
 
    bless $_[1], 'Xana::Fake';
 
    $v = $_[0] == $_[1];
 
 
     bless $_[1], $pb;
 
     bless $_[1], $pb;
 
     bless $_[0], $pa;
 
     bless $_[0], $pa;
Line 31: Line 22:
 
  # Void context
 
  # Void context
 
  my $a = new Math::BigInt '27';
 
  my $a = new Math::BigInt '27';
 +
 
  $a->badd(3);
 
  $a->badd(3);
 
  $a == '30'
 
  $a == '30'

Revision as of 23:07, 16 April 2005

Use

Specifying lib forces a library, but if that library isn't installed, fallback is automatic. 

use Math::BigInt lib => 'Pari,GMP,BitVect';

In-place vs. Copy Modification

Whether Math::BigInt does its thing in-place or not depends on whether you use the methods or the overloaded operators.

Methods Work In-Place

If you use the methods, modification is in-place, regardless of context. A new object is not created for a result. 

use Math::BigInt;

    bless $_[1], $pb;
    bless $_[0], $pa;
    $v;
}

# Void context
my $a = new Math::BigInt '27';

$a->badd(3);
$a == '30'
    or die "a=$a";

# Scalar context
my $b = new Math::BigInt '27';
my $c = $b->badd(3);
$b == '30'
    or die "b=$b";
same_object($b,$c)
    or die "b and c are not the same object";

Overloads Use Copies

Meanwhile, overloaded operators treat the objects like regular scalars; nothing is modified in place unless an assignment operator (including +=, *=, etc., but not = for Perl reasons) is used. 

# Void context using overloads
# does not work in-place
my $d = new Math::BigInt '57';
$d + 3;
$d == '57'
    or die "d=$d";

# Scalar context using overloads
# does not work in-place
my $e = new Math::BigInt '97';
my $f = $e + 4;
$e == '97'
    or die "e=$e";
$f == '101'
    or die "f=$f";

Converting a binary string to a BigInt

This code conveniently reinterprets raw bytes as hexadecimal digits, big-endian style, so that the data may be cast into a bigint. This code doesn't do any buffering; for that, try my new Xana::Math::RawDataUtil module in Xana. 

# Unsigned
my $a = "ZYXWVUT";
my $ba = new Math::BigInt '0x' . unpack('H*',$a);
# Test
$ba == '25430983861228884'
    or die "ba=$ba";

# Signed
sub raw_to_signed_bigint ($) {
    # The MSB is the sign bit.
    if(unpack('C',substr($_[0],0,1)) & 0x80) {
        my $hex = unpack('H*',$_[0]);
        # Invert the hex digits.
        $hex =~ tr/0123456789aAbBcCdDeEfF/fedcba9876554433221100/;
        my $bigint = new Math::BigInt "0x$hex";
        # Then, the ones complement is the right answer.
        return $bigint->bnot();
    } else {
        # The normal unsigned thing.
        return Math::BigInt->new( '0x' . unpack('H*',$_[0]) );
    }
}

# Tests
my $bb = raw_to_signed_bigint "\xFF\x54\xAB\x56\x73\x14\xE0\xF5\x2E";
$bb == '-12345678901234567890'
    or die "bb=$bb";

my $bc = raw_to_signed_bigint "\xFF";
$bc == '-1'
    or die "bc=$bc";

my $bd = raw_to_signed_bigint "ZYXWVUT";
$bd == '25430983861228884'
    or die "bd=$bd";

See Also

Retrieved from "https://halfgeek.org/wiki/index.php?title=Math::BigInt&oldid=90"