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180 lines
4.4 KiB
180 lines
4.4 KiB
package Tie::SubstrHash;
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=head1 NAME
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Tie::SubstrHash - Fixed-table-size, fixed-key-length hashing
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=head1 SYNOPSIS
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require Tie::SubstrHash;
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tie %myhash, 'Tie::SubstrHash', $key_len, $value_len, $table_size;
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=head1 DESCRIPTION
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The B<Tie::SubstrHash> package provides a hash-table-like interface to
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an array of determinate size, with constant key size and record size.
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Upon tying a new hash to this package, the developer must specify the
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size of the keys that will be used, the size of the value fields that the
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keys will index, and the size of the overall table (in terms of key-value
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pairs, not size in hard memory). I<These values will not change for the
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duration of the tied hash>. The newly-allocated hash table may now have
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data stored and retrieved. Efforts to store more than C<$table_size>
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elements will result in a fatal error, as will efforts to store a value
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not exactly C<$value_len> characters in length, or reference through a
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key not exactly C<$key_len> characters in length. While these constraints
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may seem excessive, the result is a hash table using much less internal
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memory than an equivalent freely-allocated hash table.
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=head1 CAVEATS
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Because the current implementation uses the table and key sizes for the
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hashing algorithm, there is no means by which to dynamically change the
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value of any of the initialization parameters.
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=cut
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use Carp;
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sub TIEHASH {
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my $pack = shift;
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my ($klen, $vlen, $tsize) = @_;
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my $rlen = 1 + $klen + $vlen;
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$tsize = findprime($tsize * 1.1); # Allow 10% empty.
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$self = bless ["\0", $klen, $vlen, $tsize, $rlen, 0, -1];
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$$self[0] x= $rlen * $tsize;
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$self;
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}
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sub FETCH {
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local($self,$key) = @_;
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local($klen, $vlen, $tsize, $rlen) = @$self[1..4];
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&hashkey;
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for (;;) {
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$offset = $hash * $rlen;
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$record = substr($$self[0], $offset, $rlen);
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if (ord($record) == 0) {
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return undef;
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}
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elsif (ord($record) == 1) {
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}
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elsif (substr($record, 1, $klen) eq $key) {
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return substr($record, 1+$klen, $vlen);
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}
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&rehash;
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}
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}
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sub STORE {
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local($self,$key,$val) = @_;
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local($klen, $vlen, $tsize, $rlen) = @$self[1..4];
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croak("Table is full") if $$self[5] == $tsize;
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croak(qq/Value "$val" is not $vlen characters long./)
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if length($val) != $vlen;
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my $writeoffset;
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&hashkey;
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for (;;) {
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$offset = $hash * $rlen;
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$record = substr($$self[0], $offset, $rlen);
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if (ord($record) == 0) {
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$record = "\2". $key . $val;
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die "panic" unless length($record) == $rlen;
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$writeoffset = $offset unless defined $writeoffset;
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substr($$self[0], $writeoffset, $rlen) = $record;
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++$$self[5];
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return;
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}
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elsif (ord($record) == 1) {
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$writeoffset = $offset unless defined $writeoffset;
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}
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elsif (substr($record, 1, $klen) eq $key) {
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$record = "\2". $key . $val;
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die "panic" unless length($record) == $rlen;
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substr($$self[0], $offset, $rlen) = $record;
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return;
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}
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&rehash;
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}
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}
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sub DELETE {
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local($self,$key) = @_;
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local($klen, $vlen, $tsize, $rlen) = @$self[1..4];
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&hashkey;
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for (;;) {
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$offset = $hash * $rlen;
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$record = substr($$self[0], $offset, $rlen);
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if (ord($record) == 0) {
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return undef;
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}
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elsif (ord($record) == 1) {
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}
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elsif (substr($record, 1, $klen) eq $key) {
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substr($$self[0], $offset, 1) = "\1";
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return substr($record, 1+$klen, $vlen);
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--$$self[5];
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}
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&rehash;
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}
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}
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sub FIRSTKEY {
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local($self) = @_;
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$$self[6] = -1;
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&NEXTKEY;
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}
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sub NEXTKEY {
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local($self) = @_;
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local($klen, $vlen, $tsize, $rlen, $entries, $iterix) = @$self[1..6];
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for (++$iterix; $iterix < $tsize; ++$iterix) {
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next unless substr($$self[0], $iterix * $rlen, 1) eq "\2";
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$$self[6] = $iterix;
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return substr($$self[0], $iterix * $rlen + 1, $klen);
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}
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$$self[6] = -1;
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undef;
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}
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sub hashkey {
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croak(qq/Key "$key" is not $klen characters long.\n/)
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if length($key) != $klen;
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$hash = 2;
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for (unpack('C*', $key)) {
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$hash = $hash * 33 + $_;
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&_hashwrap if $hash >= 1e13;
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}
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&_hashwrap if $hash >= $tsize;
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$hash = 1 unless $hash;
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$hashbase = $hash;
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}
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sub _hashwrap {
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$hash -= int($hash / $tsize) * $tsize;
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}
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sub rehash {
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$hash += $hashbase;
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$hash -= $tsize if $hash >= $tsize;
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}
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sub findprime {
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use integer;
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my $num = shift;
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$num++ unless $num % 2;
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$max = int sqrt $num;
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NUM:
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for (;; $num += 2) {
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for ($i = 3; $i <= $max; $i += 2) {
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next NUM unless $num % $i;
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}
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return $num;
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}
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}
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1;
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