! Copyright (C) 2005, 2010 Slava Pestov, Joe Groff. ! See http://factorcode.org/license.txt for BSD license. USING: arrays alien.c-types assocs kernel sequences math math.functions grouping math.order math.libm math.floats.private fry combinators byte-arrays accessors locals ; QUALIFIED-WITH: alien.c-types c IN: math.vectors GENERIC: vneg ( u -- v ) M: object vneg [ neg ] map ; inline GENERIC# v+n 1 ( u n -- w ) M: object v+n [ + ] curry map ; inline GENERIC: n+v ( n v -- w ) M: object n+v [ + ] with map ; inline GENERIC# v-n 1 ( u n -- w ) M: object v-n [ - ] curry map ; inline GENERIC: n-v ( n v -- w ) M: object n-v [ - ] with map ; inline GENERIC# v*n 1 ( u n -- w ) M: object v*n [ * ] curry map ; inline GENERIC: n*v ( n v -- w ) M: object n*v [ * ] with map ; inline GENERIC# v/n 1 ( u n -- w ) M: object v/n [ / ] curry map ; inline GENERIC: n/v ( n v -- w ) M: object n/v [ / ] with map ; inline GENERIC: v+ ( u v -- w ) M: object v+ [ + ] 2map ; inline GENERIC: v- ( u v -- w ) M: object v- [ - ] 2map ; inline GENERIC: [v-] ( u v -- w ) M: object [v-] [ [-] ] 2map ; inline GENERIC: v* ( u v -- w ) M: object v* [ * ] 2map ; inline GENERIC: v*high ( u v -- w ) [ first2 + ] map ; PRIVATE> GENERIC: v*hs+ ( u v -- w ) M: object v*hs+ [ * ] 2map (h+) ; inline GENERIC: v/ ( u v -- w ) M: object v/ [ / ] 2map ; inline GENERIC: v^ ( u v -- w ) M: object v^ [ ^ ] 2map ; inline GENERIC: v^n ( u n -- w ) M: object v^n [ ^ ] curry map ; inline GENERIC: n^v ( n v -- w ) M: object n^v [ ^ ] with map ; inline GENERIC: vavg ( u v -- w ) M: object vavg [ + 2 / ] 2map ; inline GENERIC: vmax ( u v -- w ) M: object vmax [ max ] 2map ; inline GENERIC: vmin ( u v -- w ) M: object vmin [ min ] 2map ; inline GENERIC: v+- ( u v -- w ) M: object v+- [ t ] 2dip [ [ not ] 2dip pick [ + ] [ - ] if ] 2map nip ; inline GENERIC: vs+ ( u v -- w ) M: object vs+ [ + ] 2map ; inline GENERIC: vs- ( u v -- w ) M: object vs- [ - ] 2map ; inline GENERIC: vs* ( u v -- w ) M: object vs* [ * ] 2map ; inline GENERIC: vabs ( u -- v ) M: object vabs [ abs ] map ; inline GENERIC: vsqrt ( u -- v ) M: object vsqrt [ >float fsqrt ] map ; inline GENERIC: vsad ( u v -- n ) M: object vsad [ - abs ] [ + ] 2map-reduce ; inline GENERIC: vbitand ( u v -- w ) M: object vbitand [ bitand ] 2map ; inline GENERIC: vbitandn ( u v -- w ) M: object vbitandn [ bitandn ] 2map ; inline GENERIC: vbitor ( u v -- w ) M: object vbitor [ bitor ] 2map ; inline GENERIC: vbitxor ( u v -- w ) M: object vbitxor [ bitxor ] 2map ; inline GENERIC: vbitnot ( u -- w ) M: object vbitnot [ bitnot ] map ; inline GENERIC# vbroadcast 1 ( u n -- v ) M:: object vbroadcast ( u n -- v ) u length n u nth u like ; inline GENERIC# vshuffle-elements 1 ( u perm -- v ) M: object vshuffle-elements over length 0 pad-tail swap [ '[ _ nth ] ] keep map-as ; inline GENERIC# vshuffle2-elements 1 ( u v perm -- w ) M: object vshuffle2-elements [ append ] dip vshuffle-elements ; inline GENERIC# vshuffle-bytes 1 ( u perm -- v ) GENERIC: vshuffle ( u perm -- v ) M: array vshuffle ( u perm -- v ) vshuffle-elements ; inline GENERIC# vlshift 1 ( u n -- w ) M: object vlshift '[ _ shift ] map ; inline GENERIC# vrshift 1 ( u n -- w ) M: object vrshift neg '[ _ shift ] map ; inline GENERIC# hlshift 1 ( u n -- w ) GENERIC# hrshift 1 ( u n -- w ) GENERIC: (vmerge-head) ( u v -- h ) M: object (vmerge-head) over length 2 /i '[ _ head-slice ] bi@ [ zip ] keep concat-as ; inline GENERIC: (vmerge-tail) ( u v -- t ) M: object (vmerge-tail) over length 2 /i '[ _ tail-slice ] bi@ [ zip ] keep concat-as ; inline : (vmerge) ( u v -- h t ) [ (vmerge-head) ] [ (vmerge-tail) ] 2bi ; inline GENERIC: vmerge ( u v -- w ) M: object vmerge [ zip ] keep concat-as ; inline GENERIC: vand ( u v -- w ) M: object vand [ and ] 2map ; inline GENERIC: vandn ( u v -- w ) M: object vandn [ [ not ] dip and ] 2map ; inline GENERIC: vor ( u v -- w ) M: object vor [ or ] 2map ; inline GENERIC: vxor ( u v -- w ) M: object vxor [ xor ] 2map ; inline GENERIC: vnot ( u -- w ) M: object vnot [ not ] map ; inline GENERIC: vall? ( v -- ? ) M: object vall? [ ] all? ; inline GENERIC: vcount ( v -- count ) M: object vcount [ ] count ; inline GENERIC: vany? ( v -- ? ) M: object vany? [ ] any? ; inline GENERIC: vnone? ( v -- ? ) M: object vnone? [ not ] all? ; inline GENERIC: v< ( u v -- w ) M: object v< [ < ] 2map ; inline GENERIC: v<= ( u v -- w ) M: object v<= [ <= ] 2map ; inline GENERIC: v>= ( u v -- w ) M: object v>= [ >= ] 2map ; inline GENERIC: v> ( u v -- w ) M: object v> [ > ] 2map ; inline GENERIC: vunordered? ( u v -- w ) M: object vunordered? [ unordered? ] 2map ; inline GENERIC: v= ( u v -- w ) M: object v= [ = ] 2map ; inline GENERIC: v? ( mask true false -- result ) M: object v? [ vand ] [ vandn ] bi-curry* bi vor ; inline : vif ( mask true-quot: ( -- vector ) false-quot: ( -- vector ) -- result ) { { [ pick vall? ] [ drop nip call ] } { [ pick vnone? ] [ 2nip call ] } [ [ call ] dip call v? ] } cond ; inline : vfloor ( u -- v ) [ floor ] map ; : vceiling ( u -- v ) [ ceiling ] map ; : vtruncate ( u -- v ) [ truncate ] map ; : vsupremum ( seq -- vmax ) [ ] [ vmax ] map-reduce ; inline : vinfimum ( seq -- vmin ) [ ] [ vmin ] map-reduce ; inline GENERIC: v. ( u v -- x ) M: object v. [ * ] [ + ] 2map-reduce ; inline GENERIC: h. ( u v -- x ) M: object h. [ conjugate * ] [ + ] 2map-reduce ; inline GENERIC: norm-sq ( v -- x ) M: object norm-sq [ absq ] [ + ] map-reduce ; inline : l1-norm ( v -- x ) [ abs ] map-sum ; inline : norm ( v -- x ) norm-sq sqrt ; inline : p-norm-default ( v p -- x ) [ [ [ abs ] dip ^ ] curry map-sum ] keep recip ^ ; inline : p-norm ( v p -- x ) { { [ dup 1 = ] [ drop l1-norm ] } { [ dup 2 = ] [ drop norm ] } { [ dup fp-infinity? ] [ drop supremum ] } [ p-norm-default ] } cond ; : normalize ( u -- v ) dup norm v/n ; inline GENERIC: distance ( u v -- x ) M: object distance [ - absq ] [ + ] 2map-reduce sqrt ; inline : set-axis ( u v axis -- w ) [ [ zero? 2over ? ] dip swap nth ] map-index 2nip ; : trilerp ( aaa baa aba bba aab bab abb bbb {t,u,v} -- a_tuv ) [ first lerp ] [ second lerp ] [ third lerp ] tri-curry [ 2tetra@ ] [ 2bi@ ] [ call ] tri* ; inline : bilerp ( aa ba ab bb {t,u} -- a_tu ) [ first lerp ] [ second lerp ] bi-curry [ 2bi@ ] [ call ] bi* ; inline : vlerp ( a b t -- a_t ) [ over v- ] dip v* v+ ; inline : vnlerp ( a b t -- a_t ) [ over v- ] dip v*n v+ ; inline : vbilerp ( aa ba ab bb {t,u} -- a_tu ) [ first vnlerp ] [ second vnlerp ] bi-curry [ 2bi@ ] [ call ] bi* ; inline : v~ ( a b epsilon -- ? ) [ ~ ] curry 2all? ; inline