#!./perl -w BEGIN { unless(grep /blib/, @INC) { chdir 't' if -d 't'; @INC = '../lib' if -d '../lib'; } } use warnings; use strict; use Config; BEGIN { if(-d "lib" && -f "TEST") { if ($Config{'extensions'} !~ /\bDB_File\b/ ) { print "1..0 # Skip: DB_File was not built\n"; exit 0; } } if ($^O eq 'darwin' && $Config{db_version_major} == 1 && $Config{db_version_minor} == 0 && $Config{db_version_patch} == 0) { warn < @b ? @b : @a) ; my $i = 0 ; foreach $i ( 0 .. $len -1) { return $a[$i] - $b[$i] if $a[$i] != $b[$i] ; } return @a - @b ; } { package Redirect ; use Symbol ; sub new { my $class = shift ; my $filename = shift ; my $fh = gensym ; open ($fh, ">$filename") || die "Cannot open $filename: $!" ; my $real_stdout = select($fh) ; return bless [$fh, $real_stdout ] ; } sub DESTROY { my $self = shift ; close $self->[0] ; select($self->[1]) ; } } sub docat { my $file = shift; local $/ = undef ; open(CAT,$file) || die "Cannot open $file: $!"; my $result = ; close(CAT); $result = normalise($result) ; return $result ; } sub docat_del { my $file = shift; my $result = docat($file); unlink $file ; return $result ; } sub normalise { my $data = shift ; $data =~ s#\r\n#\n#g if $^O eq 'cygwin' ; return $data ; } my $db185mode = ($DB_File::db_version == 1 && ! $DB_File::db_185_compat) ; my $null_keys_allowed = ($DB_File::db_ver < 2.004010 || $DB_File::db_ver >= 3.1 ); my $Dfile = "dbbtree.tmp"; unlink $Dfile; umask(0); # Check the interface to BTREEINFO my $dbh = new DB_File::BTREEINFO ; ok(1, ! defined $dbh->{flags}) ; ok(2, ! defined $dbh->{cachesize}) ; ok(3, ! defined $dbh->{psize}) ; ok(4, ! defined $dbh->{lorder}) ; ok(5, ! defined $dbh->{minkeypage}) ; ok(6, ! defined $dbh->{maxkeypage}) ; ok(7, ! defined $dbh->{compare}) ; ok(8, ! defined $dbh->{prefix}) ; $dbh->{flags} = 3000 ; ok(9, $dbh->{flags} == 3000) ; $dbh->{cachesize} = 9000 ; ok(10, $dbh->{cachesize} == 9000); $dbh->{psize} = 400 ; ok(11, $dbh->{psize} == 400) ; $dbh->{lorder} = 65 ; ok(12, $dbh->{lorder} == 65) ; $dbh->{minkeypage} = 123 ; ok(13, $dbh->{minkeypage} == 123) ; $dbh->{maxkeypage} = 1234 ; ok(14, $dbh->{maxkeypage} == 1234 ); $dbh->{compare} = 1234 ; ok(15, $dbh->{compare} == 1234) ; $dbh->{prefix} = 1234 ; ok(16, $dbh->{prefix} == 1234 ); # Check that an invalid entry is caught both for store & fetch eval '$dbh->{fred} = 1234' ; ok(17, $@ =~ /^DB_File::BTREEINFO::STORE - Unknown element 'fred' at/ ) ; eval 'my $q = $dbh->{fred}' ; ok(18, $@ =~ /^DB_File::BTREEINFO::FETCH - Unknown element 'fred' at/ ) ; # Now check the interface to BTREE my ($X, %h) ; ok(19, $X = tie(%h, 'DB_File',$Dfile, O_RDWR|O_CREAT, 0640, $DB_BTREE )) ; die "Could not tie: $!" unless $X; my ($dev,$ino,$mode,$nlink,$uid,$gid,$rdev,$size,$atime,$mtime,$ctime, $blksize,$blocks) = stat($Dfile); my %noMode = map { $_, 1} qw( amigaos MSWin32 NetWare cygwin ) ; ok(20, ($mode & 0777) == (($^O eq 'os2' || $^O eq 'MacOS') ? 0666 : 0640) || $noMode{$^O} ); my ($key, $value, $i); while (($key,$value) = each(%h)) { $i++; } ok(21, !$i ) ; $h{'goner1'} = 'snork'; $h{'abc'} = 'ABC'; ok(22, $h{'abc'} eq 'ABC' ); ok(23, ! defined $h{'jimmy'} ) ; ok(24, ! exists $h{'jimmy'} ) ; ok(25, defined $h{'abc'} ) ; $h{'def'} = 'DEF'; $h{'jkl','mno'} = "JKL\034MNO"; $h{'a',2,3,4,5} = join("\034",'A',2,3,4,5); $h{'a'} = 'A'; #$h{'b'} = 'B'; $X->STORE('b', 'B') ; $h{'c'} = 'C'; #$h{'d'} = 'D'; $X->put('d', 'D') ; $h{'e'} = 'E'; $h{'f'} = 'F'; $h{'g'} = 'X'; $h{'h'} = 'H'; $h{'i'} = 'I'; $h{'goner2'} = 'snork'; delete $h{'goner2'}; # IMPORTANT - $X must be undefined before the untie otherwise the # underlying DB close routine will not get called. undef $X ; untie(%h); # tie to the same file again ok(26, $X = tie(%h,'DB_File',$Dfile, O_RDWR, 0640, $DB_BTREE)) ; # Modify an entry from the previous tie $h{'g'} = 'G'; $h{'j'} = 'J'; $h{'k'} = 'K'; $h{'l'} = 'L'; $h{'m'} = 'M'; $h{'n'} = 'N'; $h{'o'} = 'O'; $h{'p'} = 'P'; $h{'q'} = 'Q'; $h{'r'} = 'R'; $h{'s'} = 'S'; $h{'t'} = 'T'; $h{'u'} = 'U'; $h{'v'} = 'V'; $h{'w'} = 'W'; $h{'x'} = 'X'; $h{'y'} = 'Y'; $h{'z'} = 'Z'; $h{'goner3'} = 'snork'; delete $h{'goner1'}; $X->DELETE('goner3'); my @keys = keys(%h); my @values = values(%h); ok(27, $#keys == 29 && $#values == 29) ; $i = 0 ; while (($key,$value) = each(%h)) { if ($key eq $keys[$i] && $value eq $values[$i] && $key eq lc($value)) { $key =~ y/a-z/A-Z/; $i++ if $key eq $value; } } ok(28, $i == 30) ; @keys = ('blurfl', keys(%h), 'dyick'); ok(29, $#keys == 31) ; #Check that the keys can be retrieved in order my @b = keys %h ; my @c = sort lexical @b ; ok(30, ArrayCompare(\@b, \@c)) ; $h{'foo'} = ''; ok(31, $h{'foo'} eq '' ) ; # Berkeley DB from version 2.4.10 to 3.0 does not allow null keys. # This feature was reenabled in version 3.1 of Berkeley DB. my $result = 0 ; if ($null_keys_allowed) { $h{''} = 'bar'; $result = ( $h{''} eq 'bar' ); } else { $result = 1 } ok(32, $result) ; # check cache overflow and numeric keys and contents my $ok = 1; for ($i = 1; $i < 200; $i++) { $h{$i + 0} = $i + 0; } for ($i = 1; $i < 200; $i++) { $ok = 0 unless $h{$i} == $i; } ok(33, $ok); ($dev,$ino,$mode,$nlink,$uid,$gid,$rdev,$size,$atime,$mtime,$ctime, $blksize,$blocks) = stat($Dfile); ok(34, $size > 0 ); @h{0..200} = 200..400; my @foo = @h{0..200}; ok(35, join(':',200..400) eq join(':',@foo) ); # Now check all the non-tie specific stuff # Check R_NOOVERWRITE flag will make put fail when attempting to overwrite # an existing record. my $status = $X->put( 'x', 'newvalue', R_NOOVERWRITE) ; ok(36, $status == 1 ); # check that the value of the key 'x' has not been changed by the # previous test ok(37, $h{'x'} eq 'X' ); # standard put $status = $X->put('key', 'value') ; ok(38, $status == 0 ); #check that previous put can be retrieved $value = 0 ; $status = $X->get('key', $value) ; ok(39, $status == 0 ); ok(40, $value eq 'value' ); # Attempting to delete an existing key should work $status = $X->del('q') ; ok(41, $status == 0 ); if ($null_keys_allowed) { $status = $X->del('') ; } else { $status = 0 ; } ok(42, $status == 0 ); # Make sure that the key deleted, cannot be retrieved ok(43, ! defined $h{'q'}) ; ok(44, ! defined $h{''}) ; undef $X ; untie %h ; ok(45, $X = tie(%h, 'DB_File',$Dfile, O_RDWR, 0640, $DB_BTREE )); # Attempting to delete a non-existant key should fail $status = $X->del('joe') ; ok(46, $status == 1 ); # Check the get interface # First a non-existing key $status = $X->get('aaaa', $value) ; ok(47, $status == 1 ); # Next an existing key $status = $X->get('a', $value) ; ok(48, $status == 0 ); ok(49, $value eq 'A' ); # seq # ### # use seq to find an approximate match $key = 'ke' ; $value = '' ; $status = $X->seq($key, $value, R_CURSOR) ; ok(50, $status == 0 ); ok(51, $key eq 'key' ); ok(52, $value eq 'value' ); # seq when the key does not match $key = 'zzz' ; $value = '' ; $status = $X->seq($key, $value, R_CURSOR) ; ok(53, $status == 1 ); # use seq to set the cursor, then delete the record @ the cursor. $key = 'x' ; $value = '' ; $status = $X->seq($key, $value, R_CURSOR) ; ok(54, $status == 0 ); ok(55, $key eq 'x' ); ok(56, $value eq 'X' ); $status = $X->del(0, R_CURSOR) ; ok(57, $status == 0 ); $status = $X->get('x', $value) ; ok(58, $status == 1 ); # ditto, but use put to replace the key/value pair. $key = 'y' ; $value = '' ; $status = $X->seq($key, $value, R_CURSOR) ; ok(59, $status == 0 ); ok(60, $key eq 'y' ); ok(61, $value eq 'Y' ); $key = "replace key" ; $value = "replace value" ; $status = $X->put($key, $value, R_CURSOR) ; ok(62, $status == 0 ); ok(63, $key eq 'replace key' ); ok(64, $value eq 'replace value' ); $status = $X->get('y', $value) ; ok(65, 1) ; # hard-wire to always pass. the previous test ($status == 1) # only worked because of a bug in 1.85/6 # use seq to walk forwards through a file $status = $X->seq($key, $value, R_FIRST) ; ok(66, $status == 0 ); my $previous = $key ; $ok = 1 ; while (($status = $X->seq($key, $value, R_NEXT)) == 0) { ($ok = 0), last if ($previous cmp $key) == 1 ; } ok(67, $status == 1 ); ok(68, $ok == 1 ); # use seq to walk backwards through a file $status = $X->seq($key, $value, R_LAST) ; ok(69, $status == 0 ); $previous = $key ; $ok = 1 ; while (($status = $X->seq($key, $value, R_PREV)) == 0) { ($ok = 0), last if ($previous cmp $key) == -1 ; #print "key = [$key] value = [$value]\n" ; } ok(70, $status == 1 ); ok(71, $ok == 1 ); # check seq FIRST/LAST # sync # #### $status = $X->sync ; ok(72, $status == 0 ); # fd # ## $status = $X->fd ; ok(73, $status != 0 ); undef $X ; untie %h ; unlink $Dfile; # Now try an in memory file my $Y; ok(74, $Y = tie(%h, 'DB_File',undef, O_RDWR|O_CREAT, 0640, $DB_BTREE )); # fd with an in memory file should return failure $status = $Y->fd ; ok(75, $status == -1 ); undef $Y ; untie %h ; # Duplicate keys my $bt = new DB_File::BTREEINFO ; $bt->{flags} = R_DUP ; my ($YY, %hh); ok(76, $YY = tie(%hh, 'DB_File', $Dfile, O_RDWR|O_CREAT, 0640, $bt )) ; $hh{'Wall'} = 'Larry' ; $hh{'Wall'} = 'Stone' ; # Note the duplicate key $hh{'Wall'} = 'Brick' ; # Note the duplicate key $hh{'Wall'} = 'Brick' ; # Note the duplicate key and value $hh{'Smith'} = 'John' ; $hh{'mouse'} = 'mickey' ; # first work in scalar context ok(77, scalar $YY->get_dup('Unknown') == 0 ); ok(78, scalar $YY->get_dup('Smith') == 1 ); ok(79, scalar $YY->get_dup('Wall') == 4 ); # now in list context my @unknown = $YY->get_dup('Unknown') ; ok(80, "@unknown" eq "" ); my @smith = $YY->get_dup('Smith') ; ok(81, "@smith" eq "John" ); { my @wall = $YY->get_dup('Wall') ; my %wall ; @wall{@wall} = @wall ; ok(82, (@wall == 4 && $wall{'Larry'} && $wall{'Stone'} && $wall{'Brick'}) ); } # hash my %unknown = $YY->get_dup('Unknown', 1) ; ok(83, keys %unknown == 0 ); my %smith = $YY->get_dup('Smith', 1) ; ok(84, keys %smith == 1 && $smith{'John'}) ; my %wall = $YY->get_dup('Wall', 1) ; ok(85, keys %wall == 3 && $wall{'Larry'} == 1 && $wall{'Stone'} == 1 && $wall{'Brick'} == 2); undef $YY ; untie %hh ; unlink $Dfile; # test multiple callbacks my $Dfile1 = "btree1" ; my $Dfile2 = "btree2" ; my $Dfile3 = "btree3" ; my $dbh1 = new DB_File::BTREEINFO ; $dbh1->{compare} = sub { no warnings 'numeric' ; $_[0] <=> $_[1] } ; my $dbh2 = new DB_File::BTREEINFO ; $dbh2->{compare} = sub { $_[0] cmp $_[1] } ; my $dbh3 = new DB_File::BTREEINFO ; $dbh3->{compare} = sub { length $_[0] <=> length $_[1] } ; my (%g, %k); tie(%h, 'DB_File',$Dfile1, O_RDWR|O_CREAT, 0640, $dbh1 ) or die $!; tie(%g, 'DB_File',$Dfile2, O_RDWR|O_CREAT, 0640, $dbh2 ) or die $!; tie(%k, 'DB_File',$Dfile3, O_RDWR|O_CREAT, 0640, $dbh3 ) or die $!; my @Keys = qw( 0123 12 -1234 9 987654321 def ) ; my (@srt_1, @srt_2, @srt_3); { no warnings 'numeric' ; @srt_1 = sort { $a <=> $b } @Keys ; } @srt_2 = sort { $a cmp $b } @Keys ; @srt_3 = sort { length $a <=> length $b } @Keys ; foreach (@Keys) { $h{$_} = 1 ; $g{$_} = 1 ; $k{$_} = 1 ; } sub ArrayCompare { my($a, $b) = @_ ; return 0 if @$a != @$b ; foreach (1 .. length @$a) { return 0 unless $$a[$_] eq $$b[$_] ; } 1 ; } ok(86, ArrayCompare (\@srt_1, [keys %h]) ); ok(87, ArrayCompare (\@srt_2, [keys %g]) ); ok(88, ArrayCompare (\@srt_3, [keys %k]) ); untie %h ; untie %g ; untie %k ; unlink $Dfile1, $Dfile2, $Dfile3 ; # clear # ##### ok(89, tie(%h, 'DB_File', $Dfile1, O_RDWR|O_CREAT, 0640, $DB_BTREE ) ); foreach (1 .. 10) { $h{$_} = $_ * 100 } # check that there are 10 elements in the hash $i = 0 ; while (($key,$value) = each(%h)) { $i++; } ok(90, $i == 10); # now clear the hash %h = () ; # check it is empty $i = 0 ; while (($key,$value) = each(%h)) { $i++; } ok(91, $i == 0); untie %h ; unlink $Dfile1 ; { # check that attempting to tie an array to a DB_BTREE will fail my $filename = "xyz" ; my @x ; eval { tie @x, 'DB_File', $filename, O_RDWR|O_CREAT, 0640, $DB_BTREE ; } ; ok(92, $@ =~ /^DB_File can only tie an associative array to a DB_BTREE database/) ; unlink $filename ; } { # sub-class test package Another ; use warnings ; use strict ; open(FILE, ">SubDB.pm") or die "Cannot open SubDB.pm: $!\n" ; print FILE <<'EOM' ; package SubDB ; use warnings ; use strict ; our (@ISA, @EXPORT); require Exporter ; use DB_File; @ISA=qw(DB_File); @EXPORT = @DB_File::EXPORT ; sub STORE { my $self = shift ; my $key = shift ; my $value = shift ; $self->SUPER::STORE($key, $value * 2) ; } sub FETCH { my $self = shift ; my $key = shift ; $self->SUPER::FETCH($key) - 1 ; } sub put { my $self = shift ; my $key = shift ; my $value = shift ; $self->SUPER::put($key, $value * 3) ; } sub get { my $self = shift ; $self->SUPER::get($_[0], $_[1]) ; $_[1] -= 2 ; } sub A_new_method { my $self = shift ; my $key = shift ; my $value = $self->FETCH($key) ; return "[[$value]]" ; } 1 ; EOM close FILE ; BEGIN { push @INC, '.'; } eval 'use SubDB ; '; main::ok(93, $@ eq "") ; my %h ; my $X ; eval ' $X = tie(%h, "SubDB","dbbtree.tmp", O_RDWR|O_CREAT, 0640, $DB_BTREE ); ' ; main::ok(94, $@ eq "") ; my $ret = eval '$h{"fred"} = 3 ; return $h{"fred"} ' ; main::ok(95, $@ eq "") ; main::ok(96, $ret == 5) ; my $value = 0; $ret = eval '$X->put("joe", 4) ; $X->get("joe", $value) ; return $value' ; main::ok(97, $@ eq "") ; main::ok(98, $ret == 10) ; $ret = eval ' R_NEXT eq main::R_NEXT ' ; main::ok(99, $@ eq "" ) ; main::ok(100, $ret == 1) ; $ret = eval '$X->A_new_method("joe") ' ; main::ok(101, $@ eq "") ; main::ok(102, $ret eq "[[11]]") ; undef $X; untie(%h); unlink "SubDB.pm", "dbbtree.tmp" ; } { # DBM Filter tests use warnings ; use strict ; my (%h, $db) ; my ($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ; unlink $Dfile; sub checkOutput { my($fk, $sk, $fv, $sv) = @_ ; return $fetch_key eq $fk && $store_key eq $sk && $fetch_value eq $fv && $store_value eq $sv && $_ eq 'original' ; } ok(103, $db = tie(%h, 'DB_File', $Dfile, O_RDWR|O_CREAT, 0640, $DB_BTREE ) ); $db->filter_fetch_key (sub { $fetch_key = $_ }) ; $db->filter_store_key (sub { $store_key = $_ }) ; $db->filter_fetch_value (sub { $fetch_value = $_}) ; $db->filter_store_value (sub { $store_value = $_ }) ; $_ = "original" ; $h{"fred"} = "joe" ; # fk sk fv sv ok(104, checkOutput( "", "fred", "", "joe")) ; ($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ; ok(105, $h{"fred"} eq "joe"); # fk sk fv sv ok(106, checkOutput( "", "fred", "joe", "")) ; ($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ; ok(107, $db->FIRSTKEY() eq "fred") ; # fk sk fv sv ok(108, checkOutput( "fred", "", "", "")) ; # replace the filters, but remember the previous set my ($old_fk) = $db->filter_fetch_key (sub { $_ = uc $_ ; $fetch_key = $_ }) ; my ($old_sk) = $db->filter_store_key (sub { $_ = lc $_ ; $store_key = $_ }) ; my ($old_fv) = $db->filter_fetch_value (sub { $_ = "[$_]"; $fetch_value = $_ }) ; my ($old_sv) = $db->filter_store_value (sub { s/o/x/g; $store_value = $_ }) ; ($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ; $h{"Fred"} = "Joe" ; # fk sk fv sv ok(109, checkOutput( "", "fred", "", "Jxe")) ; ($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ; ok(110, $h{"Fred"} eq "[Jxe]"); # fk sk fv sv ok(111, checkOutput( "", "fred", "[Jxe]", "")) ; ($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ; ok(112, $db->FIRSTKEY() eq "FRED") ; # fk sk fv sv ok(113, checkOutput( "FRED", "", "", "")) ; # put the original filters back $db->filter_fetch_key ($old_fk); $db->filter_store_key ($old_sk); $db->filter_fetch_value ($old_fv); $db->filter_store_value ($old_sv); ($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ; $h{"fred"} = "joe" ; ok(114, checkOutput( "", "fred", "", "joe")) ; ($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ; ok(115, $h{"fred"} eq "joe"); ok(116, checkOutput( "", "fred", "joe", "")) ; ($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ; ok(117, $db->FIRSTKEY() eq "fred") ; ok(118, checkOutput( "fred", "", "", "")) ; # delete the filters $db->filter_fetch_key (undef); $db->filter_store_key (undef); $db->filter_fetch_value (undef); $db->filter_store_value (undef); ($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ; $h{"fred"} = "joe" ; ok(119, checkOutput( "", "", "", "")) ; ($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ; ok(120, $h{"fred"} eq "joe"); ok(121, checkOutput( "", "", "", "")) ; ($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ; ok(122, $db->FIRSTKEY() eq "fred") ; ok(123, checkOutput( "", "", "", "")) ; undef $db ; untie %h; unlink $Dfile; } { # DBM Filter with a closure use warnings ; use strict ; my (%h, $db) ; unlink $Dfile; ok(124, $db = tie(%h, 'DB_File', $Dfile, O_RDWR|O_CREAT, 0640, $DB_BTREE ) ); my %result = () ; sub Closure { my ($name) = @_ ; my $count = 0 ; my @kept = () ; return sub { ++$count ; push @kept, $_ ; $result{$name} = "$name - $count: [@kept]" ; } } $db->filter_store_key(Closure("store key")) ; $db->filter_store_value(Closure("store value")) ; $db->filter_fetch_key(Closure("fetch key")) ; $db->filter_fetch_value(Closure("fetch value")) ; $_ = "original" ; $h{"fred"} = "joe" ; ok(125, $result{"store key"} eq "store key - 1: [fred]"); ok(126, $result{"store value"} eq "store value - 1: [joe]"); ok(127, ! defined $result{"fetch key"} ); ok(128, ! defined $result{"fetch value"} ); ok(129, $_ eq "original") ; ok(130, $db->FIRSTKEY() eq "fred") ; ok(131, $result{"store key"} eq "store key - 1: [fred]"); ok(132, $result{"store value"} eq "store value - 1: [joe]"); ok(133, $result{"fetch key"} eq "fetch key - 1: [fred]"); ok(134, ! defined $result{"fetch value"} ); ok(135, $_ eq "original") ; $h{"jim"} = "john" ; ok(136, $result{"store key"} eq "store key - 2: [fred jim]"); ok(137, $result{"store value"} eq "store value - 2: [joe john]"); ok(138, $result{"fetch key"} eq "fetch key - 1: [fred]"); ok(139, ! defined $result{"fetch value"} ); ok(140, $_ eq "original") ; ok(141, $h{"fred"} eq "joe"); ok(142, $result{"store key"} eq "store key - 3: [fred jim fred]"); ok(143, $result{"store value"} eq "store value - 2: [joe john]"); ok(144, $result{"fetch key"} eq "fetch key - 1: [fred]"); ok(145, $result{"fetch value"} eq "fetch value - 1: [joe]"); ok(146, $_ eq "original") ; undef $db ; untie %h; unlink $Dfile; } { # DBM Filter recursion detection use warnings ; use strict ; my (%h, $db) ; unlink $Dfile; ok(147, $db = tie(%h, 'DB_File', $Dfile, O_RDWR|O_CREAT, 0640, $DB_BTREE ) ); $db->filter_store_key (sub { $_ = $h{$_} }) ; eval '$h{1} = 1234' ; ok(148, $@ =~ /^recursion detected in filter_store_key at/ ); undef $db ; untie %h; unlink $Dfile; } { # Examples from the POD my $file = "xyzt" ; { my $redirect = new Redirect $file ; # BTREE example 1 ### use warnings FATAL => qw(all) ; use strict ; use DB_File ; my %h ; sub Compare { my ($key1, $key2) = @_ ; "\L$key1" cmp "\L$key2" ; } # specify the Perl sub that will do the comparison $DB_BTREE->{'compare'} = \&Compare ; unlink "tree" ; tie %h, "DB_File", "tree", O_RDWR|O_CREAT, 0640, $DB_BTREE or die "Cannot open file 'tree': $!\n" ; # Add a key/value pair to the file $h{'Wall'} = 'Larry' ; $h{'Smith'} = 'John' ; $h{'mouse'} = 'mickey' ; $h{'duck'} = 'donald' ; # Delete delete $h{"duck"} ; # Cycle through the keys printing them in order. # Note it is not necessary to sort the keys as # the btree will have kept them in order automatically. foreach (keys %h) { print "$_\n" } untie %h ; unlink "tree" ; } delete $DB_BTREE->{'compare'} ; ok(149, docat_del($file) eq <<'EOM') ; mouse Smith Wall EOM { my $redirect = new Redirect $file ; # BTREE example 2 ### use warnings FATAL => qw(all) ; use strict ; use DB_File ; my ($filename, %h); $filename = "tree" ; unlink $filename ; # Enable duplicate records $DB_BTREE->{'flags'} = R_DUP ; tie %h, "DB_File", $filename, O_RDWR|O_CREAT, 0640, $DB_BTREE or die "Cannot open $filename: $!\n"; # Add some key/value pairs to the file $h{'Wall'} = 'Larry' ; $h{'Wall'} = 'Brick' ; # Note the duplicate key $h{'Wall'} = 'Brick' ; # Note the duplicate key and value $h{'Smith'} = 'John' ; $h{'mouse'} = 'mickey' ; # iterate through the associative array # and print each key/value pair. foreach (keys %h) { print "$_ -> $h{$_}\n" } untie %h ; unlink $filename ; } ok(150, docat_del($file) eq ($db185mode ? <<'EOM' : <<'EOM') ) ; Smith -> John Wall -> Brick Wall -> Brick Wall -> Brick mouse -> mickey EOM Smith -> John Wall -> Larry Wall -> Larry Wall -> Larry mouse -> mickey EOM { my $redirect = new Redirect $file ; # BTREE example 3 ### use warnings FATAL => qw(all) ; use strict ; use DB_File ; my ($filename, $x, %h, $status, $key, $value); $filename = "tree" ; unlink $filename ; # Enable duplicate records $DB_BTREE->{'flags'} = R_DUP ; $x = tie %h, "DB_File", $filename, O_RDWR|O_CREAT, 0640, $DB_BTREE or die "Cannot open $filename: $!\n"; # Add some key/value pairs to the file $h{'Wall'} = 'Larry' ; $h{'Wall'} = 'Brick' ; # Note the duplicate key $h{'Wall'} = 'Brick' ; # Note the duplicate key and value $h{'Smith'} = 'John' ; $h{'mouse'} = 'mickey' ; # iterate through the btree using seq # and print each key/value pair. $key = $value = 0 ; for ($status = $x->seq($key, $value, R_FIRST) ; $status == 0 ; $status = $x->seq($key, $value, R_NEXT) ) { print "$key -> $value\n" } undef $x ; untie %h ; } ok(151, docat_del($file) eq ($db185mode == 1 ? <<'EOM' : <<'EOM') ) ; Smith -> John Wall -> Brick Wall -> Brick Wall -> Larry mouse -> mickey EOM Smith -> John Wall -> Larry Wall -> Brick Wall -> Brick mouse -> mickey EOM { my $redirect = new Redirect $file ; # BTREE example 4 ### use warnings FATAL => qw(all) ; use strict ; use DB_File ; my ($filename, $x, %h); $filename = "tree" ; # Enable duplicate records $DB_BTREE->{'flags'} = R_DUP ; $x = tie %h, "DB_File", $filename, O_RDWR|O_CREAT, 0640, $DB_BTREE or die "Cannot open $filename: $!\n"; my $cnt = $x->get_dup("Wall") ; print "Wall occurred $cnt times\n" ; my %hash = $x->get_dup("Wall", 1) ; print "Larry is there\n" if $hash{'Larry'} ; print "There are $hash{'Brick'} Brick Walls\n" ; my @list = sort $x->get_dup("Wall") ; print "Wall => [@list]\n" ; @list = $x->get_dup("Smith") ; print "Smith => [@list]\n" ; @list = $x->get_dup("Dog") ; print "Dog => [@list]\n" ; undef $x ; untie %h ; } ok(152, docat_del($file) eq <<'EOM') ; Wall occurred 3 times Larry is there There are 2 Brick Walls Wall => [Brick Brick Larry] Smith => [John] Dog => [] EOM { my $redirect = new Redirect $file ; # BTREE example 5 ### use warnings FATAL => qw(all) ; use strict ; use DB_File ; my ($filename, $x, %h, $found); $filename = "tree" ; # Enable duplicate records $DB_BTREE->{'flags'} = R_DUP ; $x = tie %h, "DB_File", $filename, O_RDWR|O_CREAT, 0640, $DB_BTREE or die "Cannot open $filename: $!\n"; $found = ( $x->find_dup("Wall", "Larry") == 0 ? "" : "not") ; print "Larry Wall is $found there\n" ; $found = ( $x->find_dup("Wall", "Harry") == 0 ? "" : "not") ; print "Harry Wall is $found there\n" ; undef $x ; untie %h ; } ok(153, docat_del($file) eq <<'EOM') ; Larry Wall is there Harry Wall is not there EOM { my $redirect = new Redirect $file ; # BTREE example 6 ### use warnings FATAL => qw(all) ; use strict ; use DB_File ; my ($filename, $x, %h, $found); $filename = "tree" ; # Enable duplicate records $DB_BTREE->{'flags'} = R_DUP ; $x = tie %h, "DB_File", $filename, O_RDWR|O_CREAT, 0640, $DB_BTREE or die "Cannot open $filename: $!\n"; $x->del_dup("Wall", "Larry") ; $found = ( $x->find_dup("Wall", "Larry") == 0 ? "" : "not") ; print "Larry Wall is $found there\n" ; undef $x ; untie %h ; unlink $filename ; } ok(154, docat_del($file) eq <<'EOM') ; Larry Wall is not there EOM { my $redirect = new Redirect $file ; # BTREE example 7 ### use warnings FATAL => qw(all) ; use strict ; use DB_File ; use Fcntl ; my ($filename, $x, %h, $st, $key, $value); sub match { my $key = shift ; my $value = 0; my $orig_key = $key ; $x->seq($key, $value, R_CURSOR) ; print "$orig_key\t-> $key\t-> $value\n" ; } $filename = "tree" ; unlink $filename ; $x = tie %h, "DB_File", $filename, O_RDWR|O_CREAT, 0640, $DB_BTREE or die "Cannot open $filename: $!\n"; # Add some key/value pairs to the file $h{'mouse'} = 'mickey' ; $h{'Wall'} = 'Larry' ; $h{'Walls'} = 'Brick' ; $h{'Smith'} = 'John' ; $key = $value = 0 ; print "IN ORDER\n" ; for ($st = $x->seq($key, $value, R_FIRST) ; $st == 0 ; $st = $x->seq($key, $value, R_NEXT) ) { print "$key -> $value\n" } print "\nPARTIAL MATCH\n" ; match "Wa" ; match "A" ; match "a" ; undef $x ; untie %h ; unlink $filename ; } ok(155, docat_del($file) eq <<'EOM') ; IN ORDER Smith -> John Wall -> Larry Walls -> Brick mouse -> mickey PARTIAL MATCH Wa -> Wall -> Larry A -> Smith -> John a -> mouse -> mickey EOM } #{ # # R_SETCURSOR # use strict ; # my (%h, $db) ; # unlink $Dfile; # # ok(156, $db = tie(%h, 'DB_File', $Dfile, O_RDWR|O_CREAT, 0640, $DB_BTREE ) ); # # $h{abc} = 33 ; # my $k = "newest" ; # my $v = 44 ; # my $status = $db->put($k, $v, R_SETCURSOR) ; # print "status = [$status]\n" ; # ok(157, $status == 0) ; # $status = $db->del($k, R_CURSOR) ; # print "status = [$status]\n" ; # ok(158, $status == 0) ; # $k = "newest" ; # ok(159, $db->get($k, $v, R_CURSOR)) ; # # ok(160, keys %h == 1) ; # # undef $db ; # untie %h; # unlink $Dfile; #} { # Bug ID 20001013.009 # # test that $hash{KEY} = undef doesn't produce the warning # Use of uninitialized value in null operation use warnings ; use strict ; use DB_File ; unlink $Dfile; my %h ; my $a = ""; local $SIG{__WARN__} = sub {$a = $_[0]} ; tie %h, 'DB_File', $Dfile, O_RDWR|O_CREAT, 0664, $DB_BTREE or die "Can't open file: $!\n" ; $h{ABC} = undef; ok(156, $a eq "") ; untie %h ; unlink $Dfile; } { # test that %hash = () doesn't produce the warning # Argument "" isn't numeric in entersub use warnings ; use strict ; use DB_File ; unlink $Dfile; my %h ; my $a = ""; local $SIG{__WARN__} = sub {$a = $_[0]} ; tie %h, 'DB_File', $Dfile, O_RDWR|O_CREAT, 0664, $DB_BTREE or die "Can't open file: $!\n" ; %h = (); ; ok(157, $a eq "") ; untie %h ; unlink $Dfile; } { # When iterating over a tied hash using "each", the key passed to FETCH # will be recycled and passed to NEXTKEY. If a Source Filter modifies the # key in FETCH via a filter_fetch_key method we need to check that the # modified key doesn't get passed to NEXTKEY. # Also Test "keys" & "values" while we are at it. use warnings ; use strict ; use DB_File ; unlink $Dfile; my $bad_key = 0 ; my %h = () ; my $db ; ok(158, $db = tie(%h, 'DB_File', $Dfile, O_RDWR|O_CREAT, 0640, $DB_BTREE ) ); $db->filter_fetch_key (sub { $_ =~ s/^Beta_/Alpha_/ if defined $_}) ; $db->filter_store_key (sub { $bad_key = 1 if /^Beta_/ ; $_ =~ s/^Alpha_/Beta_/}) ; $h{'Alpha_ABC'} = 2 ; $h{'Alpha_DEF'} = 5 ; ok(159, $h{'Alpha_ABC'} == 2); ok(160, $h{'Alpha_DEF'} == 5); my ($k, $v) = ("",""); while (($k, $v) = each %h) {} ok(161, $bad_key == 0); $bad_key = 0 ; foreach $k (keys %h) {} ok(162, $bad_key == 0); $bad_key = 0 ; foreach $v (values %h) {} ok(163, $bad_key == 0); undef $db ; untie %h ; unlink $Dfile; } exit ;