# See the file LICENSE for redistribution information. # # Copyright (c) 1996, 1997, 1998, 1999, 2000 # Sleepycat Software. All rights reserved. # # $Id: test014.tcl,v 11.19 2000/08/25 14:21:54 sue Exp $ # # DB Test 14 {access method} # # Partial put test, small data, replacing with same size. The data set # consists of the first nentries of the dictionary. We will insert them # (and retrieve them) as we do in test 1 (equal key/data pairs). Then # we'll try to perform partial puts of some characters at the beginning, # some at the end, and some at the middle. proc test014 { method {nentries 10000} args } { set fixed 0 set args [convert_args $method $args] if { [is_fixed_length $method] == 1 } { set fixed 1 } puts "Test014: $method ($args) $nentries equal key/data pairs, put test" # flagp indicates whether this is a postpend or a # normal partial put set flagp 0 eval {test014_body $method $flagp 1 1 $nentries} $args eval {test014_body $method $flagp 1 4 $nentries} $args eval {test014_body $method $flagp 2 4 $nentries} $args eval {test014_body $method $flagp 1 128 $nentries} $args eval {test014_body $method $flagp 2 16 $nentries} $args if { $fixed == 0 } { eval {test014_body $method $flagp 0 1 $nentries} $args eval {test014_body $method $flagp 0 4 $nentries} $args eval {test014_body $method $flagp 0 128 $nentries} $args # POST-PENDS : # partial put data after the end of the existent record # chars: number of empty spaces that will be padded with null # increase: is the length of the str to be appended (after pad) # set flagp 1 eval {test014_body $method $flagp 1 1 $nentries} $args eval {test014_body $method $flagp 4 1 $nentries} $args eval {test014_body $method $flagp 128 1 $nentries} $args eval {test014_body $method $flagp 1 4 $nentries} $args eval {test014_body $method $flagp 1 128 $nentries} $args } puts "Test014 complete." } proc test014_body { method flagp chars increase {nentries 10000} args } { source ./include.tcl set omethod [convert_method $method] if { [is_fixed_length $method] == 1 && $chars != $increase } { puts "Test014: $method: skipping replace\ $chars chars with string $increase times larger." return } if { $flagp == 1} { puts "Test014: Postpending string of len $increase with \ gap $chars." } else { puts "Test014: Replace $chars chars with string \ $increase times larger" } # Create the database and open the dictionary 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/test014.db set env NULL } else { set testfile test014.db incr eindex set env [lindex $args $eindex] } set t1 $testdir/t1 set t2 $testdir/t2 set t3 $testdir/t3 cleanup $testdir $env set db [eval {berkdb_open \ -create -truncate -mode 0644} $args {$omethod $testfile}] error_check_good dbopen [is_valid_db $db] TRUE set gflags "" set pflags "" set txn "" set count 0 if { [is_record_based $method] == 1 } { append gflags " -recno" } puts "\tTest014.a: put/get loop" # Here is the loop where we put and get each key/data pair # We will do the initial put and then three Partial Puts # for the beginning, middle and end of the string. set did [open $dict] while { [gets $did str] != -1 && $count < $nentries } { if { [is_record_based $method] == 1 } { set key [expr $count + 1] } else { set key $str } if { $flagp == 1 } { # this is for postpend only global dvals # initial put set ret [$db put $key $str] error_check_good dbput $ret 0 set offset [string length $str] # increase is the actual number of new bytes # to be postpended (besides the null padding) set data [repeat "P" $increase] # chars is the amount of padding in between # the old data and the new set len [expr $offset + $chars + $increase] set dvals($key) [binary format \ a[set offset]x[set chars]a[set increase] \ $str $data] set offset [expr $offset + $chars] set ret [$db put -partial [list $offset 0] $key $data] error_check_good dbput:post $ret 0 } else { partial_put $method $db $txn \ $gflags $key $str $chars $increase } incr count } close $did # Now make sure that everything looks OK puts "\tTest014.b: check entire file contents" dump_file $db $txn $t1 test014.check error_check_good db_close [$db close] 0 # Now compare the keys to see if they match the dictionary (or ints) if { [is_record_based $method] == 1 } { set oid [open $t2 w] for {set i 1} {$i <= $nentries} {set i [incr i]} { puts $oid $i } close $oid file rename -force $t1 $t3 } else { set q q filehead $nentries $dict $t3 filesort $t3 $t2 filesort $t1 $t3 } error_check_good \ Test014:diff($t3,$t2) [filecmp $t3 $t2] 0 puts "\tTest014.c: close, open, and dump file" # Now, reopen the file and run the last test again. open_and_dump_file $testfile $env $txn \ $t1 test014.check dump_file_direction "-first" "-next" if { [string compare $omethod "-recno"] != 0 } { filesort $t2 $t3 file rename -force $t3 $t2 filesort $t1 $t3 } error_check_good \ Test014:diff($t3,$t2) [filecmp $t3 $t2] 0 # Now, reopen the file and run the last test again in the # reverse direction. puts "\tTest014.d: close, open, and dump file in reverse direction" open_and_dump_file $testfile $env $txn $t1 \ test014.check dump_file_direction "-last" "-prev" if { [string compare $omethod "-recno"] != 0 } { filesort $t2 $t3 file rename -force $t3 $t2 filesort $t1 $t3 } error_check_good \ Test014:diff($t3,$t2) [filecmp $t3 $t2] 0 } # Check function for test014; keys and data are identical proc test014.check { key data } { global dvals error_check_good key"$key"_exists [info exists dvals($key)] 1 error_check_good "data mismatch for key $key" $data $dvals($key) }