%!PS % begin included library code % see https://github.com/Firedrake/postscript-libraries/ /genprimes { 6 dict begin /mx exch def /primesh mx dict def 2 1 3 { primesh exch true put } for 6 6 mx 1 add { dup 1 sub exch 1 add 2 exch { dup mx le { primesh exch true put } { pop } ifelse } for } for /q [ 3 5 7 ] def /qi 0 def /p 2 def /mr mx sqrt cvi def { p mr le not { exit } if primesh p known { p dup mul p mx { primesh exch undef } for } if q length qi sub 2 le { /q q q q length 1 sub get 4 add apush def /q q q q length 1 sub get 2 add apush def } if /p q qi get def /qi qi 1 add def } loop primesh keys end } bind def /reduce { % array proc -> value 2 dict begin /p exch def /a exch def a 0 get 1 1 a length 1 sub { a exch get p } for end } bind def /test.end { ( ) print test.count 0 gt { (Passed ) print test.pass (...) cvs print (/) print test.count (...) cvs print ( \() print test.pass 100 mul test.count idiv (...) cvs print (%\)) print (\r\n) print } if } bind def /test { /test.count test.count 1 add def { /test.pass test.pass 1 add def } { ( ) print test.count (....) cvs print (-fail) print } ifelse } bind def /toset { % array -> dict of (value, true) << exch { true } forall >> } bind def /quicksort.swap { 2 dict begin /bi exch def /ai exch def arr ai get arr bi get arr exch ai exch put arr exch bi exch put end } bind def /quicksort { % [ a c b ] -> [ a b c ] 1 dict begin /arr exch def 0 arr length 1 sub quicksort.main arr end } bind def /keys { % dict -> array of dict keys [ exch { pop } forall ] } bind def /quicksort.partition { 3 dict begin /pivot arr hi lo add 2 idiv get def /i lo 1 sub def /j hi 1 add def { { /i i 1 add def arr i get pivot ge { exit } if } loop { /j j 1 sub def arr j get pivot le { exit } if } loop i j ge { j exit } if i j quicksort.swap } loop end } bind def /test.start { print (:) print /test.pass 0 def /test.count 0 def } bind def /deepeq { 2 dict begin /a exch def /b exch def a type b type eq { a type /dicttype eq { a length b length eq { << a { pop true } forall b { pop true } forall >> true exch { pop dup a exch known { dup b exch known { dup a exch get exch b exch get deepeq not { pop false } if } { false } ifelse } { false } ifelse } forall } { false } ifelse } { a type dup /arraytype eq exch /stringtype eq or { a length b length eq { true 0 1 a length 1 sub { dup a exch get exch b exch get deepeq not { pop false exit } if } for } { false } ifelse } { a b eq } ifelse } ifelse } { false } ifelse end } bind def /quicksort.main { % lo hi -> (null) 3 dict begin /hi exch def /lo exch def /xit false def lo 0 lt { /xit true def } if hi 0 lt { /xit true def } if lo hi ge { /xit true def } if xit not { /p quicksort.partition def lo p quicksort.main p 1 add hi quicksort.main } if end } bind def /apop.right { % [a b c] -> [a b] c [ exch aload length 1 add 1 roll ] exch } bind def /apush.right { % [a b] c -> [a b c] exch [ exch aload length 2 add -1 roll ] } bind def /apush { apush.right } bind def % end included library code /primepartition { 6 dict begin /divs exch def /n exch def /p [ 0 array ] def /pl n genprimes quicksort def [ n ] { p length 0 eq { exit } if p apop.right /pa exch def /p exch def pa length divs eq { pa { add } reduce n eq { pop pa exit } if } { /px pa toset def pl { /pq exch def px pq known not { /p p [ pa aload pop pq ] apush.right def } if } forall } ifelse } loop end } bind def (primepartition) test.start 18 2 primepartition [ 13 5 ] deepeq test 19 3 primepartition [ 11 5 3 ] deepeq test test.end