! Copyright (C) 2008 Doug Coleman, Michael Judge, Loryn Jenkins. ! See http://factorcode.org/license.txt for BSD license. USING: accessors arrays assocs combinators combinators.short-circuit fry generalizations grouping kernel locals math math.functions math.order ranges math.vectors sequences sequences.private sorting ; IN: math.statistics : power-mean ( seq p -- x ) [ '[ _ ^ ] map-sum ] [ [ length / ] [ recip ^ ] bi* ] 2bi ; inline ! Delta in degrees-of-freedom : mean-ddof ( seq ddof -- x ) [ [ sum ] [ length ] bi ] dip - [ drop 0 ] [ / ] if-zero ; inline : mean ( seq -- x ) 0 mean-ddof ; inline : meanest ( seq -- x ) [ mean ] keep [ - abs ] with infimum-by ; GENERIC: sum-of-squares ( seq -- x ) M: object sum-of-squares [ sq ] map-sum ; M: iota sum-of-squares n>> 1 - [ ] [ 1 + ] [ 1/2 + ] tri * * 3 / ; M: ranges:range sum-of-squares dup { [ step>> 1 = ] [ from>> integer? ] } 1&& [ [ from>> ] [ length>> ] bi dupd + [ sum-of-squares ] bi@ swap - ] [ call-next-method ] if ; GENERIC: sum-of-cubes ( seq -- x ) M: object sum-of-cubes [ 3 ^ ] map-sum ; M: iota sum-of-cubes sum sq ; M: ranges:range sum-of-cubes dup { [ step>> 1 = ] [ from>> integer? ] } 1&& [ [ from>> ] [ length>> ] bi dupd + [ sum-of-cubes ] bi@ swap - ] [ call-next-method ] if ; GENERIC: sum-of-quads ( seq -- x ) M: object sum-of-quads [ 4 ^ ] map-sum ; M: iota sum-of-quads [let n>> 1 - :> n n 0 > [ n n 1 + n 2 * 1 + n sq 3 * n 3 * + 1 - * * * 30 / ] [ 0 ] if ] ; M: ranges:range sum-of-quads dup { [ step>> 1 = ] [ from>> integer? ] } 1&& [ [ from>> ] [ length>> ] bi dupd + [ sum-of-quads ] bi@ swap - ] [ call-next-method ] if ; : sum-of-squared-errors ( seq -- x ) [ mean ] keep [ - sq ] with map-sum ; inline : sum-of-absolute-errors ( seq -- x ) [ mean ] keep [ - ] with map-sum ; inline : quadratic-mean ( seq -- x ) ! root-mean-square [ sum-of-squares ] [ length ] bi / sqrt ; inline : geometric-mean ( seq -- x ) [ [ log ] map-sum ] [ length ] bi /f e^ ; inline : harmonic-mean ( seq -- x ) [ [ recip ] map-sum ] [ length swap / ] bi ; inline : contraharmonic-mean ( seq -- x ) [ sum-of-squares ] [ sum ] bi / ; inline integer ] keep over - ] keep ; PRIVATE> : trimmed-mean ( seq p -- x ) swap natural-sort trim-points mean ; : winsorized-mean ( seq p -- x ) swap natural-sort trim-points [ ] [ nip dupd nth ] [ [ 1 - ] dip nth ] 3tri surround mean ; i! 0 :> j! 0 :> l! 0 :> x! seq length 1 - :> m! [ l m < ] [ k seq nth-unsafe x! l i! m j! [ i j <= ] [ [ i seq nth-quot call x quot call ] [ i 1 + i! ] while [ x j seq nth-quot call quot call ] [ j 1 - j! ] while i j <= [ i j seq exchange-quot call i 1 + i! j 1 - j! ] when ] do while j k < [ i l! ] when k i < [ j m! ] when ] while k seq nth-unsafe ; inline : (kth-object) ( seq k nth-quot exchange-quot quot: ( x y -- ? ) -- elt ) ! The algorithm modifies seq, so we clone it [ >array ] 4dip kth-object-impl ; inline : kth-object-unsafe ( seq k quot: ( x y -- ? ) -- elt ) [ [ nth-unsafe ] [ exchange-unsafe ] ] dip (kth-object) ; inline : kth-objects-unsafe ( seq kths quot: ( x y -- ? ) -- elts ) '[ _ kth-object-unsafe ] with map ; inline PRIVATE> : kth-object ( seq k quot: ( x y -- ? ) -- elt ) [ [ nth ] [ exchange ] ] dip (kth-object) ; inline : kth-objects ( seq kths quot: ( x y -- ? ) -- elts ) '[ _ kth-object ] with map ; inline : kth-smallests ( seq kths -- elts ) [ < ] kth-objects-unsafe ; : kth-smallest ( seq k -- elt ) [ < ] kth-object-unsafe ; : kth-largests ( seq kths -- elts ) [ > ] kth-objects-unsafe ; : kth-largest ( seq k -- elt ) [ > ] kth-object-unsafe ; : count-relative ( seq k -- lt eq gt ) [ 0 0 0 ] 2dip '[ _ <=> { { +lt+ [ [ 1 + ] 2dip ] } { +gt+ [ 1 + ] } { +eq+ [ [ 1 + ] dip ] } } case ] each ; : minmax-relative ( seq k -- lt eq gt lt-max gt-min ) [ 0 0 0 -1/0. 1/0. ] 2dip '[ dup _ <=> { { +lt+ [ [ 1 + ] 5 ndip '[ _ max ] dip ] } { +gt+ [ [ 1 + ] 3dip min ] } { +eq+ [ [ 1 + ] 4dip drop ] } } case ] each ; : lower-median-index ( seq -- n ) [ midpoint@ ] [ length odd? [ 1 - ] unless ] bi ; : lower-median ( seq -- elt ) [ ] [ lower-median-index ] bi kth-smallest ; : upper-median ( seq -- elt ) dup midpoint@ kth-smallest ; : medians ( seq -- lower upper ) [ ] [ [ lower-median-index ] [ midpoint@ ] bi 2array ] bi kth-smallests first2 ; : median ( seq -- x ) dup length odd? [ lower-median ] [ medians + 2 / ] if ; ! quantile can be any n-tile. quartile is n = 4, percentile is n = 100 ! a,b,c,d parameters, N - number of samples, q is quantile (1/2 for median, 1/4 for 1st quartile) ! http://mathworld.wolfram.com/Quantile.html ! a + (N + b) q - 1 ! could subtract 1 from a : quantile-x ( a b N q -- x ) [ + ] dip * + 1 - ; inline ! 2+1/4 frac is 1/4 : frac ( x -- x' ) >fraction [ /mod nip ] keep / ; inline :: quantile-indices ( seq qs a b -- seq ) qs [ [ a b seq length ] dip quantile-x ] map ; :: qabcd ( y-floor y-ceiling x c d -- qabcd ) y-floor y-ceiling y-floor - c d x frac * + * + ; :: quantile-abcd ( seq qs a b c d -- quantile ) seq qs a b quantile-indices :> indices indices [ [ floor 0 max ] [ ceiling seq length 1 - min ] bi 2array ] map concat :> index-pairs seq index-pairs kth-smallests 2 group indices [ [ first2 ] dip c d qabcd ] 2map ; : quantile1 ( seq qs -- seq' ) 0 0 1 0 quantile-abcd ; : quantile3 ( seq qs -- seq' ) 1/2 0 0 0 quantile-abcd ; : quantile4 ( seq qs -- seq' ) 0 0 0 1 quantile-abcd ; : quantile5 ( seq qs -- seq' ) 1/2 0 0 1 quantile-abcd ; : quantile6 ( seq qs -- seq' ) 0 1 0 1 quantile-abcd ; : quantile7 ( seq qs -- seq' ) 1 -1 0 1 quantile-abcd ; : quantile8 ( seq qs -- seq' ) 1/3 1/3 0 1 quantile-abcd ; : quantile9 ( seq qs -- seq' ) 3/8 1/4 0 1 quantile-abcd ; : quartile ( seq -- seq' ) { 1/4 1/2 3/4 } quantile5 ; : interquartile ( seq -- q1 q3 ) quartile [ first ] [ last ] bi ; : interquartile-range ( seq -- n ) interquartile - ; : midhinge ( seq -- n ) interquartile + 2 / ; : trimean ( seq -- x ) quartile first3 [ 2 * ] dip + + 4 / ; : histogram-by! ( assoc seq quot: ( x -- bin ) -- hashtable ) rot [ '[ @ _ inc-at ] each ] keep ; inline : histogram! ( hashtable seq -- hashtable ) [ ] histogram-by! ; inline : histogram-by ( seq quot: ( x -- bin ) -- hashtable ) [ H{ } clone ] 2dip histogram-by! ; inline : histogram ( seq -- hashtable ) [ ] histogram-by ; : sorted-histogram ( seq -- alist ) histogram sort-values ; : normalized-histogram ( seq -- alist ) [ histogram ] [ length ] bi '[ _ / ] assoc-map ; : equal-probabilities ( n -- array ) dup recip ; inline : mode ( seq -- x ) histogram >alist [ second ] supremum-by first ; : minmax ( seq -- min max ) [ first dup ] keep [ [ min ] [ max ] bi-curry bi* ] 1 each-from ; : range ( seq -- x ) minmax swap - ; : fivenum ( seq -- seq' ) [ quartile ] [ minmax ] bi [ prefix ] [ suffix ] bi* ; : var-ddof ( seq n -- x ) 2dup [ length ] dip - 0 <= [ 2drop 0 ] [ [ [ sum-of-squared-errors ] [ length ] bi ] dip - / ] if ; inline : population-var ( seq -- x ) 0 var-ddof ; inline : sample-var ( seq -- x ) 1 var-ddof ; inline : std-ddof ( seq n -- x ) var-ddof sqrt ; inline : population-std ( seq -- x ) 0 std-ddof ; inline : sample-std ( seq -- x ) 1 std-ddof ; inline ALIAS: std sample-std : signal-to-noise ( seq -- x ) [ mean ] [ population-std ] bi / ; : demean ( seq -- seq' ) dup mean v-n ; : mean-dev ( seq -- x ) demean vabs mean ; : demedian ( seq -- seq' ) dup median v-n ; : median-dev ( seq -- x ) demedian vabs mean ; : ste-ddof ( seq n -- x ) '[ _ std-ddof ] [ length ] bi sqrt / ; : population-ste ( seq -- x ) 0 ste-ddof ; : sample-ste ( seq -- x ) 1 ste-ddof ; : pearson-r ( xy-pairs -- r ) r-stats (r) ; : least-squares ( xy-pairs -- alpha beta ) r-stats [ 2dup ] 4dip ! stack is x-mean y-mean x-mean y-mean x-seq y-seq x-std y-std [ (r) ] 2keep ! stack is mean(x) mean(y) r sx sy swap / * ! stack is mean(x) mean(y) beta [ swapd * - ] keep ; : cov-ddof ( x-seq y-seq ddof -- cov ) [ [ demean ] bi@ v* ] dip mean-ddof ; : population-cov ( x-seq y-seq -- cov ) 0 cov-ddof ; inline : sample-cov ( x-seq y-seq -- cov ) 1 cov-ddof ; inline : corr-ddof ( x-seq y-seq n -- corr ) [ [ population-cov ] ] dip '[ [ _ var-ddof ] bi@ * sqrt ] 2bi / ; : population-corr ( x-seq y-seq -- corr ) 0 corr-ddof ; inline : sample-corr ( x-seq y-seq -- corr ) 1 corr-ddof ; inline : cum-sum ( seq -- seq' ) 0 [ + ] accumulate* ; : cum-sum0 ( seq -- seq' ) 0 [ + ] accumulate nip ; : cum-product ( seq -- seq' ) 1 [ * ] accumulate* ; : cum-product1 ( seq -- seq' ) 1 [ * ] accumulate nip ; : cum-mean ( seq -- seq' ) 0 swap [ [ + dup ] dip 1 + / ] map-index nip ; : cum-count ( seq quot: ( elt -- ? ) -- seq' ) [ 0 ] dip '[ @ [ 1 + ] when ] accumulate* ; inline : cum-min ( seq -- seq' ) dup ?first [ min ] accumulate* ; : cum-max ( seq -- seq' ) dup ?first [ max ] accumulate* ; : entropy ( probabilities -- n ) dup sum '[ _ / dup log * ] map-sum neg ; : maximum-entropy ( probabilities -- n ) length log ; : normalized-entropy ( probabilities -- n ) [ entropy ] [ maximum-entropy ] bi / ; : binary-entropy ( p -- h ) [ dup log * ] [ 1 swap - dup log * ] bi + neg 2 log / ; : standardize ( u -- v ) [ demean ] [ sample-std ] bi [ v/n ] unless-zero ; : standardize-2d ( u -- v ) flip [ standardize ] map flip ; : differences ( u -- v ) [ rest-slice ] keep v- ; : rescale ( u -- v ) dup minmax over - [ v-n ] [ v/n ] bi* ; : rankings ( histogram -- assoc ) sort-keys 0 swap [ rot [ + ] keep swapd ] H{ } assoc-map-as nip ; : rank-values ( seq -- seq' ) dup histogram rankings '[ _ at ] map ; : z-score ( seq -- n ) [ demean ] [ sample-std ] bi v/n ; : dcg ( scores -- dcg ) dup length 1 + 2 swap [a..b] [ log 2 log /f ] map v/ sum ; : ndcg ( scores -- ndcg ) [ 0.0 ] [ dup dcg [ drop 0.0 ] [ swap natural-sort dcg /f ] if-zero ] if-empty ;