# See the file LICENSE for redistribution information. # # Copyright (c) 2001-2003 # Sleepycat Software. All rights reserved. # # $Id: sijointest.tcl,v 11.3 2003/01/08 05:53:29 bostic Exp $ # # TEST sijointest: Secondary index and join test. # TEST This used to be si005.tcl. proc sijointest { methods {nitems 1000} args } { source ./include.tcl # Primary method/args. set pmethod [lindex $methods 0] set pargs [convert_args $pmethod $args] set pomethod [convert_method $pmethod] # Si005 does a join within a simulated database schema # in which the primary index maps a record ID to a ZIP code and # name in the form "XXXXXname", and there are two secondaries: # one mapping ZIP to ID, the other mapping name to ID. # The primary may be of any database type; the two secondaries # must be either btree or hash. # Method/args for all the secondaries. If only one method # was specified, assume the same method for the two secondaries. set methods [lrange $methods 1 end] if { [llength $methods] == 0 } { for { set i 0 } { $i < 2 } { incr i } { lappend methods $pmethod } } elseif { [llength $methods] != 2 } { puts "FAIL: Sijoin requires exactly two secondaries." return } set argses [convert_argses $methods $args] set omethods [convert_methods $methods] puts "Sijoin ($pmethod/$methods) Secondary index join test." env_cleanup $testdir set pname "sijoin-primary.db" set zipname "sijoin-zip.db" set namename "sijoin-name.db" # Open an environment # XXX if one is not supplied! set env [berkdb_env -create -home $testdir] error_check_good env_open [is_valid_env $env] TRUE # Open the databases. set pdb [eval {berkdb_open -create -env} $env $pomethod $pargs $pname] error_check_good primary_open [is_valid_db $pdb] TRUE set zipdb [eval {berkdb_open -create -dup -env} $env \ [lindex $omethods 0] [lindex $argses 0] $zipname] error_check_good zip_open [is_valid_db $zipdb] TRUE error_check_good zip_associate [$pdb associate sj_getzip $zipdb] 0 set namedb [eval {berkdb_open -create -dup -env} $env \ [lindex $omethods 1] [lindex $argses 1] $namename] error_check_good name_open [is_valid_db $namedb] TRUE error_check_good name_associate [$pdb associate sj_getname $namedb] 0 puts "\tSijoin.a: Populate database with $nitems \"names\"" sj_populate $pdb $nitems puts "\tSijoin.b: Perform a join on each \"name\" and \"ZIP\"" sj_jointest $pdb $zipdb $namedb error_check_good name_close [$namedb close] 0 error_check_good zip_close [$zipdb close] 0 error_check_good primary_close [$pdb close] 0 error_check_good env_close [$env close] 0 } proc sj_jointest { pdb zipdb namedb } { set pdbc [$pdb cursor] error_check_good pdb_cursor [is_valid_cursor $pdbc $pdb] TRUE for { set dbt [$pdbc get -first] } { [llength $dbt] > 0 } \ { set dbt [$pdbc get -next] } { set item [lindex [lindex $dbt 0] 1] set retlist [sj_dojoin $item $pdb $zipdb $namedb] } } proc sj_dojoin { item pdb zipdb namedb } { set name [sj_getname "" $item] set zip [sj_getzip "" $item] set zipc [$zipdb cursor] error_check_good zipc($item) [is_valid_cursor $zipc $zipdb] TRUE set namec [$namedb cursor] error_check_good namec($item) [is_valid_cursor $namec $namedb] TRUE set pc [$pdb cursor] error_check_good pc($item) [is_valid_cursor $pc $pdb] TRUE set ret [$zipc get -set $zip] set zd [lindex [lindex $ret 0] 1] error_check_good zipset($zip) [sj_getzip "" $zd] $zip set ret [$namec get -set $name] set nd [lindex [lindex $ret 0] 1] error_check_good nameset($name) [sj_getname "" $nd] $name set joinc [$pdb join $zipc $namec] set anyreturned 0 for { set dbt [$joinc get] } { [llength $dbt] > 0 } \ { set dbt [$joinc get] } { set ritem [lindex [lindex $dbt 0] 1] error_check_good returned_item($item) $ritem $item incr anyreturned } error_check_bad anyreturned($item) $anyreturned 0 error_check_good joinc_close($item) [$joinc close] 0 error_check_good pc_close($item) [$pc close] 0 error_check_good namec_close($item) [$namec close] 0 error_check_good zipc_close($item) [$zipc close] 0 } proc sj_populate { db nitems } { global dict set did [open $dict] for { set i 1 } { $i <= $nitems } { incr i } { gets $did word if { [string length $word] < 3 } { gets $did word if { [string length $word] < 3 } { puts "FAIL:\ unexpected pair of words < 3 chars long" } } set datalist [sj_name2zips $word] foreach data $datalist { error_check_good db_put($data) [$db put $i $data$word] 0 } } close $did } proc sj_getzip { key data } { return [string range $data 0 4] } proc sj_getname { key data } { return [string range $data 5 end] } # The dirty secret of this test is that the ZIP code is a function of the # name, so we can generate a database and then verify join results easily # without having to consult actual data. # # Any word passed into this function will generate from 1 to 26 ZIP # entries, out of the set {00000, 01000 ... 99000}. The number of entries # is just the position in the alphabet of the word's first letter; the # entries are then hashed to the set {00, 01 ... 99} N different ways. proc sj_name2zips { name } { global alphabet set n [expr [string first [string index $name 0] $alphabet] + 1] error_check_bad starts_with_abc($name) $n -1 set ret {} for { set i 0 } { $i < $n } { incr i } { set b 0 for { set j 1 } { $j < [string length $name] } \ { incr j } { set b [sj_nhash $name $i $j $b] } lappend ret [format %05u [expr $b % 100]000] } return $ret } proc sj_nhash { name i j b } { global alphabet set c [string first [string index $name $j] $alphabet'] return [expr (($b * 991) + ($i * 997) + $c) % 10000000] }