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sqlite/ext/rtree/util/randomshape.tcl
drh 7894b8547d Add the randomshape.tcl test-case generator script to the util subdirectory
of the rtree extension.

FossilOrigin-Name: 8f48991dcbb01e21d065fbba7782a6d1aebaa8065841a70a76af1e5a21f18ea4
2018-09-06 14:01:56 +00:00

88 lines
2.5 KiB
Tcl

#!/usr/bin/tclsh
#
# This script generates a cluster of random polygons that are useful
# for testing the geopoly extension.
#
# Usage:
#
# tclsh randomshape.tcl | tee x.sql | sqlite3 >x.html
#
# The output files are x.sql and x.html. Run the above multiple times
# until an interesting "x.html" file is found, then use the "x.sql" inputs
# to construct test cases.
#
proc randomenclosure {cx cy p1 p2 p3 p4} {
set r 0
set pi 3.145926
set pi2 [expr {$pi*2}]
set x0 [expr {$cx + rand()*$p3 + $p4}]
set ans "\[\[$x0,$cy\]"
while {1} {
set r [expr {$r+$p1+$p2*rand()}]
if {$r>=$pi2} break
set m [expr {rand()*$p3 + $p4}]
set x [expr {$cx+$m*cos($r)}]
set y [expr {$cy+$m*sin($r)}]
append ans ",\[$x,$y\]"
}
append ans ",\[$x0,$cy\]\]"
return $ans
}
proc randomshape1 {} {
set cx [expr {100+int(rand()*800)}]
set cy [expr {100+int(rand()*600)}]
set p1 [expr {rand()*0.1}]
set p2 [expr {rand()*0.5+0.5}]
set p3 [expr {rand()*100+25}]
set p4 [expr {rand()*25}]
return [randomenclosure $cx $cy $p1 $p2 $p3 $p4]
}
proc randomshape1_sm {} {
set cx [expr {100+int(rand()*800)}]
set cy [expr {100+int(rand()*600)}]
set p1 [expr {rand()*0.1}]
set p2 [expr {rand()*0.5+0.5}]
set p3 [expr {rand()*10+25}]
set p4 [expr {rand()*5}]
return [randomenclosure $cx $cy $p1 $p2 $p3 $p4]
}
proc randomshape2 {} {
set cx [expr {400+int(rand()*200)}]
set cy [expr {300+int(rand()*200)}]
set p1 [expr {rand()*0.05}]
set p2 [expr {rand()*0.5+0.5}]
set p3 [expr {rand()*50+200}]
set p4 [expr {rand()*50+100}]
return [randomenclosure $cx $cy $p1 $p2 $p3 $p4]
}
proc randomcolor {} {
set n [expr {int(rand()*5)}]
return [lindex {red orange green blue purple} $n]
}
puts {.print '<html>'}
puts {.print '<svg width="1000" height="800" style="border:1px solid black">'}
puts {CREATE TABLE t1(poly,clr);}
puts {CREATE TABLE t2(poly,clr);}
for {set i 0} {$i<30} {incr i} {
puts "INSERT INTO t1(rowid,poly,clr)"
puts " VALUES($i,'[randomshape1]','[randomcolor]');"
}
for {set i 30} {$i<80} {incr i} {
puts "INSERT INTO t1(rowid,poly,clr)"
puts " VALUES($i,'[randomshape1_sm]','[randomcolor]');"
}
for {set i 100} {$i<105} {incr i} {
puts "INSERT INTO t2(rowid,poly,clr)"
puts " VALUES($i,'[randomshape2]','[randomcolor]');"
}
puts {DELETE FROM t1 WHERE geopoly_json(poly) IS NULL;}
puts {SELECT geopoly_svg(poly,
printf('style="fill:none;stroke:%s;stroke-width:1;"',clr))
FROM t1;}
puts {SELECT geopoly_svg(poly,
printf('style="fill:none;stroke:%s;stroke-width:2;"',clr))
FROM t2;}
puts {.print '<svg>'}