# See the file LICENSE for redistribution information. # # Copyright (c) 1996-2009 Oracle. All rights reserved. # # $Id$ # # TEST test039 # TEST DB_GET_BOTH/DB_GET_BOTH_RANGE on deleted items without comparison # TEST function. # TEST # TEST Use the first 10,000 entries from the dictionary. Insert each with # TEST self as key and "ndups" duplicates. For the data field, prepend the # TEST letters of the alphabet in a random order so we force the duplicate # TEST sorting code to do something. By setting ndups large, we can make # TEST this an off-page test. # TEST # TEST Test the DB_GET_BOTH and DB_GET_BOTH_RANGE functionality by retrieving # TEST each dup in the file explicitly. Then remove each duplicate and try # TEST the retrieval again. proc test039 { method {nentries 10000} {ndups 5} {tnum "039"} args } { global alphabet global rand_init source ./include.tcl berkdb srand $rand_init set args [convert_args $method $args] set checkargs [split_partition_args $args] set omethod [convert_method $method] # Btree with compression does not support unsorted duplicates. if { [is_compressed $args] == 1 } { puts "Test$tnum skipping for btree with compression." return } if { [is_record_based $method] == 1 || \ [is_rbtree $method] == 1 } { puts "Test$tnum skipping for method $method" return } # Create the database and open the dictionary set txnenv 0 set eindex [lsearch -exact $args "-env"] # # If we are using an env, then testfile should just be the db name. # Otherwise it is the test directory and the name. if { $eindex == -1 } { set testfile $testdir/test$tnum.db set checkdb $testdir/checkdb.db set env NULL } else { set testfile test$tnum.db set checkdb checkdb.db incr eindex set env [lindex $args $eindex] set txnenv [is_txnenv $env] if { $txnenv == 1 } { append args " -auto_commit " append checkargs " -auto_commit " # # If we are using txns and running with the # default, set the default down a bit. # if { $nentries == 10000 } { set nentries 100 } reduce_dups nentries ndups } set testdir [get_home $env] } set t1 $testdir/t1 set t2 $testdir/t2 set t3 $testdir/t3 cleanup $testdir $env puts "Test$tnum: $method $nentries \ small $ndups unsorted dup key/data pairs" set db [eval {berkdb_open -create -mode 0644 \ $omethod -dup} $args {$testfile}] error_check_good dbopen [is_valid_db $db] TRUE set did [open $dict] set check_db [eval \ {berkdb_open -create -mode 0644 -hash} $checkargs {$checkdb}] error_check_good dbopen:check_db [is_valid_db $check_db] TRUE set pflags "" set gflags "" set txn "" set count 0 # Here is the loop where we put and get each key/data pair puts "\tTest$tnum.a: Put/get loop" if { $txnenv == 1 } { set t [$env txn] error_check_good txn [is_valid_txn $t $env] TRUE set txn "-txn $t" } set dbc [eval {$db cursor} $txn] error_check_good cursor_open [is_valid_cursor $dbc $db] TRUE while { [gets $did str] != -1 && $count < $nentries } { set dups "" for { set i 1 } { $i <= $ndups } { incr i } { set pref \ [string index $alphabet [berkdb random_int 0 25]] set pref $pref[string \ index $alphabet [berkdb random_int 0 25]] while { [string first $pref $dups] != -1 } { set pref [string toupper $pref] if { [string first $pref $dups] != -1 } { set pref [string index $alphabet \ [berkdb random_int 0 25]] set pref $pref[string index $alphabet \ [berkdb random_int 0 25]] } } if { [string length $dups] == 0 } { set dups $pref } else { set dups "$dups $pref" } set datastr $pref:$str set ret [eval {$db put} \ $txn $pflags {$str [chop_data $method $datastr]}] error_check_good put $ret 0 } set ret [eval {$check_db put} \ $txn $pflags {$str [chop_data $method $dups]}] error_check_good checkdb_put $ret 0 # Now retrieve all the keys matching this key set x 0 set lastdup "" for {set ret [$dbc get -set $str]} \ {[llength $ret] != 0} \ {set ret [$dbc get -nextdup] } { set k [lindex [lindex $ret 0] 0] if { [string compare $k $str] != 0 } { break } set datastr [lindex [lindex $ret 0] 1] if {[string length $datastr] == 0} { break } set xx [expr $x * 3] set check_data \ [string range $dups $xx [expr $xx + 1]]:$k error_check_good retrieve $datastr $check_data incr x } error_check_good "Test$tnum:ndups:$str" $x $ndups incr count } error_check_good cursor_close [$dbc close] 0 if { $txnenv == 1 } { error_check_good txn [$t commit] 0 } close $did # Now check the duplicates, then delete then recheck puts "\tTest$tnum.b: Checking and Deleting duplicates" if { $txnenv == 1 } { set t [$env txn] error_check_good txn [is_valid_txn $t $env] TRUE set txn "-txn $t" } set dbc [eval {$db cursor} $txn] error_check_good cursor_open [is_valid_cursor $dbc $db] TRUE set check_c [eval {$check_db cursor} $txn] error_check_good cursor_open [is_valid_cursor $check_c $check_db] TRUE for {set ndx 0} {$ndx < $ndups} {incr ndx} { for {set ret [$check_c get -first]} \ {[llength $ret] != 0} \ {set ret [$check_c get -next] } { set k [lindex [lindex $ret 0] 0] set d [lindex [lindex $ret 0] 1] error_check_bad data_check:$d [string length $d] 0 set nn [expr $ndx * 3] set pref [string range $d $nn [expr $nn + 1]] set data $pref:$k set ret [$dbc get -get_both $k $data] error_check_good \ get_both_key:$k [lindex [lindex $ret 0] 0] $k error_check_good \ get_both_data:$k [lindex [lindex $ret 0] 1] $data set ret [$dbc del] error_check_good del $ret 0 set ret [$dbc get -get_both $k $data] error_check_good get_both:$k [llength $ret] 0 set ret [$dbc get -get_both_range $k $data] error_check_good get_both_range:$k [llength $ret] 0 if {$ndx != 0} { set n [expr ($ndx - 1) * 3] set pref [string range $d $n [expr $n + 1]] set data $pref:$k set ret [$dbc get -get_both $k $data] error_check_good error_case:$k [llength $ret] 0 } } } error_check_good check_c:close [$check_c close] 0 error_check_good dbc_close [$dbc close] 0 if { $txnenv == 1 } { error_check_good txn [$t commit] 0 } error_check_good check_db:close [$check_db close] 0 error_check_good db_close [$db close] 0 }