# See the file LICENSE for redistribution information. # # Copyright (c) 1999, 2000 # Sleepycat Software. All rights reserved. # # $Id: sdb003.tcl,v 11.17 2000/08/25 14:21:52 sue Exp $ # # Sub DB Test 3 {access method} # Use the first 10,000 entries from the dictionary as subdbnames. # Insert each with entry as name of subdatabase and a partial list as key/data. # After all are entered, retrieve all; compare output to original. # Close file, reopen, do retrieve and re-verify. proc subdb003 { method {nentries 1000} args } { source ./include.tcl set args [convert_args $method $args] set omethod [convert_method $method] if { [is_queue $method] == 1 } { puts "Subdb003: skipping for method $method" return } puts "Subdb003: $method ($args) many subdb tests" # Create the database and open the dictionary set testfile $testdir/subdb003.db set t1 $testdir/t1 set t2 $testdir/t2 set t3 $testdir/t3 cleanup $testdir NULL set pflags "" set gflags "" set txn "" set fcount 0 if { [is_record_based $method] == 1 } { set checkfunc subdb003_recno.check append gflags " -recno" } else { set checkfunc subdb003.check } # Here is the loop where we put and get each key/data pair set ndataent 10 set fdid [open $dict] while { [gets $fdid str] != -1 && $fcount < $nentries } { set subdb $str set db [eval {berkdb_open -create -mode 0644} \ $args {$omethod $testfile $subdb}] error_check_good dbopen [is_valid_db $db] TRUE set count 0 set did [open $dict] while { [gets $did str] != -1 && $count < $ndataent } { if { [is_record_based $method] == 1 } { global kvals set key [expr $count + 1] set kvals($key) [pad_data $method $str] } else { set key $str } set ret [eval {$db put} \ $txn $pflags {$key [chop_data $method $str]}] error_check_good put $ret 0 set ret [eval {$db get} $gflags {$key}] error_check_good get $ret [list [list $key [pad_data $method $str]]] incr count } close $did incr fcount dump_file $db $txn $t1 $checkfunc error_check_good db_close [$db close] 0 # Now compare the keys to see if they match if { [is_record_based $method] == 1 } { set oid [open $t2 w] for {set i 1} {$i <= $ndataent} {set i [incr i]} { puts $oid $i } close $oid file rename -force $t1 $t3 } else { set q q filehead $ndataent $dict $t3 filesort $t3 $t2 filesort $t1 $t3 } error_check_good Subdb003:diff($t3,$t2) \ [filecmp $t3 $t2] 0 # Now, reopen the file and run the last test again. open_and_dump_subfile $testfile NULL $txn $t1 $checkfunc \ dump_file_direction "-first" "-next" $subdb if { [is_record_based $method] != 1 } { filesort $t1 $t3 } error_check_good Subdb003:diff($t2,$t3) \ [filecmp $t2 $t3] 0 # Now, reopen the file and run the last test again in the # reverse direction. open_and_dump_subfile $testfile NULL $txn $t1 $checkfunc \ dump_file_direction "-last" "-prev" $subdb if { [is_record_based $method] != 1 } { filesort $t1 $t3 } error_check_good Subdb003:diff($t3,$t2) \ [filecmp $t3 $t2] 0 if { [expr $fcount % 100] == 0 } { puts -nonewline "$fcount " flush stdout } } puts "" } # Check function for Subdb003; keys and data are identical proc subdb003.check { key data } { error_check_good "key/data mismatch" $data $key } proc subdb003_recno.check { key data } { global dict global kvals error_check_good key"$key"_exists [info exists kvals($key)] 1 error_check_good "key/data mismatch, key $key" $data $kvals($key) }