# See the file LICENSE for redistribution information. # # Copyright (c) 1999,2008 Oracle. All rights reserved. # # $Id: test065.tcl,v 12.6 2008/01/08 20:58:53 bostic Exp $ # # TEST test065 # TEST Test of DB->stat, both -DB_FAST_STAT and row # TEST counts with DB->stat -txn. proc test065 { method args } { source ./include.tcl global errorCode global alphabet set nentries 10000 set args [convert_args $method $args] set omethod [convert_method $method] set tnum "065" 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 env NULL } else { set testfile test$tnum.db incr eindex set env [lindex $args $eindex] set txnenv [is_txnenv $env] if { $txnenv == 1 } { append args " -auto_commit " # # If we are using txns and running with the # default, set the default down a bit. # if { $nentries == 10000 } { set nentries 100 } } set testdir [get_home $env] } cleanup $testdir $env puts "Test$tnum: $method ($args) DB->stat(DB_FAST_STAT) test." puts "\tTest$tnum.a: Create database and check it while empty." set db [eval {berkdb_open_noerr -create -mode 0644} \ $omethod $args $testfile] error_check_good db_open [is_valid_db $db] TRUE set ret [catch {eval $db stat -faststat} res] error_check_good db_close [$db close] 0 if { ([is_record_based $method] && ![is_queue $method]) \ || [is_rbtree $method] } { error_check_good recordcount_ok [is_substr $res \ "{{Number of keys} 0}"] 1 } else { puts "\tTest$tnum: Test complete for method $method." return } # If we've got this far, we're on an access method for # which record counts makes sense. Thus, we no longer # catch EINVALs, and no longer care about __db_errs. set db [eval {berkdb_open -create -mode 0644} $omethod $args $testfile] puts "\tTest$tnum.b: put $nentries keys." if { [is_record_based $method] } { set gflags " -recno " set keypfx "" } else { set gflags "" set keypfx "key" } set txn "" set data [pad_data $method $alphabet] for { set ndx 1 } { $ndx <= $nentries } { incr ndx } { if { $txnenv == 1 } { set t [$env txn] error_check_good txn [is_valid_txn $t $env] TRUE set txn "-txn $t" } set ret [eval {$db put} $txn {$keypfx$ndx $data}] error_check_good db_put $ret 0 set statret [eval {$db stat} $txn] set rowcount [getstats $statret "Number of records"] error_check_good rowcount $rowcount $ndx if { $txnenv == 1 } { error_check_good txn [$t commit] 0 } } set ret [$db stat -faststat] error_check_good recordcount_after_puts \ [is_substr $ret "{{Number of keys} $nentries}"] 1 puts "\tTest$tnum.c: delete 90% of keys." set end [expr {$nentries / 10 * 9}] for { set ndx 1 } { $ndx <= $end } { incr ndx } { if { $txnenv == 1 } { set t [$env txn] error_check_good txn [is_valid_txn $t $env] TRUE set txn "-txn $t" } if { [is_rrecno $method] == 1 } { # if we're renumbering, when we hit key 5001 we'll # have deleted 5000 and we'll croak! So delete key # 1, repeatedly. set ret [eval {$db del} $txn {[concat $keypfx 1]}] set statret [eval {$db stat} $txn] set rowcount [getstats $statret "Number of records"] error_check_good rowcount $rowcount [expr $nentries - $ndx] } else { set ret [eval {$db del} $txn {$keypfx$ndx}] set rowcount [getstats $statret "Number of records"] error_check_good rowcount $rowcount $nentries } error_check_good db_del $ret 0 if { $txnenv == 1 } { error_check_good txn [$t commit] 0 } } set ret [$db stat -faststat] if { [is_rrecno $method] == 1 || [is_rbtree $method] == 1 } { # We allow renumbering--thus the stat should return 10% # of nentries. error_check_good recordcount_after_dels [is_substr $ret \ "{{Number of keys} [expr {$nentries / 10}]}"] 1 } else { # No renumbering--no change in RECORDCOUNT! error_check_good recordcount_after_dels \ [is_substr $ret "{{Number of keys} $nentries}"] 1 } puts "\tTest$tnum.d: put new keys at the beginning." set end [expr {$nentries / 10 * 8}] for { set ndx 1 } { $ndx <= $end } {incr ndx } { if { $txnenv == 1 } { set t [$env txn] error_check_good txn [is_valid_txn $t $env] TRUE set txn "-txn $t" } set ret [eval {$db put} $txn {$keypfx$ndx $data}] error_check_good db_put_beginning $ret 0 if { $txnenv == 1 } { error_check_good txn [$t commit] 0 } } set ret [$db stat -faststat] if { [is_rrecno $method] == 1 } { # With renumbering we're back up to 80% of $nentries error_check_good recordcount_after_dels [is_substr $ret \ "{{Number of keys} [expr {$nentries / 10 * 8}]}"] 1 } elseif { [is_rbtree $method] == 1 } { # Total records in a btree is now 90% of $nentries error_check_good recordcount_after_dels [is_substr $ret \ "{{Number of keys} [expr {$nentries / 10 * 9}]}"] 1 } else { # No renumbering--still no change in RECORDCOUNT. error_check_good recordcount_after_dels [is_substr $ret \ "{{Number of keys} $nentries}"] 1 } puts "\tTest$tnum.e: put new keys at the end." set start [expr {1 + $nentries / 10 * 9}] set end [expr {($nentries / 10 * 9) + ($nentries / 10 * 8)}] for { set ndx $start } { $ndx <= $end } { incr ndx } { if { $txnenv == 1 } { set t [$env txn] error_check_good txn [is_valid_txn $t $env] TRUE set txn "-txn $t" } set ret [eval {$db put} $txn {$keypfx$ndx $data}] error_check_good db_put_end $ret 0 if { $txnenv == 1 } { error_check_good txn [$t commit] 0 } } set ret [$db stat -faststat] if { [is_rbtree $method] != 1 } { # If this is a recno database, the record count should be up # to (1.7 x nentries), the largest number we've seen, with # or without renumbering. error_check_good recordcount_after_puts2 [is_substr $ret \ "{{Number of keys} [expr {$start - 1 + $nentries / 10 * 8}]}"] 1 } else { # In an rbtree, 1000 of those keys were overwrites, so there # are (.7 x nentries) new keys and (.9 x nentries) old keys # for a total of (1.6 x nentries). error_check_good recordcount_after_puts2 [is_substr $ret \ "{{Number of keys} [expr {$start -1 + $nentries / 10 * 7}]}"] 1 } error_check_good db_close [$db close] 0 }