# Helper functions to simulate search-in-radius in the Tcl side in order to # verify the Redis implementation with a fuzzy test. proc geo_degrad deg {expr {$deg*atan(1)*8/360}} proc geo_distance {lon1d lat1d lon2d lat2d} { set lon1r [geo_degrad $lon1d] set lat1r [geo_degrad $lat1d] set lon2r [geo_degrad $lon2d] set lat2r [geo_degrad $lat2d] set v [expr {sin(($lon2r - $lon1r) / 2)}] set u [expr {sin(($lat2r - $lat1r) / 2)}] expr {2.0 * 6372797.560856 * \ asin(sqrt($u * $u + cos($lat1r) * cos($lat2r) * $v * $v))} } proc geo_random_point {lonvar latvar} { upvar 1 $lonvar lon upvar 1 $latvar lat # Note that the actual latitude limit should be -85 to +85, we restrict # the test to -70 to +70 since in this range the algorithm is more precise # while outside this range occasionally some element may be missing. set lon [expr {-180 + rand()*360}] set lat [expr {-70 + rand()*140}] } # Return elements non common to both the lists. # This code is from http://wiki.tcl.tk/15489 proc compare_lists {List1 List2} { set DiffList {} foreach Item $List1 { if {[lsearch -exact $List2 $Item] == -1} { lappend DiffList $Item } } foreach Item $List2 { if {[lsearch -exact $List1 $Item] == -1} { if {[lsearch -exact $DiffList $Item] == -1} { lappend DiffList $Item } } } return $DiffList } # The following list represents sets of random seed, search position # and radius that caused bugs in the past. It is used by the randomized # test later as a starting point. When the regression vectors are scanned # the code reverts to using random data. # # The format is: seed km lon lat set regression_vectors { {1412 156 149.29737817929004 15.95807862745508} {441574 143 59.235461856813856 66.269555127373678} {160645 187 -101.88575239939883 49.061997951502917} {750269 154 -90.187939661642517 66.615930412251487} {342880 145 163.03472387745728 64.012747720821181} {729955 143 137.86663517256579 63.986745399416776} {939895 151 59.149620271823181 65.204186651485145} {1412 156 149.29737817929004 15.95807862745508} {564862 149 84.062063109158544 -65.685403922426232} } set rv_idx 0 start_server {tags {"geo"}} { test {GEOADD create} { r geoadd nyc -73.9454966 40.747533 "lic market" } {1} test {GEOADD update} { r geoadd nyc -73.9454966 40.747533 "lic market" } {0} test {GEOADD invalid coordinates} { catch { r geoadd nyc -73.9454966 40.747533 "lic market" \ foo bar "luck market" } err set err } {*valid*} test {GEOADD multi add} { r geoadd nyc -73.9733487 40.7648057 "central park n/q/r" -73.9903085 40.7362513 "union square" -74.0131604 40.7126674 "wtc one" -73.7858139 40.6428986 "jfk" -73.9375699 40.7498929 "q4" -73.9564142 40.7480973 4545 } {6} test {Check geoset values} { r zrange nyc 0 -1 withscores } {{wtc one} 1791873972053020 {union square} 1791875485187452 {central park n/q/r} 1791875761332224 4545 1791875796750882 {lic market} 1791875804419201 q4 1791875830079666 jfk 1791895905559723} test {GEORADIUS simple (sorted)} { r georadius nyc -73.9798091 40.7598464 3 km asc } {{central park n/q/r} 4545 {union square}} test {GEORADIUS withdist (sorted)} { r georadius nyc -73.9798091 40.7598464 3 km withdist asc } {{{central park n/q/r} 0.7750} {4545 2.3651} {{union square} 2.7697}} test {GEORADIUS with COUNT} { r georadius nyc -73.9798091 40.7598464 10 km COUNT 3 } {{central park n/q/r} 4545 {union square}} test {GEORADIUS with COUNT but missing integer argument} { catch {r georadius nyc -73.9798091 40.7598464 10 km COUNT} e set e } {ERR*syntax*} test {GEORADIUS with COUNT DESC} { r georadius nyc -73.9798091 40.7598464 10 km COUNT 2 DESC } {{wtc one} q4} test {GEORADIUS HUGE, issue #2767} { r geoadd users -47.271613776683807 -54.534504198047678 user_000000 llength [r GEORADIUS users 0 0 50000 km WITHCOORD] } {1} test {GEORADIUSBYMEMBER simple (sorted)} { r georadiusbymember nyc "wtc one" 7 km } {{wtc one} {union square} {central park n/q/r} 4545 {lic market}} test {GEORADIUSBYMEMBER withdist (sorted)} { r georadiusbymember nyc "wtc one" 7 km withdist } {{{wtc one} 0.0000} {{union square} 3.2544} {{central park n/q/r} 6.7000} {4545 6.1975} {{lic market} 6.8969}} test {GEOHASH is able to return geohash strings} { # Example from Wikipedia. r del points r geoadd points -5.6 42.6 test lindex [r geohash points test] 0 } {ezs42e44yx0} test {GEOPOS simple} { r del points r geoadd points 10 20 a 30 40 b lassign [lindex [r geopos points a b] 0] x1 y1 lassign [lindex [r geopos points a b] 1] x2 y2 assert {abs($x1 - 10) < 0.001} assert {abs($y1 - 20) < 0.001} assert {abs($x2 - 30) < 0.001} assert {abs($y2 - 40) < 0.001} } test {GEOPOS missing element} { r del points r geoadd points 10 20 a 30 40 b lindex [r geopos points a x b] 1 } {} test {GEODIST simple & unit} { r del points r geoadd points 13.361389 38.115556 "Palermo" \ 15.087269 37.502669 "Catania" set m [r geodist points Palermo Catania] assert {$m > 166274 && $m < 166275} set km [r geodist points Palermo Catania km] assert {$km > 166.2 && $km < 166.3} } test {GEODIST missing elements} { r del points r geoadd points 13.361389 38.115556 "Palermo" \ 15.087269 37.502669 "Catania" set m [r geodist points Palermo Agrigento] assert {$m eq {}} set m [r geodist points Ragusa Agrigento] assert {$m eq {}} set m [r geodist empty_key Palermo Catania] assert {$m eq {}} } test {GEORADIUS STORE option: syntax error} { r del points r geoadd points 13.361389 38.115556 "Palermo" \ 15.087269 37.502669 "Catania" catch {r georadius points 13.361389 38.115556 50 km store} e set e } {*ERR*syntax*} test {GEORANGE STORE option: incompatible options} { r del points r geoadd points 13.361389 38.115556 "Palermo" \ 15.087269 37.502669 "Catania" catch {r georadius points 13.361389 38.115556 50 km store points2 withdist} e assert_match {*ERR*} $e catch {r georadius points 13.361389 38.115556 50 km store points2 withhash} e assert_match {*ERR*} $e catch {r georadius points 13.361389 38.115556 50 km store points2 withcoords} e assert_match {*ERR*} $e } test {GEORANGE STORE option: plain usage} { r del points r geoadd points 13.361389 38.115556 "Palermo" \ 15.087269 37.502669 "Catania" r georadius points 13.361389 38.115556 500 km store points2 assert_equal [r zrange points 0 -1] [r zrange points2 0 -1] } test {GEORANGE STOREDIST option: plain usage} { r del points r geoadd points 13.361389 38.115556 "Palermo" \ 15.087269 37.502669 "Catania" r georadius points 13.361389 38.115556 500 km storedist points2 set res [r zrange points2 0 -1 withscores] assert {[lindex $res 1] < 1} assert {[lindex $res 3] > 166} assert {[lindex $res 3] < 167} } test {GEORANGE STOREDIST option: COUNT ASC and DESC} { r del points r geoadd points 13.361389 38.115556 "Palermo" \ 15.087269 37.502669 "Catania" r georadius points 13.361389 38.115556 500 km storedist points2 asc count 1 assert {[r zcard points2] == 1} set res [r zrange points2 0 -1 withscores] assert {[lindex $res 0] eq "Palermo"} r georadius points 13.361389 38.115556 500 km storedist points2 desc count 1 assert {[r zcard points2] == 1} set res [r zrange points2 0 -1 withscores] assert {[lindex $res 0] eq "Catania"} } test {GEOADD + GEORANGE randomized test} { set attempt 30 while {[incr attempt -1]} { set rv [lindex $regression_vectors $rv_idx] incr rv_idx unset -nocomplain debuginfo set srand_seed [clock milliseconds] if {$rv ne {}} {set srand_seed [lindex $rv 0]} lappend debuginfo "srand_seed is $srand_seed" expr {srand($srand_seed)} ; # If you need a reproducible run r del mypoints if {[randomInt 10] == 0} { # From time to time use very big radiuses set radius_km [expr {[randomInt 50000]+10}] } else { # Normally use a few - ~200km radiuses to stress # test the code the most in edge cases. set radius_km [expr {[randomInt 200]+10}] } if {$rv ne {}} {set radius_km [lindex $rv 1]} set radius_m [expr {$radius_km*1000}] geo_random_point search_lon search_lat if {$rv ne {}} { set search_lon [lindex $rv 2] set search_lat [lindex $rv 3] } lappend debuginfo "Search area: $search_lon,$search_lat $radius_km km" set tcl_result {} set argv {} for {set j 0} {$j < 20000} {incr j} { geo_random_point lon lat lappend argv $lon $lat "place:$j" set distance [geo_distance $lon $lat $search_lon $search_lat] if {$distance < $radius_m} { lappend tcl_result "place:$j" } lappend debuginfo "place:$j $lon $lat [expr {$distance/1000}] km" } r geoadd mypoints {*}$argv set res [lsort [r georadius mypoints $search_lon $search_lat $radius_km km]] set res2 [lsort $tcl_result] set test_result OK if {$res != $res2} { set rounding_errors 0 set diff [compare_lists $res $res2] foreach place $diff { set mydist [geo_distance $lon $lat $search_lon $search_lat] set mydist [expr $mydist/1000] if {($mydist / $radius_km) > 0.999} {incr rounding_errors} } # Make sure this is a real error and not a rounidng issue. if {[llength $diff] == $rounding_errors} { set res $res2; # Error silenced } } if {$res != $res2} { set diff [compare_lists $res $res2] puts "*** Possible problem in GEO radius query ***" puts "Redis: $res" puts "Tcl : $res2" puts "Diff : $diff" puts [join $debuginfo "\n"] foreach place $diff { if {[lsearch -exact $res2 $place] != -1} { set where "(only in Tcl)" } else { set where "(only in Redis)" } lassign [lindex [r geopos mypoints $place] 0] lon lat set mydist [geo_distance $lon $lat $search_lon $search_lat] set mydist [expr $mydist/1000] puts "$place -> [r geopos mypoints $place] $mydist $where" if {($mydist / $radius_km) > 0.999} {incr rounding_errors} } set test_result FAIL } unset -nocomplain debuginfo if {$test_result ne {OK}} break } set test_result } {OK} }