gecko-dev/db/test/test001.tcl

122 строки
3.4 KiB
Tcl

# See the file LICENSE for redistribution information.
#
# Copyright (c) 1996, 1997, 1998
# Sleepycat Software. All rights reserved.
#
# @(#)test001.tcl 10.7 (Sleepycat) 4/26/98
#
# DB Test 1 {access method}
# Use the first 10,000 entries from the dictionary.
# Insert each with self as key and data; retrieve each.
# After all are entered, retrieve all; compare output to original.
# Close file, reopen, do retrieve and re-verify.
proc test001 { method {nentries 10000} args } {
set args [convert_args $method $args]
set method [convert_method $method]
puts "Test001: $method ($args) $nentries equal key/data pairs"
# Get global declarations since tcl doesn't support
# any useful equivalent to #defines!
source ./include.tcl
# Create the database and open the dictionary
set testfile test001.db
set t1 $testdir/t1
set t2 $testdir/t2
set t3 $testdir/t3
cleanup $testdir
set db [eval [concat dbopen \
$testfile [expr $DB_CREATE | $DB_TRUNCATE] 0644 $method $args]]
error_check_good dbopen [is_valid_db $db] TRUE
set did [open $dict]
set flags 0
set txn 0
set count 0
if { [string compare $method DB_RECNO] == 0 } {
set checkfunc test001_recno.check
set put putn
} else {
set checkfunc test001.check
set put put
}
puts "\tTest001.a: put/get loop"
# Here is the loop where we put and get each key/data pair
while { [gets $did str] != -1 && $count < $nentries } {
if { [string compare $method DB_RECNO] == 0 } {
global kvals
set key [expr $count + 1]
set kvals($key) $str
} else {
set key $str
}
set ret [$db $put $txn $key $str $flags]
error_check_good put $ret 0
set ret [$db get $txn $key $flags]
error_check_good get $ret $str
incr count
}
close $did
# Now we will get each key from the DB and compare the results
# to the original.
puts "\tTest001.b: dump file"
dump_file $db $txn $t1 $checkfunc
error_check_good db_close [$db close] 0
# Now compare the keys to see if they match the dictionary (or ints)
if { [string compare $method DB_RECNO] == 0 } {
set oid [open $t2 w]
for {set i 1} {$i <= $nentries} {set i [incr i]} {
puts $oid $i
}
close $oid
exec $MV $t1 $t3
} else {
set q q
exec $SED $nentries$q $dict > $t2
exec $SORT $t1 > $t3
}
error_check_good Test001:diff($t3,$t2) \
[catch { exec $DIFF $t3 $t2 } res] 0
puts "\tTest001.c: close, open, and dump file"
# Now, reopen the file and run the last test again.
open_and_dump_file $testfile NULL $txn $t1 $checkfunc \
dump_file_direction $DB_FIRST $DB_NEXT
if { [string compare $method DB_RECNO] != 0 } {
exec $SORT $t1 > $t3
}
error_check_good Test001:diff($t2,$t3) \
[catch { exec $DIFF $t2 $t3 } res] 0
# Now, reopen the file and run the last test again in the
# reverse direction.
puts "\tTest001.d: close, open, and dump file in reverse direction"
open_and_dump_file $testfile NULL $txn $t1 $checkfunc \
dump_file_direction $DB_LAST $DB_PREV
if { [string compare $method DB_RECNO] != 0 } {
exec $SORT $t1 > $t3
}
error_check_good Test001:diff($t3,$t2) \
[catch { exec $DIFF $t3 $t2 } res] 0
}
# Check function for test001; keys and data are identical
proc test001.check { key data } {
error_check_good "key/data mismatch" $data $key
}
proc test001_recno.check { key data } {
global dict
global kvals
error_check_good key"$key"_exists [info exists kvals($key)] 1
error_check_good "key/data mismatch, key $key" $data $kvals($key)
}